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archive.org/details/videnskabeligeme76dans

fra

Dansk naturhistorisk Forening i København
111

Bind 76.

Udgivne af Selskabets Bestyrelse.

Med 3 Tavler og 28 Figurer i Teksten.

Ottende Aartis fjerde Aargang. Il.

København
I Kommission hos C. A. Reitzel.
- 1923.

Redaktionen af dette Bind er besørget af Professor, Dr. Ad. S. Jensen. ; N
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Indhold.

Side
Car With: AF KEStED NENS DE Er V
Chrishant Petersen EA MC MESSEN ENE Er Seele XIII

Oversigt over de videnskabelige Møder i Dansk naturhistorisk Forening
fra sl PA pri OP 2 Mt NS AN ar ST OPER SNE NE SENE ERR XIX
Dei Aaret "19227af "Foreningen" foretagne TEkskursioners ss SEER XX
MeddelelseromidensSehib byers ker Præmie EEN EN ENN XXIV
Regler fort UddelingenkafidenksSchibbyes ker Præmie EEK SR XXV."
Aarsberetning for 1923, afgivet af Udvalget for Naturfredning........ XXV II
Dånsk naturhistorisk Forenings Medlemmer og dens Bestyrelse ..... XXIX

H. Blegvad: Preliminary Note on the Eggs and Larvae of Årenicola ma-
ring ES (Med ÅR Fjour Tek Ste) ERE Eee . l

K. Stephensen: Revideret Fortegnelse over Danmarks Arter af Amphi-
poda (1. Del). (Hyperiidea; Gammaridea: Lysianassidæ) ......... 5

W. Fischer : Gephyreen des Golfes von Siam. (Med 3 Figurer i Teksten) 21
Rich. Ege: Respirationsforholdene hos Hydrocampa nymphaeata (Larve
os HPippe) (Med Eisner Abe KS ED) eee 29
C. V. Otterstrøm : Ichthyologiske Notitser. III. Dyndsmerlingen (Cobitis
fossilis L.) i Danmark. IV. Bastarder mellem forskellige Karpefisk.

(Med Figurer seksten) EET REE 43
Th. Mortensen : The Danish Expedition to the Kei Islands 1922. (Med
3 TaylertogssSErenrersikleksten) ES SES SE SU SEERE 55

Will. Lundbeck : Some Remarks on the Biology of the Sciomyzidae to-
gether with the description of a new Species of Ctenulus from

Denmark: "Meds3 Figurer H Teksten) SE RRS ERER 101
Magnus Degerbøl: Description of a new Snake of the Genus Glau-

coniarfromø Mendoza (MedyleEigursisteksten) FEE ERE EER BIS
Magnus Degerbøl: Om Muldvarpens Fremtrængen i Vester-Hanherred.

(MedslsErgursireksteN) ra ES Er re ERE vs
R. Horst: Peripatus keiensis n. sp. (Med 3 Figurer i Teksten)....... 119
Ad. S. Jensen: Frøaar og Egernvandring. (Med 3 Figurer i Teksten).. 123
R. Spårck: En pludselig masseforekomst af Sepia-skaller ved Færøerne

i foråret SOS SEERE Er ENE ENE 141

R. Hørring: Fuglene ved de danske Fyr i 1921. 39te Aarsberetning om
danske FO eN SEENDE LEE NEDEN ES Le Eee ER 147

In Memoriam
Carl With
født 11. December 1877, død 16. Juni 1923.

Af
K. Stephensen.

Ved Carl Withs Død har dansk Zoologi lidt et meget smerte-
ligt Tab. Ganske vist var han i de senere Aar blevet saa stærkt
optagen af sin Lægegerning, at der ikke var Tid til at dyrke ak-
tive zoologiske Studier; men Interessen derfor nærede han mindst
ligesaa stærkt som tidligere, og hvis ikke Døden havde bortrevet
ham, vilde han have fortsat sit afbrudte Studium. —

Carl Johannes With var født i Lemvig 11. December 1877 som
Søn af Læge Nicolai Rasmus With og Hustru Rasmine Sophie Doro-
thea W., født Andrup; allerede i en Alder af 5 Aar mistede han
begge sine Forældre. Efter at være blevet Student 1896 fra Fre-
deriksborg Skole gav han sig til at studere Naturhistorie og Geografi
og tog Skoleembedseksamen i disse Fag med Zoologi som Hovedfag
efter kun 4/2 Aar i Januar 1901. I Juli— November 1904 foretog
han med det Thottske Legat en zoologisk Studierejse til England

VI

(specielt British Museum) og fik. næste Aar den Schibbyeske Præ-
mie for Arbejdet om Notostigmata.

Men da han mente, at Kaarerie som Zoolog her i Landet ikke
kunde skabe ham en tilstrækkelig sikker Fremtid, gav han sig til
at studere Medicin og deltog i den dansk-franske Lepra-expedition
til Dansk Vestindien Januar— Maj 1909 efter først at have studeret
nogen Tid i Institut Pasteur i Paris. 1911 tog han medicinsk
Embedseksamen med Laud og virkede derefter som Dermatolog
ved Rigshospitalet og Kommunehospitalet i København. 1915 ned-
satte han sig som praktiserende l.æge (Venerolog) og var desuden
fra Juni 1915 til Juni 1921 først Assistent, derefter Afdelingslæge
ved Finsens Lysinstitut. Siden 1. Juni 1921 var han Reservelæge
ved Frederiksberg Hospital. 16. Juni 1923 afgik han ved Døden
af en mangeaarig Nyrebetændelse, der pludselig havde forværret sig.

1. Juli 1909 blev Carl With gift med Inge Kiørboe (Datter af
Direktør Frederik Rudolf Leopold K. og Hustru Augusta Dorothea
K., f. Meinig), der sammen med tre Børn overlever ham. —

Ovenstaaende korte Data udgør Rammen om en ualmindelig
rig zoologisk og medicinsk Virksomhed. Som Zoolog var With
Eleyfaf "Dr. "HJ. "Hansen "og var gennem"denne prægetfafiden
Schiødteske Skoles bedste Egenskab: den overordentlige Grundig-
hed, hvormed selv de mindste Detailler blev undersøgt, og det
samme Karaktertræk præger, saa vidt jeg kan forstaa, ogsaa hans
medicinske Produktion.

Indenfor den rene Zoologi har With arbejdet med Arachnider
og Copepoder (se Literaturlisten). Efter et mindre Arbejde (om
Phalangiider fra Indien) udgav han 1903 "The Notostigmata, a new
suborder of Acari” (— en foreløbig Beskrivelse af en af Arterne
var givet allerede Aaret i Forvejen). Dette, i Omfang ganske vist
kun lille, Arbejde er et udmærket Eksempel paa, hvad en sam-
vittighedsfuld Undersøgelse kan bringe ud af selv et meget slet
Materiale: With havde ialt ca. 30 Eks. fordelt paa 3 Arter, hvoraf
de to hver kun var repræsenteret med et enkelt Eksemplar, og
alle var de meget daarligt konserveret, foruden at Dyrenes ringe
Størrelse (højst 2,75 mm i Længde) ikke bidrog til at gøre Under-
sågelsen lettere. Ikke desto mindre lykkedes det at give en nogen-
lunde fuldstændig Beskrivelse endog af de indre Organer og at
paavise 4 Par Trachéaabninger paa Abdomens Rygside, en Karak-

VII

ter saa mærkelig, at de paagældende Arter maa opstilles som en
… særlig Underorden, — hvis de overhovedet kan regnes for virke-
lige Midder.

Alle Arbejderne fra de følgende Aar (1905—08) handler (med
en enkelt Undtagelse) om Pseudoskorpionerne, Chelonethi. Den
første Afhandling om denne Gruppe er baseret paa Materiale fra
den australske Region, tilhørende British Museum; foruden en sy-
stematisk Gennemgang af Slægten Chelifer gives der Beskrivelse
af et hidtil ukendt sækformet Organ, ,,coxal sac”, fundet i coxa
paa 4. Par Ben hos Chelifer socotrensis. Det næste større Arbejde
er en Monografi af de indiske Arter af samme Gruppe, og Mate-
rialet stammer væsentlig fra danske Ekspeditioner (især Kiellerup
paa ,Galatea" og Dr. Th. Mortensen i Siam). Gruppen er behandlet
meget indgaaende, baade morfologisk, systematisk og geografisk, og
der er givet Beskrivelse og Figurer af en Mængde nye Arter, for-
uden at alle de gammelkendte Arter fra Omraadet er underkastet
en grundig Revision. I det morfologiske Afsnit vil man finde en
fornyet og udvidet Undersøgelse af det ovenfor omtalte Coxalorgan,
som det var lykkedes at paavise hos voksne gg af ikke mindre
end 8 Arter. With's sidste Arbejde om denne Gruppe er meget
omfangsrigt og handler om Arter fra S. Amerika.

En stor Del af With's ovenfor omtalte zoologiske Produktion
blev udarbejdet samtidig med at han forberedte sig til medicinsk
Eksamen. Efter at have fuldendt det lægevidenskabelige Studium
1911 blev hans Tid stærkt optaget af Lægegerningen; alligevel
kunde han ikke helt slippe Zoologien og udgav 1915 det store Ar-
bejde om en Del af ,Ingolff-Ekspeditionens fritlevende Copepoder,
hvori han som noget ganske nyt har underkastet Arternes Svælg-
struktur en meget indgaaende Undersøgelse.

Dette blev With's sidste zoologiske Arbejde. Da Lægegerningen
efterhaanden tog mere og mere af hans Tid, afleverede han for
nogle Aar siden til Museet hele det Materiale, som han havde haft
hjemme til Bearbejdelse til Brug for sidste Del af Værket om ,In-
golffs fritlevende Copepoder, idet han indsaa, at han ikke i hvert
Fald i de første 10—15 Aar vilde faa Tid til at arbejde paa saa
stort et Værk. Derimod paatog han sig efter Dr. William Søren-
sen's Død i 1916 at fuldføre et af denne paabegyndt Arbejde om
Phalangiidefamilien Gonyleptidæ, for en stor Del baseret paa et for-

VIII

trinligt Materiale, indsamlet af Fea for Museet i Genua. Hvor langt
Bearbejdelsen er fremskredet, og. hvormeget der endnu staar til-
bage, kan ikke konstateres med Sikkerhed paa det nuværende Tids-
punkt; men forhaabentlig lykkes det at fuldføre dette af to saa
fremragende Forskere paabegyndte Arbejde. —

Baade i sine Studenterdage og senere havde With arbejdet
meget paa Zoologisk Museum, og han bevarede Interessen herfor
— som for Museumsvæsen i det hele taget — usvækket til det
sidste. Han var det eneste danske Medlem af British Museums
Association, hvorfor man søgte overdraget ham at ordne de engel-
ske…«Museumsmænds Besøg her i Byen i Sommer — et Hverv
som= han dog maatte overlade til andre.

With's videnskabelige zoologiske Produktion er i Følge Sagens
Natur kun kendt af en snæver Kreds af Fagmænd, men har vun-
det stor Anerkendelse mellem disse. At han dog tillige havde Blik
for de større Synspunkter, viste han ved sammen med daværende
Underbibliotekar Svend Dahl i Januar 1918 at udsende en Pjese
om , Vore naturhistoriske Museer og Biblioteker". Bortset fra For-
slag om en Nyordning af Museernes og Bibliotekernes Forhold,
idet samtlige naturhistoriske Institutioner (Museer, Laboratorier,
osv.) foreslaas samlet til et stort Centralinstitut for Naturhistorie,
indeholder Bogen i og for sig ikke meget nyt, idet den ellers væsent-
lig kun paaviser den af alle sagkyndige for længst anerkendte Plads-
mangel og de daarlige Arbejdsforhold. Men den virkede som et
forløsende Ord, der løsnede Penne og Tunger, og derpaa fulgte en
maanedlang Avisdiskussion mellem en Mængde sagkyndige for til-
sidst at resultere i Nedsættelsen af en Kommission. Desværre be-
gyndte samtidig Krigstidens Guldstrøm at svinde, saa at Opgaven
stadig er lige langt fra sin Løsning. -—

Sidste Gang, jeg traf Carl With, var ude hos Dr. H. J. Hansen
Store Bededagsaften. Han glædede sig over, at det medicinske
Arbejde gik saa godt og talte meget om sine Planer for Frem-
tiden, den Fremtid, der kun halvanden Maaned senere saa brat
skulde blive afbrudt. Det var nemlig hans Ønskers Maal at søge
efterhaanden at faa sin Praksis ordnet saaledes, at der daglig kunde
blive nogle Timer til overs til Zoologi, paa samme Maade som det
virkelig var lykkedes afdøde Overlæge Rudolph Bergh at indrette
sig. Den Nyrebetændelse, der lagde ham i Graven, havde han

IX

baaret paa i adskillige Aar, uden dog at have særlig Men deraf;
. men der er vel ikke megen Tvivl om, at han tildels er faldet som
Offer for sin umaadelige Arbejdsenergi, idet han af sig selv har
fordret meget mere, end selv en kraftigere Konstitution end hans
kunde yde uden at tage Skade paa Helbredet.

Foruden sine videnskabelige Interesser, der altsaa væsentlig er
delt mellem Zoologi og Medicin, studerede With med Iver Uden-
rigspolitik og havde et stort Kendskab hertil. Stærkt nationalt
interesseret og med afgjorte Sympatier for Vesteuropa, specielt Eng-
land, søgte han bl. a. at faa dannet en dansk-engelsk Forening,
hvilket dog ikke lykkedes, maaske fordi Tidspunket (midt under
Verdenskrigen) ikke var heldig valgt. Uden at anerkende vedtagne
Autoriteter var han med sit usnobbede Væsen altid rede til at tage
en Kamp op for, hvad han ansaa for Ret, selv om han derved ud-
satte sig selv for Vanskeligheder. I April 1918 lod han sig op-
stille som Folkethingskandidat for Partiet ,Det nye Højre".

Arbejdet paa en Doktordisputats om Lupus var ved hans Død
meget langt fremskredet. —

En flittig Videnskabsdyrker, for hvem Sandheden stod over alt
andet; en glødende Idealist; en Ven, som man ikke forgæves hen-
vendte sig til: det er det Minde, som vi, der har kendt Carl With,
er lykkelige ved at bevare.

For Hjælp med Oplysninger til den foreliggende Nekrolog brin-
ger jeg herved Fru Inge With og d'Hrr. Dr. phil. H. J. Hansen,
Overlæge, Prof. Dr. med. C. Rasch og Afdelingslæge Dr. med. Svend
Lomholt min bedste Tak.

Biografisk Literatur om Carl With.

Carl Johannes With. — Den danske Lægestand.

A. Kissmeyer: In Memoriam Carl With. — Ugeskrift for Læger
285 Juni 1923, S:459.

Svend Lomholt: Nekrolog. Dr. Carl With, f. "/12 1877, + 7/6 1923.
— Hospitalstidende 4. Juli 1923, S. 487—88.

X

Liste over Arbejder om Zoologi eller beslægtede Emner.

1903.

1903.

1903

1905.

1905.

1906.

1907.

1908.

1908.

VOLS?

1916.

101578

A.new Acaride Opilioacarus segmentatus. — Foørhandlin-
gar vid Nordiska Naturforskare- og Låkaremåtet i Helsing-
fors den 7 till 12 Juli 1902 (Comptes Rendus du Congrés
des Naturalistes et Médicins du Nord tenu å Helsingfors),
VI, Sektionen får Zoologi, 4—5.

New and old Phalangiidæ from the Indian Region. —
Linn. Soc. London, Journal, Zool. vol. 28, 466—509.
(1904). The Notostigmata, a new suborder of Acari. —
Vid. Medd. Naturh. Foren. Kbhv. 1904, 137—192, Pls. 4—6.
On Chelonethi, chiefly from the Australian Region, in the
Collection of th& British Museum, with Observations on
the "”"Coxal Sac” and on some Cases of Abnormal Seg-
mentation. — Ann. Mag. Nat. Hist., London, ser. 7, vol.
15, Se PS G--10) |

Remarks on the Gagrellinæ Thor. A Group of Opiliones,
with Descriptions of some new Species from Borneo. —
Boll. Mus. Zool. Anat. comp. R. Univ. Torino, No. 509,
vol 20] 2:

Chelonethi. An account of the Indian false-scorpions to-
gether with studies on the anatomy and classification of
the order. (The Danish Expedition to Siam 1899—1900,
II). — Kgl. Danske Vid. Selsk., 7. Række, naturvid.-math.
Afd. III, 1, 1—214, 4 Pls.

On some New Species of Cheliferidæ, Hans., and Gary-
pidæ, Hans., in the British Museum. — Linn. Soc., Lon-
don, Journal, vol. 30, 49—85, 3 Pis.

Remarks on the Chelonethi. — Vid. Medd. Naturh. Foren.
Kbhv., 1908, 1—25, 2 Pis.

An Account of the South-American Cheliferinæ in the Col-

lections of the British and Copenhagen Museums. — Zool.
Soc. London, Transact. vol. 18 pt. 3, 217—340, 3 Pis.
Copepoda I. Calanoida Amphascandria. — The Danish
Ingolf-Exped., vol. III, 4, 1—260, 8 Pis.

Dr. phil. William Sørensen. — Vort Land (København),
1—7—1916.

Fnatmiddens Levedygtighed udenfor Organismen. — Uge-
skrift for Læger Nr. 10, 1917.

XI

1918... (Carl With og Svend Dahl). Vore naturhistoriske Museer
og Biblioteker. Forslag til et Centralinstitut. København,
Lybeckers Forlag. 40 Sider.

Oversigt over medicinske Arbejder.

With har skrevet ca. 100 medicinske Arbejder, næsten ude-
lukkende om dermatologiske og venerologiske Emner, enkelte sam-
men med andre Forf.; at give en specificeret Fortegnelse med de
fulde Titler er af Pladshensyn umuligt, hvorfor de er samlede i
nedenstaaende Resumé.

Dansk Dermatologisk Selskabs Forhandlinger, 96. Møde (1913),
115.—173. Møde (1917—23): ialt 66 Meddelelser (heraf
1 sammen med H. Boas, 1 sammen med A. Kissmeyer).

Bibliotek for Læger 1922: 1 Meddel.

Festskrift i Anledning af Finsens medicinske Lysinstituts 25 Aars
Jubilæum 23. Oktbr. 1921: 2 Meddel. (den ene sammen
med K. A. Heiberg, den ariden sammen med A. Kissmeyer).

Hospitalstidende 1914—21: 8 Meddel. (heraf 1 sammen med Svend
Dahl).

Nordisk Dermatolog-Forenings 4. Møde (København 1922): 1 Med-
del., og 5. Møde (Stockholm 1923): 1 Meddel. (sammen
med Marie Krogh).

Nordisk Dermatolog- Kongres, Stockholm 1919: 2 Meddel.

Nordisksmedicinsk Archiv 1OTSÆSecetsIFENT ST9TÆ TI Meddel:
(sammen med H. Bang).

Ugeskrift for Læger 1913—18: 6 Meddel. (heraf 2 sammen med
H. Bang).

Archiv fur Dermatologie und Syphilis, Bd. 142, 1923: 1 Meddel.

Brain vol. 11, 1918: 1 Meddel.

British Journal of Dermatology 1920: 2 Meddel.

Bulletin de la Société Pathol. Exotique, Paris 1911: 1 Meddel.
(sammen med Ehlers og Bourret) (ogsaa trykt i Archiv f.
Dermatol. und Syphilis, Bd. 106, 1911).

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Lektor, Mag. scient. Christian Petersen.
Nogle Mindeord

ved
C. M. Steenberg.

»I1 est dans la nature humaine de placer son but trop haut,
ou trop loin, ou bien, au contraire, de s'entourer de trop de liens
et de restrictions, et le résultat de ces deux tendances opposées
est souvent un piétinement sur place. Ce n'est que lorsqu'on aura
pu passer en quelque sorte derriére la question, ou qu'un trait de
lumiére sera venu du dehors frapper le sujet, que la recherche
pourra faire des progrés notables.”

XIV

Saaledes skriver Chr. Petersen i sit Arbejde: ,Une loi fonda-
mentale de laccroissement des organismes", og han har i disse
Linier selv givet en Karakteristik af sine Meninger, sin Arbejds-
maade og derigennem ogsaa af sig selv, thi der vil altid være en
nøje Sammenhæng mellem Personen, Arbejdsmaaden og Arbejds-
resultatet. Mag. Petersen stilede nok højt med Hensyn til sine
Arbejder, men ikke højere end han kunde række, og han hadede
alle uvidenskabelige Omsvøb og ,aabne Bagdøre". Kun faa har
forstaaet som han ,at komme bag om et videnskabeligt Spørgs-
maal" og gribe det an fra en ganske anden Side, end de fleste
vilde gøre, idet han stadig under Arbejdet søgte at betragte Spørgs-
maalet udefra, i dets Relationer til andre af Naturens Foreteelser.
Ved disse Undersøgelser kom hans mange og alsidige Kundskaber
baade paa det teoretiske og praktiske Omraade ham i høj Grad til
gode. Kun faa kendte og beherskede saa mange Fag som han; han
var en af Nutidens faa Polyhistorer. Ogsaa hans Liv bærer Vidne
om hans mangesidige Interesser og Evner.

Christian "Petersen blev fødder] uns ÆRE Ens Ender
der var Vognmand, boede nær yed Kollekolle ved Furesøen. Da
hans Forældre døde, kom han paa Opfostringshuset, hvor han var
fra sit 9. til 14. Aar. Paa Grund af hans store Interesse for Fysik
kom han ind paa Underofficersskolen og fik Uddannelse som Sø-
minør. : Da Læretiden var overstaaet, tog han ud paa Togt til
fremmede Egne og fik derved Lejlighed til at se saa meget inter-
essant og nyt i Naturen. Under sine Ophold, navnlig i det da-
værende Dansk Vestindien, begyndte han at studere Sneglene og
lagde Grunden til sin store Samling af Konkylier. Interessen for
Naturen blev omsider saa stor, at han besluttede at ville være Stu-
dent og studere Naturhistorie. 28 Aar gammel tog han Studenter-
eksamen og begyndte straks derefter at manuducere i Matematik
og samtidig at studere Naturhistorie. Interessen for Naturhistorien,
navnlig Zoologien, var nok stor, men Matematikken, særlig Mate-
matikkens Historie, og Fysikken havde dog ogsaa hans Interesse,
og da han saa, at det naturhistoriske Studium var langsommeligt,
kastede han resolut dette Studium over Bord som Brødstudium og
tog med fuld Kraft fat paa Matematikken og Fysikken. 1896 tog
han Magisterkonferens med Speciale baade i Matematik og Fysik,

XV

og kort efter blev han Lærer, først ved Borgerdydskolen i Helgo-
"landsgade, derefter ved Borgerdydskolen paa Østerbro øg senere
paa Maskinistskolen. Han underviste fra tidlig Morgen til sen Af-
ten, og dette anstrengende Arbejde har sikkert bidraget sit til at
undergrave hans Helbred. I Efteraaret 1905 blev han alvorlig syg.
Det følgende Aar mente dog Lægerne, at han var kommet over
sin Sygdom, og der blev nu tilbudt ham Stillingen som Inspektør
ved Ingrid Jespersens Pigeskole. Herved underviste han til sin
Død. Skønt ofte pint af Sygdom passede han alligevel sit Arbejde
med største Samvittighedsfuldhed og fik desuden Tid til overs til
videnskabelige Arbejder. Han døde i sit Hjem d. 11. December
1922:

Mag. Petersen var gift med Anna Petersen, født Olsen.

Chr:”Petersen" har ikke "skrevet meget. "I sine tidligere Aar.
havde han ikke Tid dertil, og i de senere Aar forhindrede hans
Sygdom ham delvis deri; men det havde ogsaa en anden Aarsag.
Han elskede at give sig af med videnskabelige Problemer og at
faa dem løst, men — naar de først var løst, havde de dermed for
en stor Del tabt deres Interesse for ham, og han kastede sig med
Iver over et nyt og helst beslægtet Problem. Vilde nogen benytte
hans Resultater, saa han det gerne og gav dem rundhaandet sine
Resultater, og kun paa hans Venners ihærdige Opfordringer lykke-
des det at faa ham til at udgive de foreliggende Arbejder. Af
disse har kun tre Betydning for den biologiske Videnskab, nemlig:
»Den logaritmiske Spiralf (Nyt Tidsskrift for Matematik 1916),
»Une loi fondamentale de Waccroissement des organismes", Copen-
hague 1919 og ,Das Quotientengesetz. Eine biologisch-statistische
Untersuchung", Kopenhagen 1921.

I disse Arbejder, der er meget originale i Arbejdsmaade, Frem-
stilling og Resultater, ser man udmærket, hvorledes det er Mate-
matikeren og Biologen i samme Person, der taler. Desværre er
Fremstillingen ikke altid givet i en saadan Form, at Biologen
umiddelbart kan forstaa den; meget bedre kan sikkert Matemati-
keren forstaa den biologiske Side. Det er med Vilje, at Christian
Petersen har givet sine Arbejder denne korte, men vanskeligt til-
sængelige Form) thi"det var hans Hensigt senere at, skrive en
kort Lærebog for Biologer i den matematiske Behandling af bio-

XVI

logiske Fænomener. De Resultater, hvortil han er kommet, kan
af Pladshensyn og af andre Aarsager ikke nærmere behandles her.
Kun nogie enkelte kan trækkes frem.

Ved talrige Undersøgelser, Tusindvis af Maalinger paa Snegle-
skaller og Sneglelaag samt paa Planter og ved kritisk Gennemgang
af tidligere udgivne Tabeller over Vækst og Variationer hos Men-
nesker, Dyr, Træer og Samfund, er han naaet til at opstille een
Hovedlov for Væksten af alle levende Organismer, nemlig den eks-
ponentielle Lov, hvis matematiske Udtryk er x—=e2tbite? hvor
e er et bestemt Tal (den naturlige Logaritme), a, b og c Konstanter,
der er lidt forskellige for de forskellige Individer, og ? er Tiden.
Denne Hovedlov indbefatter alle de Love, der paa mindre Om-
raader i Tidernes Løb er opstillet, f. Eks. af Moseley, Naumann og
Grabow for Bløddyrskallens Vedkommende,”) af Maithus for Befolk-
ningstilvæksten og af Riniker for Træernes Vækst. Et specielt Til-
fælde af denne Vækstlov har han selv behandlet, nemlig den saa-
kaldte Quotientlov,”) der viser sig særlig smukt ved Snegleskallens
Vækst.

For at afgøre efter hvilke specielle Love Væksten foregaar eller
et Materiale varierer, har han fundet et let Kriterium, der af Bio-
logen ikke kræver nogen særlig matematisk Viden, kun en Række
simple Divisioner er nødvendig (deraf Navnet Quotientlov). I flere
Tilfælde, hvor en Maaling og Beregning ikke kan give noget Re-
sultat eller er for besværlig, har han givet os et nyt Middel i
Hænde til at kunne afgøre, efter hvilke Love Væksten foregaar,
nemlig den saakaldte grafiske Metode, der kun benytter saadanne
simple geometriske Begreber som Sammenligning af Vinkelstørrelser
og Liniers Parallelisme. Indenfor Variationsstatistikken er hans vig-
tigste Paavisning den, at Variationskurven ofte ikke følger den bi-
nomiale Fejllov, men hyppig to andre Love, den exponentielle
eller den logaritmisk exponentielle, og at de to Kurvestykker, et
paa hver Side af Maximum, som Regel ikke følger samme Lov,
men er fremkommen som Stykker af 2, oftest forskellige Kurver,

1) Disse Forskeres Resultater er lettest tilgængelige i D”Arcy W. Thomp-
son's interessante Bog: On Growth and Form. Cambridge. 1917.

2) Det matematiske Udtryk for denne Loverx=eq+bt eller x=k(1 + r)t.
Det er den samme Lov, hvorefter en Kapital, der er sat paa Rente i en
Bank, vokser.

XVII

der skærer hinanden; derved faas en naturlig Forklaring paa de
- højtoppede (excessive) Kurver. Ved alle disse Undersøgelser poin-
terer han paa det bestemteste, at for ham er Matematikken kun
Midlet ikke Maalet, og at Brugen af Matematikken maa ske med
største Varsomhed under stadig Kontrol hentet fra Naturen.

Dette er kun nogle faa Hovedpunkter, i Virkeligheden findes
der indenfor hver lille Del, for Fagmanden, en Guldgrube af Tan-
ker og Resultater, hvorpaa der kan arbejdes videre,

Ogsaa paa et andet Omraade: Sneglesystematik og Skalanatomi,
har Chr. Petersen arbejdet, og disse Emner har haft hans udelte
Interesse fra Ungdommen af. I Aarenes Løb havde han skaffet
sig en for en Privatmand enestaaende Samling, særlig af Slægterne
Cypræa og Conus, og disse to Slægter, og da navnlig den først-
nævnte, har han bearbejdet meget udførligt. I hans efterladte Pa-
pirer findes et omtrent færdigskrevet Manuskript, ledsaget af tal-
rige smukke Tegninger (tegnet af Fru Strubberg); dette behandler
hans aarelange Undersøgelser over disse Emner; det vil forhaa-
bentlig lykkes at faa samlet og udgivet dette Arbejde.

Foruden en dygtig og genial Forsker var Magister Petersen en
fortrinlig og samvittighedsfuld Lærer, der paa Grund af sine mange
Kundskaber, sit store Menneskekendskab og sin lune Humor vandt,
ikke alene sine Elevers, men ogsaa sine Medarbejderes Hjærter og
Hengivenhed. Han var altid rede til at raade, altid villig til at
hjælpe paa alle Maader. Derfor vil det smukke Minde om ham
altid blive ved med at leve hos alle dem, der lærte ham nøjere
at kende, og dette gælder i særlig Grad for den, som skriver disse
Linier, og som først var hans Elev, og senere hans Kollega og
gode Ven.

Oversigt
over
devidenskaåabelige Møder
i
Dansk naturhistorisk Forening
fra 1. April 1922 til 31. Marts 1923.

Den 21. April 1922. Mag. scient. €C. M. Steenberg holdt Foredrag om hus-

bærende Myggelarver.
Diskussion : Mag. Spårck.

Den 5. Maj 1922. Kommunelærer E. Nielsen foreviste Edderkoppen Ar-

Den

Den

Den

Den

PaT:

10.

24.

tanes fallax” Rede og Ægkokon (se ,,Naturens Verden", 1923, S. 249)
og gav derefter en Meddelelse om Hvepselarver (Polysphiricta) som
udvendige Snyltere paa Edderkopper (se Entomol. Meddel. 14. Bd.,
1923 FS: 137):
.… Diskussion: Prof. Ad. Jensen.

Oktober 1922. Lærer J. P. Kryger gav en Meddelelse om Snylte-
hvepsefamilien Mymaridae.

Diskussion: Mag. Steenberg, Lektor Thomsen.
Mag. scient. R. Spårck gav en Meddelelse om Talforholdet mellem
højre- og venstrevendte Loxia-Næb.

Diskussion: Prof. Ad. Jensen.
November 1922. Dr. phil. A. €. Johansen gav en Meddelelse
om Væksten af Sildens Yngel og dens Størrelse og Alder, naar Skæl-
lene anlægges.

Mag. scient. P. L. Kramp meddelte Iagttagelser og Nyheder fra
»Danafs Efteraarstogt: 1922.
November 19223 EForevisnings-rog Referataften: Dr.
phil. V. Nordmann foreviste Levninger af Mammuth-Liget fra Bere-
sowka og knyttede nogle Bemærkninger dertil.

Mag. scient. R. Spårek refererede Prof. K. Brandts Afhandling:
»Uber den Stoffwechsel im Meeref.

Diskussion: Mag. Jespersen, Dr. Mortensen, Prof. Ad. Jensen.

19. Januar 1923. Dr. phil. H. Blegvad talte om Sandormens Yngle-

forhold og Udvikling. (Se dette Bind S. 1).

Diskussion : Dr. Mortensen.
KE

XX

Mag. scient. Å. Vedel Tåning gav en Meddelelse om Lophius
piscatorius, dens Udvikling og dens nordeuropæiske Ynglepladser.
(Se Rep. on the Dan. Oceanograph. Exped. 1908—10 to the Mediter-
ranean and adjacent Seas, Vol. II, Biology, A, 10, 1923.)

Den 2. Februar 1923. Dr. phil. Th. Mortensen holdt et af Lysbilleder led-
saget Foredrag om sin Ekspedition til Kei Øerne. (Se dette Bind
SÆS5)

Efter Mødet afholdtes en selskabelig Sazmmenkomst til Ære for
Dr. Mortensen.

Den 16. Februar 1923. Mag. scient. P. Jespersen og Mag. scient. Å. Vedel
Tåning foreviste forskellige Dyreformer fra ,,Danaf-Ekspeditionerne
og knyttede biologiske Bersærkninger dertil.

Cand. mag. K. Stephensen foreviste nogle Hundrede kolorerede
Tegninger af Havdyr fra ,,Danafs sidste Atlanterhavstogt.

Den 2 Marts 1923. Dr. phil. H. Blegvad holdt et af Lysbilleder ledsaget
Foredrag om sit Besøg ved franske biologiske Stationer.

Lektor M. Thomsen meddelte Bidrag til Trialeurodes vapora-
rium's Cytologi.

Diskussion: Prof. Ø. Winge, Stud. mag. C. A. Jørgensen.

Den 12.og 13. Marts 1923. Fællesmøde med Dansk Botanisk Forening
og Biologisk Selskab.

Prof., Dr. Paul Buchner, Munchen holdt Foredrag om moderne
Symbioseforskning. I. Pflanzensåfte saugende Tiere. II. Blutsau-
gende und leuchtende Tiere. (Se ,,Naturens Verdenf, November
1923). — Den 14. Marts foreviste Prof. Buchner mikroskopiske Præ-
parater i Tilknytning til Foredragenes Emner. i

Efter Mødet d. 12. afholdtes en selskabelig Sammenkomst til
Ære for Prof. Buchner.

Beretning om de i Aaret 1922 af Dansk naturhistorisk Forening
foretagne Ekskursioner.

Den 7. Maj 1922. Ornitholoøgisk Ekskursion til Amager under
Ledelse af J. Jørgensen. Deltagernes Antal 12.

Deltagerne kørte med Rutebilen fra Sundby til Kongelunden, hvor man
fulgte Skovens Nordøstrand mod Syd. Straks ved Ankomsten saa man to
Gravænder trække hen over Træerne, endvidere en Dværgfalk. I det milde
og smukke Vejr fortsattes Turen tilbage gennem Skoven til Restauranten, hvor
den medbragte Frokost spistes. Lige før man naaede Restaurationen, viste
Lederen i et kløftet Træ en Træpikkerrede med Æg; det er sjældent at finde
Reden. Efter Frokosten gik man gennem Skoven mod Syd og videre langs
Stranden; paa denne Tur blev et betydeligt Antal Fugle set og hørt, ligesom
man fandt adskillige Reder af Præstekrave, Vibe og Rødben. Turens største

XXI

Oplevelse var tre Traner, som først iagttoges i Stranden og senere paa maje-
… stætisk Flugt mod Nord; for næsten alle Deltagerne, selv Ornithologerne, var
det første Gang, de saa Traner. — Der saas ialt 55 Arter Fugle.

Adskillige Sæler laa og solede sig paa Stenene.

Efter en veltilbragt Dag skiltes man med Tak til den kyndige Leder, der
bebor en Gaard ikke langt fra Stranden, hvorefter de fleste Deltagere spa-
serede til St. Magleby, hvorfra man tog med Toget hjem. MET:

Her 28. Maj 1922”FEkskursion fil Havelse og .Bilidt under
Ledelse af 3tatsgeolog, Dr. V. Nordmann.

Deltagerne (ca. 10) samledes paa Skævinge Station, og efter at have
indtaget Frokost i den derværende Kro gik man over Grimstrup Åa og
Lille Havelse til Havelse (Attemose) Aa, som man fulgte til Havelse
Mølle. Paa Vejen forklarerede Dr. Nordmann Egnens geologiske Bygning,
særlig Aasen, om hvis Dannelsesmaade Meningerne havde vekslet stærkt,
idet den først opfattedes som Aas, senere som Randmoræne, for nu atter at
anses for at være en Aas (se D. G. U. V. R. Nr. 3, S. 72): endvidere omtaltes
Saltvandsalluviet, der efter den sidste Revision havde vist sig at have noget
mindre Omfang, end man tidligere formodede. Det paa Rørdam's Kort fra
1892 afsatte Sund mellem Grimstrup og Hvedse Gaard, som skulde have
forbundet Arresø med Roskildefjord, har saaledes ikke eksisteret (D. G. U.
l. c. S. 161). Saltvandsalluviet omkring Havelse Aa er afsat i en smal Fjord,
der fra Aaens nuværende Munding har strakt sig ind til lidt S.Ø. for Grim-
strup. Paa Turen langs Aaen havde man Lejlighed til at studere den fos-
sile Faunas Udvikling i denne gamle Fjord: længst inde tyndskallede Car-
dium edule og Hydrobia ulvæ, længere ude mod Mundingen Østersbanker
og forholdsvis rige Tapeslag (disse saas i en lille Grusgrav ved Foden af
Møllebakkens Nordside).

Efter at Køkkenmøddingen under Møllen var betragtet og Lejrekomiteens
Viksomhed omtalt, gik man til Bilidt ved Frederikssund, idet man flere Ste-
der paa Vejen, navnlig omkring Græse Aa, havde Lejlighed til at studere
Tapeshavets Aflejringer og Kystklinter. Ved Bilidt kunde man paa det af Carls-
bergfondet fredede Omraade studere Forskellen mellem den kunstig dannede
Skaldynge, Køkkenmøddingen, og det derunder liggende, hævede Strandgrus
med naturligt dannede Skallag. Disse indeholder en Tapesfauna, der tæller
mindst 23 Arter, af hvilke Halvdelen endnu lever i Roskildefjord, men rigtig-
nok i betydelig mindre Eksemplarer og mere tyndskallede. Ved 6-Tiden op-
løstes Ekskursionen i Frederikssund. V. N.

DensssJuni 1922. Ornithologisk Ekskursion til Bagsværd
under Ledelse af Læge K. Nørregaard.

Mosedraget, som strækker sig mellem Hjortespring i Syd og Bagsværd
Hareskov i Nord og bestaar af Smørmose, Kongemose, Tipperupmose, Fedte-
mose m. m., har, som Kortet viser, meget talrige Smaasøer og Vandhuller.
Enkelte af de store Damme er vistnok Rester af en tidligere større Sø, som
havde Forbindelse med Søndersø og Damhussøen, men de fleste Vandhuller

XXII

skyldes mangeaarig planløs Tørvegravning. Endnu ses flere Ruiner af de tal-
rige Vejrmøller, som benyttedes til Vandets Bortpumpning. — Det oprindelige
Lyngmoseparti indskrænkes mere og mere, og Mosen omdannes til Engmose,
Rørmose og Kratmose. Endnu trives Mosebøllen godt sammen med Hind-
bær og Brombær, mens Tyttebær, Rævling, Blaabær, Tranebær, Klokkelyng
og Rosmarinlyng er døende. Af Floraen kan særlig bemærkes: Soldug, Vibe-
fedt, Blærerod, Vandrøllike, Bukkeblad, Krebsklo, Frøbid, Vandaks, Dun-
hammer, Pindsvinsknop, Søkogleaks, Tagrør, Iris, Kæruld, Leverurt, Gøge-
lilie, Hullæbe, Gøgeurter, Pyrola, Gyldenris, Aakander etc. Krattet bestaar
af Vidiearter, krybende Pil, Asp, Vrietorn, Pilearter, men efterhaanden tager
Birken Overhaand og findes som større Træer; ogsaa Ask, Røn, Hyld, Kirse
bær breder sig. Der er ingen Pors øg ingen El.

En Del Vildt holder til, men jages skamløst (Harer, Ænder, Vandhøns,
Agerhøns, Viber, Bekkasiner, Krager, Skader og enkelte Rovfugle (Musvaage,
Ugle). Fuglelivet er rigt og egner sig til Studier for Begyndere. I Marts
høres Viben, Bekkasinen, Blishønen, Solsort, Stær, Lærken, Gulspurven, Torn-
irisk, Mejser, og ved Husene er der Kvidder af Spurve, Skovspurve, Bog-
finker: Krager, Alliker og Maager flyver rundt, og Skaden bygger Rede (dette
Aar lavt i en Tjørn, synes ikke overbygget). I April høres Rødkælk, Grøn-
irisk, Bomlærke, en enkelt Drossel, og man ser Storken fra Herløv. Sidst
i April kommer Løvsangeren (ret talrig), men efter I1ste Maj kommer Hoved-
trækket, hvor ofte hver Dag bringer en ny Fuglestamme. Gærdesangeren
indleder gerne (2.—3. Maj, enkelt Par), Nattergalen kommer 5.—7. Maj (ble-
ven talrig siden 1910), Bynkefugl (5.—8. Maj, enkelt Par), Sivsangeren ca. 6.
Maj, talrige Par; Svaler 6.—8. Maj, først en enkelt Forstuesvale, derpaa et
Par Dage efter Flokke af de 3 Arter. Mursvalen ses først nogle Dage senere.
Gøgen kommer mellem 5.—14. Maj (3—4 Stykker), broget Fluesnapper paa
Gennemrejse (7.—15. Maj), Tornsanger (7.—11. Maj ret talrig), Rørsanger
(12.—16. Maj, talrige Par), Rørspurv ca. 8. Maj, flere Par, Havesanger (12.—
19. Maj, ret talrig), Gulbugen (24.—31. Maj, enkelte Par, Kærsangeren, 23.—
28. Maj, mindst 3—4 Par. :

Turen gik gennem Smørmose, Kongemose og endte i en stor Have ved
Hareskoven ; man saa og hørte adskillige af de nævnte Fugle (f. Eks. Bynke-
fugl, Sivsanger, Rørsanger, Kærsanger, Tornsanger, Havesanger, Rørspurv,
Nattergal, Gerdesanger, Gulbug m. fl.). KEN:

Dens --SEJuli TIPPER SKUrTS ond svie sunderkltedelseRak
Kommunelærer E. Nielsen, Mag. sc. K. Henriksen og Mag. sc. K.
Gram. Deltagernes Atital 11.

Af forskellige Grunde blev d”Herrer Kryger og Worm-Hansen, der skulde
have deltaget i Ledelsen, forhindret i at komme til Stede, hvorfor det oprin-
delige Program ikke kunde følges. Ligeledes kunde Mag. Henriksen kun
være til Stede d. 4., saa det blev Kommunelærer E. Nielsen, som særlig
maatte tage sig af Programmets zoologiske Del. De fleste Deltagere mødtes
ved. Sandkroen d. 3. Juli og benyttede den første Eftermiddag til en Tur til
Kassemose Overdrev og Stængehuset. Paa Vejen foreviste Hr. E. Nielsen

XXIII

forskellige Edderkopper, deres Fangnet og Ægspind (Epeira umbratica, qua-
drata, cornuta, cucurbitina, Meta merianae, segmentata, Zilla atrica, Tege-
- naria Derhamii, domestica, Theridium sisyphium, lunatum, riparium, Philo-
dromus aureolus, Ocyale mirabilis, Prosthesima latitans, Dictyna arundi-
nacea, Segestria senoculata); der iagttoges ogsaa mange Myreløvetragte, og
en Del Larver medtoges

Næste Formiddag aflagdes først et Besøg hos Hr. E. Nielsen, som fore-
viste de af ham Dagen før fundne meget interessante Larver til Fluen Acro-
cera globulus, snyltende i en Edderkop; dernæst foretoges en Tur i Hegnet,
paa hvilket man saa talrige afløvede Træer, som tidligere havde været hær-
gede af Frostmaalere 0. a. Mellem Fyrretræerne sværmede en Mængde Bu-
palus piniarius, Posthornsdannelser foraarsagede af Tortrix buoliana, og Har-
piksgaller af Tortrix resinana iagttoges paa Fyrrene og Rhynchites-Ruller paa
Birkebladene. Efter Frokost i Sandkroen drog man til Tibirke Bakker. Paa
Væggen af et gammelt Hus saas Hoplomerus-Boer med de kunstfærdige Ler-
tude, og i en mindre velholdt Kostald var Loftet besat med Hundreder af
Anopheles-Myg. Angreb af Bladhvepsen Hoplocampa fulvicornis paa de
umodne Blommer iagttoges ligeledes. Ogsaa Ferskvandsdyrelivet blev stu-
deret i et Mosehul neden for Bakkerne. Bembex, der var det egentlige Maal
for Turen, lod sig imidlertid ikke se den Dag, vistnok fordi det blæste lidt.
Om Aftenen havde Hr. Proprietær Weis været saa elskværdig at bestryge en
Del Træer i Sandkroens Nærhed med ,,Sukkerf, og disse afsøgtes senere
ved Lygte, saa at Deltagerne fik Lejlighed til at se en Sukkerlokning.

Man overnattede — som første Nat — i Sandkroen, og spadserede næste
Morgen over Tibirke Bakker til Tisvildeleje. Paa Bakkerne lykkedes det at
faa den berømte Gravehveps Bembex rostratus at se; man havde en Over-
gang troet den forsvundet fra Tisvilde, men heldigvis har det vist sig, at det
er lykkedes den at holde sig her.

I Tisvildeleje opløstes Ekskursionen. MÆTSBEÆNSESÆEKESSET:

Den 8 Oktober 1922. Malakologisk og entomologisk Ekskur-
sion til Bagsværd Sø samtFrederiksdal og Fiskebæk
langs Furesøen under Ledelse af Mag. scient. C. M. Steenberg.
Deltagernes Antal var 22.

Turen gik langs Grøfterne bag ved Kuranstalten, forbi Pavillonen og langs
Bagsværd Sø. Paa denne Strækning fandtes følgende Mollusker: Limax ar-
borum, Agriolimax laevis, Arion ater, A. minimus, Vertigo moulinsiana, V.
antivertigo, Succinea putris, Limnaea auricularia, Planorbis corneus, P. ca-
rinatus, P. umbilicatus, P. contortus samt Sphaerium corneum. Frokosten
indtoges i Frederiksdals Kro; derefter gik den øvrige Del af Turen langs
Furesøen til Fiskebæk. Paa denne Strækning havde Lederen Lejlighed til
at demonstrere tre Arter af Svampemyggelarver, der bygger et beskyttende
Dække af Ekskrementer, nemlig Phronia strenua, 'P. johannae og Epicrypta
Scatophora. Da det var ret fugtigt i Vejret, fandtes talrige nøgne Snegle:
Limax maximus, L. cinero-niger, L. arborum, L. tenellus, Agriolimax reti-
culatus, A. laevis, Arion ater, Å. subfuscus, A. circumscriptus og Å. mini-

XXIV

mus. Af skalbærende Landsnegle var der særlig mange i Frederikdals Skov.
Vitrina pellucida, Hyalinia alliaria, H. nitidula, H. pura, H. radiatula, Vi-
trea crystallina, Euconulus fulvus, Zonitoides nitidus, Acanthinula aculeata,
Vertigo substriata, Sphyradium edentulum; desuden fandtes Æg af Arion
ater og Helix hortensis. Langs Skrænterne ved Furesøen vistes: Helicigona
lapicida, Hygromia incarnata, H. hispida, Pyramidula rotundata, Ena ob-
scura, Cochlicopa lubrica, Clausilia laminata, C. ventricosa, C. pumila, C.
plicatula, C. bidentata, Succinea putris, S. pfeifferi. Ved Bredden af Fure-
søen og i Vandpytter i Nærheden vistes: Limnaea stagnalis, L. auricularia,
L. ovata, L. palustris, L. truncatula, Neritina fluviatilis, Anodonta cygnea,
Unio pictorum, U. tumidus, Dreissensia polymorpha og flere Pisidium-Arter.
Sammesteds var der under Sten talrige Planarier: Bdellocephala (Dendro-
coelum) punctata og Polycelis nigra var. brunnea. Desuden forevistes flere
Ferskvandsinsektlarver: Molanna angustata, Goéra, Leptocerus, Anabolia,
Sialis 0. a., samt paa forskellige Steder — foruden Snegle — en Del Leddyr,
der er karakteristiske for Bøgeskovbunden: Obisium muscorum, Polydesmus
complanatus; Julus og Edderkopper.

Kommunelærerne J. P. Kryger-Jensen og E. Nielsen samt Lektor M.
Thomsen gav værdifulde Oplysninger om forskellige entomologiske Fund.
Som en højst interessant Begivenhed kan nævnes, at Lektor Thomsen ved
Furesøen under Træbark fandt Eksemplarer af den sjældne Miastor-Larve.
Denne Larve, der for over et halvt Aarhundrede siden blev taget ved Hulsø,
og som blev beskrevet af Meinert, har ikke været fundet her i Landet i de
senere Aar. . Desuden blev den sjældne Mycetophilidelarve Macrocera taget.

CSYES

Den Schibbye”ske Præmie.

Da de til Konkurrencen indsendte Arbejder af forskellige Grunde ikke
syntes Bestyrelsen ganske at opfylde de Betingelser, som Præmiens Stifter
havde tænkt sig fulgt ved Tildelingen, og da Bestyrelser. yderligere ønskede
at fastslaa en Praksis, der mere var i Overensstemmelse med Stifterens Hen-
sigter end den i de senere Aar fulgte, besluttede man ikke at uddele Præmien
for 1922.

Som en Vejledning for fremtidige Uddelinger og for at gøre Konkurrence-
deltagerne bekendt med Dr. Schibbyes Mening med Legatets Stiftelse vedtog
man for dets Uddeling omstaaende Regler, der er affattede paa Grundlag af
de af Dr. Schibbye ved forskellige Lejligheder fremsatte Tilkendegivelser.

XXV

REGLER
for
Uddelingen af den Schibbye'ske Præmie,
vedtagne af
Dansk naturhistorisk Forenings Bestyrelse
d"2F December 1923:

Præmien (500 Kr.) uddeles hvert Aar i Maj Maaned, skiftevis til et i
i Løbet af de 3 foregaaende Aar (regnet fra 1. Maj) publiceret videnskabe-
ligt zoologisk, botanisk eller mineralogisk-geognostisk (eller palæontologisk)
Arbejde af en dansk Forfatter, — uanset om han er Medlem af Dansk
naturhistorisk Forening eller ej —, der ikke er fyldt 35 Aar d. 1. Maj i
det Aar, Præmien uddeles.

Der kan ved Tilkendelsen af Præmien foruden til Arbejdets Fortrinlighed
tages Hensyn til den Bekostning og Tid, som dets Udførelse skønnes at
have forvoldt Forfatteren. Saa vidt muligt vil Præmien kun blive givet
for Arbejder, der er udførte i Vedkommendes Fritid, og for Arbejder, som
ikke i for høj Grad har Forbindelse med Vedkommendes lønnede Virk-
somhed. Arbejder, der paa anden Maade allerede er honorerede, præ-
mierede eller benyttede som Disputatser, vil som Regel ikke kunne komme
i Betragtning.

Præmien titkendes af Besiyrelsen med simpel Stemmeflerhed; kun i det
Tilfælde, at Stemmerne staar lige ved et eller flere Bestyrelsesmedlem-
mers Forfald, gør Formandens Stemme Udslaget.

I Marts Maaned indbydes til Præmieæskning, dels ved en Bekendtgørelse
i et eller andet københavnsk Dagblad, dels ved Opslag paa dertil egnede
Steder.

.. Som Regel uddeles kun én Præmie paa 500 Kr. Skulde særlige Grunde
tale derfor, vil den undtagelsesvis kunne deles i 2 Præmier.

Skønner Bestyrelsen, at der i. et Aar ikke er Anledning til at uddele nogen
Præmie, vil den i det følgende Aar kunne udsættes igen i det samme
Fag ved Siden af Aarets normale Fagpræmie.

Det er ikke absolut forment, at samme Forfatter kan erholde Præmien 2
Gange. Bestyrelsens Medlemmer deltager ikke i Præmieæskningen.
Dennes Udfald meddeles Foreningens Medlemmer paa den ordinære Ge-
neralforsamling i Maj Maaned, hvorpaa Udbetalingen finder Sted.

Aarsberetning for Aaret 1923
afgivet af Udvalget for Naturfredning.

Fra Staatliche Stelle fur Naturdenkmalpflege in Preussen har Natur-
fredningsraadet modtaget en Anmodning om Tilvejebringelsen af en For-
tegnelse over Literatur vedrørende Naturfredning i Danmark. Raadet har
ladet denne Opfordring gaa videre til Udvalget, og der er truffet den Ordning,
at Udvalgets Sekretær udarbejder et Seddelkatalog over denne Literatur; 1
Eksemplar tilstilles Staatliche Stelle fir Naturdenkmalpflege, 1 Eksemplar til-
stilles Naturfredningsraadet, medens Udvalget faar det 3dje Eksemplar. Om-
kostningerne af de to første bæres af Naturfredningsraadet. Dette Register
er under Udarbejdelse.

Viceinspektør Winge modtog i Juni 1923 et Brev fra Læge Rosenius
i Malmø angaaende Muligheden for Oprettelsen af en Statsinstitution for
Naturfredning for de skandinaviske Lande. Sagen har været behandlet paa
Udvalgets Møde, men vandt ingen Tilslutning, særlig da et i lignende Retning
gaaende Forslag fra anden Side er modtaget. Dette Forslag, som tager Sigte
paa en skandinavisk Sammenslutning, vil blive nærmere drøftet i 1924.

Udvalget har virket som Mellemled ved Iværksættelsen af Fredning af
Vaarkobjælde, Pulsatilla vernalis, paa en Hede i Hollund Sogn, idet det,
efter at Sagen var bleven rejst ved Skovrider Axel Horneman, Tolne,
har sendt Fredningsnævnet for Hjørring Amt Opfordring til at faa denne
Fredning iværksat. Under 3 November 1923 har Fredningsraadet meddelt
Udvalget, at det for sit Vedkommende tiltræder Fredning af nævnte Plante
paa det omtalte Areal.

Fra Konferensraad Vilh. Jørgensen har Udvalget gennem Inspektør
Petersen modtaget Anmodning om at søge et ham tilhørende Hedeareal i
Salten Bakker fredet. Efter at have korresponderet med Inspektøren for
Ejendommen, og efter at Medlem af Udvalget Professor Mentz har beset
Arealet og fundet det særdeles værdifuldt som Fredningsobjekt, har Udvalget
besluttet at indlede nærmere Forhandlinger med Ejeren om de Vilkaar, hvor-
paa Udvalget mener at kunne anbefale Fredning.

Medlemsliste
31. December 1923.

ad Indtraadt i

Foreningen

Amdersermre] SPS tudser Sshens ons SEK SEES ED DSE 1921.

Andersen, N.P., Kommunelærer, Bentzonsv. 9”, F. .............. 1923.

Andersen Sv-Aa Studs mar se Stokhuse ÆSKE See saae egene eee Åre 1922.
Anker, Jan., Underbibliotekar, Cand. mag., Borchs Collegium, St.

Kannik SKE ER ENS STR EDT sr aeg asus 1916.
Arto ES Erkr Helsolandse OBE SES RET SEER Dr ener ere fe ege GENE Tese 1907.
As aundiiBSErks Studsmag TSnekkersten ms Sas een ser 1923
Balslev Eektor ERE Skr Knudsvæ3 VERS SS eerdleene eje er ae ere 1923.
Branson Lærer HA ktr eyrels Fan de SEES SS SSESREEE 1909.
Bardenfleth, K. S., Adjunkt, Mag. sc., Ellevængehus, Rungsted ... 1905.
BEER: Mas SENE Urantavs LOS VE ESS eye seer ener ea lellehe dele aDeke es 1869
Bartholin, T., Adjunkt, Cand. mag., Jomsborgv. 19. St. Hellerup ... 1913.
BecinElrnencastærerindet Norasvæll ek Charlottenlund FISSE 1923.
Berg, K., Stud. mag., Hassagers Collegium, Bredegade 13. F........ 1918
Billede HSeDrEp hl AWile moss SØ EEN SES erne 1907.
BlonidefRAS CV Cand pharm FBlegdamsva 106 BE ØS LE SEERE 1923.
Blonde SSSASE Distrikts læg eN ANIN se RES SEERE 1870.
Bornemann, A., Generallæge, Dr. med., K. DM., Toldbodg. 18”. K. 1909.
Bovslen Mm ESS Magss CEED jomb ange av aeESEER SESSSEELETER: 1913
Brinkmann, AÅ., Prof., Dr. phil., Museumsbestyrer, Bergen ........ 1899
Birkum stands mar Regensen st Kkannikestr KE ERE NEEE 1921
Bremdesaardt NR Kommunelærer TØ Søg SOF SEK ER RER 1915
Brøndsted HSA din kt EM ars CE Birkerød ESS REE 1911.
BuchwaldicretetEerksTAnimannsFAller 2 Eelerup LEES 1923.
EøossnulidtONBSKProfMVSSFØSstery old ERESSSS SEES 1890.
BøssridkORESKSEELektor Candy mag Kolding SSR SSD 1912.
Børgesen, C. F. E., Bibliotekar, Dr. phil., Rosenvængets Hovedv.

ERE DEERE EN ER SEERE ST Eee ae se lasthedetene LE Sd Mer 8370 TE 1887.
Bøving, A., Dr. phil., Smithsonian Institution, Washington, U.S. A.. 1902.
Bøving-Petersen, J. O., Lektor, Mag. sc., Gl. Kongev. 157. V. ... 1913.
Christiani" AY"Ingeniør; Bølling Sø, Engesvang 2.2... eee 1906.
Ciristranslens MS Prof KE DryAbildsgaards ANE AS Vee 1921.
SlErmen FASE geniør Ceres VEST SNSESESSE SSS 1907.

Dahl, S., Biblioteksinspektør, Cand. mag., Fjords Allé 22%. V........ 1906

XXX

(4 Indtraadt i
Foreningen
Degerbøl, M., Cand. mag., Borchs Collegium, St. Kannikestr. K.... 1915.
Dereh mann ES ESME SEE EEN EN LEE 1915.
Didrichsen taseMarss EBU sSOV S EEEREE 1893.
Ditlevsen Ar Massere kKnudsy- 6; Charlotte lunde RER rer 1897.
Ditlevs'entEæSsindsmarsFAnnas vs RET eler ip RFS ESSEN 1923.
Ditlevsen, Hj., Museumsamanuensis, Mag. sc., Annasv. 14. Hellerup 1902.
Drechsel, C. F., Kommandør, K. DM., Hammershusg. 2, K. ...... 1919.
Dreyers Wwæ Direktør ERE oologiskRElav SSR FERSKE SE EN SEE 19Di
Erste Eru Under EImene RISE GE SER SEES SSO NS NES EERESSEE 197572
Ene ES VÆR Nag se ElGS MU PSVE] KS VER RMS SES SES SR 1915:
ES tRICDE EDER PEN Under lmen SIS NC REEE REE FE ESS 1914.
Elberling, C., Bibliotekar, Mag. se., R. DM., Forchhammersv. 6. V.. 1854.
Enderstoltuvestudmagsestrangboulevardenk 98 ØER EREE SEE 1923.
Ææspens Petersen PEBorgmester, Silke Or ERE RE seen 1906.
Ferdinand, Johs, Adjunkt, Cand. mag., Herlufsholm, Næstved..... 1907.
Finidalejskrs ærereInsersleysBonlevard 2 A annas rese 1923.
EløystunptArkPros Dr med RE Stockholms 2 Ø SEERE 1905.
Forhys: MWEISELG an Ep HUE] alias EB Io mas RE ene se 1923:
ForhiPSEorststnderende DISC Ørsteds yt 391G SAV EPE REE RE ER 1923.
ErancksCAV-SMag-sc tKochsvej BLEE VS NES 1917.
ErancktSsSsRviceskoledirektøre Falkoner HB SE SE RE PEERS 1919.
Frank" Kommunelærer Dossering AAEN ERE RENEE SEES SEER 1916.
Frederiksen GæSstndsmars" Hovedet Eyng bye eee 1923.
EredernnkssomntASEstud mars tinde vr REE 1923.
EremehennPSPAdrÆRNyeboer&eNissent Raad dhts pl 7 Reese 1919.
Gandrup, Johs., Mag. se., Besoeki Proofitation, Djember, Java ..... 1915.
Gem zøe, K.J., Lektor, Cand. mag., M. f. D. R., Jomfrustien7, Sønderborg 1902.
GlødetEærSsudsmarseDronninggaards FANE MET Ole Fer Eee SR 1921.
Gormsen, C. C., Skoleinspektør, Cand. mag., Kapelvejens Skole. N. 1909.
Gormsen EVERETT Studs mag Ka pe lv AP NEN ERNE SSR 1923.
Gram, E., Afdelingsbest., Cand. mag., Statens plantepatologiske Forsøg,
ES MT DNS ERE EEN DE SSD NE En EJES ER SA Gb > 315 1915
Gram Bille Bro EN ørres ØRE TE SER 1905
Gran ske] SAFE Mar ses FA aboulevarde ns O EEN Eee eee 193%
GCrovesRasmuss ens Erieektormemannss sl FAVES fr rese 1920.
Gruelund, G. L., Kommunelærer, Cand. mag., Dalgas Boulevard 1157, F. 1917.
Gren dvs MS Ek NS Ear mas es (2 KEN SE RAE SERENE BR SENERE 1916.
GCudmanntEROyeretssagfører "NØrTE 2 GE KE es SENSE 1920.

Gædeken, P., Fuldmægtig, Cand. jur. & polit., Mathildev. 22, St. F. . 1919.
Hallar, S., Underbibliotekar, Dr. phil., Universitetsbiblioteket, Fiol-

(STN KE: 20 (BR NSA SST Fold LUe, HA STHEN RSPSESE (8 K2 RL SES EYE SA SAS ASENE Sdr S ESS en RER PRES 1918.
Hanne ssonePeSESstidsmagstBrandes FANE FI SEV ENES RIE ERE SER 1923.
Hansen sESBErksekirkebdakKk Ene GENto Me eee SERENE 1912.
Hansen Mrk Studs mar Annasvs2OM El eller esse 1919.
Hansens Sudden Venders ea RER Se > ren 1921.

Harmsen Søren Polteress ave OS KEN Re BE ER NNE 1878.

XXXI

Indtraadt i

Foreningen
HinsennvVø Euldmægtig Cand: jur Willemoesg. 398 ØEN Sane 1917.
Har blomme SVN Premierl"Baadsmandsstrædets Kaserne: Gi JESS. 1922.
Hauch, Chr., Seminarielærer, Jonstrup, Ballerup .................…. 1918.
ElessstRÆErkStudsmags"Skoygaardsg- 28. Øs ss TRE nunne J920.
EEN Ses Er KGS Konge vr ARNE ananas adds 1905.
Helms, A. S., Frk., Stud. mag., Fredériksdalsvej- 13. Lyngby......... 1920.
Helms, O:, Overlæge, Nakkebølle Sanatorium, Pejrup ............. 1892.
Henriksen, K.L., Museumsamanuensis, Mag. sc., Jeppes Allé 7 St. L. 1907.
ElenlevæMeBErnenStæsers ANE AMS Sar ele eeterere area 1917.
Hessel HSAVekselererE GE Kongers GEVINSTEN E eee eee etern eee 1913.
Hintze, V., Museumsinspektør, Valby Langg. 7, Valby ............. 1890.
Horten SFA djunkt "Cand" mag "Akademiet; Sorø ss En een 1916.
Hole hrrstensenePe Sind mag Vodrofv53; VISES Serre 1923.
ERollHereFAa SS koyrider ole HER SERSS SES SS EL araean aaaee 1905.
HlornansFSoph" FabrikantøErederiksb ore 44. KE JESS SSI BSL SS. 1907.
Elon O FE Læge Hanchsyr 20 VS SE Tre See eee se ae 1914.
Hørring, R., Museumsamanuensis, Mag. sc., Rahbeks Allé 32 St. V... 1896.
Elon RE Rathsach EVE EEEe eee ret es rek anale rene FAE 1912.
Samerne Dr med Ry BERN FSR SEES TE EEN Da TE re eve MEE 1915.
iltet bserns Ar Studmar"Grønnmgen 2 KE ISE SED ES Ssarne 1920.
keobsereNSH-"std”mags Svanholmsv 6 By SE Vis. Flod sangen 1922.
kceobæustArFAdjunktn Cand theol & mag Tønder SEES KEE SEER 1918.
iNerislensbAdES SE Prof DE pi SERSEN ørre sl KEE ESS RER 1887.
lensenskASFAssistent "Margrethes 25 Hellerup STEN SSERESRISRTER 1912.
ens enFAan Study mag"Eiolstry 28 KEE MESSE Tonede 1919.
ikemsenterrApoteker Nørrebros 2 EN ESS Saa dare sete fe 1880.
Jjensemrmter Oos Prok Dri med ”MVSSERSDMS Bulowsv. 27. V. 5571883:

Jensen, Hjalmar, Lektor, Cand. mag., Gersonsv. 55. Hellerup .... 1923.
Jensen, K. T. A., Laboratorieforstander, Cand. polyt., Roarsv. 21". F... 1912.

Jensen Vilh: Lektor, "Dr: med-, Juliane -Mariesv. 22. Ø. summers 1905.
Jespersen, P., Mag. sc., Dronning Dagmars Allé 227, Valby......- 1910.
Jlespersertlda Gt Eærerinde” Marstrands S5 SE ØS SNERRE 1923.
Ness AE SE Stats pe olos Cand polyt Halls FANE OSV ESS SSR 1893.
Noh anrnsen WB Prok Dr med bot er z00].; MVSS KS DM
omers AO KEE EN RRS SS SISSE Sadler 1881.
Johansen AC. ]., Dr. phil. Duntzfeldts "Alle 10. Hellerup. ....... 1894.
Johansen, Fr., Cand. phil., Depart. of The Naval Service, Ottawa,
Canada hor adelens FE DES EEN Er ENE 1921
Sker horrælnspectrice Østerbrog 85) ØSTRE ER ele ge se 1923.
Jørgensen, Aa. H., Kommunelærer, Norgesg. 31”. Esbjerg.......-. 1918.
Jørgensen, N.R., Dr. phil., Direktør, Peder Skramsg. 1. K. ....... 1912.
ikørsemsen i valbs Erks"Classensg 39 TØR LESS RK SES Sd noted 1923.
Knudsen V-Sigfred,- Lærer, Villa ,,Fyn£, Aarhus... 040 1923,
KoeberænMass set Mariendalsy SÆR ESS TE oe ele Sae sale es ate fare 1914.
DENE BEL JESSE BEVIS SEE SEES SEES ESKE RS SES SKE SEES 1897.

Kongs,-K. J., Frk., Stud. mag., Hillerødg. 153. Brønshøj ..........-…- 1923.

XXXII

Indtraadt i

Foreningen
Krabbe uh NSOCæseniGejsers FANER SE EEN SES ES SER AR DER 1881.
Kram p, P. L., Museumsamanuensis, Mag. sc., Sommerv. 5. Charlottenlund 1904.
Kristiansen ONRSVekselerer FA dmiralg FISKERE SEER ERERNER 1906.
KrochuSFASEProrseDrephilsEMVSSENyAVestere ELIE EB FEE SEERE 1894.
Krorh vs KkommunelærertBryggervangens Skolers trit Se 1920
Kruuses Hssudsmassavietorag oe RRS ERE ESS SERIES 1923.
Kryser-Jensen] Pærer Rosen væld Gentofte Free EEK ERR 1908.
Larsen GAS Grosserer Eorstkandidat Faaborg FEEDS 1918.
Laustsen, J. P., Kontorist, Sindssygehospitalet, Middelfart ......... 1920
Nem ohskdrsudsmasfevange hus velse SES SENSE SEES 1923
Feber kinder Studs marseNØrre bro pE IS 2 HERE SEE SENSE 1916.
Bindhande js sProrDrimed EMGRSEB oy es 78 EVER REESE 1917.
Lande] SSErksrØsterfarimags NERE TEE ES SEE FREE ERE ESS ERREESERER 1912.
EundeMSMMCandsphils Assistent; HNøjsomhedsvtl SKØRE 1893.
MandbeckR WS Museumsinspector EN vej SAV eee 1891.
Bundblad"OoM Fit massFExperimentalfeltetrs tockholmsreereereese 1921.
Lynge, H., Antikvarboghandler, R., Rathsacksv. 32. V.........02024: 1881.
Løfting, Chr., Fiskeriinspektør, Mag. sc., Lykkesholms Allé 3 A?. V. . 1893.
FonnberstEN Pros eDrsphilsRiksmuseeFEStOCKN Ol me 1904.
KøppenthinmtBbiestudsmed sund holm EsS eee RENSE EERESR 1923.
Madsens Ingeniør” Konsulent; Harsdorffs vs SE V søen 1912:
Ma d's'ens PS Læger andet F'Svendb ork eee SEERNES NS SEES RES 1914.
Madsen Vær Sstatsgeolog DE phil ER Kastanie vel Vee 1890.
Manntch'etASFAVSEConservatorkNyelandsy069 3 ERE REDEN 1910.
Mathiasen” AErk; "Hesseløg "3 ESS RER ER eN SEES ENS ER 1916.
Mathiesen, F. J., Cand. pharm., Mag. sc., Dosseringen 207. N..... 1916.
Meinertz eNSTKommunelærerS o fle vi SB EN RESEN 1921.
Mæenzingers A'Patert Stenosg. AS AVIS S SISSE EN BRS SEES SES NESRRSSERRER 1920.
MolFeruptceyrHsestudsmassHWillemosei6s Øre 1923.
Mortensen RyCSESkoleinspektør Prinsessegadest Skole Ce 1910.
Mortensen, O. Th. J., Museumsinspector, Dr. phil., MVS., Sortedams
Dossering GSAP ØRE aL Pa ga É MEDENS SEER RENEE HE SEERE RESEN 1891.
Moth; PÆSmainmarssCeresy, 2 RKV EGE ERE SES SEEREN SAR AREERR 1921.
MullerfErnstøkommunelærerFAmagerbrost207sES ER 1923.
Miller, P. E., Kammerh., Hofjægerm., Dr. phil., MVS., K. DM., Vester-
voldsl00 essere SPORER Ses SELE SEE TEE er FEE DES 0 05 2.5dE 1857.
Møllers SMSREektor;E Map se PontoppidanseEA aarhus eee 1890.
Møller, N: C., Mag. sc:, Cand:-pharm.; Peter Bang Vej 50 Eee 1919.
Møllers VARSELektorecandsmagsNyborse GE NPA anus ener 1920.
NaturhistorfskyiMUse mm, Aarhus Eee SEAN 1921.
Nielsen ES KommunelærersSortedamseHl le SEN eee eee 1920.
Nielsen ESTYEStudkmarskepråWintherns vel RVAre eee 1920.
Nielsen, K. Brinnich, Overlæge, Dr. phil., Amagerbrog. 129", S. ... 1909.
Nielsen N-TAdjunktiCandsmasfRyes ST ØRENE 1916.
Næelsen,P.,SBibliotekart Silke bore teen SNEEN SAREEN 1917

Nordmann, V. J. H., Statsgeolog, Dr. phil., Melchiorspl. 5. Ø…..….. 1898.

HEE ER

XXX III
Indtraadt i
Foreningen

Nørregaard, E. M., Docent, Cand. mag., Holmens Kanal 22, K. ... 1899.
Nøocresaardekerbærse Nørrevold KS ad eee here men lere 1907.
OIS'en ER Kommunalrevisor Nørresø SE KS Sr ene mu kasn e e 1909:
Ostenfeld, C. Hansen, Prof., Dr. phil., R., MVS., Gothersg. 140. K. 1896.
OSFente Gert ad Siuds mage Gotbersg 140 Kris sna 1923.
Otterstrøm, A., Højskoleforst., Cand. mag., Snoghøj, Fredericia.... 1902.
Others trøms GAV Map sc Frederiksdal Lyngby ss eee erere 1902.
Paulsen oOo Prof£ Dråphil. Foraarsy: 287 Charlottenlund 2.47. 1916.
Pedersen Aase Essmdmass Guldbergs SENE SSD ER 5301925:
Pedersen HYErkøBtSeminarielærerinde; Lindeallé; Aabyhøj... 73: 1915.
Pedersen, L., Adjunkt, Cand. mag., St. Annag. 38 B?. Helsingør.... 1910.
Pedersen" SejeryDE stud: mag SEllinorsv- 8, Charlottenlund 1922.
Petersen, C. G. Joh., Direkt. f. Dansk biol. Stat., Dr. phil. & jur. &

see RD MEE MUSSEStrandaservi 27 El el leraps sr ES SS SERENE 1880.
Petersen) EJ ”Afdelingsbest:” Mag: sc: Peter Bangsv. 59; St. FF... 1916.
Betersemids Es ikektore Dr pis eB lytsyl FSF FLESTE Sk 1899.
Petersen,J.Boye, Museumsamanuensis, Cand. mag., Sigbrits Allé 6. S. 1919.
Petersen, S. Kierulf, Cand. pharm., Calvinsv. 9, Fredericia ...... 1921.
Petersen, Sophie, Frk., Lektor, Cand. mag., Østervoldg. 7. K....…. 1908.
Petersson, Vagn, Adjunkt, Cand. mag., Østerg. 9. Hillerød ...:.... 1907.
Babe SR Smid masse Hellerupvs AES Hellerup adel nnte e 1919.
Porsild, M. P., Mag. sc., R., Dansk arktisk Station, Disco, Grønland 1907.
BonulsenteFSudsmass Maltesaardsyt0: Gentofte SS ERE 1918.
Horilsenm ESME Sinde mas shRe gens EKS SES SES SEERE 1919.
Rammer EB ostrykkerkoldbo ds ASKE rar eee ere el Eee: 1923.
RarnrmmkrlærGS CH Profemer EMVS EG others es 10 KEE SERENA 1882.
Ravn, J. P. J., Docent, Museumsinspektør, Brandes Allé 11". V...... 1900.
Renere CSBr and kiC and mas Humlebæk 10 SE RER 1922
Riise Eri Generalkommissær Rø Hollænderdybet 3 SISSE 1882.
RoødskjærtEErks FaglærerindeMørchs" Skole, Hillerød "LER 1919.
KosenbersPBEAGEBostrykkert Ciyr lo REESE RENSE 1907.
Rosenvinge, L. Kolderup, Prof., Dr. phil., R., MVS., Odenseg. Il. Ø.. 1876.
RorndammketProfs Dre phl ERE Ham bros FANE 7 Eellerup TERE 1888.
Salomonsen, C. J., Prof. emer., Dr. med. & scient., MVS., K. DM.,

Østerbrog. 136: Ø..…... : Ene SEE ENERET re 1865.
Saxtorph, S. M., Læge, Styrelsen af Kolonierne i Grønland, Knippels-

bra. Sr Os TEE Er DRS TEE 1916
Ssenrølerteskenni vekselerer Uraniav: 14163 VE SERSESES TER 1904.
Schmidt, Johs., Laboratoriedirektør, Dr. phil., R., DM., MVS., Carlsbergv.

UD ENE EEN TEE SEE SE OU 1909.
Schmit-Jensen, H. O., Forsøgsleder, Dyrlæge, Amagerbrog. 24”. C. 1912.
Schrøder, Caroline C., Lærerinde, Kristianiag. 14". Ø......... 1923.
Schwårter, Ad., Adjunkt, Cand. mag., St. Mogensg. 2”. Viborg ..... 1920.
SmmonsenekenEektor Cand mas Sorø EU SSR SES SE Dee 1919.
Skak kenBeRSseminarist Dosseringen SÆR NT SES SEES 1920.
Skjold es rad mag Rør holm POE RESTER ns 1917.

III

XXXIV

Indtraadt i

Foreningen
SkovraardssisnetlLærermde; Bagsværd Se EET SARTRE 1923:
Spårck, H. R. G., Museumsamanuensis, Mag. sc., Birkerød.......... 1915.
SpåthlJ vi Fuldmægtig Cand phil ClSKongev les AV SEERKER 1912.
Stamm, R. H., Docent, Mag. sc., Hovmarksv. 26, Charlottenlund..... 1896.
Steenberg, GM "Bekfort Mag scent Petersborgv. 6 3 ØRE SEER 1902.
Steenberp i] ASER rUue MEP eterSs borg 0 Ø SPREE BEEN ERE SS 1915.
Stephensen tlSRErnde Holstens 85 SØ SE SEER ERNE EN SEES 1920.
Stephensen, K. H., Museumsamanuensis, Cand. mag., Holsteinsg.

Er fø en SENE] AN LER abe BEN SENE TS SENSE HESTE SNE KS 31 SE NESS BRSES ENE SEE TD 1903.
Stern mman REESE nigheds 0 AV SEEREN ERE REE SEERE 1923.
SfockmarrFArikektorcandsmazt Vesterbdr og IO EVE EEEREERER 1920.
Strande Gymnasiasti Vesterbro see 04 SAV RENNER SES ESSEN 1920.
Strubberg, ATC" Fuldmægtig "Cand mag Havneg] OT Keen 1900.
SemundssontBSFAdmunkteCandsmars REY k] aviser NERE 1892.
Sørermsen, A., Adjunkt, Cand. mag., Bredg. 19% Roskilde ........- 1917.
Banrne ARV SMagstser. Monradsy: HUL KS SERENE 1914.
ber manns Eris FANGSFApotekertOnsgaardsy 27 Elen pe 1879.
momsen IN PME ektor Mar. ser JER OFI Sense OF ØER 1916.
KkhuesenRESSFACdjunktt Cand mag Nykøbing ESS SEERE 1917.
Firm bor MM SBEr KS EBibliofhekarkJenstJuelsg 20 Ø FEER KREERESEE. 1919.
RonpenchrÆRedaktørEB ul ganiens ARS FE NS E ERE SENNSSE 1922.
BbroensesaardtNSDampmølert]aco bys FANE 2 IR VER 1911.
kryldeBESGSEEektoreR Øe ENES SA SEERE IS EE SSR Fa SER 1893.
UnrversitetelisszoologiskeStudiesamlseNøreg 0 Kier 1923.
FSssarælds Urmager Randers ES NREN SSR 1902.
Vahls MProreDrphilse Brandes ANER SV ESRNEE SS ER SENSE 1897.
WamdallslssskOverlægertiN ørne ASER RENE ESS SEER 1906.
Warming, E. B., Prof. emer., Dr. phil., MVS., K. DM., Bjerregaardsv-

BD Valby SE ELSE SEE ALDE KYS LER eee SEE ESC RE 1859.
Vedel, A. K. A., Lektor, Cand. mag., Stengaards Allé 13. Hellerup ... 1899.
VentesodtiNnsCandsjurstsSekrefær;" Vester SOS kinesere 1920.
Wessenberg SErk Stud mar Havne so Kee 1919.
WesrRASHEkspeditionssekretær; "Bispebjergsv 6830 Bero 1914.
Wiinstedt, K., Forfatter, Operasanger, Paludan Millersv. 5", V..... 1919.
WinmmektØøProfeDrsphlsErandbohøjskolen eV SERENE RENEE 1923:
W ulff, J., Konsulent, R., Hyldegaardsv. 34, Charlottenlund ......... 1892.
Yding vt ærer Halfdanset is BES Te er ERE 1922.
AololoerskrHavernkøbenh avner SE SE eee SEE SEES PER NOE
Østrup iciræKkommunelærerklemnosvte SE SEERE RER RENE RER 1921.

Ialt 243 Medlemmer.

Rettelser og Forandring af Bopæl bedes indtrængende meddelte til Kas-
sereren, Mag. sc. R. Hørring, Zoologisk Museum, Krystalg. K.

Dansk naturhistorisk Forenings Bestyrelse.
Prof., Dr. phil. Ad. S. Jensen, Formand.
Mag. scient. R. Hørring, Kasserer.
Statsgeolog, Dr. phil. V. Nordmann; varetager de populære Forelæsninger.
ProkÆDrsphil C.H. Ostenfeld:
Mag. scient. R. Spårck, Sekretær.
Cand. mag. K. Stephensen; besørger de litterære Bytteforbindelser.
Lektor, Mag. scient. M. Thomsen; varetager Ekskursionerne.

Kommunalrevisor Emil Olsen.

REKIsbrÉr: | Mag. scient. Chr. Løfting.

Delegerede til Udvalget for Naturfredning.

Kammerherre, Dr. phil. P. E. Miller.
Docent R. H. Stamm.

re

Preliminary Note on the Eggs and Larvae
of Arenicola marina L.
By
H. Blegvad.

(Danish Biological Station, Nyborg.)

After several unsuccesful attempts I succeeded last year in
observing the deposition of eggs and in following the early develop-
mental stages of Årenicola marina in an aquarium in Nyborg.
On August the 6th I found upon the surface of the sand in which
some adult Arenicolas lived, a thin, reddish-yellow layer of eggs,
deposited within a circle of about 20 cm in diameter. The eggs
rested loose upon the sand, but whirled up like a cloud by the
slightest movement in the water. One of the eggs is represented
in Fig. 1 (a); they are discoidal and resemble very nearly, as to
size and shape, the eggs found in the body cavity of ripe AÅreni-
colast (see IN HS A'shworth ”Arenicola:Proc.: and Trans: Liver=
pool Biol. Soc. Vol. XVIII. 1904, Fig. 68). — On the same day
some of the eggs were found in the first stage of cleavage (b),
and the next day some of them reached the morula stage (c—d).
On August the 10th the first larvae (e), 0,207 mm long, were
-hatched and swam actively about in the aquarium by means of
theimkella:theyare telotroch, have two brownish-red eyes and
long sense-hairs upon the front part of the body. Between the two
bands of cilia they have a longitudinal band of short cilia on the
ventral surface. Colour of the body yellowish-white; no setæ.
Two days later one pair of spatulate setæ (i) appeared; the larva
(f) is now very nearly like the larva of Arenicola claparedil as
hatched from artificially fertilized eggs (Ashworth Il. c. Fig. 76).
On the 14th of the same month another segment acquired its setæ
(g),. and the chaetigerous segment in front of this now had two

Vidensk. Medd. fra Dansk naturh. Foren. Bd. 76. 1

PA

setæ, viz. one spatulate and another with a long, drawn-out tip
(k). The animal has now two pairs of eyes, one pair of smaller
eyes having appeared dorsally to the original ones. The next stage

Fig. 1. Eggs and Larvae of ÅArenicola marina L. X 180.

(h), with 3 chaetigerous segments, was found on August the 17th;
the larva had attained a length of 0,248 mm. The two first chaeti-
gerous segments bore crotchets (1), one pair on each.

Having reached this stage many of the larvae died, and
the remaining were still on August the 2lst mostly in the same
stage. Only one specimen had 3 fully developed chaetigerous seg-

3

ments with 2 pairs of setae and one pair of crotchets each; some
few days later no living larvae were to be found.

During several years I have known these larvae of AÅrenicola,
and in the free nature I have caught such larvae with 5 chaeti-
gerous segments (in September), but between this stage and the
»post-larvalf Benham-stage (see Ashworth 1. c. page 268) which
I have found occurring in numbers in early spring (April—June)
by Nyborg, I miss the transitional stages. But my experiences ap-
pear to prove that Arenicola by us breeds during the autumn
(Ashworth [l. c. page 211-—212] says in the spring), and that the
duration of the pelagic life of the larva is very considerable, ex-
tending, perhaps, over the whole winter time. Further investigations
are, however, necessary to solve this question. —

24 —3— 1923:

KR
OFDEs

2)
UA

Revideret Fortegnelse

over
Danmarks Arter af Amphipoda
(FEDE):
(Hyperiidea; Gammaridea: Lysianassidæ).
Af

K. Stephensen.

For 13 Aar siden paabegyndte Dr. H. J. Hansen i nærværende
Tidsskrift (Bindet for 1909, S. 197—262) en Revision af de danske
marine Arter af Malacostraca; Arbejdet omfattede Isopoda, Tanai-
dacea, Cumacea, Mysidacea og Euphausiacea. I samme Bind fort-
satte jeg med en Liste over Decapoda (S. 263—89).

Tilbage stod saaledes Bearbejdelsen af den største af alle Dyre-
grupperne, Amphipoda, men forskellige sammenstødende Omstændig-
heder har bevirket, at saa mange Aar er forløbet, inden 1. Del af
denne Gruppe kunde offentliggøres.

Om Planen for Arbejdet og om Grænserne for Omraadet kan
henvises til Dr. H. J. Hansens ovenfor citerede Arbejde S. 197—99.

Skønt nærværende Liste udelukkende er baseret paa Materiale,
der tilhører Zoologisk Museum i København, er der dog (uden Nr.
og i[ |) efter Literaturen optaget enkelte Arter, der endnu ikke er
kendt fra de egentlige danske Farvande, men fra Omraader, der
ligger saa nær ved Danmark (S. Norge, Bohuslån), at det utvivl-
somt kun er et Tidsspørgsmaal, naar de paagældende Arter vil blive
fundet nærmere ved vore egne Kyster. i

Nogen Oversigt over Faunaens Sammensætning, Årtsantal o. Ig.
kan ikke gives nu, men maa vente, til Bearbejdelsen af hele Grup-
pen foreligger færdig. Der kan dog ikke være Tvivl om, at Tallet
af kendte danske Arter vil blive mere end fordoblet.

6

Følgende Forkortelser er benyttede i Literaturhenvisningerne:

Meinert, Crust. Dan. =— Meinert, Crustacea Isopoda, Amphipoda et
Decapoda Daniæ: Fortegnelse over Dan-
marks Isopode, Amphipode og Decapode
Krebsdyr. — Naturhistorisk Tidsskrift, 3.
Række, 11. Bind, 1877, S. 57—248; 12.
Bind, 1880, S. 465—-512.

Meinert, ,Hauch" — Meinert, Crustacea Malacostraca. — Det
videnskabelige Udbytte af Kanonbaaden
»Hauch"s Togter, 1890, S. 147—232, med

Atlas.
GT 0FSars "18095 TF =2G O"Sars; zAn Account of then Crustacea
of Norway, vol. 1, Amphipoda, 1895.
Stebbing 1906 — Stebbing, Amphipoda I. Gammaridea. —

DasTierrerch ere 006

En Stjerne £ foran en Art betyder, at den er ny for Danmarks
Fauna.

I. Hyperiidea.
A. Filicornia.
Fam. Hyperiidæ.

1. Hyperia galba Mont.

HyperiaealbakGFOSSarskl SOS Ep 7 SEP SPIES PER
== Galba Meinert, Crust. Dan. p. 91.
— — Re Hauch PISSE

I de ca. 30 Aar, der er forløbet siden Udgivelsen af , Hauchfs
Togter, har Museet kun faaet forholdsvis lidet af nyt Materiale af
denne Art, og vort Kendskab til Artens Udbredelse er ikke blevet
udvidet der igennem. Den gaar gennem Skagerak og Kattegat til
Øresund S. f. Helsingør, til Storebelt ved Nyborg, og gennem
Lillebelt helt ind i Kielerfjord. Desuden er den fundet i Isefjord,
Odensefjord og den vestlige Del af Limfjorden (Sallingsund, Løgstør).

” 2. Hyperia medusarum O. Fr. Mill.
Hyperia medusarum G. O. Sars 1895, Pl. 3 fig. 2.
Af denne Art, der ikke tidligere er taget i danske Farvande,
foreligger der Exemplarer fra 4 Lokaliteter: i Skagerak er den

7

taget af ,,Thorf (9—10—1904, 640 m) 42 Kv.mil N.V?/4N. for Hirs-
"hals, i Kattegat fra 21/8 Kv.mil S.S.V. f. Trindelen, 34 m (,Thor"
11—10—1904) og det , nordlige Kattegat" uden nærmere Lokalitet
(Dr. Johs. Petersen 1899); endvidere fra Storebelt: Hvidegrund
ved Nyborg, mellem Cyanea 17—9—1917 (Dansk Biol. Stat.).
Højst 2 Ex. er taget paa en Gang.

=£ 3. Hyperoche medusarum Kr.

Hyperoche Kråyeri G. O. Sars 1895, p. 9, Pl. 4.

Denne Art er ny for danske Farvande. Der foreligger 3 Fund:
57'09' N.,7946' Ø., 44 m (25 Kv.mil N.N.V.//2V. f. Lodbjerg Fyr)
(,Thorf St. 1563, 20—6—1911), Skagens Rev 16—6—1899, og
2 Kv.mil S.S.V. f. Hals Fyrskib, 7 m (,,Thorf St. 1587, 30—6—1911).
At den kunde findes i disse Farvande var at vente, da den er
fundet ved Norges Sydkyst.

= 4. Themisto abyssorum Boeck.

Parathemisto oblivia G. O. Sars 1895, p. 10, Pl. 5 fig. 1.

Af denne Art, der hører hjemme i Nordhavets kolde Area med
tilhørende Grænseomraader og kun undtagelsesvis træffes længere
mod Syd, er der fundet et stort Antal Exemplarer i Skagerak og
nogle faa i det nordlige Kattegat; Arten er ny for den danske
Fauna. Medens Arten i de arktiske Farvande bliver indtil 17—21
mm, er de danske Exemplarer kun indtil 9 mm, oftest lidt mindre.
Alle de danske Exemplarer er taget af ,Thorf med Undtagelse af
folfrækt (fra Ingolf):

Fra Skagerak foreligger den fra ikke mindre end 36 Træk;
Havdybden er som Regel > 200 m (200—670 m), kun i enkelte
ihilfeldeknmndre (090 10508730 175; 1805 Mm): SE Dybden
under Overfladen er som Regel ikke noteret, saa at Arten vist
oftest er taget nær Bunden; i et enkelt Tilfælde er den dog taget
med kun 25 m wire.

4 Gange er den taget i Kattegat (af , Thor"): 10 Kv.mil SØ.
t. S. f. Trindelen, 56 m, 25—10—1904; 3 Kv.mil S. t. V. f. Trinde-
lens Fyrskib, 32 m, 22—3—1906; N.Ø. f. Læsø, 70—0 m, 12—3—
bogs or 6 Kvm ØE NNF Ejelm, (10) 21 mm, 8—3—1906:
I Kattegat er der kun taget nogle faa Ex. i hvert Træk, i Skagerak
derimod ofte i stort Antal, indtil ca. 1000.

8

De fleste af Ex. er i begge Havomraader taget i den kolde
Aarstid (i enkelte Tilfælde var Datoen ikke noteret). Aarstiden
for Ex. fra' Kattegat er angivet ovenfor; for Skagerak er Datoerne
følgende: 17. Feb. (2 Træk); 7.—25. Marts (5 Træk); 3.—7. April
(3 Træk); 4. Maj (1 Træk); 20. Juni—8. Juli (8 Træk); 6.—7. Sept.
(4 Træk); 9.—21. Okt. (6 Træk); 1.—19. Nov. (4 Træk). % med
Æg eller Unger er 7—9 mm; de er fundet paa følgende Aarstider:
17. Feb., 7. Marts, 4. April, 25. Juni, 9.—-14. Okt. (4 Træk).

B. Recticornia.
Fam. Scinidæ.

ENSEESenal borealisE GROFSars'

Scina borealis G. O. Sars 1895, p. 20, Pl. 8.

Denne Art, der er ny for den danske Fauna (men tidligere er
taget ved Mundingen af Christianiafjord), foreligger fra 14 Lokali-
teter i den dybe Del af Skagerak, 210—640 m (kun i et enkelt
Tilfælde kun 65 m). Dybden under Overfladen er kun noteret
en enkelt Gang (600 m w.). 2 Træk er foretaget 29. og 30. April,
et enkelt Træk 16. Maj og et 7. Sept.; alle de andre er fra Vinter-
halvaaret: 9.—14. Okt. (5 Træk); 17. Feb. (2 Træk); 7. og 19.
Marts (2: Træk). I flere Tilfælde har Nettet truffet en Stime:

II. Gammaridea.
1. Fam. Lysianassidæ.

[€ Trischizostoma Raschii Esmark & Boeck.

Trischizostoma Raschii G. O. Sars 1895, pp. 31, 674, Pl. 12.
— nicæense (partim) Stebbing 1906, p 13.
— raschii E. W. Sexton, On the Amphipod Genus Trischi-
zostoma; Proc. Zool. Soc. London, 1908, pp. 385—
98; Pl. 17 fig. 13; Pls. 18, 19 figs. 2—11; Pls. 20,
21 figs. 1—13, 15—18 (Lit. og Syn.).

Af denne Art, der tidligere er kendt fra forskellige Steder ved
NorsestKysti(Sarsklmed) kor frats OSS EN EIDE PD VER DE OSE sr
Evym(Sextonulc) har hor taget tet EXT (20 mm) Fi "Skagerak
udfor Hall6, 244—338 m, 9—3—1904. Skønt dette Fund ligger

9

uden for, hvad der selv i videre Forstand kan kaldes dansk Hav-
omraade, anføres det dog her, idet Arten utvivlsømt senere vil blive
fundet ogsaa i den midterste Del af Skagerak (den er ikke tidligere
kendt fra Skagerak).]|

6. Acidostoma obesum Bate.

Acidostoma obesum G. O. Sars 1895, p. 38, Pl. 14 fig. 2.

—- — … Stebbing 1906, p. 14 (Lit. og Syn).
—= = Meinert ,,Hauch$, p. 157.

Udbredelsen af denne Art -angives i Meinert ,,Hauch" saaledes:
»fra Skagerak gaar den i den østlige Del af Kattegat helt op forbi
Anholt til en 8 Kv.mil S. f. denne Ø; Dybden har været fra 110—12
Fv., som oftest nærmere den sidste Dybde, og Bunden ren Slik eller
sandblandet Slik".

Af bestemt Materiale af denne Art fandtes fra Danmark kun et
enkelt Glas med 9 Ex.; det havde Lokaliteten ,,Skagerak—Katte-
gat, 12—110 Fv.f og synes altsaa at indeholde det Materiale, som
ligger til Grund for Meinert's ovenfor citerede Angivelse. Denne
maa imidlertid opfattes med et vist Forbehold; af de 9 Ex. tilhører
kun 5 den foreliggende Art, medens 4 temmelig sikkert er Acido-
stoma laticorne.

Materiale, bestemt til Brug for foreliggende Arbejde, haves fra
følgende Lokaliteter: 6 Kv.mil N. f. Skagens Fyrskib, 70 Fv., 14—
11—1903, 1 Ex. (,Thorf St. 156) og 12 Kv.mil N.N.Ø. f. Skagens
Fyrskib, 85 Fv., 19—11—1903, 2 Ex. (,Thor" St. 164, Dr. A.C.
Johansen). Fra Kattegat haves den fra Hjelmens Fyrtaarn i S.V. t.
VESAVEENE SE Kvm IS EVE SIK OS Sande mp Se KERN GG Eauchs
Srr570)Fog Torekov Kirke 1 N.1/4Ø, 5:3 Kv.mil, 17 Fv., Slik med
lideSsandskemn ps ER (Hauch str 4 2) desuden haves” 3; Ex:
fra Kattegat uden Special-lok. Størrelsen er op til 5—7 mm.

Ved Grænsen af det danske Udbredelsesomraade er den fundet
spredt ved Sydnorge (Sars Il. c.) og ved Bohuslån (Lilljeborg, N. Acta
Soc psalsFserT3 vol 67 Nos 1771865; "pl 34).

Paa de danske Ex. er 3. Par Uropoder lidt længere end vist
paa Sars” Figur.

10

7. Acidostoma laticorne G. O. Sars.

Acidostoma laticorne G. O. Sars, Norske Nordhavs Exp., Crust., vol. 1,
1885, p. 152, Pl. 13 fig 3, 3a.
SE == Stebbing 1906, p. 14 (Lit. og Syn.).
non — — Meinert, ,,Hauchf, p. 157.
partim — obesum == == pælS7E
Der kan ikke være megen Tvivl om, at 4 af de af Meinert
omtalte Ex. af A. obesum (se denne) i Virkeligheden tilhører A. lati-
corne. Lokaliteten er ,Skagerak— Kattegat, 12—110 Fv.f Bestem-
melsen af disse Ex. er paa Grund af den ringe Størrelse (op til
ca. 6 mm) ikke absolut sikker; men i hvert Fald er der ingen dyb
Indskæring, kun en ringe Indbugtning, i Bagkanten af Telson.

£ 8. Acidostoma nodiferum K. St.

Acidostoma nodiferum K. Stephensen, Amphip ; ,,Ingolff-Exped., vol. III,
8, 1923 (gaar nu i Trykken).
— laticorne Meinert, ,,Hauchf, p. 157.

Af denne Art, der adskiller sig fra A. obesum ved at have en
Knude paa Ryggen af 1. Urosomesegment, har , Hauch" taget et Ex.,
ca. 4//» mm langt, N.Ø. f. Skagen, Skagetønden i S.S.V. 6 Kv.mil,
IS2Km SLIKKE Mme dn Sand Hauch ESS SA rt en erhikkeR td
ligere angivet fra danske Farvande, og Exemplaret er af Meinert
bestemt som A. laticorne.

[Opisa Eschrichtii Kr.

SPS EschrichninkGHOFSarss 1805 ps OP ENE

—= Stebbing 1906, p. 20 (Lit. og Syn.).

Angives af Stebbing (1. c.) fra Skagerak, uden at det er lykkedes
mig at paavise Kilden. Vort Museum indeholder intet Ex. fra danske
Farvande.]

9. Onisimus Edwardsii Kr.

Onesimus Edwardsii G. O. Sars 1895, p. 105, Pl. 35 fig. 1.

Onisimus — Stebbing 1906, p. 25 (Lit. og Syn.).

— — Mener Hausehfæpmiss:

Museet har ikke modtaget Materiale af denne Art siden de
faa Ex., der af Meinert er omtalt fra Kattegat (uden nærmere
Oplysninger).

11

£ 10. Onisimus Normani G. O. Sars.

Onesimus Normani G. O. Sars 1895, p. 106, Pl. 36 fig. 2; p. 686.

Onisimus — Stebbing 1906, p. 26 (Lit.).

Af denne for danske Farvande ny Art har ,Thor" (8—7—1907,
BræjobsySchmidt)ltaset 2"ExS ca. 8"mm; 58920" N., 990FØ: 350 m.
At den vilde blive taget i Skagerak kan ikke undre, da den er taget
ved Soon i Christianiafjord, 80 Fv.

[Onisimus plautus Kr.
Onesimus plautus G. O. Sars 1895, p. 107, Pl. 37 fig. 1.
Onisimus — Stebbing 1906, p. 26 (Lit.).
Angives af Sars fra Bohuslån; vort Museum har intet Ex. fra
danske Farvande].

[Lysianella petalocera G. O. Sars.

ge petalocera G. O. Sars 1895, p. 51, Pl. 18 fig. 2.
= Stebbing 1906, p. 31.

Er af Sars taget i Lyngdalsfjord ved Farsund (mellem Mandal
og Lister, S. Norge), 100 Fv., men er ikke taget af nogen dansk
Expedition i danske Farvande].

1. Perrierella audouiniana Bate.

Perrierella audouianiana G. O. Sars 1895, p. 678, Suppl. Pl. 2 fig. 2
= = Stebbing 1906, p. 41.
Åristias Audouiniana Meinert, ,,Hauchf, p. 152.

Vort Museum ejer kun de faa Ex., der er omtalt af Meinert
fra sydlige Kattegat fra Anholt til Hesselø, 10—12"/2 Fv., Bunden
Slik med lidt Sand eller rent Sand med eller uden Smaasten.

[Normanion Sarsii Stebb.

Normania quadrimana G. O. Sars 1895, p. 33, Pl. 13 fig. 1.
Normanion quadrimanus — == lor
= stebbingi Stebbing 1906, p. 42.

Angives af Stebbing Il. c. fra Skagerak, men er ikke taget af
nogen dansk Expedition i danske Farvandel.

z

<= 12. Orchomene serrata Boeck.

Orchomene serratus G. O. Sars 1895, pp. 62, 682, Pl. 23 fig. 1, Suppl.-PI.
== serrata Stebbing 1906, p. 44 (Lit.). IVES sEr

»Thor” har taget 3 Ex. i Skagerak: 44 Kv.mil N.V. t. N. f. Højen,
660 m; ny for danske Farvande.

12

13. Orchomene Batei G. O. Sars.

Orchomene Batei G. O. Sars 1895, p. 60, Pl. 22.

= batei Stebbing 1906, p. 45 (Lit.”.

Socarnes Vahlii Meinert, ,Hauchf p. 151.

Det Exemplar, som Meinert omtaler fra Ø. f. Læsø, Sømærket i
Syrodden i N.V.//2N. 2.8 Kv.mil, 10—12 Fv., Sand og Slik, og hen-
fører til Socarnes Vahlii, har Dr. H. J. Hansen senere undersøgt
og vist, at det i Virkeligheden er Orch. Batei, der altsaa hermed
for første Gang indføres i Danmarks Fauna (Socarnes Vahlii bør
paa den anden Side stryges, da den aldrig er paavist i danske
Farvande).

14. Orchomene Hanseni Meinert.

Orchomene Hanseni Meinert, ,,Hauchf p. 154, Pl 1 figs. 18—24.

= —= G. O. Sars 1895, p. 681, Suppl.-Pl. III fig. 2.
==. hanseni Stebbing 1906, p. 46.

Af denne Art foreligger stadig kun de 3 Ex. (hvert Ex. fra sin
Lok.), som er nævnt i ,Hauch"s Togter. De nøjagtige Lokaliteter
er ikke angivet af Meinert; de er: (St. 72) Flyndergrundens Vager
ivr Kvm 12/5 Evy fint Sand Fog Slik; H(SFEP O) PA bolt
Fyrtaarn i S:Ø., 5.9 Kv.mil, 77/2 Fv., fint Sand' med Tang tor t(St
407) Hesseløs Fyrtaarn i S.S.V., 14.2 Kv.mil, 16 Fv., Slik med
lidt Sand.

[Orchomene crispata Goés.

Orchomene crispatus G. O. Sars 1895, p. 63, Pl. 23 fig. 2

= crispata Stebbing 1906, p. 46 (Lit. og Syn).

Denne Art er ganske vist aldrig taget paa dansk Havomraade;
men den er fundet ved Våderåerne i Bohuslån (Goés: Ofvers. Kgl.
Svenska Vet. Akad.s Førhandl., 1865 (1866), vol. 22, p. 519; Zool.
Mus. har et Par Ex. herfra), saa at den utvivlsomt ogsaa vil blive
fundet i den danske Del af Skagerak. Lever paa dybt Vand,
188—276 m.]

15. Orchomenella nana Kr.

Orchomenella ciliata G. O. Sars 1895, p. 69, Pl. 25 fig. 2.
— nanus Stebbing 1906, p. 81 (Lit. og Syn.).
Tryphosa nana Meinert, ,,Hauchf p. 155.
GA E— erosae— — p. 155, Pl. 1 figs. 25—29,
Po — — Stebbing 1906, p. 741.
I danske Farvande er denne Art mærkelig nok ikke truffet,
siden den blev omtalt af Meinert; i ,Hauch"s Togter angives den

13

fra Skagerak, Kattegat, Øresund. Dybden er oftest lidt over 10 Fv.
(Ydergrænserne er 4 og 125 Fv.), Bunden som Regel slikblandet Sand.
Tryphosa erosa Mein. anføres med Rette ikke af Stebbing 1906
under genus Tryphosa, men er henflyttet til p. 741 under Gamma-
rider af usikker Stilling. Imidlertid fremgaar det tydeligt af Mei-
nert Il. c., at den hører til Lysianassidæ, om end den ikke kan
henføres til genus Tryphosa. Ved at undersøge Type-exemplaret
mener jeg at kunne fastslaa, at det i Virkeligheden er en Orcho-
menella nana, som er blevet beskadiget (i levende Live?) paa Epi-
meraldelen af 3. Metasomesegment, saa at den af Meinert særlig
fremhævede Artskarakter, der synes at have givet Anledning til
Artsnavnet, kun skyldes en tilfældig Beskadigelse.

Den meget kraftige P. 1, hvis Form ikke klart fremgaar af
Meinerts Fig. 26, henviser den tydeligt til Orchomene eller Orcho-
menella. Orchomene er imidlertid alligevel udelukket, da Epistomet
(ikke tegnet af Meinert) hos i hvert Fald alle de danske og norske
Arter træder mer eller mindre frem foran Overlæben, medens dette
absolut ikke er Tilfældet hos det foreliggende Exemplar. Derimod
synes der at være fortrinlig Overensstemmelse med Orchomenella
nana, bl. a. m. H. t. en saa karakteristisk Karakter som den mærke-
lige accessoriske Flagellum i Ant. 1; Epistomet passer ogsaa aldeles
med Sars' Fig., og overhovedet synes der efter en Sammenligning
af Meinerts Type-ex. med Sars' Figurer og Tekst ikke at være nogen
Tvivl om Rigtigheden af Identificeringen.

Meinerts Type-ex. var taget i det østlige Kattegat: Trindelens
Fyrskib i N.V.//2N., 11/2 Kv.mil, 13/2 Fv., groft brunt Grus.

16. Orchomenella minuta Kr.

Orchomenella minuta G. O. Sars 1895, pp. 66, 683, Pl. 24 fig. 1.
= == Stebbing 1906 p "82 (Eit: og Syn.)
Orchomene minutus Meinert, ,,Hauchf p. 154.
Heller ikke denne Art er truffet igen, siden den blev omtalt af
Meinert (fra Hellebæk).

z

£ 17. Orchomenopsis obtusa G. O. Sars.

Orchomenopsis obtusa G. O. Sars 1895, pp. 26, 684, Pl. 26 fig. 2.
== — " Stebbing 1906, p. 85.

Taget som ny for danske Farvande af ,, Thor" St. 285 (14—10—
1904) 44 Kv.mil N.V. t. N. f. Højen, 660 m, 1 Ex.

14

£ 18. Menigrates obtusifrons Boeck.
Menigrates obtusifrons G. A. Sars 1895, p. 111, Pl. 38 fig. 1.
= — Stebbing 1906, p. 49 (Lit.).
Af denne for Danmark nye Art har , Thor" (27—6—1911, St.
1575) taget et Ex., ca. 11 mm, 31 Kv.mil N.V./4 V. f. Hirshals,
140 m, Yngeltrawl nær Bund.

19. Aristias neglectus H. J. H.
Aristias audouinianus G., O. Sars 1895, p. 48, Pl. 17 fig. 2.
==HEEnerlectns = OND
— — Stebbing 1906, p. 50 (Lit. og Syn.).
— — Meinert, ,Hauehf p. 153.
Foruden det Ex., der er omtalt af Meinert fra østlige Kattegat
(, Hauch” St. 243: Fladens østlige Vager i N.Ø. t. Ø./2Ø. 6.2 Kv.mil,
23 Fv., Grus og lidt Slik, af Phallusia venosa), har vort Museum
Ex. fra 3 andre Lok. (1 i Skagerak, 2 i Kattegat), nemlig 579 24' N.,
7925' Ø., 108 m, 20—6—1911 (,Thorf St. 1566); Anholt Fyrtaarn
i"N/Ø ØR 153 Kv.mil 10'Ev Sten, Mys sp (Hauch ise
327), og St. Middelgrund: Anholt Fyrskib i N. t. V.7/2V., 13 Kv.mil,
14/28 Fv., Sand med Slik.

£ 20. Ambasia Danielsseni Boeck.
Ambasia Danielsseni G. O. Sars 1895, p. 46, Pl. 17 fig. 1.
= = Stebbing 1906, p. 5I (Lit.).
Af denne for Danmark nye Art har ,, Thorf (St. 285, 14—10 —
1904) taget et ganske lille Ex. 44 Kv.mil N.V. t. N. f. Højen, 660 m.

£ 21. Anonyx nugax Phipps.
Anonyx nugax +- A. Lilljeborgii G. O. Sars 1895, pp. 88, 90, Pl. 31, 32
homie
= = — +- A. lagena Stebbing 1906, pp. 54—55.
»Thor" har taget denne Art som ny for Danmark 57?24' N.,
7925' Ø., 108 m (St. 1566, 20—6—1911), 5 Ex. op til 14 mm.

22. Hippomedon denticulatus Bate.

Hippomedon denticulatus G. O. Sars 1895, p. 56, Pl. 20.
— — Stebbing 1906, p. 59 (Lit.).
— — Meinert ,,Hauchf pp. 151—52.
Meinert angiver, at ,den udbreder sig fra Skagerak over hele
Kattegat indtil den nordligste Del af Sundet og af Storebelt." De
enkelte Lokaliteter fra hans Materiale er desværre ikke bevaret.

FS

Siden Meinerts Tid har Museet modtaget Materiale af denne
Art fra 19 Lok., de fleste fra ,Thorf, nogle faa fra Dansk Biol.
Stat. Fra Nordsøen foreligger den fra 7 Lok., fra 43 Kv.mil V. f.
Horns Revs Fyrskib til 42 Kv.mil N.V.Z/4N. f. Hanstholm; Dyb-
derne er 17, 26 (to Gange), 40, 44, 50 og 108 m. Fra Skagerak
foreligger den fra 8 Stat., indtil 16 Kv.mil N.N.Ø. f. Skagens Fyr-
skib; Dybderne er: 13, 70, 90, 105—115, 130, 140, 150 og 180 m.
I Kattegat er den taget paa følgende 4 Lokaliteter: 2/2 Kv.mil
SISU os OR KV MI KSIØSH SER ERrindelen, 34-09 56m;'N. £-An-
holt/fl19-m,; og Hesselø 22 m.

Størrelsen er op til 13 mm, oftest lidt mindre. Næsten altid
er der taget flere Ex. paa en Gang, en enkelt Gang (i Nordsøen)
over 50. Meget ofte findes den sammen med Tryphosites longipes

(NT:37):
= 23. Hippomedon propinqvus G. O. Sars.

Hippomedon propingvus G. O. Sars 1895, p. 57, Pl. 21 fig. 1.
= Stebbing 1906, p. 59 (Lit. og Syn.).

Som ny for Danmark har , Thor" taget denne Art to Gange i
Skagerak, nemlig 42 Kv.mil N.V.Z/4V. f. Hirshals, 640 m, 9—10 —
1904 (1 2 med Æg, 8 mm), og V. for Våderåerne, 470 m, 10—
3—1904 (nogle mindre Ex.). Den er ikke ny for den svenske Del
af Skagerak; efter Stebbing er den nemlig synonym med Anonyx
Holbølli Bruzelius 1859 (non Krøyer 1846), og denne er taget ved
Bohuslån.

= 24. Hippomedon robustus G. O. Sars.

Hippomedon robustus G. O. Sars 1895, p. 679, Suppl.-pl. 3 fig. 1.
== — Stebbing 1906, p. 59.

Denne Art, der hidtil overhovedet kun er kendt fra Trondhjem-
fjord, 94 m, har Dansk Biol. Stat. taget 53 Kv.mil N. t. V.//4V. f.
Thyborøn Kanal, 105—115 m, 13—7—1911, 1 Ex., og , Thor" paa
SS SÆRN SET 0237 ØST 246 mM 3 7——1907; ca: 10/Ex. "Desuden
foreligger 2 Ex. fra Danmark uden nærmere Oplysninger. Stør-
relsemker optillca 11-mm:

=£ 25. Scopelocheirus Hopei Costa.

Callisoma Kråyeri G. O. Sars 1895, p. 54, Pl. 19 fig. 2.

Scopelocheirus hopei Stebbing 1906, p. 62 (Lit. og Syn.).

Taget af ,Thor" (ny for Danmark) paa 6 Stat. I Nordsøen er
den fundet 32 Kv.mil V.//4S. f. Horns Revs Fyrskib, 44 m; i Ska-

16

gerak 5 Gange i den østlige Del, Dybderne er 130, 200, 240, 246
og 660 m. Størrelsen op til ca. 7 mm.

Den er tidligere kendt fra Bohuslån (Bruzelius 1859, p. 45);
Kilden til Stebbings Angivelse ,Baltic" har jeg ikke kunnet finde.

26. Scopelocheirus crenatus Bate.

Callisoma"crenata "GOSars"1895; p:753, PETO 251.

Scopelocheirus crenatus Stebbing 1906, p. 62 (Lit. og Syn.).

Callisoma crenata Meinert, ,,Hauchf p. 151.

Tryphosa serra Meinert, ,, Hauch”p.156, Pl. 1 figs. 30—38 (teste Stebbing Il. c.).

Efter Meinert findes Arten i Skagerak og Kattegat, helt op forbi
Anholt. Dybden er 16—110 Fv., Bunden Slik eller sandblandet Slik.

Efter Meinerts Tid har Museet faaet den fra 5 Lok. i Skagerak;
Dybderne er 108, 150, 180, 400 og 440—460 m. I flere Tilfælde
er der taget flere Ex. paa en Gang.

+ 27. Uristes umbonatus G. O. Sars.

Pseudotryphosa umbonata G. O. Sars 1895, pp. 83, 686, Pl. 29 fig. 2.

Uristes umbonatus Stebbing 1906, p. 64 (Lit. og Syn.).

Et lille”Ex., "kun 6 mm. (Sars's Ex. 'er 11-mm)/dertmedknosen
Tvivl er henført til denne Art, er af ,Thorf taget i Skagerak V. f.
Våderåerne, 470 m. Det adskiller sig fra Sars' Beskrivelse og
Figurer især ved den mindre spidse Sidelap paa Hovedet og ved
at mangle umbo; men dette er muligvis kun ungdommelige Karak-
terer. Arten er tidligere taget en Gang i Skagerak paa ca. 270 m
(Sars).

= 28. Centromedon pumilus Lilljb.
Centromedon pumilus G. O. Sars 1895, p. 100, Pl. 34 fig. 2.
= — Stebbing 1906, p. 66.

Ny for Danmark. ,Thorf har taget et Ex. i Skagerak 44 Kv.mil
N.V. t. N. f. Højen, 660 m. Er tidligere kendt fra Bohuslån (Loven,
teste Sars).

29. Tryphosa Sarsii Bonnier.

Tryphosa nana G. O. Sars 1895, p. 76, Pl. 27 fig. 1.
= sarsi Stebbing 1906, p. 70 (Lit. og Syn.).
— Hørringii Meinert, ,,Hauchf p. 156.
— nanoides == — p: 156:
Alle de Exemplarer, der i ,Hauch"'s Togter er bestemt som
T. Hørringii, tilhører i Virkeligheden nærværende Art. Den største

17

Del af Materialet har nu ikke mere den oprindelige Lokalitetsbeteg-
nelse bevaret. Kun ved 5 Tuber (fra Kattegat) er Lokalitetsbeteg-
nelserne endnu bibeholdt; de er følgende: (St, 232) Sømærket paa
Syrodden i N.V.Y/2N., 27/2 Kv.mil, 8 Fv.; (St. 74) Trindelens Fyr-
skib i N.Ø. 1. Ø./:Ø., 4 Kv.mil, 11 Fv.; (St. 106) Trindelens Fyr-
skib i Ø.”/.N., 4.6 Kv.mil, 10/2» Fv.; (St. 141—142) Fjellerup Kirke
i S.S.Ø., 4 Kv.mil, 4 Fv., og Udbyhøj Landbaake i V. t. N./4N.,
AR kvemil 4 Ev:"(Sf2200) FornæssFyr. i S..t: V7/2V. 14 Kv.mil;
7 Fv. Bunden er ren eller blandet Sandbund.

Se iøvrigt nedenfor ved T. Hørringili.

Ogsaa Meinerts Ex. af ,,T. nanoides" tilhører T. Sarsii; de er fra
»Hauch" St. 106, Trindelens Fyrskib i Ø.Z/4N., 4.6 Kv.mil, 11!/2 Fv.

=£ 30. Tryphosa Hørringii Boeck.
Tryphosa Hørringii GYOFSars iso pA PE 27. fig-22
= høringii Stebbing 1906, p. 71 (Lit. og Syn.)

non — Hørringi Meinert, ,,Hauchf, p. 156 (er T. Sarsii).

Til Trods for, hvad Meinert skriver om sine tidligere Fejltagelser
m. H. t. nærværende Art, er det ikke lykkedes i vort Museum at
finde et eneste Ex., som Meinert kan have benyttet; alt vort Ma-
teriale er nyere, og Arten maa derfor vistnok anses for ny for
Danmarks Fauna.

Arten er kun taget i Skagerak og kun af ,Thorf; Lokaliteterne
er: (St. 1569, 21—6—1911): 52 Kv.mil N.N.V.//4V. f. Hanstholm,
440—460 m; (St. 273, 9—10—1904) 42 Kv.mil N.V.Z/4N. f. Hirs-
hals, 640 m; (St. 294, 9—9—1904) 579 54' N., 79 38' Ø., 400 m;
(SEES 6 7 OG FOD) 57 PEN ET DS ØR TOS mM (SEES 69;
21—6—i911) 577 48' N., 77 48' Ø., 440—460 m; (14—10— 1904)
39 Kv.mil N.V. t. N. f. Højen, 525 m; (14—10—1904) 33 Kv.mil
N.V. t. N. f. Højens Fyr, 395—425 m.

31. Tryphosa nanoides (Lilljb.?) G. O. Sars.
Tryphosa nanoides G. O. Sars 1895, p. 79, Pl. 28 fig. 2.
= == Stebbing 1906, p. 71 (Lit. og Syn.).
non — — Meinert, ,Hauchf p. 156 (er T. Sarsii).
De af Meinert anførte Ex. af T. nanoides tilhører i Virkeligheden
T. Sarsii. Alligevel hører Arten til den danske Fauna, idet ,, Thor"
(S285714-210 1904) har taget et enkelt Ex. i Skagerak, 44
Kv.mil N.V. t. N. f. Højen, 660 m.

Vidensk. Medd. fra Dansk naturh. Foren. Bd. 76.

[KS

18

(Tryphosa erosa Meinert er utvivlsomt et beskadiget Ex. af Or-
chomenella nana Kr., se denne [Nr. 15, p. 12]).

ERSPMUmetonyKclcadaRFabr:

Hoplonyx cicada G. O. Sars 1895, p. 92, Pl. 32 fig. 2.

Tmetonyx — Stebbing 1906, p. 74 (Lit. og Syn.).

Som ny for danske Farvande (men kendt fra Norge lige fra
Kristiania til Vadsø) er denne Art taget i stort Antal af ,,Thorf paa
en enkelt Station. i Skagerak: ,Thorf St:1575. (27—6—7911);
31 Kv.mil N.V.Z/4V. f. Hirshals, 140 m (Materialet indeholder flere
Omed Æg) for tiretsenkelt Ex/apaa 'enfandenkSfationk(StÆæNs 063
ZU-—6—1911): 42 Kv.mil N.V.Z/4V. f. Hanstholm, 108 m. Exempla-
rerne adskiller sig fra Sars” Figur (1. c.) ved, at den nederste Del
af Coxalpladen paa 4. Par Ben er noget sværere end vist af Sars.

8333 metonysEsimilsKGNOSars:

Hoplonyx"similistGFOFSars TS OS PN OS EDI ESS ER SME

Tmetonyx — BK Stebbing 1906, p. 76.

Denne Art er ny for danske Farvande. ,Thorf har taget den
4 Gange i Skagerak: 58732'N., 4918" Ø., 280 m, 2 Ex.; 57724 N.,
TUPRSMØM OS ml Er 6 Kv.mil NS fESkagenstEyrskib sets Omk
en Stat. uden nærmere Angivelse af Lokalitet, 140 m, 1 Ex. Af
Dansk Biol. Station er den taget 2 Gange i Kattegat: S.S.V. f. An-
holt, 20 m (Kattegat St. 30, 8—6—1912), 1 Ex., og i det dybe
Parti omtrent midt imellem Læsø og Varberg, 30—34 m (Kattegat
St. 40, 6—8—1912), 1 Ex.

£ 34. Tmetonyx acutus G. O. Sars.

Hoplonyx acutus G. O. Sars 1895, p. 95, PI. 33 fig. 2.

Imetonys ERE Ste bin 1906 Ep 375:

UD hor bar SEES TE REPTILE SE Kvamm EN AVE AVE
Hirshals, 140 m, taget 2 Ex., der maa henføres til denne Art; men
de adskiller sig fra Sars' Figur ved, at Coxalpladen i 4. Par Ben
(Sars: p. 2) ikke er saa jævnt buet i det nederste Forhjørne, idet
Forkanten er omtrent lige, saa at den under en tydelig Vinkel
støder til den ligeledes omtrent lige Underkant. Ny for danske
Farvande (er heller næppe taget ved Sydnorge).

19

= 35. Tmetonyx leucophthalmus G. O. Sars.
Hoplonyx leucophthalmus G. O. Sars 1895, p. 97, Pl. 34 fig. 1.
Tmetonyx == Stebbing 1906, p. 76.
»Thorf har taget et lille Ex. af denne Art (ny for Danmark)
So Kvamilk NVE SINE SET Øjen IS25 Mm:

BES ORE etonyecæculust GE ON Sars.
Hoplonyx cæculus G. O. Sars 1895, p. 98, Pl. 35 fig. 1.
imefonyst— Stebbing 1906, p. 76.
Skønt denne Art tidligere kun er kendt fra Trondhjemsfjord (ialt i
2 Ex.), har ,,Thorf taget den, delvis i stort Antal, paa 7 Stationer
i Skagerak, fra 42 Kv.mil N.V.Z/4N. f. Hirshals helt ind til Våder-
&erne; Dybden er 350—660 m.

37. Tryphosites longipes Bate.

Tryphosa longipes Meinert, . Hauch" p. 157.

ilryphosites kk —RRNGSOFSars hl SOS Ep SIE PIPER ETS PO fø

= — Stebbing 1906, p. 77 (Lit.).

Denne Art kendtes tidligere fra et enkelt Fund i Vesterhavet,
V.N.V. f. Hanstholm, og fra 9 Fund fra ,,Hauch"'s Togter i den
østlige og midterste Del af Kattegat indtil udfor Fornæs Fyr; Dybden
125—10 Fv.

Ved de senere Undersøgelser i danske Farvande er den (væ-
sentlig af ,Thorf, enkelte Gange ogsaa af Dansk Biol. Stat.) taget
temmelig ofte ved vore Kyster. I Nordsøen er den fundet paa
følgende Steder: 43 Kv.mil V. og 32 Kv.mil V.7/4S. f. Horns Revs
Fyrskib, 50 og 44 m, og 50 Kv.mil V. t. S. f. Thyborøn, 40 m. Fra
Skagerak foreligger 14 Fund, (13) 70—660 m (nøjere specificeret
erfDybderne saaledes: 13,770, 907795, 108, 125,, 140 (to Gange),
[S5SH(fomGanse) IMO TSO EPA For RG 60 Mm) I Kattegat eriden"i
de senere Aar kun taget 2 Gange, nemlig 2!/2 Kv.mil S.S.V. og 10
Kv.mil S.Ø. t. S. for Trindelen, 34—56 m.

Bunden skal som Regel være ren Slik eller sandblandet Slik,
sjældent rent Sand.

Størrelsen indtil 13 mm. Meinert angiver, at den oftest kun
er taget enkeltvis; men de senere Fund kan indeholde 10—15 Ex.
i et enkelt Skrab. Meget ofte er den taget sammen med Hippo-
medon denticulatus (Nr. 22, p. 14).

20

£ 38. Lepidepecreum longicorne Bate & Westwood.
Lepidepecreum carinatum G. O. Sars 1895, pp. 113, 687, Pl. 38 fig. 2, PI.
SOF
= longicorne Stebbing 1906, p. 80 (Lit. og Syn.).
— mirabile Meinert, ,,Hauchf p. 153, Pl. 1 fig 7- 12.
Arten er taget 2 Gange af , Thor" i Nordsøen (St. 253, 28—9—
1904732 "Kvm v MSF Horns Revs "Fyrskib; 44 "ms SR 9558
30479075" Kv.-mil N.V.7/2N.f "Horns Revs" Fyrskibr lene
intermediært, med Yngeltrawl) og en Gang af Dansk Biol. Stat.,
15 Kv.mil N. t. V.//4V. f. Thyborøn, 30—32 m, 13—7—1911. Mei-
nerts Type-Ex. til L. mirabile blev taget N. f. Læsø, Nordre Rønner
i V. 5.5 Kv.mil, 13 m, Sand og Smaasten. Af danske Expeditioner
er den ikke taget i Skagerak; men Sars (1. c.) nævner den fra Mærdø
udenfor Arendal.
Kun 1—2 Ex. er taget hvert Sted; Længden er 6—7 mm.

14—4—1923.

Gephyreen des Golfes von Siam.

Von

Prof., Dr. W. Fischer,
Bergedorf bei Hamburg.

Ålle Arten dieser von der dånischen Siam-Expedition (1899—
1900) stammenden Sammlung, mit Ausnahme von Thalassema mor-
tenseni mn. sp., kommen auch im ibrigen indischen Ozean vor.
Naturgemåss zeigen sich vor Allem verwandtschaftliche Beziehungen
unserer Gruppe zu der Fauna der benachbarten Meeresteile.

Aspidosiphon steenstrupi Diesing.

Fundorte: Koh-Kahdat, 1—5 Fd., Sand, Steine 19%/, 1900; ibidem, 5 Fd.,
17/5 1900 und 1 Fd. 1/4 1900. Nordspitze von Koh-Chang, 1 Fd., alte Ko-
rallenblåcke, 15/7, 1900. Dr. Th. Mortensen.

Aspidosiphon steenstrupi Diesing.
var. ambonensis Augener.

Fundorte: Nordspitze von Koh-Chang, 1 Fd., in Spondylus ocellatus Rieve,
9/, 1900; Koh-Kahdat, 1—5 Fd., Sand, Steine 2/4 —19/5 1900; Koh-Kram, 30 Fd.,
23/5 1900; Koh-Kong, 10—15 Fd., /4 1900. Dr. Th. Mortensen.

Die Varietåt findet sich ebenso wie die Hauptart in Bohrlåchern
der Korallen in geringer Tiefe, bisweilen auch in Schnecken- oder
Muschelschalen. Sie unterscheidet sich von der Hauptart durch
ihre einfachen Hautkårper, die dort zu je 2—3 kombiniert sind
(Fischer, 1922, p. 23), durch den helleren Riissel und den ab-"
weichenden Verlauf der Verdickungsleiste der Haken (1922, Taf. 3,
Fig. 24). Sie ist, wie die Hauptart, im indischen Archipel weit ver-
breitet (1922 p:23-u. 24):

Aspidosiphon tortus Sel. et Bil.
Fundorte: Koh-Chuen, 30 Fd., 25/5 1900; Koh-Kam, 5 Fd., Kies &/2 1900.
DANI Mortensen:
Das Tier von Koh-Chuen ist mit eingezogenem Riissel 2 cm
lang; es steckte in einer geraden diinnen und zerbrechlichen Kalk-

22

rohre, die es scheinbar selbst angefertigt hatte. Das zweite, von Koh-
Kam, dessen Riissel ausgestreckt war, hat eine Kårperlånge von
4 mm, eine Riissellånge von 5 mm. Køårper und Riissel sind also
fast gleichlang. Beide Tiere entsprechen in der Lagerung und
Form der die Hautkårper bedeckenden Cuticularplåttchen der Zeich-
nungfSelenkasi(1Is83sbar XIV Es HT 9G). FA UC Findensiele
wie bei diesem, zwischen den Hautkårpern liegende zerstreute
Cuticularplåttchen, die bei schwacher Vergråsserung als dunkle
Punkte erscheinen. Die Schilder sind bråunlich-gelb gefårbt, der
deutlich gefurchte vordere Schild umgreift die Bauchseite nicht voll-
ståndig, er ist an der Ventralseite von der iibrigen Haut abgesetzt.
Diese Befunde weichen von denen Selenka's ab, welcher sagt:
»Der vordere Schild ist dunkelbraun, von ovaler Form; seine ven-
trale Hålfte ist von dicht nebeneinander stehenden Warzen ein
genommen, welche dorsalwårts in Furchen iibergehen.” Das Hinter-
schildchen ist flach, mit 33—34 teils ganz, teils halb durchgehenden
Furchen. Der Riissel ist hinter der Hakenzone vollståndig mit Stacheln
besetzt. Segmentalorgane sind 2 vorhanden. Selenka fand bei
sejinemfeinzigen fExemplåre” nur einflinkseitiges (ISS 3 NEEP ON
Sicherlich war das eine Abnormitåt, die auch hin und wieder bei
anderen Gattungen auftritt. Alle ibrigen Aspidosiphonen haben
immer regelrecht 2 Segmentalorgane (1 Paar). Leider hat Se-
lenka diese Abnormitåt als Einteilungsgrund fir die Bestimmungs-
tabelle der Arten (1883, p. 14) verwendet, so dass Anfånger leicht
irregefihrt werden kånnen.

Dendrostoma signifer Sel. et de Man.

Fundorte: Koh-Chang, Steine, bei starker Ebbe, 1/4 1900; Bucht am Siid-
ende von Koh-Chang, zwischen grossen Muscheln, 14/, 1900; Kiiste bei Lem
Ngob 30/15 1900; Westkiste von Koh-Chang, alte Korallenblåcke, 1 Fd., 17/4
1900; Koh-Kahdat, alte Korallenblåcke, 18/5 1900; Koh-Kahdat, 5 Få, 17/5 1900.
Dr. Th. Mortensen.

Alle Tiere entbehren der Haken und zeigen 5 Tentakelhaupt-
ståmme wie die von Selenka bei den Philippinen und Singapore
festgestellten, wåhrend die afrikanischen, australischen und neu-
seelåndischen Exemplare Haken (Fischer, 1914 a p. 72; ders.
1914, b, p. 10 und 1922, p. 19) aufweisen, und 4 oder 6 Tentakel-
hauptståmme besitzen. Die Art ist im indischen Ozean weit ver-
breitet.

23

Phascolosoma pellucidum Kef.

Fundorte: Nordspitze von Koh-Chang, 1 Fd., alte Korallenblåcke, 15/, 1900:
Koh-Kahdat, 1—5 Fd., Sand, Steine, 9/4 1900; Koh-Kram, 30 Fd., 23/5 1900.
DrÆF NS NWortensen:

Håufig im sidchinesiscehen Meere und im indischen Archipel.

Physcosoma agassizi Kef.

Fundorte: Nordspitze von Koh-Chang, 1 Fd., alte Korallenblåcke, 15/4 u.
91, 1900; Koh-Kahdat, 1—5 Fd., Sand, Steine, ?/4 u. 19/5 1900. Dr. Th. Mor-
tensen.

Die Wirmer sassen vielfach noch in Bruchstiicken von Korallen.
Die Anordnung der Cuticularplåttchen auf den Papillen entsprach
der Zeichnung Taf. I Fig. 3 in meinen Gephyreen des Stockholmer
Reichsmuseums (1922). Die Art ist circumtropisch.

Physcosoma nigrescens Kef.
Fundorte: Nordspitze von Koh-Chang, 1 Fd., alte Korallenblåcke, 15/4 1900.
Dr. Th. Mortensen.

Die Art ist in allen tropischen Meeren weit verbreitet.

Physcosoma pelma Sel. et de Man.

Fundort: Nordspitze von Koh-Chang, 1 Fd., alte Korallenblåcke, 1574 1900.
DrÆRhbÆMortensen:= 27 Exemplare.

Die Art ist von Selenka und de Man, eingehender von Åu-
gener (1903, p. 311) beschrieben worden. Dessen Beschreibung
deckt sich mit meinen Befunden, besonders betreffs der Långe des
Riissels, der Form und Farbe des Kårpers und der Anordnung der
Tentakel. Ich schåtze die Zahl derselben auf 45—50 (Augener
gibt ,etwa 44” an). Sie sind weisslich, am Grunde zimmetbraun,
der sie umgebende Hautkragen ist ebenfalls weiss und ventral zu
einer Unterlippe erweitert (1903, p. 18). Der hakenlose Riissel
ist mit kegelfårmigen Papillen besetzt, die besonders am Grunde
desselben stark hervortreten und ihre Spitzen nach hinten kehren;
sie sind mit grossen Chitinplåttchen bedeckt (Selenka 1883, Taf.
VII, Fig. 102). Am Kårper stehen sie besonders am Vorder- und
Hinterende ziemlich dicht, im mittleren Teile weitlåufiger. Es
finden sich zwischen ihnen die fir diese Art charakteristischen,
eigentimlich geformten, kårnigen, eckigen Cuticularplåttchen.
Dunkle Långslinien der Papillen, die Augener erwåhnt, konnte
ich nicht sehen. Die 19—21 Långsmuskeln sind besonders im
vorderen und hinteren Kårperteile deutlich sichtbar, ebenso treten

24

die Quermuskeln im ersten Korperdrittel stark hervor. Sonst sind
Abweichungen von den Beschreibungen der erwåhnten Autoren
nicht zu konstatieren. Die Art findet sich sonst noch bei den
Philippinen, Java und Mauritius (Selenka), bei Amboina (Au-
gener) und bei den Laccadiven und Malediven (Shipley).

Sipunculus titubans Sel. et Bilow.

Fundort: Koh-Mak, 5—6 Fd., 17/8 1900. Dr. Th. Mortensen.

Es liegt mir das Vorderende eines grauweisslich gefårbten Si-
punculus-Exemplares vor, das die Ansatzstellen der Retraktoren
noch enthålt;: Innwendig sieht man 26 Långsmuskelbiindel. Der
Enddarm miindet zwischen dem 4 und 5 Biinndel nach aussen, die
Segmentalorgandffnungen liegen vor dem After. Die Organe selbst
sind in ihrer oberen Hålfte durch Mesenterien an die Kåorperwand
geheftet, die Retraktoren entspringen in gleicher Hohe, die ventralen
vom 2—5, die dorsalen vom 7-—11 Långsmuskelbiindel. Das Ner-
vensystem hebt sich in der Riissselregion von der Haut ab. Alle
diese Befunde entsprechen der Beschreibung Selenka's von Si-
punculus titubans Kef. Uber die Verwandtschaftsverhåltnisse dieser
Art zu den Arten robustus und nudus ist man noch im Zweifel.
Gerould sagt (1913, p. 429): fIt will readily be seen, that these
specimens suggest that S. ztitubans is a variable form closely re-
sembling S. nudus and S$. robustus Keferstein, from which, in some
cases at least, it can hardly be distinguished". Eine Klårung dieser
Verhåltnisse wird hoffentlich bald durch eine bevorstehende Ver-
offentlichung nachgelassener Schriften Spengel's erfolgen. Die
Årt ist von Selenka bei Puntarenas (Costarica?) und von mir
bei St. José di Guatemala, Madagaskar (Nossi-Bé) und Accra (West-
afrika) konstatiert worden. Die von Gerould angegebenen Fund-
orte: Barbados, Uwea (Wallis-Island) Opalu (Samoa), Pelew-Inseln,,
Palaos, Amboina, Timor- und Lyly-Islands sind von ihm den Fund-
ortsangaben Selenka's (1883, p. 99) iiber Sip. robustus entlehnt,
den er mit Sip. titubans identificiert.

Cloeosiphon aspergillum Quatrefages.
Fundort: Koh-Kahdat, 5 Fd., 17/5 1200. Dr. Th. Mortensen.
Das vorliegende Exemplar ist 3.3 cm lang, der Riissel ist zur
Hålfte eingezogen und besitzt einen Kalkring mit einigen stark
ausgezogenen Facetten, wie sie Sluiter (1889, Taf. 4 Fig. 13)

25

bei seiner spåter wieder eingezogenen Art (Fischer 1922, p. 32)
. CI. javanicus abbildet. Die Kårperhaut ist hellbraun, unter dem
Kalkring dunkeler, und so durchsichtig, dass die Segmentalorgane
in ihrer ganzen Långe sichtbar sind. Innwendig beobachtete ich
wieder (1922, p. 33) ein Divertikel und den am Darme in der
Høhe des Divertikels ansetzenden Befestiger, der durch die Åste des
Retraktors hindurchgeht und sich links vom Nervenstrang ansetzt.

Thalassema mortenseni n. sp.

Fundorte: Koh-Kong, 8 Fd., Schlammboden, ?5/, 1900; Koh-Kut, 30 Fd.,
Schlamm, ?8/4 1900. Dr. Th. Mortensen.

ON rå
ISA 55
F Sl gen
': al ø)
TØ Ål Sr S2
dne ns y FÅ (f Øen == dr
(Ene negl Ce AM rn as
i SKA) Se Æ '
| eSRtge > Lø )
URAL . G AA
KE s
< ÆN 8-7, GA WE 2> SE NE ae:
Fig. 1 Ø, 7, F7
/ j
— AIR ERR we
Af PS L JN AD
AVU ANYN Fig. 3.
Fig. 2.

Diese neue Art (Fig. 1, nat. Gr.) unterscheidet sich von den anderen
bekannten durch ihre aiisserst zarte, durchsichtige Kårperhaut, die fast
gleichmåssig mit reihenweise angeordneten, ausserordentlich grossen,
lang ausgezogenen, fast dreieckigen Papillen besetzt ist, die ihre
Spitzen nach vorn kehren. (Fig. 1 u. 2). Die massenhaft vor-
handenen schmutziggriinen wurstformigen Kotmassen des Darmes
schimmern durch die Haut und bedingen die Farbe des Tieres.
Der Riissel fehlte beiden Exemplaren. Am Vorderende bemerkt
man 2 goldgelbe Hakenborsten und eine Ersatzborste. Die Papillen
sind verschieden gross (Fig. 2) und fast iiberall gleichmåssig ver-
teilt, nur am Hinterende, wo sie bei den meisten Arten gråsser
sind und dichter stehen als am iibrigen Kårper, sind sie lockerer
gestellt und ausnahmweise klein. Da die Haut zart ist, låsst
sich eine Ganzfårbung leicht erzielen. Man sieht dann am Rande
der Papillen dicht gedrångte Hautdrisen (Fig. 3 dr.), je 2—4 von
einer birnenfårmigen Hiillle umschlossen. Zwischen den Papillen

26

befinden sich in der Haut åhnliche Gebilde (Fig.3 dr.”), die Sluiter
bei Thalassema diaphanes (1889, p. 245 und Taf. 3 Fig. 2b und 4b)
als Sinnesbecher deutet, da er an sie herantretende Nervenåste
beobachtet haben will. Innwendig sieht man viele Retraktoren der
Hakenborsten, aber keinen Interbasalmuskel, hinter diesen 1 Paar
ziemlich langer freier Segmentalorgane; ein Trichter oder Spiral-
tubus am Grunde derselben konnte nicht beobachtet werden. Der
Verlauf des Darmes war nicht genauer zu konstatieren, da die
zarte Darmhaut beim Auspiilen der aufgeschnittenen Tiere zerriss. Er
schien, nach der Lage der Inhaltsmassen zu urteilen, keinen von
dem der ibrigen Thalassemen abweichenden Verlauf zu haben. Am
Ende desselben befinden sich 2 kurze unverzweigte Analschlåuche
mit einzeln stehenden Trichtern. Geschlechtsorgane wurden nicht
beobachtet.

Thalassema diaphanes Sluiter mit der unsere Art sonst grosse
Åhnlichkeit hat, besitzt zum Unterschied von ihr ovale, sich nicht
uber die Haut erhebende Papillen. Die ibrigen Thalassemen mit
1 Paare von Segmentalorganen und kontinuierlicher Muskulatur,
also Th. faex Selenka, Th. lankasteri Herdmann, Th. gigas Max Miller
und Th. verrucosum Studer haben andere Hautbeschaffenheit und
anders beschaffene Papillen als die vorstehende Art.

Ausser diesen sicher bestimmbaren Arten war noch ein Bruch-
stiick eines Aspidosiphon vorhanden, das gewisse Åhnlichkeiten in
seiner inneren Beschaffenheit mit Aspidosiphon gracilis Baird auf-
wies aber in der Beschaffenheit der aiisseren Haut wesentlich von
den Angeben Selenka's (1883, p. 122) und Augener's (1903,
p. 319) abwich. Die ziemlich feste Haut war bei diesem Tiere
braun und weiss gestreift auch Querstreifen resp. Furchen von
gleicher Farbe waren zu sehen, so dass eine Felderung der Haut ent-
stand. Die Felder trugen je einen Hautkårper, der mit vielen dicht
an einander gelagerten kleinen, ovalen Cuticularplåttchen bedeckt war.
Der Vorderschild und der Riissel fehlte. Der Hinterschild hatte 22—25
Furchen. Die Segmentalorgane waren der Kårperwand angeheftet.
Ihre Mundungen waren nicht zu konstatieren, ebensowenig die des
Darmes. Hinten heftete sich derselbe durch einen starken Befesti-
ger in der Mitte des Hinterschildes an. Zwei starke Retraktoren
entsprangen dicht iber dem Endschild und vereinigten sich erst
ziemlich weit vorn im Køårper.

Bil

Litteratur.

" Augener, H. (1903): Beitr. z. Kenntn. der Gephyreen, in: Archiv f. Naturg.
69. Jahrg. I. Bd.

Fischer, W. (1914a): Gephyrea, in: Beitr. z. Kenntn. der Meeresfauna

Westafrika's, herausg. von W. Michaelsen, Hamburg.

(1914b): Weitere Mitteilungen uber die Gephyreen des Naturh.

(Z00ol.) Museums zu Hamburg, in: Jahrb. d. Hamb. Wissensch.

Anst, Bd. 31.

(1922): Gephyreen des Reichsmuseums zu Stockholm, in: Arkiv

Fez oolos sb ds14 Nero:

Gerould, J. H. (1913): The Sipunculids of the Eastern Coast of North-
America, in: Proceed. of the U.S. Nat. Mus. Vol. 44, Washington.

Selenka, E. (1883): Die Sipunculiden, eine syst. Monographie, in: C. Se m-
per's Reisen im Archipel d. Philippinen. Wissensch. Res. Bd. 4,
Wiesbaden.

Sluiter, C. Ph. (1886): Beitr. z. Kenntn. der Gephyreen aus dem Malayischen

AÅrchipel, in: Natuurk. Tijdschrift v. Nederl.-Indié, Bd. 45.

(1889): Uber zwei merkwirdige Gephyreen aus der Bai von Ba-

tavia, in: Natuurk. Tijdschrift v. Nederl.-Indié, Bd. 48.

b2J

%

17451923:

o
AIR Al

IS

Respirationsforholdene
hos Hydrocampa nymphaeata (Larve og Puppe).

Af
Rich. Ege.
Fra Universitetets dyrefysiologiske Institut og Universitetets
ferskvandsbiologiske Laboratorium.

I Aarene 1913, 14 og 15 besøgte jeg gentagne Gange Univer-
sitetets ferskvandsbiologiske Laboratorium og havde her Lejlighed
til under Wesenberg-Lunds kyndige biologiske Vejledning at under-
kaste en Del Vandinsekters respira-
toriske Forhold en nærmere fysiologisk '"
Analyse.

Resultaterne heraf foreligger dels
offentliggjort i ,, Videnskabelige Med-
delelser fra D. Naturh. Forening" Bd.
Go OFSP) SE delsi Zeitsebrift far all
gemeine Physiologie" Bd. 17, 1915%), Fig. 1

.… Hydrocampa nymphaeata.
men desuden var en Undersøgelse Forstørret. (Efter Grinberg.)

over Hydrocampa-Larven og Puppen
saa vidt afsluttet, at jeg kunde forelægge disse Undeker elser i
Naturh. Forening (1916—17).

Paa ganske enkelte Punkter mente jeg dog, at disse Under-
søgelser kunde trænge til visse supplerende Forsøg, hvorfor Offent-
liggørelsen blev udsat til et senere Tidspunkt.

Siden 1915 har jeg imidlertid været optaget af helt. andre
fysiologiske Spørgsmaal, der ganske har lagt Beslag paa min Tid,
hvorfor jeg har besluttet mig til at forelægge mine Forsøgsresultater
nu til Trods for deres Ufuldstændighed.

De første Bidrag til Hydrocampa-Larvens og Puppens Biologi
og Fysiologi er givet af Reaumur. Senere er de studeret af G. W.
Miller og Portier.

1) On the respiratory conditions of the larva and pupa of Donaciae.
2) On the respiratory function of the air stores carried by same aquatic insects.

30

Endelig har Wesenberg-Lund dels i ,, Wohnungen und Gehåuse-
bau der Siisswasserinsekten"), dels i ,Insektlivet i ferske Vande" ”)
givet en — væsentlig paa egne Undersøgelser — samlet Fremstilling
af Dyrets Levevis og navnlig dets Respirationsforhold.

I Fremstillingen af de biologiske Forhold støtter jeg mig til W. L.s
Fremstilling.

Sommerfuglen lægger sine Æg paa Undersiden af Vandplanters
Flydeblade. Ganske kort efter, at Larven er kommen frem, bygger
den sig af forbiflydende Andemadsblade (og lignende) en primitiv

Fig. 2. Hydrocampa nymphaeata. A. Larven stikkende Hovedet ud af sit Hus.
B. Huset lukket op; man ser Spindetraadene og Larven. C. Larven rager ud at
Røret; Linien udenom Larven angiver Luftlaget. Naturlig Størrelse. (Efter Portier).

Bolig. Loftet dannes af det Flydeblad, den sidder under, Gulvet
af Andemadsbladene.

Senere paa Aaret bygger Larven det Hus, der er karakteristisk
for de ældre Stadier, idet den danner sig sin Bolig af to Blad-
stykker, som den har skaaret ud af Potamogeton natans; disse
spindes sammen med de konkave Undersider af Bladet mod hin-
anden. Herved bliver der en lille Plads til Larven, denne er paa
dette Tidspunkt lille og hele Huset er næppe 1 cm langt. Spindet,
der holder Bladstykkerne sammen, synes ikke at være vandskyende.
Boligen er i hvert Tilfælde fuld af Vand.

Direkte Respirationsforsøg angaaende dette Larvestadie har jeg
ikke foretaget, men der kan ikke være Tvivl om, at Larven paa
dette Tidspunkt maa faa den nødvendige Ilt ved Diffusion fra Vandet
(Kulsyren skaffes bort paa tilsvarende Maade).

1) Fortschritte d. naturw. Forshhung. 9. 1913.
2) København 1915.

31

Saaledes som Reaumur og G. W. Miiller gør opmærksom paa,
er Spiraklerne lukkede, og Huden er ikke vandskydende.

Næste Foraar træffer vi paany Larven i en Bolig bygget af
Vandaksbladstykker. Boligen er større; men hvad der navnlig er
karakteristisk er, at saavel denne som navnlig Larven er vand-
skyende.

Boligen er delvis luftfyldt og selve Larven er, selv naar dens
Legeme befinder sig frit i Vandet, omgivet af en ret betydelig
— sølvglinsende — Luftkappe.

Spiraklerne er nu aabne, og Larven svarer ganske til en alm.
Sommerfuglelarve; at Dyret nu er luftaandende, er hævet over
enhver Tvivl.

Der kan næppe heller være nogen Tvivl om, at Larven ud-
nytter den Luft, der findes i dens Bolig.

Men hvorledes fornyes da Luften i Larvens Bolig?

Herom findes der to Anskuelser; den ene, der dog gør et noget
søgt Indtryk, stammer fra Portier; den gaar ud paa, at der bestaar
en Symbiose mellem Larven og Potamogenton-Bladene. Larven
skulde levere Bladene Kulsyre til Brug ved deres Kulsyreassimi-
lation, og Planterne skulde til Gengæld levere Dyrene den ved
Kulsyreassimilationen frigjorte Ilt.

Muligvis kunde man ogsaa tænke sig, at Ilten skulde fornyes
ved en Diffusion gennem Potamogentonblade fra Atmosfæren, idet
Boligens Loft stadig — som et Flydeblad — ligger ganske tørt i
Vandets Overflade.

Portier skriver: ,,[l parait donc difficile de comprendre par quel
mécanisme I'oxygéne peut se renouveler å Vintérieur de cette cellule
étanche de laquelle les stigmates ne sortent pas.

On pourrait penser que des échanges gazeux se font par osmose,
å travers la paroi des feuilles qui constituent V'habitation. Je crois
"qu'il faut plutåt songer å un autre mécanisme qui est le suivant:
Passimilation chlorophylienne continuerait å se produire au niveau
des valves et il s'établirait ainsi une sorte de symbiose entre le
fragment de plante aquatique et Vinsecte qui s'en est emparé,
celui-ci produisant du gaz carbonique qui serait bientåt décomposé
par la plante.

Il est, en effet, trås remarquable de constater que le fourreau

32

conserve sa couleur verte et les fragments de feuille !"'apparance

x

de la” vie, tant que la chenille vivante FPhabite. Si on vientfåa
Penlever, les valves ne tardent point å se flétrir méme lorsqu'on
lestldissetankeontacteden ke au

Il semble bien que l'oxygéne nécessaire å la respiration pro-
vienne surtout de celui qui résulte de i'assimilation chlorophylienne
des valves du fourreau ou de la feuille servant de support å la cellule.f

I Modsætning hertil opstiller Wesenberg-Lund en overmaade
simpel Forklaring baseret paa lagttagelser over Larvens Liv og
Færden i Naturen og i Aquarier.

Luften henter Dyret fra Atinosfæren derved, at Larven af og
til strækker sin Forkrop ud af Boligen op i Vandskorpen, saaledes
at denne Del af Dyret befinder sig i den fri Luft.”

De følgende Forsøg vil, saaledes som man vil se, ganske be-
kræfte Wesenberg-Lunds Hovedtanke.

Dog synes Wesenberg-Lund ikke ganske at turde benægte de
andre Muligheder for Luftfornyelsen. Han skriver saaledes i ,In-
sektlivet”" p. 208: ,,En anden Anskuelse: at de grønne Bladstykker
skulde forsyne Larven med Ilt, og at omvendt den af Larven pro-
ducerede Kulsyre skulde optages af Bladstykkerne, lader sig indtil
videre ikke afkræfte og kan mulig have en Del paa sig. Hvad der
navnlig taler herfor er, at det særlig er om Natten, naar Kulsyre-
assimilationen ophører, at Larverne strækker sig langt ud og slaar
til alle Sider. Den atmosfæriske Luft oven over Vandet maa dog
sikkert betragtes som Hovedkilden til Luften mellem Bladstykkerne.
løvrigt maa man formode, at der i iltrigt Vand tillige finder en
Diffusion Sted imellem Luftmassen og Vandet, saa at den en Gang
brugte Luftmasse bliver respirabel igen.”

Først vilde jeg undersøge Sammensætningen af den Luft, der
findes i Larveboligen under normale Forhold; den paagældende
Luft kan enten ved et let Tryk klemmes ud af Boligen — dette

1) Winschen die Tijere also Lufterneuerung, so strecken sie den Korper aus
dem Wasser heraus in die Luft. Eine neue Luftmasse, die nun wieder
fur eine Zeit respirabel ist, haftet dann an ihrem Koårper und wird mit
demselben in das Haus eingezogen. (Wohn. u. Gehåuseb. p. 122).

33

gælder dog kun, naar der er ret store Luftmasser til Stede — eller
kan suges ud med en vandfyldt Pipette.

| Undersøger man Luftens Sammensætning i Larveboligen under
ganske tilfældige Forhold, vil man naturligvis finde ret variable
Tal; som Eks. -kan nævnes:

1,6 so CO» 11,9 % 021

0,4 — 189 —
ie US E—
0,9 — 177 —

Denne stærkt vekslende Sammensætning af Luften”) tyder ikke
paa Rigtigheden af ,,Osmosef- eller ,,Symbiose"-Teorien; efter begge
disse maatte man antage, at der vilde indstille sig en bestemt Lige-
vægt, efter første Teori mellem Larvens Iltforbrug og Iltspændings-
faldet fra Luften — igennem Bladet -— til Larveboligens Luft, i andet
Tilfælde mellem Plantens Kulsyreassimilation og Dyrets Iltforbrug.

Derimod passer ovennævnte Analyser meget godt med den An-
skuelse, at Dyret af og til henter ny Luft fra Atmosfæren.

Lavere Iltprocent end ca. 7 har jeg ikke fundet under normale
Forhold.

For at afgøre Spørgsmaalet har jeg dernæst analyseret Luften
efter at der var gaaet kendt — men variabel —- Tid siden Larven
har haft sin Overkrop oppe i Luften.

Sammensætningen af Luften i Larveboet | 0,6 % CO»
umiddelbart efter at Larven har været oppe i Vandskorpen 19,7

Sammensætningen af Luften i Larveboligen, efter at denne har | FR CO
været neddykket i Vand 4 Minutter siden sidste Luftfornyelse (11,9 — O2

En anden Bolig | 48 2% CO
7 Minutter under Vand 2,8 — Os

Saaledes kunde jeg fortsætte med en Række Analyser, der alle
viser, at Luftens Sammensætning nærmer sig stærkt til den atm.
Lufts Sammensætning, naar Dyret umiddelbart forinden har haft
sin Overkrop oppe i Luften, for derefter at aftage, hvad Iltprocenten

1) Alle Analyserne er udførte med Krogh's Mikroluftanalyseapparat.

2) At CO2 % altid er lav og relativ konstant, skyldes sikkert denne Luft-
arts Diffusion ud i Vandet, der som bekendt vil foregaa meget hurtigt i
Sammenligning med andre Luftarter.

Vidensk. Medd. fra Dansk naturh. Foren. Bd. 76. 3

34

angaar, efterhaanden som Tiden gaar, uden at Dyret paany har
Lejlighed til at sætte sig i Forbindelse med den atm. Luft.

Disse "Analyser bekræfter altsaa i et og alt W.-L.s Anskuelse,
dog maa man ikke forstaa Udtrykket, at Dyret henter ny Luft,
som den med sit Legeme trækker ind i Huset, altfor direkte.

Blot Dyret stikker sit Hoved op gennem Vandhinden, vil der
være Mulighed for en fri Luftdiffusion gennem Dyrets Luftklædning
ned i Boligen,

Efter Analysen at dømme er en saadan Tilvejebringelse af en
fri Diffusionsvej gennem Luftklædning tilstrækkelig til Luftfornyelsen.

Ved de ovennævnte Forsøg var det nødvendigt, naar det gjaldt
un at forhindre Larven i at strække sin Forkrop op i Vandskorpen,
at tvinge hele Larveboet ned under Vandoverfladen, men derved
umuliggør man en eventuel Luftfornyelse ved Diffusion gennem
det Bladstykke, der danner Boligens Overside.

Derfor kan de ovennævnte Analyser altsaa ikke udelukke Luft-
fornyelsen ved Diffusion.

Men hvorledes gaar det med Assimilations (Symbiose)-For-
klaringen ?

Vil ikke ogsaa Assimilationen være ophævet, dersom Flyde-
bladet sænkes under Overfladen?

Det maa erindres, at Boligen udelukkende er bygget af Flyde-
blade, hvorfor man maa antage, at Assimilationen under disse Om-
stændigheder vil nedsættes i overmaade høj Grad.

Disse Forhold kan naturligvis siges at svække ovennævnte Ana-
lyser og gøre Resultatet noget flertydigt, idet det kan gøres gæl-
dende, at man i Virkeligheden har udelukket Iltfornyelsen, hvad
enten denne finder Sted 1) direkte fra Luften, 2) ved Diffusion
gennem Bladet 3) eller ved Bladstykkernes CO2-Assimilation.

Men selve den Omstændighed, at Larveboligen er bygget af
Flydeblade, der vender Undersiden ind mod Larveboet, er i Virke-
ligheden overmaade kompromitterende for Portiers Symbioseteori.

Der kan næppe være nogensomhelst Tvivl om, at den Iltmængde,
der frigøres ved CO2-Assimilationen, vil undvige i saa langt over-
vejende Grad gennem Spalteaabningerne, der findes paa Flydebladets
Overside. Dette gælder naturligvis kun Larveboligens Loft, men
hvad Gulvet angaar, vil dets Assimilationsbetingelser sikkert være
meget daarlige, idet det ogsaa her er Undersiden der vender ind
mod Larven.

35

Saavel ,Assimilations"- som Diffusionsteorien lader sig direkte
modbevise ved en noget anden Forsøgsanordning.

Ved Hjælp af et Pap ,Taarnf gøres det umuligt for Larven at
hente ny Luft fra Atmosfæren, idet dog Larveboligens Loft stadig
befinder sig over Vandoverfladen. Forsøgsanordningen fremgaar
bedst af medfølgende Tegning.

Fig. 3. Den bølgede Linie forestiller Vandoverfladen.

Ved den paagældende Forsøgsanordning kan man i gunstige
Tilfælde forhindre, at Larven henter sin Luftforsyning direkte fra
Atmosfæren, uden at man samtidig har umuliggjort Luftdiffusionen
gennem Boligens Loft, eller Flydebladets Kulsyreassimilation.

Foretager man nu Luftanalyser efter kortere eller længere Tids
Ophold under Taarnet, vil man finde, at Iltprocenten mindskes
ganske som i ovennævnte Forsøg.

Et Forsøg viste saaledes en Kulsyreprocent paa 1,6 og en Ilt-
procent paa 9,8, efter at Larveboligen havde opholdt sig 5 Minutter
under ,Taarnet".

Disse Forsøg viser ganske tydeligt, at Hydrocampa Larven ude-
lukkende (eller i det mindste langt overvejende) er henvist til den
Luft, som den selv henter direkte fra Atmosfæren.

Et andet Spørgsmaal — som specielt faar Betydning for Larven,
medens den bygger sit Puppebo — er det dog, om ikke en Ilt-
fornyelse ved Diffusion fra Vandet kan komme til at betyde noget.

For at undersøge dette Spørgsmaal blev der ledet en Strøm af
iltfattig Luft gennem Larveboet.

Iltdiffusionen maa nemlig blive desto større, jo større Ilttensions-
differensen mellem Vandet og Boligluften er.

Larveboligen er nedsænket i Vand. Iltprocenten i den gennem-
ledte" Luft var.da 1, og 1,3 % (to Analyser).

5 Minutter efter at Luftgennemledningen er standset, var Ilt-
procenten i Larveboets Luft 1,1 % O2.

Heraf kan man slutte, at Iltdiffusionen (+ den ved den even-
tuelle Kulsyreassimilation frigjorte Ilt) eventuelt, naar Ilttryksdiffe-
rensen er gjort saa stor, som den overhovedet kan blive, muligvis har

og
37

36

kunnet dække Larvens (under disse Omstændigheder sikkert stærkt
nedsatte) Iltforbrug.”)

Holdes Larveboligen under Taarnet, bliver Betingelserne for
Luftfornyelsen ved Diffusion (fra Luften) bedre, hvad der ogsaa
synes at fremgaa af følgende Analyse:

Larveboet gennem-
strømmet med Luft med
1,5 —%>03:—5 "Miner
efter, at Gennemlednin-
gen er ophørt, er Iltpro-
centenk2m

Ved dette lave Ilt-
tryk og tilsvarende høje
Ilttryksfald synes Ilt-
diffusionen fra Laften at
kunne dække (ja mere
end dække) Larvens Ilt-
forbrug.”)

Da man, naar Larven
er overladt til sig selv,
aldrig finder saa lave
Iltorocenter i Boet, be-
tyder dette sikkert, at
Luften under normale
Forhold saa godt som

Fig. 4. Hydrocampa nymphaeata. D Puppehuset udelukkende hentes di-

fastgjort til en Bladstilk af Potamogeton. E En Blad- rekte fra Atmosfæren.
stilk med Huller, efter at Puppechuset er aftaget.
F Puppehuset oplukket:; man ser Spindet og i Mid- Medens Larvens Re-

ten Puppen. Svagt forstørret. (Wesenberg-Lund del.). spirationsføorhold derfor

maa siges at være klar-

lagt i det store og hele, saalænge den lever i sit Larvebo, gælder
dette ikke, naar den skal til at forpuppe sig.

Om Forpupningsforholdene skriver Wesenberg-Lund i ,Insekt-

livet i ferske Vandef p. 209: ,,I Slutningen af Juli befries Planterne

1) Se Torbjørn Gaarder: Uber den Einfluss des Sauerstoffdruckes auf den
Stoffwechsel. Biochem. Zeitschr. 89. Bd. 1918.

2) Der dog ved dette lave Ilttryk maa antages at have ligget væsentlig under
det normale.

37

for Larveangrebene, og man ser ikke mere til Larverne; under-
søger man derimod Bladstilkene ca. 5—10 cm under Vandspejlet,
vil man finde Hylstrene fastspundne til disse. Puppehylstrene ligner
Larvehylstrene; de staar vingeformet ud til Siden fra Bladstilkene,
der ligesom er klemt ind imellem de to Bladstykker. Skiller man
Bladene fra hinanden, finder man et meget fint, luftfyldt Spind,
inden i hvilket Puppen hviler. Denne Luft har en anden Oprin-
delse end den, Larven aandede ved. Undersøger man forsigtig
Bladstilken paa det Sted, hvor Bladet er fasthæftet, ser man en
Række Huller, der naar ind i denne. Det er højst sandsynligt, at
den Luft, der findes i Puppens Silkespind, hidrører fra Luften i
Planten; gennem de af Larven bidte Huller er den strømmet ind i
Puppehylstret. Det er dog ogsaa muligt, at Luften hidrører fra
Larven selv; inden og efter Forpupningen taber Dyret meget stærkt
i Volumen; man har for andre Arters Vedkommende paavist, at
Larven udpresser Luftblærer, som opfanges i Spindet. Tilsvarende
Iagttagelser for Hydrocampernes Vedkommende mangler desværre
endnu. Hvad der ikke letter Forstaaelsen af Respirationsforholdene
er, at Hydrocamperne ligesom Paraponyx inden Forpupningen atter
lukker for Hullerne med tykke Silkespind. Plantens Luft kan der-
for næppe have respiratorisk Betydning.”

Vil man undersøge Sagen nærmere, bliver man nødt til at
skelne mellem 1) den Tid, Larven befinder sig i Puppeboet i Færd
med at gøre dette færdigt og tjenligt som Bolig for Puppen og
2) selve Puppetiden.

Undersøger man de af W.-L. beskrevne Puppebo i Slutningen
af Juli til Begyndelsen af August, finder man ofte, at disse er be-
hoedetallen Larve. ,

Puppeboligerne er luftfyldte, men da de er anbragte 5—10 cm?
under Vandoverfladen, er det nu umuligt for Larven at hente Luften
direkte fra Atmosfæren. Wesenberg-Lund gør opmærksom paa, at
Larven har gnavet Huller ind til Plantens Intercellularrum, og at
Luften rimeligvis maa stamme herfra; der kan heller ikke efter
de efterfølgende Analyser at dømme være nogen Tvivl herom.

Puppeboligerne er først beskrevne af W.-L.; de minder i meget
om Larveboligen, men er som nævnt fastgjort til Stilken af et Flyde-
blad et Stykke under Vandets Overflade.

Man maa her sikkert staa overfor det sidste Larvebo, som Larven

38

har transporteret ned af Flydebladets Stilk. Boligen fæstnes til
Stilken, og Larven gnaver Huller ind til Vandplantens Intercellu-
larrum.

I den Tid, dette staar paa, inden Forbindelsen med Plantens
Luftkanaler bliver etableret, maa Larven leve af det Luftforraad,
der som sædvanlig omgiver hele Dyret og eventuelt findes i Larve-
boet. Under normale Forhold drejer det sig sikkert kun om en
ganske kortvarig Periode. Derimod vil man i det mindste i Aquarie-
forsøg kunne finde, at Larven opholder sig i den til Stilken fast-
gjorte Puppebolig i flere Dage. I den første Del af denne Periode
staar Larven gennem de gnavede Huller i Forbindelse med Luften
i Planternes Intercellularer; man vil — i det mindste i visse Til-
fælde — kunne se, hvorledes Luften i Intercellularerne og Luften
omkring Larvens Legeme gennem Hullerne udgør en Enhed.

Direkte Luftanalyser bekræfter i alle Tilfælde den nøje For-
bindelse mellem Luften i Planterne og i Puppeboligen paa det da-
værende Tidspunkt.

Analyse af Luften fra et saadant Puppebe (med Larve og aaone
Hullerne lanten SS SE REE SENE eee Er 1,05 005

Analyse af Luften i Potamogeton-Stilkens Intercellularer paa det
tilsvarende Sted toges umiddelbart derefter og gav følgende
RES UAE EET ES ENE er er 0,9, — CO2
1205

Nedsættes Iltprocenten i Intercellularrummene, hvad der kan
opnaas ved at afskære Flydebladene, saaledes at Bladstilkene er
neddykkede i Vand og ganske uden Forbindelse med Atmosfæren,
ser man, hvorledes Luften i dette endnu aabne Puppebo varierer
ganske i Overensstemmelse med Intercellularluften, saaledes som
følgende Forsøg viser.

Dette giver dog naturligvis ingen Forestilling om, hvorledes
Luftsammensætningen vil være i et saadant Puppebo under normale
Forhold, men skal blot tjene til at vise den nøje Overensstemmelse
i Sammensætning mellem de to Luftsystemer.

Vil man gerne vide, hvorledes Luftsammensætningen er under
normale Forhold, behøver man blot at analysere Luften i Potamo-

39

geton natans Flydebladenes Stilk en ca. 5—10 cm under Vandover-
fladen ude i Naturen.

Iltprocenten i Puppeboet maa da være ca. 1 % lavere.

Af saadanne Analyser skal jeg nævne følgende, der alle er ud-
førte paa Funkedammen ”/6 4—5 Eftermiddag. Klar skyfri Himmel.
PBE OS
ØS
PPR
JER

21,9

ikilkbrodstforFattvit her tharkatsøremed"P"matans; og”man
derfor maa antage, at den ved Kulsyreassimilationen frigjorte Ilt
let vil undvige gennem Flydebladets Spalteaabninger, er Iltprocenten
under de ovennævnte gunstige Assimilationsbetingelser tydelig højere
end Atmosfærens.

Iltprocenten i de aabne Puppebo maa altsaa være lig eller noget
over Atmosfærens!).

Saaledes som W.-L. skriver, vil Larven, inden Forpupningen
finder Sted, tillukke de tidligere gnavede Huller, gennem hvilke
Boet staar i Forbindelse med Planternes Intercellularer.

Man forstaar derfor saa udmærket godt, at W.-L. erklærer, at
dette Forhold ikke gør Forstaaelsen af Puppens Respirationsforhold
lettere, og at han føler sig fristet til at erklære, at Plantens Inter-
cellularluft derfor næppe kan have respiratorisk Betydning.

Jeg tror dog ikke, at Wesenberg-Lund har Ret paa dette Punkt.

Spindet""der lukker Hullernesog"som"her er særlig tykt; er'en
Del af det Spind, som tapetserer Puppeboligen indvendig og derved
indeslutter hele Puppen.

Dette Spind er nemlig; saaledes som det sølvhvide Udseende
antyder, luftfyldt; kommer man det i Alkohol, vil Alkoholen trænge
ind i Spindet og fortrænge Luften; under Mikroskopet ser man
ganske tydeligt, hvorledes Luftblærerne i saa Tilfælde bobler frem
af Spindet.

1) Selv om det ikke har nogen direkte Interesse i ovennævnte Sammen-
hæng, skal det dog nævnes, at man under gunstige Assimilationsbetingelser
maa antage, at Iltprocenten i de Vandplanter, der ikke er forsynede med
Flydeblade, kan blive betydelig højere. Intercellularluft fra Bladstilk af
Potamogeton sp. %/, mellem 6 og 650 Aften indeholdt 45,4 .% O2, i et
andet Tilfælde 36,3 % O52.

40

Desværre havde jeg dengang, denne Undersøgelse stod paa, ikke
Lejlighed til at udføre en mikroskopisk Luftanalyse paa disse fine
Luftblærer, men selv uden at kunne støtte mig til saadanne Ana-
lyser tror jeg, man som eneste Forklaring tør opstille den An-
tagelse, at ogsaa Puppen henter sin Luft fra Planternes Intercellu-
larer, idet Luften fra Planternes Intercellularer vil diffundere (rime-
ligvis uden at møde nogen egentlig Hindring) ud gennem de tykke
luftfyldte Silkepuder, der danner en Slags Propper i de gnavede
Huller ud i hele det luftfyldte Spind, saaledes at Luftfornyelsen
foregaar herigennem.

Wesenberg-Lund skriver, at Puppeboligen er luftfyldt; men dette
har ikke bekræftet sig i de Tilfælde, hvor jeg har aabnet Puppebo
for at analysere Luften heri.

Fandtes der nemlig Luft i Puppeboet, vilde det være let at
undersøge, hvorledes Luftens Sammensætning var i Sammenligning
med Luftsammensætningen i Planternes Intercellularer, man vilde
ved at ændre Luftsammensætningen i Planternes Intercellularer
kunne konstatere, om Luften i Puppeboet ændredes i Overensstem-
melse hermed.

Men i alle de Tilfælde, hvor jeg har søgt at faa Luft til Ana-
lyse fra Puppeboet, har det altid vist sig, at Boet indeholdt en
Larve, ligesom jeg ogsaa mener at have fundet Tegn paa, at Luft-
mængden var stadig i Retur, efterhaanden som Tidspunktet for
Forpupningen nærmede sig.

I de Tilfælde (iøvrigt relativt faa), hvor Puppeboet virkelig var
beboet af en Puppe, har jeg ikke kunnet finde Luft uden den
Mængde, der som ganske fine Luftperler var indvævet i Spindet.

Dersom denne lIagttagelse holder Stik, vil jeg antage, at Luften
diffunderer fra det fine Spind ind gennem Puppens Spirakler og
at Spindet paa sin Side faar Luften fornyet fra Planternes Inter-
cellularer.

Uvilkaarlig vil man dog rejse det Spørgsmaal: ja, men selv om
dette er rigtigt og muligt, hvorfor spinder Larven dog Hullerne til,
inden Forpupningen finder Sted? Det maa dog alligevel antages at
betyde en ekstra Hindring og Besværliggørelse af Luftfornyelsen i
Sammenligning med Tilstandene i Puppeboet, før Hullerne blev
tilspundne.

Dette Problem vil jeg gerne diskutere i Forbindelse med en

41

Udtalelse af Wesenberg-Lund i ,Insektlivet i ferske Vande”, p. 209.

-Plantens Luft kan, skriver han, ,hvis der i Planten er det for-
nødne Overtryk, bruges til at drive Vandet ud af Kokonen med".

Efter min Mening vil et saadant Overtryk normalt ikke være
til Stede, tværtimod vil jeg antage, at der til Stadighed (eller næsten
til Stadighed) maa være et Overtryk i Puppeboet. Trykket inde i
Plantens Intercellularer maa takket være den lette Forbindelse med
den atmosfæriske Luft gennem Flydebladenes Spalteaabninger i det
store og hele være lig Atmosfæren; det Tryk, der hviler paa Luften
i Puppeboet, er derimod 1 Atm. + 5 å 10 cm Vandtryk.

Hvis denne Antagelse er rigtig, vil det betyde, at Luftblæren
i Puppeboet ganske langsomt vil blive presset gennem Hullerne
ind i Planten), saaledes at Puppen kunde risikere at komme til
at lide af Luftmangel, ja ligefrem drukne.

Selv om der skulde være et ret betydeligt Overtryk i Puppe-
boet, vil det derimod være uden Betydning for Luften i det luft-
fyldte Spind.

Den Fare, der derfor vilde true Puppen, modvirkes ved det af
Larven dannede luftfyldte Spind, der ad indirekte Vej maa antages
at sætte Puppens Spirakler i Forbindelse med Luften i Planternes
Intercellularer.

Ogsaa de eventuelle Diffusionsforhold mellem Luftblæren og
Vandet vil kunne tendere i Retning af en stadig Formindskelse af
Luftreservoiret.”)

For Larven, der dels kun skal leve i Puppeboet for en kortere
Tid, dels er i Besiddelse af sin Luftpels og dels vel er i Stand til
mere direkte at hente Luften ud gennem de gennemgnavede Huller,
er Muligheden for Luftreservoirets Bortsvinden sikkert uden Be-
tydning.

Den Fornyelse af Ilten, der spillede en overmaade vigtig Rolle

1, Direkte Forsøg syntes ganske vist ikke at støtte denne Antagelse. Blæser
man Luft igennem en Bladstilk af Potamogeton natans, i hvilke der findes
naturlige ,,Larvehullerf, medens Flydebladet befinder sig paa Vandets
Overflade, strømmede der dog Luft ud gennem disse Huller.

Dette har dog -ingen direkte Betydning, idet det jo er indlysende, at
blæser man store Luftmængder igennem, vil Luften søge at strømme ud
overalt, hvor der er Aabning, og ikke udelukkende, hvor Trykket er mindst.

2) Se Richard Ege: On the respiratory conditions of some air breathing
water insects etc. Zeitschr. f. allg. Physiologie. Bd. 17. 1915.

42

for Corixae, Notonectae og de mindre Dytiscidae, kommer her, hvor
Berøringsfladen mellem Luft og Vand er ringe og Diffusionen er
vanskeliggjort af Bladstykkerne, næppe til at spille nogen synderlig
Rolle.

Resumé.

Hydrocampa-Larven henter i sit andet Leveaar den Luft, som
den benytter respiratorisk direkte fra Atmosfæren.

Hydrocampa Puppen (og Larven i Puppeboet) maa antages at
faa den nødvendige Ilt fra Plantens (Potamogeton natans) Intercel-
lu!arrum.

23—4—1923.

Ichthyologiske Notitser.

Ved
C. V. Otterstrøm.

II. Dyndsmerlingen (Cobitis fossilis L.) i Danmark.

Paa det zoologiske Museum i København findes et Eksemplar
afDyndsmerlingen”derfer"skænket Museet af Arthur Fedder-
sen, og som er taget i Kalvebod Strand ved København d. 10. Juni
1899. Ad. S. Jensen, der omtaler Fundet i Zoologia danica,
EilskeRISSE2S9/ÆEmMmener imidlertid Fat idette ikke berettiger” til Fat
regne Dyndsmerlingen til den danske Fauna, idet der er en vis
Sandsynlighed for, at Eksemplaret er hældt ud i Stranden fra et
Akvarie i København. Kalvebod Strand, hvor Vandet er mer eller
mindre salt, kan jo ikke antages at være egnet som varigt Op-
holdssted for Arten. — Heller ikke i Danmarks Fauna (C.
VIERO Fersk om EO ES EPO 7 ET Dyndsmerlingen "regnet for
nogen egentlig dansk Art.

Da jeg i November 1921 var i Tønder, nævnede min Broder,
Seminarielærer Ahrent Otterstrøm, at det var bleven ham
fortalt, at der skulde være Dyndsmerlinger der paa Egnen. I For-
vaaret 1922 bragte Seminarist Heinrich Jensen ham fire Eksem-
plarer, der var taget under Grøftegravning sidst i April ved Lands-
byen Rørkjær lidt østen for Tønder. Beviset for, at denne inter-
essante (navnlig for sit Tarmaandedræt bekendte) Art tilhører vor
Fauna, var saaledes givet.

Af de nævnte fire Eksemplarer blev et sendt til Zoologisk Mu-
seum, et indgik i Tønder Statsskoles Samling, et fik jeg, medens
det fjerde formodentlig er indlemmet i Seminariets Samling. Det
Eksemplar, jeg fik, var det største; det maalte 221 mm og var en
Hun med veludviklet Rogn; formodentlig har Fisken snart skullet
lege, hvilket stemmer med, at Legetiden efter Vogt & Hofer
[1909, S. 480] i Tyskland falder i April, Maj og Juni.

44

Seminarist Jensen havde for øvrigt allerede i 1921 taget en
Dyndsmerling (ca. 15 cm lang) i en lille Dam paa Nordsiden af
den Vej, der fra Rørkjær fører til Tønder. Men dengang vidste
han ikke af, at Fisken var en Sjældenhed. Han havde den i læn-
gere Tid levende i et Akvarie, men under hans Bortrejse i Som-
merferien døde den og blev bortkastet; først senere fik han at vide,

| SS

V ER

1211 Ab
-
Rør ka DS ==

| SobERR

Fig. 1. Dyndsmerlingens (Cobitis fossilis) hidtil kendte Udbredelse paa Tønder-Egnen.

at det var ønskeligt at faa hans Artsbestemmelse kontrolleret. Hel-
digvis voldte det ham ikke synderlig Vanskelighed at fange nye
Eksemplarer i Foraaret 1922. I den førnævnte Dam iagttoges der
rigtignok ingen, men i en Dam paa Sydsiden af Vejen lidt længere
ind mod Tønder (egentlig et Sammenløb af Grøfter, der gennem
en Sluse staar i Forbindelse med Hvirlaa) blev — i hvert Fald
det Eksemplar, jeg har faaet — fanget i en Ruse sidst i April,
liget førkder første Frøer lagde FÆSTET Sen skriverier
fanges mange Dyndsmerlinger ved Grøfteoprensning, og at mange

45

Folk er bange for dem, fordi de tror, at Dyndsmerlingerne bider
og er giftige (Fisken er sikkert fuldstændig uskyldig!). ,Piefaal"
(2: Pibeaal) kaldes den paa Egnen paa Grund af den pibende Lyd,
den giver, naar den tages; som bekendt skyldes Lyden, at Fisken
slipper Luft ud af Tarmen. Jensen mener, at Dyndsmerlingen
findes i Grøfter og Damme, der staar i Forbindelse med Aaerne,
særlig med Grønaa og Hvirlaa og, længere nede, Vidaa. Han har
paa en Kortskitse afsat de to Damme og punkteret de Arealer, paa
hvilke han med Bestemthed ved, at Fisken findes; men — som
han tilføjer — den findes vel nok ogsaa andre Steder. — Efter hvad
min Broder meddeler, siger Fisker Henrik Petersen i Rudbøl
ved Vidaa da ogsaa, at han undertiden fanger indtil en halv Spand-
fuld Dyndsmerlinger om Foraaret, naar han sætter Gedderuser paa
lavt Vand.

Senere (d. æ/1 1922) har Jensen sendt mig yderligere tre Dynd-
smerlinger, som blev taget i den omtalte Dam Syd for Vejen. Det
var ligeledes Hunner, der var fulde af Rogn. Formodentlig er
Hannerne mindre end Hunnerne og fanges saa maaske ikke saa let.
Disse tre Hunner, der vel er tagne i Juni Maaned, maalte 227,
217 og 164 mm.

Det er muligt, at Dyndsmerlingen er udsat (f. Eks. hældt ud
fra et Akvarie) i nyere Tid og saa har formeret sig. Men det er
dog sandsynligere, at den er virkelig hjemmehørende paa Tønder-
egnen. De topografiske og økonomiske Beskrivelser [Danske Atlas,
Aagaard, Begtrup, Gudme, Trap og Oldekop] indeholder intet
om Sagen, men det kunde heller ikke ventes, da det drejer sig om
en saa lidet betydende Fiskeart. Alt, hvad der har kunnet frem-
drages om Dyndsmerlingens Forekomst her, er følgende: Kusz
[1817, S. 134] nævner ,der Schlampizkerf, men uden Angivelse
af Forekomststeder og kender den formodentlig kun fra Holsten.
Krøyer [III, S. 562] har intet faaet oplyst om, at den skulde fore-
komme nordligere end Kieler-Kanalen. Dallmer [1877, S. 87]
skriver: ,Der Schlammbeiszer /Cobitis fossilis). Ueberall, aber nur
im Schlamm. Wird meist iibersehen. Ohne Werth. Wird in Glåsern
gehalten als Wetterprophet.' Rimeligvis er Sagen netop den, at
Dyndsmerlingen let bliver ubemærket, og dette er sikkert Grunden
til, at Friis [1879], der var Læge i Tønder og ellers undersøgte
de fleste af Tønder-Egnens Fisk, ikke har benyttet den til sit ana-

46

tomiske Arbejde; han har sikkert ikke anet dens Eksistens saa nær
Tønder.

Professor Wesenberg-Lund fortalte mig for nylig, at han
for Aar tilbage i Tuel Sø ved Sorø havde set en Fisk, som han
mener, næppe kan have været andet end en Dyndsmerling; des-
værre lykkedes det ham, trods ihærdige Anstrengelser, ikke at
fange den. I den Anledning skrev jeg til Fiskeriforpagter, Dr.
Hoffmeyer i Sorø og spurgte ham, om han havde bemærket
Dyndsmerlingen. Han svarede mig (d. ”%/19 1922), at han engang
for flere Aar siden havde fanget en Fisk, som han mente var en
Dyndsmerling, i Tuel Sø, men desværre var Eksemplaret, som han
længe havde haft opbevaret i Formalin, bortkommet. Pigsmerlingen
(Cobitis tænia L.) er jo almindelig paa Sorø-Egnen, men det synes
ikke rimeligt, at der kan være sket Forveksling med en Pigsmerling.
Der er saaledes god Grund til at antage, at ogsaa Tuel Sø har en
Dyndsmerlingbestand, og at der er Mulighed for at træffe Fisken
i andre midtsjællandske Vande; men det sikre Bevis for dens nor-
. male Forekomst paa Sjælland kan dog endnu ikke anses for givet.

Dyndsmerlingen lever ikke i Norge og Sverige og er sjælden
i det sydlige Finland; den er hos os paa sin Nordgrænse, og den
Mulighed er da ikke udelukket, at den under mildere klimatiske
Forhold kan have haft større Udbredelse, og at dens sidste Tilflugts-
sted paa Sjælland kunde være Sorø Søerne, hvor jo ogsaa Mallen
holdt sig længe. Men maaske vil Fremtiden vise, at Dyndsmer-
lingen forekommer ogsaa andre Steder hos os.

IV. Bastarder mellem forskellige Karpefisk.

Som bekendt forekommer der ret hyppig Krydsninger mellem
visse Arter af Karpefisk. Vogt & Hofer [1909] beskriver ikke
mindre end 18—19 Krydsninger mellem europæiske Arter af Fa-
milien, og af disse er de fire ogsaa taget hos os, nemlig Karpe-
karudsen (Cyprinus carpio X carassius), Brasenskallen (Abra-
mis brama X Leuciscus rutilus), Rudskallefliren (Leuciscus ery-
throphthalmus X Abramis blicca) og Løjeskallen (Aspius alburnus
x Leuciscus rutilus). Men desuden er der nu hos os taget en hidtil
ukendt Bastard, Brasenløjen (Abramis brama X Aspius alburnus).

Det er tydeligt, at i visse Søer er Bastarder ret almindelige,

47

medens de ikke iagttages i andre Søer. Saaledes har jeg under-
søgt 2934 Skaller, 756 Brasen og 1038 Løjer fra Furesø, og des-
uden er talrige andre uden nøjere Undersøgelse gaaet gennem mine
Hænder; og dog har jeg aldrig set en Krydsning mellem to af disse
Arter fra Furesø. Derimod har jeg ret jævnlig truffet saadanne i
Arresø, i Silkeborg Søerne og i Fladesø. Der maa være bestemte
Grunde til, at der saaledes i nogle Søer jævnlig opstaar Kryds-
ninger, i andre ikke. For at f. Eks. Brasenskallen skal fremkomme,
maa selvfølgelig baade Brasen og Skalle leve i Søen; men skønt
begge Arter er almindelige i Furesø, er det dog ikke nok til at
lade Bastarder opstaa; visse andre Betingelser maa øjensynlig være
til Stede. Brasenskallen har jeg taget i Arresø, i Brassø, Almindsø,
Lyngsø og i Fladesø. Alle Steder er vel nok Brasenens Legetid
noget efter Skallens, men uden Tvivl kan der dog jævnlig findes
Brasenhanner med flydende Mælk, inden alle Hunskallerne har
afleget, og Skallehanner med flydende Mælk sammen med Brasen-
hunner med løs Rogn.

Oversigt over Legetiden hos Skalle og Brasen.

| Furesø Årresø Brassø Almindsø Lyngsø Fladesø

I I
! 9) «
sidst i April 4; so
Skalle Es ENG) foo) RS 5 ? ?
…)) natil 27, 1922: : ; ; ;
21/ "DESK

(fe bormt /6)- (ca. 159)

| I

| SØER KSjasert Maj NER — | Nogle faa
Brasen .. En. og først i Juni Dage om-

| ; Juni. kring 1. Juni.

De Krav, der stilles til Legepladser, synes omtrent at være de
samme. I Furesø leger baade Skalle og Brasen paa Sivstubbene
paa 1—2 Meters Dybde; i Arresø leges der paa Plantevæksten
paa faa Centimeters Dybde. For saa vidt er der god Mulighed
for Krydsning.

Legefiskenes Størrelse er i høj Grad forskellig i de forskellige
Søer, som hosstaaende Oversigt udviser. Tallet i Parenthes angiver
den Størrelse, i hvilken ca. 50 pCt. af Fiskene deltager i Legen.

48

Furesø Arresø Brassø Almindsø Lyngsø Fladesø

Skalle 3/'%10)—24cm| 7(8)—13 |19(10)—16|] —16 ? FE D4

2 1/1 1(16)—40'cm! 9(10)—18 112(13)—36 98 e =26
Brasen g'/31(36)—57 cm! 16-—30 |22(22)—47 2 R Rn
2 135(40)—58cm| 18—38 |21(24)—48 z Ge P

Der er tydeligvis større Forskel paa Legefiskenes Størrelse hos
de to Arter i Furesø end i Arresø og Brassø, men det er dog
mæppe rimeligt, at dette Forhold har afgørende Indflydelse.

Nogen paafaldende Mangel eller Overflod paa Hanner synes
ikke at findes noget af Stederne. De i Oversigtstabellen angivne

| Furesø | Arresø | Brassø | Almindsø | Lyngsø | Fladesø
Skalle g%| 36% | 40% | 20 | | 47%
|
Brasen g % | 49% | 47% | 53% | | | 58 %

Procenttal for Hannerne refererer sig til den samlede Fangst og er
— da Hunnerne af Skalle bliver langt større end Hannerne —
ikke noget nøjagtigt Udtryk for Forholdet mellem Antallet af Lege-
fisklaf desto køn: tdarder" fanges tflestaftder større Fiskeri erei
Virkeligheden flere Hanskaller, end Oversigten angiver.
Mant"kantikketse”" bort "fraat der ertentsærlistChancemtor
Krydsning, hvor Legen foregaar i strømmende Vand. Her vil Mæl-
ken kunne blive skyllet ned fra et legende Brasenpar og befrugte
Rognen fra en gydende Skalle. Ret lang Tid er Mælken ikke
befrugtningsdygtig; den 20. Maj 1920 maalte jeg, at Brasensperma-
tozoernes Bevægelse var aftagende 30 Sekunder efter Vandtilsæt-
ningen, 60 Sekunder efter denne var Bevægelsen svag, og efter
Hvad der uvil-
kaarlig har bibragt mig Indtrykket af, at det strømmende Vand kan
have Betydning i den Forbindelse, er den Omstændighed, at de i
Arresø fundne Bastarder alle blev taget i Mundingen af Pølaa, skønt
der kun blev taget en ringe Part af de undersøgte Fisk paa dette
Sted; men da Individerne var adskillige Aar gamle, forudsætter det,

endnu et Minuts Forløb var den næsten ophørt.

49

at Fiskene er meget stationære og ikke spredes ud over Søen fra
det Sted, hvor de klækkedes.

Da det er paavist, at Krydsbefrugtning snarest kan finde Sted,
naar Æggene er svækkede, f. Eks. ved at være overmodne, er der
maaske særlig Grund til at antage, at Bastarderne skyldes saadanne
Hunner, som man af og til træffer, som Maaneder efter Legetidens
normale Afslutning gaar rundt fyldte med Rogn (formodentlig for-
sinkede i Udviklingen p. Gr. af Sygdom), og som nu har svært ved
at finde Hanfisk af samme Art, som ikke har leget.

Det skal endelig anføres, hvad der er at tilføje til det i Dan-
marks Fauna angivne.

Brasenskalle (Abramis brama L. X Leuciscus rutilus L.).

Denne Bastard, der i Forvejen opgaves taget paa fem forskel-
lige Lokaliteter hos os, har jeg yderligere taget følgende Steder:

Arresø, Mundingen af Pølaa, Ruse, d. 5/5 22, 1 Brasenskalle, 9,
Mom GEPONORGatinnent hare OF Sfraaler) Lig nerti
Farve og Skæl en Skalle, i Form mest en Brasen.
Brassø, udfor Ulvehoved, Aalehaandvaad, d. ””/s 18, 1 Brasenskalle,
Plc GÆNSÆSidelmenkikdenttienderSkælrække "fra R:
15 Skælrækker mellem R. og Bu. Forryg uden skælfri
Midtstribe, men saadan findes mellem Bu. og Gattet. Farve-
skildringen i Danmarks Fauna passer med Undtagelse af,
at saavel de farvede Finner som Halefinnen er svagt rødlige.
Almindsø, Aalehaandvaad, d. %/4 18, 1 Brasenskalle, 15 cm, 37 g.
Lyngsø, Aalehaandvaad, d. ”/6 20, 1 Brasenskalle, 7, 18 cm. G. 19.
Silkeborg Langsø. Fiskeriejer Errboe, Lysbro, har set Brasen-
skallen her.
Fladesø, Nordsiden, Ruser, d. ”/7 21, 2 Brasenskaller.
a) 29 cm, 265 g. G. 2 (rudimentære) + 17 — 19.
b)22Tcm, 1002. G72 (rudimentære) — 17.—- 19.
Fladesø, N. for Roddenbjerggaard, Aalehaandvaad, d. ”/7 21, 1 Bra-
senskalle bem:

I Arresø og Fladesø er Fliren (Abramis blicca Bloch) ikke paa-
vist, og det er saaledes udelukket, at der kan være Tale om Flire-
skaller. I de andre af de ovennævnte Søer findes Fliren, men intet
tyder paa, at de fiskede Bastarder ikke skulde være Brasenskaller.

Vidensk. Medd. fra Dansk naturh. Foren. Bd. 76. 4

50

Løjeskalle (Aspius alburnus L. X Leuciscus rutilus L.).

Løjeskallen var for faa Aar siden ikke kendt her fra Landet,
og fra Udlandet kendtes kun to Eksemplarer (et engelsk og et tysk)
[Vogt & Hofer, 1909]. Nu kendes 6 danske Individer, og Ba-
starden er visse Steder Fiskerne velbekendt. <A. C. Johansen
og Løfting [1918, S: 463] nævner, at der d;>/, 14 fanpgedes
2 Eksemplarer i Aalegaarden ved Resenbro (Gudenaa) (9, 148 mm;
2, 140 mm), og at der toges et i Sildebundgarn tæt udenfor
Udbyhøj (Randers Fjord) d. %'/5 14 (112 mm). De giver tillige Be-
skrivelser og Figurer af Fiskene. — Naar de tilføjer, at Bastarderne
ilere Gange er fundet i Udlandet, og at den rimeligvis er identisk
med Feddersens ,Hvidskallef (som han mente var Spirlinus
bipunctatus [1879, S. 91]), kan jeg ikke være enig med dem, idet
Bastarden kun synes fundet to Gange tidligere, og idet Svælg-
knoglerne af Feddersens ,Hvidskalle" synes mig at være af en
Brasenbastard, saaledes som jeg allerede har bemærket i Dan-
marks Fauna [1914, S. 279]. — Selv har jeg taget Løjeskallen
3 Gange:

Arresø, Mundingen af Pølaa, Ruse, d. %/5 22, 1 Løjeskalle, 2,12
cm RG SIGÆR But lidtHlænsere frem metendEr

Borresø, ved Mundingen af Millingbæk, Vaad, d.””/6 19, 1 Løje-
skalle, g, 15 cm. R. 11, G. 18. Venstre Svælgbem med
6 Tænder i een Række, nærmest som Skallens, men des-
uden Antydning af en lille Tand i en ydre Række. Krop-
farve som en Løje; Iris oventil messinggul, nedentil sølv-
hvid; Br. og Bu. gullige. Gik sammen med legemodne
Løjer. — Allerede tidligere havde Fisker Bjørnholt fortalt
mig, at der jævnlig træffes Bastarder mellem Løje og Skalle
sammen med de legende ,, Millinger" (Løjer).

Borresø, noget nedenfor Ulvenæs, Ruse, d. ”/6 20, 1 Løjeskalle, 9,
17 cm, 38 g. G. 17. Venstre Sidelinie 45 Skæl. Krop-
farve nærmest som en Skalle; Iris oventil messinggul,
nedentil sølvhvid; Finner blegere end Skallens, navnlig Bu.
og G. iøjnefaldende, da de kun er svagt gulrøde, næsten
ufarvede. Fisken synes at skulle lege.

Silkeborg Langsø. Fiskeriejer Errboe har her set Løjeskallen.

-

ol

Rudskalleflire
(Leuciscus erythrophthalmus L. X Abramis blicca Bloch).

Et Eksemplar (17 cm) af denne Bastard toges i 1844 i Randers
Fjord. Senere er Krydsningen ikke bemærket hos os, før A. C.
Johansen og Løfting [1918, S. 465] iagttog to Eksemplarer
(23:8'cm, Resenbro Aalegaard, d. ”/4 1914 og 2, 283 cm, Grund
Fjord, d. %/6 1916), som de nærmere beskriver.

Brasenløje (Abramis brama L. X Aspius alburnus L.).

Denne Bastard er mærkelig nok ikke tidligere iagttaget, hverken
hoskoskeller 1 Udlandet Jes tog et 16"em langt ”Eksemplar (),
i Arresø i en Ruse i Mundingen af Tilløbet Pølaa d. 7/53 1922,

FE

Fig. 2. Brasenløje (Abramis brama L. X Aspius alburnus L.). & , 16 cm. Arresø.

Dens Kropform ligner Løjens, men er tydeligt noget højere og
mere sammentrykt. Munden er opadvendt omtrent som Løjens.
Svælgtænderne sidder i to Rækker med 5 Tænder i den indre og
1 Tand i den ydre Række (paa det ene Svælgben er
der i den indre Række kun 3 Tænder i Behold, men

N

SB der mangler sikkert 2). Tænderne har ret lang
EG Tyggeflade, delvis med takkede Kanter; Spidsen
) erik kroget kor ved dens Grund"er derpaa

Tandens Bagside et meget tyde-

ligt Hak. Rygfinnen begynder lidt

bag Midten af Mellemrummet mel-

| lem Bugfinnernes Rod og Gat-
UV finnen og ender en Smule Lag Fig.4. Brasenløje.
Fjerde Tand paa
Fig. 3. Brasen- Gatfinnens Førende. Halefinnens 1 øjre Svælgben. Stil-
løje. Højre Flige er afskaarne parallelt med lingen er en lidt
Svælgben med T å anden end i den fore-
Tænder. Længdeaksen (ikke Beskadigelse). gaaende Figur.

42

S2

Rygfinnen har 1 rudimentær og 10 veludviklede Straaler... ialt 11 Straaler.
Gatfinnen - 1 — - 21 —= NES
Brystfinnerne , — RES — MH 2 SP BENE

sy — ALS — EEN EU SE
Bugfinnerne 1 = = 9 = yes sy MORER

1 = 9 == Eee 0 —
Halefunens SER TER: MUS — — ialt x+18+x —

De bageste Straaler i Ryg- og Gatfinne er dobbelte. Skællene
danner 14 Længderækker mellem Rygfinnen og Bugfinnerne. Langs
Sidelinien er der henholdsvis 54 og 55 Skæl.… Skælkernen ligger
i Skællets forreste Halvdel. Forryggen er jævnt afrundet og dæk-
ket af Skæl; derimod bøjer Skællene ikke over den skarpe Bug-
kant mellem Bugfinnerne og Gattet, men staar her Kant mod Kant.
Farven var nærmest som Braseneres (disse er i Årresø meget blege);
Ryg- og Halefinne havde sorte Spidser, Brystfinnerne og Gatfinnen
delvis ogsaa.

At der ikke er Tale om Løje X Flire, fremgaar allerede af, at
Fliren (Abramis blicca Bloch) ikke kendes fra Arresø. Brasen-
løjens Størrelse (16 cm) overgaar den Størrelse, Løjen naar i Arresø
(næppe over 13 cm). Dens Alder var ca. 7 Aar. — Eksemplaret
findes nu paa Zoologisk Museum i København.

Krydsningerne interesserer som Regel Fiskerne meget, og de
lægger straks Mærke til dem. Gennemgaaende bedømmer de
ogsaa deres Slægtskab rigtigt, og der er derfor Grund til at nævne
nogle af de mundtlige Meddelelser, jeg har faaet om Forekomsten
af Bastarder.

Tjele Langsø. Fisker Nielsen, d.?/11 21. Bastarder mellem Brasen
og Skalle og mellem Skalle og Rudskalle menes iagttagne.

Rødsø, d. %/11 21. ,Hverkenf menes at være en Krydsning mellem
Brasen og Skalle og er ret almindelig. De menes at ligne
baade Skalle og Brasen, og naar Formen er mest som
Brasen, er Finnerne røde, ellers ikke. [Delvis Forveksling
med Abramis blicca?]

Viborg Søerne. Fiskehandler J. Chr. Jensen, d.”/11 21. Bastarder
mellem Skalle og Brasen er ret almindelige [mulig dog

Forveksling med Abramis blicca, som han mener ikke
findes].

53

Mossø. Fisker Johan Sørensen, d.””/ 22. Kender udmærket
godt Bastarder, bl. a. ogsaa Rudskalle X Brasen, mener han.

Skalle X.Rudskalle er hidtil ikke beskrevet fra Danmark, men
kendes fra Tyskland (langtfra hyppig) [Vogt u. Hofer, S. 453], hvor-
imod den naturlige Forekomst af Rudskalle X Brasen næppe er
fastslaaet, men Krydsningen er kunstig fremstillet [Vogt u. Ho-
fer S 455]:

&

Litteratur.

1815. Aagaard, Knud: Beskrivelse over Tørning Lehn. Et Bidrag til
Kundskab om Hertugdømmet Slesvig. Kbhvn.

1808. Begtrup, Gr.: Beskrivelse over Agerdyrkningens Tilstand i Nørre-
Jylland. Bd. I. Kbhvn.

1877. Dallmer, Eugen: Fische und Fischerei im siuszen Wasser mit
besonderer Beriucksichtigung der Provinz Schleswig-Holstein.
Schleswig (Segeberg).

1769. Danske Atlas, Bd. V. (Ved Erich Pontoppidan, Hans de Hofman,
Langebek og Sandvig).

1879. Feddersen, Arthur: Fortegnelse over de danske Ferskvandsfiske.
(Naturhistorisk Tidsskrift, 3. Rk. 12. Bd.).

1879. Friis, G.: Fiskeøjet. Et Bidrag til den sammenlignende Anatomi.
Kbhvn.

1833. Gudme, A. C.: Schleswig-Holstein. Eine statistisch-geographisch-
topographische Darstellung dieser Herzogthimer, nach gedruckten
und ungedruckten Quellen. Kiel.

1900. Jensen, Ad. S.: (Om Dyndsmerlingen i) Zoologia Danica. 11. Hefte.

Fiske. Kbhvn.

1918. Johansen, A. C. og Løfting, J. Chr.: Fiskene i Randers Fjord.
(I A. C. Johansen: Randers Fjords Naturhistorie. Kbhvn.).

1846—49. Krøyer, Henrik: Danmarks Fiske. Bd. III. Afd. I. Kbhvn.

1817. Kusz, Christian: Grundrisz einer Naturbeschreibung der Herzogth.
Schleswig und Holstein. Altona.

1906. Oldekop, Henning: Topographie des Herzogtums Schleswig. Kiel.

1914. Otterstrøm, C. V.: Fisk. II. Blødfinnefisk. (Danmarks Fauna. Nr.
15... Kbhvn.)

1864. Trap, J. P.: Statistisk-topographisk Beskrivelse af Hertugdømmet
Slesvig Kbhvn.

1909. Vogt, Carl und Hofer, Bruno: Die Siisswasserfische von Mittel-
Europa. Frankfurt.

Ehe Danish Rena før the" Kei Islands"1922:

2 DrÆrn: SE MER

(With Plates I—III.)

In November 1921 Dr. Hjalmar Jensen and the author left
Copenhagen on a scientific Expedition to the Malay Archipelago,
especially the Kei Islands. The Expedition was undertaken as the
consequence of a plan, set forth some time before (in the fall of
1918) by the present author, of establishing a tropical marine
biological station with deep-sea investigations as its main object.
There could hardly be any doubt that the most suitable place for
a station with this programme was to be found in the Malay Ar-
chipelago; but more exactly to point out the place on the basis of
the knowledge gained through previous researches was not well
possible. New investigations with this special view would be neces-
sary, and this was then the main object of the Expedition: to carry
out investigations, mainly marine biological, in those places which
might come into special consideration as eventually offering suitable
conditions for the planned station. Those places were Amboina,
Banda and the Kei Islands, the latter locality having been espec-
ially pointed out to the author by Professor Max Weber as being
probably the best of all, judging mainly from his experiences from

e "Siboga” Expedition. The investigations of the Expedition were
accordingly concentrated to these three places. On the way back
to Java there was an opportunity of a few days” dredging off Ma-
casser, and, finally, after the return to Java the author was afforded
the opportunity of a 14 days' dredging trip in the Java Sea and
the Sunda Strait.

On the arrival at Java the Expedition was joined by the two
Dutch biologists, Dr. H. Boschma and Mr. H.C. Siebers, biol.
docts., ornithologist of the Buitenzorg Museum.

56

The Expedition received very important assistance from the Indian
Government, especially through the small steamer "Amboina” being
placed at our disposal for the dredging operations, the Expedition
having to pay only the expenses for coal and oil. As there was
no steam winch on the ship, a winch to be fitted to an oil motor
was constructed at the navy wharf in Batavia and sent to Ambon
to be installed onboard the ship there. Especially Mr. Bischop
van Tuinen of the navy department made us exceedingly obliged
to him for his truly untiring efforts to arrange gl this for the Expe-
dition in the very best way. Also the director of ”s Lands Planten-
tuin, Buitenzorg, Dr. Docters van Leeuwen, the director of the
Zoological Museum in Buitenzorg, Dr. K. W. Dammerman, and
the director of the Laboratorium voor het onderzoek der Zee in
Batavia, Dr. A. L. J. Sunier, met us with the greatest kindness
and assisted the Expedition in every way. The sincerest thanks of
the Expedition are offered here to the Indian Government and
to the gentlemen named for all their kind help, which was of
material importance to the success of the Expedition. Last, not
least, I beg to express the great indebtedness of the Expedition to
our Dutch colleagues, above all Professor Max Weber, for the
interest they have taken in the plan of the Expedition and the
assistance rendered through introductions and in various other ways.

The expenses of the Expedition were paid bv the Danish Rask-
Oersted Fund; sincerest thanks are herewith offered the direction
of this Fund for its liberal support.

The investigations were carried out in the different localities as
follows: At Amboina (and Saparoea) from February 8th to March
14th; at the Kei Islands from March 17th to May 23rd; at Banda
from May 3lst to June 2lst; at Macasser from June 27th to 29th,
and in the Java Sea and the Sunda Strait from July 13th to August
8th and again, after a visit to Tjibodas and Buitenzorg for the
sake of making studies and collections of the terrestrial fauna, in
the first week of September.

In this report is dealt only with the marine investigations as
carried out by the author.

Dr. Hjalmar Jensen, who was the botanist of the Expedition,
returned, together with Mr. Siebers, directly from the Kei Islands,
while Dr. Boschma remained and took part in the investigations

57

at Banda, Macasser and in the Java Sea and the Sunda Strait. Special
-and very cordial thanks are due to him for his untiring interest in
the investigations of the Expedition and for his faithful and ever
kind and helpful companionship. Finally the author wishes to ex-
press his most sincere thanks to his friend and companion, Dr.
Hjalmar Jensen, who always most willingly made it his special
task to solve the many sorts of practical problems and difficulties
connected with such an expedition, and to whose genial and friendly
support the author feels exceedingly indebted.

The author left -Batavia on September 20th and returned to
Copenhagen at the end of October 1922.

I. Amboina.

Ever since Rumphius published his work "d'Amboinsche Rari-
teitkamer” (1705) Amboina (or Ambon — the two forms of the name
being used deliberately —) has been one of the classical localities
in natural history. Researches undertaken by various naturalists
in more recent times, especially by Bedot & Pictet in 1890,
Semon in 1891—1892 and the»fSiboga” Expedition 1900, have
shown many more forms to occur there than those recorded by
Rumphius, the number of species thus known to occur in the
Bay of Amboina being very considerable. It was accordingly with
rather great expectations that the Expedition set out to work there.

Ås it would not be convenient to establish the headquarters of
the Expedition in the small hotel in the middle of the town, it was
thought desirable to find a place outside the town, where a temporary
laboratory might be established. Through the kind help of the Assi-
stent-Resident, Mr. Noll, we were introduced to a gentleman in
the city of Amboina, Mr. Versteegh, who possesses a country
house a few kilometers from the town, in a place named Gelala,
situated in a plantation of Cocos, Arenga, nutmegs 0. a., close to
the shore. This delightful house he most liberally placed at our
disposal; there we established our temporary laboratory and spent
a whole month under the most satisfactory circumstances.

To begin with we had to confine our researches to the shore
and the shallow water, having only rowing boats with native divers
for our disposal, until the instalment of the motor and winch on
the "Amboina” was ready. Off Gelala there is a large flat, which

58

lies dry at low tide, thus offering excellent opportunities for studying
the rich shallow water fauna. All sorts of bottom are represented
on this flat, rocks, stones, sand, mud, and grass bottom, each sort
of bottom having its own characteristic fauna. Part of the shore
is an old coral rock, forming a flat ledge, covered only at high tide.
The porous rock is inhabited by innumerable boring organisms —
Molluses, Gephyreans, Annelids a. 0. — while at a slightly lower level,

SS 463 az É:
== eg 38 w ft,
/' Leitimér ;
ss 555

Fig. 1. Map of Amboina. Depths in fathoms.

which lies dry only at exceptionally low tides, the peculiar boring
Echincid Echinostrephus molare is found in deep, cylindrical holes.
In small pools left on the rock at low tide a small grey Actinian
is found in great numbers, like a carpet of flowers, each specimen
attached in a hole in the rock, into which it retracts itself as the
water disappears. The most interesting feature in the animal com-
munity peculiar to this locality is, however, the occurrence of some
large Annelids (Nereis sp. and Marphysa sp.), which from their holes
in the rocks extend themselves, often for up to two decimeters
length, over the dry rock, seeking their nourishment in the thin
coat of microscopical plants which covers the rock. When walking

59

over the rock one sees them retracting into their holes, quick as
lightning, and it is only on approaching very cautiously that one
succeeds in observing them distinetly. When standing quite still for
some minutes one may see them come out again, head and fore-
body, from their holes, and in this way it was even possible to
take a photo of them. On the other hand, I found it quite impos-
sible to secure a complete specimen, the rock being much too hard
to be cut to pieces without crushing the worms, which appear to
be of a very considerable length. I had to content myself with cut-
ting off the foreend of some specimens, when they had extended
themselves over the rock.

On the sandy parts of the flat, in such places where a thin
layer of water remains at low tide, innumerable specimens of the
starfish Archaster typicus are crawling about or lie buried in the
sand, a star figure showing the place of their hiding. In the muddy
parts the flat Scutellid Arachnoides placenta is the main inhabitant,
while in the areas covered with sea grass (Thalassia testudinum)
meterlong, greyish-brown, warty Synapta's and a red Oreaster are
the dominant forms. Numbers of fishes also occur here, among
which Ophichthys colubrinus is the most sensational, affording one
of the most perfect cases of mimicry; it resembles the sea-snåke
Platurus colubrinus (Schneid.) (which also occurs here) so completely
in colour and shape that even an expert ichthyologist would hardly
venture to say, except on a closer inspection, whether it is the fish
or the snake he has before him.

Places of sandy bottom, which become quite dry at low tide, are
inhabited by a large Enteropneust, its huge sandy excrements show-
ing the spot, where it may be dug out. Also various forms of
Sipunculids, Annelids and Molluscs may be found here, as also
Lingula and Amphiurids, whereas I was disappointed in not finding
here any of the smaller forms of Synaptids otherwise usually living
in such places. Numerous crabs (Gelasimus and Mycteris) also occur
in such localities, strewing their characteristic sand-pellets over
the surface. Upon the whole, an almost endless number of forms
occur here, offering a rich harvest to the collector and a most
fascinating study to the naturalist, who takes an interest in marine
ecology.

The coral gardens”, of which Ambon boasts as a special attraction,

60

are not superior to what is found in almost any place, where corals
thrive well. The colonies stand more or less isolated, hardly form-
ing what may be termed a reef. This is, of course, due to the fact
that here in the inner part of the bay, where no other current
occurs than the flow of the tide, the water is not pure enough for
affording the corals quite ideal conditions.

An extraordinarily rich collecting ground is afforded by the pier
at the town of Ambon and perhaps still more so by the coaling
pier a little way outside the town. Here on the iron pillars mag-
nificent Gorgonids, Hydroids and Sponges form hiding places for
innumerable smaller forms, Worms, Crustaceans etc. Beautiful Co-
matulids are found clinging to the pillars as huge flowers; also
large Euryalids may be found here, while various forms of gor-
geously coloured fishes and shoals of plain small Clupeids seek a
shelter among the pillars. On the stony walls, at or a little below
low water mark, Diadema's occur in such quantities as to make
the ground black. Both Diadema setosum and D. Savignyi are met
with; the two species were, however, not found intermingled.

When after about a week ihe instalment of the winch and
motor onboard the "Amboina” was ready (very skilfully made by
a Chinese firm) the dredging operations could begin. On account
of the very rapidly increasing depth in the bay the dredging had
to be confined to the inner part of the bay, from a little way out-
side the town to the inner end, the more so as great difficulties
proved to be connected with dredging work here. The bottom is
very irregular, in many places rocky, and very often the trawl
caught hold and was got up only after much trouble, with the net
more or less torn. In order not to run the risk of losing too much
of the dredging apparatus and wire (of which I had brought only
1200 M. length along with me from home) dredging was not extended
beyond ca. 200 Meters depth. Nevertheless and in spite of all dif-
ficulties, quite a rich harvest was made, especially of Echinoderms
and Gorgonids. Among the former I would especially mention a
Coelopleurus, which was found in considerable numbers, mainly in
depths of ca. 150 M.; it must in some places be quite crowded on
the bottom. Also several species of Cidarids were encountered
(mainly caught in the tangles attached to the trawl) a. o. a fine
specimen of an Acanthocidaris, which genus had not hitherto been

61

found in the Moluccan Sea. From a depth of ca. 60 Meters the
dredge once came up nearly filled with the curious Actinian Sphe-
nopus, which must doubtless sit with its wedgeshaped body buried
in the sand, only with the tentacle crown above the ground. It
was otherwise taken only now and then, a few specimens; but
here then, evidently we had hit a spot, where it must have been
almost covering the bottom. Mention should also be made of the
curious Ophiurid Ophiopteron, (which I have taken also at the Kei
Islands and at the Philipphines, during my Pacific-Expedition in 1914).
It was suggested by Ludwig, who established the genus and described
the first of its species, that it was a swimming Ophiurid, the curious
skin fold connecting its armspines being thought to act like a swim-
ming web. As I do not remember having seen that anybody has
protested against this suggestion, I may here take the opportunity
of stating that it is so very far from being a swimming form that
it is one of the most sluggish Ophiurids I have seen. It is generally
found in crevices in stones and the like, and hardly moves at all
when removed from its hiding place.

The innermost part of the bay, the "Inner Bay” proper, is al-
most like a large pond, only through a narrow, but fairly deep
channel connected with the outer part. The bottom is all over
soft mud, the depth being rather uniformly ca. 20—35 M. Dredg-
ing here gave very poor results. A few Brissopsis luzonica, some
small Astropecten, a pair of Synaptids and a few shells being nearly
all that was found.

Regarding now the question whether Amboina could be con-
sidered a fit place for the planned biological station, I do not hesitate
in declaring that, in spite of its undeniably very rich and varied
marine fauna, it is not a very good place for such a station. In
itself the bay of Ambon, which might rather be termed a fjord, is
a somewhat small area as field of operation to a larger permanent
laboratory, to which come the difficulties due to the more or less
rocky character of the bottom. But a no less serious objection is
the character of the water, which appears to be not very well fit
for experimental work, owing -— I can hardly doubt, though having
made no direct investigations as to this point — to an unfavourable
hydrogen ion concentration. This appears very evident from the exper-
iments in rearing Echinoderm larvæ, which I undertook. Over and

62

over again I made artificial fertilizations of various forms of Echi-
noids and Asteroids, but I never succeeded in rearing the embryos
beyond the very first stages. This was a great disappointment to
me, as I hoped especially here to get the opportunity of rearing
the larvæ of such interesting forms as Echinostrephus and Coelo-
pleurus, which were both ripe at the time of my stay here. I can
state now with certainty that the latter has pelagic larvæ; I did,
however, not succeed in rearing them so far as to the beginning
formation of the skeleton.

An involuntary visit of some few days to the bay of Saparoea
on the little island of that name E.of Ambon, due to unfavourable
weather which did not permit continuing the passage across the
Banda Sea with the small "Amboina”, gave as result some valuable
ecological observations on the shallow water fauna of the fine, very
sheltered harbour. Otherwise hardly anything could be done. In
the Inner Bay (the harbour), the bottom was a very soft, white
coral mud, with a very poor fauna only, making dredging very
unprofitable; outside the harbour the bottom proved so full of rocks,
that dredging was impossible, resulting only in the loss of a dredge.

II. The Kei Islands.

Researches on the fauna and biological conditions of the seas
round the Kei Islands were first undertaken by the "Challenger”
Expedition, which in September 1874 made a dredging (Station 192)
S. of the little Island of Taam in a depth of 129 fathoms, the quite
extraordinary success of which made it one of the very richest hauls
of the whole Expedition. Especially the surprising fact that numbers
of truly abyssal forms occurred here in so relatively shallow water
made this haul exceptionally interesting, indicating that very unusual
physical and biological conditions must exist here. The fSiboga”
again made a dredging here (St. 253, in a depth of 304 Meters)
with similar results. Two more deep water dredgings (St. 254, in
a depth of 310 M., and St. 256, in 397 M.) were made by the "Si-
boga” in the sea between the Kei and the Tajando Islands, and
four more in the Strait between Great Kei and Little Kei, viz. one
(St. 259, depth 487 M.) in the northern part, one (St. 260, depth
90 M. only) off Elat, and two (St. 262, depth 560 M., and St. 266,
depth 595 M.) in the southern end of the strait. A few dredgings

63

were also made in the shallow water between the islands of the
Little Kei-group. This is practically all that was done till now in
this region, the Expedition of Dr. H. Merton (1907—8) having
confined its marine researches to collecting on the reefs and at
the coast.

From the data thus available it was to be expected that the
interesting biological conditions, first observed to the south of the
Island Taam, resulting in the occurrence of a rich genuine abyssal
fauna in depths of only ca. 2—300 M., would be found all over
this region. And this was, in fact, the main object of the Expe-
dition: to carry out investigations here with the view of giving the
definite proof — or disproof — of this suggestion. If proof were
given that the suggestion was correct, this would mean that the
principal condition for choosing the Kei Islands as the place of the
planned Laboratory was fulfilled.

First of all the bathymetrical conditions of this area had to be
studied to a much greater extent than had been done hitherto, the
few stations of the "Siboga” being almost the only available data
ontsrdettheflittoral.)) "It is true that HS 0. W. Planten has pu-
blished (in 1892)”) a detailed map of the sea round the Kei Islands,
giving numerous soundings; as he had, however, no apparatus for
sounding greater depths than 40 fathoms, his contribution to the
knowledge of the extra-littoral areas does not amount to much more
than stating the depths there to exceed 40 fathoms. Besides in
the places where dredgings were undertaken — the stations marked
on the map, Pl. Il — soundings were made in several other places.
On the basis of these soundings, together with those of the "Chal-
lenger”, the "Siboga” and of Planten, the bathymetrical chart of
the Kei-region, Pl. I, has been worked out. Future investigations
may perhaps prove the 400 M. curve to go somewhat farther in
from the North and South between the Kei and the Tajando groups,
only relatively few soundings having been made in the outer part.
But in the main this chart is correct. It has thus been proved
that the area between the two said groups of islands forms a large
plateau with very uniform depths, sinking gradually from ca. 200

1) The ,,Challenger” made two soundings between the Kei and the Tajando
Islands.
2) Tijdschr. Kon. Nederlandsch Aardrijkskundig Genootschap. IX. 1892,

64

Meters near the islands to 4—500 Meters in a distance of ca. 20
— 30 miles to the North and South. The deep water continues
very close to the small Island of Godan and sends a tongue down
almost to the point Ngidioen; similarly from the South a tongue of
deep water continues towards the same point, only a very narrow
ridge between Ngidioen and Godan, with a depth of ca. 70 Meters,
separating the two continuations of the deeper water to the North
and the South of the Islands Godan and Er.

In the Strait between Great and Little Kei the 400 Meter line
goes rather far South, but in the middle part of the Strait depths
øf somewhat less than 400 Meters are found, thus forming a ridge
between the deeper waters to the North and to the South of the
Strait, the depths sinking rather abruptly to the South, as shown
by the fSiboga”. Along the coasts the depth increases very rapidly,
the littoral area being here rather narrow. Especially off Elat there
was found to be a very steep ridge, the depth increasing almost
abruptly from ca. 100 to ca. 400 Meters.

While in the Bay of Ambon the bottom was found very irregular,
offering considerable difficulties to dredging, it was an agreeable
surprise to find the bottom in the Kei-area generally very good,
regular sand- or, in the deeper parts, mud bottom, so regular that
in many places it would even be possible to use an otter trawl.
Of course, nearer the coastal ridge the bottom is less regular and
here the dredge not rarely caught hold in the bottom; but, upon
the whole, the bottom proved very favourable to dredging. In one
place (Station 47) several stones, in another place (St. 49) several
large sand concretions came up, containing several burrowing or-
ganisms.

The result of the "dredgings”intheldepthsffromca 200 ken
400 Meters was, upon the whole, most satisfactory, showing con-
clusively that the genuine abyssalffaunawhichkwasidest
met with in" 129 -fathoms” So Taamholccurstallkovernkihns
area. I may name a few of the more prominent forms: various
Elasipods and Echinothurids (Hapalosoma pellucidum in places quite
common), Cidarids in considerable numbers, Micropyga, Hemipe-
dina, Zoroaster, various Brisingids, Calliaster, Ophiotholia, Astro-
schema, Metacrinus, Hyalonema, Kophobelemnon, Culeolus etc. As
regards stalked Crinoids this area is exceptionally rich. To the four

species of Metacrinus found
by the "Challenger” in the
dredging S.ofTaam the fSi-
boga” added three more
species, no less than seven
species of these magnificent
forms thus occurring in this
oneplace. To these I have ad-
ded two more,viz.asmall,re-
markably robust species of
Rhizocrinus (?) and a large,
reddish-brown form, appa-
rently Democrinus Weberi
(Dåderlein). One of the
most interesting finds was
two magnificent specimens
of Dermatodiadema indicum
Døderlein. In the speci-
mens of this and related
forms, brought to light by
previous expeditions, the
long curved spines are
all directed upwards as a
fufkskkwhilen the primary
spines of the oral region
are all lacking. Of the two
specimens dredged here

(Station 62) one especially

was in perfect condition,
hardly any of the spines
being broken; they dis-
closed the interesting fact
that all the oral primary
spines are provided with
a curious hoof, recalling
that of the Echinothurids.
The spines all curve down-
wards, those provided with

Vidensk. Medd. fra Dansk naturh.ØForen. Bd. 76.

65

==
==

(J. Lieberkind del.).

!/a nat. size.

Dermatodiadema indicum Dåderlein, ca.

LD)

Fig.

66

the hoof reaching the ground, and also the very long aboral pri-
mary spines reach, or almost reach, the ground with the point, as
seen in figure 2. This is really one of the finest Echinoids in
existence. It was due to the fortunate circumstance that the trawl
had been only a very short time on the bottom, and the contents
thus very small, that these two specimens came up in such excel-
lent condition. The spines, especially those of the oral side, are
so thin and fragile that they break exceedingly easily. In spite of
a very careful preservation thev also suffered somewhat through
the transport, the figure being, therefore, partly a reconstruction.
But one of the specimens is still suffciently well preserved for
proving the correctness of the figure. The upward direction of the
spines, as hitherto known from preserved specimens, is accordingly
unnatural and due to preservation. That also the other, related
species with such long, curved aboral spines will prove to have
the oral spines provided with a hoof and to walk on them in the
same way as does the present species, may well be suggested.

AÅA very interesting find was also that of about a dozen specimens
of Opechinus spectabilis, hitherto known only through the single
specimen dredged by the "Challenger” at the station S. of Taam
(mentioned by Agassiz in his Report on the "Challenger” Echi-
noidea under the wrong name of Temnopleurus Hardwickii). It was
taken at St. 46, very close by the place of the said "Challenger”
station. This dredging also yielded several very young specimens
of Metacrinus. On the other hand, I was disappointed in not getting
any specimens of Moiropsis claudicans, a very interesting Spatangoid,
known from this place alone (fChallenger” St. 192); the no less
interesting Catopygus recens appears to be represented in the material
from here by a very young specimen. Upon the whole, the Cassi-
duloids, otherwise so sparely represented in recent times, are ex-
ceptionally well represented in this region. A large fine Echino-
lampas was fairly common in deeper water, Echinobrissus epigonus
in shallower water (though generally only found as dead tests);
also a fine new type of Cassidulids was found, and a closer exam-
ination of the material collected will probably reveal still other forms.

Dredgings in shallower water likewise gave excellent results.
Especially off Elat (St. 24), in a depth of 100 Meters, an exceed-
ingly rich fauna was found, numerous Gorgonids and Comatulids

67

(a. 0. Eudiocrinus) being the more prominent forms. In the vicinity
here, as also in various places at Little Kei, a very large, folded
Orbitolites, up to 4—5 cm in diameter, was very numerous and
formed a very conspicuous part of the material in the dredge.
Another very rich dredging ground was found close by Toeal, the
main town of the islands. The large, conspicuously coloured Cu-
cumaria tricolor, large, nearly white Asthenosoma's, Astropyga radiata
and various Comatulids formed here the main part of the contents
of the trawl, while numerous small and inconspicuous forms (e. g.
Fibularia, Pleurechinus), attractive to the specialist only, were to be
found in the sifted bottom material.

Merton!) describes the beautiful fcoral gardens” in the vicinity
of Toeal, consisting mainly of a great variety of Alcyonarians. I shall
not enter here on a description of this truly fascinating animal com-
munity,. but would rather call attention to another locality, viz. Vatek,
opposite Toeal. The steep rock wall here, which goes perpendicu-
larly down some 5—10 Meters, extends for about a kilometer or
more along a very narrow sound, in which the flow of the tide
produces a strong current, which sweeps along the rock wall, thus
affording unusually favourable conditions for numerous animal forms.
The wall is covered from between high and low water mark at least as
far down as the eye can penetrate by means of a water glass by
a luxuriant growth of Hydroids, Gorgonians, Antipatharians, Sponges,
Mollusks, Synascidians, Bryozoans, among which abound Comatulids,
Synaptids, Annelids, Euryalids — in fact, this is one of the richest
localities I ever met with. Especially the Hydroids (mainly Agla-
ophenia cupressina) are luxuriantly developed, hanging in long, dense,
graceful tufts from the rock, recalling tufts of grass, or rather ferns,
overhanging rock precipices. These Hydroids, upon the whole, form
a very prominent feature in the shallow water fauna, and are espec-
ially found attached to the large, leathery tubes of Eunicid worms,
which rise some decimeters above the bottom, but go sø deep down
in the bottom that the divers never succeeded in getting any of
them up complete. Another feature very characteristic of the shal-
lower waters at the Kei Islands is the astonishing richness in Syn-

1) Hugo Merton. Forschungsreise in den Sudåstlichen Molukken (Aru-
und Kei-Inseln. Abh. Senckenb. Naturf. Gesellsch. Bd. 33. 1910.

+
a

68

ascidians; nowhere in the world have I seen anything comparable.
Monascidians were much less richly developed.

In shallow water Culcita and Oreaster occur in great quantities,
especially the latter, from about low water mark down to some
10-—20 Meters, so far down as can be seen through the very clear
water by means of a water glass. About low water mark also various
Holothurians, Archaster typicus and Echinaster luzonicus are fairly
numerous, the latter very commonly infested with a beautifully
coloured, red and white mottled Coeloplana (n. sp.), which lives
epizoic on the starfish and, evidently, multiplies mainly through
autotomy.

Coral reefs are especially richly developed around the Island
Doe Roa and the other islands to the North (the islands to the
South I have had no opportunity of examining). The curious fact
that the lowest tide always occurred during the night while I was
staying at the islands accounts for the fact that I have paid only
little attention to the fauna of the reefs. I may only mention the
occurrence in some places of numerous specimens of Acanthaster,
Linckia, Echinometra and Echinostrephus. On the flats inside the
reef, Tripneustes gratilla was common at the south side of Doe
Roa. AÅ curious fact was the relative scarcity of Diadema and
Echinothrix.. On the sandy flats inside the reef, lying dry at low
tide, Laganum Bonani and Edwardsia's were found in great numbers
in certain places, and, of course, the usual crabs, Mycteris and Gela-
simus, Characteristic of such localities. Å peculiar feature here was
the scarcity of animals occurring below old coral blocks and stones
lying on the sand. This is evidently due to the fact that the white
coral sand is so exceedingly fine, like mud, filling out any hollow
or crevice and leaving no free space for the animals. This explains
the relative scarcity of Ophiurids, which otherwise abound under
stones and coralblocks in the low water region in tropical seas.
In some piaces this fine white sand was inhabited by innumerable
quantities of an Edwardsia sitting vertically in the sand with its ten-
tacle crown just above the surface, looking like small flowers — in
fact it reminded me of such places in the sand dunes along our own
coasts, as are occupied by the moss Polytrichum, which likewise just
has its head peeping above the sand.

An exceedingly beautiful sight it was to see the natives wandering

69

.on the reefs at low tide during night, seeking by torch light for
all sorts of edible animals, the light being reflected by the calm
water.

I may still mention an observation made in the vicinity of the
Tajando Islands on some calm days in May 1922, viz. of extensive
patches of Chlorophyceæ (two different forms, probably belonging
to the genera Enteromorpha and Cladophora) covering the surface
of the sea. I have no idea from where these algæ came; they
all appeared to be thriving well, being beautifully green. I could
not help being reminded thereby of the floating Sargasso, and I
really would suggest it to be a corresponding phenomenon, only,
of course, on a very much smaller scale. No animals were found
to inhabit these floating masses, which might indicate that they
had not been floating here for a longer period. On such calm
days another interesting .observation was made repeatedly, viz. that
the water looked almost dirty, numbers of dirty-brownish, woollike
masses floating everywhere, at the surface and so deep down as
the eye could penetrate. On a microscopical examination of these
masses they were found to consist of long threads of diatoms (espec-
ially Skeletonena, so far as I remember). This observation has an
impørtant bearing on the question of the plankton-production in
tropical seas, bearing witness of an exceedingly fast growth of the
Diatoms; such Diatom masses were always observed after the sur-
face had been lying calm only for some hours, and the chains
evidently had been formed during that short interval; the movement
of the waves break the chains very easily, which accounts for the
fact that they are only observed during calm' weather. I have no
more exact observations régarding this phenomenon, becoming too
late conscious of its importance. It would certainly be worth while
to make more exact observations of this phenomenon.

If we will now ask, how far the results of the investigations
carried out in this region give a definite answer to the question
whether the Kei Islands would represefit a suitable place for the
planned tropical marine laboratory, i cannot hesitate in stating that,
in my opinion, this would be an ideal place for such a station, at
least as far as the biological conditions are concerned.

First of all, it has been definitely proved that a rich and varied
fauna of genuine abyssal forms occurs over the whole of the large

70

plateau of 2—-400 Meters depth, which occupies the area between
Little Kei and the Tajando group, and the Strait between Great
and Little Kei — this peculiar condition being evidently due, as
pointed out by Prof. Max Weber!) to the currents running
here over the edge between the Banda and Arafura Sea, on which
the Tajando and the Kei Islands are situated. This occurrence of
the abyssal fauna in so relatively shallow water represents a unique
advantage to the study of the biology of the deep sea animals. It
is evident that the deep sea animals do not suffer so much on
being brought up from such small depths, as when coming up from
ilie much larger depths, ca. 1000—2000 Meters or more, in which they
usually live. It would appear that (due exception being made espec-
ially to the Aphysostomous fishes) they are not very sensitive to the
difference in pressure, the difference in temperature being much
more serious to them. But here, in the said depths, the bottom
temperature is (according to the researches of the "Siboga”) rel-
atively high 10—15" C., and accordingly they suffer much less
than when coming from a considerably lower bottom temperature
to the high temperature of the surface waters. In fact, I found
that several of the deep sea animals would stand even the surface
temperature for quite a while. Of course, at a laboratory for deep
sea studies there must be facilities for having a constant supply
of water cooled down to the bottom temperature, on board the ship
as well as in the laboratory itself, in order that the animals may
at once be transferred to water holding their accustomed tempera-
ture. But the difficulties in keeping water cooled down to a tem-
perature of 15? or somewhat less are quite considerably smaller
than when a lower temperature has to be kept.

From the place, which I would think the most suitable for the
laboratory here, viz. the Island of Doe Roa (or, rather, the small
island situated close to its south coast (see Pl. I), there is only a
distance of some 6—8 miles to places where the abyssal fauna
may be found, both to the East and the West of the islands. This
means that, with a suitable vessel, there will be only ca. one hour's
sailing from the laboratory to the dredging ground. Dredging in
such relatively shallow water as ca. 300 Meter, need not take a

1) Max Weber. "Siboga” Expeditié. I. Introduction et Description de
P”Expedition. p. 118.

kl

very long time, ca. one hour being generally ample time for making
ma good haul. Accordingly it should be possible in the course of
some 3—4 hours to bring the living specimens of abyssal animals
home to the laboratory, where they may then be studied under
favourable conditions. I do not think that any place in the world,
excepting, perhaps, the Sagami Sea at Japan, can offer such facilities
to the biological study of the deep-sea animals.

To this may be added many other advantages. The shallow
water fauna is exceedingly rich and varied; there are fine and
extensive coral reefs and a very interesting littoral fauna. Then
the quality of the water is excellent, as might be expected in a
place like this, where the land consists of raised coral formation,
and where currents sweep along the shores. It is true, I have made
only a single experiment in raising a culture of Echinoderm larvæ,
as I could not afford the time necessary for such work. But this
single experiment was so decidedly a success — in marked contra-
distinction to the numerous unsuccessful attempis at Ambon — that
I cannot have the slightest doubt that here conditions would be
quite ideal for such experimental work.

The climate and health conditions are good. There is regular
communication (for the present twice a month) with Java, by means of
excellent, comfortable mailboats. A radio station is planned. Further
there is excellent communication with the adjacent Islands, the Aru-
and Tenimber Islands, New Guinea, as also with Banda, Amboina and
Ceram. This implies that a laboratory at the Kei Islands might,
as far as the terrestrial flora and fauna is concerned, become a
central Institution for the scientific investigation of the whole of the
southern part of the Moluccan region. Also as regards the marine
investigations it is, of course, not the intention that they should be
confined to the nearest neighbourhood of Doe Roa. I have pointed
out the special advantage of having a rich supply of genuine deep-sea
forms, very easily accessible, so close to this place, this fact im-
plying a. 0. that for a beginning a smaller ship would suffice, which
means again that the expenses need not be very great. But, of
course, gradually the investigations might be extended to the adja-
cent areas e. g. the deep basin between Great Kei and the Åru
Islands, the Arafura Sea and the greater depths of the Banda Sea,
all these parts offering no end of the most fascinating problems of
research.

72

I have given my arguments for the fitness of the Kei Islands,
as a place for a laboratory such as the one planned, at some length,
in the hope that, in case — as is, unfortunally, most likely — it
proves impossible to have the plan realized under the present ab-
normal financial circumstances, it may be realized some day in
the future, when circumstances will be normal again. That it
would be of the greatest benefit to science I feel ardently convinced.

III. Banda.

Researches on the marine fauna of Banda were previously made
by the "Challenger” and the "Siboga”, each of these great Expe-
ditions spending a few days here. The "Challenger”, during a
four days” visit (29/1X-—2/X 1874) made dredgings in a depth of 17
fathoms between the islands, but otherwise mainly made collections
(especially of corals and Comatulids) on the reef. (Also a dredg-
ing was made outside the East end of Lontor (Station 194 and
194 a), in 200—360 fathoms, but with no striking results). The
«Siboga” dredged between Neira and Lontor in 9—45 Meters depth
(Station 240) and found there a rich fauna, mainly of Molluscs;
but especially the reefs are stated to be very rich. The late director
of the Department of Marine Biology of the Carnegie Institution,
". Washington, Dr. A. G. Mayor, having also called my attention to
the Banda Islands, and especially to their rich coral reefs, it was
naturally with no small expectations that I arrived at Banda with
the view of undertaking researches there for about a month's time.
From Professor Max Weber I had an introduction to Mr. Sech
Said Baådilla, in the little town of Banda, a rich and prominent
Arab with a touch of scientific ambition, possessing a small mu-
seum which is open to tourist visitors. Mr. Baådilla, who offered
assistance already to the "Siboga” Expedition, received us very
kindly and left us one of his pearling schooners with diving appa-
ratus and a trained crew on very profitable terms. I wish here to
express my very sincere thanks to Mr. Baådilla for his most
valuable and kind assistance.

The researches at Banda were confined to the shallower waters
between the islands Neira, Lontor (or Lonthoir) and (Goenoeng
Api, as I had sent back directly from the Kei Islands my big winch
with the long wire (1200 Meters), keeping with me for the re-

73

searches at Banda and Java only a smaller winch with 300 Meters
of wire. But even if the "Amboina” with its whole outfit had
been at disposal here, it would hardly have been possible to work
to any extent outside these islands, partly on account of the rapid
increase of the depth here, partly on account of the weather being
now (June) rather rough.

It has been pointed out that the whole of the Banda group is
really only one huge volcano, the islands representing the remnants

n Channel

eN Cela
' N Burung

366
volc.m

BatuSajer

Fig. 3. Banda, the inner group of Islands. Depths in fathoms.

of three different crater walls, viz. an inner one formed by Lontor, Pi-
sang and Kapal, a second indicated by Roen and Rozengain and a third,
outer one by the islands Ay, Sowangi and the submerse Rosengain
riff"), a striking parallel to the Tengger mountains on East Java
(with the celebrated Bromo volcano). To anybody who has seen
both Banda and the Tengger mountains the parallel must appear
evident. Moreover, I can adduce a fact, hitherto unobserved, which

1) The fig. 3 represents only the inner group of islands; as for the outer
ones, mentioned above, I may refer to the map in G. F. Tydeman's
£Hydrographic Results of the Siboga Expedition”. Siboga Expeditié III.
1903. Pl. XIII. p. 43.

74

strenghtens the theory of the Banda group representing a parallel
to the said mountains.

One of the special features of the Bromo is the celebrated
«sand-sea'”, an immense flat of black, smooth sand, occupying the
space between the active Bromo crater and the outer crater wall.
The same thing is found in the Banda group, the seabottom
between Lontor, Neira and Goenoeng Api forming a quite
similar flat of fine black sand, the difference being only that here
in Banda the depth is in two places considerably deeper, viz. off
a small place named Kombir, on the East end of Lontor, and be-
tveen Neira and Goenoeng Api, forming here two deep holes of
ca 100FMeterste (Fig æ33)

This black sand bottom, consisting of volcanic ash, appears to
be rather unfavourable to animal life. This is apparently not in
accordance with the results of the researches undertaken by the
Siboga and the Challenger, Prof. Max Weber especially mention-
ing ,V”abondance des animaux marins qui y vivent" (Introduction,
p. 107). The contradiction is, however, only apparent. I have in some
dredgings found a really abundant animal life,,thus once off Kombir
(Lontor) in ca. 75—90 Meters numerous small solitary corals and
molluscs; but mostly the result of the dredgings was very poor. Some-
times, when the dredge came up after having been dragged over
the bottom for half an hour or more, it was found to contain al-
most nothing — a small Gorgonian or a small sponge. Thus f. i.
in the deep basin — 100—120 M. — between Neira and Goenoeng
Api; but also in shallower water (20—30 M.) the result of the dred-
gings was generally very poor. Evidently it is only in small patches
that a rich fauna is found. Thus it was impossible to find again
that patch off Kombir, where the haul rich in solitary corals was
made; several other hauls made in very approximately the same
place all gave very poor results. This relative poor result of the
dredgings lead to gradually giving up dredging and employing the
diver alone. He, having the freedom of moving about over a con-
siderable area and collecting what he chooses, has, of course, a great
advantage over the dredge which must keep to the straight line.
The fear that he should be able to find only the larger organisms
soon proved groundless. After hé had learned what sort of animals
we wanted, it was really astonishing what he could bring up also of

To

small organisms. It is, to my knowledge, the first time that a diver
has been used to any considerable extent for scientific collecting.
The result was so successful that it is to be highly recommended
for future work. To point out the advantages in employing a diver
for biological collecting is superfluous — everybody sees it for him-
self. There is no doubt that a future biological station in these regions
must have an expert diver in its staff. Not that a diver will make
dredging superfluous — of course not; but diver and dredging will
supplement each other most excellently and convey a much more
complete knowledge of the bottom fauna than can be obtained through
one of those means alone.

Among the more prominent forms of animal life thus obtained
in the water between the Islands of Neira, Lontor and Goenoeng
Api I may name especially the Asteroids Culcita, Choriaster and
Linckia. The Culcita's, the larger ones up to 20 cm in diameter,
and often gorgeously coloured, disclosed the most interesting fact
of having nearly constantly a large Fierasfer (sometimes two spec-
imens) within their body cavity. Only a single specimen (some
twenty specimens opened) was found to contain no Fierasfer.
Also at Amboina and the Kei Islands this parasite was found in
Culcita, but much less commonly, the conditions at Banda thus
evidently being especially favourable to it. (Also in various mussels,
as well as in Holothurians Fierasfers were observed). This occur-
rence of Fierasfer, in the body cavity of Culcita (first mentioned
by Bleekers, 1854”) is much more remarkable than its occur-
rence in Holothurians or in mussels; while in these latter forms
it has free entrance and exit, it seems rather enigmatic how it
enters the starfish. Its anal opening being, as in other starfishes,
very small so as hardly to allow the fish to enter, even as very
young, the only possible entrance would appear to be through the
mouth of the starfish, and then it must evidently break through
the wall of the oesophagus or the stomach. Direct observations
in an aquarium would probably settle the question very easily.
The possibility, of course, exists that the starfish is able to widen
its anal opening very considerably so as to allow the fish to enter
this way, but also in that case it would have to break through the

1) Bleekers: lets over visschen levende in Zeesterren. Tijdschr. voor
Nederl. Indié. 1854. p. 162.

76

wall of the stomach in order to get into the body cavity. I have
tried to find the hole in the oesophagus or stomach through which
the fish must be supposed to have entered, but the fact that the
wall of the stomach is exceedingly thin and delicate makes it doubtful
whether the holes actually observed were not accidentally caused
by the cutting open of the starfish, which — on account of the
very thick leathery skin — cannot be done in a very gentle way.
The fish must, of course, leave its host for the sake of propagation;
but this is again for future observations. I would only point out
that all the specimens found were apparently nearly or quite full-
grown (ca. 10—15 cm long); only in the single case, where two
specimens were found together in one starfish, one was only about
half as big as the other. Young specimens were never met with.
It may further be pointed out that the facts that the fish is fairly
strongly pigmented, and that its eyes are apparently quite normally
developed, not showing any trace of being more or less rudimentary,
as might be expected from its living in complete darkness, would
seem to indicate that the fish does leave its host at times. A detailed
study of all the questions connected with this most interesting case
of parasitism — it could hardly be termed symbiosis — could not
fail to be of more than ordinary interest.

Besides the thick and clumsy, light pink-coloured Choriaster's, and
the huge, grayish-yellow Linckia's (L. Guildingii Gray), with the thick,
stiff arms up to 28 cm long, also Echinaster luzonicus was fairly com-
mon, generally carrying the same sort of Coeloplana as was found so
very commonly at the Kei-Islands. Very large Holothurians were
brought up in considerable numbers, among which one named "Tre-
pang koeda” (horse-cucumber) was almost meterlong; the fTrepang
soesoe” (Miilleria maculata Brandt, according to literature; I have
not myself verified the identification), estimated as the most delicious
of the eatable sorts, was found to cover itself with small pieces of
algæ; nearly constantly a small crab, evidently commensal, was found
among its tentacles (probably Lissocarcinus orbicularis Dana, known to
live in this way in various Holothurians of the Indian Ocean). Coma-
tulids were numerous, as already found by the "Challenger”, while
Ophiurids and Echinoids were very rarely found by the diver and
evidently very scarce.

Among the Gorgonians mention should be made especially of a

Te

small, creeping form (Acanthogorgia sp.) which grows in extensive,
low,inextricable bushes, very much recalling the heather. It must cover
the bottom in large patches, and affords, of course, a fine sheltering
place for a vast number of small organisms, especially Crustaceans
and worms, while numerous Bryozoans, Sponges, Tunicates a. o.
attach themselves to the older, dead branches. This very interesting
Gorgonian I have not met with anywhere else. Several other large,
fine Gorgonians were brought up by the diver a. 0. a very large
Melitodes, and also very large and fine specimens of Antipatharians.
On the other hand, no specimens were met with of the "Acabahal”
(Plexaura) which plays a rather important part in these regions, its
black axis being used for making armrings which are believed to
help against rheumatism and are worn very commonly, not only
by the natives but also by many of the white inhabitants

The interesting Paralcyonium found at Banda by the f"Siboga”
was also brought up by the diver, and likewise some fine specimens
of a Cerianthus, whose leathery tube was found to be inhabited by
a large, black Phoronis, just as is the case with the Cerianthus oc-
curring at Misaki. The "Challenger” Report especially mentions
the great numbers of Fungia occurring on the coral reef at Banda.
We found them likewise very numerous in places on the reef, as
also the diver brought up many specimens from deeper water,
among which an extraordinary specimen of a Halomitra (philippi-
nensis Studer?) measuring no less than 56 cm in diameter, looking
like an exquisite model of the mountain Goenoeng Api. Very remark-
able was the greai percentage of specimens showing signs of re-
generation; an extensive material of such regenerating specimens
was collected bv Dr. Boschma for special study.

As regards the coral reef at Banda I was struck by the feature
that it was rather more uniform than at Ambon and at the Kei
Islands, especially the Turbinaria's were much more richly repre-
sented here than I have seen elsewhere.

In a small bay at the outside of Goenoeng Api a very interesting
animal community was met with. Looking through the waterglass
I observed in a depth of 10—12 M. the bottom to be closely set
with meterlong red, thin, gently waving organisms, which I thought
to be a sort of Virgularia or related form. I pointed them out to
the diver asking him to take up some specimens for me. It proved,

78

however, quite impossible. As soon as he reached the bottom they
disappeared round him, and as he walked on they disappeared in
the ground before him. He tried to dig them up from the fine,
loose, black sand, but this also proved impossible, although he dug
as deep in the sand as his arm's length. He tried a second time
digging with a spade, which he carried down with him, but likewise
without success. Enough was, however, seen to show that these
organisms were not Pennatulids, but gigantic Polychæte worms,
sitting in the sand in a similar way as Tubifex in fresh water pools,
the posterior end (at least I think it must be the posterior end) of
tne body waving free in the water above the bottom. They were
observed to sit not so very close, probably not more than some
20 in a square Meter; they covered an area of several hundreds
square Meters, probably much more, being, evidently, found also
farther out in deeper water, where they could not be observed on the
dark bottom by means of the water glass. This interesting animal
community I have not met with anywhere else.

The iron columns of the pier at the town were, no less than
at Amboina, a favourite ground for all sorts of Gorgonians, Sponges,
Hydroids etc., with all sorts of gorgeously coloured fishes swarming
around them. The bottom between the tide limits was black with
Diadema's, which collected on the lower part of the stony wall inside
the pier in some places in such masses, that the long thin, hori-
zontally protruding black spines appeared like a giant brush. Where
— as is a common practice — the inhabitants have their "W. C.'s
over the water, the Diadema's always were seen to collect in dense
masses, finding here a favourite feeding ground with a rich food
supply. I was very surprised in finding here also large, gorgeously
coloured Asthenosoma's in so shallow water as even to lie on dry
ground at low tide. Apparently they also visited the same feeding
ground as the Diadema's. At another place Prionocidaris baculosa
was found in numbers among stones lying dry at low water.

The extensive sandy flats along the S. and E. coast of Neira
and at the inner side of Lontor offered collecting grounds of con-
siderable interest. Besides the, as food much valued, Tripneustes
gratilla we collected here Peronella Lesueuri and a pair of small
forms of Laganum, as also some Brissus. While in day time these
animals lie covered with sand and are not easily detected, at

79

night they crawl about on the surface of the bottom — as I have
also observed in other places (e. g. Hawaii). The diver, who proved
to be also an expert collector here on the flats, maintained that
the Brissus would come out only when quite dark; even the moon
light it did not like!

These flats otherwise are conspicuous through being covered to
a great extent by small hills looking very much like mole casts;
by low water they look very picturesque, small ponds of clear water
remaining between them, in which they are reflected. That these
hills are due to the action of some sort of animal is evident —
but which sort, I have not been able to make quite sure. The idea
that they might be due to Enteropneusts, which I have in other
places seen to produce something the like, though on a smaller
scale, had at once to be discarded. Digging in the mounds and
following the holes did not result in finding the originator with
certainty. Not rarely a large Sipunculid, footlong, red, somewhat
thicker than a finger, was found therein, and the diver insisted on
the mounds being made by this animal. I am, however, more in-
clined to think that they are formed by a Thalassina, which Decapod
is well known to make huge mounds, where it lives; a single
specimen of this form was found here, it being thus certain that
it does occur here. The big Sgquilla's, which also occur here, living
in holes in the ground, do not make mounds over their holes.

A very curious feature was observed on these mounds, viz.
a more or less radiate arrangement of the particles on the top.
That this is due to the action of the waves is beyond doubt; they
form on the freshly thrown out material wave-lines, sorting the
material according to weight, the lighter grains of white coral coming
then to lie between the elevated lines of the heavier, black volcanic
sand particles; a closer inspection shows that the wave-lines are at
a right angle to the dominating direction of the wind, as should be
expected. Similar Thalassina(?)-casts, were also observed in great num-
bers on the sandy flat at the S. coast of Doe Roa, at the Kei Islands.

The flat at Lontor is in its inner part strewn with huge, black
volcanic bombs, the ground between these larger stones being, as
it were, paved with small, smooth, black stones. This part — an
area of several hectares — which is covered by tne water only at the
highest tide, is the home of a small crab of the Gelasimus-group;

80

it digs its holes between and under the stones, the small (here)
white sand balls dug up by it lying spread all over, very conspicuous
among the black stones. Farther out, where the volcanic stones
are much less numerous, and where a few centimeters of water
may remain, covering the sand at low tide, the community of the
Edwardsia's occurs, as at Saparoea and the Kei Islands, but here
also were observed, in places, groups of fine Sabellids, their red
tentacle crowns looking like beautiful flowers.

The Thalassia-meadows occupying the outer part of the flat were,
as usual, inhabited by a very rich and varied fauna — Holothurians,
Asterids, Molluscs (a. o. a small green Akera-like form, in colour
so closely resembling the Thalassia leaves, that it was very hard
to discover); but a feature which I have not observed in other
places was' the considerable number of mostly small specimens of
Echinothrix calamaris (also some Salmacis) lying free among the
leaves; otherwise these sea-urchins are, at daytime, mostly found
under stones, where they hide themselves, together with the young
Diadema's. The Tripneustes, which is more generally found moving
free about also at daytime, covers itself with small stones, pieces
of Thalassia leaves, algæ etc. and thus procures a concealment
(perhaps also from the light). The number of small fishes oceurring
in these Thalassia-meadows — mainly in the deeper part, where
the leaves still float free also at low tide — is astonishingly great.
A haul with a seine, for which I engaged the native fishermen,
brought an overwhelming mass of mainly small forms or young
fish — Teuthis, Zanclus, Mullus, Hemiramphus, Aulostoma etc. —
a true orgy of colours! Using a seine in such a locality, where not
only the dense Thalassia-growth, but also stones and coral blocks
will catch the net, presents considerable difficulties, of course; they
are, however, easily overcome, the fishermen simply diving down
and lifting the net over the; hindrance, where it may have caught
hold, all the while they are shouting and pulsing in the water with
sticks in order to frighten the fishes away from the place, where
the net is to be lifted. The same way of using a seine I have
also observed in the West Indies.

Most noteworthy among all the fishes of Banda is undoubtedly
the "laweri”, the famous fish with the large luminous organ situated
under the eyes, several specimens of which (the flaweri batoe”,

81

— Photoblepharon palpebratus) were brought me by the fishermen; the
sight of some freshly caught specimens, kept in a dish with water
in a dark room, is truly impressing; the light they emit is almost
strong enough for reading, and when they blink, covering the luminous
organ through raising the flid” situated below the organ, I could
not help being reminded of corn-lightning. The blinking does not
occur at regular intervals, and, upon the whole, relatively rarely.
That the fishermen cut out the luminous organ and use it for bait
is a well known fact. The conclusion reached by the American
specialist in Bio-luminescence, O. N. Harvey, who had been stay-
ing at Banda a short time before our visit there (1920) in order
to study especially the luminescence of the laweri, that it is due
to luminous bacteria living in symbiosis with the fish, does not
make this rather unique case of luminescence less interesting. I
have seen only the Photoblepharon, no specimens of the other
<laweri”, Anomalops katoptron, being caught during my stay at
Banda.

In spite of the many interesting faunistic and biological obser-
vations made here, it does not seem to me that Banda would be
a very good place for a biological laboratory as the one planned.
Certainly Banda does not equal Amboina or, especially, the Kei
Islands, as regards the richness of the fauna as well as in other
sespecisilklherettisverysteasytaccesst tolthe greater depthsy lok
course, the little group of islands rising directly from depths of
about 4000 Meters. But this does not imply anything like so easy
an access to the abyssal fauna as is found at the Kei Islands. And
there are several serious objections to be made against choosing
Banda for the place of the future station. Thus e. g. the water
appears, according to experiments which I undertook, unfavourable
to experimental work — much as I expected from the volcanic con-
dition of the place. But it seems to me superfluous to give the
reasons against choosing Banda as the place for a future laboratory
more in detail, the advantages of the Kei Islands in this respect
being so evident that hardly anybody could be in doubt as to which
placeRtoleiveltherpreference?

On the return voyage to Java the — usual — four days” stay
in Macasser, due to the time table of the mail boats, was made

Vidensk. Medd. fra Dansk naturh. Foren. Bd. 76. 6

82

use of for doing some dredgings in the neighbourhood of the har-
bour, mainly near the little Island of Samalona, the director of
the harbour works, ingeneer H, V. van der Voort, most kindly
placing at our disposal a small steam launch, excellently suited for
dredging work in more shallow water. I beg here to express my
sincerest thanks to this gentleman for this courtesy, as also to Mr.
P. Rasmussen of the Macasser Produce Co., Ltd., for all kindness
shown to the Expedition on our way out and back.

These few days' work was, of course, not sufficient for giving
more than an impression of the biological conditions of the bottom
in this sea, the impression being not very favourable. The bottom
nearly everywhere consisted of a very soft mud, in which only a
comparatively scanty fauna was found. Only on the edge towards
the riff on Samalona and on the small bank Taka Bako a more
varied fauna was found, some fine Salmacis virgulata being the most
noteworthy find.

The sandy shore of Samalona proved a locality of considerable
biological interest. Numbers of Amphipods, apparently very closely
related to the Talitrus and Orchestia's of our own sandy shores,
were found here at the upper limit reached by the waves, living
in much the same way as these latter, the sand being in places
completely covered with the small heaps of loose sand, thrown up
by the Amphipods when burying themselves in the sand. The sandy
beach otherwise was the home of great numbers of sea-cockroaches
(Hippa), so swiftly moving and again burying themselves, when
thrown out of the sand, that they were hard enough to see, being
also exactly of the colour of the sand; further the white mussel Car-
dium (donaciforme ?), so very common in the sand on these shores,
was found here (but not Donax), and also a fairly large Chirodota,
rather unusually resistent, so that one could haul it out of the sand
without tearing it to pieces. The shore here being at times evidently
exposed to a rather heavy surf (the surrounding coral reef is too
small for giving much protection), this quality of the Chirodola,
living in the loose sand, is in good accordance with the character
of its habitat.

83

IVÆrnetfavar Sea; Strait Sunda:

On my return to Batavia in the beginning of July, I had the
opportunity of spending a fortnight at the newly established marine
Laboratory there. I beg to tender here my most cordial thanks to
the director of the laboratory, Dr. A. L. J. Sunier, for his unsur-
passed hospitality and his untiring efforts for facilitating my work,
the main object of which was to extend my studies on the larval
development of Echinoderms. OQOwing to various circumstances (a. 0.
the destruction of a diatom culture, which I had brought along with
me from home, and the impossibility of starting new cultures, be-
cause the chemical solutions which I had also brought along with
me to this end, proved to be impure and therefore killed the or-
ganisms instead of stimulating their growth) my efforts were not
crowned with quite satisfactory results. The larvæ of Diadema
setosum and Linckia miliaris were reared, but the former not beyond
the first stage, and the latter not so far that it could be ascertained
whether this larva — which is of the usual Bipinnaria-form — passes
through a Brachiolaria-stage. That the larva of Diadema setosum
proved to be closely similar to that of Diadema antillarum is only
what was to be expected. Another Echinoid, Echinothrix Desori,
which lives in numbers on the riff at the little Island Edam out-
side Batavia, was found to have no ripe sexual products by this
time of the year.

From the 26th of July to the 8th of August I had the privilege
of partaking in a trip to the Java Sea, West of the Thousand Islands,
and in the Sunda Strait with the G. S. "Brak”, undertaken with
the object of carrying out investigations for the Batavia Laboratory.
In the time left from this research work I was allowed to make
dredgings and thus had a most welcome opportunity of studying
the bottom fauna in this area and of making comprehensive col-
lections, which was the more desirable, as very little work of this
kind has been done, since Professor C. Ph. Sluiter made his
important investigations about half a century ago; upon the whole,
so extensive investigations have never been undertaken here. Slui-
ter's work was, as far as the dredgings are concerned, mainly
confined to the Bay of Batavia and — according to kind information
in a letter — to the part of the Sunda Strait between the town of

Anjer and the Island "Dwars in den weg” (about the area indicated
6=

84

by Stations 73 and 74 in the accompanying map, Pl. III). More
recently, 1907—09, Professor P. N. van Kampen has made
fisheries investigations over an extensive area of the Java Sea, and
also in the tract West of the Thousand Islands, during which also
zoological observations and collections were made. Only a very
small part of this material has, however, been scientifically worked
out, while the general record of these investigations deals solely
with the results applying to the fisheries.”!) The work of J. Brock
(1885) was confined to collecting on the riffs of the islands Edam
and Noordwachter (and Amboina), that of A. Korotneff (1885)
to-shore- and riff-collecting in the Strait Sunda and the Batavia Bay
(his dredgings at Billiton not directly concerning us here, as being
outside the area in question). Thus the investigations now under-
taken, especially those in the Sunda Strait, for no small part cover
entirely virgin ground and accordingly may claim some interest.

Regarding the Bay of Batavia I have nothing to add to the
description given by Sluiter in 1887,”) having only made a few
dredgings there, while Sluiter worked there through several years.
My researches which were in the main confined to the West of the
Thousand Islands, gave in general the result, that the fauna is per-
haps somewhat less rich than might be expected in such a tropical
sea. Near the coast of Java the bottom was found to be very soft
mud, inhabited by the usual mud-loving forms, among which the two
small Spatangoids, Palæostoma mirabile, and a small (undescribed)
Pericosmus, which were in places fairly common, were the more
interesting. Foremost in biological interest, however, stands a
foot-long, red fish, which lives entirely buried in the mud, like
earthworms in the soil, and which is, in accordance with this mode
of life, entirely blind, the eyes being rudimentary and covered by

1) Verslag van de verrichtingen van het Onderzoekingsvaartuig ,,Gier"
gedurende het tijdvak 2 September 1907 tot U 2 1908. Mededeelingen van
het Visscherij-Station te Batavia. Nr. IV, 1909. Verslag der verrichtingen
VANGEDE NE »Gierf over het jaar 1909. Ibidem. Nr. V. 1910.

2) C. Ph. Sluiter. Die Evertebraten aus der Sammlung des kgl. natur-
wiss. Vereins in Nederl. Indien in Batavia. Zugleich eine Skizze der
Fauna des Java Meeres. Natuurkundig Tijdschr. voor Nederl. Indié.
XLVII. 1887.

85

…a thick skin so that hardly any trace of the eye is to be seen on
the cutside. It is a species of the genus Gobioides.

Where the bottom is hard, stony, it is generally covered with
huge sponges, which fill the dredge and thus make work on this
kind of bottom rather difficult. The dredge very soon fills com-
pletely with the sponges and thus, although even dragged for a
longer time over the bottom, does not work any more; accord-
ingly it gives a relatively poor result of the dredging and conveys
a — probably — false impression of the bottom fauna being rela-
tively poor. Eminently characteristic of the sandy (or sandy-muddy)
bottom is an elegant Hydroid of the family Aglaopheniidæ (Lyto-
carpus) its slender, often Meter-long stem, with the alternating
feathershaped sidebranches carrying the polyps, being fixed in the
bottom by means of a large tuft of fine rootlets. Often Comatulids
and Ophiurids are attached to these Hydroids and sometimes they
were found full of Caprella's, while Bryozoans are attached to the
basal tuft, and numbers of worms live among the rootlets. Upon
the whole, these Hydroids are an ecological factor of importance.

In the Sunda Strait the trawl several times came up completely
filled with pumice stones from the Krakatau eruption in 1883.
It was very interesting to notice that hardly any animal forms
were found attached to these pebbles”) — probably because they
are so light as to be rolling about by the slighest movement of the
water from the current or the waves. Otherwise the bottom was
muddy in nearly all the places where dredgings were made. I was
very struck with the different character of the fauna in various
places, in spite of the uniform character of the bottom. In some
places the bottom must bé almost covered by the elegant Retepora-
like Bryozoan, Retiflustra Schønaui Levinsen, together with which
were found numbers of another characteristic Bryozoan, a Stirparia

1) Prof. Sluiter found in a pumice stone from off Krakatau in 9 fathoms
a specimen of a Bonellia, which he described as Bonellia pumicea (C.
Ph. Sluiter. Die Evertebraten a. d. Sammlung d. Kgl. naturw. Vereins
Nederl. Indien. Batavia. Ill. Die Gephyreen, Natuurk. Tijdschr. Nederl.
Indié. L. 1891, p. 111); I have not observed any specimens of this interest-
ing animal in the numerous pumice stones, which were brought up in
various stations here.

86

(undescribed species, according to kind information of Dr. E. Mar-
cus, who has also identified the above named form for me.) It has
a most remarkable superficial resemblance to a Rhizocrinus, and
someone not very familiar with these forms might well mistake
it for this Crinoid.

One of the reasons, why I wished especially to investigate the
fauna of the Sunda Strait, was, indeed, the question whether Rhi-
zocrinus Was to be found here. According to Korotneff') it was
formerly found here in the relatively shallow water of only ca. 30
Meters. It would be very interesting to see, whether it had now
established itself here again, after having — probably — been
exterminated by the ashes and pumice from the Krakatau eruption.
As I did not succeed in finding it there, in spite of the fairly exten-
sive dredgings that were made, it would appear that it has not yet
succeeded in establishing itself here anew — if, indeed, the state-
ment of its occurrence here in former times does not rest on a mis-
take. Since dredgings in this region had by the time of Korot-
neff's visit there been undertaken only by Sluiter, the state-
ment of Korotneff (— ,Jadis, å cet endroit (ville d'Anger) on
trouvait aisément de grands Rhyzocrinus, maintenant, le fond de la
mer est complétement couvert de cendres et de limon et il est
inutile de songer å y faire une capture scientifique" -—) might be
expected to rest on informations, which he had received from
Sluiter. Asking Professor Sluiter about this matter, I was
informed by him that he never found Rhizocrinus there and accord-
ingly never told Korotneff about it. On the contrary, he informs
me that directly after the publication of Korotneff's ,,Compte
rendu" he wrote to him asking him from where he had this in-
formation about Rhizocrinus, but never got an answer to that
question. Thus it seems fairly evident that this statement of the
former occurrence of Rhizocrinus must rest on a mistake. Were it
not for the expression ,grands Rhyzocrinus", I shouid be inclined
to think that the statement rested on the named Bryozoan, Stirparia
having been mistaken for the Crinoid. Anyhow, this statement of
the (former) occurrence of Rhizocrinus here in so shallow water as

1) A. Korotneff. Compte rendu d'un voyage scientifique dans les Indes
néerlandaises. Bull. Acad. R. de Belgique. 3. Sér. XII. 1886.

87

ca. 30 Meters, an occurrence quite unusual for this sort of Crinoid,
ought to disappear from literature.")

The above mentioned community of Retiflustra and Stirparia,
together with several smaller Hydroids a. 0., was mainly found at
Station 81, in the Southern part of Strait Sunda (comp. Pl. III).
In other places (especially Station 95, in Lampong Bay) a small
thin-shelled Laganum was exceedingly numerous, while a few miles
away (Station 97), on apparently quite the same sort of bottom a
curious Mollusec (Calyptræa sp.) was the dominant form. Another
striking example was afforded by the two Stations 82 and 83, at
Prinsen Eiland in the southernmost part of the Sunda Strait. At
both stations solitary corals were plentiful, but they were of diffe-
rent sorts in the two places, although the bottom and other physical
conditions would seem to be quite identical. Upon the whole, I
would take the opportunity of emphasizing that even where the
bottom is very uniform, the various components of the fauna are
by no means always evenly distributed, but rather occur more or
less in herds or aggregations, in some spots in great numbers, in
others very scarce.”)

A visit to the fine coral reef (an almost pure Acropora-reef)
surrounding the small Huisman Island, close to the larger Island
CRESEbESIkresulted mt he interest find (Krst due tor Dr
Boschma) of a number of Plococidaris verticillata, otherwise not
so commonly met with. It lives way down among the old branches
of the Acropora. More interesting was, however, a visit to the Island
of Krakatau itself, the rest of which now stands with nearly vertical

VAJH. Clark, in his paper "Four new species of the Crinoid Genus
Rhizocrinus” (Proc. U.S. Nat. Museum. XXXVI. 1909, p. 674) quotes the
statement of Korotneff and suggests that the species frecorded” by ”
Korotneff is possibly the large Rh. Weberi. As seen from what is
set forth above it is not adequate to state that the Rhizocrinus was re-
corded by Korotneff, which would imply that he had found it there
himself.

AÅ similar statement is made by Semon in his book "Im Australischen
Busch” 1896, p. 505. fEs låsst sich mit einem Wort meiner Ansicht nach
nicht bezweifeln, dass eine Anzahl von Grund bewohnenden niederen See-
tieren, besonders Stachelhåutern, geradezu gesellig lebt”..... It does,
however, not appear that he means to extend this statement also to such
forms as live in deeper water on a quite uniform bottom.

[9]
Szrd

88

walls from the very top (2500 feet) down to the deep basin of ca.
300 Meters, now occupying the place formerly occupied by the
larger part of the island, which was blown up by the eruption in
1883. I shall not enter on that most interesting chapter: the hi-
story of the repopulation of the island by plants and animals after
the total destruction of all life by the eruption, but content myself
with referring to the two most recent important contributions to that
subject, viz: Docters: van Leeuwen'siSThe> Flora sand "Fauna
of the islands of the Krakatau-group in 1919”) and K. W. Dam-
merman "The Fauna of Krakatau, Verlaten Island and Sebesi” >).
As regards the marine fauna I may refer to the most interesting
observations by Sluiter (in 1888—89) on the reappearance of the
reefforming corals at the coast of Krakatau”). Here I may mention
only some observations on the littoral fauna of the island.

The North side of the Island is, as stated above, a vertical rock
wall, with some huge blocks at its foot, over which a heavy surf
constantly washes. Here we find the animal community peculiar
to such localities in the tropics, above all characterized by the
Echinoid Colobocentrotus atratus, which is, with its pavement of thick,
flattened spines on the aboral side and with its innumerable sucking
feet on the oral side, eminently adopted to living in the strongest
surf — indeed it does not occur in places with no heavy and constant
surf. It feeds on the fine algal vegetation occurring on the rocks.
A rather extraordinary fact is the occurrence of a small, white Pla-
narian, which is constantly found under the Colobocentrotus, where
it is safe against being washed away. (This Planarian I have also
observed living under Colobocentrotus on the rocky shores of Hawaii).
Very interesting is also the occurrence of a small fish (Salarias sp.)
in the same locality. The whole of its underside, head and body,
acts as a sucker, and thus it is safe from being washed away by
the surf. I found it exclusively on the vertical surfaces of the
rocks, sitting in great numbers, quite close together, with the tail
curved up along the side of the body, which gave it quite a parti-

1) Annales du Jardin Botanique de Buitenzorg. XXXI.

2) Treubia. III. 1922.

3) C. Ph. Sluiter. Einiges uber die Entstehung der Korallen-Riffe in der
Java-See und Branntweinsbai, und iber neue Korallenbildung bei Kra-
katau. Natuurk. Tijdschr. voor Nederl. Indié. XLIX. 1890.

89

cular appearance. It was easy enough to catch numbers of them with
a hand net; for the approaching net they were springing away,
just as if they were a swarm of insects, to other rocks or down
into the water, where they were then very rapidly swimming or skip-
ping over to some other rock. Upon the whole, this little Blennioid
recalls Periophthalmus in its appearance and habits, a most pro-
nounced parallel biological adaptation within two different families.

In the black volcanic sand forming the beach on the East Coast
of Krakatau I was very pleased in finding numbers of a small Spionid
living in exactly the same way as described by me for Scole-
colepis squamata from the Dutch and Danish sand beaches"). The
worm sits vertically, free in the sand, not in tubes; when the smooth
water glides down over the beach after the retreating waves, it
raises its head above the sand, spreading its two long tentacles in
two curves against the current, evidently with the object of catch-
ing any small organisms that are carried down with the water. On the
black sand they were very distinctly and much more easily seen
than is Scolecolepis squamata on the white sand of cur own
beaches. The two curves of the tentacles remained quite distinct
in the dry sand, after the water had run down. I was the more
pleased to find this interesting worm here, as I had been looking,
for it in many other places, but always in vain. The reason for
its not occurring on beaches of usual coral sand evidently is this
that the sand is not uniform enough for it. Even if it looks very
pure and uniform on the surface, it is very often full of larger or
smaller pieces of coral farther down, and these larger pieces make
the sand unsuitable for the worm. That the other animal forms,
so eminently characteristic of such sandy beaches, were likewise
represented here need scarcely be said. I would only mention
the interesting fact that the Hippa's found here were almost black
as the colour of the sand — though, apparently, not specifically
different from the white Hippa found so commonly on the sandy
shores in these regions.

1) Th. Mortensen. Biologiske Studier over Sandstrandsfauna'en, særlig
ved de danske Kyster. Vid. Medd. Dansk Naturh. Forening, København.
Bd. 74. 1922.

90

It is not my intention to have the zoological material collected
on this Expedition made the object of a special series of publications,
the economical conditions at the present time making it too difficult
to secure the necessary funds for such larger publication. I expect
only to have some special parts of the material worked out, in con-
nection with material collected during my Pacific Expedition in
1914—16. Accordingly, what may be published will appear in
theseries" Papers" from Dr. Th. Mortensen's "Pacific tExpedmonk
1914—16” in this Journal.

In conglusion I give the following list of the dredging stations,
referring t> the two maps, Pl. II—III. The dredgings at Amboina,
Banda and Macasser were not listed as stations. Regarding the
names given under "Remarks” attention must be called to the fact
that these were for the greater part entered into the notebook
directly on capture, thus resting mainly on memory, not on actual
scientific determination.

91

List of the Dredging Stations of the Danish Expedition to the Kei-Islands 1922.
I. The Kei-Islands. (Map PI. II).

|

Instru- |

Date | Position MELD Bottom Kærsr Remarks

SOMMERS S4S- -1320'50”E. 370 Mud Tangles | Salenia, Ophiurids, Brachio-
pods etc.

31/IIT | 59327? - 132027? - | 180—220 Sand == Ophiacantha, Zoroaster a. 0.
Starfishes. Callionymus.

50327 132036? - 245 — Trawl | Metacrinus Comatulids; Mi-
cropyga, Hapalosoma pellu-
cidum; Zoroaster; Aphrocal-

listes a. 0. Sponges; Gor-
gonids, Crustaceans, Annel-
ids, Brachiopods; Flabellum.
| Upon the whole very rich.
3/IV 5037740” --1320267- 2500] = — Came up unclear; in the tangles
| some Cidarids, Hapalosoma,
Ophiurids. Astero:ds.
4[IV | 3931730” - 132038” - | 250—90 == == Came up unclear; in the tangles
| several Echinoderms.
ss El SI 32— 13203630” = 210 — |Dredge | Numerous dead shells; few
| | living specimens.
5/IV |5938730” - 132026” - 196 Sandy mud | Trawl | Several Asteroids and Ophiur-
with small ids, Psolus, Pagurids, Bryozo-
| | stones ans, Hydroids; some fishes.
Eee SR 1320 26?" - 300 Mud — Cidarids; Calveria, Palmipes,
Calliaster a. 0. Asteroids;
Elasipods, Synallactes reti-
| culatus; Crustaceans; Bryo-
zoa, Brachiopods; Actinians;
| Lophius. Upon the whole
| | very rich.
6/IV 15941? - 132024” - 260 = — Molpadia; a few fishes. The
trawl was at the bottom only
for a very short time, on ac-
; count of bad weather.
== M Off Doelah 56 Fine Sand |Dredge! Numerous dead shells, few
living specimens. Echino-
cvamus, Fibularia, small
Linckiids; Annelid tubes;
É Sponges
1 0/IV Off Toeal 20 — Trawl | Asthenosoma, Fibularia, Lo-
| venia, Brissopsis; Comatul-
ids; Veretillum.
25 RER IS YS0OTS 132 0/35”'E 325 Sand, shells, = Only a few minutes on bottom;
corals | caught hold. Sponges; Cri-
| noids; Astroschema, Åræo-
soma, Pleurotoma with Zo-
anthus. Evidently a very
rich place.
Åræosoma coriacea (?7; Micro-
pyga; Echinolampas ; Cidar-
| ids: Ilyodæmon ; Corals.

se 505 2 2205630 | 275 Sand =

355 SEE

92

Date

Position

Depth
(Meters)

Bottom

Instru-
ment

Remarks

18.

19.

20.

2Åe

23.

24.

25),

10/IV

12/1IV

14/IV

15/IV

16/IV

S. of Doe Roa

503220 PE S2O 37

| 503440” - 132935” - |

Doe Roa Strait

Off Toeal

Doe Roe Bassin

SUSOFSEELS 2 UAE

5030740” - 132051? -

SÅGAR S2OSO2OP ES]

SVg7e == 132056? = |

503420” - 132055? -

40

ca. 20—5

50

100

40

20

10:50

340

300

100

Sand

Sand with
Litho-
thamnion

| Sand, shells

Sand, corals

Sand

Hard bottom,
Corals

Sandy mud

Sand

| Hard bottom

Very fine
Sand

| Trawl

Dredge

Trawl

Trawl
Dredge

Numerous Crinoids; Salmacis;
Goniaster; Linckia, Åstro-
pecten. Numerous Pecten's;
Eunicid tubes; Retepora;
numerous Synascidians. —
Very rich.

Lithothamnion's.
Pennatulids,
Gorgonids; Iconaster lon-
gimanus; Ophiurids, Cru-
staceans; Brachiopods.

Gorgonids; Sponges; Ophio='
myxa; Echinobrissus epigo-
nus; a large Neomenia ;?).
Large Orbitolithes.

Sponges; Gorgonids.
dead shells.
Numerous Gorgonids and Anti-

patharians;Crinoids; Pecten;
Rossia (?) etc.

Numerous
Spongodes,

Mainly

Asthenosoma, Astropyga, Sal-
macis; Cucumaria tricolor;
Colochirus; Comatulids.
Very rich. Several other
hauls were made later on
at this place, always with
excellent result. These dred-
gings all got the same number.

Numerous Crinoids, Bryozoans,
Hydroids, Sponges, Synasci-
dians, Crustaceans, Ophiur-
ids. Very rich.

Gorgonids, Hydroids, Sponges.
Luidia. Only a few minutes
at bottom; caught hold.

Aphrocallistes ;
Crustaceans.
short time at the bottom,
on account of the current.

A small yellowish Pteropod in
good numbers; Phronima.
Few Medusæ. Not very rich.

Numerous Comatulids (Eudio-
crinus a. 0.);… Euryalidså
Asthenosoma, Microcyphus;
Brachiopods; Gorgonids.
Very rich.

Some few Echinoids and Co-
rals; Murex; very poor.

Sta-

tion

Date

93

Position

Depth
(Meters)

Bottom

Remarks

26.

21:

28.

29.

30.

31.

32:

33.

34.

35.
36.
37:

38.

39.

40.

16/1IV

17/1IV

18/IV

23/IV

SISSEL S2OSS POPE

2 Miles N. of Elat

SUSTES IS20S4TE,

5038”-132953730”--

Between Doe Roa
and Kei Doelah

Doe Roa Bassin

SUS220SSE I S20SÆ'E:
S0'3105-1320'34? -

503? - 132036” 50” -

Bay N.ofNoehoe-Roa

Doe Roa Strait
N.E. of Doe Roa

N. of Doe Roa

90

60—70

400

430

40

50

260

285

6025

32
35
40

35

60

2D

Sand

Fine Sand

Sand, shells

Sand

Sand, Litho-
thamnion

Sand

Ås the trawl contained numer-

ous Udothea and Florideans,
it must have passed over a
spot of considerably smaller
depth than the 90 M., which
were sounded at the end of
the dredging. Several Crino-
ids (Eudiocrinus); Faorina
chinensis (?); Gorgonids.
Many large Orbitolites (pro-
bably from less than the
90 M.). Sponges; Ophiurids.
Rather rich.

A fine Eurvalid; some fine
Murex; two magnificient
Sabellids in large, calcareous
tubes.

Some large Cidarids; Astro-
toma; Henricia, Ophiomu-
Sium.

Only a little while in bottom;
caught hold. Several fine
Crustaceans ; Molpadia,
Ophiotholia.

Numerous Crinoids; Palmipes,
Iconaster ; Ophiopteron ;
Sponges, Gorginians. Very
rich. ,

Numerous Goniaster's, Crino-
ids, Salmacis, Retepora,
Sponges,Ascidians. Veryrich.

Several Cidarids; Micropyga,
Elasipods; Crustaceans.

Ophiotholia; Brachiopod. Ra-
ther poor.

Only a very short time in bot-
tom; caught hold in Corals.
Gorgonids, Synascidians.

Mainly dead shells.
Young Antipatharians.

Gorgonids, Antipatharians, Hy-
droids; Ophiurids.

Numerous Crinoids; numerous
Salmacis. Ophiurids.

Centrostephanus (2); Linckia,
Psolus; Brachiopod.

Numerous large Sponges; Gor-
gonids; Laganum, Fibularia

Sta-
tion

Date

Position

Depth
(Meters)

Bottom

Instru-
ment

Remarks

41.

46.

47.
48.

Sig

52.

25/IV

26/1 V

3/V

7/V

502874(?”S.,131028'E.|

5035” - 1320 29?

5030? - 132045? -
SUGET SPD PE

5048730” - 132014” -

5047720” - 132013 -

594430” - 132018" -
So4OSKOREÆFIS POP TEE

STM 3223

5034” - 1320257 40” -

5946730” - 132051” -

5046 - 1320497 35” -

245

268

270

300

233

348

352

Mud

Sand, coral

Mud, shells

Sand

Clay, mud

Mud, stones

Sandy mud

Sand

Mud

Trawl

Metacrinus, Micropyga, Echi
nolampas, Histocidaris a. 0
Cidarids; Brisinga, Zoro
øster, Goniaster; numerous
Ophiothrix and Ophiacan
tha; Ophiomusium, Elasi
pods; Kophobelemnon; Spon
godes; Culeolus; Hexacti
nellids. Very rich.

Several Elasipods; Hapaloso
ma pellucidum; Cidarids
Zoroaster, Astropecten, Go
niaster; Pennatulids; Hy
droids; Annelids.

A large Antipatharian; Virgu
laria; Echinaster;Ophiurids

Metacrinus, Brisinga; Elasi
pods; Aræosoma, Micropyga
Gorgonians, Hexactinellids

Metacrinus, Ophiurids; Call
aster; Echinobrissus; Gor=

gonids. (AH
Metacrinus; Salenia, Micro
PYZA, Hapalosoma, Opechi=
nus spectabilis; Pteraster. |
Hymenaster ; ;
Gorgonids;
Brachiopods,
Fishes. Very rich. il
Zoroaster a.0. Åsterids; Ophia |
cantha; Kophobelemnon. |
Sphærothuria ; Zoroaster; Pen«
natulids; Annelids; Crusta |
ceans. bå
Metacrinus, Cidarids, Hemi
pedina, Hymenaster; Crus
staceans, Corals; Calliony…
mus. Very rich. Æ
Brisinga; Zoroaster; Meta
crinus; Cidarids; Prione
chinus;numerous Ophiurids; |
Sphærothuria; Crustaceans:
Hyalonema; Neæra; Macrur= ;
ids. Very rich. )
Echinolampas ; Euryalids ; Zo-
roaster ; Synailactes ; Brach- '
iopods; Flabellum; Cru
staceans; Hexactinellids
Macrurids a. 0. fishes.
Lætmogone, Meseres, Sphæro-
thuria; Ophiotholia; Penta
cheles; Aphrocallistes, Hya-, |
lonema.

Position

Depth
(Meters)

Bottom

Instru-
ment

Remarks

9/V |5936” S.,132055? E.

SUSÆ PT ]1320'SS%=

50337 =132051730'"-

593020?” 13205B'-

50327 - 13204925” -

12/V 5029? -1320'37? -

3128-1320 367 .-
14/V S. of Doe Roa

Between Doe Roa
and Kei Doelah

502925” - 132050" -

16 AVE KESIS2 13203625"

85

85

353

345

ca. 200

290

385

50

290

ca 250

Sand

Mud

Sheils

Mud

Corals,
Sponges

Gravel,shells,
Lithotham-
nion
Bryozoans

Sand, shells,
Concretions

Sand

|

Trawl |

Trawl

Echinobrissus, Echinocyamus ;
Palmipes, Linckia; Ophiur-
ids; Psolus; Crustaceans,
Hydroids, Molluses, Brach-
iopods.

Gorgonians; Crinoids (Eudiv-
crinus); Sponges.

Some Medusæ, Heteropods etc.
Not very rich.

Me'acrinus; Democrinus We-
beri; numerous Comatulids.
Phormosoma, Hemipedina ;
Solaster; numerous Ophiur-
ids; Lætmogone; Psolus;
Crania; many Custaceans;
EjshesskVeryærsieh.

Echinocardium: Echinobris-
sus. Only very short time
on bottom; caught hold.

Metacrinus, Rhizocrinus;num-
erous Ophiurids; Synal-
lactes; Histocidaris, Micro-
pyga, Echinolampas; num-
erous Crustaceans; numer-
ous Hexactinellids (Hyalo-
nema); Brachiopuods; Actini-
anssnvVeryericd:

Lophohelia,… Aphrocallistes;
Metacriuus, Comatulids;
Aspidodiadema, Echino-
lampas, Ophiocreas, Åstro-
toma. Brachiopods, Pagur-
ids. Very rich.

Amphioxus; Echinobrissus,
Echinoneus. Crustaceans.

Numerous Bryozoans, Sponges,
Synascidia; Lithothamnion.
Ophiopteron.Molluses;Crust-
aceans. Very rich.

Two magnificent Dermatodia-
dema indicum; Åræosoma,
Echinolampas; Ophiurids;
Crustaceans. Only very short
time on bottom; caught hold.

Metacrinus; Chætodiadema ;
Hapalosoma; Cidarids; Pal-
mipes; Ophiurids; Gastro-
pods; Sponges. Trawl only
a very short time on bottom ;
caught hold.

96

Il. Java Sea; Sunda Strait (Map PI. III).

Sta-
tion

Date

Position

Depth
(Meters)

Bottom

Instru-
ment

Remarks

64.

65.

66.

67.

68.
69.
70.
MÅE

12:

73.

74.

76.

MTR

78.

79.

26/VII

27/VII

28/VII

29/VII

5054”

50487
5947?
5047?
5940?
50409?

SYSTE

6222;

6225:

69 28”

| 505275” -

10697127

5041” -

OSSE

60702

GUYS

SUSIPESSETO OUP SER

106 RE

- 1060127

- 106014 -

"1062178

- 106021?
- 106? 08”

VOSS?

=HIOSYSTE

Sunda Strait

1050 54” -

1050 44" -

105944” -

- 105044” -

105941?

- 105938? -

35

25

24

38

55
50
35
54

35

30

30

40

29

30

30

47

Sandy mud,
shells

Sand

Sandy mud
shells

Sand

Stones
Sand
Mud, shells

Sand, stones |

Stones

| Sand, shells

Stones, shells

Sand, shells

Mud

Trawl

SeveralClypeastroids; Maretia ;
Plococidaris bispinosa; nu-
merous Crabs; ÅArca a. 0!
Molluscs; Soleids. Lyto-
carpus.

Lytocarpus; Asthenosoma; Ore
aster ;Clypeastroids;Ophiur-
ids; Molluscs.

Numerous small Clypeastroids:
Lovenia; Pteraster; Crusta-
ceans: Molluscs; Bryozoans;
Fishes: "Veryfnicht

Lytocarpus; numerous Hydro-
ids; Sponges; Comatulids.

Numerous large Sponges; Hy-
droids; Astropyga.

Rather poor; nothing of special
interest.

Very numerous small Turri-
tella; small Lytocarpus.
Numerous Sponges; Hydroids;
Synascidians;Vermetus; Gor-

gonids.

Very numerous Sponges; Hy-
droids; Gorgonids; Icon-
aster, Oreaster; Astheno-
soma; Mollusecs

Hydroids; Spongodes; Comat-
ulids; small Crustaceans.
Caught hold in the bottom;
net torn.

Remarkably dead bottom,mostly
dead shelis. A few Ophiurids,
Mollusecs and Sponges.

Lytocarpus,Spongodes, Comat-
ulids; —Crustacezns. . Very
poor.

Many Clypeastroids; . Palæo-
stoma, Pericosmus; Mol-
padia; numerous small Ga-
stropods.

Many Clypeastroids; Palæo-
stoma, Pericosmus, Maretia,
Lovenia; Amussium. Very
rich.

Clypeastroids; … Palæostoma,
Pericosmus, Molpadia.

Clypeastroids; … Pa'æostoma;
small Holothurians; Amphi-
ura; Veretillum, Virgularida.

”
80. |29/VII
KA

"81. |30/VII
is2.

83.

84. |31/VII

boy mr
36.
87.

38.

89. |31/VII

1/VIII

DS.

36.

Position

Depth
(Meters)

Bottom

2emarks

69367'S-,1059347 E.

60 37”
60 38"
60 427

850557
5453?

50 54?

5%56?

59572

5957?

52552

59153?
50 497

59447
50447

105927”
10592R
1959 17”

10593RPF-

1059 34”

105937?

1059 38?”

1050 34”

1059 327?

1059 30”

105927?

1052295]

1050 30”

105021? -
Lampong Bay

5044? - 1050 20?

50427=5105917?

33
49

38
25

31

31

31

25

29

Mud

Sandy mud

Sandy mud,
pumice

Mud, pumice

Sandy mud

Sandy mud
with pumice

Hard bottom

Mud
Clay, Mud

Mud

Vidensk. Medd. fra Dansk naturh. Foren. Bd. 76.

| Trawl |

Trawl

Laganum; Amphiura; small
crabs. Very poor.

Numerous Retiflustra and Stir-
paria; small Hydroids.

Numerous solitary Corals;
Crabs; Molluscs; Spøngodes.

Numerous solitary Corals, other
species than those in Station
82; a very conspicuous dif-
ference, although the bottom
was the same. Clypeastroids;
Molpadia.

Lytocarpus; Crabs; Laganum;
Luidia; Ophiurids.

Lytocarpus; a few fishes, a
large Clypeastroid. Very poor,
on account of the pumice.

Very poor, on account of the
pumice. Å few Hydroids, Mol-
luscs; Maretia; Amphisile.

Very poor, on account of the
pumice; hardly a single liv-
ing animal.

A large Clypeastrid (Peronella
decagonalis (?) with a small
epizoic Ophiurid among its
spines. Dorippe; Gastropods.

Halophila. Small Pleuronect-
ids, Hippocampus; Crabs;
Turritella. Laganum; Mol-
padia. Small Orbitolites in
immense numbers.

Comatulids; Ophiurids, Gor-
gonids; Sponges. Net of
trawl torn.

A few Ophiurids; Squilla. Very
poor.

Chirodota; Sipunculids; Annel-
ids. Very poor.

| Sipunculids; Holothurians.

Lovenia; Laganum.

The poor result of the Stations
91—94 is due to the fact that
a dredge had to be used
here, while the trawl was
under repair, the dredge
being no fit instrument for
such bottom.

Numerous Laganum; Lovenia;
Cucumaria; Virgularia;Mus-
sels.

Laganum; Holothurians; Mol-
luscs; very large shrimps.

d'

Sta-
tion

Date

Position

98

Depth
(Meters)

Bottom

Instru-
ment

Remarks

Ure

97.

98.

99

100.
101.
102.

103.

104.

105.

106.

107.

108.

109.

110.

me

172.

ETS:

LYN SLS SFO S ORE!

2/VIII

3/VIII

4/VIII

5/VIII

6/VIII

SVIE

5928?

50497
50 547
6097

- 105918?
SRLOS TE

1105925?
11057282
- 105%28”

(Krakatau)

6095? -

SS22

SGØSE

5430”

5445?

1050 42?

- 10604”

- 10697?” -

- 106? 16” -

SHOGSTE

- 105956?
- 105954?

RL 0S53:53?

- 10673? -

106913?

- 106? 22”

25

27

25

54
60
75

52

38

52

Tie

Mud

Mud, pumice

Clay, Mud

Mud, pumice

Sand, shells

- Stones

Mud
Sand
Sand, stones

Mud, shells

Sandy mud

Sandy mud

Mud

Trawl

Numerous Molluscs, especiall
Calyptræa, Turritella, Denå
talium; Goniaster; Cucui
maria; Molpadia; Virgu
laria. Very rich. |

Very poor, on account of thé|
pumice. Some Mussels anc
Crabs. |

Very poor, as in Station 98f
A few Molluses and Crabsff
Synapta.

Numerous worm-tubes; a fe
Ophiurids; solitary Corals.

Very poor, on account of the
pumice. Ophiomyxa; Corals

As Station 101. ÅA few Ophiur
ids, Molluscs, Crabs; Stern
aspis; Molpadia.

Numeroussolitary Corals,Spon=
godes, Hydroids; Iconaster.
Linckia, Pteraster; Neomen
ia (?); Molluscs; Crusta
ceans; Sponges. Very rich

Numerous Sponges; Priono
cidaris baculosa; Astheno
soma; Oreaster; Hydroids!
Bryozoans; Crustaceans.

Gobioides; Soleids; Virgularia
Molpadia; Crabs.

Lytocarpus a. 0. Hydroids; Pri
onocidaris baculosa; Clype-…
astroids; Crabs; Gastropods.…

Numerous Sponges; Hydroids!
Pteroides; Molluscs; Pterois, '

Numerous Sponges; Stenopus…

Brissopsis luzonica, Maretia
Temnopleurus; Polychetes
Pegasus.

Brissopsis luzonica; Lovenia
Åstropecten; Goniaster!
Ophiothrix; Echiurus; So
len; Lytocarpus.

Maretia; Laganum;
Neæra; Sponges;
Very poor.

Gobioides; Calocaris (2); Am:
phiura; Pericosmus, Lyto.
carpus; Crabs; Sponges.

Gobioides; Polynemus (?)
Sternaspis;
Crabs. Numerous |
Sponge-spicules, woven to

gether, no living Sponges.

Murex
Fishe

120.

121:
122.

17/VIII

8/VIII

99
Position MEG Bottom stk Remarks

DNS SOS 27 E 60 Mud Trawl | Lytocarpus; Sponges; Chiro-
dota; Echinaster; Laganum.

50571069 287 - 11 = — Gobioides; Calocaris(?);Worm-
tubes; Amphiura;Virgularia;
Pteroides; Lingula; Cucu-
maria; Laganum.

SST ==] OG 0 34 22 Sand, shells — Numerous Molluscs; Goni-
aster; Salmacis; Laganum;

| Synapta.

50958” - 1060 38? - lg! Mud — Echiurus, Sternaspis; Abra (2);
Crabs.

5954” - 106040? - 27 Sand, shells = Numerous Molluscs, especially
AÅrca;Astropyga;Comatulids.

690? - 106050” - 22. Mud = Chætodiadema; Laganum; Pa-
læostoma; Luidia; Placuna;
Crabs; Pteroides.

5054” - 10609470 - Sy! — — Stichopus;Amphiura;Sipuncul-
ids; Crabs; an Anguillid
with rudimentary eyes, prob-
ably living in the mud.

5054? - 1069557 - 32 — — Laganum, Amphiura; Aphro-
dite, Ophelia. Very poor.

535355=5107002>- 2 — — Gobioides; Worm-tubes; Mol-

29 551923:

padia; Amphiura;Virgularia.

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Some Remarks on the Biology of the Sciomyzidae
together with the description of a new Species of
Ctenulus from Denmark.

(Dipt.)

By
Will. Lundbeck.

Åbout the biology of the Sciomyzidae not much seems to be
known. In the following I certainly do not give any important
increase to our knowledge, I do, however, think that the commu-
nication may be of some interest. In the well known revision of
the Sciomyzidae by Hendel (Abhandl. k. k. Zzool. bot. Geseil. Wien,
II, 1902, 9) the author records the very few facts known about
the biology of the family: Léon Dufour (Ann. Soc. Ent. de Fr. 2 VII,
1849, 67, Tab. III, fig. 1—8) describes larva and pupa of Tetanocera
ferruginea Fall.; the larva was found among Lemna and Callitriche
in a fen in the middle of November; it pupated eight days later,
the pupa hibernated and developed in April. Gercke (Verh. Ver.
f. nat. Unterhalt. Hamburg. III, 1876, 145) mentions eggs, larva and
pupa of Sepedon sphegeus F., and larva and pupa of S. spinipes Scop.;
they were found on Lemna trisulca in wet trenches (nassen Gråben),
the eggs on the ninth of June, the larvæ in the middle of June,
and the pupæ in August, and the development took place in late
summer. De Meijere (Zool. Jahrbich. Anat. und Ontog. XV, 1902,
684) mentions larvæ and pupæ of Sepedon sphegeus among Lemna
on the surface of water. Hendel remarks also that the metamor-
phosis of Sciomyza crassiseta communicated by Kaltenbach probably
belongs to some Trypetid,”) and that hitherto no development of any
Sciomyzine was known. One case had, however, escaped the attention

1) In Kat. palåarkt. Dipt. it is given with a query as synonym to Antichaeta
atriseta Lw.

102

of Hendel viz. that Perris (Mém. Soc. Sc. Nat. Lille, 1850, 119) had
bred Salticella fasciata Meig. from Helix pisana Mill., but without
being able to decide whether the larva was parasitical or sapro-
phagous. To the recorded few cases only very little has been
added later on, as far as I have seen; Schmitz mentions (Biol.
Zentralbl. 37, 1917, 31) that he has once bred Sciomyza (Ditaenia)
cinerella Fall. from a snail-shell, and Mercier (Ann. Soc. Ent. de
Belgique LXI, 1921, 164) has, like Perris, bred Salticella fasciata
Meig. from Helix pisana, but stating that the Helix was living, thus,
as it seems, proving this Sciomyzid to be a parasite.

As said above I have seen no other case recorded. Now I have
myself bred a number of species or I have got them bred by my
friend Cand. Kryger, but only from the puparia without knowing
the larvæ and thus not being able to decide anything as regards
their feeding habits. The species are: Sciomyza albocostata Fall.,
S. obtusa Fall., S. dorsata Zett., S. ventralis Fall., Calobaea bifasciella
Fall., Bischofia simplex Fall., Dichrochira leucopeza Meig., D. pec-
torosa Hend., D. glabricula Fall., D. nigrimana Meig., Ditaenia
grisescens Meig., D. cinerella Fall., Anthichaeta analis Meig., Anthi-
chaeta sp., Heptopteryx brevipennis Zett., Ctenulus pectoralis Zett.,
Ct. punctatus n. sp. (to be described on a following page), Tetanocera
ferruginea Fall., T. elata F., T. silvatica Meig., Dictya umbrarum L.,
Pherbina coryleti Scop., Hedroneura rufa Panz., Elgiva albiseta Scop.,
Limnia unguicornis Scop. and Sepedon sphegeus F. The species are
all taken as pupæ in the various flood refuse at the border of fens,
ponds and lakes. When the flood refuse here is sieved in earlier
or later spring, especially in March, April and May (my dates range
in all from "7/4 to %/6) the pupæ may be present in smaller or greater
numbers, sometimes rather numerous, and the development then
takes place sooner or later. The pupæ evidently have hibernated
in this state as I have had pupæ taken already on ”/1; accordingly
the pupation takes place in autumn; I have also once taken the
pupa of Bischofia simplex on ?/10, the imago came on %%/10, but this
was in a heated room, in the free it would no doubt only have
come in spring, and on the same date I took a pupa of Ditaenia
grisescens the development of which was likewise accelerated.

As regards the puparia of the named species I shall only make
the following remarks, but except the three species treated later

103

"in the paper: The puparia of the Sciomyzinae I have seen are all
of rather common shape, cylindrical and elongated oval, a little
attenuated at each end. At the posterior end are two small pro-
truding and diverging spiracular knobs, and below them a number
of more or less pronounced teeth. The colour is paler or darker
reddish. Only the puparium of Bischofia simplex is relatively short
and thus more oval, and it is of a darker colour, dark or blackish
brown. The surface of the puparia is smooth, only in Ditaenia
grisescens I found girdles of small spines, and the puparium of
Sciomyza dorsata is somewhat corrugated transversely. The puparia
of the Tetanocerinae are, what is interesting to state, somewhat dif-
ferent from those of the Sciomyzinae, and they are more or less
of the shape known for Tetanocera and Sepedon. They are thus
less cylindrical, but have generally the ventral side rather arched,
the dorsal more flattened, and generally the posterior end with the
spiracular knobs is curved a little dorsally; the surface is less smooth
than in the Sciomyzinae, it is more or less corrugated transversely
and along the sides there are one or more longitudinal rows of
elongated oblique or more roundish impressions which may be more
or less pronounced. (The puparium of Tetanocera ferruginea, of which
I have seen a great number, mav for the rest vary rather much,
both as regards the shape and the ornament of the surface, yet
preserving a certain characteristic aspect.) The surface is cha-
racteristically dull and also the colour is characteristic, greyish brown
tending towards slightly greenish, sometimes almost aeneous. The
puparia of Heptopteryx brevipennis and Limnia unguicornis are, how-
ever, reddish and have the posterior end not or almost not recurved;
in Hedroneura rufa and Sepédon sphegeus the colour is rather pale,
whitish or yellowish. I shall finally note that in accordance with
de Meijere's statement I found no outer prothoracal spiracular tubes
in any Sciomyzid pupa.

The places in which these puparia are found together with what
is known of the larvæ of Tetanocera and Sepedon would seem to
make it probable that the larvæ are phytophagous or feed on
decaying vegetable matter, perhaps also being carnivorous on small
objects, but anything definite is not brought forward; on the other
hand it may, after the observation of Mercier, now be taken as
proved that Salticella fasciata is parasitical on snails. Ås noticed,

104

Schmitz has bred Ditaenia cinerella from a snail-shell, but as I have
the same species from flood refuse it is certainly no snail-feeder,
its presence in the shell being quite occasional. The species seem
all to hibernate as pupæ, yet Sepedon excepted as Gercke found
the pupæ of the two species in August, and my pupa of S. sphegeus
is likewise from August, developing soon after, but as the imagines
may be found also early in the year the species have perhaps two
yearly broods, the second generation then probably hibernates as
egg or larva; the same may be the case with Hedroneura rufa as
my sole pupa of this species was found in September, developing
in the same month, and it is of course also possible that the other
species may have two broods in the year, the second brood hibernat-
ing as pupæ.

The above remarks hold good for the species I enumerated, with
the exception of three which as regards their puparia as well as no
doubt also their feeding habits behave in another and rather interest-
ing way. These three species are Calobaea bifasciella and Ctenulus
pectoralis and punctatus n.sp. When in spring flood refuse at the
border of fens and lakes is sieved, we find in it plenty of shells
of small snails of the genera Limnaea and Planorbis. In the shells
no rest of the snail is present, but a pupa has taken place in them
(living snails are of course also present). The pupa sometimes is
found rather deep in the shell so that it is not easily detected.
The facts are for the rest somewhat different in the three species,
so that I shall treat each separately.

Calobaea bifasciella Fall. The pupa of this elegant little species
I have found exclusively in Limnaea truncatula Mill. According to
the size of the shell the pupa sits more or less deeply inwards,
sometimes near the opening, and as the puparium fits very closely
in the shell it looks in the latter case as if the shell was closed
by a chitinous cover. The puparium is of course placed with the
anterior end outwards, and it is placed so that the ventral surface
rests against the outer circumvolution; the anterior half part of the
dorsal surface lies free in the opening while the posterior half part
stretches into the shell. The puparium fits so closely in the shell
that in order to get it out uninjured it is necessary to dissolve the
shell with muriatic acid. The puparium is then seen to be of a
very curious shape, caused by its fitting in the shell. The ventral

Fig. 1. Fig. 2.
Puparium of Calobaea bifasciella in Limnaea truncatula. X 10.
Fig. 1. In the shell. Fig. 2. Taken out of the shell.

Frg83! Fig. 4.
Puparium of Ctenulus pectoralis in Planorbis vortex. X 10.
Fig. 3. In the shell. Fig. 4. Taken out of the shell.

106

surface is highly arched, but otherwise not altered; the dorsal sur-
face has the anterior left part flat, showing at the anterior end the
larval prothoracal spiracles, it is this part which covers the opening
of the shell; the posterior right part is arched and bends down on
the side and shows at the end the two small posterior spiracular
knobs. Obliquely across the dorsal surface, between the said parts
stretches a narrow groove caused by the columella of the shell;
this groove ends behind towards the left in a large, hollow impres-
sion, likewise caused by the columella. All this gives the puparium
a very curious aspect, so that at almost looks as if it was made up
of two combined puparia.

Ctenulus pectoralis Zett. This species I have bred exclusively
from Planorbis vortex L. The puparium sits in the shell either
near the opening or more inwards to nearly a whole circumvolution.
Like the foregoing it is altered in shape in accordance with its
place, it is therefore curved, and it is flattened just as the lumen
in the circumvolutions of the shell; in the anterior part it is really
flattened dorso-ventrally, but towards the posterior end it is a little
twisted and therefore here compressed, but somewhat obliquely, so
that the posterior spiracular knobs are turned towards the concave
side; for this reason the anterior, flattened part is curved laterally
while the posterior, compressed part is curved more dorso-ventrally,
the concave side being the dorsal. It is interesting to see that the
puparium is always placed in exactly the same way in the shell,
viz. with its dorsal side and posteriorly the right side towards the
dorsal surface of the shell, and the puparium is therefore always
curved in the same direction.

The third species is new, and I shall therefore here describe it.

Ctenulus punctatus n. sp. The species is quite similar to pec-
toralis; head, antennæ and palpi of quite the same shape and colour.
Thorax likewise black, shining, with two a little greyish pruinose,
less shining stripes, the lateral seam and the whole præsutural de-
pression yellow; sternopleura except the upper margin black and
metapleura black; for the rest the pleura yellow with a rather well
defined black spot just below the anterior notopleural bristle; hypo-
pleura more or less darkened to blackish; sternopleura as in pec-
toralis with a bristle at the upper margin. Abdomen and legs as
in pectoralis, but the fourth joint on front tarsi often darkened.

107

Wings hyaline, the costal segment between second and third vein
equal to or a little longer than the segment between third and
fourth vein, while in pectoralis the former is as a rule considerably
longer than the latter. Length 2,;—3 mm.

This species I have bred from several snails, most often from
young specimens of Planorbis planorbis L., and further from P. al-
bus Mill. and from youngs of P. corneus L. and also from Limnaea
ovata Drap var. peregra. The puparium of this species is much less
altered in shape than is the case with the other two, and it is much
shorter and thicker than the puparium of pectoralis; the ventral side
is arched and when sitting in a Planorbis this side lies towards the
concavity of the circumvolution, and the dorsal surface gets a hollow
impression from the opposite wall of the circumvolution; when in
a Limnaea the puparium sits in a similar position as Calobaea and
the dorsal surface then also gets somewhat similar impressions, but
to a much slighter degree, and the puparia are of about the same
shape whether they are sitting in some Planorbis or in Limnaea.

The species is, as seen, highly similar to pectoralis, and I should
scarcely have been aware of the difference, had not the pupæ been
so totally different; this difference was, however, not a sufficient
reason for separating the two species, as it might well be thought
possible that the same species, when pupating in various snails,
might get a various shape of the puparium. AÅ close examination
gave, however, the result that the species was separated from pec-
toralis by a couple of constant characters. While pectoralis has a
black stripe along the upper margin of the mesopleura to the wing-
root, we find in punctatus here a well defined black spot just below
the anterior notopleural bristle, and this character is quite constant
in my whole material (10 males and 10 females); further the lateral
yellow stripe on thorax is more pronounced than in pectoralis, in-
cluding the whole præsutural depression, while in pectoralis the
upper part of the depression is black. The character given for the
wing is also generally well expressed, but, however, less valid as
there may in this respect be a little variation in both species. The
species is upon the whole smaller than pectoralis. — When examin-
ing the specimens in our old collection of pectoralis, which Zetter-
stedt had seen, I found them to be the present species, but as
Zetterstedt says: ,,Pleurae rufo-flavae, vitta laterali fusca plerumque

108

... perspicuis," and as he had also had Swedish specimens, I think
he has had both species before him, the specimens with the black
pleural band being pectoralis, but the Danish specimens mentioned
belong to the present species.

I have not noted the colour of the eyes of the species, but I
shall mention here that when I bred pectoralis I noted of this
species that the eyes are greenish with an upper and a lower part
and an oblique median band violet, while Hendel says, that the eyes
are unicolorous and adds that the same has been communicated by
Girschner.

Now some questions arise as regards the habits of these three
species. For the first their presence in the shells is no doubt in
connection with their feeding, as it is quite improbable that they
should pupate here only for refuge; for the first the cyclorrhaphous
pupæ are well protected themselves, and next they must then also
be found in other hiding places which is never the case, nor are
they ever found free. Further Calobaea bifasciella and Ctenulus
pectoralis are each found only in one species of snails though in
the places where I collected them also other species of small snails
were present. When we now, therefore, suppose that the larvæ have
lived on the content of the shells, then there is the question whether
they are parasitical or saprophagous, devouring only the dead snails.
To this question I can at present give no answer, but it would
seem to me rather probable that the larvæ attack the living snails,
in this connection I also pay attention to Mercier's observation on
Salticella fasciata.

In what direction now the above question may be solved it
seems to me that the behaviour of these three species is very
interesting, especially the influence it has on the shape of the pu-
paria, which on account of the place where they sit get a so cha-
racteristical aspect. I know of no other case in which cyclorrhaphous
pupæ are thus altered in shape in a definite way on account of
outer influences. It even seems as if there might be some advanc-
ing development here, as Cz. punctatus choses different snails for
pupation and its puparium being less altered and of about the same
shape in all cases, whilst the two other species seem each to be
confined to one certain snail-species and show a highly altered
puparium and in each species altered in a quite definite way.

109

Finally I shall note that some parasitic Hymenoptera attack the
Sciomyzids; Gercke mentions Phygadeuon cinctorius Grav. as com-
mon on Sepedon sphegeus. I have myself bred a Cryptine and a
wingless Proctotrupid from Tetanocera ferruginea, a Cryptine and a
Chalcidid from Calobaea, and likewise a Cryptine and a Chalcidid
from Ctenulus punctatus, in all cases a single parasite from each
pupa; from Cz. pectoralis thereagainst I bred no parasite.

1961923:

Ormosia danica n. sp.

By
Peder Nielsen, Silkeborg.

Ormosia danica n. sp. General coloration dark brown. Head
dark grey. Rostrum dark greyish brown with yellowish setae.
Palpi dark brown, hairy. Antennae dark brown, elongate; the joints
of the flagellum are cylin-

drical and clothed with
whitish hairs. Thorax dark E
greyish brown; no long- BF
itudinal stripes present. ES,
Pronotum pale yellow. Scu-

tellum dark brown with yel-

lowish hairs. Abdomen black brown, somewhat hairy. Hypopy-
gium pale brown, hairy. The pleurae black greyish brown. Be-
hind the wingroot a tuft of yellowish hairs. Halteres pale yel-
lowish brown. Coxae and trochanters yellowish brown; legs dark
brown; femora yellowish brown at their base, in the hindlegs only
the tip of femora is dark brown. Wings somewhat brownish tinged,
and with a distinct darker brown stigma; veins dark brown. SCc2
at the level of the middle of Rs; r beyond, but near the fork of
R2+3, R2 and R3 not parallel but divergent at the margin. Dis-
cal cell (cell 7st M2) closed, basal deflection of Cu (m-cu) close to
the fork of M; 24 short. Length of the wing 6 mm.

The species seems to be closely allied to O. holtedahli, recently
described from Novaya Zemlya by C. P. Alexander (Rep. Sc.
Results of the Norweg. Exp. to Nov. Zeml. 1921. Nr. 5 p. 4. Kria.
1922). Although only the female sex is known of O. holtedahli,
I have had no hesitation in regarding the Danish specimen as be-

Wing of O. danica n. sp.

2

longing to a new species, and I am sure that further studies of
more materials will show that O. danica is a good and distinct
species.

Of the new species only three specimens are known, and their
localitiestaret FI TIT Elling the "St For] Ul OPPE (HERA TRE
PUSTE "Aabenraa the”5th offjuly 19235(MråPÆEsben-Petersenkles

hæse 028!

Description of a new Snake of the Genus Glauconia,
from Mendoza.
By
Magnus Degerbel.

Glauconia borrichiana ”) n. sp.

Snout very prominent, with sharp horizontal edge and inferior
nostrils, nasal swollen above the nostril. No supraoculars, the
oculars being separated from each other, on the top of the head,

Upper view of head. Side view of head. Lower view of head.

by a single shield. Rostral large, occupying about "/3 of the area
in front of the eyes, not quite extending to the level of the anter-
ior border of the eyes, nasal completely divided into two, nostril
just touching first upper labial. Ocular bordering the lip between
two labials, the anterior of which equals the lower part of nasal
in size, only extending halfway to the level of the eye; the post-
erior. is larger but does not reach the inferior border of the eye.

6 lower labials. Head shields granulated. 14 scales round the
body. Diameter of body 60 times in the total length, length of
tail 26 times. The 5 middle rows of dorsal scales are light brown,

1) Ole Borch, 3 1690. Danish scientist. Benefactor of graduates. Founder
of Collegium Mediceum, where I am a collegian.

Vidensk. Medd. fra Dansk naturh. Foren. Bd. 76. 8

114

the borders of the scales lighter; body whitish laterally and in-
feriorly.

Total length: 185 mm; tail 7 mm, diameter 3 mm.

Hab.: Santa Rosa, Mendoza.

Only a single specimen was obtained by Mr. Jensen-Haarup
in 1905 and presented by him to the Zoological Museum.

The specimen was handed to me in the spring-time of 1923
by Prof. Ad. S. Jensen, who considered it as new to science and
asked me to describe it.

Of this little group of the Fam. Glauconidae, characterised by
the absence of supraoculars, only 4 species have till now been
described (the hab. of the two species are moreover unknown);
Gl. borrichiana is the fifth and is easily distinguished from the
others by the sharp horizontal edge of the snout. It is the first
of this group assigned to Argentina, and it seems to be very ap-
proximate to Gl. unguirostris, Boulenger, which is the only snake
of the other group (with supraoculars) that is found in Argentina
(Mendoza) and only in a single specimen too.

IE SE192S:

Om Muldvarpens Fremtrængen i Vester-Hanherred.

Af
Magnus Degerbel.

I » Videnskabelige Meddelelser fra den naturhistoriske Forening
i København” for Aaret 1901 har Seminarielærer J. Jeppesen, Ra-
num, offentliggjort en Undersøgelse over , Muldvarpens Vandring
gennem Vester-Hanherred". Han fastsætter heri Vestgrænsen for
de sammenhængende Strøg, hvor Muldvarpen ved Aar 1900
fandtes, til en Linje, der kan trækkes fra Han-Vejle mod Nord til
Havet. Der findes her en naturlig Forhindring i Terrænet, idet
Bygholms Vejle og Han Vejle fra Limfjorden strækker sig saa langt
mod Nord, at der knap er ”/2 Mil ud til Vesterhavet. , Rigtignok
er de sydligere Partier af disse Vejler udtørrede; men baade Jord-
bundens Beskaffenhed som gammel leret Fjordbund og den store
Vandholdighed gør disse Strækninger ubeboelige for Muldvarpen.
Men Nord fra naar Klitterne lige til den nordlige, ikke udtørrede
Del af Han Vejle, kun hist og her afbrudte af sumpede Kær.
Efter Iagttagelser af Vejassistent Mortensen i Bjerget har Muld-
varpen passeret disse vanskelige Strækninger ved at gaa frem i
Thistedlandevejens Rabatter og Grøftekanter.”

Vest for den nævnte Linje skulde der findes nogle højst mær-
kelige spredte Forekomststeder. J. Jeppesen skriver derom: ,,Skønt
Bjerget og Egnene Syd derfor, hele Halvøen Hannæs medregnet,
for største Delen er gode Muldjorder, har Muldvarpen dog aldrig
vist sig der. Lige saa lidt vides den at være truffen paa de hede-
agtige, kun til Dels opdyrkede Strækninger fra Bjerget til Øster-
ild. Saa meget mærkeligere er det, at der efter fleres Udsagn
findes enkelte Eksemplarer i Hjardemaal og Østerild..... Endelig
meddeles det, at en Mand fra Sennels fangede 2 Individer der i
Fjor, mens andre Folk fra samme By aldrig har set Muldvarpe
der omkring.”

8s+

116

For at faa oplyst om Muldvarpen siden da er trængt længere
frem imod Vest eller ikke har formaaet at trænge helt frem over
omtalte Forhindring og for eventuelt at faa at vide, hvorledes det
nu forholder sig med de mærkelige spredte Forekomster, har jeg
henvendt mig til forskellige Lærere i de tilgrænsende Egne og
bedt dem meddele mig, hvad de maatte vide om disse Spørgsmaal.
— Af deres elskværdige Svar, som meddeles her, fremgaar det,
at Muldvarpen er i stadig Fremrykning imod Vest:

Lærer A. Ægidius, Lild, skriver (d. 4. 4. 1922): Muldvarpen
er nu udbredt over hele Lild Sogn. I den vestlige Del, Glæde,
er" den først kommen i de allerseneste Aar.

Lærer Tranberg Christensen, Tømmerby (1.4.1922): For 20
Aar siden var der ingen Muldvarpe paa Hannæs. De er kommen
langs med Landevejen Nord om Lund Fjord fra Vust. En Historie
om, at de er kommen over Banedæmningen, der kom 1903—04,
passer ikke. Nu er de naaet til lidt Syd for Tømmerby Kirke
omtrent til Selbjerggaard. Paa Tømmerby Bys Marker er de kom-
men i de seneste Aar. I 1908, da jeg kom hertil, var der ingen,
nu findes de i Skolens Nærhed. Paa Lynge og i Højstrup, to Byer
i Tømmerby Sogn, findes de ikke endnu; heller ikke i Søgnene
Syd for, Øsløs, Vesløs og Arup, findes de.

Lærer M. Kirk, Hjardemaal(Aprilf1922): Efter mukores
tagen Undersøgelse skal jeg meddele, at Muldvarpen er set her i
Hjardemaal Sogns nordøstlige Del for godt 2 Aar siden. Den er
kommen fra Tømmerby, Lild Sogn, som støder op til den Del af
Hjardemaal Sogn, hvor Muldvarpen først iagttoges her i Sognet.
Den trækker stadig længere og længere mod Vest i et Klitengdrag,
der strækker sig i østlig-vestlig Retning en lille halv Mil fra Havet.

Lærer H. Hedegaard, Østerild (9.4.1922): Ved at tale med
flere Landmænd her i Sognet og særlig Folk, som bor nærmest
Grænsen af Han Herred, har jeg faaet oplyst, at Muldvarpen endnu
ikke findes her i Sognet. Grunden hertil er efter mit Skøn den,
at vi er skilt fra Han Herred ved den udstrakte Vesløs Vejle, som,
skønt Kortet viser, den er udtørret, dog er en Gren af Limfjorden,
kun adskilt fra denne ved en Dæmning. Nord for Vejlen og
Tømmerby Fjord til Havet er vi skilt fra Han Herred ved et ca.
10 km bredt Bælte Hede, hvor Grunden bestaar af gammel stenet
Havbund og derover et ca. 1—2 m tykt Lag Flyvesand.

7

Lærer N. Sodborg, Vesløs (22.3.1922): Muldvarpen findes

ikke i Vesløs Sogn endnu. — Derimod har Muldvarpen nu trængt
frem over Bjerget Bakke og gennem Frøstrup et Stykke ind i
Tømmerby By.... Da jeg for 30 Aar siden kom til Hannæs, var

den, saa vidt jeg husker, midt imellem Vust og Bjerget Bakke,
altsaa Nord for Lund Fjord (Han Vejle), saa det stemmer jo ogsaa
godt med Seminarielærer Jeppesens Meddelelser.

Vesterhavet.

Linjen I—I betegner Vestgrænsen 1860.
— Ii—II — — ved Aar 1900.
— III—II — Vvden nuværende Vestgrænse.
[] Selbjerggaard.

Lærer S. Th. Vestergaard, Øsløs Søndre Skole (18. 5.1922):
Jeg har henvendt mig til Mænd her i Sognet, hvis Udtalelse jeg
mener at kunne stole paa, og de har alle sagt, at der ikke findes
Muldvarpe her.

Lærer N. T. Leegaard, Arup (28.4.1922): Muldvarpen er endnu
ikke naaet til Arup Sogn.

Det vil af det foregaaende fremgaa, at Muldvarpen i sin Frem-
trængen imod Vest er blevet standset af Bygholms og Han Vejle
og af de Nord derfor liggende Klitter. Kun ved at følge den over-
ordentligt snævre Passage, der dannes af Thistedlandevejens Grøf-
ter og Rabatter, lykkedes det Muldvarpen ved Aar 1900 at trænge

118

igennem denne Forhindring umiddelbart Nord for Han Vejle. Naaet
frem til Bjerget fandt den frugtbare Jorder og gode Livsbetingel-
ser, saa den siden da fra dette ringe Udgangspunkt har kunnet
brede sig radiært mod Syd og Vest. Mod Syd er den naaet frem
til Selbjerggaard i Tømmerby Sogn, mod Vest til den nordøstlige
Del af Hjardemaal Sogn.

I Øsløs, Vesløs, Arup og Østerild findes endnu ingen Muldvarpe.

De af Jeppesen omtalte spredte Forekomster er det ikke lyk-
kedes mig at opspore. Hverken i Østerild eller Hjardemaalby
findes nu, som ovenfor omtalt, Muldvarpe, og for Sennels Vedkom-
mende skriver Lærer J. R. Aarup (22.5. 1922): ,I de godt 40 Aar,
jeg har boet her i Sognet, har jeg aldrig set en Muldvarp eller
hørt andre Folk tale derom, heller ikke opdaget noget Muldvarpe-
skud ude paa Markerne."

Jeg er derfor tilbøjelig til at antage, at der overhovedet aldrig
har været en saadan pletvis Udbredelse; i hvert Fald har den ikke
formaaet at holde sig eller endnu mindre at danne Udgangspunkt
for videre Udbredelse. — Naar Jeppesen derfor skriver: ,,Fore-
løbig staar det uoplaret, ad hvilken Vej Vandringen er foregaaet fra
Han Vejle gennem Klitter eller Heder til disse østligste Dele af
Thy", maa jeg bemærke, at Forholdene nu tyder paa, at Muld-
varpen aldrig har været i disse Egne — maaske er Jordskud, frem-
bragt af Vandrotten, blevet forvekslet med Muldvarpeskud (?) —-
men just nu gennem en kontinuerlig Vandring er paa Vej dér
henimod.

Muldvarpen frembyder saaledes et særdeles smukt Eksempel
paa et Pattedyr, som her i Landet endnu ikke ved egen Hjælp
er naaet frem til alle de Egne, hvor der bydes den saa gode Livs-
vilkaar, at den kan leve dér, men befinder sig fremdeles paa Van-
dring.

Takket være Seminarielærer J.Jeppesens Undersøgelser er det
nu muligt fra Tid til anden i denne Egn at fastsætte Grænserne
for Muldvarpens Fremtrængen; at følge den i dens Vandring gen-
nem de forskellige Forhindringer og Terrænformer og at se, hvor
hurtigt den kan vandre gennem disse. — I de sidste 20 Aar er
Muldvarpen fra Han Vejles Nordspids trængt ca. 6 km frem mod
Syd og ca. 8 km mod Vest, og det erobrede Areal er ca. 20 km”.

20—8--1923.

Paraperipatus keiensis n. sp.

By
R. Horst, (Leiden).

During the Danish Expedition to the Kei-islands in 1922 Dr.
Hj. Jensen collected on the ,,Goenoeng Daab", Great Kei, at
the height of about 300 m, some Peripatus-specimens, which were
placed in my hands for identification. They proved to belong to the
genus Paraperipatus and, though much resembling other species of this
genus, found in Ceram, New Britain and New Guinea, they could
not be identified with any of the species already described. There
are 6 females and 4 males; the largest of the females has a
length of 48 mm, whereas the males measure from 25 to 27 mm
in length. As in Paraperipatus novae-britanniae Will.”) the ground-
colour of the preserved animal is on the dorsal side black, dotted
over with some distant, irregularly spread, brown spots, due to the
colour of the basal part of the primary papillae; however in Paraper.
novae-britanniae these spots are arranged in four rows, one on
each side above the bases of the legs and another row on both sides
of the black, median dorsal tract with segmental intensifications.
Paraper. ceramensis Muir & Kersh”) is also provided with such
spots, but they are much more numerous and densely crowded
together. The skin of the Paraper. keyensis between two succeed-
ing pairs of legs shows 6 to 7 large, transverse folds, alternating
with narrower ones and set with a single row of brownish (dis-
coloured ?) primary papillae and a great number of small, dark-
coloured, accessory ones. As in the other species of the genus there
is in the median line of the dorsum a fine, white line in the middle of

1) Zoolog. results based on the material from New Britain, New Guinea
etc Part I ET S98 PISK LV.
2) Quart. Journ. Micr. Science, Vol. 53, 1909, p. 737, pl. 19.

120

a longitudinal black band. The ground-colour of the ventral side is
greyish blue with a row of large, whitish (discoloured?) spots in the
median line, between the base of each pair of legs; the pads of
the legs are concolourous with the underside of the body. Of the
females three have 25 and the other three 24 pairs of legs, whereas
in the males the number of legs varies between 22 and 23. With
regard to the number of legs P. keiensis much agrees with P. novae-
britanniae, which has 24 pairs in the 2, and 22 pairs in the

Fig. 1. Inner jaw-blade, X 110. — Fig. 2. Outer jaw-blade, X 110. — Fig. 3. Dorsal
view of the posterior end of the male, enlarged.

d. Each leg has three spiniferous pads, the distal and the prox-
imal one nearly of the same breadth, half as broad as the med-
ian one; there are vestiges of a fourth one. The renal papil-
lae of the 4th and 5th pairs of legs are connected with the middle
of the proximal pad. The mouth is surrounded by a ring of bluish-
white lobes, about seven on each side; they are wedge-shaped
and set with spines. The inner jaw-blade besides the main tooth
possesses eight accessory denticles, without diastema; this is a
rather great number, also met with in P. stresemanni Bouv.”),

1) Zoolog. Mededeel. R. Museum Natuurl. Historie, Leiden, dl. III, 1917, p. 263.

121

whereas the other species of the genus have a less quantity. The
male genital orifice is situated on a small, conical projection, visible
at the dorsal side, beneath the protruded efferent duct of the anal
glands, that has a cylindrical appearance. The right uterus of a
large female contained a nearly full-grown young, however not
pigmented. The ovary was fixed to the body-wall almost on the
level of the 14th pair of legs. The loop of the slime-glands ex-
tends to the 10th pair of legs as in P. ceramensis.

The specimens were found in the wood under stones and fallen
branches.

The presence in the Kei-islands of a member of the genus
Paraperipatus, found in Ceram, New Britain and New Guinea,")
proves that the fauna of these islands agrees more with that of
the Indian region than with that of the Australian Continent.

DEKoctetkdE VIS TY22F PS 13:

22.0: 1923:

EH

HAJ r … i ed Å
re AA kd ii JN SÆDEN
ø U Øde 2 Er se

sn! Je "4

lø he sæ
POLITI EASTIA DS
: i Cr

c=

Frøaar og Egernvandring.

Af
Ad. S. Jensen.

Foredrag holdt ved Dansk naturhistorisk Forenings Møde
d. 19. November 1921 ")
til Ære for Professor, Dr. phil. Eug. Warming.

ie
Her i Danmark var 1920—21 et skralt Aar for dem af Skovens
" Dyr, som lever af Bog og Agern, thi hverken Bøg eller Eg satte
Fragt 1920:

Ogsaa i en anden Henseende var 1920 et fattigt Aar, idet
Frøsætningen hos Rødgranen (Picea abies) ligeledes slog fejl —
der dannedes ingen Kogler paa dette vort mest udbredte og al-
mindelige Naaletræ. Da nu Koglesætningen flere Steder ogsaa
var slaaet fejl i 1919, indtraf der saadanne Steder i 1920 en total
Mangel paa Grankogler med Frø i; de paa Jorden liggende eller
i Granerne hængende Kogler var ikke yngre end fra Sommeren
1918, og de havde tabt deres Frø. I andre Bevoksninger derimod
havde Granen sat Kogler i 1919, og i en Del af disse Kogler var
der endnu i Sommeren 1920 flere eller færre Frø tilbage; men
længere hen paa Aaret blev Grankogler med Frø i sjeldnere og
sjeldnere, og i Vinteren 1920—21 har Kogler med Frø vist ikke
kunnet opdrives, i hvert Fald ikke i nævneværdig Mængde; og
selv om en og anden paa Jorden liggende Kogle endnu gemte nogle
Frø, har de næppe været værd at spise.

IE
Jeg ledtes ind paa disse Iagttagelser ved i Granskove, hvor
der fandtes Egern, at se paa Kogler, som disse Dyr havde be-
arbejdet. Behandlingen bestaar som bekendt i, at Egernet gnaver

1) Nogle Iagttagelser af senere Dato er tilføjede.

124

Skællene over for at naa til Frøene, som det lever af. Saadanne
af Egern gnavede Kogler kan se meget forskelligt ud: nylig gna-
vede Kogler er lyse (gullige eller rødlige), ved Henliggen antager
de en mørkere (brunlig) Farve, og tilsidst bliver de helt sorte.
Man har saaledes i de begnavede Koglers Farve et Middel til at
skønne om, hvorvidt der i Øjeblikket lever Egern i en Granbe-
voksning, eller om der er gaaet kortere eller længere Tid, siden
de opholdt sig i Bevoksningen.

III.

I Juni 1919 besøgte jeg Vejstrup Dyrehave og Klingstrup Skov
ved Skaarup (Sydfyen) og fandt i Rødgranbevøksningerne store
Mængder af egerngnavede Kogler; en Del af dem var øjensynlig
begnavede for nogen Tid siden, thi de var mørke (brune eller endog
sorte); men mange røbede ved deres lyse Farve, at de var gna-
vede for ganske nylig. Jeg saa da ogsaa levende Egern paa Stedet.

I Slutningen af Maj 1920 besøgte jeg de samme Skove; men
nu saa der helt anderledes ud. I Vejstrup Dyrehave fandtes kun
Kogler, der var sorte og følgelig begnavede for længere Tid siden.
I Klingstrup Skov laa der ogsaa store Mængder af gamle, egern-
gnavede Kogler, men tillige en Del, der saa ud til at være tem-
melig friskgnavede. Disse sidste Kogler frembød imidlertid næsten
alle sammen den Ejendommelighed, at Skællene kun var fjernede
paa Koglens. nederste Del; det saa ud, som om Egernet, der altid
begynder forneden paa Koglen og derefter arbejder sig opefter mod
Spidsen og sædvanligvis kun lader Topskællene blive siddende, hur-
tigt havde opgivet disse Kogler. Forklaringen herpaa laa lige for:
undersøgte man en saadan kun forneden begnavet Kogle, fandtes
der ingen Frø under de tilbageværende Skæl. Jeg fandt kun en
eneste nylig behandlet Kogle, som vår gnavet højt op — formodent-
lig har den indeholdt Frø. Det var tydeligt, at Rødgranerne ikke
havde frembragt Kogler siden 1918; i Foraaret 1919 havde Egernet
endnu haft Overflod i disse Kogler, men i 1920 maa det have
knebet haardt for Dyrene, eftersom de fleste Kogler nu var gna-
vede, og de tiloversblevne for største Delen havde tabt Frøene.

I Begyndelsen af Juni 1921 besøgte jeg igen Vejstrup Dyre-
have og Klingstrup Skov, og nu var Forholdet det, at der overalt
kun fandtes gamle (sorte) egerngnavede Kogler; alt tydede paa, at

ll

125

Egernerne nu helt var forsvundne fra disse Skove — der saas da
heller ingen af disse Dyr mere. Det var iøvrigt, hvad man paa
Forhaand kunde vente. I 1920 udvikledes der nemlig heller ingen
Kogler paa Rødgranerne; Egernerne, som allerede havde haft ondt
ved at klare sig i Foraaret 1920 med de sidste Rester af Koglefrø
fra 1918, har omsider slet ingen frøbærende Kogler kunnet finde og
er forsvundne, da disse Skove heller ikke har kunnet byde anden
Føde til Erstatning; thi ogsaa Ansætning af Bog og Agern var, som
før nævnt, slaaet fejl i Sommeren 1920, og af Hassel er der her
alt for lidt til, at det kan betyde noget som Næring for Egern.
Det aller bedste Bevis for, at disse Skove ved Skaarup virkelig
var egerntomme i Sommeren 1921, havde jeg deri, at Granerne
paa det Tidspunkt, da jeg var der (Juni), bugnede af unge Kogler,
og de var urørte.”)

I Begyndelsen af Juni 1922 besøgte jeg atter disse Lokaliteter, hvor
Betingelserne for Egernets Trivsel nu var saa gode som vel muligt:
ikke alene havde Granerne sat rigeligt Kogler Aaret forud, men
der saas ogsaa mange ny, endnu grønne Kogler i Granernes Toppe.
Alligevel var der ingen nylig gnavede Kogler at finde.

Endelig fandtes ved et Besøg i Juni i Aar (1923) atter kun de
sorte, gnavede Kogler, Vidnesbyrd om Egernets tidligere Tilstede-
værelse i disse Skove.

Vi staar altsaa her overfor et Eksempel paa, at samtlige. Rød-
granbevoksninger i visse Skove kan undlade at sætte Kogler to
Aar itræk, og at et saadant Sammentræf kan blive en Katastrofe
for Egernbestanden og medføre dens fuldstændige Udryddelse.

Om Egernbestanden i Vejstrup Dyrehave og i Klingstrup Skov
er død ud, eller om den har reddet sig ved Flugt til andre Skove,

1) Det skræmmer aldeles ikke Egernet at give sig i Lag med ganske unge
Kogler. Jeg har ofte fundet, at det gnaver Kogler, hvor Skællene endnu
er grønne, og hvis Akse er temmelig tynd og saa veg, at den bliver
underlig krummet efter Begnavningen. I saadanne Kogler har Frøvin-
gerne endnu ikke løsnet sig fra Skællene og findes derfor efter Begnav-
ningen siddende paa de afbidte Skæl. Det er egentlig ret besynderligt,
at Egernet begnaver de helt nye, endnu grønne Kogler; thi de er saa
saftige, at Harpiksen pibler frem i klare Draaber, naar man saarer dem.

126

hvor Ernæringsforholdene var gunstigere, ved jeg ikke. Men jeg
venter ad Aare at se Egernet dukke op igen i nævnte Skove. Thi
i Aar fandt jeg Kogler, som nylig var behandlede af Egern, i Lille-
mølle Skov, der kun ligger ca. '/> Mil borte, en Strækning, som
det ikke vil være uoverkommeligt for Egernet at vandre, om det
ellers finder Anledning dertil.

Ive

I Rude Skov Nord for Hølte (Nordostsjælland) kom der Egern
for en Del Aar siden. De trivedes og bredte sig, saa at man snart
kunde finde egernbehandlede Kogler alle Vegne i Granbevoksnin-
gerne.

Heri skete imidlertid en Forandring i Slutningen af 1920, idet
Egernet forsvandt fra store Strækninger. Man fandt ikke længere
friskgnavede Kogler, og undersøgte man de paa Jorden liggende
urørte Kogler, fandtes der ingen Frø i dem, selv om Koglen var
slukket" o: havde Skællene. trykte ind mod Aksen som Følge af
den fra Jorden opsugede Fugtighed; Frøene var fløjne ud, inden
Koglerne faldt af Træerne. I en af Bevoksningerne findes ikke
saa faa Weymouths Fyr (Pinus strobus), og de bar det Aar frøhol-
dige Kogler; i sin Nød havde Egernet grebet til denne Næring,
som det efter min Erfaring ellers ikke er lystent efter; thi der
laa under disse Fyrretræer ret mange af deres Kogler, begnavede
for nylig (Slutningen af 1920). Men fra Februar 1921 hørte ogsaa
disse Tegn paa Egernets Tilstedeværelse i denne enkelte Bevoks-
ning op, og Egernet var nu kun at spore i Rude Skovs nordlige
Del, i det ved Agersø's nordlige Bred voksende Granparti. Her
fandtes endnu d. 20. Februar 1921 adskillige friskgnavede Rød-
grankogler, som maa have indeholdt i alt Fald en Del Frø, thi
Frøvinger fandtes mellem de afgnavede Skæl.

Som en Udvej i koglefattige Tider søger Egernet gerne hen til
Steder, hvor der ligger ophobet Kogler fra Spetternes Maaltider.
Den store Flagspette (Dendrocopus major) bider som bekendt Gran-
kogler af, flyver med dem i Næbbet hen til en Eg, Bøg eller lign.,
hvor den har indrettet sig en Fordybning i en udgaaet Gren; her
sætter Spetten Koglen fast, med Basis ned i Fordybningen, hakker
den med Næbbet for at komme til Frøene og lader den efter Be-
handlingen falde til Jorden. Under saadanne Hakkesteder kan der

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128

ophobes betydelige Mængder af Grankogler, som endnu indeholder
en Del Frø, navnlig i Koglens nedre Ende, som har været ind-
kilet i Træet og derfor er urørt af Spetten. Disse paa Jorden lig-
gende Kogler kan godt holde sig ,lukkede", saa at de tilbageblevne
Frø ikke falder udd. — Her ved Agersø fandtes adskillige Gran-
kogler, som først var hakkede af Spetter og derpaa gnavede for-
neden af Egern.') Fig. 1 viser saadan dobbeltbehandlede Kogler.

Skønt Egernet paa nævnte Tidspunkt har udnyttet alt, hvad det
har kunnet opdrive af spiseligi Granfrø i Partiet ved Agersø, har
det øjensynlig knebet haardt for det at klare sig. Det slutter jeg
deraf, at Egernet havde grebet til et Næringsmiddel, der næppe
kan ,Skæppe" ret meget, skulde man synes. Det var mig paafal-
dende, at'der under nogle store Graner laa et helt Lag af Smaagrene,
som afveg fra de Kviste, man saa hyppig finder i Granskoven, og
som Stormene har knækket af, ved, at de var omtrent ens lange
og illdet hele taget” havde "et ensartet Udseendet idettvarklntter
aargamle Skud, som var gnavede over netop ved Grunden, saa at
Knopskællene (som Regel) iige var komne med, og her bar en
Kreds af Knopper, der var udhulede. Egernet havde oppe i Træ-
erne bidt Skuddene af, gnavet med Fortænderne ind i Knopperne,
tømt dem for Indholdet og saa ladet Skuddene falde til Jerden,
hvor de efterhaanden dyngedes op under Træerne. At det var sket
for nylig, fremgik af, at de afbidte Grene endnu bar friske Naale,
og at Bidfladen var ganske frisk.

Slige under Graner massevis aflejrede Smaagrene har forlængst
været iagttaget af Forstmænd; men det varede længe, inden man
lærte at tyde dem paa rette Maade. Man kaldte dem ,Absprinnge"
og nærede den besynderlige Anskuelse om dem, at det var Træet
selv, som kastede disse Skud af for at sikre sig mod at blive over-
læsset med Kogler — ,,Abspriinge'ne er nemlig Skud, paa hvilke
der sidder Knopper til Hanblomster. Andre mente, at det var Fugle,
som brækkede disse Skud af, snart Mejser, snart Kvæker, Kors-
næb, Kærnebider osv.; eller det skulde være Vinden, der havde

1) Jeg har for Resten ogsaa i gode Kogleaar set Egernet tage Kogler fra
Spettens Hakkesteder og underkaste dem en Efterbehandling. Slige dob-
beltbehandlede Kogler er derfor ingenlunde helt sjeldne; de synes dog
ikke at være omtalte i Litteraturen.

129

revet dem af. Det sidste kunde let modbevises, idet de Skud,
som Vinden rusker af, har en forreven Brudflade, ikke bærer Blom-
sterknopper og findes spredt overalt; de omtalte ,,Abspriinge" der-
imod er ligesom skaarne af, de bærer Blomsterknopper, som er
hulede ud og tømte for det fine Indhold, og de findes massevis
under visse Træer, slet ikke under andre. Imidlertid lykkedes det,
i Februar 1862, en Skovrider Leypold direkte at iagttage, at

C. M. Steenberg del.

Fig. 2. a. Et af Egern afbidt Skud af Rødgran, hvis Basalknopper (Anlæg til Han-

blomster) er udhulede af Egernet; Naalene er udeladt. b. En af de udhulede

Basalknopper, set forfra og halvt fra Siden. c. To Basalknopper, hvis Knopskæl
viser Gnavspor.

Fig. a. i naturlig Størrelse, b. og c. forstørrede.

det var Egernet, som bed disse ,,Abspriinge" af og hulede Knop-
perne ud. Andre Forstmænd har bekræftet Rigtigheden af denne
lagttagelse, og nu til Dags er der ingen, som tvivler om, at de i
sin Tid for den livlige Diskussion om deres Oprindelse saa be-
rømte ,,Abspringe" er Egernets Værk; det bider de unge Skud
med Knopper til Hanblomster af, huler Knopperne ud og lader
Skuddene falde til Jorden.)

1) Jfr. B. Altum: Forstzoologie, I, Såugethiere, 2. Aufl., 1876, p. 87-—89.
Vidensk. Medd. fra Dansk naturh. Foren. Bd. 76. 9

130

Jeg lader følge to Figurer, som viser det karakteristiske Ud-
seende af disse ,,Abspriinge"!), med Naale (Fig. 3, S. 140) og
uden Naale (Fig. 2. a).

Som man vil se, er disse Smaagrene Skud fra det sidste Aar;
deres Længde (maalt paa 70 Stykker) varierer fra 47—93 mm.
Spidsen bærer Endeknoppen til næste Aars Skud; langs Grenen
sidder Sideknopper, og nederst, lige over det Sted, hvor Grenen
er gnavet over, findes en Krans af Knopper (3—5), Anlæg til
næste Aars Hanblomster. Det er sidstnævnte Knopper, som er
begnavede af Egernet: den bort fra Grenen vendende Side af
Knopdækket er gnavet af skraat nedenfra opefter, og gennem den
derved fremkomne Aabning er Indholdet taget ud; af den tidligere
Blomsterknop er kun tilbage et bægerdannet Hylster, lavt fortil,
højt bagtil (Fig. 2. b og c).”) — Hyppig er ogsaa en eller flere
af Sideknopperne udhulede, Endeknoppen er i Reglen urørt, sjel-
dent udhulet.%)

1) Efter at jeg først var blevet opmærksom paa disse ejendommelige eg rn-
mærkede Grene, fandt jeg dem ogsaa i andre af Rude Skovs Granbe-
voksninger. Denne Afbidning af Skud og Udhuling af Knopper er iøvrigt
tidligere kendt her fra Landet og nævnet af J. E. V. Boas, Dansk Forst-
zoologi, 1896—98, p. 57.

2) Da Egernet kun bider Skud af, naar der er talrige Blomsterknopper paa

dem, og en saadan Beskadigelse altsaa gaar forud for et Frøaar, førte

denne Sammenhæng i Tid til den Tro, at Træet kastede sine Blomster-
skud af for at beskytte sig mod en kommende Overlæsning med Kogler

(fr. Altum, op. cit. p. 87). — Paa den anden Side mener jeg;fatidaålet

rigt Frøaar vel som Regel følger paa et Aar, hvor Blomstring og Kogle-

dannelse slaar fejl, benytter Egernet Hanblomsterne i Knoptilstand som
en Nødhjælp i den forud for Frøaaret gaaende frøfattige Vinter.

Forstzoologer (Altum, Boas) har gjort opmærksom paa, at denne Af-

bidning af Skud kan forvolde Granerne følelig Skade. Jeg kan oplyse,

at ogsaa Lærk (Larix decidua) er udsat for en haardhændet Behandling.

I Efteraaret (30/1, og 20/17) 1921 saa jeg i Prismekikkert Egern ,, arbejde” i

Toppen af høje Lærketræer i den nordøstlige Del af Rude Skov. Trods

deres Behændighed kunde de ikke naa ud til Enden af Grenene, hvor Kog-

lerne sad — Grenen er her tynd som en Snor og kan simpelt hen ikke bære

Dyret. Egernet balancerede saa langt ud ad Grenen som muligt, tog der-

efter med Forpoterne fat om Enden af Grenen, bøjede den tilbage, ind til

Munden, og bed den af. Derefter balancerede det med sit Bytte lidt t1il-

bage til et sikrere Sæde paa Grenen, bed en Kogle af den løsnede Gren,

lod denne falde til Jorden og tog saa fat paa at skrælle Skællene af

Koglen for at komme til Frøene. Det blev mig da klart, hvorfra de Dyn-

os

Sy

Da jeg 6 Uger senere, nemlig d. 3. April 1921, atter befandt
mig ved Agersø, var der ikke mere friske Spor efter Egernvirk-
somhed. Ingen Kogler fandtes, som var gnavede for ganske nylig.
Talrige ,Abspriinge" undersøgtes, men de var alle af ældre Dato,
hvilket saas deraf, at Bidfladen (9: der, hvor Grenene var bidt af)
ikke længere var frisk. Nu var Forholdet ved Agersø ganske som
i alle de andre Granbevoksninger i Rude Skov, jeg havde under-
søgt: ingen friske Spor efter Egernet kunde paavises — det syntes
ganske forsvundet fra Rude Skov.

Her kom Egernet imidlertid ret hurtigt igen. Da jeg d. Il.
August 1921 atter var ved Agersø, fandtes friskgnavede Rødgran-
kogler af dette Aars Koglesætning, ikke alene i Bevoksningen Nord
for Søen, men ogsaa i Partiet ved Søens sydlige Bred. Men ud
herover var der ingen frisk Egernvirksomhed at spore dengang.

Fra dette Egernets nye Udgangspunkt kunde jeg nu Maaned
for Maaned spore, hvorledes Egernet, begunstiget af Rødgranens
rigelige Koglesætning i Sommeren 1921, bredte sig sydefter i Sko-
ven og indtog sine gamle Pladser lidt efter lidt: Mørkemose, Løjsø,
Lille Egemose, Dilholmsvej, Sortedam og SvineSjerg. I Begyndel-
sen af Maj 1922 var Vandringen tilendebragt, og man kunde da
sige, at Egernet praktisk talt var udbredt over Rudeskov i hele
dens Udstrækning; det manglede ikke i nogen af de mange Rød-
granbevoksninger, thi alle Vegne fandtes der nygnavede Kogler.

V.
Efterhaanden som Egernet i Vinteren 1920—21 mistede Terræn
i Rude Skov for tilsidst helt at forsvinde hen paa Slutningen af
Vinteren, rejste sig det Spørgsmaal for mig: Hvad blev der af
Egernbestanden ?
Det lykkedes mig ikke dengang at besvare dette Spørgsmaal
for Rude Skovs Vedkommende. Derimod fik jeg omtrent samtidig

i en anden Skov — Geel Skov ved Holte — Indblik i, hvorledes
en Egernbestand kan bevares, selv om Rødgranen paa et vist

Tidspunkt fuldkommen svigter som Kilde til Ernæring.

ger af indtil alenlange Grene med friske Naale stammede, som laa under
Lærkene. Paa de afbidte Grene sad der ofte Kogler (indtil 5), medens
der kun fandtes Mærker efter en eneste, som Egernet havde bidt af —
det synes ødselt, at Egernet kun bider een Kogle af og lader Grenen

med de resterende Kogler falde til Jorden.
9

132

I Begyndelsen af Februar 1921 var Forholdet i Geel Skov
det, at der ikke mere fandtes frøholdige Grankogler, og i Rødgran-
bevoksningerne var der da ogsaa kun at finde egernbehandlede
Kogler, som var mørke, altsaa gnavede for nogen Tid siden, ingen
nylig gnavede.

Da var det, at jeg d. 6. Februar under min Omstrejfen i Geel
Skov kom ind i en Bevoksning af Skovfyr (Pinus silvestris) og der
opdagede en stærk Egernvirksomhed. Det er en ret anselig, af
middelstore Skovfyr bestaaende Bevoksning, som ligger tilhøjre for
Vejen fra Holte Hotel til Søllerød, imellem Skovridervej og Sten-
vej. Under Fyrrene laa der i Tusindtal af Kogler, behandlede paa
de for Egernet karakteristiske Maader. I de følgende Maaneder
skete der ingen Forandring heri: ingen Egernvirksomhed i Gran-
bevoksningerne, i Fyrreskoven stadig nye Mængder af Kogler gna-
vede. Men hen i Slutningen af Juni vendtes Forholdet om: i Fyrre-
bevoksningen fandtes der ikke mere friskgnavede Kogler, i Gran-
skoven var der paa Træerne nu kommet Kogler, som gnavedes af
Egern, skønt de endnu var grønne.

Vi har altsaa i Geel Skov iagttaget følgende:

Egernet holder almindeligvis til i Rødgranbevoksningerne, thi
dette Naaletræs Frø udgør dets sædvanlige Føde. Men indtræffer
det Tilfælde, at de frøholdige Rødgrankogler slipper op, vandrer
Egernet ind i Fyrreskoven og lever af Fyrrekoglernes Frø. I Fyrre-
skoven bliver Egernet dog kun saa længe, at Rødgranen paany
sætter Kogler, da vandrer Egernet tilbage til Rødgranen.

Fyrren kommer saaledes til at spille en vigtig Rolle for Eger-
net; thi den sikrer dets Eksistens i de Perioder, hvor Rødgranerne
ikke har Frø — og saadanne Perioder kan indtræffe, som vi har
set. Og det Tilfælde, at der samtidig skulde mangle frøholdige
Kogler baade paa Gran og paa Fyr, vil næppe nogensinde ind-
træffe. For det første indtræder disse Naaletræers Frøsætning
ganske uafhængig af hinanden, det saa jeg i Forsommeren 1920:
medens Rødgranen ingen Steder satte Kogler, var der fuldt op af
spæde Kogler paa Fyrren. Og dernæst maa man erindre, at Fyrre-
koglen har en meget længere Modningstid end Grankoglen. Alle-
rede i Løbet af det første Aar bliver Rødgrankoglen moden, aabner
sig om Foraaret og lader de vingede Frø flagre ud. Fyrrekoglen
derimod er endnu umoden og grøn Aaret efter, at den er dannet;

133

naar den er to Aar gammel, er dens Skæl bleven brune, men
Koglen er endnu lukket, og først i Løbet af Koglens tredje Leve-
aar aabner den sig og lader Frøene komme ud. Men selv om
Koglerne er grønne og deres Frø umodne i den Forstand, at de
ikke er skikkede til at spredes, begnaver Egernet dem og spiser
deres Frø lige saa gerne som de modne Frø i de brune Kogler.
Selv om altsaa det Tilfælde skulde indtræde, at Fyrren ikke satte
Kogler i et enkelt Aar — saadan som vi har hørt det om Rød-
granen i 1920 — vilde der dog ikke i noget af de følgende Aar
komme til at mangle frøholdige Kogler paa Fyrren, naar der da
er Tale om en større Bevoksning.

VR

Hvorledes Forholdene sidenhen har udviklet sig i Geel Skov
og Rude Skov, er i Korthed følgende:

Somikvihørtet forrige PAfsmit trak Egernet ti GeelfSkov;
efter i Vinteren og Foraaret 1921 at have opholdt sig i Fyrre-
lunden, atter om Sommeren tilbage til Granbevoksningerne, hvor
der alle Vegne fandt en rig Koglesætning Sted efter det fore-
gaaende Aars fuldstændige Goldhed. I 1922 slog Koglesætningen
fejl i visse Afsnit af Granskoven, men ikke i andre, og til de sid-
ste indskrænkedes Egernets Forekomst efterhaanden; skønt der
ogsaa var Kogler paa Skovfyrren, benyttede Egernet sig ikke deraf
— det synes, som om Egernet foretrækker Frø af Rødgran, naar
dette overhovedet er at opdrive.”)

Nu, i August 1923, staar vi atter over for den Begivenhed,
at Rødgranen ingen Kogler har frembragt nogetsteds i Geel Skov.
Egernet holder endnu til i de Rødgranbevoksninger, hvor der frem-
kom Køgler i 1922, men man kan se, at det begynder at knibe
for det at finde Kogler med Frø i, og Egernvirksomheden er i
stadig Aftagende der. Og samtidig har der, for første Gang siden
1921, begyndt at finde en Invasion Sted i Fyrreskoven, hvor der
under nogle Træer nu ligger Masser af egerngnavede Fyrrekogler,
baade af de grønne og de brune.

I Rude Skov havde, som omtalt under Afsnit IV, Egernet i

1) Maaske er Grunden hertil snarere den, at det sagtens er lettere at gnave
Skællene af en Grankogle end af en Fyrrekogle, hvor Skællene er meget
tykkere; desuden er jo Fyrrekoglerne ret smaa.

134

Foraaret 1922 genvundet sin tidligere Udbredelse, d. v. s. praktisk
talt over hele Skoven: Men denne Tilstand varede ikke længe. I
Løbet af Vinteren 1922—23 forsvandt Egernet atter fra alle de
mig bekendte Rødgranbevoksninger; hverken i Granerne eller paa
Jorden fandtes Kogler med Frø; i Nærheden af Højbjerg kunde
jeg finde et sidste Spor efter Egernets Tilstedeværelse i Form af
en Kogle, der var gnavet for ikke længe siden, men ellers saa
man ikke længere nylig gnavede Kogler. Man stod i Virkeligheden
ved April 1923 over for den samme Situation som ved samme
Tid for to Aar siden — Egernet syntes ganske forsvundet fra Rude
Skov. Men nu lykkedes det mig at blive klar over, at "Egern-=
bestanden ikke var død ud, og at opspore, hvor den var bleven af.

Denne Gang tog jeg mig for at gaa Rude Skov grundigt efter
og kom derved, i Slutningen af Maj, til et Parti, som jeg ikke tid-
ligere havde kendt, i Skovens sydvestlige Del, den saakaldte ,,Sække-
dam". Paa denne Højmose trives en Bevoksning af store Rød-
graner, og ved Foden af dem laa endnu hist og her en enkelt
Kogle, som var gnavet af Egern for nylig. Men det var aabenbart
kun undtagelsesvis, at Egernet havde fundet Frø nok i en saadan
Kogle til, at det havde kunnet betale sig for det at give sig i Lag
med den; i Reglen havde Dyret nøjedes med at gnave de neder-
ste Skæl af og saa givet op, da der ingen Frø fandtes i disse gamle
Kogler.

Tilstanden syntes for saa vidt ikke at være gunstigere for
Egernet i denne Granbevoksning end i de andre. Af de faa, frisk-
gnavede Grankogler fremgik imidlertid med Sikkerhed, at Egernet
maatte findes her, og jeg gav mig derfor til at gaa Bevoksningen
nærmere efter og fandt da, at der hist og her mellem Granerne
voksede Skovfyr af en ligeledes meget betydelig Størrelse. Disse
Skovfyr falder ikke stærkt i Øjnene, da de udgør en forholds-
vis underordnet Bestanddel i Granskoven og staar spredt imellem
Granerne; men gaar man hele Skovpartiet efter, bliver Fyrrenes
Antal tilsammen ret anseligt. Og disse Skovfyr var det, som op-
retholdt Egernbestanden; det fremgik deraf, at der under dem laa
store Mængder af nylig egerngnavede Fyrrekogler.

Tilstanden stiller sig altsaa for Tiden (August 1923) ens i Rude
Skov og i Geel Skov: begge Steder svigter det Træ, hvis Frø al-
mindeligvis yder Egernet dets Føde, nemlig Rødgranen; i dens

135

Sted træder Skovfyrren, den bærer, navnlig i Rude Skov, uhyre
- Mængder af frøholdige Kogler, og dem gnaver Egernet nu — og
det maa blive ved dermed i det mindste indtil Sommeren 1924,
da Rødgranen ikke har sat Kogler i Aar. Imellem de to Skove
er der kun den Forskel, at Fyrren i Geel Skov danner en sam-
let Bevoksning, i Rude Skov derimod vokser spredt i en Rød-
granbevoksning, hvorfor det her kunde se ud, som om Egernet
holder Stand i en Bevoksning af Rødgran. Men Forskellen er jo
kun tilsyneladende, da det er Fyrrene i Granskoven, som ernærer
Egernet.

Efter dette Fund indser jeg, at Grunden til, at jeg ikke kunde
finde ud af, hvad der blev af Rude Skovs Egernbestand i Løbet
af Vinteren 1920—1921, var den, at jeg ikke kendte den med
Skovfyr blandede Granskov i Sækkedam — havde jeg den Gang
undersøgt dette Parti af Rude Skov, vilde jeg nok have fundet det
samme som i Aar: For at undgaa Hungersnød i de frøtomme Rød-
granbevoksninger har Egernet trukket sig ned til dette Skovens
sydvestlige Parti med de frelsende, frøbærende Skovfyr.?”)

VIL

Resultatet af vor Undersøgelse kan vi sammenfatte saaledes:

Størst Betydning for Egernets Trivsel her i Landet har Rød-
granen (Picea abies), hvis Frø det særlig ynder. Men dette Naale-
træ frembringer ikke konstant Kogler hvert Aar. Der indtræffer
ofte Aar, hvor ikke een Gran i en hel Bevoksning sætter Kogler,
af og til ogsaa Aar, hvor en Skovs samtlige Rødgranbevoksninger
undlader at sætte Kogler, og det kan endog hænde, at der gaar

1) Ejheller kan Løvskoven byde Egernet Erstatning, da der ingen Bog fin-
des i Aar. i
I saa at sige hver eneste Fremstilling af Egernets Biologi kommer igen
den Ytring, at Egernet om Sommeren og Efteraaret samler sig Forraad
af Hasselnødder, Bog, Agern, Gran- og Fyrrefrø 0. 1. og gemmer det i
hule Træer, under Trærødder, mellem Mos, i Huler i Jorden osv

Jeg maa dertil bemærke, at jeg ingensinde har kunnet finde mindste
Spor af Forraad, som kunde hidrøre fra Egern. Jeg er tilbøjelig til at
tro, at der til Grund for Fortællingerne om Egernets Vinterforraad ligger
en Forveksling med de Ophobninger af slige Fødemidler, som saa al-
mindelig findes paa Musenes skjulte Spisesteder i Skoven (jfr. Ad. S
Jensen: Muse- og egerngnavede Kogler; Vidensk. Medd fra Dansk
naturh. Foren. Bd. 71, 1920

37

136

to Aar itræk, uden at Granerne i en Skov frembringer Kogler.
Disse Vekslinger i Henseende til Frøsætning fremkalder Egern-
vandring.

Hvis Koglesætningen slaar fejl i nogle af en Skovs Rødgran-
bevoksninger, men ikke i andre, vandrer Egernet over i de Be-
voksninger, hvor Koglesætning finder Sted. Hvis Koglesætningen
slaar fejl i en Skovs samtlige Rødgranbevoksninger, og der i denne
Skov findes et større Antal Skovfyr (Pinus silvestris), enten som
samlet Bevoksning eller som Indblanding i en Rødgranbevoksning,
vandrer Egernet til Partiet med Skovfyr og lever af Fyrrens Kogle-
frø, indtil der paany dannes Kogler i Rødgranbevoksningerne, da
vandrer Egernet atter tilbage til disse. Men hvis der ingen Fyr
findes i en Skov, og Egernet ikke har dette Naaletræs Frø at
falde tilbage paa, kan det medføre Egernets totale Forsvinden, i
alt Fald naar der ikke fremkommer Kogler paa Rødgranerne to
Aar itræk.

Skovfyrrens Betydning som Reservenæring for Egernet for-
øges derved, at den godt kan sætte Kogler i saadanne Aar, hvor
Rødgranen slaar fejl, og dernæst ved, at Fyrrens Kogler først aab-
ner sig og slipper Frøene i det tredje Aar efter Koglens Dannelse,
medens Granen spreder Frøene allerede i Koglens første Aar —
derfor vil Fyrren vist sjeldent være uden Næring for Egernet, da
det gnaver saavel de modne som de umodne Koøogler. Egernet
kan derfor næppe tænkes at kunne dø ud af Mangel paa Næring
i Skove, hvor der foruden Rødgran findes Skovfyr i større An-
tal,"”) medens det kan ske i Skove, hvor der kun vokser Rødgran.
Eksempler paa den første Slags Skove har vi fundet i Geel Skov
og Rude Skov ved Holte, paa. den anden Slags i Klingstrup Skov
og Vejstrup Dyrehave ved Skaarup.

Fra mange Lande, ogsaa Danmark, foreligger der Beretninger
om, at Egernet er forsvundet fra Skovstrækninger, hvor der tid-
ligere var mange Egern. Man har søgt at forklare dette Fænomen
paa forskellig Maade: Sygdomme, saasom Indvoldsorme eller Skab,
harkudryddet kDyreneeller det ertpleyne et bytte korElers

1) Efter hvad jeg har set i Thorsager og Hjøllund Plantager, spiller i Hede-
plantagerne Bjergfyrren (Pinus montana) en lignende Rolle for Eger-
net, som Skovfyrren i de gamle Skove.

137

stræbelser fra Rovfugle og Rovdyr, navnlig Skovmaar; eller Gran-
- møllet (Phycis abietella) har ødelagt Koglerne, som Egernet skulde
leve af; eller ugunstigt Vejrlig har fremkaldt Mangel paa Næring
og derved foraarsaget Udvandring; osv.

Disse Forklaringer faar staa ved deres Værd. Men ved frem-
tidige Hændelser af den Art kan de i denne Afhandling fremdragne
Iagttagelser muligvis bidrage til at kaste Lys over Fænomenet.

sk :

kittøjelse

I det foregaaende er skildret Egernets periodiske Optræden og
Forsvinden indenfor Skovstrækninger, hvor det er kommet ind.
Hertil kunde føjes den Bemærkning, at Egernet her i Landet efter
egne og andres Iagttagelser for Tiden har en stærk Tendens til
at brede sig til Egne, hvor det ikke tidligere har levet. Da jeg
har kunnet følge et saadant Tilfælde, og det giver et ganske godt
Billede af Tempoet i Egernets Fremtrængen over et anseligt Ter-
ræn, benytter jeg Lejligheden til at omtale det her, skønt det
egentlig ligger udenfor denne Afhandlings Ramme.

I Begyndelsen af Juli 1919 undersøgte jeg ret indgaaende Sko-
vene ved Silkeborg for musegnavede Kogler. Under denne Ran-
sagning stødte jeg i Vesterskov (nær ved Kuranstalten) ved Foden
af en stor Rødgran paa nogle faa Kogler, som var gnavede af
Egern, og det var sket for ganske nylig. Der kunde ikke findes
flere egerngnavede Kogler end disse, hverken i Vesterskov eller i
nogen af de andre Skove ved Silkeborg, ej heller havde Skov-
arbejderne eller stedkendte, naturhistorisk interesserede Personer
nogensinde set Egern i Skovene ved Silkeborg. Det var øjensyn-
lig det første Spor af en Nykommen, jeg her var stødt paa.

Siden den Tid har jeg hvert Aar, i Juli Maaned, kunnet
se, hvordan Egernets Udbredelse skred frem. I 1920 havde det
bredt sig over et anseligt Terræn i Vesterskovs nordlige Del; her
fandtes mange egerngnavede Rødgrankogler, dels lyse og nygna-
vede, dels mørke og ældre, men dog øjensynlig gnavede i Løbet
af det sidste Aarstid. Endvidere fandtes i Sønderskov 2 ganske
nylig gnavede Kogler, men trods ivrig Søgen heller ikke flere —
et Tegn paa, at Egernet lige var naaet til denne Skov. I ingen
af de andre Skove ved Silkeborg var der Spor efter Egern.

138

I 1921 havde Egernet bredt sig til nye Partier af Vesterskov,
men Dyret sporedes nu mest ved de mange nygnavede Kogler af
Skovfyr — ogsaa i denne Skov var Rødgranens Koglesætning slaaet
fejl i 1920, hvorfor Egernet havde slaaet sig paa Skovfyr, men nu
gnavede det desuden de ganske unge (grønne) Rødgrankogler fra
VO2TS)

I 1922 laa der store Mængder af egerngnavede Rødgrankogler
overalt i Vesterskov, og nu var de ogsaa i Mængde i Sønderskov;
desuden fandtes der mange nygnavede Kogler i Østerskov, Kob-
skov og Nordskov. Endelig i 1923 saa jeg ogsaa i Lysbroskov
store Mængder af egerngnavede Rødgrankogler.

I 1919 er Egernet altsaa kommet ind i Vesterskov, og i Løbet
af 1920—23 har det naaet at brede sig over alle de Skove der
ligger ved Silkeborg — tilsammen et af vort Lands større Skov-
arealer”) — og at blive almindeligt overalt.

Egernet har ogsaa faaet Indpas i den store af Rødgran, Hvid-
gran og Bjergfyr bestaaende Plantage ved Hjøllund S.V. for Silke-
borg. At Egernet er kommet hertil for ikke lang Tid siden, frem-
gaar af, at blandt de mange egerngnavede Kogler, jeg fandt der i
Juli 1922, var der vel adskillige ældre (mørke), men rigtig gamle
(sorte) fandtes ikke.

Denne Tydning af de begnavede Koglers Alder stemmer med
en Meddelelse af den kendte Skovfrøhandler Johannes Rafn om,
at han i Juli 1919 for første Gang fandt nogle faa egerngnavede
Rødgrankogler i Skjærbæk Plantage, der er en østlig Udløber af
Store Hjøllund Plantage. Ifølge samme Forfatter synes Snabegaard
Plantage at have været et Udgangspunkt for Egernet paa disse

Kanter; han skriver nemlig (i 1920) SF): ,…... i Snabegaard Skov
fandtes for 5—6 Aar siden ingen begnavede Kogler og altsaa hel-
ler ingen Egern — nu findes Masser af ødelagte Kogler. I 1918

1) I Vinterens Løb havde Egernet ogsaa gnavet Hanblomsternes Knopper,
thi der laa under Granerne mange af de før omtalte ,,Absprunge" med
Knopperne ved Grunden udhulede af Egern.

2) Dets Udstrækning er i Ø.—V. omtrent 9, km, i S.V.—N.O. ligeled-s
omtrent 9,5; km, og det udgør ca. 2500 ha Land.

3) Johannes Rafn: Skovfrøanalyser i Sæsonen 1918—19, samt lidt om
Egern. (Dansk Skovforenings Tidsskrift 1920),

139

gik Egernet over Lystrup Aa, og i 1919 fandt jeg i den vestlige
" Udkant af Velling Skov de første begnavede Rødgrankogler, og
allerede i sidste Halvdel af Juli saa jeg Egern sidde i Bjergfyr-
toppene og fortære Kogle efter Kogle, saa Jorden var dækket med
ituskaarne Kogleskjæl." Med Hensyn til Velling Skov kan jeg be-
kræfte Rafns Fremstilling; i 1917 fandt jeg intet Spor efter Egern
i denne Skov, i 1923 var Rødgranbevoksningerne oversaaede med
egerngnavede Kogler.!)

Det er ikke alene i Jylland, at Egernet breder sig, ogsaa paa
Fyen og Sjælland er det under Fremrykning, hvilket jeg kan illu-
strerekvedtettPbar "Eksempler!

I Sommeren 1919 undersøgte jeg Skovene omkring Langesø i
Nordfyen (N.V. f. Odense) meget nøje uden at finde mindste Spor
efter Egern. Nu i Sommer (1923) var der Mængder af egerngnavede
Kogler.

Hvad Sjælland angaar, har Prof. Raunkiær, med Bistand af
andre Botanikere, kortlagt Egernets Udbredelse i Sommeren 1919
paa Grundlag af en Eftersøgning i 230 sjællandske Skove efter
Rødgrankogler, som var gnavede af Egern. Undersøgelsen viste,
at der fandtes to Egernomraader, nemlig et større vestsjællandsk
Omraade og et mindre Omraade nord for København; deres Græn-

1) Rafn giver et ikke helt korrekt Billede af Egernets Koglegnavning, naar
han skriver (1. c. p. 63): ,,De forholdsvis smaa Pinus-Kogler fortærer Eger-
net siddende i Træerne, medens Rødgrankoglerne altid ses at være be-
gnavede paa Jorden; de afgnavede Kogleskæl findes ikke spredte over
Skovbunden, men ligger i smaa tætte Hobe omkring den helt eller del-
vis afønavede Kogle-Akse..Om Egernet selv nedskærer Rødgrankoglerne
eller venter, til de kastes ned af Stormen, har jeg endnu ikke haft Lej-
lighed til at iagttage, men tror afgjort, at Egern først giver sig i Lag med
Rødgrankoglerne, efter at de er falder ned." Af dette Forhold har jeg
i min før citerede Afhandling, p. 101—02, givet følgende Fremstilling:
len nEsern-=sSkov rr finder man tit smaa Bunker af Skæl og Frøvinger
ved Siden af de gnavede Kogler (af Rødgran), thi Egernet gaar ofte ned
fra Træerne og gnaver Koglerne paa Jorden. Men desuden ser man store
Mængder af gnavede Kogler spredt over Skovbunden, uden at der ligger
Skæl og Frøvinger ved; det kommer af, at Egernet hyppig bider Koglerne
af Grenene og gnaver dem oppe i Træerne; Skæl og Frøvinger drysser
ned og spredes, og tilsidst kastes den gnavede Kogle ned." Paa den anden
Side finder man af og til Fyrrekogler, som Egernet har gnavet paa Jorden.

140

ser vil ses af det Afhandlingen ledsagende Kort.) Paa dette Tids-
punkt dannede Geel Skov og Rude Skov Vestgrænsen for Egernets
Udbredelse i Nordsjælland. Men d. 26. December 1921 fandt jeg
nogle faa (3) Grankogler, som nylig var gnavede af Egern, i Fre-
deriksdals Skov, nær ved Hulsø. Flere kunde ikke findes, men
allerede i August det følgende Aar var der mange egerngnavede
Kogler ikke alene i Frederiksdals Skov, men ogsaa til Bøndernes
Hegn og de nærmere liggende Granbevoksninger i Store Hareskov
var Egernet nu naaet.

1) Egern, Mus og Grankogler. En naturhistorisk Studie af C. Raunkiær.
(Det Kgl. D. Vidensk. Selsk. Biol. Meddel. II, 4, 1920).

C. M. Steenberg phot.

Fig. 5. To af de saakaldte »Abspriinge«, d.v.s. af Egern afbidte Skud af Rødgran
(jfr. S. 130). — Naturlig Størrelse.

Ss=10-1928!

En pludselig masseforekomst af Sepia-skaller
vedtkærøerne 1 foråret. 1923:

Af
R. Spårck.

(Meddelt i mødet d. 9de novbr. 1923.)

Åoologisk museum modtog i foråret 1923 fra forskellig
side forespørgsler om, hvad det var for ejendommelige skaller,
som i betydeligt antal begyndte at drive i land flere steder på
Færøerne. En undersøgelse af skallerne viste, at disse hidrørte
fra Sepia officinalis L. Da skallerne efter alle hjemmelmænds een-
stemmige udsagn var aldeles ukendte for den færøiske befolkning,
og da der ej heller i litteraturen kunde findes nogen oplysning om,
at sådanne skaller var fundet på Færøerne, mente jeg, at en nøjere
undersøgelse af fænomenet vilde have nogen interesse. Jeg hen-
vendte mig til flere af de, der havde indsendt forespørgsler til
museet, og bad dem søge at skaffe nøjere oplysninger om, hvor
og hvornår skallerne drev ind, i hvor stort antal o.s.v. Fra d'hrr.
læses KÆR ds mms sen EjdeorK overretssagfører PP: Effertsøe;
Thorshavn, har museet modtaget adskillige særdeles værdifulde op-
lysninger, der delvis ligger til grund for nedenstående lille med-
delelse.

Skallerne, af hvilke en halv snes stykker blev sendt til museet,
lignede i størrelse og øvrige udseende de Sepia-skaller, der under-
tiden driver op på den jyske vestkyst, Længden af de skaller,
jeg har set, lå mellem 130 og 180 mm. De bar i nogen grad
præg af at have ligget i vandet (kanterne undertiden slidt af o.lgn.);
enkelte var grønlige på grund af grønalgebevoksning, andre helt
hvide. Så godt som alle skallerne havde på undersiden nogle sær-
deles karakteristiske tresidede fordybninger. Efter hvad hr. mag.
scient. R. Hørring elskværdigst har gjort mig opmærksom på, må
disse fordybninger være fremkommet ved fuglebid, formentlig hid-

142

rørende fra måger. Også på en del af de på den jyske vestkyst
ilanddrevne skaller, som findes i Zool. museum, er der sådanne
mærker, og for disses vedkommende kunde det påvises, at de gan-
ske nøje passede til overnæbbets form hos Larus marinus. På de
færøiske skaller var fordybningerne gennemgående mindre, og må
derfor antages at stamme fra mindre mågearter.

På grund af skallernes ofte ret ødelagte tilstand er det vanske-
ligt med sikkerhed at afgøre, til hvilken af de i sin tid af Lafont
(1869 p. 11, 1871 p. 237) opstillede varieteter eller småarter (thi
om andet drejer det sig næppe) de bør henregnes. Posselt (1893
p.142) har i sin tid henført de i Danmark ilanddrevne til S. Fil-
liouxi Laf. Af de færøiske skaller tilhørte ingen S£S. officinalis s. s.;
efter størrelsen må de tilhøre S. Filliouxi, men de har ikke altid
(lige så lidt som de danske) den regelmæssige begrænsning af det
stribede parti, som efter Cuénot (1917 p. 323) skal være karak-
teristisk for denne form. Ligeledes synes det stribede parti, såvidt
det kan ses til trods for den slette konserveringstilstand, hos ad-
skillige eksemplarer at nå betydeligt over skallens midte, således
som det skal være karakteristisk for S. Fischeri Laf. Der er så-
ledes mulighed for, at begge de sidstnævnte former Filliouxi og
Fischeri er repræsenterede i det færøiske materiale.

Som ovenfor nævnt drev skallerne i land i foråret 1923. Ifølge
meddelelse fra læge Rasmussen er de første skaller drevet ind
i vigen nord for Ejde (Østerø) d. ””/2, den sidste skal drev ind
her d. 75/5. Heller ikke fra andre steder har jeg fået oplysning om,
at skallerne er drevet ind før eller efter de nævnte datoer. Fra
den omtalte vig, Mølen, nord for Ejde, har læge Rasmussen
skaffet særdeles nøjagtige oplysninger (ved at betale for de skaller,
der bragtes ham) både om hvilke dage, skallerne drev ind, og i
hvor stort antal. Resultatet var følgende:

Antal Antal

skaller skaller
18 fRA RE REN 2 ESSENS GARD, Sen MS NG ODA ER 6
BERN JE sk ros BED SRREN NER BUE 5] ØRN VBN VER 17 Å Stærk nordl:5eg
RR RR Mer HE DET RE 52 f | nordøstvind
CAUSE ASA RES ERER re Pe, SEERNE STN: KEANE 0 Sydlig vind
CAST NE ES SEERE RESENS 3. 2%/,—10/. ,,.ganske enkelte Skiftende vind
NES REE RED oe LEN DES NERE ESS MERETE se 1. Nordlig vind

16/4 MH ESS een 25 Nordøstiigsviked

143

I denne lille vig er der altså inddrevet over 105 skaller, største-
parten i dagene 7—26/, og 1?—17/5, i begge tilfælde med stærk
nordøstlig vind. Ifølge læge Rasmussens oplysninger er der end-
videre drevet skaller ind på følgende steder på den nordlige del
af Strømø og Østerø: Tjørnevig, Haldersvig (de første d. ”/2),
Langesand, Strømnæs, Kvalvig, Thorsvig, Øre, Nordskaale, Svinaa,
Ejde (kun 1 skal, %/4, sydl. vind), Gjov, Funding, Fundingsbotn
(2/1—36/,, ca. 50 skaller), Eldervig, Andefjord, Fuglefjord, Lervig,
Gøte. Ifølge meddelelse fra overretssagfører P. Effersøe er der
drevet skaller ind ved Thorshavn, på Nolsø (ca. 300, medio marts
—medio maj, kun med sydøstlig vind), Hestø, Kolter (kun enkelte
skaller), Skarvenæs på vestsiden af Sandø, Husvig på østsiden af
Sandø (begge steder mange skaller, ved Skarvenæs kunde man på
stranden samle en halv spand på een dag), Midvaag. Sørvaag (slut-
ningen af februar—medio maj, vestlig vind). Fra de nordøstlige
øer og fra Suderø haves ingen oplysninger, fra Vestmanhavn på
nordvestsiden af Strømø oplyses, at ingen skaller er drevet ind.
Efter dette synes skallerne at være drevet ind praktisk talt over
alt, i hvert fald på de midterste øer, dog mest på de mere åbne
kyster, i ringere grad i de smalle sunde mellem visse øer. Efter
de nævnte tal må det for det. samlede område dreje sig om tusin-
der af skaller, navnlig da et meget stort antal ifølge forskellige
beretninger knuses i brændingen og således ikke driver op.

Som ovenfor nævnt var Sepia-skallerne aldeles ukendte for be-
folkningen på Færøerne, hvor ingen erindrede forhen at have set
sådanne skaller drive ind. Dette stemmer ganske med, hvad der
i litteraturen findes oplyst angående udbredelsen af Sepia officinalis.
Mørch (1868 p. 101) omtaler ikke i sin oversigt over Færøernes
bløddyr (hvor Steenstrup har skrevet afsnittet om blæksprut-
terne) Sepia, hverken som tilhørende Færøernes fauna, ej heller
at skallerne driver iland dér (dette omtales derimod for Spirulas
vedkommende).') Fra Norge omtales Sepia af Otto Fr. Miller

1) Det eneste, der tyder på et tidligere fund ved Færøerne, er en tilføjelse
med Mørchs håndskrift) i Zool. museums eksemplar af hans oven-
nævnte afhandling. Det meddeles her med sysselmand Miller som
kilde, at Sepia-skaller under navn af Grøjeskel bruges som sårmiddel
på Færøerne. Det færøiske navn kan tyde på, at skallerne forhen er
drevet ind her.

144

(1776 7232) og Erik Pontoppidan (175S'p288) uden nøjere
lokalitetsangivelse.. Under en diskussion ved det skandinaviske
naturforskermøde 1844 (De skandinaviske Naturforskeres
fjerde Møde i Christiania p. 232—33) oplyste Boeck og
Rasch at der i visse år var inddrevet mange Sepia-skaller ved
Moss og på øerne ved Frederiksværn, samt at en mængde hele dyr
et år var drevet på land ved Frederiksværn. Fra Sverige omtaler
Linné (1746 p. 367), at skaller af Sepia officinalis driver i land
ved Skåne (endog ,quot annis"). Lovén (1845 p. 122) omtaler,
at skaller af Sepia hyppigt kastes i land ved Bohuslån, men til-
føjer ,integra autem specimina raro obvia". Malm (1855 p. 47)
meddeler at have set en Sepia officinalis paa Gøteborgs fisketorv.
Fra danske farvande haves oplysning hos Posselt (1892 p. 142);
her driver' skallerne, navnlig på Jyllands vestkyst, ofte ind i hun-
dredevis. Ved de britiske øer omtales Sepia officinalis hos Forbes
& Hanley (1853 p. 238) som almindelig undtagen ved den nord-
ligste del. Macgillivray (1843 p. 29) skriver f. eks. at skallerne
kun sjældent findes ved Aberdeenshire, og at dyret aldrig er fundet
dér.) Længere mod syd, i Middelhavet og ved Frankrigs kyst, er
S. officinalis særdeles almindelig.

Om denne blækspruttes biologi findes oplysninger hos Cué-
mot t(TOLTEpØFSIS)NE DEF oplyses Fherttat formerne HErONSIRKOE
Fischeri i forårsmånederne (henholdsvis marts og april) kommer ind
til kysterne, hvor de yngler. Når skallerne i år i så store mæng-
der er drevet ind ved Færøerne, kan dette næppe forklares på
anden måde end, at disse dyr under deres vandring ind mod kysten
i vinterens løb på grund af ganske særlige strømforhold er bragt
på afveje og ført mod nord, formentlig ud i Skagerak og den syd-
lige del af Nordhavet, hvor de i stort antal er omkommet, hvor-
efter en del af skallerne er ført på land ved Færøerne.

1) Ifølge det engelske blad ,,Fishing News" (for 12/5 23) er der i for-
året 1923 drevet adskillige skaller ind ved Nordskotland, hvor der iår
også er fanget adskilliige levende Sepia.

145

Litteratur.

L. Cuénot: Sepia officinalis est une éspéce en voie de dissociation. (Arch.
zool. expér. gen. 56.) Paris 1917.

E. Forbes & S. Hanley: A history of British mollusca. IV. Lond. 1853.

Lafont: Note sur une nouvelle espéce de Sepia des cåtes de France.
(Journ. conch. 17). Paris 1869.

— Note pour servir å la faune de la Gironde. (Actes soc. lin.

Bordeaux. 28.) Bordeaux 1871.

C. Linné: Fauna Suecica. Stockholmiæ 1746.

S. Lovén: Malacologiska notiser. Om nordiska Cephalopoder. (Ofvers. k.
vet. ak... handl. 1845.) Stockholm 1845.

V. Macgillivray: Å history of the molluscous animals of the counties of
Aberdeen etc. Lond. 1843.

A. W. Malm: Malakozoologiska bidrag till skandinavisk fauna. (Gåteborgs

vet. 0. vitth. samh. handl. 1855.) Gåteb. 1855.
Miller: Zoologicæ Danicæ Prodromus. Hauniæ 1776.
L. Mørch: Faunula Molluscorum Insularum Færoensium. (Vid. Medd.
Naturh. For. 1867). Kjbhv. 1868. '

E. Pontoppidan: Det første Forsøg paa Norges naturlige Historie. Il.
Kjbhv. 1753.

H. Pøsselt: Cephalopoda. (Det vidensk. Udbytte af Kanonbaaden ,, Hauch"s
Togter).. Kjbhvn. 1893.

OSE
OMA:

Summary of the Contents.

On a sudden multitudinous occurrence of Sepia-
shells at the Faroes in the spring 1923.

I. In the spring 1923 a great number of shells of Sepia of-
ficinalis L. were washed ashore in several places at the Far-
oes. The first shells were observed on February 13th, the last
on May 25th 1923. The total number of shells at all the is-
lands must be estimated at many thousands. In small inlets
about 50 shells were washed ashore on certain days.

IL. In appearance the shells are very much like those some-
times washed ashore on the western coast of Jutland. The

Vidensk. Medd. fra Dansk naturh. Foren. Bd. 76. 10

146

length of the shells varies from 130—180 mm. Many of the
shellst wore marks evidently due to bites from birds, presum-
ably gulls. On a single Sepia-shell remains of the animal
itself is said to have been found. The shells belong to the
sub-species Filliouxi Laf., some few perhaps to Fischeri Laf.

INT. Sepia officinalis was formerly never found at the Faroes,
and the shells were totally unknown to the inhabitants. Ac-
cordinet tollliferature (El ove DE OPD SESERET amie yes 0ls-
selt), the southern coast of Norway, the coast of Bohuslån
and the northern part of Scotland seem to be the hitherto
northernmost finding places of shells of Sepia; in these places
a few whole animals were furthermore found. The sudden
occurrence of thousands of shells of this south- and west-
european species at the Faroes in 1923 is hardly to be ex-
-plained in any other way than by supposing considerable
change in the currents of the North-European seas to have
taken place this year.

9—=10—1923.

Huslenesved"de"danske” Fyr 117927.
39%te Aarsberetning om danske Fugle.

Ved
R. Hørring.

[4921 indsendtes fra 35 af de danske Fyr og Fyrskibe til
Universitetets zoologiske Museum ialt 580 Fugle af 65 Arter, faldne
om Natten i Træktiderne. Sikker Efterretning haves om 1086 arts-
bestemte Fugle, idet Prøver af disse ere indsendte. Ifølge Fyr-
mestrenes Oplysninger, der dog desværre ikke have været led-
sagede af Prøver, er yderligere opsamlet c. 250 Fugle, hvoraf c.
142 angaves at være Drosselfugle, 54 Lærker, 5 Vadefugle, 3 Knorte-
gæs, 3 Ænder og Resten forskellige Smaafugle. Nøjere Efterret-
ning haves saaledes om c. 1335 Fugles Død ved Fyrene. Ved
Fyrskibene angives blot c. 100 at være faldet udenbords. I det
hele synes der saaledes, at regne efter de indkomne Oplysninger,
mindst at være faldet omkring 1435 Fugle.

Fuglefaldet var saaledes i 1921 i det hele meget betydeligt under
det sædvanlige. Medens Foraarstrækket afspejlede sig i et nærmest
normalt Fald ved Fyrene, var dette om Efteraaret langt under det
normale. Grunden hertil laa lige for og skyldtes de abnorme klima-
tiske Forhold. I August, der var paafaldende kølig, var der næsten
ingen Torden med paafølgende Regntykninger, hvilket altid giver stærkt
Fuglefald; i hele September, Oktober og største Delen af Novem-
ber vare klare Nætter, uden Taage, Dis og Regntykning, i ganske
usædvanlig Grad fremherskende. Følgen var, at saa godt som intet
faldt i September, og i Oktober var der kun i ganske enkelte Næt-
ter hen imod Maanedes Midte lidt Tilløb til størrre Fald; ogsaa i
hele November faldt ganske usædvanlig lidt og fra mange Fyr med-
deles. det ogsaa udtrykkeligt, at Fuglefaldet dette Efteraar havde
været ganske usædvanlig ringe. Det maa i denne Sammenhæng

10£

148
(1921.)

udtrykkelig bemærkes, at de lave Tal iaar ikke, som i de fore-
gaaende Krigsaar, for en Del skyldtes, at endel Fyrskibe vare ind-
dragne.
De Fyr, hvorfra Fugle indsendtes vare:
Graadyb Fyrskib. R. M. Nielsen, Fører (29 Fugle fra 19 Nætter).
Sædenstrand Fyr. P. Larsen, Fyrmester (1 fra 1 Nat).
Blaavands Huk Fyr. C.G. Christensen, Fyrmester (28 fra 3
Nætter).
Vyl Fyrskib. A. Rasmussen, Styrmand (116 fra 61 Nætter).
Horns Rev Fyrskib. Toftgaard Nielsen, Fører (53 fra 23
Nætter).
Lyngvig Fyr. C. A. Hansen, Fyrmester (31 fra 4 Nætter).
Bovbjerg Fyr. 'S.J: Beldring, Fyrmester (2 fra=1 Nat):
Lodbjerg Fyr: J.A: Tendal, Fyrmester'(17”fra75"Nætter)
Hanstholm Fyr. E. Holm-Hansen, Fyrmester (6 fra 2 Nætter).
Skagen Fyr. N. Christensen, Fyrassistent (15 fra 3 Nætter).
Hirtsholmenes Fyr. J. N. B. Høeg, Fyrmester (15 fra 3 Nætter).
Læsø Trindel Fyrskib. S. Winther, Fører (21 fra 5 Nætter).
Læsø Rende Fyrskib. A.P. Jensen, Fører (31 fra 8 Nætter).
Østre Flak Fyrskib. A. A. Porse, Fører (3 fra 3 Nætter).
Anholt Knob Fyrskib. M. Trondal, Styrmand (24 fra 6 Nætter).
Anholt Fyr. M. P. Ændersen, Fyrassistent (1 fra 1 Nat).
Hesselø Fyr. K. A. Jensen, Fyrmester (39 fra 6 Nætter).
Schultz's Grund Fyrskib. E. Rasmussen, Styrmand (36 fra 14
Nætter).
Fornæs Fyr. K. Agerskov, Fyrmester (2 fra 1 Nat).
EljelmtkyraRESPASEESEN ile Isen yamestert (SEAN at)
SejrøRkyreJÆNSEZÆN elser mEyrmeste rd SE fraN at)
Vestborg Fyr. H. V. O. Westermann, Fyrmester (13 fra 6 Nætter).
Gilleleje Flak Fyrskib. I. S. Ibsen, Fører (19 fra 12 Nætter).
Drogden Fyrskib. Jul. S. Jensen, Fører (4 fra 4 Nætter).
Stevns Fyr. H. Roed, Fyrmester (11 fra 3 Nætter).
Sprogø; Fyr. EHaubirk, Fyrmester "(4 fra "1 Nat):
Kjels Nor Fyr. Chr. Ryder, Fyrmester (10 fra 5 Nætter).
Æbelø Fyr. G. A. Petersen, Fyrmester (8 fra 2 Nætter).
Helnæs Fyr. S. P. Mortensen, Fyrmester (1 fra 1 Nat).
Skjoldnæs Fyr. H. Wirtz, Fyrmester (1 fra nm Nat).
Christiansø Fyr. H. M. Hansen, Fyrassistent (5 fra 3 Nætter).

væ9
(1921.)

Hammeren Fyr. A. M. Dam, Fyrmester (8 fra 2 Nætter).
— Dueodde Fyr. C.Liisberg Poulsen, Fyrmester (4 fra 3 Nætter).
WløentbyrstARPSEltas'senstFyrmester (1 fra INN al).
Gedser Rev Fyrskib. '"K. E. Skovgaard, Styrmand (10 fra 4
Nætter). |
De Fugle, der indkom til Zoologisk Museum som faldne i 1921,
vare:
Anas erecca
PNPagonetta glacialis (L.) 1:
SEE Clangula slauciont (LL) TI:
4... Tachybaptes minor (Gml.) 1.
SEER Co Lym bus glacidlis RES
6. Procellaria leucorrhoa Vieill. 1.
7:… Fulmarus glacialis (L.) 1.
SEERallus"aquaticus HE: 2:
9. Gallinula chloropus (L.) 1.
IOSEREn rca atra ER 2.
11. Vanellus cristatus Wolf & M. 2 (5 faldt).
IPR C//aradrius pluvials EM
FSERPA ets hypoleuca (EL):
14. Totanus glareola (L.) 1.
ISS red canulus ER 2:
Io mned alpina tk 3:
17... Limnocryptes gallinula (L.) 7.
18. Gallinago scolopacina Bp. 1.
19. Sterna macrura Naum. 1.

ONE aleoræsalor EM

21. Columba palumbus L. 2.

PPM (Cypselustapus (JES T(CÆ53Rfaldt)'
PSR ONE MlDS canorus EJE

PAN lyrsetorduillar 2:

25... Corvus monedula ÅL. 1.

PORER Corvuskfrugilegus ENE

27... Ampelis garrula (L.) 4.

PSNERHirundot tusiea ENE

29. Alauda arvensis L. 145 (205 faldt).
30. . Sturnus vulgaris L. 71 (104 faldt).
31. "Troglodytes parvulus Koch 1.

(1921.)
32.
33.
34.
35:
36.
Syg
38.
39:
40.
41.
42.
43.
44.
45:
46.
47.
48.
49.
SOk
Bk
JV%
BSK
54.
SOE
562
SK
58.
59.
60.
GE
62.
63.
64.
65

150

Accentor modularis (L.) 1.

Paris major Esk

Sylvia cinerea Bechst. 2.

SIDI rUC ARS ME

Sylvia atricapilla (L.) 1.

Sylvia hortensis Bechst. 8.

Hypolais icterina (Vieill.) 2.
Acrocephalus arundinaceus (Lightf.) 2.
Acrocephalus phragmitis (Bechst.) 3.
Phyllopseustes trochilus (L.) 9.
Phyllopseustes rufus (Lath.) 2.
Regulus cristatus Koch 9 (11 faldt).
Anthus pratensis (L.) |.

Anthus obscurus (Lath.) 1.

Anthus arboreus (Gml.) 3.
IurdustilaceustEk ST (224 faldt)
Turdus musicus L. 49 (c. 207 faldt).
Murdustollarstleee eN 7 faldt)
Turdus merula L. 50.
Saxicolakoenanthet(LO)Nt2:
Braticolatrubetra (Eye

Ruticilla phoenicura (L.) 13.
Erithacustrubeculat(E)ETH Elad
Muscicapa atricapilla L. 13.

Passer domesticus (L.) 1.

Fringilla coelebs L. 3.

Fringilla montifringilla L. 6 (38 faldt).
Chrysomitris spinus (L.) 1.
Carduelis elegans Briss. 1.
Cannabina linaria (L.) 5.

Emberiza schoeniclus L. 6.
Emberiza hortulana L. 1.

Emberiza cilrinella L. 1.

Em berkASmIvVAlSsKISNee:

Af de faldne var 1, nemlig Colymbus glacialis, ikke faldet ved
Fyrene i Løbet af de foregaaende 35 Aar. Tallet paa de Arter,
der ere faldne 1 Løbet”af "de sidste 36 Aar, er dermed” naadetkop
ins:

Si
(1921.)

Fortegnelse over de Fugle, der ere indsendte fra Fyrene
som faldne om Natten.

Hver Nat henregnes til den følgende Dag>.

1... Anas crecca. Krikand.
September: dte Dueodde 1 g'jun.
2... Pagonetta glacialis. Havlit.
Februar: Idje Stevns IZad.
3. Clangula glaucion. Hvinand.
November: dte Sædenstrand 1 gad.
4.. Tachybaptes minor. Lille Lappedykker.
Oktober: 2den Vyl 1.
5... Colymbus glacialis. Islom.
November: 3dje Anholt 1 gad.
6. Procellaria leucorrhoa. Stor Søsvale.
September: I3de Vyl 17.
7.… Fulmarus glacialis. Stormfugl.
August: I6de Graadyb 1.
8. Rallus aquaticus. Vandrikse.
April: 2den Kjels Nor 13. Åde Hesselø 1.
9. Gallinula chloropus. Rørhøne.
November: 28de Bovbjerg 1.
10. Fulica atra. Blishøne.
Oktober: IOde Drogden 1 9 jun.
November: 28de Bovbjerg 1.
hæl Æænellustcristatus Vibe!
Marts: 12te Vyl 13 (Nakkehoved 1)/). 17de (Lyngvig 2).
April: Idje Lyngvig 1.
12... Charadrius pluvialis. Hjejle.
August: I3de Gedser Rev 12 ad.
13... Actitis hypoleuca. Mudderklire.
August: 28de Lodbjerg 15.
14. Totanus glareola. Tinksmed.
April: 4de Hesselø 129 ad.

1) I Klammer er, efter Fyrmestrenes Oplysninger, vedføjet Tallet paa de
faldne Fugle, naar dette er et andet end Tallet paa de indsendte; paa
samme Maade anføres efter Fyrmestrenes Oplysninger Stære og Viber,
selv om intet er indsendt.

152
(1921.)

15. Tringa canutus. Islandsk Ryle.
Juli: 3Ote Lyngvig lad.
August: 24de Graadyb 19 jun.
16. Tringa alpina. Ryle.
Marts: Ste Vyl i 2 ad.
August: 30te Gedser Rev 1 9 jun.
September: 30te Dueodde 1 jun.
17... Limnocryptes gallinula. Enkelt Bekkasin.
Marts: 6te Graadyb 1.
April: 4de Hesselø 1.
Oktober: iste Lodbjerg 13. &de Schultz's Grund 12jun. Ilte
Skagen 17: 12te Lodbjerg 19% ad., Læsø Rende kg"
18... Gallinago scolopacina. Horsegøg.
April: "JOde Horns Rev 19 ad.
19. . Sterna macrura. Havterne.
August: Åde Anholt Knob 1 jun.
20. Falco æsalon. Dværgfalk.
Oktober: 19de Graadyb 1 gjun.
21... Columba palumbus. Ringdue.
Januar: 2den Skjoldnæs 1.
April: 2den Hesselø 1.
22... Cypselus apus. Mursejler.
Maj: Ode Hanstholm 1.
August: 12te Blaavands Huk 29jun. 15de Fornæs 2g'jun.
(c. 50 faldt).
23. Cuculus canorus. Gøg.
September: Ste Dueodde 1.
24. JIynx torquilla. Vendehals.
Maj: Øde Hanstholm 19.
August: I3de Gedser Rev 19.
25... Corvus monedula. Allike.
Marts: denvylster
26. Corvus frugilegus. Raage.
November: Iste Horns Rev 1 gad.
27... Ampelis garrula. Silkehale.
November: 22de Hesselø 3 (19% ad., 29 jun.). 24de Sejrø 1% jun.
28... Hirundo rustica. Landsvale.
Maj: Ide Vyl 1.

(1921.)

153

"29. Alauda arvensis. Lærke.

Januar:

Februar:

Marts:

4de Læsø Rende 1. &de Schultz's Grund 13. Yde
SENSE Grund G ill ele et EK ENES EET OdE
Vestborg 2 (17, 129 ad.). 30fte Gilleleje Flak N. 17.
3lte Schultz's Grund 17, Vestborg 1 g', Stevns4 (23,
22), Æbelø 47.

lste Anholt Knob 43, Hesselø 127 (32 faldt), Schultz's
GCGrun USSR RS SEE SA) Gilleleje Flak EN:
4 (3g, 189%jun.), Sprogø 48 (11 faldt), Christiansø
KREEP emRVEestbor st (USED AES det Stevns
IEEE EEN ØS fre Elk HE

lste Læsø Trindel 8 (63, 29 jun), Schultz's Grund
Fe den HVIS æsø Rende ORE San]
SehultassGrundkkstRVestbors SE ES 2 Sad TUN
Sfeyns ke (SF SEES an) NÆ be ou)
Gedser Rev 5 (3g, 29 jun.; 8 faldt). 6fe Graadyb
1677 detAnholt Knob sl (2 37 IP ad 4 faldt) Ode
Vole de Vy EKSF NE Eæsø FE Trindel PE (KEE
Sun kæsøRende72'9(3 faldt); Vestborg 12 jun,
Drosder headeren ho Knob se Plads
One faldt) Ode Drogden ge

April: 3dje Læsø Trindel 1%ad. 4de Anholt Knob 12,

Oktober:

November:

FEsSselg Ike SCU FÆSEGEnNd ESPE

Odetkæsøktrindel kiks ders kagen (SEES nS
16 faldt), Østre Flak 13. Ilte Lyngvig 19. 12te
Lodbjerg 1gjun. 13de Graadyb 13, Blaavands Huk
Fyns Horns ERE ge 25 de FHessele 2
(10 faldt).

3dje Graadyb 13. Ilte Graadyb 1%. 24de Vyl
3:

30. Sturnus vulgaris. Stær.

Februar:

Marts:

ISdetvylret HornsRev I Sad Fl 6 de Vylread.
Horus Rev 19. 17de Vyl 1%ad. — T&de (Skjoldnæs
Ds SE VAN E

Istet Vyk HornskRev ET Cæsø Trindel 2 (18,
19). 2den Horns Rev 1, (Skjoldnæs 2). 6te Graa-
dybet Horns Rey 3l(I 2 0) Tolder Gedser Rev 2
(lg, 129 jun:). 8de Vyl 13. 9%de Graadyb 198, Lod-

(1921.)

April:

Oktober:

154

bjerst 32 El Sad) ENO de CGraady DES FE Bd vande
Huk sl faldt) Vyle ra æsø Rende SER (Østre
Flak 1) Vestborg 13.0 TI te Vyl SEE IL de VINE
HornstRev lg] de Vyl rr Sad FE] GO de MV y REE
lyde vs 3 ad) Horns Rev US REE dd
(Lyngvig 2), Lodbjerg 17. l1&de Vyl 19 ad., Horns
Re 2 (US EA) EO JAVIER I Vy BES
Iste Vyl tg Horns Rey 2 On (Stevns 2) KK ES
Nor 1) "2den" Vylt P ad 5dje Vyle jure
(Rubjerg Knuder2)Elirtsholmene NS Hessel mee

7de (Kjels Nor 1). &de (Dueodde 2). 10de (Hesselø
2). 1Ite. (Kjels Nor 3). 12te Skagen 17. 13deBlaa-
vands Huk 19jun. 20de Horns Rev 1. g'jun. (3 faldt).

"22de (Østre Flak 1). 23de Læsø Rende 2 (18, 18

jun.), Hesselø 27. 27de (Kjels Nor 1). 30te Vyl
19 ad. Ilte Graadyb 4 (23, 22 ad.), Vyl 1, (Skjold-
næs)

31. Troglodytes parvulus. (Gærdesmutte.

Oktober:

Ste Gilleleje Flak N. 1.

32. Accentor modularis. Jernspurv.
Maj: &de Graadyb 1.
33. Parus major. Musvit.

Oktober:

el Vil LØ:

34. Sylvia cinerea. Tornsanger.

August:

12te Blaavands Huk 27.

35. Sylvia curruca. (Gærdesanger.

Maj:

7de Hanstholm 19.

36. Sylvia atricapilla. Munkesanger.

Oktober:

S&de Vyl 19.

37. Sylvia hortensis. Havesanger.

Maj:

August:

September:
Oktober:

29de Kjels Nor 17.

12te Blaavands Huk 4 (27, 19 åad., 19 jun.), Kjels
Norge

6te Hammeren 1.

Iste Lodbjerg 1.

38. Hypolais icterina. Gulbug.

Juli:
August:

30te Lyngvig 19.
12te Kjels Nor 1.

(1921.)

vS55

"39. Acrocephalus arundinaceus. Rørsanger.

August:

Oktober:

IPreR Kiels Norm
Ilste Lodbjerg 1.

40. Aecrocephalus phragmitis. Sivsanger.

Maj:

August:

Ode Kjels Nor 27.
IPrÆKIEISENOrII

41. Phyllopseustes trochilus. Løvsanger.

Maj:

August:
September:

den Gilleleje ht Elak ENERET EN de Vy ESME Ode Læsø
Rende

I2te Blaavands Huk 39 jun.

Ste Christiansø 19 ad.

42. Phyllopseustes rufus. Gransanger.

September:
Oktober:

Ste Christiansø 1.
I13de Blaavands Huk 1.

43. Regulus cristatus. Fuglekonge.
April: 4de Anholt Knob 1, Schultz's Grund 19.

Oktober:

l0de Skagen 23 (4 faldt). I Ite Schultz's Grund 1 9.
12te Dueodde 13. I3de Læsø Rende 2 (1,182).
2lde Gilleleje Flak N. 19.

44. Anthus pratensis. Engpiber.

September:

Ode Vyl 19jun.

45... Anthus obscurus. Skærpiber.

Marts:

modet vynrse

46... Anthus arboreus. Træpiber.
Maj: 3dje Vyl 1. &de Horns Rev 1.

September:

Ste Hammeren 19 ad.

47... Turdus iliacus. Vindrossel.

Marts:

April:

Oktober:

IØ denvyiks SEES am Horns Rev ES anode
bjers keel SS deR HormnskRev PR ad)

Iste Vyl 13. 3dje Læsø Trindel 19ad. Åde Hirts-
holmene 2 (1g, 19jun.), Anholt Knob 27, Hesselø
SS SES una

YdefHornst Rey lt 3 Ode Vylie jun Skagen 19
(c. 50 faldt), Hirtsholmene 1 g. 12te Horns Rev 1 9 ad.
(Rae) Ey movie PE (RES am od bjerge (2
AEPS Un SES kaserner (CS OSfaldt) æsøRende
29 jun. 13de Blaavands Huk 1 (25 faldt), Vyl 7 (47,
2 Oads tt um) Horns Rev 197un:-(10"faldt),. Læsø

156

(1921.)
Rende 33. I4de Vyl 19 jun., Læsø Trindel 2 2 jun.
23de Graadyb 19 jun., Hesselø 2 (1g, 19 ad., ec: 15
faldt) Schulz srGrund FE Gilleleje RElakEN FEER
48... Turdus musicus. Sangdrossel.
April: Iste Vyl I gjun. 2den Kjels Nor.13'. 3dje Lyng-
vig 6 (57, 19). Åde Hirtsholmene 1, Anholt Knob
PUST FoU ESS IR SChultzs Crane
Gilleleje "Flak INSIP ad 5 rem Møen kk ad:
Maj: Ste Gilleleje Flak N. 19%. 6te Vyl 23. 7de Horns
Rev 1, Hanstholm i 2. &de Vyl 29, Hirtsholmene
19. Ode Læsø Rende 17.
September: 26de Vyl 17. 28de Graadyb 1.

Oktober: 9de Vyl 1 gad., Horns Rev 2J'jun., Gilleleje Flak N.
mg ode Skagen 2 (IF ad IOA FORMODET
Hirtsholmene 2 (1 gjun., 1 2 jun.), Schultz's Grund 1 gg.
IF VyI ad RE] 2 fe Lynevi te Hade
1 2 jun.), Skagen 2 (1 gjun., 1 $ jun., c. 50 faldt). 13de
Vue gt jun 25de Hesseløg 3 (ad ad ES ane
Cu Sfaldt) SChuliz's' Grundig jun ke dean

49. Turdus pilaris. Sjagger.

Januar: Iste Østre Flak 19jun. (2 faldt). 4de Horns Rev
PING faldt) "fe Elorns "Rev 3 (SE 2 ERE
Læsø Rende 17. 13de Vyl 19%, Vestborg 19. 14de
Varde SEES] Fe Stevns Ene

Februar: Øde Vyl 17.

Marts: I7de Vyl 17.
April: 4de Schultz's Grund 2.
Maj: &de Graadyb 13, Hirtsholmene 1.
Oktober: 23de Hesselø 19 jun., 28de Horns Rev 1.
November: 21de Vyl 1gad. 23de Hesselø 19ad. 24de Sejrø
1 2 jun.
50. Turdus merula. Solsort.
Januar: 4de Horns Rev 18. 21de Vyl 17.
Marts: Jste Vyl 3(23, 19 jun.), Horns Rev 23. 2den Horns
Rev lg: Læsø Rende 13 6tfe Graadyb 2"(K7ade
I gjun.), Vyl 19%ad. 7de Vyl I gad. 9%de Lodbjerg
1'9jun 7 0de Blaavands "Huk 13; Horns” REveiken
Læsø Trindel kl Pads] 7 de Vyl I SES AARS

57

1921.)

HornsøReyv 3 (Igad. 19 ad. 129 jun.) Lodbjerg 1 9'ad:
l8de Vyl 19ad., Hørns Rev 1 gad. 31lte Horns Rev
I Jad.

April: Iste Vyl 29jun., Horns Rev IZad. 3dje Lyngvig 2
ORK EE Te Eine holm ene 2 (ad Fun]
Anholt Knob 1.

Oktober: I13de Horns Rev 19ad. 23de Læsø Rende 1 9 jun.
Ilte Graadyb 19 jun.

November: 7de Graadyb 17, Vyl 12 jun.

51. Saxicola oenanthe. Stenpikker.

April: 3Idje Lyngvig 1.

Maj: 7de Vyl 5 (27, 39), Horns Rev 17, Hanstholm 1.
OdebvylkeeEEe PP Fe RV yEE

September: 7de Vyl 19. 29de Vyl 182 jun.

52. Praticola rubetra. Bynkefugl.

September: Se Vyl 12 jun:

53. Ruticilla phoenicura. Rødstjert.

Maj: 7de Vyl 2%. 9%de Læsø Rende 17.
August: 25de Graadyb 19.

September: 2den Schultz's Grund 17. 5te Drogden 19, Hamme-
sen SEERE Fe Chris tans ok ES ØREammeren
kemo de VylRESR

54. Erithacus rubecula. Rødkælk.

April: 3dje Læsø Trindel 13. 4de Hirtsholmene 1g'jun.,
Sells EEN EPE om GillelejetElakENE
19jun. 24de Gilleleje Flak N. 29 jun.

Maj: Iste Anholt Knob 1. &de Gilleleje Flak N. 1.

Oktober: IOde Skagen 29 jun. (6 faldt). 12te Lyngvig 2 (13
in ER Sane odbjer IS jun Læsø Rende HS JU
14de Læsø Trindel 1 gjun. 23de Læsø Rende 1 gjun.

55... Muscicapa atricapilla. Broget Fluesnapper.

Maj: 7de Kjels Nor 17. &de Gilleleje Flak N. 239. Ide
Hanstholm 19.

August: 12te Blaavands Huk 7 (5%, 29jun.). 26de Graa-
dybe

September: dte Hammeren 19.

56. Passer domesticus. Spurv.

September: 6te Christiansø 12.

158
(1921.)

57. Fringilla coelebs. Bogfinke.
September: 15de Schultz's Grund 19.
Oktober: I6de Graadyb 19. .19de Graadyb 1.
58. Fringilla montifringilla. Kvækerfinke.
April: 4de Hirtsholmene 18. 26de Vyl 19.
Oktober: IJOde Skagen 13 (32 faldt). 12te Lyngvig I1g'ad.
23de Horns Rev 19 (2 faldt), Læsø Rende 12 jun.
59. Chrysomitris spinus. Sisken.
November: I2te Vyl 1.
60. Carduelis elegans. Stillics.
Maj: 12te Helnæs 1.
61. Cannabina linaria. Graasisken.
November: 13de Vyl 1. 14de Vyl 2. 15de Vyl 1. 23de Graa-
(dybere
62... Emberiza schoeniclus. Rørverling.
April: 4de Schultz's Grund 1 gg.
Maj: &de Hirtsholmene 13. 9%de Læsø Rende I1g'.
Oktober: 9de Horns Rev 1 9jun. I4de Læsø Trindel 19. l&8de
Graadyb iIgjun.
63. Emberiza hortulana. Hortulanverling.
Maj: 8&de Hirtsholmene 1.
64... Emberiza citrinella. Gulspurv.
Oktober: I8de Schultz's Grund 1.
65. Emberiza nivalis. Snespurv.
November: 23de Hesselø 13. 24de Sejrø 19 jun.

Oversigt over de Nætter da Fugle ere komne til Fyrene.

Hver Nat henregnes til den følgende Dag. — Tallet efter Vindretningen betegner
Vindstyrken efter Beauforts Skala (0—12), hvor

1 betyder: Let Brise. 7 betyder: Trerebet Merssejlskuling.

2 — : Laber Bramsejlskuling. 38 : Klosrebet Merssejlskuling.

3 : Bramsejlskuling. 9 —… : Undersejlskuling eller Storm.

4 —… : Merssejlsskuling. 10 — : Haard Storm.

3) — : Rebet Merssejlskuling. 11 — : Orkanagtig Storm.

6 : Torebet Merssejlskuling. 12 — : Orkan.

Andre Forkortelser: R. = Regn, Tg. = Taage, Ov. Overtrukket, Sk.-= Skyet,

DE=ADIS

159
(1921.)

iksrer amuar:

Østre Flak. S.S.Ø. 4. Sne. Enkelte Fugle ved Fyret hele
Natten; 2 Sjaggere faldt. Anholt. S.Ø. Haard Kuling. Sne. Sjag-
gere ved Fyret; 26 faldt, intet indsendt.

Turdus pilaris. Østre Flak 1 (2 faldt).

Pdent] annan

Læsø Trindel. S.3. Ov. Tg. Nogle Smaafugle ved Ruderne
før Midnat; ingen faldt. Østre Flak. S. 1. Tg. Endel Smaafugle
sediEkynereneleRN atrenEES kj oldnæss kV ESEV ESPE Ove ol
Ringdue faldt.

Columbus palumbus. Skjoldnæs 1.

Syge antar:

Lyngvig. S.S.V. 2. Oy. Nogle Drosler og em enkelt Stær
ved Ruderne. Sprogø. S. 1. R. D. Store Flokke Kramsfugle ved
Fyret; ingen faldt. Gedser Rev. N.V. 2. Ov. Enkelte Smaafugle
vedtEyvnet

4de Januar.

IOIMS'S VEST Craat Eudelfkærker og Drosler”yed" Fyret:
Horns Rev. S.S.V. 4. Ov. R. Mange Fugle ved Fyret; 7 faldt.
BynsvicESÆSKOVÆEREI SM EndelkDroslerf om Fyret HI Stærkved
Ruderne. Læsø Rende. S.V. 2. Ov. D. Enkelte Smaafugle ved
Eyre RI Bærket faldt O mø VEF ærker faldt: ikke inds:
Skjoldnæs "NV: 3. OveR: D. Træk af Drosler; 4 faldt men
ikke indsendt.

Alauda arvensis. Læsø Rende 1.

Turdus pilaris. Horns Rev 2.

Turdus merula. Horns Rev 1.

Sker an mar:

BynevicNESKOVER: DOmkr20 Drosler "om Fyret; 3" faldt
ikke indsendte. Læsø Trindel. Vind 0, senere S. 3. Ov. Tg.
Fugle ved Fyret før Midnat; ingen faldt. Østre Flak. S.V. 3. Tg.
Endel Smaafugle ved Fyret hele Natten.

tes januar:

Vyl. S.V. 3. Sk. Enkelte Drosler og Stære ved Fyret. Horns
Rev. S.S.V. 3. Klart. Mange Fugle ved Fyret; 3 Sjaggere faldt.
Schultz's Grund. S.V. 2. Tg. Endel Fugle ved Fyret. Nakke-
hoved. S.S.V. 3. Ov. D. 1 Lærke faldt, ikke inds. Hyllekrog.
V.S.V. 2. D. Endel Smaafugle omkring Fyret fra Kl. 3 til Daggry.

Turdus pilaris.. Horns Rev 3.

160
(1921.)

mdle tand

Hanstholm. S.S.Ø. 2. R. Endel Sjaggere ved Fyret om Natten.

8de Januar.

Schultz's Grund. V.S.V. 3. D. Enkelte Fugle ved Fyret; 1
Lærke faldt. Stevns. S.V. 2. Ov. D. Nogle Sjaggere omkring
FyretifraKkle2 til te Forme Gedser "Rev SM Oy Enkelte
Kramsfugle ved Fyret.

Alauda arvensis. Schultz's Grund 1.

SENSE] KER RT E ves

Rubjerg Knude. S.V. 4. R. Tg. Mange Smaafugle ved Fyret;
1"Han-Bogfinke faldt, ikke inds.… Anholt Knob. S.S.V. 5.7Sk 1
Færkelfaldtikkefinds Schulz s Grund SVED SREnkelte
Fuglesved" Fyret; Lærke faldt" "Gilleleje Flak ON MESKVERSSER
EnkelteRkuslelved hyret tk tærket falde

AÅlauda arvensis. Schultz's Grund 1, Gilleleje Flak N. 1.

Horde Fanta

Lodbjerg. V. 5. Ov. D. 2 Stære paa Ruderne. Læsø Trin-
del. S.Ø. 5. R. Fugle ved Fyret før Midnat; ingen faldt. Vest-
borg. V.S.V. 6. Ov. Tg. 2 Lærker faldt.

Alauda arvensis. Vestborg 2.

i1lte Januar.

Læsø Trindel. N.Ø. 4. Sne. Nogle Fugle ved Fyret før Mid-
nat; ingen faldt. Læsø Rende. N.Ø. 4. Ov. R. Sne. En Mængde
orskellige Fugle ved Fyret; flere faldt i Vandet, 1 Sjagger faldt
paa Dækket. Anholt Knob. S.2. Sne. Mange Fugle ved Fyret
fra Kl. 8 til 9; 2 Drosler faldt, ikke indsendte.

Turdus pilaris 1.

13de Januar.

Vyl. S.S.Ø. 3. R. Mange Drosler om Fyret; 1 Sjagger faldt.
Sejrø. S.Ø. 2. Ov. R. D. 1 Drossel og 1 Lærke faldt, ikke ind-
sendte... Vestborg. Ø.S.Ø. 3. O. D. Mange Fugle om Fyret; 1
Sjagger faldt. Kjels Nor. V.—S.Ø. 5. Ov. R. 1 Drossel faldt,
ikke indsendt.

Turdus pilaris. Vyl 1, Vestborg 1.

14de Januar.

Vyl. N.N.Ø. 2. Sk. Mange Drosler om EYE: om Morgenen ;
1 Sjagger faldt. Stevns. N.N.V. 3. Ov. En Lærke ved Ruderne
Kl. 12. Gedser Rev. N.N.V.3. R. Mange Smaafugle omkring
Fyret.

|
|

(1921.)
lirdusspilarisMAVyle tr.
PRINS Fana.
Vyl. S.Ø. 5. Ov. Enkelte Solsorter ved Fyret, 1 faldt.
Turdus merula 1.
PsbldleRfanar:
Rubjerg Knude. S.V. 2. R. D. Enkelte Drosler ved Fyret;
1 faldt, ikke indsendt.
SO Kerrang
Lyngvig. V.S.V. 5. Ov. D. Nogle faa Stære ved Ruderne ;
1 Hjejle hørtes. Bovbjerg. S.V. 4. Ov. Tg. Mange Stære paa
Ruderne. Gilleleje Flak N. S.V. 3. Tg. Enkelte Lærker ved
Fyret: 1 faldt... Omø. V. 4. D. 2 Lærker faldt, ikke indsendte.
Møen. V. 3. Ov. D. 1 Stær paa Ruderne.
Alauda arvensis. Gilleleje Flak N. 1.
Sker fandar:
GrzadybERSI:SSVÆEP ÆRES færkvedE Skibe ERE orn SER Ew
S. 1. Ov. Flere Smaafugle ved Fyret. Schultz's Grund. S.V. 3.
[RE nkeltekEuslelveds Fyret FIE Pærker faldt lZestborg SIV:
OvyD Mange Fugle om Fyret; 1 Lærke faldt. Stevns. S.V. 3.
OMMRÆEnkelferStærel og knogle tærker ved "Fyret fra kl FO Stil
PERS En ole Fald O mø RV. SSVÆES ER DP Cærker faldt”ikke
indsendte. Kjels Nor. S.V. 4. Ov. 2 Lærker faldt, ikke ind-
sendte beløtAt LF ærker faldt Skjoldnæst SV AS OVER D]
Flere Smaafugle ved Lanterneruderne.
Alauda arvensis. Schultz”s Grund 1, Vestborg 1, Stevns 4, Æbelø 4.
Turdis pilaris. Stevns 1.
listet ebrualr
ElornseRevÆNVindk OM Klart Flere bærker ved Fyret tr yng=
vig. S. 2. Ov. D. Enkelte Lærke og Stære ved Ruderne. Bov-
bjerg. S.V. 5. Ov. D. Mange Stære paa Ruderne. Lodbjerg. S. 1.
Ov. D. 1 Vindrossel paa Ruderne; 1 Lærke faldt, ikke indsendt.
Læsø Trindel. S.Ø. 4. Ov. Fugle ved Fyret før Midnat; ingen
faldt. Læsø Rende. Vind 0. Tg. En Mængde Smaafugle ved
Fyret; 4 Lærker faldt, ikke indsendte. Anholt Knob. Vind 0.
D. Endel Smaafugle ved Fyret om Morgenen fra Kl. 3 til 4; 4
Lærker faldt. Hesselø. S.S.V. 2. Ov. D. Mange Lærker omkring
Fyret 532 faldt Schultz's' Grund. S..D. c.200 Lærker ved
Fyret" 13" faldt paa" Dækket, c. 50”i Vandet. /Tjelm. V.S.V.—S.
MkOyvæpsEtærker faldt Sejrø ST 2 Oy DS Mange Smaa=
Vidensk. Medd. fra Dansk naturh. Foren. Bd. 76. 11

162
(1921.)

fugle om Lanternen; 12 Lærker faldt, ikke indsendte. Gilleleje
Flak N. Vind 0. Tg. Enkelte Lærker ved Fyret, 4 faldt. Sprogø.
S. 1. D. Mange Lærker ved Ruderne; 11 faldt. Kjels Nor. S.—
S.Ø. 2. Ov. Endel Drosler ved Ruderne; ingen faldt. Skjoldnæs.
S.S.V. 3. Ov. D. Enkelte Stære og Lærker ved Ruderne; 1 Lærke
faldt ikke indsendt Christiansø: "SM. DET En Flokktær
ker ved kyrerrsietaldt
Alauda arvensis. Anholt Knob 4, Hesselø 12 (32 faldt), Schultz”s Grund
13, Hjelm 8, Gilleje Flak N. 4, Sprogø 4 (11 faldt), Christiansø 1.
2den Februar. ;
Østre Flak. S.S.Ø. 4. Tg. Endel Smaafugle ved Fyret; ingen
faldt. Vestborg. Ø.S.Ø. 4. Ov. D. Mange Smaafugle ved Fyret
om" Natten:"2Lærker faldt "Sprogø. SS VNS ED REnde EH Bærker
ved Ruderne.
Alauda arvensis. Vestborg 2.
Siden ke brian
Hanstholm. Ø. 3. Ov. Nogle Knortegæs omkring Fyret; 3
faldt, intet indsendt. Anholt. Ø. 5. Enkelte Sjaggere ved Lan-
ternen Stevns: Ø:16: RD? Enkelte Fugle fomsFyret Elve
og I Lærke faldt.
Pagonetta glacialis. Stevns 1.
Alauda arvensis. Stevns 1.
Aden brak
Skjoldnæs. Ø.S.Ø. 3. Ov. Enkelte Stære ved Ruderne.
dere bra
Vyl. Vind 0. Graat. En Sjagger faldt.
Turdus pilaris 1.
Kodeks
Østre Flak. N. 2. Sne. Endel Smaafugle ved Fyret; ingen faldt.
IRS ES br mar
Østre Flak. V. 3. Ov. Enkelte Smaafugle ved Fyret; 1 Lærke
faldt.
Alauda arvensis 1.
FSdetRe br uar
Skjoldnæs. V.N.V. 4. Ov. En Stær ved Ruderne; 1 Lærke
faldt, ikke inds.
Sider udg
JAVINRV EEN REEBENn kelte Stærel ved Fyret] 18 Faldt MET OrRS
Rev. V. 2. Ov. R. Flere Stære ved Fyret, 1 faldt.

Sturnus vulgaris. Vyl 1. Horns Rev 1.

163
(1921.)

kd etFebr dar

JAylRNEVÆT AE SKR Skær faldt —"Florris: Rev: V.57 Ov
RÆælStær-faldt

Sturnus vulgaris. Vyl 1, Horns Rev 1.

lide tEe bru ar

Vyl. N.N.V. 2. Sk. Viber hørtes om Natten og endel saas
om Morgenen flyve mod Ø.; 1 Stær faldt. Bovbjerg. S.V. 5.
Ov. D. Mange Stære paa Ruderne. Schultz's Grund. S.V. D.
kor Enkelte kærkerkned "Fyret:

Sturnus vulgaris. Vyl 1.

kSde Febrwrær

Horns Rev. 'N.N.V. 2. Ov. Mange Smaafugle ved Fyret.
Skjoldnæs. N. 4. Ov. 1 Stær faldt, ikke inds.

Sturnus vulgaris. (Skjoldnæs 1).

AN dER EDT war
Østre Flak. Vind 0. Tg. Enkelte Smaafugle, bl. a. Stære, ved
Fyret; ingen faldt.
PÆdEeREESbT Far
Horns Rev. S.S.Ø. 2. Klart. Omkr. 10 Raager ved Fyret.
2 SidelFebruar

LÆJRAVÆS SE SKÆR Sfær falder rel SEN or VE SOVE En
Flok Stære ved Ruderne; ingen faldt. Skjoldnæs. V. 4. Ov. R.
Il Stær ved Ruderne.

Sturnus vulgaris. Vyl 1.

kste Wars:

KøEEEVEESE SKAB En ole faldt RET orns "Rev VESIVEB ROV.
Enkelte Stære og Solsorter ved Fyret; 3 Fugle faldt. Lyngvig.
V.S.V. 4. Ov. D. En Flok Viber om Fyret. Læsø Trindel. S.V.
4. Ov. Fugle ved Fyret hele Natten; 10 faldt. Schultz's Grund.
SAVE kor Enkelte Lærker ved" Fyret faldt "Kjels Nor: FSV:
AOR 2 Sølsorfer, 1 Drossel,. 1 Sjagger og: 3 Lærker. faldt, intet
indsendt. Skjoldnæs. V.N.V. 4. Ov. Stære og Solsorter v. Lan-
terneruderne; 1 Solsort faldt, ikke inds. Dueodde. V. 5. Ov. D.
Enkelte Stære paa Ruderne.

AÅlauda arvensis. Læsø Trindel 8, Schultz”s Grund 1.

Sturnus vulgaris. Vyl 1, Horns Rev 1, Læsø Trindel 2.

Turdus merula. Vyl 3, Horns Rev 2.

2den Marts.
JÆrlRAVÆSMERSE HH Færke faldt El orns "Rev: FSV BSK En

164
(1921.)

kelte Stære og Solsorter ved Fyret; 2 Fugle faldt. Lodbjerg.
S.V. 5. Ov. D. Endel Stære paa Ruderne. Hanstholm. S.V. 4.
Ov. Enkelte Stære og endel Viber omkring Fyret. Læsø Rende.
S.V. 4. Ov. Et Par Viber og flere andre Fugle vare om Fyret hele
Natten; 8 faldt... Østre Flak. S.V. 3. Ov. Enkelte Smaafugle ved
Fyret hele” Natten ingen faldt" "Schule's "Grund: USEVÆSÆED!
Enkelte bærker hved Eyre trade ERE elmsEVASEVÆRS RO VÆED)
Enkelte stæretvedfRuderneteN akkehovre ds Sverre
Lærker faldt, ingen indsendt. Westborg. S.V. 5. Ov. D. Mange
Smaafugle om Fyret; 5 Lærker faldt. Stevns. S.V.—V.S.V. 2—3.
DÆMange"Stære”og "Lærker ved" Fyret fra KN 2 Das erye et
Lærker faldt... Omø. S.V. 4. D. 8 Lærker faldt, ingen indsendt.
Æbelø. 4 Lærker faldt. Helnæs. V. 6. Ov. 1 Stær paa Ruderne.
Skjoldnæs. S. V. 4. Ov. D. Omkr. 50 Lærker og 4 Solsøorter vare
hele Natten ved Ruderne; 2 Stære faldt, intet indsendt. Gedser
Rev. S.S.V. 3. Ov. Mange Smaafugle ved Fyret; 8 Lærker faldt.
Alauda arvensis. Vyl 1, Læsø. Rende 7, Schultz”s Grund 1, Vestborg

5, Stevns 4, Æbelø 4, Gedser Rev 5 (8 faldt).

Sturnus vulgaris. Horns Rev 1, (Skjoldnæs 2).

Turdus merula. Horns Rev 1, Læsø Rende 1.

Jag MAP TSs

VÆ7INRNVAN VÆSKER year

Tringa alpina 1.

6te Marts.

Graadyb. S.S.V. 2. R. Mange Viber og Smaafugle ved Skibet;
5 faldt. Vyl. S.V. 3. R. Endel Smaafugle ved Fyret; 1 Solsort faldt.
Horns Rev. S.Ø.—S.V. 3. R. D. Flere Fugle ved Fyret; 3
Stære faldt. Østre Flak. S.S.Ø. 3. Sne. Enkelte Smaafugle ved
Fyret hele Natten, ingen faldt.

Limnocryptes gallinula. Graadyb 1.

Alauda arvensis. Graadyb 1.

Sturnus vulgaris. Graadyb 1, Horns Rev 3.

Turdus merula. Graadyb 2, Vyl 1.

væde RMS:

Vyl. N.N.Ø. 3. Halvklart. Endel Lærker og Solsorter ved
Fyret; 1 Solsort faldt. Anholt Knob. N. 4. R. Sne. Enkelte
Fugle-ved Fyret;"4 "Lærker faldt. Stevns: SV. 3:"0v" RÆNOglE
Stære, Lærker, Strandskader og Ryler om Fyret fra Kl. 12 til Dag-
gry. Skjoldnæs. V.S.V. 4. Ov. D. R. Enkelte Stære ved Ru-

165
(1921.)

derne. Gedser Rev. N.N.V. 4. Ov. Enkelte Smaafugle ved Fyret;
2 Stære faldt.

Alauda arvensis. Anholt Knob 3 (4 faldt).

Sturnus vulgaris. Gedser Rev 2.

Turdus merula. Vyl 1.

SdleRNar ts!

Vyl: SV. 3. Tætsk. Endel Stære og Lærker ved Fyret; 1 Stær
fald. Kjels Nor. S.V.—V.—N. 2—6. Ov. Drosler, Stære og
Sølsorter v. Ruderne.

Sturnus vulgaris. Vyl 1.

der Marts:

Graadybe SIV PN Oy Træk "af Viber og” Smaafugle "1 "Stær
falde IÆS NEP Graa Dærke faldt El orns Rev SE VR 3:
SKÆRElEereR forskellige fEuglekveds Fyret EL ynevig HSV AN OV ED
Mange Stære ved Ruderne; Viber saas. Lodbjerg. S.V. 4. Ov.
D. Endel Stære paa Ruderne; 4 Fugle faldt. Nakkehoved. S.S.V.
SMOVEDSESmaafugle ved Fyret 2 cærker faldt ikkeindsendte"
Stevns SV. 3: "Ov,”D. Nogle Stære og Lærker ved Fyret fra
Kl. 11 til Daggry.

Alauda arvensis. Vyl 1.

Sturnus vulgaris. Graadyb 1, Lodbjerg 3.

Turdus merula. Lodbjerg 1.

KOdesMarts:

Graadyby SV: "3:0Ov."Træk"af Smaafugle;- 1. Stær faldt.
Blaavands trukket SVEA DEERE ugle Faldt MES VER SESKE
Mange Stære ved Fyret; 3 Fugle faldt. Horns Rev. S.V. 3. Sk.
ElerenkuslekvedkEyret HEN Sols oralt Lyn evig SV EEEOY
D. Mange Stære og Viber om Lanternen. Bovbjerg. S.V. 3. Ov.
D.: Mange Stære paa Ruderne. Hanstholm. S.V. 4. Ov. Endel
Stære om Ruderne; flere faldt, ingen inds. Læsø Trindel. S.V.
5. Ov. Fugle ved Fyret hele Natten; 3 faldt. Læsø Rende. S.V.
SEROVEE TRE ns ]esraldteN Østre NE lak SEVER PM OVSREnkelte "Smaa-
fugle ved Fyret hele Natten; 1 Stær og 1 Lærke faldt, intet ind-
sendte jelm VS VED El ere SmaafuglefmodfRuderne 73
faldt, ikke indsendte. Vestborg. S.S.V. 4. D. Ov. 2 Fugle faldt.
Drogden. S.V. 2. Sk. Flere Lærker ved Fyret; 1 faldt. Kjels
Nor SISsVr ST Oy Drosler og Stære ved Ruderne; 2 Drosler
faldt, ikke indsendte. Skjoldnæs. S.V. 3. Ov. D. Mange Stære
ved Ruderne.

166
(1921.)

Alauda arvensis. Vyl 1, Læsø Trindel 2, Læsø Rende 2 (3 faldt), Vest-
borg 1, Drogden 1.

Sturnus vulgaris. Graadyb 1, Blaavands Huk 5 (14 faldt), Vyl 1, Læsø
Rende 1, (Østre Flak 1), Vestborg 1.

Turdus merula. Blaavands Huk 1, Horns Rev 1, Læsø Trindel 1.

iltre Marts:

Vyl. ”S:-2. Klart. 1-Stær' faldt: Anholt"Knob. S.Ø.”3/ÆSR
Endel Fugle ved Fyret; 16 faldt. Schultz's Grund. S.V. 3. Ov.
cm 25k Eærkert ved Fyret:

Alauda arvensis. Anholt Knob 8 (16 faldt).

Sturnus vulgaris. Vyl 1.

BES TIUMEDEES

Vyl..1 Vibe faldt. Nakkehoved. S. 3. Ov. D. 1 Vibe faldt,
ikke indsendt.

Vanellus .cristatus. Vyl 1, (Nakkehoved 1).

fSideRNFants:

Graadyb. S.Ø..2. "Klart. Træk af Smaafugle-"PyleSssskø:
EEetsk PAN KE faldt yngvig. S:SØSSEOVEDEPRGraagæs
saas i Fyrstraalerne i flere Timer.

Corvus monedula. Vyl 1.

14de Marts.

Var INSISIØMSÆESKR Enkelte "Stære hvede Skibet sladre ons
Rev. S. 3. Letsk. Enkelte Fugle ved Fyret; 1 Stær faldt. Lod-
bjerg. S.Ø. 3. Ov. D. Enkelte Stære paa Ruderne. Hanstholm.
S.Ø. 2. Ov. Endel Viber flagrede om Fyret fra Midnat.

Sturnus vulgaris. Vyl 1, Horns Rev 1.

ise Marts:

Vyl. S.S.Ø. 3. Klart. Mange Smaafugle ved Skibet; 1 Stær

faldt.

Sturnus vulgaris 1.

bilde M arts:
VÆIRKS SØ? Klart kl Stær- faldt Øs fre FE lak RES PR NER
Mange Smaafugle ved Fyret; ingen faldt. Drogden. S. 1. D.

Enkelte Lærker ved Fyret om Morgenen; 1 faldt.
Alauda arvensis. Drogden 1.
Sturnus vulgaris. Vyl 1.
IEA te NarESE
Vylfs: siv oyv Ent Mængde Fuglefvs Fyret ; mangel faldt
overbord, 24 paa Dækket. Horns Rev. S.S.V. 3: Ov. "R: Mange
Fugle ved Fyret; mange faldt overbord, 8 paa Dækket. Lyngvig.

167
(1921.)
SISU OVERSE DSE Mange" Stære og” Drosler samt 'erikelte Viber
momtEyret: 2 Viber 2" Stære; 2 Drosler og 1 Solsort faldt; intet
indsendt. Lodbjerg. S. V. 4. Ov. R. Endel Fugle paa Ruderne;
3 faldt. Hanstholm. S. V. 4. Ov. R. En Mængde Solsorter, Stære,
Viber og enkelte Drosler om Fyret. Læsø Trindel. S.S.V. 5. Ov.
Fugle ved Fyret paa Hundevagten.

Vanellus cristatus. (Lyngvig 2).

Sturnus vulgaris. Vyl 5, Horns Rev 4, (Lyngvig 2), Lodbjerg 1.

Turdus iliacus. Vyl 5, Horns Rev 1, Lodbjerg 1.

Turdus pilaris. Vyl 1.

Turdus merula. Vyl 13, Horns Rev 3, Lodbjerg 1.

HS der MaTts:

FENS SØSTROLÆP Fugle faldt" Horns-Rev.: S:Ø:-2..Ov.
Forskellige Fugle ved Fyret; 7 faldt. Læsø Trindel. S.V. 3. R.
Fugle ved Fyret før Midnat. Østre Flak. Vind 0. D. Mange
Smaafugle ved Fyret; ingen faldt.

Sturnus vulgaris. Vyl 1, Horns Rev 2.

Turdus iliacus. Horns Rev 4.

Tu:dus merula. Vyl 1, Horns Rev 1.

ko teRM'arts?
KYLE V.S:V:.2:-Klart.. 1 'Stær faldt.
Sturnus vulgaris 1.

lidet Marts:

Kjels.Nor. S.V. 4. Sk. Drosler, Solsorter og Stære ved Ru-
derne; I Solsort faldt, ikke indsendt.

Sider Marts:

Bovbjerg. V.N.V. 1. Ov. Tg. Nogle Stære og Drosler paa
Ruderne; ingen faldt.

ander Marts:

Lyngvig. V. 4. Ov. D. Smaafugle om Fyret; Strandskader,
Viber og Ryler hørtes.

29de Marts.
Nakkehoved. S.V. 3. Ov. R. 1 Lærke faldt, ikke inds.
Soter Marts:

Kjels Nor. S.V. 3. Ov. Haglbyger. Enkelte Drosler ved Ru-

derne; 1 faldt, ikke inds.
Ste M Arts:

Vyl. V. 4. R. Enkelte Stære ved Skibet; 1 faldt Horns

Rev. S.V. 3. Ov. Enkelte Fugle ved Fyret; 1 Solsort faldt. Læsø

168
(1921.)
Trindel. V.S.V. 6. R. Fugle ved Fyret efter Midnat. Schultz's
Grund. S.V. 7. Klart. 1 Vibe ved Fyret.
Sturnus vulgaris. Vyl 1.
Turdus merula. Horns Rev 1.
FIsterapTilk

Vyl. V.N.V. 4. Ov. D. Nogle Fugle ved Fyret; 5 faldt. Horns
Rev. V.N.V. 3. Ov. Flere Fugle ved Fyret; 3 faldt. Stevns. V.N.V.
5 0y."D: Nogle Stære og Drosler ved "Fyret fra KISTI Stil Dag
Sry; 2) Stære faldt ikke indsendte ="KjelsEN or VENS SKO VARE]
Stær faldt. Skjoldnæs. V.N.V. 5. Ov. Omkring 20 Stære ved
Ruderne.

Sturnus vulgaris. Vyl 1, Horns Rev 2, (Stevns 2), (Kjels Nor 1).

Tur dustildenseVylee

Turdus musicus. Vyl 1.

Turdus merula. Vyl 2, Horns Rev 1.

2den April.

VRE OVE Stær faldt Bor byers VES VER ROAD:
Nogle Bogfinker og Solsorter paa Ruderne; ingen faldt. Hesselø.
VENAVÆSEO VÆNNER In gdue faldt KS elsSEN orMEN VÆS MO VÆ DSE]
Vandrikse og 1 Sangdrossel faldt.

Rallus aquaticus. Kjels Nor 1.

Columba palumbus. Hesselø 1.

Sturnus vulgaris. Vyl 1.

Turdus musicus. Kjels Nor 1.

3dje April.

VylL S: 1. Klart. 1 Stær -faldt… Lyngvig "SV SÆSKÆD:
Mange Fugle om Fyret; 11 faldt, foruden de indsendte en stor
Regnspove. Læsø Trindel. V.S.V. 3. D. Tg. Fugle ved Fyret
fra Midnat til Daggry; 3 faldt. Sejrø. S. 3. Ov. D. Endel Smaa-
fugle om Fyret; 1 Drossel faldt, ikke indsendt. Nakkehoved.
S.S.V. 2. Ov. Nogle Stære ved Lanternen.

Vanellus cristatus. Lyngvig 1.

Alauda arvensis. Læsø Trindel 1.

Sturnus vulgaris. Vyl 1.

Turdus iliacus. Læsø Trindel 1.

Turdus musicus. Lyngvig 6.

Turdus merula. Lyngvig 2.

Saxicola oenanthe. Lyngvig 1.

Erithacus rubecula, Læsø Trindel 1.

4de April.
Hanstholm. S.V. 3. Ov. Endel Stære, Solsorter og Viber om

169
(1921.)

Fyret; flere faldt, intet indsendt. Rubjerg Knude. S.S.V. 2. Ov.
Nogle Stære ved Fyret; 2 faldt, ikke indsendte. Hirtsholmene.
SPÆNDES Eusletraldtt Læsø rindel FS: VTS OY Fugle ved
Fyret hele Natten; ingen faldt. Anholt Knob. S. 2. Tg. Endel
Fugle ved Fyret; 7 faldt. Hesselø. S. 3. Tg. Mange Fugle om
Kyret HPA had ES Chu zis Grund SV SD Omkr 50 Fugle
ved Fyret; 8 faldt paa Dækket, mange i Vandet. Hjelm. S. 3.
Ov. Enkelte Smaafugle ved Ruderne; 2 Sjaggere og 1 Rødkælk
faldt; intet indsendt. Gilleleje Flak N. S. 2. Tg. Enkelte Fugle
ved Fyret; 2 faldt. Nakkehoved. S.S.V. 1. Ov. Tg. Smaafugle
vedeRkuderne HI Drossel faldt ikke indsendt Stevns SEE OV
Endel Drosler, Stære, Kvækerfinker, Fuglekonger 0. a. Smaafugle
vedeiyretefrar KILE Da sery:
Rallus aquaticus. Hesselø 1.
Totanus glareola. Hesselø 1.
Limnocryptes gallinula. Hesselø 1.
Alauda arvensis. Anholt Knob 1, Hesselø 1, Schultz”s Grund 1.
Sturnus vulgaris. Hirtsholmene 1, (Rubjerg Knude 2), Hesselø 1.
Regulus cristatus.. Anholt Knob 1, Schultz”s Grund 1.
Turdus iliacus. Hirtsholmene 2, Anholt Knob 2, Hesselø 5 (18 faldt).
Turdus musicus. . Hirtsholmene 1, Anholt Knob 2, Hesselø 1, Schultz's
Grundkim Gilleleje ft Flak ENÆRE
Turdus pilaris. Schultz”s Grund 2.
Turdus merula. Hirtsholmene 2, Anholt Knob 1.
Erithacus rubecula. Hirtsholmene 1, Schultz”s Grund 2, Gilleleje
Flak N. 1.
Fringilla montifringilla. Hirtsholmene 1.
Emberiza schoeniclus. Schultz's Grund 1.
See AD
Anholt Knob. V. 4. Klart. 1 Rødkælk faldt, ikke indsendt.
Møen. S. 2. Ov. D. Endel Drosler og 1 Skovdue paa Ruderne ;
I Sangdrossel faldt.
Turdus musicus. Møen 1.
Ore ANDET
Anholt Knob. N. 2. D. 1 Drossel faldt, ikke indsendt. Skjold-
HæsSNNAVÆE QVÆRSI OF StærervedkRuderne:
l0de April.
Horns Rev. Ø. 2. Klart. Enkelte Fugle ved Fyret; 1 Horse-
gøg faldt. Lyngvig. S.V. 2. Ov. D. Flere Fugle om Fyret. Gille=
leje Flak N. Ø.S.Ø. 3. Sk. 1 lille Fugl faldt, ikke indsendt.

Gallinago scolopacina. Horns Rev 1.

170

1921.)
Ike Apr
Skjoldnæs. Ø. 2. Klart. 1 Rødkælk ved Ruderne.
FSTERAPD FIE

Lodbjerg. V.S.V. 4. Ov. D. Enkelte Stære paa Ruderne.
Læsø Rende. V.S.V. 3. Ov. Sk. Enkelte Fugle ved Fyret; 1
Kramsfugl faldt, ikke indsendt. i

Fede FADE

Bovbjerg. N.V. 4. Ov. R. D. Endel Rødkælke ved Ruderne
hele Natten. Kjels Nor. V.—S.V. 5. Ov. I Sangdrossel, 1 Vin-
drossel og 1 Ryle faldt, ikke indsendte. Christiansø. V.S.V. 4. R.
Drosler og Stære paa Ruderne; 1 Drossel faldt, ikke indsendt.

24de April.

Gilleleje Flak N. Ø.S.Ø..2. Graat. Enkelte Smaafugle ved
Fyret; 2 Rødkælke faldt.

Erithacus rubecula. Gilleleje Flak N. 2.

POI ERA PIET

Graadyb. Ø. 2. Letsk. 1 lille Fugl faldt, ikke indsendt. Vyl.
ØS Klart Enkelte "SmaafuelefomS Fyret; HI Kvækenhinke radie

ifsite Mag

Anholt Knob. S.Ø. 2. Sk. Enkelte Smaafugle om Skibet;
1 Rødkælk faldt.

Erithacus rubecula. 1.

2den Maj.

Stevns. V.S.V. 2. Ov. Endel Smaafugle ved Fyret fra Kl. 11
til Daggry. Christiansø. Vind 0. Ov. En Flok Drosler ved Fyret,
ingen faldt.

3dje Maj.

VAGFÆNENEVENS ESKE MET ræ piber faldt Christransø VIS NEREPR

Sk. Endel Rødkælke ved Fyret, ingen faldt.

Anthus arboreus. Vyl 1.

4de Maj.
Gilleleje Flak N. N.V. 2. Ov. 1 Løvsanger faldt.
Phyllopseustes trochilus 1.

SiteRNagt
Gilleleje Flak N. V. 2. Sk. 1 Sangdrossel faldt.
Turdus musicus 1.

OS MEN
VaylMEVEN VP ESKE San adroslerkfalde

Turdus musicus 2

(1921.)
mdie May:

JAvylæssS:ØFSE Sk Mange Fugle om "Fyret 10" faldt: "Forns
Rev. S. 2. Ov. Enkelte Fugle ved Fyret; 2 faldt... Hanstholm.
S.S.Ø. 3. Ov. D. Nogle Drosler og Smaafugle samt Strandskader
vedkEyrer: ES faldt Skindsendte Skagen VS: V.3:"R."D/Smaa-
fugle ved Fyret; 10 Vindrosler og 1 Rødkælk faldt, ikke indsendte.
KrelsENor. SS 4OVER. 1Broget Fluesnapper- faldt.

Sylvia curruca. Hanstholm 1.

Phyllopseustes trochilus. Vyl 3.

Turdus musicus. Horns Rev 1, Hanstholm 1.

Ruticilla phoenicura Vyl 2.

Saxicola oenanthe. Vyl 5, Horns Rev 1, Hanstholm 1.

Muscicapa atricapilla. Kjels Nor 1.

8de Maij.

Graadyb SØ£LOyv "2 Fugle faldt -Vyl. S1.7sk. 2"Sang-
drosler faldt. Horns Rev. S.S:V. 2: Oy. Enkelte Fugle ved.
Fyret; 1 Træpiber faldt. Rubjerg Knude. S. 2. Ov. D. Enkelte
Hjejler, Drosler 0. a. Smaafugle ved Fyret fra Kl. 11 til Midnat;
2 Drosler og 1 lille Fugl faldt, intet indsendt. Hirtsholmene.
SEER ED AF usle tald Læsø lrindel SES Oy Fugle yed
Fyret fra Midnat; ingen faldt. Gilleleje Flak N. S.S.Ø. 4. Sk.
3 Fugle faldt.

Accentor modularis. Graadyb 1.

Anthus arboreus. Horns Rev 1.

Turdus musicus. Vyl 2, Hirtsholmene 1.

Turdus pilaris.. Graadyb 1, Hirtsholmene 1.

Erithacus rubecula. Gilleleje Flak N. 1.

Muscicapa atricapilla. Gilleleje Flak N. 2.

Emberiza hortulana. Hirtsholmene 1.

Emberiza schoeniclus. Hirtsholmene 1.

9de Maj.

Vyl. S.Ø. 1. Halvklart. 1 Stenpikker faldt. Hanstholm. S. 3.
R. D. Endel Sjaggere og Drosler samt flere Smaafugle ved Ru-
derne; 3 Fugle faldt. Læsø Rende. S. 2. R. Ov. Enkelte Smaa-
fugle ved Fyret; 4 faldt. Østre Flak. S. 2. R. Smaafugle ved
Fyret; ingen faldt. Hjelm. S.V. 2. R. Tg. Flere Smaafugle ved
Fyret efter Midnat; 1 Vendehals og 1 Gærdesmutte faldt; intet
indsendt. Nakkehoved. V. 1. Ov. R. Mange Smaafugle ved
Bantemenikjels Nor SVT OV.R727 Fugle faldt:

Iynx torquilla. Hanstholm 1.

172

(1921.)

Cypselus apus. Hanstholm 1.

Acrocephalus phragmitis. Kjels Nor 2.

Phyllopseustes trochilus. Læsø Rende 1.

Turdus musicus. Læsø Rende 1.

Ruticilla phoenicura. Læsø Rende 1.

Saxicola oenanthe. Vyl 1.

Muscicapa atricapilla. Hanstholm 1.

Emberiza schoeniclus. Læsø Rende 1.

Older:

Sprogø. N.V. 1. R. Endel Smaafugle ved Fyret.

1l2te Maj.

VyltØN ØM Klar El Stenpik ker Faldt BET elm SAVES
D.” Mange Smaafugle paa Ruderne; ingen faldt. Helnæs. N.Ø. 2.
Klart. 1 Stillids faldt.

Saxicola oenanthe. Vyle:

Carduelis elegans. Helnæs 1.

19de Maj.
Vyl. N. 1. Klart. 1 Forstuesvale faldt.
Hirundo rustica 1.

8 del Mag:

Stevns. V. 3. Ov. R. Nogle Smaafugle ved Fyret fra Kl. 1129
til Dag: "Sprogø. "VN:V. 2. "D. .4Fuglekonger ved Ruderne:

29de Maj.

Kjels Nor. V. 4. Ov. R. 1 Havesanger faldt.

Sylvia hortensis 1.

SIOKe mee

Lyngvig. V.S.V. 5—6. R. Regnspover hørtes og kom ”affog
til i Fyrets Nærhed; 2. Fugle. faldt.

Tringa canutus 1.

Hypolais icterina 1.

3dje August.

Anholt. S. 1. R. Endel Smaafugle ved Ruderne; 1 Gøg faldt;

ikke indsendt.
4åde August.

Anholt Knob. N.V. 2. R. 1 Havterne faldt. Gedser Rev.
N.V. 3. R. Mange Smaafugle ved Fyret.

Sterna maerura. Anholt Knob 1.

5te August.

Stevns. S.V. 3. Ov. R. Nogle Regnspover ved Fyret fra Kl.

iP Em PÆN at:

(1921.)

8de August.

Lyngvig. S.S.Ø. 4. Ov. Tg. Regnspover, Brokfugle, Stære
0, a. Fugle i store Fløkke om Fyret; ingen faldt.

FEER AM ETS
Gedser Rev. Ø. 3. R. Flere Smaafugle ved Fyret.
Ht InsSE

Blaavands Huk. S.V. 3. D. 18 Fugle faldt. Stevns. V.N.V.
1. Ov. Enkelte Smaafugle ved Fyret fra Kl. 11 til Dag. Kjels
Nor. S.V. 3. Ov. 4 Fugle faldt. Dueodde. Ø.S.Ø. 2. Ov. R.
Endel Smaafugle paa Ruderne.

Cypselus apus. Blaavands Huk 2.

Sylvia cinerea. Biaavands Huk 2.

Sylvia hortensis. Blaavands Huk 4, Kjels Nor 1.

Hypolais icterina. Kjels Nor 1.

Acrocephalus arundinaceus. Kjels Nor 1.

Acrocephalus phragmitis. Kjels Nor 1.

Phyllopseustes trochilus. Blaavands Huk 3.

Muscicapa atricapilla. Blaavands Huk 7.

FSderAmsurst

Christiansø. N. 3. R. D. Torden. Endel Smaafugle i Fyr-
straalerne; ingen faldt. Gedser Rev. N.V. 2. R. Mange Smaa-
fugle ved Fyret; mange faldt overbord, 2 paa Dækket.

Charadrius pluvialis. Gedser Rev 1.

Iynx torquilla. Gedser Rev 1.

14de August.

Lodbjerg. N.V. 5. Ov. R. Enkelte Smaafugle i Straalerne; 4
Fluesnappere faldt, ikke indsendte. Hanstholm. N.V. 4. Ov. En-
del Strandskader, Drosler og Smaafugle om Fyret.

l15de August. l

Læsø Trindel. V.N.V. 3. R. Ov. Fugle ved Fyret efter Mid-
nat. Fornæs. S.V. 3. R. Omkr. 50 Mursejlere faldt.

Cypselus apus. Fornæs 2 (c. 50 faldt).

16de August.

Graadyb. V. 4. Sk. 1 Stormfugl faldt. Læsø Trindel. S.V. 4.
R. Fugle om Fyret hele Natten.

Fulmarus glacialis. Graadyb 1.

24de August.

Graadyb. S.Ø. 2. Letsk. 1 Islandsk Ryle faldt.
Tringa canutus 1.

25de August.

174
(1921.)

Graadybs V:SIV 2 OV MI Rødstjert faldt Ek els Nor VANAVE
4. Ov. R. Smaafugle ved Fyret; 1 Taarnsvale faldt, ikke indsendt.

Ruticilla phoenicura. Graadyb 1.

26de August.

Graadyb. N.V. 4. Sk. 1 Broget Fluesnapper faldt. Gedser
Rev. V.N.V. 3. R. Flere Rødkælke ved Fyret.

Muscicapa atricapilla. Graadyb 1.

28de August.

Lyngvig. S.V. 5. Ov. Strandskader, Brokfugle og Bekkasiner
om Fyret; ingen faldt. - Lodbjetg. S.V..5. Ov. R. Endel Fugle
om. Fyret; 1 Mudderklire faldt.

Actitis hypoleuca. Lodbjerg 1.

29de August.

Østre Flak. Vind 0. Ov. 1 Rødkælk faldt; ikke indsendt.

30te August.

Hammeren. V.N.V. 10. Sk. 1 Tamdue faldt Gedser Rev.
SIVæESMOVFlererSmaafugle "ved "Fyret; Ryle faldt:

Tringa alpina. Gedser Rev 1.

KS SE per ber

Kjels Nor. S.Ø. 3. Ov. Endel Smaafugle ved Fyret; 3 faldt,
ikke indsendte.

2densepktemder

Skagen." SV. 4.-Ov. R. Enkelte Fugle ved "Fyret; 28RylEr
og 1 Bekkasin faldt; intet indsendt. Schultz's Grund. S. 3. Sk.
1 Rødstjert faldt. Stevns. S.S.Ø. 3. Ov. R. Nogle Smaafugle ved
Byret frak KIM IE Dag ery:

Ruticilla phoenicura. Schultz's Grund 1.

SkeRSenFemiber

Vyl. N.V. 1. Sk. Nogle Smaafugle ombord; 1 Bynkefugl faldt.
Drogden. V. 3. R. Nogle Smaafugle ved Fyret; 1 Rødstjert faldt.
Christiansø. N.V. 4. R. Mange Smaafugle ved Lanternen; 24
faldt. Hammeren. N. 4. Letskyet. D. En Mængde Smaafugle om
Lanternen; 6 faldt. Dueodde. V.N.V. 3. Ov. R. D. Enkelte Smaa-
fugle ved Lanterneruderne; 2 faldt.

Anas crecca. Dueodde 1.

Cuculus canorus. Dueodde 1.

Phyllopseustes trochilus. Christiansø 1.

Phyllopseustes rufus. Christiansø 1.

Anthus arboreus.. Hammeren 1.

Ruticilla phoenicura. Drogden 1, Hammeren 4.

1545
(1921.)
Praticola rubetra. Vyl 1.
Muscicapa atricapilla.. Hammeren 1.
6te September.
Christiansø. N.V. 3. Sk. Nogle Smaafugle ved Lanternen;
faldt "Flammeren: V. 3. Sk. D. 2- Fugle faldt.
Sylvia hortensis.. Hammeren 1.
Ruticilla phoenicura. Christiansø 1, Hammeren 1.
Passer domesticus. Christiansø 1.
midessepte mbier
Vyl. Vind 0. Enkelte Smaafugle ved Fyret; 1 Stenpikker faldt.
Saxicola oenanthe |.
Ssden September
Læsø Trindel. V.S.V. 3. Sk. Fugle ved Fyret efter Midnat.
9de September.
Vyl. S.S.V. 1.”Letskyet. 1 Engpiber faldt. Læsø Trindel.
S. 2. D. Fugle ved Fyret paa Morgenvagten.
Anthus pratensis. Vyl 1.
NbEterSep fem ber
Stevns. S.V. 2. Ov. D. Nogle Smaafugle og 1 Due ved
Fyret fra Kl. 1 til Daggry.
bSdesseptem ber:
Vyl. N.V. 3. Sk. 1 Stør Stormsvale faldt. Schultz's Grund.
V. 5. Sk. Mange Fugle ved Fyret.
Procellaria leucorrhoa. Vyl 1.
RSderssepkem ber:
Schultz's Grund. V. 5. Ov. Mange Fugle ved Fyret; 1 Bog-
finke faldt.
Fringilla coelebs 1.
HO derSeptembe rs
Vyl. S.Ø. 4. Klart. Enkelte Smaafugle ved Skibet; 1 Rødstjert
faldt.
Ruticilla phoenicura 1.
25de September.
Hanstholm. N.V. 4. Ov. R. Endel Drosler ved Ruderne; 10
faldt, ikke indsendte.
26de September.
Vyl. N.V. 3. R. Endel Fugle ved Fyret; 1 Sangdrossel faldt.
Turdus musicus 1.
BaderSeptem ber:
Graadyb. V. 2. Sk. 1 Sangdrossel faldt.

176
(1921.)

Turdus musicus 1.

2 0de September:

VylLeNSV SE SKR Enkelte "Euglesved Fyret; 1 Stenpikker
fald. Kjels Nor. N.V. 4. Ov. 1 Enkelt Bekkasin faldt, ikke
indsendt.

Saxicola oenanthe. Vyl 1.

SN terRSie pike mm bier
Dueodde. N.N.V. 2. Sk. 1 Ryle faldt.
Tringa alpina 1.

ste Oktober

Lodbjerg UVEPN OVE DERE Enkelte Euslef om Fyret sale

Limnocryptes gallinula 1.

Sylvia hortensis 1.

Acrocephalus arundinaceus |.

2den Oktober.

WyliæssPER Enkelte "Fugle ved" Fyret HI Elle Rap pedykker
faldt. Lodbjerg. S. 1. Ov. D. Enkelte Solsorter, Drosler og Fugle-
konger om Fyret.

Tachybaptes minor. Vyl 1.

Seno toder

Gilleleje Flak N. S.V. 2. Sk. . Enkelte "Fugle ved Eyre eee
Gærdesmutte faldt.

Troglodytes parvuius 1.

ude Oktober
Kjels Nor. S.S.V.—V. 3. Ov. D. 1 Stær faldt, ikke indsendt.
(Sturnus vulgaris |).

Sille Ok Kobe

VyleNVPN SKE Enkelte Fugle ved" Fyret; Munkesanger
faldt. Schultz's Grund. V. 4. Ov. 1 Enkelt Bekkasin faldt. Stevns.
Vi LA OV DSE Enkelte. Stære ved: Fyret fra KLEE tilser
Skjoldnæs. V.S.V. 3. Ov. D. Enkelte Drosler og Smaafugle ved
Ruderne.. Hammeren. V.S.V. 6. Ov. D. En Mængde Stære paa
Ruderne hele Natten. Dueodde. V.S.V. 3. Ov. D. Endel Stære
paa Ruderne; 3 faldt, ikke inds.

Limnocryptes gallinula. Schultz?s Grund 1.

Sturnus vulgaris. (Dueodde 3).

Sylvia atricapilla. Vyl 1.

oderOktober:

Vyl. S. 1. Sk. Enkelte Fugle ved Fyret; 1 Sangdrossel faldt.

Horns Rev. S.:1. Ov. D. Endel Fugle, mest Drosler, ved Fyret;

177
(1921.)
endel faldt overbord, 4 paa Dækket. Lodbjerg. S. 1. Ov. Tg.

"1 Droøssel paa Ruderne; Vildgæs omkring Fyret. Læsø Trindel.
Vind 0. Ov. Fugle ved Fyret efter Midnat; 1 Lærke faldt. Læsø
Rende. S.V. 1. Ov. D. Endel Fugle omkring Fyret; Regnspover
hørtes. Gilleleje Flak N. V.N.V. 2. Sk. 1 Sangdrossel faldt.
Hammeren. V.N.V. 3. Sk. 10 Kongefugle paa Lanterneruderne.

Alauda arvensis. Læsø Trindel 1.

Turdus iliacus. Horns Rev 1.

Turdus musicus. Vyl 1, Horns Rev 2, Gilleleje Flak N. 1.

Emberiza schoeniclus. Horns Rev 1.

koldeTO ktober

Vyl. S. 1. Sk. Enkelte Fugle ved Fyret; 1 Vindrossel faldt.
Lyngvig. V.N.V.—V. 1. Ov. D. Drosler og Smaafugle om Fyret;
c. 20 faldt, intet indsendt. Hanstholm. S.Ø. 2. Tg. En Mængde
Drosler ved Fyret. Skagen. S. 1. Ov. Tg. D. Mange Fugle ved
Eyret;kct210 faldt. ”Elanstholms SØ: 1: Te: "D: 3 Fugle" faldt.
Østre Flak. S.V. 1. Ov. Nogle Smaafugle ved Fyret; 1 Lærke
faldt. Anholt. S.V. 2. Endel Smaafugle ved Ruderne; ingen faldt.
Hesselø. S. 2. Ov. 13 Vindrosler, 2 Stære, 1 Vandrikse, 1 Bek-
kasin og 4 Lærker faldt; raadnede før Indsendelse kunde finde
Sted. Schultz's Grund. S. 1. Ov. Enkelte Drosler og mange
Fuglekonger ved Fyret; 1 Sangdrossel faldt. Drogden. S. 1. Ov.
Flere: Fugle ved Fyret; 1 Blishøne faldt. Stewns. Vind 0. Ov.
Nogle Rødkælke, Fuglekonger og andre Smaafugle ved Fyret fra
Klem S Form Kells Nor |S:S:Ø. "3: Ov. 1 Lærke faldt,
ikke indsendt. Skjoldnæs. S.Ø. 1. Ov. Enkelte Smaafugle ved
Ruderne.

Fulica atra. Drogden 1.

AÅlauda arvensis. Skagen: 2 (16 faldt), Østre Flak 1.
Sturnus vulgaris. (Hesselø 2).

Turdus iliacus. Vyl 1, Skagen 1 (c. 50 faldt), Hirtsholmene 1.
Turdus musicus. Skagen 2 (c. 100 faldt, Hirtsholmene 2, Schultz's
Grund 1.

Regulus cristatus. Skagen 2 (4 faldt).
Erithacus rubecula. Skagen 2 (6 faldt
Fringilla montifringilla. Skagen 1. (32 faldt.
KLLEKO kt ob'erT:
Vyl. N.N.V. 1 Tg. Flere Stære ombord; 1 Sangdrossel faldt.
yde pisiEærkel fald Rubjerg Knude. SM:3:0v. DD: En:
kelte Vindrosler ved Fyret fra Kl. 3 til 4. Skagen. V.S.V. 3.

Vidensk. Medd. fra Dansk naturhist. Foren. Bd. 76. 12

178
(1921.)

Ov. =T2: Enkelte "Fugle" ved Fyret "om "Morgenen; nogle" Drosler
(ikke indsendte) og 1 Enkelt Bekkasin faldt. Schultz's Grund.
S.S.V. 2. Ov. Mange Fuglekonger og enkelte Drosler ved Fyret;
1 Fuglekonge faldt. Kjels Nor. S.S.Ø. 3. Sk. 2 Stære faldt, ikke
indsendte. Christiansø. Ø. 3. Ov. Mange Kongefugle paa Lan-
ternen; ingen faldt.

Limnocryptes gallinula. Skagen 1.

Alauda arvensis. Lyngvig 1.

Sturnus vulgaris. (Kjels Nor 2).

Regulus cristatus. Schultz's Grund 1.

Turdus musicus. Vyl 1.

Pte Oktober

Graadyb. Vind 0. Tg. Stære, Lærker, Bogfinker, Fuglekonger,
Drosler, 1 Ugle og 1 Graa Krage ved Skibet. Horns Rev. N.V.
1. Ov. D. Endel Stære og Drosler ved Fyret; 3 Vindrosler faldt.
Lyngvig. V.N.V.—V. 1—2. Ov. Mange Fugle om Fyret; 18 faldt.
Lodbjerg. S.V. 1. Ov. Taage. Enkelte Drosler paa Ruderne; 6
faldt"”PETanstholm VP To En Mængde DroslertvedEyrer
Rubjerg Knude. S.V. 2. Ov. Mange Vindrosler ved Fyret fra
KI. 1 tilv429%, "5 faldt, intet indsendt?" "Skagen. "Omløb: Vinde
TEDE MansetEuslentmest"Drosler tog FStære ved EFyretkkerlee
Fugle faldt, Læsø Trindel. Vind 0. Ov. Fugle ved Fyret efter
Midnat. Læsø Rende. S.V. 2. Ov. D. Flere Fugle ved Fyret; 4
faldt... Østre Flak. V. 1. Ov. Nogle Smaafugle ved Fyret; ingen
faldt... Anholt. V.N.V. 1. Drosler og Stære ved Ruderne; endel
faldt i Søen. Schultz's Grund. Omløb. Vind. D. Mange Fugle-
konger og enkelte Stære ved Ruderne. Skjoldnæs. V.N.V.—V. 1.
Ov. Tg. D. Smaafugle ved Ruderne. Christiansø. S.V. 3. Tg.
Stære og Kongefugle paa Lanterneruderne; ingen faldt. Hamme-
ren. HØ STØT STONES Kongefuglesaas paa "Rudernedge
oddekn.ØSPHOVrNDNEnkelte FuglekongerkpaafRuderne llalde

Limnocryptes gallinula. Lodbjerg 1, Læsø Rende 1.

Alauda arvensis Lodbjerg 1.

Sturnus vulgaris. Skagen 1.

Regulus cristatus. Dueodde 1.

Turdus iliacus. Horns Rev 1 (3 faldt), Lyngvig 12, Lodbjerg 3, Skagen

1 (c. 50 faldt), Læsø Rende 2.

Turdus musicus. Lyngvig 3, Skagen 2 (c. 50 faldt).

Erithacus rubecula. Lyngvig 2, Lodbjerg 1, Læsø Rende 1.

Fringilla montifringilla. Lyngvig 1.

179
(1921.)
FSdeseko kobber:

Graadyb. V.N.V. 2. Ov. Stære, Lærker og Fuglekonger ved
Skibet; 1 Lærke faldt. Blaavands Huk. Omløb. Vind og Vind-
stille. Tg. 28 Fugle faldt. Vyl. N.V. 1. Ov. Tg. Mange Fugle
omEbyret; 12 faldt Elorns Rey: V.S.V. 2. R: Tg. En Mængde
Stære og Drosler ved Fyret; 12 faldt. Læsø Rende. S.V. 2. D.
Tg. 5 Fugle faldt. Østre Flak. V.S.V. 1. D. Nogle Smaafugle
ved Fyret; ingen faldt. Stevns. S.V. 1. Ov. Tg. Enkelte Stære
ved Ruderne fra Kl. 12 til 5. Helnæs. V. 1. Tg. Endel Lærker
ved Fyret mellem 12 og 4 Form.; ingen faldt. Skjoldnæs. V.S.V.
1. Tg. Ov. Endel Stære og Smaafugle ved Ruderne. Hyllekrog.
Vind 0.-—V.S.V. 2. Tg. Endel Smaafugle, mest Drosler, omkring
Fyret fra Midnat til Daggry.

Alauda arvensis. Graadyb 1, Blaavands Huk 1, Vyl 3, Horns Rev 1.

Sturnus vulgaris. Blaavands Huk 1.

Phyllopseustes rufus. Blaavands Huk 1.

Regulus cristatus. Læsø Rende 2.

Turdus iliacus. Blaavands Huk 1 (25 faldt), Vyl 7, Horns Rev 1 (10

faldt), Læsø Rende 3.
Turdus musicus Vyl 2.
Turdus merula. Horns Rev 1.

14de Oktober.

KÆlAES VÆSNSKER Vindrossel faldt: "ElornsRev: "SV: 3.
Ov. R. Enkelte Smaafugle ved Fyret; ingen faldt. Læsø Trindel.
SAVÆRSER DE Fusle ved Fyret hele"Natten; "4 faldt”paa: Dækket,
flere overbord.

Turdus iliacus. Vyl 1, Læsø Trindel 2.

Erithacus rubecula. Læsø Trindel 1.

Emberiza schveniclus. Læsø Trindel 1.

16de Oktober. i

Graadyb. V. 2. Sk. Enkelte Smaafugle ved Skibet; 1 Bog-
finke faldt.

Fringilla coelebs 1.

kldeROKtober:

Horns Rev. S.V. 2. Tg. Smaafugle ved Fyret; ingen faldt;
3 Krager sad i Rigningen om Natten.

18de Oktober.

Graadyb. S.S.V. 1. Tg. D. Enkelte Smaafugle ved Skibet; 1
Rørspurv faldt. Læsø Trindel. S.V. 3. Tg. Enkelte Fugle ved

19=

180

(1921.)
Fyret paa Morgenvagten. Schultz's Grund. S.V. 2. Tg. 1 Gul-
spurv faldt,

Emberiza schoeniclus. Graadyb 1.

Emberiza citrinella. Schultz's Grund 1.

KodeKOktObEer:

Graadyb. S.V. 2. Letskyet. Flokke af Smaafugle trak mod S.;
Bk faldt

Falco æsalon 1.

Fringilla coelebs 1.

A0deRoktoder

Horns Rev. V.S.V. 3. Ov. Endei Stære ved Fyret; 3 faldt.
Østre Flak. S.V. 2. R. D. Nogle Smaafugle ved Fyret.

Sturnus vulgaris. Horns Rev 1 (3 faldt).

2llldefOktober:

Gilleleje Flak N. V.S.V. 3. Sk. 1 Fuglekonge faldt. Due-
odde. V.N.V. 1. Ov. R. Endel Fuglekonger paa Ruderne.

Regulus cristatus. Gilleleje Flak N. 1.

AP ERO KRO bler

Vyl: N:Ø:2: Sk. 1 Musvit: faldt. Hanstholm ØSØRSKOr
R. En Mængde Stære om Fyret; enkelte faldt, ingen indsendt.
Læsø Trindel. Ø. 3—4. Ov. Fugle ved Fyret før Midnat. Østre
Flak. S.Ø. 1. R. D. Nogle Smaafugle ved Fyret; 1 Stær faldt,
ikke indsendt.

Sturnus vulgaris. (Østre Flak 1).

Parus major. Vyl 1.

SER O KODET:

Graadyb/ HSIVÆSS SKER 1 Vindrossel Faldt EET orn sker:
N. 10. Ov. R. Enkelte Fugle ved Fyret; 2 faldt. Læsø Rende.
ØFOMRET5SSEugle faldt Flesselø SØN SER EDSREnEMænsde
Fugle om Fyret; c. 45 faldt. Schultz's Grund. S. 3. Ov. Mange
Fugle ved Fyret; 4 faldt paa Dækket, 5 i Vandet. Gilleleje Flak
N. S.Ø. 5. R. 1 Vindrossel faldt. Kjels Nor. S.S.Ø. 4—10.
Ov. R. 1 Drossel faldt; ikke indsendt. Skjoldnæs. S.S.Ø.. 3:
Ov. R. Smaafugle ved Ruderne.

Alauda arvensis. Hesselø 2 (10 faldt).

Sturnus vulgaris. Læsø Rende 2, Hesselø 2.

Turdus iliacus. Graadyb 1, Hesselø 2 (c. 15 faldt), Schultz's Grund 1,

Gilleleje Flak 1.

Turdus musicus. Hesselø 3 (c. 15 faldt), Schultz”s Grund 3.
Turdus pilaris. Hesselø 1.

181
(1921.)

Turdus merula. Læsø Rende 1.
Erithacus rubecula. Læsø Rende 1.
Fringilla montifringilla. Horns Rev 2, Læsø Rende 1.
AGdeTOktobDEer:
Bovbjerg. N.V. 3. Ov. R. Drosler paa Ruderne; c. 30 faldt,
intet indsendt.
BM dEeRO Kro Der
Kjels Nor. N.V. 4. Ov. 1 Stær faldt, ikke indsendt. Skjold-
næs. V. 4. Ov. R. D. Stære ved Ruderne. Dueodde. N.N.V. 1.
Ov. Tg. Endel Stære paa Ruderne.
Sturnus vulgaris. (Kjels Nor 1).
Seto kobler
Horns Rev. N.V. 4. Ov. R. Enkelte Fugle ved Fyret; 1
Sjagser faldt. Christiansø. V. 3. R. Enkelte Stære paa Lan-
ternen; ingen faldt.

Turdus pilaris. Horns Rev 1.
SOFeROkKto ber!
KvISRVÆSs SKET stær faldt:
Sturnus vulgaris 1.
Sukteko koder!

Graadyb. V. 3. Sk. Først paa Natten faldt mange Fugie uden-
bordsøltslpaa Dækket Py VE ASE Sk: I Stær faldt. Læsø
Trindel. S.V. 4. R. Fugle ved Fyret hele Natten. Skjoldnæs.
VESAVEES OVN] Stæreved Ruderne I Stær "og 1 Lærke! faldt;
intet. indsendt.

Sturnus vulgaris. Graadyb 4, Vyl 1, (Skjoldnæs 1).

Turdus merula. Graadyb 1.

Eske EN ove m bier
Horns Rev. N.V. 9., Sne og Hagl: 1 Raage faldt.
Corvus frugilegus 1.

3dje November.

GræodybS ENN VÆS ESKE CærkeF faldt Anholt gø 2501
Islom faldt.

Colymbus glacialis. Anholt 1.

Alauda arvensis Graadyb 1.

Ade November.

Nakkehoved. S.S.Ø. 4. Ov. R. Enkelte Smaafugle om Lan-

ternen. Dueodde. S.Ø. 5. Ov. R. Endel Stære paa Ruderne.
SkEeRNiov em ber
Sædenstrand. S.S.Ø. 3. Ov. R. 1 Hvinand faldt.

(1921.)
Claugula glaucion 1.
biFeRNIO Vemb rr:
Hanstholm. S.Ø. 2. Ov. Endel Drosler, Solsorter og Stære
om Fyret.
Kdl e RINK OVE TD ER
Graadyb. S:Ø.-2:'SkiMSolsort faldt: Vylø. 2 Letskyek
Enkelte Solsorter ved Fyret; 1 faldt. Hanstholm. Ø.N.Ø. 4. Ov.
Nogle Ænder ved Fyret; 3 faldt, men intet indsendt.
Turdus merula. Graadyb 1, Vyl 1.
(Re RN ove mer
GraadybiES:ØSPR SKE ærker falde
Alauda arvensis 1.
FE HSREN ove mer
VylREN ØM Sne Enkelte Smaafugletombords HE Sisken
faldt.
Chrysomitris spinus 1.
IkSidie November:
VÆRN IØRPAREINGraasisken faldt
Cannabina linaria 1.
l14de November.
VÆJIRESEPÆR EPE Graasiskenerfalde
Cannabina linaria 2.
I5de November.
JAMES OMK Graasisken falde
Cannabina linaria 1.
ZalkdleeNiove midler
VAAIMØ!S!ØRPMEREE nkelte kugle hved Eyre NS jarsertalde
Østre Flak. Ø. 5. Sne. Enkelte Fugle om Fyret; 1 Drossel faldt,
ikke indsendt.
Turdus pilaris. Vyl 1.
PP ERINKO Vemmbler
Anholt. Ø.S.Ø. 2. Solsorter, Lærker samt Stære ved Ruderne;
ingen faldt. Hesselø. S. 3. Ov. D. 3 Silkehaler faldt.
Ampelis garrula. Hesselø 3.
PjSicdleRINIO VÆ TIDER
Graadyb. Ø.N.Ø. 3. Sk. 1 Graasisken fallit. Hesselø. Ø.S.Ø.
SOVE uglerfaldt
Turdus pilaris. Hesselø 1.

Cannabina linaria. Graadyb 1.
Emberiza nivalis. Hesselø 1.

183
(1921.)

24de November.
Kv S: ØS PM Es Enkelte Fugleyved Fyrgt; 1 Lærke. faldt:
SerrpeS: ØF 2 OvD. 3: Fugle: faldt.
Alauda arvensis. Vyl 1.
Ampelis garrula. Sejrø 1.
Turdus pilaris. Sejrø 1.
Emberiza nivalis. Sejrø 1.
28de November.
Bovbjerg: S 32 Tg2:. 2 Fugle faldt.
Fulica atra 1.
Gallinula chloropus 1.
30te November.
Anholt. V.N.V. 4. D. Drosler og Stære ved Ruderne; en
Mængde faldt i Søen.
SkeRDecember
Horns Rev. V.S.V. 2. Ov. 1 Lærke faldt; ikke indsendt.
KO deRDecem ber:
Hanstholm. S.V. 3. Tg. Endel Smaafugle ved Fyret.

Forskellige Iagttagelser fra Fyrene.

Graadyb Fyrskib. Januar: 3lte Flokke af Lærker trak
mod N. — Februar: l8de N.N.V. 2. Flokke af Viber og enkelte
Stære trak mod N. — April: 18de var en Skovdue ombord om
Form., fløj derpaa mod Land. — August: I3de N.V. 3. Sk.
Træk af Regnspover mod S. 24de trak Ænder mod S. — Sep-
tember: Iste var en Viptjert ved Skibet. — Oktober: dte
trak Flokke af Smaafugle mod S. — R. W. Nielsen.

Sædenstrand Fyr. Februar: 17de fløj 7 Svaner mod N.
me Marts lys de Højt sk store klokke Graagæs mod NES TE:
Farsen:

Vyl Fvrskib. Februar: 16de saas flere Suler. 23de opholdt
endel Raager sig ombord. 24de vare mange Raager ombord. 25de
saas endel Raager og Stære. — Marts: dte saas en Søkonge.
13de vare store Flokke Ænder ved Skibet, fløj senere mod Ø.
18de vare mange Stære ombord og mange Ænder paa Vandet om

184

(1921.)

Skibet. 23de vare mange Ænder ved Skibet. 25de vare en-
kelte Smaafugle ombord. 26de vare 1 Stær og 1 Lærke ombord. ——
April: 4de vare 2 Bogfinker ombord hele Dagen. &de fløj en
Ugle ved Skibet tæt ved Vandet, blændet af det stærke Sollys.
— Maj: 3dje saas en Kjove jagende Maagerne. 6te saas mange
Suler. 12te jagede en Kjove Maagerne. 29de var en Svale om-

bord. — August: 26de opholdt endel smaa Sangfugle sig om-
bord. — September: 27de vare 2 Fuglekonger ombord. —
November: 9%de var en Krage ombord. — A. H. Schmidt.

Horns Rev Fyrskib. Oktober: Ilte vare enkelte Smaa-
fugle ombord; en Svane svømmede en Tid rundt om Skibet. 12te
opholdt en Hornugle sig en Tid paa Skibet. — Toftgaard-
Nrelsen

Bovbjerg Fyr. September: 20de, 21de og 22de lejrede
Flokke paa mange Tusinde Stære sig omkring Fyret. — S. J. Bel-
dring. i

Thyborøn Fyr. Februar: 27de fløj en Flok Viber mod N.
— Marts: J0de vare 3 Strandskader ved Stranden. I1Ide fløj
en Flok Viber mod N. 15de fløj en Floøk Gæs mod S. — Maj:
25de fløj en Flok Knortegæs mod N. 26de flere Flokke Knorte-
gæs mod N. 28de to Flokke Knortegæs mod N. — Septem-
ber: Ste fløj en Flok Knortegæs mod S. IIte en Flok Gæs mod
S. 12te flere Flokke Vildgæs mod S. 15de fløj flere Flokke
Knortegæs mod S. — Oktober: Ide fløj flere Flokke Krager
mod S. 27de en Flok Graagæs mod S. — November: 4de
fløj mange Krager mod S.V. — J. Nielsen.

Hanstholm Fyr. April: IOde opholdt en Stork sig ved Fyret
i c. 2 Timer og fløj derpaa mod Ø. — E. Holm Hansen.

Højen Fyr Intet kugle fald FASTER ts:

Skagen Fyr.. Maj: 14de saas 2 Storke vadende i Mosen i
Nærheden af Fyret. — November: 24de trak 3 Svaner mod
S.V. — December: 20de saas nogle enkelte Stære paa Mar-
kerne ved Fyret. — Fra Slutningen af Oktober ses daglig store
Flokke Ænder i Farvandet S. for Fyret og ved Grenen; en enkelt
bomfsestartorilkeAVÆGS Cnrrstensen

Læsø Trindel Fyrskib. Marts: Ilte trak adskillige Flokke
Krager hele Dagen mod N.Ø. l14de trak endel Krager hele Dagen
mod N.Ø. — Oktober: 17de, V. 3, trak adskillige Flokke Kra-

185
(1921.)

"ger hele Dagen mod S.V. 19de S.S.V. 4. Ligeledes. 21de V.N.V.
SM kiseledes "SW inther.

Læsø Rende Fyrskib. November: Iste fløj store Flokke
Ederfugle mod V. — A. P. Jensen.

Østre Flak Fyrskib. Januar: 1O0de V.S.V. 2. 8 Vildgæs
fløj mod Ø. 24de N. 3. En Flok Vildgæs fløj mod V. — Marts:
8&de V.S.V. 2; en Flok store Gæs trak mod N. 10de S.V. 2;
Flokke af Krager trak mod N.Ø. I2te S. 1. Ligeledes. 14de

Ssæ2 Ligeledes: — "April: dte V.N.V. 1; en Flok Vildgæs fløj
mod Øø—" Juni: 25de fløj 3 Ederfugle mod N. — August:
30te var en Svale ved Skibet. — September: I&de vare Tu-

sinder af sorte Ænder i Farvandet Ø. for Skibet. 29de N.V. 5.
3 Svaner mod S.V. — November: Åde S.S.Ø. 1. En stor Flok
Vildgæs fløj mod V. -—— te S.S.Ø. 1. Flere Flokke Graagæs trak
fra S.V. mod N.Ø.; 3 Svaner trak mod N. — December: I2te
S.S.V. 3. En Flok Vildgæs fløj mod V.N.V. 29de V.N.V. 5. 3
Vildgæs fløj mod V. — A. Porse.

Hals Barre Fyr. Intet Fuglefald. — I Januar og September
var der usædvanlig faa Gæs og andre Søfugle; i Oktober begyndte
Gæs og Ederfugle at komme, og i Slutningen af Aaret var der
mange flere end forrige Aar. — A. Jensen.

Gjerrild Fyr. Intet Fuglefald. — A. Andersen.

Anholt Knob Fyrskib. April: Ilte vare 2 Graaspurve ved
Skibet hele Dagen. 26de vare mange Smaafugle rundt om Skibet
hele Dagen. 27de Ø. 2. En stor Flok Krager mod Ø. — Au-
gust: Ode fløj 6 Graagæs mod V. — Oktober: Ide V. 2.
Tg. Store Flokke Krager mod V. 16de V. 3. Endel Krager og
enkelte Graagæs mod V. — November: 26de fløj en Flok
Ederfugle mod S. — M. Trondal.

Anholt Fyr. Januar: Ilte iagttoges Sjaggere i Omegnen.
15de saas mange Lommer ved Øen. — Februar: 17de saas
enkelte Stære og Lærker i Omegnen. I10de saas endel Stære,
Viber og enkelte Solsorter; paa Havet saas store Flokke Sort-
ænder, Fløjelsænder og Ederfugle. — Marts: 2den saas Stære,
Lærker, Solsorter og Sjaggere. 3dje saas Strandskader paa Stran-
den. I2te trak store Flokke Krager og Alliker mod Ø. I4de
ligeledes. 15de trak Krager i Flokke mod Ø. I1&de trak Al-
liker mod Ø.; store Flokke opholdt sig paa Øen. 20de saas Strand.

186
(1921.)

skader i større Mængde. -——— Oktober: 22de N.Ø. 4. Om Mor-
genen begyndte store Flokke Krager at komme fra N.Ø.; op ad
Dagen tiltog de i Mængde, og paa visse Tider kom de som en
jævn Strøm. Fuglene vare i høj Grad udmattede; de kom med
aabent Næb og uden Skrig, flyvende tæt over Vandfladen. Store
Mængder hvilede ud paa Øen; om Aftenen steg Vindstyrken til
11 og det paafølgende Døgn rasede en orkanagtig Storm N.Ø.—
N.—N.V. — December: Der iagttoges endel Ænder paa Søen,
dog kun faa og smaa Flokke; det er navnlig Sortænder og Fløjls-

ænder. Nogle Graaænder saas. — M. P. Andersen.

Hesselø Fyr. Februar: 28de saas Stær, Vibe og Strand-
skade. -— Marts: &de saas Gravanden. — Maj: Sde saas Svalen.
— K.A. Jensen.

Spodsbjerg Fyr. Intet Fuglefald. — P. Christensen.

FjelmH Fyr Januar: 5] te hørtes tærken HE KE bra
24de saas Viben og Lærken første Gang. 28de saas 6 Strand
skader ved Øen. — April: 25de saas Svalen første Gang. —

Maj: 27de saas 4 Storke, forfulgt af 3 Høge, flyve over Øen
mod Ø. Siden 24de ruger Maager, Terner, Strandskader samt
enkelte Graaænder paa Øens Lavland. -—— Oktober: Iste saas
en sort Stork paa Øen. — November: IÅ4de og følgende Dage
saas mange Silkehaler. — December: I13de, l6de og 18de saas
en Vibe paa Øen. — Intet Fuglefald. — H. W. Nielsen.

Sletterhage Fyr. I Januar, Februar og en Del af Marts op-
holdt en Del større og mindre Flokke Ederfugle sig ved Fyret,
endnu i April saas enkelte mindre Flokke. I Slutningen af Januar
kom de første Stære, dog først omkring Midten af Marts slog
større Flokke Stære sig ned her. Fra Oktober begyndte mindre
Flokke Ænder at vise sig, og i December har lejlighedsvis nogle
Graagæs opholdt sig i Fyrets Nærhed. — Intet Fuglefald. —-
Tidemand.

Sejrø Fyr. I April saas jævnlig store Flokke Ederfugle trække
mod N. I Slutningen af September og først i Oktober begyndte
disse og andre Dykænder atter at samle sig i Farvandet. I No-
vember Maaned har et Par Gange Svaner været paa Revet i
Flokke paa 7—8 Stkr. — J. Z. Nielsen.

Gilleleje Flak N. Fyrskib. Februar: 25de S.S.Ø. 2. En-
del Krager mod N.Ø. — Marts: Iste endel Smaafugle ved Ski-

187
(1921.)

… bet. 6te S. 2. Mange Krager mod N.Ø. om Eftm. I Maanedens

Løb stort Kragetræk mod N.Ø. — Oktober: 7de S.S.Ø. 2.
Flokke af Krager mod S. IOde saas en Flok Graagæs; Flokke
af Krager hele Dagen mod S. — I.S. Ibsen.

Lappegrunden Fyrskib. April: 4de flere Flokke Ænder om
Skibet. 6te store Flokke Ænder om Skibet. Ilte fløj flere Flokke
Ederfugle og Gæs i Farvandet. II3de V.S.V. 3. Mange Krager
mod Ø. 15de store Flokke Ænder i Farvandet. 17de flere Flokke
Gæs og Ænder mod S. I&de Store Flokke Ænder mod S. 23de
ligeledes. — Maj: 7de flere Flokke Vildænder mod N. 13de en
stor Flok Vildgæs mod N. 2l1lde en meget stor Flok Gæs mod
Næ——ANC-Jensen:

Nordre Røse Fyr. I Løbet af Sommeren og Efteraaret har
ingen Svømmefugle opholdt sig om Fyret, formodentlig paa Grund
alkdetimiøde Vejr: —-H.-S2E Madsen:

Drogden Fyrskib. Februar: 1Ode en Lærke ved Skibet.
12te fløj 5 Svaner mod V. om Eftm.; 2 Lærker holdt sig et Kvar-
ter syngende over Skibet. 22de enkelte Krager mod V. 23de
nogle Lærker ved Skibet. 26de fløj en Flok Krager mod N.; en
Solsort opholdt sig ved Skibet. — Marts: Iste fløj en Vibe mod N.
23de fløj store Flokke af Smaafugle mod V.; nogle Bogfinker opholdt
sietlkorslidkvedi Skibet 2% deRvarkentBoghinke "paa Skibe
April: 2den fløj 5 Svaner mod S.V. Ste fløj 11 Krager i Flok
mod V.; Bogfinker opholdt sig paa Skibet. I1Ode fløj en Flok
Srorkeecr30FStkret mod NET September" fe fløj en"Elok
Gravgæs mod S.V. 19de kredsede en Skare om Skibet og fløj
mod V. 25de fløj hele Dagen Smaafugle i smaa Flokke mod V.
26de ligeledes. 27de ligeledes; en Bogfinke ombord. 28de lige-
ledes. — Oktober: 12te opholdt Stære, Lærker og Fuglekonger
sig paa Skibet. 19de trak store Flokke Krager mod V. — No-
vember: l6de flere Lærker omkring Skibet i Dagens Løb. —
Dem bErEsd jet fløjte Svanerlomt Forms mod SV TJ ULFS:
fense ne

Stevns Fyr. November: I14de til I&de opholdt en Flok
Silkehaler sig i Fyrets Have. — N. Roed.

Sprogø Fyr. Februar: 20de saas 2 Viber. 26de saas Stæ-
ren. — Marts: 2den saas de første Strandskader. IOde kom
alle Maagerne til Øen. —— E. Haubirk.

188

(1921.)

Helleholm Fyr. Januar: 12te saas Gravanden. — Februar:
18de saas Viben. 22de saas Strandskaden. — P. Larsen.

Vejrø Fyr. Intet Fuglefald. — Havlitter, Brunnakker, Graa-
ænder og Ederfugle almindelige om Vinteren omkring Øen; naar
Staalgrunden er tillagt trækker store Svaneflokke ind under Øen.
Enkelte Maager og Viber ruge paa Øen.

Omø Fyr. Februar: 25de saas Strandskaden. — Nogle faa
Ederfugle saas paa Revet i November og December. — G. Å.
Fetersem

Hov Fyr. Intet Fuglefald. — S. Dahl.

Tranekjær Fyr. Intet Fuglefuld. — P. Vilandt.

Taars Fyr. Intet Fuglefald. -—— W. Pedersen.

Albuen Fyr. Intet Fuglefald. H.C. Mogensen.

Strib Fyr. Marts: 5te saas Stæren ved Fyret. 25de trak
den første Flok Graagæs mod N.Ø. I Efteraaret har der været
mange Ederfugle i Beltet, mest gamle Fugle. — M. Ungerskov.

Baagø Fyr. Intet Fuglefald. — N. Hansen.

Helnæs Fyr. Januar: 15de og senere holdt Flokke af Blaa-
krager til langs Stranden og paa Markerne i Fyrets Nærhed. 28de

saas enkelte Lærker. — Februar: Iste sang Lærken. 14de
saas Stæren. 15de saas Viben; Flokke af Blaarygge, Havlitter og
Ederfugle saas paa Søen. —- April: 4de rensede Stæren Rede-

kasserne. I første Halvdel af April saas daglig Graaænder, Eder-
fugle og Strandskader trække forbi Fyret. — Maj: dte saas Sva-
len. — Juni: Gravænder saas hele Maaneden med Unger. —
Ude i en Mose paa Nordenden af Helnæs har et Par Graagæs
udruget 5 Gæslinger; de opholder sig stadig i Mosen og fredes
af Ejeren; i Slutningen af Juni begyndte Ungerne at flyve. 22de
trak en Hejre forbi Fyret. — September: 12te trak store Flokke
Viber mod S. låÅde trak enkelte Blaakrager mod S.V. 15de
saas en Flok Ederfugle V. for Fyret. — Oktober: Idje og føl-
gende Tid ses daglig store Træk af Blaakrager samt Alliker træk-
kende mod S.V.; særlig mange trak forbi Fyret d. Ilte; samme
Dag en stor Flok Viber mod S.V. 17de og følgende Tid tiltager
Ederfuglene i Tal ved stort Træk fra N. 19de saas en Flok Stære
trække mod S. — November: IIte og I2te saas store Flokke
Krager paa Markerne og langs Stranden; Flokke af Stære ses dag-
lig. 13de opholdt 4 Viber sig paa Stranden udfor Fyret. 14de

189
(1921.)

… saas Flokke af Sjaggere. 15de saas om Form. Stæreflokke pas-
sere forbi Fyret; 2 Viber saas ved Stranden. 25de trak en Flok
Stære Kl. 8 Form. mod S.V. I December saas daglig Flokke
af Ederfugle og Dykænder ude paa Søen. -— S. P. Mortensen.

Skjoldnæs Fyr. Februar: I&de saas 2 Viber paa Markerne.
26de saas 1 Vibe paa Stranden. 27de N.V. 6 Graagæs trak mod
Vær Mar EST enitrak en 20 OPA ker mod EN KL PER
April: 19de ankom Svalen. —- November: Idje N.N.V. 5.
20 Svaner trak mod S.V. — H. Wirtz.

Christiansø Fyr. Februar: 22de opholdt 3 Viber sig paa
Øen hele Dagen. — April: 14de opholdt c. 50 Skovduer sig
paa Øen om Form. — Maj: Ite opholdt c. 10 Svaler sig paa
Øen om Dagen. I&de saas og hørtes Gøgen; den første Eder-
fugl saas i Havnen med Unger. — Ederfugle og Maager er i Aar
i større Antal end sædvanlig tilstede paa Græsholmen; Ederfuglen
er næsten helt tam i Yngletiden, da den med Ungerne svømmer
helt ind i Havnen og æder Sildeaffald ved Fiskerbaadene. — Ok-
tober: 27de opholdt store Flokke Dompapper og Kramsfugle sig
paa Øen; Dompapperne bleve paa Øen om Vinteren og gjorde stor
Skade ved at æde Frugtknopperne i Haverne. — Det meget ringe
Fuglefald i Efteraaret skyldes sikkert det usædvanlig klare Vejr,
saa godt som uden Taage. — H.M. Hansen.

Hammeren Fyr. April: 4de fløj 8 Storke mod N. I5de
fløj 12 Svaner mod N. — August: 30fe trak 20 Knortegæs mod
V. — September: Ste trak 2 store Flokke Ænder, vistn k Sort-
ænder, mod S.V. 6fte trak c. 500 "Gæs mod S.V.; Vinden var
VÆSEN S den SAVER KO mM kr O0OOR Gæs trak mod FSV KO k-
tober: 6te trak 18 Svaner mod V. — A. M. Dam.

Dueodde Fyr. September: l4de saas lidt før Solnedgang
2 Flokke Graagæs paa henholdvis 12 og 42 trække mod S.; efter
Solnedgang hørtes flere Flokke trække forbi Fyret. — Liisberg-
Howlsen:

Møen Fyr: Januar: &de VEN:V. 3" Svaner trak mod V. —
April:"Ste V.S:V:-8 Storke fløj om. Eftm. mod -N:V..— Novem-
ber: 6fe S.9. 4. Om Form. fløj 2 Svaner mod S.Ø. — A. P.
Eliassen:

Harbølle Pynt Fyr. Intet Fuglefald. — Olsen.

Hestehoved Fyr. Januar: Større og mindre Flokke Havlitter

190

(1921.)

laa i Farvandet om Fyret. — Februar: Mindre Flokke, c. 100
Stkr., laa hele Maaneden i Farvandet; d. 25de var meget store
Flokke at se hele Dagen. — Marts: Havlitter saas hele Maane-

den i aftagende Tal i Farvandet i Flokke paa 4-—20 Stkr. —- N o-
vember: Først i Maaneden viste Havlitterne sig igen, tiltagende
stærkt i Antal i December, da meget store Flokke vare at se. —=
læjensen

Gedser Fyr. Intet Fuglefald. — C. Madsen.

Gedser Rev Fyrskib. Januar: 13de S.V. 3 Svaner fløj mod

SEKT Forn Ju ni de NEN NV EET Svameriør med
N.Ø. — Oktober: 30te fløj 3 Flokke Svaner paa henholdsvis 5,
4098 Stkr. mod N:V.; Vinden NVE KTETS'kKovrsaand

Hyllekrog Fyr. Intet Fuglefald. — G. Martens Petersen.

Meddelelser om mindre almindelige danske Fugle.

Anser erythropus.

En Dverggaas, ung Fugl, saas d. 27.10.1923 i en Vildthandel
i København, vistnok skudt i Jylland; Stykket gik desværre tabt;
meddelt af Præparator H. Madsen.

Colymbus arcticus.

En Sortstrubet Lom, en voksen Hun i ren Sommerdragt, blev
skudt ved Stranden ved Rungsted d. 13.12.1922 af Cand. polyt. G.
Monberg.

Eulmarus glacialis.

En Stormfugl, en ung Han, blev skudt i Sundet ved Helsingør
d. 27.9.1922; modtoges til Udstopning ANER Pr telser Ea
af lys Race, blev skudt ved Nymindegab d. 16.10.1923 og tilsendt
Museetaltræns blot

Ofistfetrase

En Dvergtrappe, en Han, blev skudt i Varming ved Ribe d.
27.6.1922; den var set i nogle Dage, løbende udenfor en Bonde-
have; Testiklerne vare stærkt udviklede, af Størrelse som Hjertet.
I Maven vare Blade og Blomsterknopper af Kongepen, Ranunkler
omlksamt kl SE Billerameddelalesnd neo SEE

191

Tringa maritima.

To Sortgraa Ryler, to Hanner, bleve skudte ved Nymindegab
ders 922 af" Hr"N: Bloch

Phalaropus hyperboreus.

En Odinshane blev skudt ved Hesselager paa Fyn d. 30.9.1923:;
modtoges til Udstopning af Conservator C. N. Windeballe.

Phalaropus fulicarius.

En Thorshane i Vinterdragt blev skudt paa Vejlefjord d. 18.10.
1923:"meddelt af Ejeren Hr. H.Houmann.

Larus minutus.

En Dvergmaage, ung Fugl, blev skudt ved Vejle d. 28.8.1922
meddeler Hr. H. Houmann.

Lestris longicauda.

En Lille Kjove, en ung Hun, blev fundet død paa Vandet Ø.
for Saltholm Flak Fort d. 7.9.1922 af Fisker A. Andersen, der
forærede den til Zoologisk Museum.

Fratercula arctica.

En Lunde, en voksen Han i ren Sommerdragt, blev skudt i
Vejlefjords Munding d. 23.5.1922 af Direktør Dr. phil. C. G. Joh.
Petersen, der forærede den til Zoologisk Museum.

Botaurus stellaris.

En Rørdrum, en Han, blev skudt i Lust ved Møgeltønder d.
27.8.1921; Skindet i Zoologisk Museum, modtaget fra Conservator
HÆPSHansen:

Sula bassana.

En Sule, voksen Fugl, fangedes i en Have i Sletten ved
Øresund d. 1.5.1923 og indsendtes til Zoologisk Have; det er
usædvanligt at træffe denne Fugl saa langt nede i danske Far-
vande. Fra Nymindegab er fra Hr. N. Bloch modtaget en vok-
sen Hun, skudt d. 20.8.1923, og en voksen Han, skudt d. 1.9.
1923:

Aquila fulva.

En Kongeør», en ung Han, blev skudt ved Aakirkeby d. 12.11.
1922 og indsendt til Udstopning hos Conservator A. Windeballe.

Haliaétus albicilla.

En Havørn iagttoges ved Sortedamssøen i København d. 27.10.
1923; den forfulgtes af en stor Sværm af de derværende Maager;
meddelt af Assistent Blom, der indestod for Artsbestemmelsen.

Pandion haliaétus.

En Fiskeørn saas ved Randsfjord d. 2.10.1923 flyvende langs
Kysten; senere blev et Individ skudt samme Steds; meddelt af
Conservator C. N. Windeballe.

Milvus ictinus.

En Glente saas d. 17.5.1922 flyvende fra Fyn over Fredericia
og videre mod N., meddeler Conservator C. N. Windeballe.

Upupa epops.

En Hærfugl blev skudt ved Egebæksande i Thy d. 14.10.1919
af Isenkræmmer O. E. Lund, efter hvis Død den er indgaaet i
Zoologisk Museum.

Cinclus aquaticus.
To Vandstære, Han og Hun, bleve skudte ved Follerup Mølle

ved Fredericia d. 24.3.1923 og sendte til Udstopning hos Conser-
vator AA. Windeballe.

Videnskabelige Meddelelser

fra
Dansk naturhistorisk Forening i København

Bind 77.

Udgivne af Selskabets Bestyrelse.

Med 4 Tavler, 184 Figurer og 1 Tabel i Teksten.

Ottende Aartis femte Aargang. Il.

København
I Kommission hos C. A. Reitzel.
1924.

Redaktionen af dette Bind er besørget af Dr. phil. Th. Mortensen.

Andelsbogtrykkeriet i Odense.

Indhold.

Papers from Dr. Th. Mortensen's Pacific Expedition 1914—16. KE KXIV:

XIX.

XX.

XXI.

XXII.

XXIII.

XXIV.

Nils Hj. Odhner, Stockholm. New Zealand Mollusca. (Med Pls.
FUER ES ENE SEES YE er EET
Th. Mortensen. Echinoderms of New Zealand and the Auckland
Campbell Islands. Il. Ophiuroidea. (Med Pls. III—IV og 36 Fi-
EEN HEE EVE
Oscar Carlgren, Lund. Actiniaria from New Zealand and its Sub-
antarclicelslandss (MEdSSSVEi uren ere ) REESE
W. Michaelsen, Hamburg. Ascidiæ Krikobranchiæ von Neuseeland,
den Chatham- und den Auckland-Inseln. (Med 30 Figurer og 1 Tabel
FRR DU) SS Er SE SEE ERE er SN SE ne RTE re
H. V. Brøndsted. Sponges from New Zealand. Part I. (Med 34 Fi-
ERE TES EVE ES EET EEEE ee
Gustav Stiasny, Leiden. Scyphomedusen von den Molukken und
densker-Inselns (Med Er gurertikerten) NR RE ae SEN

Side

179

435

485

Det foreliggende 77. Bind af
Videnskabelige Meddelelser fra
Dansk Naturhistorisk Forening i
København danner Fortsættelsen
af Bindene 73 og 75 og inde-
holder udelukkende Afhandlinger
baserede på Materiale indsamlet
under Dr. Th. Mortensen's Pa-
cificExpedition1914—16 og
Denfdanske Expedition til
Kei-Øerne 1922.

Omkostningerne ved Publika-
tionen af dette Bind er afholdt
af et til dette Formål af Rask-
ØrstedkFondetibevilseteBe-
løb. For denne Bevilling ønsker
jeg herved at bringe Direktionen
for Rask-Ørsted Fondet min bed-

ste Tak.

København i December 1924.

The present volume 77 of
Videnskabelige Meddelelser fra
Dansk Naturhistorisk Forening i
København forms the continu-
ation of volumes 73 and 75 and
contains exclusively papers deal-
ing with material collected dur-
ing Dr. Th. Mortensen's Pac-
ific: Expedition 1914—16,
and The Danish"Exrpeditiorn
to the Kei-Islands, 1922.

The expenses of the public-
ation of this volume are sup-
plied by an amount granted for
this purpose by the Rask-Oer-
sted Fund. I'beg herewithsto
express my best thanks to the
Board of Directors of the Rask-
Oersted Fund for this grant.

Dr. TH. MORTENSEN.

Papers from Dr. Th. Mortensen's Pacific Expedition
1914—16.
XIX.

New Zealand Mollusca.
(With Plates I—II and 24 text-figures.)
By
Nils Hj. Odhner, Stockholm.

Our knowledge about the molluscan fauna of N. Zealand must
be admitted to be rather satisfactory thanks to the extensive works
made by collectors and investigators from within and without the
country. The high state of the New Zealand malacozoology was
manifested in 1913 by the appearance of Suter”'s Manual of New
Zealand Mollusca, giving a complete account of the composition of
the fauna up to date of issue and invaluable to students on the
same subject, on account of its modern systematic arrangement
and accurate descriptions of every species.

This manual will certainly for a long time be a foundation and
also a stimulation to further research with the view to bring New Zea-
land malacozoology tø a still higher completion. As a contribution
to this task, taken up by resident authors, I think the present
publication may count upon interest. It deals with the abundant
collections of mollusca brought home by Dr. Th... Mortensen
from his exploration journey to New Zealand in 1914 and 1915.
They were gathered in a great number of localities, most of them
situated all round the North Island; a couple of yielding hauls
were also made in the South Island, and further towards the South
the collecting work was concentrated to Stewart, Auckland and
Campbell Islands. A summary of all the localities from where
marine mollusca were obtained begins the account, and in the
following text a station number refers to this list.

In this paper are recorded 379 species of mollusca, and, among
these, 29, all marine forms, are described as new to science, Most

Vidensk. Medd. fra Dansk naturh. Foren. Bd. 77. 1

2

of them (19) were found on the coast of the North Island, and of
these 9 come from its northernmost part (localities 1—5), which
seems to have been but little explored. At Auckland Island 6 new
forms were dredged, from Campbell Island 4 are described and
from Stewart Island 1. Beside these new species there are added
6 species new to N. Zealand, which belong to the E. Australian
and Tasmanian fauna.

- Three new genera have been created (viz. Liracraea, Runcinella,
Neogaimardia), and 7 previously extra-zealandian genera are now
recorded from the Dominion, viz. Fossarus, Prosipho, Heterocithara,
Asperdaphne, Eucyclotoma, Cerithium, and Spaniorinus. Liracraea and
Runcinella are endemic genera; the latter is most nearly related to
the Atlantic and Mediterranean Runcina; Fossarus and Neogaimardia
are common to the Peronian region of E. Australia and Tasmania,
and the latter is not known outside of this region. Heterocithara
and Asperdaphne have recently been created (1922) by Hedley for
Australian Turrid genera; Eucyclotoma Boettger, also accepted
by Hedley, and Cerithium have a wide Indo-Pacific range. Pro-
sipho is subantarctic, and Spaniorinus, constituted by Dall 1900,
comprises only fossil forms from the Tertiary of N. America and
Europe.

Three families previously not represented in the New Zealand
fauna are added here: Fossaridae (for Fossarus, of which 4 new
and one known species are reported), Runcinidae (for Runcinella)
and Galeommatidae (for Spaniorinus).

Ås to the nomenclature, which offers great difficulties and is
still in a state of confusion, I have followed Suter in all cases
where his names have not been subsequently corrected or changed,
according to nomenclatorial rules. A revision has proved to be
necessary, and, above other authors, Iredale has fulfilled this
task with his "Commentary on Suter's Manual of the New Zea-
land Mollusca”, which forms a valuable and indispensable comple-
ment to Suter's work. Iredale's corrections were accepted in
this paper, whenever they had been clearly proved to be well
founded and inevitable from nomenclatorial or systematical points
of view. In some cases, however, I have thought it better to
keep the old names of genera, until convincing reasons for a change-
ment shall have been adduced. Subdividing and nominating at

S

random for the single reason that a genus is comprehensive anti-
cipates a critical disentangling of the taxonomic questions, which
must be based on morphological facts obviously stated, and is, to
speak with Pilsbry in a similar connection, "neither good science
nor sound ethics” and only encumbers the subject with mean-
ingless names.

In illustrating the new species I have had a valuable help in

Mr. G. Liljevall, whose skilful hand has drawn plate-figs. 3, 15,
24, 26, 28 and 36—39, as also the text-figures 1, 2, 23.

The collections belong to the University Museum of Copenhagen.

List of Localities of Marine Mollusca.

N'orthekstand:

Three Kings Islands, 65 fathoms, hard bottom, dredge. 5/1 1915.
Cape Maria van Diemen, 10 miles N. W., 50 fms, hard bot-
tom, dredge. 4/1 1915.
Cape Maria van Diemen, the coast, shaken from algae. 4/1 1915.
2 miles E of North Cape, 55 fms, hard bottom, dredge. 2/1 1915.
NorihkCapemthel coast Finderfstones" 3/1 FT 9 TS:
Bay of Islands, 2 fms, on Fucaceae with Bryozoa and Hy-
droldstt MTVS"
Bay of Islands, the coast, under stones. 31/12 1914.

— , muddy estuary. 1/1 1915.
Cape Brett, the coast, on rocks among Corallinae. 31/12 1914.
Little Barrier Island, 30 fms, shell bottom, dredge. 29/12 1914.
Hauraki Gulf (North Channel, Kawaii Isl., Moko Hinau Isl.,
Hen & Chickens Isl., Puhoi Rock).

.. North Channel, Kawaii Isl., 10 fms, hard bottom. 29/12 1914.
sMokoRHinau Is 5 fms: 30/1 TOT

.. Hen & Chickens Isl., 50 fms, hard bottom, dredge. 30/12 1914.
. Puhoi Rock, the coast, under stones. 29/12 1914.

Ponui Island, the coast, under stones. 24/12 1914.
rr Sms mudrede EPS EETOTS:

Takapuna Beach, the coast, under stones. 23/12 1914.
Rangitoto, the coast, under stones. 27/12 1914.

Colville Channel, 35 fms, sand, mud, dredge. 21/12 1914.
Slipper Island, the coast, at low water. 20/12 1914.

NENENENEDNERNERN EN
ØNSØRKREONT

2,9:

30.

348
32.
33.
34.
35.
36.

36a.

378

St

38.
39.
40.
41.

4

OF WhitesIslan 37 OAO ENS EN 77 PE] REM 5S Mm sm udd
sand, dredge. 19/12 1914.

Mahia Peninsula, the coast, under stones, at low water.
18/12 1914.

Portland Island, the coast, at high water, under kelp, wood
etc "18/1 2 MOT

Cape Kidnappers, the coast. 31/1 1915.

Wellington Harbour, 5—10 fms, hard bottom, dredge. 16/2 1915.
Plimmerton, the coast. 15/1 1915.

New Plymouth, 8 fms, hard bottom, dredge. 12/1 1915.
Off Albatross Point, 25 fms, sand, dredge. 11/1 1915.
Manukau, the coast. 11/1 1915.

Onehunga, the coast. 10/1 1915.

Kaipara, the coast. 9/1 1915.

SomthEersamnidE

Queen Charlotte Sound, 3—10 fms, hard, locally muddy bot-
tom, dredge. 20/1 1915.
Akaroa Harbour, the coast, under stones. 27/12 1914.

Stewart Island:

Paterson Inlet, the coast. 18/11 1914.

— , 5—15 fms, mud, dredge. 17/11 1914.
Pegasus Bay, the coast, under stones, at low water. 26/11 1914.
Port Pegasus, the coast, under stones. 22/11 1914.

— , 25 fms, clayish mud, dredge. 20/11 1914.
Halfmoon Bay, the coast. 19/11 1914.

— 5—7 fms, sand. 19/11 1914.

Auckland Island:

Port Ross, the coast, under stones, at low water. 26-27/11
1914.
Port: Ross, 10 fms, sand, algae, dredge. 25/11 1911:
Normans Inlet, the coast. 28/11 1914.
Amokura Harbour, the coast, at low water. 30/11 1914.
Carnley Harbour, the coast, under stones. 29/11 1914.

— , Masked Island, Figure 8 Island. 2-3/12
1914.

5

42. Carnley Harbour, Coleridge Bay, 25 fms, sandy mud, dredge.
4/12 1914.
43. Carnley Harbour, 45 fms, sandy mud. 6/12 1914.

Campbell Island:

44, Perseverance Harbour, the coast, under stones, at low water.
9-10/12 1914. É
45... Perseverance Harbour, 20 fms, sandy mud, dredge. 10/12 1914.

Species Obtained.
Polyplacophora.

Lepidopleurus inquinatus Reeve (?iredalei Ashby).
(BER HosleE2d)

South Island: 29, 3 sps., 1.”) 10. — Stewart Island: 31, 4 sps.,
Re 52 Sp ES EFA ucklandEIsland F37a Espe 10]
— 43, many sps., I. 8. — Campbell Island: 45, 2 sps., Il. 9.

Remark. There is some variation in the sculpture in this spec-
ies, the grains being somewhat larger than usual, by which their
radial arrangement at the lateral areas may be less distinct on
account of their crowded disposition; this is obvious in the specimens
from Campbell Island (fig. 1). Mr. Ashby (1921 and 1923a) has
discussed identity and nomenclature of this species.

Ischnochiton maorianus Iredale (=longicymba Quoy
& Gaimard, non Blainville).

North Island: 7, 4 sps., 1. 30. — 11a, many sps., I. 38. — Ild,
many sps., I. 26.5. — 17, many sps., I. 35. — 19, many sps., Il.
SS3S——ESoUfhE Island: "303 sps., 1 34 3 36, 2"sps.,, 1. 12; —
Ssæmany spsy eg LE 22 Auckland ”Island: 37, many sps-, 1.16.
— 39, 1 small sp. — 41 (Masked Island, the coast), 1 small sp.
The confusion between the present species and Stenochiton longicymba
Q. & G. has been discussed by Ashby, 1923 (b).

1) 1., h., d, br. = abbreviations for length, height, diameter, breadth.
The following number indicates the measure in mm.

6

Ischnochiton luteoroseus Suter.

North Island: 11a, 3 small sps. — I1lb, 4 sps., I. 6.5. —
AucklandsIslandses7ansksps EA 2 ES DES

Ischnochiton campbelli (Filhol) (=parkeri Suter).
Auckland Islands "377 sp PIP SER 4 0 many spy
—41, Figure 8 Island, the coast, under stones, at low water, I
sp., I. 10. — Campbell Island: 44, many sps., I. 19. — 45, 1 sp.,
IIS

Callochiton empleurus (Hutton).

Campbell Island: 45, 6 sps., 1. 9. They are probably not full-
grown, since there are 6—7 pits on the sides of the lateral areas.
Suter has, not stated the number of slits in the terminal valve,
because of the scarceness of his material. They amount to 14.
In the anterior valve there were about 23 irregularly disposed ones.
Miss Mestayer (1921) examined a specimen from Foveaux Strait
and found 11 slits in the posterior valve and 14 in the anterior.

Callochiton mortenseni n. sp.
(Text hoselsee)

Shell ovate, dark-brown, shining, smooth, bluntly keeled dor-
sally, slightly convex at the lateral slopes. Anterior valve a little
broader than the posterior one, with a few concentric growth-lines
(in the one specimen with 4 concentric regularly distant sulci),
otherwise smooth and showing only microscopic radiating striae
and impressed dots which are densest towards the margin. Inter-
mediate valves beaked, with elevated lateral areas, totally smooth
except for lines of growth (and occasional impressed dots towards
the margins, and furrows: 4 concentric ones in one specimen), mi-
croscopically striated longitudinally. Posterior valve with a pre-
median mucro; its central area separated, by means of straight
lines, from the posterior elevated area, which has a straight or
slightly concave slope. All valves porous, the pores appearing as
microscopical regular dots all over the surface. Eyes in a small
number, occupying a median ray on the lateral areas, most obvious
in their upper parts. Girdle narrow, rusty brown, lighter at the
margin, with close elongate scales and fringed with short acicular

7

ones. Interior of the valves crimson; anterior valve with 16 slits,
posterior one with 12, median valves with 4 or 5; teeth solid,
propped outside, eaves porous, sutural plates united, sinus shallow,
broad. — Gill cordon extending from the anterior corners of the
foot to near the- foot end.

Focality:"Campbellelsland AS 25 sps., max. 1. 13; br8.5 mm,

Fig. 1. Callochiton mortlenseni Fig. 2. Right half of an intermediate
nåsp:…>< 4: valve of Callochiton mortenseni
mespsBe10:

Compared with C. steinenii from South Georgia, which has a
similar colour, the present species shows much smaller and denser
girdle-scales, as well as completely smooth, not granulose, and di-
stinctly microscopically striated valves; in the latter respect it differs
also from C. platessa, in which a tendency to granulation of the
lateral and central areas appears. The number of slits of the
intermediate valves (in C. steinenii 2, in C. platessa 3) is another
point of distinction.

Callochiton sulculatus Suter.

North Island: 11a, 1 sp., 1. 10. — Colour coralline red, lateral
areas white clouded; 6th and 7th valve of a whitish colour (except
the red apices) which occupies also the adjacent part of the girdle.
In its sculpture the present specimen shows the peculiarity of having
the sulci of the lateral areas most distinct on plate 6 and 7, 2 and 1.

8

Plaxiphora caelata (Reeve).
North Island: 2, 3 sps., I. 7. — 9, many small sps., Il. 15.

Plaxiphora aurata (Spalowsky) (=superba (Pilsbry).

North Island: 26, 2 small sps. — Auckland Island: 37 nume-
FOUS "SpS.;. 1.770:—= 740] 2 "sps:, 1:757.,——41, 31 -spt 11530 7889)
1 small sp. — Campbell Island: 44, many sps., I. 90.

Acanthochiton zelandicus (Quoi & Gaimard).

North Island: 77many spsk 7 == ass pE ENO RER
7-Sps., 1. 1207 ——15, 2 -sps.,: 1. 15. ——"1972sps., JS13' FRØS ÆS
sp., I. 19. — South Island: 29, 4 sps., I. 17. — Stewart Island:
31,-manyuspss1.30:—. "33; ESP LEV S SES ANA SPS SEES ES
— Mr. Ashby (1920) records this species from N. S. Wales.

Cryptoconchus porosus Burrow.
North Island "2212 "spss ES 50-—Southilslandsk20OES ESP SE
I. 34. — Stewart Island: 31, 2 sps., 1. 40. — Stewart Island,
without definite locality, 20 fms, hard bottom, 16/11 1914, 2 sps.,
150"
Craspedochiton rubiginosus (Hutton).

Northslslandi "LÆ Spy ISO JE MO 2 ES ps II SEERE
6sps., 1: 12. — 137 1 spy 1 18 south Island: "20 6ES ps
Is == srevartlslandsese spre

Loboplax violaceus (Quoy & Gaimard).
North Island: 11a, 7 sps., I. 38. — 14, 1 sp., I. 24. — 22,
2 sps., I. 58. — 23, 1 sp., I. 28. — For the name see Ashby 1920.

Sypharochiton pellisserpentis (Quoy & Gaimard).

North Island: FIE sp LETS ta many sp EG
Stewart Islandske sps El 272

Var. sinclairi (Gray).
North Island HØ F3eps MES FIS EUs pl TØ SEERE
2 sps., I. 13. Mr. Ashby (1922) considers Sypharochiton sinclairi
as a smooth variant of S. pellisserpentis.

9

Amaurochiton glaucus (Gray) (=Chiton quoyi Deshayes).

Norhklslandssrses”sps 3 k520 — 1 Ta; 1 "sp, 122: —11d
SESpSsyR IN 252 SOME TS ps EET SS 577 many sps:t 40
19% many ”sps:, 7140:— South Island: 30, many sps:, 1. 23. —
Stewart Island: 31, many sps., I. 25.

Rhyssoplax aerea (Reeve).
Auckland Island: 40, 1 sp., I. 20.

Rhyssoplax canaliculata (Quoy & Gaimard).
Northelsland: ERE Sp LET 221 sp:, 1 15:— South
Island: 29, many sps., I. 18.5. — Auckland Island: 40, 3 sps., I. 40.

Rhyssoplax huttoni (Suter).
Northelstands TS Æ2 spsy 25 474 sps.,1. 355——19575
sps., I. 35. — South Island: 30, many sps., I. 35. — Stewart Is-
land: 31, numerous sps., Il. 20.

Rhyssoplax suteri (Iredale) (=Chiton stangeri Suter).

North Island: 11a,. 1 sp., I. 6.2. Colour red, with white apices
and white spots on the lateral areas; girdle white and red banded.

Eudoxochiton nobilis (Gray),

Northelslande ESP ES OF 23 1 sp 1155) —= Stewart
IsSand: 34/1 sp. 1:73.

Onithochiton marmoratus Wissel (=nodosus Suter).
NorsthElsland:27; 1 sp: 178:

Onithochiton neglectus Rochebrune (-=O. undulatus
Quoy & Gaimard).

Northslskand: 17 7Espse fe 0 == South Island: 2973 'sps-,
to ”Stewart-Island: 31, 6 sps., 1. 19. — 344 sps., 1. 33. —
Auckland Island: 37, 4 sps., I. 26 (+- var. subantarcticus). — 40,
many sps, Il. 35 (+ var. subantarcticus). — 41, Masked Island,
under stones at low water, 1 sp., Il. 23, and on rocks with Melo-
besia, 2 small sps. — 1 mile S of Auckland Island, on floating

10

Lessonia, 28/11 1914, 4 sps., I. 23. -- Campbell Island: 44, many
sps., I. 45 (+ var. subantarcticus). — Mr. Iredale (1915) considers
subantarcticus as a species of its own.

Gastropoda.
Fam. Åcmaeidae.

Acmaea campbelli (Filhol).
Campbell Island: 44, many sps., I. 5.5; 7.2 (dead), on Macrocystis.

Acmaea cantharus (Reeve).
Stewart Island: 36, 2 sps., I. 7. — Auckland Island: 37, many
SPS ONE SENEST re dalen (TONS Ep 420) EC onsiders
this form as not distinct from A. pileopsis.

Acmaea unguis-almæ Lesson (-fragilis Chemnitz).
North Island: FI, Many "spss El SI KO EPE SPS ERE

Acmaea pileopsis (Quoy & Gaimard).

North Island: 17, some sps., I. 14. — Auckland Island: 37,
numerous sps., I. 33. — 39, many sps., I. 30. — 1 mile E of
Auckland Island, on floating Lessonia, 28/11 1914, some small
sps. — Campbell Island: 44, 1 sp., I. 13.5.

Acmaea helmsi Smith (-septiformis Quoy & Gaimard by Suter).
Auckland Island: 37, numerous sps., I. 19. — 39, many sps.,
1. 8.3. — Campbell Island: 44, 6 sps., I. 19.

Patelloida (ÅAcmaea) stella (Lesson).
North Island: 4, 1 dead shell, I. 19. — 9, many sps., I. 8 (var.
corticata Hutton).

Fam. Patellidae.

Nacella fuegiensis (Reeve).
Auckland. Island: "37378" spsål 1135 ZF Gampbell Island
many sps., I. 46.

11

Cellana (Helcioniscus) denticulata (Martyn).

Stewartlslandetsilts many spse sl 5

Cellana (Helcioniscus) ornata (Dillwyn).
North Island: 19, 4 sps., I. 30. — South Island: 30, many
sps%l 124. ——"Stewartflsland: 3 "måny sps-, 1. 40. — 36, many

Sspsmis 3

Cellana (Helcioniscus) radians (Gmelin).

NosthElsland El SelREs pE AE 17 some" sps 1 20

19, many sps., I. 50, (+ var. flavus Hutton, many sps., I. 44, and

other var.) — Stewart Island: 31, 2 sps., I. 46. — 36, 2 sps., I.

36. — Auckland Island: 37, 3 sps., 1. 36 (+ var. decorus Phi-
lippi; many sps., 1.-70). — 40, 1 sp., I. 29. — Campbell Island:
44, 1 sp., I. 51 (+ var. decorus, 3 sps., 1. 59).

Cellana strigilis (Hombron & Jacquinot)
(=Helcioniscus redimiculum Reeve).

Stewart Island: 36, 8 sps., I. 30.

Cellana (Helcioniscus) stellifera (Gmelin).

Stewarttlsland: "3 MEE Sp 71525"

Fam. Scissurellidae.

Schismope brevis Hedley.
North Island: 3, 1 small sp. — 9, 1 sp., diam. 0.9 mm.

Fam. Haliotidae.
Haliotis australis Gmelin.
North Island: 17, 2 sps., 1. 53. -—— 19, 2 sps., I. 68. — Stewart
Islands sp 153.

Haliotis iris Martyn.
Nortt Island: 44 "sps:,, 1.501 -— 17,75 'sps:, "1
SPS rt.

48. — 19, 8

12

ra

Haliotis virginea Gmelin.

Auckland Island: "3775 "spsy ELTON 40 Many spsk so
41 (Masked Island, under stones, at low water, 3/12) 2 sps., I. 50.

Fam. Fissurellidae.

Incisura lytteltonensis (E. A. Smith).
North Island: 3, many sps., I. 1.3 mm.

Emarginula striatula Quoy & Gaimard.

North Island 1 fragment "== MOSE 2Esps SE 102
SPS ESS ENGER ES DS SELEN GES

Tugalia (Subemarginula) parmophoidea (Quoy & Gaimard).

NorihElsland AES Es ps 2 8 TO EEES pE RER
many sps., I. 35. — Island Bay, the coast, 22/1 1915, 1 small
sp. — South Island: 29, 5 sps., I. 27.

Scutus ambiguus (Chemnitz).
North Islands Es bp LS 2 (animal) ==] 7 Sp
(animal). — South Island: 29, 2 sps., I. 9 (shell). — Stewart Is-
lands ESS pels hel) Å

Puncturella demissa Hedley.
Stewart Island: 36a, 5 shells, 1. 2.2.

Fam. Trochidae.

Thoristella (Trochus) chathamensis (Hutton).

Auckiand Island: 37, some small sps., diam. 6.5. — Campbell
Island: 44, 3 sps., d. 6.5.

Thoristella (Calliostoma) aucklandica (E. A. Smith).
Auckland Island: AO PFSPS Ed SETT AP MIE SPA TON DSE

Thoristella (Trochus) oppressa (Hutton).
North Island: MOSEN deadFshelsrd AS:

13

Trochus tiaratus Quoy & Gaimard.
North Island: 11a, 1 sp., d. 14. — 25, 1 sp., d. 12. — South
Island: 29, many small sps., d. 16.

Trochus viridis Gmelin.
North Island: 24, 1 sp., h. 15. — South Island: 29, 4 sps., h. 20.

Monodonta coracina (Troschel).

North Island: 19, 3 sps., d. 16. — Auckland Island: 37, many
sps., d. 17.5. — 38, many sps., d. 11. — 39, 2 small sps. — 40,
4 sps., d. 12.5. — 41, Masked Island, the coast, on stones at low
water E2Espsy dd 19%

Monodonta aethiops (Gmelin).

Norfhilslande 12 Spd OF 19 many sps:;h: "21. —-
BSN Sp 24-20 some spset 11775 —= South Island: 30;
many sps., d. 17, h. 16.5. — Stewart Island: 31, some sps., h. 30.

Monodonta corrosa (Adams).
Auckland Island: 41, Masked Island, the coast, under stones,
at low water, 1 dead shell, h. 16. — 37, many sps., h. 24.

Monodonta lugubris (Gmelin).
North Island: 17, 2 sps., d. 14. — 19, 5 sps., d. 12.

Monodonta crinita (Philippi).
Northelslandetsmæsps hÆT3:S:

Cantharidus dilatatus (Sowerby).
North Island: 22, 3 sps., h. 6.5. — 23, 1 sp., h. 7. — South
Island: 29, 4 sps., h. 8. — Stewart Island: 32, many sps., h. 8.
Spa til spyrhns. 5.

Cantharidus opalus (Martyn).
North Island: 5, 1 sp., h. 43. — 24, 2 sps., h. 39. — Stewart
Island FS5 MES ph 445 73622 sps., hh: 35:

Cantharidus capillaceus (Philippi) (-pruninus Gould).

Auckland Island: 37, many sps., h. 18. — 38, 1 sp., h. 22.
— 40, 2 sps., h. 19. — Campbell Island: 44, numerous sps., h.

14

22. — 45, 1 sp., h. 4,3 (without external shell layer, thus entirely
nacreous, with deeper spiral striae than usually, when living on
Macrocystis).

Cantharidus purpuratus (Martyn).

North Island: 4, 2 sps., h. 22. — 11a, 2 sps., h. 24. — South
ISland:F2 0/-3-smallksss heles:

Cantharidus tenebrosus ÅA. Adams.

North Island 112 1 "spy hres: =="southilsland: PSO TES pe
6. — Stewart Island: 31, many sps., h. 13.

Margarella (Photinula) antipoda (Hombron & Jacquinot).

Auckland Island: 37, 4 sps., h. 9. — Campbell Island: thrown
on thershoremllsmallksp:

Margarella (Photinula) decepta (Iredale).
Stewart Island: 36, 2 sps., d. 8.5. — Auckland Island: 37,
many sps., d. 8, h. 7. — 40, many sps., d. 9. — Campbell Is-
land: many sps., d. 8.5.

Gibbula fulminata (Hutton).
North Island: 2, 2 small sps.

Gibbula micans Suter.
North Island: 19, 5 sps., h. 6. — Stewart Island: 36a, 1 fragm.

Gibbula mortenseni n. sp.
(Ble fræS9)

Shell globose solid, finely rimate, whorls flattened, angled above,
obtusely rounded below, base slightly convex, suture impressed.
Sculpture consisting of spiral ridges separated by a little narrower
furrows, ridges beaded on the spire, smooth on the base, their
number 5 on the penultimate whorl, 10 on the base: the 3 upper
furrows on the penultimate whorl with a fine intercalating thread.
Colour white with red spots on the ribs set in longitudinal series,
spire crimson, grooves with a light greenish nacreous lustre. Pro-
toconch smooth, white, of 1 1/2 whorls, the following 5 whorls

15

spirally lirate. Aperture quadrangular, oblique, iridescent and lirate
— within, outer lip thin, slightly indented. Columella vertical, white,
with a submedian tubercle and a narrow callous reflection: no
callous covering on the parietal wall. Dimensions: H. 5.5, d. 5.2
mm. Locality: Auckland Island, Carnley Harbour, 45 fms, sandy
clay, 4/2 1914, 2 sps.

Gibbula scamnata Fischer.
North Island: 21, 4 sps., h. 3.8. — Stewart Island: 36a, 2 sps.,

næs:
Gibbula suteri (E. A. Smith).

NorthElsland: 20:EspE "hh 3.6:

Solariella (Monilea) egena Gould.
Sfewartilslande "3621 =spøkdsd

Solariella (Monilea) plicatula (Murdoch & Suter).
(=Minotia plicatula Murd. & Suter).
NorthElsland: "16 any spsst dr 2.5 — 18 1 sp d. 2.2. —
Sfewarttlsland: "31 2 sps LT A SE

Calliostoma pellucidum (Valenciennes).
Northelslande sl 0/ESEsps IE SAN RY Ta TT spr HE 22.

Calliostoma punctulatum (Martyn).
NorthRilslandseilames spsk nes OR DENE Sp ES 2 EO
Espen 02 Msp kh 26. —— 24, 1 sp., h.-23. —. South
Island: 2983 "sps. ER: 30:

Calliostoma tigris (Martyn).
Northklslande FOSS ES pE EPS FIT DN I Ssp: h.SZ.

Calliostoma trepidum Hedley.

-—

North Island: 2, 1 small specimen, h. 3, d. 2.7
mn 0 El empty shell bs:

The colour and the sculpture of the present shell are entirely
in accordance with the descripton and the figure given by Hed-
ley (1907, p. 490, pl. XVI, fig. 3). Hedley describes the apex

mm; whorls 4.

16

as "minute, rather tilted, unsculptured, of a whorl and a half”. In
the present specimens the apex has a finely reticulated sculpture
consisting of fine elevated lines surrounding small oval depressions.
This sculpture of the protoconch seems to be common in the genus
Calliostoma though generally obliterated by wearing. I have ob-
served it in C. pellucidum, the new C. onustum, and in the European
C. conulus, and Suter mentions it in C. zigris. It will certainly
prove to be a characteristic feature of the genus.

Calliøstoma onustum n. sp.
(PISA)

Shell small, conic-elongate, solid, imperforate, white and nac-
reous. Whorls 7 1/2, flattened, separated by a shallow suture, the
2 first papillate, spirally lirate and with traces of reticulated sculp-
ture as in C. trepidum (cf. above), the subsequent ones with about
5 spiral keels and longitudinal costae (18 in the last and the
penultimate whorl), nodose in the points of intersection, the nodules
most prominent in the 2 lowest lirae of the whorls. Last whorl
angulated at the periphery; below the S5th spiral lira there are
2 thinner ones at the angle; they are limited on the base by
a broad furrow; base flattened, carrying 6 or 7 coarse lirae, the
outermost one almost smooth, bipartite all along, the remaining
ones regularly granose. Aperture subquadrate, white and nacreous
within; lower lip subcrenate, outer lip simple, columella straight,
rounded below, forming a nearly right angle with the parietal wall,
which does not show any trace of a callous covering. Dimensions:
H. 6.6, br. 4 mm. — Locality: North Island: 2, 2 shells, the larger
one with a Pagurid. The second, small specimen has a broader
conic shape and 8 basal spiral cords. The reticulation of its pro-
toconch is very distinct.

Euchelus bellus Hutton.

North Island: Es KG IPS ps HO ERE
SPS 0:

7
Fam. Vitrinellidae.

Brookula corulum (Hutton).

Two dead specimens of the present form, referred by Hutton to
Lissospira but established by Iredale (1915). as a genus of its
own, were found at North Island: 2, 1.1.

.

Fam. Turbinidae.

Turbo smaragdus (Martyn).
North Island: 12, many small sps. — 14, 1 sp., d. 23.5. —
19, 7 sps., h. 41, d. 42. — South Island: 30, many sps., h. 42,
with Siphonaria cookiana.

Turbo granosus (Martyn).
Stewanttlsland:ESSMPFsps En 28

Astraea heliotropium (Martyn).

Northilsland: FIG Spd FOT stewart Island:"33372 "sps,
d. 85. — Stewart Island: 20 fms, hard bottom, 16/11 1914, 4
spsk dr 92:

Fam. Umboniidae.

Umbonium (Ethalia) zelandicum (Hombron & Jacqinot).

North Island: 5, 3 sps., d. 17. — Stewart Island: 36a, many
spsækdml6:

Fam. Neritidae.

Nerita melanotragus E. A. Smith.
North Island: 17, many sps., I. 23. — 19, 5 sps., I. 28.

Fam. Cocculinidae.

Cocculina compressa Suter.
Northkflslands Fl 6E tsp El FÆS:

Vidensk. Medd. fra Dansk naturhist. Foren. Bd. 77.

[

18

Fam. Littorinidae.

Littorina cincta Quoy & Gaimard.

North Island: 3, some small sps. — Stewart Island: 36, 4 sps.,
h. 11.5. — Auckland Island: 37, many sps., h. 18.

Littorina infans E. A. Smith.

North Island: Cape Maria v. Diemen, shaken from algae, some
small sps., max. h. 1.3 mm, whorls 4.

Compared with specimens of this species from Sydney, sent
by the Australian Museum, the samples at hand prove to be iden-
tical, as they have the same dark-brown colour with the yellow basal
band appearing most clearly within the aperture. The specimens
are not full-grown, and may be taken for juvenile stages of L.
cincta, but they have a smoother incremental sculpture. The species
is now for the first time recorded from N. Zealand.

Littorina mauritiana (Lamarck).

North Island: 3, some small sps. — 9, 2 small sps. — Ild,
some small sps. — 19, numerous small sps., h. 11, high above
the water, or in pools beneath plants. — Island Bay, Wellington,

the coast, 22/1 1915, 4 small sps.

Laevilitorina antipodum (Filhol).
Campbell Island, 44, numerous sps., h. 5.

Fam. Fossaridae.

Fossarus ovatus n. sp.
(PIETER SÆS SI)

Shell small, fragile, elongate-ovate, hyaline white, shining, rimate.
Whorls 4 1/2, separated by a deep suture. Protoconch (the first 2
whorls) smooth; apex somewhat obliquely flattened; the subsequent
whorls convex. Spire as high as aperture, with convex outline;
base slightly convex. Sculpture: very fine spiral striae at regular
intervals, the two uppermost striae below the suture broader; be-
sides fine lines of growth, a little flexuous, here and there somewhat
elevated to fine longitudinal riblets causing an indistinct reticulation.

19

" Aperture narrowly ovate, angled above, its left contour slightly
concave throughout (parietal wall not convex); peristome thin, con-
tinuous; outer lip sinuous below the suture, produced below the
middle, under lip somewhat retreating, and slightly bent down,
forming a shallow and broad sinus. Columella oblique, slightly
curved, straight in the middle, columellar lip rather broadly reflected
limiting an umbilical fissure and continuous on the parietal wall
intkakthinkbutidstinettcallus' Dimensions: "HH: 2:68" br 1.4 mm:
— Locality: North Island: 16, a few dead shells.

No representative of the genus Fossarus was until now known
in New Zealand. In this paper 5 species are recorded. The present
one seems to be closely related to F. bulimoides Tenison-Woods
figured by Tate & May (1901, pl. XXVI, fig. 66).

Fossarus conicus n. sp.
(PISKES OD)

Shell small, fragile, conical, opaque white, a little shining, rimate.
Whorls 6, convex; suture subcanaliculate. Apex obliquely flat-
tened; protoconch (2 whorls) smooth, of a yellowish-brown colour.
Spire as high as aperture, with straight outlines; base slightly con-
vex. Sculpture indistinct, consisting of faint distant spiral threads,
visible only in places, and irregular flexuous lines of growth here
and there appearing as low riblets. Aperture narrowly ovate, ang-
led above, its left contour undulating (parietal wall convex, columella
concave); peristome thin, outer lip protracted below the middle,
and lower lip sinuous as in the preceding species; columellar lip
narrow, reflected, bounding a very narrow umbilical fissure; parietal
callus very thin. Dimensions: H. 3, br. 1.7 mm. — Locality: North
Island: 16, 3 empty shells.

Fossarus productus n. sp.
(PII EM 609)
Shell small, fragile, turreted, dull white, opaque, rimate. Whorls
5 1/4, convex, suture deep, apex papillate; protoconch of 2 whorls,
smooth; next whorl smooth, the 4th and subsequent with regular
close, revolving cords and narrower sulci between them, the upper-
most 4 cords stronger, with somewhat broader interspaces, the
uppermost cord separated from the suture by a smooth (or faintly

9%

20

sulcate) zone; lines of growth rather inconspicuous. Spire about
1 1/2 times the aperture in height, with straight outlines; base
slightly convex. Aperture narrowly ovate, rounded above; peristome
thin, continuous; outer lip a little produced below the middle; un-
der lip narrowly sinuous with a few oblique furrows within, cor-
responding to the spiral cords; columella perpendicular, slowly
curved; columellar lip narrow, reflected and appressed, limiting an
umbilical groove; parietal callus very thin. Dimensions: H. 2.7,
br. 1 mm. — Locality: North Island; 16, 3 empty shells.

Fossarus hyalinus n. sp.
(PII øs GER 29)

Shell minute, ovate-conic, fragile, hyaline white, umbilicate.
Spire a little exceeding the aperture in height, with slightly convex
outlines, base a little convex. Whorls 5, convex, sometimes a little
flattened above the middle; suture deep, subcanaliculate. Apex
blunt; protoconch of 2 smooth whorls, the following smooth or with
very indistinct distant spiral striae and fine lines of growth; a more
conspicuous, though yet very faint, impressed line in the middle of
the last whorl. Aperture ovate, angled above and distinctly in-
cavated by the convex parietal wall. Peristome discontinuous, thin;
outer lip sometimes thickened at the inside, sinuous above, much
produced below its middle, under lip much retreating to form a
deep semicircular sinus, columellar lip simple below, reflected and
appressed above; columella perpendicular, convex or carrying an
indistinct tooth in its middle; umbilicus comparatively broad but
shallow. Dimensions: H. 2, br. 1.3 mm. — Locality: North Island:
16, several empty shells.

The closest relative of this species seems to be Fossarus minutus
Petterd, described and figured by Tate & May (1901, p. 458,
pl. xxvii, fig. 85). The single difference seems to be the smaller
size of the type (h. 1.1, br. 0.7 mm), which, however, has 4 whorls
only, its continuous peristome and its varicose outer lip. The new
species is somewhat varying as to the convexity of the whorls, the
more or less pronounced protraction of the outer lip and the pre-
sence or absence of a tooth on the columella. Together with F.
minutus the new species will certainly, as Tate & May mean,
prove to merit generic distinction.

21

Fossarus minutus Petterd.

North Island: 16, several empty shells, max. h. 1.5, br. 1 mm;
whorls 5.

To this species I refer a form which at the first glance res-
embles a small Rissoa but which appears to be akin to F. hyalinus,
from which it differs in its smaller size, more solid shell, continuous
peristome, less produced outer lip, and rather shallow sinus of lower
lip. The spire varies somewhat in height, being in the largest
specimens, with 5 whorls, about 1//> times the aperture in height,
in smaller ones the spire is proportionally shorter. There is,
however, no distinct tooth on the columella in any of the specimens,
though a faint convexity may be present. The outer lip may be
varicose or not.

Fam. Risellidae.

Risellopsis varia (Hutton).

North Island: 3, many small sps. — 9, 3 small sps. — Stewart
Islands PEPE spsk ANA SE (varscarinata Kesteven):

Fam. Rissoidae.

Rissoa cheilostoma Tenison-Woods.
Northelslande skibs hen:

Rissoa foveauxiana Suter.

Stewart Island: 36a, many shs., h. 2.4. — The shells are in-
distinctly shouldered, the uppermost 4 spiral ridges are stronger than
the subsequent ones and have interspaces of the same breadth as
the ridges; the remaining ones are narrower. In the penultimate
whorl the upper ridges are solely present, the lower ones being
extremely faint; there are about 11 spirals in all.

Rissoa roseola Iredale (-rosea Hutton, non Deshayes).
Auckland Island: 40, many sps., h. 1.9. — 41, Figure 8 Island,
under. stones at low water, 2/2 1915, many sps. — 41, Masked
Island, on rocks, some sps., h. 1.9.

22

Rissoa subfusca Hutton.
North Island: 6, 1 small sp. — 19, 2 sps., h. 2.7. — Auck-
land Island: 40, many sps., h. 2.2. — 41, Figure 8 Island, under
stones at low water, many sps.

Rissoa zosterophila Webster.

North Island: 6, many small sps. — 21, many small sps. —
Stewart Island: 36a, many sps., h. 2.5. — Auckland Island: 40,
ÆESpS UN s2:

i Rissoa cylindrella n. sp.
(PS FT)

Shell ovate-cylindric, contorted, fragile, slightly shining, imper-
forate, white. Whorls 5, appressed in their upper half, then con-
vex, the last whorl of half the shell height, base rounded; suture
impressed, margined. Protoconch semiglobose, of 1 1/2 whorl,
finely spirally striate; subsequent whorls with coarser spiral lirae,
numerous (about 24) on the last whorl, broader on the base, and
strong, somewhat flexuous, longitudinal costae, about 18 on the
last whorl fading below the periphery as well as towards the suture.
Aperture ovate, sharply angled above; peristome thin, continuous,
outer lip somewhat produced below, thin, not varicose; columella
oblique, sinuous; parietal wall with a distinct callus; no umbilicus.
Dimensions: ”H32'5S "br LIE mm FE ocality North sande
empty shell.

Rissoa exerta Suter seems to be the next akin species, but
differs i. a. in its fewer costae. R. maccoyi Tenison-W oods figured
by Hedley 1900 (pl. XXVI, fig. 11) is very similar but less con-
torted, and its costæ appear to reach the suture.

Rissøoa semen n. sp.
(PRS O BE)

Shell minute, elongate-ovate, solid, imperforate, polished. Sculp-
ture varying from entirely smooth to showing traces of spiral striae;
sometimes a pair of strong revolving keels in the periphery of the
last whorl and an obscure one on the base. Colour fulvous, some-
what lighter on the aperture side; inner lip reddish orange. Pro-
toconch finely spirally striated. Spire about 1 1/2 the height of

23

the aperture. Suture shallow. Whorls 5, slightly convex, margined
vat the suture, the last one rounded in the periphery, flattened
above and below. Aperture broadly ovate, fulvous within; peristome
thick, continuous, double on account of a small swelling of the lip
inside its edge, its colour white, except the reddish-orange columel-
lar lip, which is sunk and sharply set off from the body whorl.
Columella short, sinuous. Operculum ovate with a thicker disc
on the inside, the margin of which forms a crest along the co-
lumellar edge of the operculum. Dimensions: H. 1.5, br. 0.7 mm.
— Locality: North Island: 3, a few specimens.

This species belongs to the same group as R. incidata and R.
lampra as well as the new R. erosa, but it is more slender; it
recalls the first-named in the occasional appearance of a pair of
spiral keels.

Rissoa erosa n. sp.
(BIS KoSSIPÆTS)

Shell minute, conical, solid, imperforate. Whorls 5, flattened,
suture canaliculate. Spire about 1 1/2 times the aperture in height.
Protoconch of 1 1/2 whorls, reddish-brown and sculptured with
minute grains in many very close spiral lines; subsequent whorls
light yellowish-brown with longitudinal costae separated by narrower
furrows; above the suture a strong revolving thread; on the last
whorl the upper half carrying about 22 longitudinal costæ; the
periphery encircled by a pair of strong spiral cords; base flattened
and bearing an additional cord. Except for the strong costae and
ribs only fine lines of growth. Aperture oblique, rounded-ovate;
peristome thick, continuous, and double, with an interior swelling
rising from above and below and extending beyond the primary lip
externally. Columella oblique, sinuous; columellar lip sunk, brown-
ish. Dimensions: H. 1.5, br. 0.8 mm. — Locality: North Island:
1, some few specimens.

Operculum (fig. 13) ovate, with a thin outer layer and a thick
inner one forming a crest-like edge on the columellar side.

Rissoina achatina n. sp.
(Pl. I, figs. 5—9; text-fig. 3.)
Shell elongate conic, imperforate, solid, shining, with faint and
obsolete axial sculpture, and fine, sharp, undulating spiral striae

24

indistinct on the base. Colour pure white or white with a brown
design in shape of a row of stripes on a white band below the
suture, often combined with fulgurating longitudinal lines, which
may predominate; often the brown colour markings may be con-
fluent into 1—3 brown bands leaving a white subsutural line or
zone; apex and base white. Spire about twice the aperture in
height. Whorls 7, slightly convex, the last somewhat more than
half the shell height; suture slightly impressed. Protoconch papil-
late, of 1 1/2 smooth whorls. Aperture oblique, semiovate, sub-

canaliculate below, angled above;

external lip somewhat expanded
at the middle. Columella ex-
GER cavated, obliquely truncate at the

channel. Operculum (pl. 1, fig.
Fig. 3. Rane of Rissoina øchatina n. sp., Byar
half a row. X 440. 9) elongate ovate, horny, its in-
ner margin with a small pro-
jecting angle near the base below the claviform process, which is
situated at the third of the operculum height.

Locality: North Island, 11a, 1 sh., h. 4.2. — 11b, many sps.,
man GPO NZ E 2:

In shape and colour this species is very similar to R. zonata
Suter and above all to R. variegata Angas, but it differs in its
almost completely failing axial sculpture. The whole shell is pe-
culiarly pierced by fine fissures, here and there widened to short
lacunae appearing as opaque white maculations. This may be due
to occasional circumstances, e€e. g. boring organisms.

This species may perhaps be included in R. hanleyi of Suter.
Having no access to authentic specimens of Suter's species, I
prefer to describe and illustrate the species at hand which differs
from R. hanleyi Schwartz in its faint sculpture. Compared with
R. rugulosa Hutton the present species is more slender with less
convex whorls and less impressed suture, its aperture is less oblique.

Some of the specimens bore egg-capsules deposited on their
shells (one is figured).

The radula (text-fig. 3) has the general shape of the teeth;
the median tooth has 3—4 denticles on each side of the cusp,
the lateral tooth 6 and the 2 marginal teeth many.

25

Rissoina hanleyi Schwartz.
Northelshndetsiki sp: 2588 —17, Af shell h. 6:5.

Rissoina emarginata Hutton.
Nortbslsland: "IR s0; B: 25:

Rissøoina chathamensis Hutton (-rugulosa Hutton).
North Island: 11d, many sps., h. 6.2. — 19, many sps., h. 7.

Eatoniella (Rissoina) cuvieriana (Suter).

North Island: 3, some very small sps., whorls convex, very
indistinct spiral sculpture, shell rimate, colour ashy as in R. fuscozona.

Eatoniella (Rissoina) fuscozona (Suter).
North Island: 3, many small sps.

Eatoniella (Rissoina) limbata (Hutton).
North Island: 6, many sps, h. 2.4.

Eatoniella (Rissoina) olivacea (Hutton).
North Island: 3, (var. /utea Suter), numerous small sps. —
9, (var. annulata Hutton), many small sps. — Auckland Island:
Sj many SPS; hh: /37——40; «many sps-, h: 3:

Fam. Hydrobiidae.

Potamopyrgus badia (Gould).
North Island: Lake Takapuna, Auckland, 23/12 1914, many
spsæh 6.
Potamopyrgus corolla (Gould).
North Island: Lake Takapuna, Auckland, 23/12 1914, many
sps., h. 4.
Potamopyrgus spelaeus (Frauenfeld).
North Island: Moko Hinau Isl., Hauraki Gulf, brack water pool,
30/12 1914, many sps., h. 2.3 mm (var. pupoides Hutton).

26

Fam. Cerithiidae.
Cerithidea bicarinata (Gray).
Northelslandses æmanvespsææne2s:

Cerithidea subcarinata Sowerby.
North Island: 7, some sps., h. 11.5. — 19, on. Corallinae,
numerous small sps., h. 13.

Cerithidea tricarinata Hutton.

NonthuIsland: Id STs pE 2 TPM um erousesps yen
—15, spy hsl2

Cerithium invaricosum nm. sp.
(PIERRE)

Shell turreted-conic, light fawn-coloured with a violet band below
the suture. Whorls 9, slightly convex; suture deep, broadly cana-
liculate. Protoconch of 2 1/2 whorls, smooth, brown, the next whorls
reticulate, with three spiral cords and radial ribs of the same breadth;
on the penultimate and last whorl 22 longitudinal ribs and 5 flat-
tened spiral cords appearing only in the interstices between the
ribs; base with 8 spiral cords (and neck with 2 additional ones)
the uppermost (peripherial) one strongest and limiting the ends of
the ribs which are not continuous on the base. Aperture rounded
square with a very short oblique canal notched in the end. Co-
lumella perpendicular. Outer lip simple, inner lip reflected; a very
narrow umbilical fissure at the columella. Dimensions: H. 9, br.
4, h. of aperture 2.8, h. of last whorl 4.7 mm. — Locality: North
Island: 11b, 1 empty shell. — The total absence of varices and
the reticulate sculpture give this species an appearance like a
Cerithidea.

Fam. Cerithiopsidae.
Cerithiopsis canaliculata Suter.
North Island: 16, 1, h. 4.
Cerithiopsis dirempta n. sp.
(PI. I, fig. 16.)

Shell small, biconical, with convex outlines. Whorls 8 (except
the broken protoconch), flat; suture indistinct, impressed and mar-

PAN

gined. Sculpture: upper whorls with 2 revolving bands with series
"of uniformly strong subquadrate gemmulae leaving a median zone
of the same width showing only axial riblets (low and narrow)
combining the gemmulae; their number in the last whorl 17. On
the antepenultimate whorl an intermediate riblet appears forming
tubercles on the axial costae and increasing in size distally, gem-
mulae thus getting larger, but still remaining smaller than those
of the bands, the upper of which becomes, finally, the broadest.
Base with 2 thick entire revolving ridges, the upper one thinner
proximally (on the parietal wall above the mouth). Colour reddish-
brown, lighter towards apex and base; revolving bands (especially
upper one) purplish-brown, gemmulae dirty white. Aperture sub-
quadrate, narrowly canaliculate above, outer lip somewhat produced
below, inner lip forming a small tooth when reflected on the upper
basal ridge. Columella regularly sinuous, with a thick reflected lip,
truncated below; canal very short, curved, with a notched end.
Dimensions: "HÆS br 2 mm == Locality, North Island, 2,2
empty shells.

From the known New Zealand species of the genus this form
is well distinguished in shape and sculpture: on the upper part of
the spire there are 2 distant gemmuliferous cinguli, further below
there are 3. It seems to be most nearly related to Queensland
species such as C. pinea Hedley 1909, p. 440, pl. XL., fig. 55).

Cerithiopsis sarissa Murdoch.
North Island: 11a, 1 sp., h. 6. — Auckland Island: 43, I sp., h. 7.

Cerithiopsis trizonalis n. sp.
(BIEer ere)

Shell small, turreted, whith straight outlines; whorls 11, plane,
suture impressed, not deep. Sculpture: apical 1 1/2 whorls smooth,
the subsequent whorl with dense somewhat flexuous axial costae;
third whorl with 2 revolving ridges, the under one stronger; in the
subsequent whorls coarser axial costae (their number 20—21 on
the last whorl), knob-bearing in the crossing points and ending
above, below the sutures, with a series of tubercules non combined
spirally; below, close above the suture, a fine simple thread, get-
ting coarser on the last whorl and accompanied on the base by a

28

further spiral ridge. Colour grayish-white. Aperture square, with
a short -canal, notched in the end. Dimensions: H. 3.9, br. 1.1
mm. — Locality: North Island, 16, 1 empty shell.

This species recalls in its sculpture (especially in the existence
of a basal riblet) C. marginata Suter, which differs, however, in
being larger and having only 8 whorls with 2 series of gemmulae,
as well as C. styliformis Suter, which has only 15 axial costae
on the last whorl.

Seila dissimilis Suter.
(BIRK BLrs)

Campbell Island: 45, 10 empty shells, h. 3.8, br. 1.1, whorls
8. — Suter has described and figured (1908) the species from
a not full-grown specimen. I give a figure from an adult one.
The colour' is pale-brown (apex lighter), costae and canal whitish.
To Suter's description of the sculpture may be added that the
basal spiral ridge appears on the 3—4 lower whorls as a weak
thread immediately above the suture.

Seila terebelloides (Hutton).
Northulstand Næs Es ps Ens

Fam. Triphoridae.

Triphora infelix Webster.
Northklslandemlo0osEtEs pk s

Triphora lutea Suter.
Northulslandettose2ÆspsrEn es:

Triphora tribulationis Hedley.

To this species I refer a specimen from St. 2 (10 miles off
Cape Maria v. Diemen, 50 fms, hard bottom). .Its colour is yel-
lowish with rusty bands. The only difference from the type, as it
is described and figured by Hedley (1909, p. 440, pl. XL, figs.
53, 54), seems to be its nearly perpendicular canal and the almost
simple (not beaded) upper basal riblet. The apex was broken, the
remaining whorls were 9. Dimensions: H. 4, br. 1.2 mm. — The
type comes from Hope Island, North Queensland.

29

Fam. Vermetidae.

Serpulorbis sipho (Lamarck).
NorthElslande tt ÆSspss MESS:

Serpulorbis zelandicus (Quoy & Gaimard).
Nortbelsland: FEE sSp EK 208

Fam. Caecidae.

Caecum suteri n. sp.
(PIN FE fre KON)

Shell tubular, slightly curved, smooth, shining, calcareous white,
its length about 5 times the breadth, aperture only little wider
than apex, and circular. Apical septum with a small broad mamil-
late projection above on the right side, Nepionic shell spiral,
discoidal, more excavated on the left side, consisting of 2 1/4 whorls,
with no other sculpture than the growth lines. Maximum length
[R2 bread 025 Em mm:

Locality: North Island, 16, some empty shells.

This may be the same species as Suter (1913) mentions and
(1915) figures under the name of Cæcum digitulum Hedley, and
which differs from Hedley's type in its less rapid tapering,
according to a remark made by Iredale and quoted by Suter
(Eps 265):

Fam. Turritellidae.

Turritella fulminata Hutton.
Norfbalskands kl OOS PS MIN EPS EET EPE SPS MRS ES
SNSPSTEN 22.
Turritella pagoda Reeve.

Northælsland:725556"sps.; hh 27.5:

Turritella rosea Quoy & Gaimard.

South Island: many sps., h. 69. — Stewart Island: 31, 2 shells,
NSSS 32 4 sps., h. 41. —=-35, 1 sp., h. 37. — 36a, 2 small
shells. — Stewart Isl., without definite locality, 20 fms, hard bottom

IGANIRTOT ÆT Spy HA] and35 fms"sand; 20/11 1974 1sp:, hh: 39:

30

Turritella symmetrica Hutton.
Stewart Island: 35, 1 sp., h. 37. — 36a, many sps., h. 16.

Turritella vittata Hutton (-T. carlottae Watson).

North Island: 2, 3 sps., h. 69. — 10, many sps., h. S2Æ
VSÆESESpS ERE AA 16, 5 sps., h. 42. — E. A. Smith has rein-
troduced Hutton's name which was rejected by Murdoch &
Suter (1906) on the inadequate presumption that it had been
preoccupied by Lamarck.

Fam. Struthiolariidae.

Struthiolaria papulosa (Martyn).
North Island: 13, 1 sp., h. 54. — 16, 2 fragments and many
small shells. — Stewart Island: 36a, 4 sps., h. 85.

Struthiolaria vermis (Martyn).
North Island: 10, 1 sp., h. 42. — 16, 1 sp., h. 52.5. — South
Island:"292sps: h"37. — Stewart Island: "36a7 1 "spy he 2

Fam. Xenophoridae.

Xenophora corrugata (Reeve).
North Island: 16, many sps., h. 70.

Fam. Calyptraeidae.

Calyptraea tenuis (Gray) (zscutum Lesson).
Northælsland:slO0M 6 Esps td NENS SR m any spe
— 22, 2 sps., d. 12. — 25, many sps., d. 13. — Stewart Island:
SÅNMIES DEERE SEES out HE sSl ande PORR pE EES

Calyptraea alta (Hutton).

NorthyIsland: ETS FS ps UT FE PII Sp ERE BAS ESS er
sps., d., 28. — 14, 1 small sp. — 16, 6 sps., d. 16.5. — 17/71
Sp:,…d.19. —. 19, 1-sps, "d: 245 — 24. 1sp., d. 18:— "25%manv

sps., d. 17. — South Island: 29, 5 sps., d. 26. — Stewart Island:

31

— 32, 1 sp., d. 24. — Auckland Island: 37a, 4 sps., d. 19. — Camp-
bell Island: 45, many sps., d. 24,

Crepidula costata Sowerby.
North Island: 7, 3 sps., I. 25. — 17, many sps., Il. 39.

Crepidula monoxyla Lesson.
(=C. crepidula Hutton).

Northølsland: FTOSRIESpSEl FOSS T-1OP2F sps 1130) 52551
sp., I. 21.5. — South Island: 29, 2 sps., I. 22.5. — E. A. Smith
(1915) has identified the species and drawn attention to the differ-
ence between it and C. crepidula Linné.

Fam. Lamellariidae.

Lamellaria verrucosa n. sp.
(BEF os 20-22 text He 49)

Body depressed, semiglobose; mantle rugose, sparsely and irre-
gularly verrucose with small tubercles simple or composed by smal-
ler pustules. Underside of mantle margin smooth, with radiating
muscle fibres. A distinct inspiratory canal in the front margin
produced into a short siphon. No exspiratory canal. Head large,
conical; tentacles digiti-
form, with flattened ba-

ses, carrying the sessile LE

eyes in about one third Å
FRU

and with shortly pro-

jecting anterior corners.

Its frontal margin fis- S

sured transversally, in A

all its breath forming

a rudimentary propodi-

um. Osphradium ovate,

of their length. Foot
bipectinate, about 2/3 of Fig. 4. Teeth from the radula of Lamellaria

large, broadly rounded
behind, widest in front,

X h verrucosa n. sp. a median tooth and 2 lateral teeth,
the gill length and like b a lateral tooth from below. X 40.

32

this pale-brownish in colour. Colour of the body pale rosy (in
alcohol). — Dimensions: L. 37, br. 29 mm.

Shell (PI. I, fig. 22) a thin hyaline membrane, without trace of
calcareous substance; whorls 3 1/2, convex, apex mamillar, proto-
conch membraneous, of a grainy consistency.

Radula (text-fig. 4) broad, of the formula 1. 1.1 (breadth 1.4
mm); median tooth with divergent basal legs and a short and broad
cusp; its height considerably smaller than that of the laterals (length
about 0.22 and breadth 0.25 mm); laterals broad, curved, inner
edge thin and with about 6 small denticles, the cusp strong and
pointed with its outer edge finely serrated; length of the laterals
about 0.45 mm.

Locality: Auckland Island: 41, 1 sp.

This new and large species of the genus Lamellaria resembles
L. mollis Smith in its membraneous shell, but externally it differs
in its verrucose notum.

Fam. Naticidae.

Natica zelandica Quoy & Gaimard.
Northslsland: IO SEES pH TO SENSE ES pE DP ÆÆEGR
1 small sp. — 22, 1 sp., h. 23. — 25, 2 sps., h. 19. — Stewart
Islands 6amsesps eee re

Fam. Trichotropidae.

Trichotropis inornata Hutton (-clathrata Sowerby).
South Island: 29, 6 sps., h. 17. — Stewart Island: 32, 1 sp., h. 22-

Fam. Cymatiidae.

AÅrgobuccinum tumidum (Dunker) (zargus Gmelin, by Suter).
Stewart Island, without definite locality, 1 empty shell, h. 108
mm. Iredale and Hedley consider the Australian-Neozelanie
form as a distinct species not identical with A. argus from the Cape
Colony.
AÅrgobuccinum australasia (Perry).
North Island: 1, 1 small sp.

33

Fam. Cassididae.

Cassidea labiata pyrum Lamarck.
Northulsland: 2551 shelben 55 mm:

Fam. Epitoniidae.

Epitonium philippinarum (Sowerby).
North Island: 10, 1 shell, h. 10. — 16, several small shells.

Epitonium zelebori (Dunker).
Arckland" Island:45/01 sp 07:

Aclis semireticulata Murdoch & Suter.
Nonthelslands ls eksp se 06 many spså hy 3: 5:

Aclisksucenctak sutter
North Island: 16, many shells, h. 3.

Fam. Pyramidellidae.
Syrnola (Pyramidella) pulchra Brazier.
Northklslande "16/%3"Sspse bh 45"

Turbonilla zealandica (Hutton).

North Island: 16, 1 sp., h. 3. — Auckland Island: 40, 1 sp.,
hæse =43 73 sps, h23:

Turbonilla campbellica n. sp.
(ble reÆ2S3)

Shell slender, small, with 10 convex whorls separated by a
deep suture; protoconch of 1 whorl, smooth and heterostroph; sub-
sequent whorls with strong longitudinal costae (18—20 on the last
whorl), confluent on the base, so that the furrows between the
costae finish abruptly below the periphery; thus there is no distinct
basal keel. Colour brownish or light yellowish-gray without bands.
Aperture ovate. No umbilicus. Dimensions: H. 7, br. 2 mm. —
Locality: Campbell Island, 44, 2 shells.

The large size of this shell approaches it to the Australian

Vidensk. Medd. fra Dansk naturh. Foren. Bd. 77. 3

34

Turbonillas such as T. fusca Adams, from which it differs in
lacking spiral bands. Whether it is identical with any of them is
not to be established without a good material for comparison; in
lack of this I prefer to describe and figure the form as a new species.

Odostomia inornata Suter.
North Island: 16, many sps., h. 4.

Odostomia dolichostoma Suter.
NontukIslandseblaseles pE ÆæSS7e

Odostomia stygia Suter.
North Island: 16, 1 shell, about 4 mm (apex broken).

Evalea (Odostomia) liricincta (Suter).

Auckland Island: 41 (Figure 8 Island, low water under stones),
lÆæSspSEhÆæSss:

Fam. Eulimidae.

Eulima aucklandica Suter.

Auckland Island: 40, 1 sp., h. 6; spire bent to the right. —
41, (Masked Island), many sps., h. 5; spire in some specimens
straight.

Fam. Fasciolariidae.

Fusinus spiralis (A. Adams).
North Island: 16, 1 canal.

Latirus (Taron) huttoni Suter.
NorthulslandksrÆlsorEDSEER

Fam. Mitridae.

Mitra albopicta Smith.
Northelslandsklelpæes press

Mitra mortenseni n. sp.
(BLEE F2Æ)
Shell small, shortly fusiform, solid, a little shining; spire much
shorter than (about 2/3 of) aperture; suture deep. Whorls 6 1/2,

35

convex, the apical 1 1/2 smooth, the remaining ones sculptured
with strong longitudinal costae (about 14 on the last whorl)
disappearing on the base, and spiral lirae separated by impressed
lines, most distinct between the costae and on the shoulder; on
the base the spiral lirae become much coarser and are here sepa-
rated by interstices of the same breadth. Colour grayish with 3
fulvous bands on the last whorl (the upper one below the shoulder,
the lower on the base, and a faint median one); a light zone
beneath the suture; shell everywhere reticulated with very fine
brown meshes; aperture with the brown bands shining through.
Last whorl somewhat ascending in front; aperture narrow, slightly
widened in the middle, with a small sinus above, contracted below
to a short canal; outer lip simple, somewhat flexuous, inner lip
very fine, ill-defined; columella straight, equidistantly 4 plaited, the
upper plait horizontal, the others gradually more oblique. Dimen-
sions: H. 14.4, br. 7.3 mm. — Locality: North Island: 5, 1 shell.

The shape and sculpture of this shell are very characteristic
and separate it distinetly from the previously known N. Zealand
species of the genus Miétra.

Vexillum marginatum (Hutton).
Nortbelsland: FT 66 spssEnE 65318 1 sp, h4.

Vexillum pseudomarginatum (Suter).
North Island: 16, 1 empty shell, h. 3.8.

Vexillum rubiginosum (Hutton).
Northalslan ds RASP OYST-=S19 1 sp." h25.5.

Fam. Chrysodomidae.

Verconella maxima (Tryon).
(=Megalatractus maximus Suter).

North Island: 10, 1 sp., h. 80. — The genus Verconella was
constituted by Iredale (1914) for the N. Zealand shells referred
to Siphonalia, a Japanese group with no close relationship to the
former, and to Megalatractus.

32

36

Verconella (Siphonalia) nodosa (Martyn).
North Island: 10, 5 sps., h. 44. — 13, 1 sp., h. 39. — 16, 5
SJ SENER) EELSS REE ARR RES ORE DR I SEER MES ENE RS EB SÆPAS mot
merous sps., h. 45.

Verconella (Siphonalia) caudata (Quoy & Gaimard).

North Island:=73 sp SØ VS Hass pE BIS Sohn
Istande kt ORE SPEER ES SE

Verconella (Siphonalia) mandarina (Duclos).
Northulslandss22melespæshæk0

Euthria flavescens (Hutton).

Southålsland: 297 sp HEST TF stewartilslandses ie oRspse
21-36 SYST Sp 265; 2 of these specimenskare cream
coloured, the third violet brown with two ligth bands.

Euthria linea (Martyn).

North Island: 17, 1 sp., h. 34. — South Island: 29, many sps.,
h. 38. — Stewart Island: 30, 6 sps., h. 27. — 31, numerous sps.,
h. 31.5. — Auckland Island: 37, many sps., h. 47. —- 37a, 4 sps.,

h. 28. — 40, many sps., h. 30. — 41 (Masked Island), many
sps., h. 30. — Campbell Island: 44, 5 sps., h. 24.

Euthria littorinoides (Reeve).

North Islands 7 "spy HITS NANTES DEEP SER 2 SE
1 sp., h. 18.5. — Auckland Island: 37, numerous sps., h. 27.

Euthria strebeli Suter.

North Island: 17, many sps., h. 25. -— Stewart Island: 36, 3
spsænr2 6:
Euthria striata (Hutton).
Southulsland:=s Os psebslo

Fam. Buccinidae.

Cominella campbelli (Filhol).
Campbell Island: 44, many sps., h. 30.

37

Cominella eburnea (Reeve) (-costata Quoy & Gaimard).
Northelslandstom some spsk helse 728 4 sp. 815:

Cominella quoyana (A. Adams) (=huttoni Kobelt).
North Island: 5, 1 sh., h. 16.5 (with 10 costae). — 10, 2 sps.,
h. 20. — 11b, many sps., h. 20.5 (with 10—-11 axial costae).

Cominella lurida (Philippi).
Northslstand RES ph 22 871 sp. 26:

Cominella adspersa (Bruguitre) (=zmaculata Martyn).

Nosthelsland:” EPS spss HS SO) fla sp h 408 110,
AES DSE 5 40 — 28 MI Sp 147 South Island: 29; "2''sps.,
bÆSS 50: IE sp EL 20:

Cominella maculosa (Martyn).
North lsland: 15:-5Fspså" hs 35, —— 19577 sps:,. h: 29; 28;
PRESPDSEE NR: 29:
Cominella nassoides (Reeve).
South Island: 29, 1 sp., h. 22 (variety with turreted spire about
1 1/2 times the aperture in height). — Stewart Island: 31, 7 sps.,
h. 49.5.
Cominella virgata H. & A. Adams.
North Island: 15, 1 sp., h. 23.5. — 19, 1 sp., h. 31. — Ste-
wart Island: 31, 3 sps., h. 25. — Stewart Island, without definite
locality, 20 fms, hard bottom, 16/11 1914, 1 sp., h. 35.

Cantharus fuscozonatus Suter.
Norfhulslande 72 spss"h 216:

Prosipho chariessa (Suter) (=Daphnella chariessa Suter).
(PIPER 259)

North Island: 16, 1 shell, h. 4.7. — I include the present
species in the genus Prosipho Thiele 1912, on account of its
fusiform shape and lack of a distinct sinus of the aperture, its
strong spiral cords and the smooth protoconch which is limited in
front by a straight line, in the present specimen further a little
thickened to recall an indistinct varix; in front of that edge the

38

permanent sculpture immediately appears. The protoconch has its
second whorl remarkably high, as Suter states. A similar shape
and smoothness of the protoconch are characteristic of the genus
Prosipho. Congeneric with the present species are probably also
Daphnella conquisita and crassilirata, possibly further D. acicula,
amphipsila and psila.

The genus Prosipho has nearly all its known representatives
in the Antarctic and Subantarctic Regions. Smith (1915) records
P. cancellatus from off Rio de Janeiro but thinks this locality to
be due to some mistake.

Prosipho chariessa has a general appearance most similar to
Daphnella totolirata Suter, which is, however, referred by Hed-
ley (1922) to his genus Nepotilla belonging to the group Daph-
nellinae of Fam. Turridae, on account of the spirally sculptured
apex It is possible that also some of the spirally lirate species
of Alcira from New Zealand belong to Prosipho. According to
Hedley (1922, p. 259) some representatives of the genus are also
present in Australia, formerly included in Mitromorpha.

Fam. Muricidae.

Murex (Pteronotus) angasi Crosse.
Northilsland AE spr RET

Murex (Hexaplex) octogonus Quoy & Gaimard.

North Island: "108 Tspss Eb SO Mas DENN ORG
2 sps., h. 521-——"Stewart Island: "355 MES pE NE 2 6"

Murex zelandicus Quoy & Gaimard.

North Island: 10, 8 sps., h. 45. -— 11c, 2 sps., h. 42. — 13,
1Esp:"h. 31. 1677 "spsy he SO Rs mas pw DES Rvanices:
— 18, 4 small sps. + 1 sp., h. 32 (with 5 varices).

Trophon ambiguus (Philippi).
North Island: 22, 1 sp., h. 10. — South Island: 29, 117spøt ht
30. — 30, many sps., h. 14.

39

Trophon aucklandicus (Smith).
Stewart Island: 33, 2 sps., h. 8.5. — Auckland Island: 37a,
SESspSsmENns 25:
Trophon corticatus (Hutton).
Sonthelsland 292 Sps "HT

Trophon curtus Murdoch.
Northelsland has pre

Trophon plebeius (Hutton).
Sonmthlilsland:”S0ME sp. Fh O:

Trophon pusillus Suter.
Nonthælsland HI OSEIESsp ENN GE -R22 MEE SPS GS 24
sp., h. 7.2. — Auckland Island: 43, 4 sps., h. 10.

Trophon mortenseni n. sp.
(BEM hos ORE PTEEtEX EN SES)

Shell turreted, spire equalling aperture with canal in height.
Whorls 7, convex, distinetly shouldered, suture deep. Sculpture:
the 2 apical whorls entirely smooth, subsequent whorls with strong
longitudinal costae, 12—13 on the two last whorls, evanescent on
the canal, separated by as broad interstices and crossed by strong
revolving cords, 2—3 in the ård and the next
whorls, 13 on the last, of which 1 small on
the shoulder and 5-——6 on the canal; angular
keel strongest, grooved all along (or both Fig.5. A row ofteeth (one
parts wholly separated); grooves between the RE RS ie
spiral cords narrower than these latter; irre- Trophon mortenseni n. sp.
gular elevated lines of growth besides giving SÆL
the surface a crispulate appearance. Colour
faintly cream-white, sometimes with a light brownish hue translucent
into the interior of aperture. Aperture ovate, its outer lip thin;
columella with an indistinct fold below limiting the narrow, slightly
bent canal, the length of which somewhat exceeds the height of
aperture. Dimensions: H. 12.6, br. 5.8 mm. Operculum (PI. I,
fig. 27) lanceolate ovate with subapical apex.

40

Localities: Auckland Island: 41 (Masked Island), 1 shell, h. 8.
— 42, 1 living and 3 dead sps. (h. 13.5, dead, 12.4 living). —
43, 2 living and 3 dead sps.

In general appearance this species comes nearest to T. pusillus
Suter, which is, however, much smaller and has fewer costae and
cords. Compared with 7. aucklandicus, with which it shares the
smooth protoconch (consisting, however, of 1 whorl in T. auck-
landicus) the new species has a more distinct and elaborate sculp-
ture, a longer canal, more convex whorls and a whitish (not dark-
brown) colour. i

The radula (text-fig. 5) has a similar shape as in T. aucklandicus
figured by Suter (1915, pl. 19, fig. 4); its breadth is 0.06 mm.

Fam. Thaisidae.

Haustrum (Thais) haustrum (Martyn).
NorthElslands FIS Sp EIN SEE ROMO ES SEES

Neothais succincta (Martyn).
North Island: 17, 6 sps., h. 45. — 19, 1 sp., h. 41. —728;
SESpSEÆNbÆSS:

Neothais lacunosa Bruguiétére (-striata Martyn).
North Island: 14, 1 sp., h. 21. — Auckland Island: 37, 3 sps.,
h. 38. — 41, (Masked Island), 10 sps., h. 28. — South Island:
SO TES EPA Stewart ulsland: FSI mm anys ps eh ES Sa
Campbell Island: 44, 1 sp., h. 35.

Lepsiella (Thais) scobina (Quoy & Gaimard).

NorthSlsland: 12,14 spsi HE 2ON IA SEA Sps SE I SE Vara
bomarginata Deshayes). — 15, 1 sp., h. 23.5. — 17, 1 sp., h.
15. = 19, 3 sps., h. 22. —"South' Island: 730) 12 Sspss ET

Stewart Island: 36, 1 sp., h. 16. — Auckland Island: 40, 1 sp.,
hærs:

41

Fam. Pyrenidae.

Mitrella choava (Reeve).
North Island:"10$-1 "sp; "h8 7.5: — 11b, 3 sps, h. 4.3. — Ild,

FES PÆRE nES ONION ES hel SED SANS Stewart" Island: 362471 spy
h. 8 (entirely brown).

Mitrella pseudomarginata Suter.

Auckland Island: 37a, 1 shell, h. 8. — Campbell Island: 44,
lksps hs 6

Mitrella websteri Suter.
NorthElslande "Ham shell ES br 1 mm: whors 5.

Alcira sanguinea Suter.

Campbell Island, west coast, on the shore, 10/12 1914, many
shbellsmhs6rs:

Alcira sulcata Hutton.
Stewarttlsland:"S 62 spy o

Alcira transitans (Murdoch).

Auckland Island: 40, many sps., h. 7.7. — Campbell Island:
44, 3 sps., I. 7 mm. — The species varies much in sculpture, from
smooth to engraved with shallow distant spiral furrows.

Fam. Volutidae.

Fulguraria gracilis (Swainson).
Stewartelsland Es IE Es pt he 173 Ga SP RSOE

Fam. Olividae.

Ancilla australis (Sowerby).
North Island: "115; 5”sps., h. 23.5.

Ancilla novaezelandiae (Sowerby)
(=bicolor Gray, by Suter).
Nosthilslandsk IDAS ps TERE PS EH] SS) AE SpS-y 7.5:

42

Ancilla mucronata (Sowerby).
Northslsland ÆT SEND SOSSSR TO PE SPS DENS SERENE
2 sps., h: 30, —. 16, 9 sps., h.-23..—.18,1 small sp: ———190]
Sp, h.35. — 25, many sps:,"h25;—"South" Island :"20 -FPESpS8
hærs!

Fam. Marginellidae.

Marginella albescens Hutton.
Northulslande HIDS ps ES 4:

Marginella mustelina (Angas).
Nortfhalslandsslom ss snes:

Marginella coma n. sp.
(PSR r2SI)

Shell small, solid, oval, white; spire about one third of the
aperture. Sculpture: very fine and close longitudinal threads, lower
half of the shell besides with fine and close revvlving striae.
Whorls 5, the 2 uppermost papilliform, smooth. Aperture narrow,
channelled above, not widened below; columella with 4 plaits at
equal distance from each other, the uppermost strongest; a slight
callus above and below them on the columella. Outer lip thick,
simple, without varix, appressed on the last whorl and not ascend-
ing the spire. Dimensions: H. 5.4, br. 3.4 mm. — Locality: North
Island, 2, 1 shell.

This species is intermediate between M. parvistriata and plica-
tula; its shape is like that of M. pygmaea, which is however, ent-
irely smooth.

Cryptospira ficula Murdoch & Suter.
NorthEIstandsHi ss pE hd

Fam. Turridae.

Bathytoma nodilirata (Murdoch & Suter).

Nørth Island: 10, 2 shells, b; 17.57—2716; 4 "shells her sst
br. 4.6.

43

Austrodrillia rawitensis Hedley
(=Drillia angasi Suter).
Northelslandesteseleshelehe PME Eedley states (1922) that
Hutton's and Suter's Drillia angasi is different from the type
by Crosse and proposes the name used here.

Melatoma (Splendrillia) laevis Hutton.

Norihklslande FÆeEs hel SE KÆDE RT OMI shell ED E TT 16:
1 shell, h. 6.5. Hedley (1922) proposes the subgenus Splendrillia
for comprising this and some related species.

Scrinium (Bela) neozelanicum Suter.

Northelsland: ITHETES hele OS This species" has" been re-
ferred by Hedley (1922) to the genus Scrinium Hedley.

Heterocithara mediocris n. sp.
(PIET EÆ2Z 99)

Shell small, turreted, apex pointed, spira exceeding the aperture
a little in height. Sculpture: apical whorl first smooth, then spirally
punctured; two next whorls with fine spiral striae and numerous
thin equidistant, somewhat flexuous, longitudinal costae; fourth and
subsequent whorls with coarser, more distant axial ribs and 4—5
spiral threads, the second one strongest, forming nodules when
erossing the axial ribs; axial costae continuous over all the spire,
their number in the penultimate whorl 11; spiral lines on the
body whorl 10 (besides one or two intermediate ones) as well as
6—7 on the canal. Interstices everywhere with fine spirals of
microscopic grains. Suture rather deep. Colour white. Aperture
narrow, vertical, with a deep sinus in the broad varix limited at
each side by a short tooth; on the inside of the lip one further
tooth (or indistinct). Edge of outer lip with some short furrows
corresponding to the spiral ribs, sinuous below. Canal short. Di
mensions: H. 5.5, br. 2.3 mm. — Locality: North Island: 16, 4
dead shells.

This species comes near in sculpture and shape to H. seriliola
and concinna of Hedley (from Queensland) described in his splendid
and useful revision on the Australian Turridae (1922).

44

Guraleus (Mangilia) sinclairi (Smith).
North Island: .7, 1 small shell. — South. Island: 29; 1. sp.,7h:
11. — Stewart Island: 36a, 1 sp., h. 10. -— Hedley (1922) refers
the present species to his genus Guraleus.

Veprecula cooperi Mestayer.
North Island: "TO TI shell Eh SS TET he type was recordedeby
Mestayer (1919) from Hen & Chickens Isl., 25 — 30 fms, and
from North Cape.

Asperdaphne (Mangilia) dictyota (Hutton).
Northklslande FIG SENE FS SEA GCC Onding tore dille ye)
the present species forms the New Zealand representative of the
genus Asperdaphne.

Eucyclotoma (Mangilia) quadricincta (Suter).

North Island: 16, some shells, h. 4. —— 18, 1 shell, h. 6, whorls
6. This species has a spirally striated nucleus and prominent keels
on the whorls, characters which indicate its position to be in Boett-
ger's genus Eucyclotoma. The number of costae in the present
specimens vary from 18 to 22 on the earlier whorls to about 32
on the penultimate, where the costae grow much more irregular.
The specimens are typical in the feature of the canal which does
not bear any sculpture on its back side. The axial costae are
more or less lamelliform and produce vaulted scales or knobs where
they cross the cinguli, according to their sharpness; hence the
sculpture recalls vividly that of a small Trophon, above all T. cris-
pulatus Suter, which differs only in having 5, instead of 4, re-
volving lines.

Liracraea epentroma (Murdoch) n. gen.
(-Clathurella epentroma Murdoch 1904).

Auckland Island: 43, 3 shells, h. 5.5 (var. whangaroaensis Mur-
doch). — Auckland Island: 43, 2 shells, h. 5.5. Murdoch (1904)
described this species as a Clathurella, and Suter (1913) included
it in Mangilia together with a lot of species having smooth or

45

. microscopically sculptured protoconch. Suter himself has drawn
attention to the very characteristic apex in which the present spec-
ies differs from all other Mangiliinae so essentially in its coarse
revolving ribs, that the creation of a new genus for its reception
seems well founded. This peculiar protoconch places this genus in
a section of its own, differing as well from the smooth-tipped Man-
giliinae as from the Daphnellinae with their minute spiral or elabo-
rate sculpture of the protoconch. Liracraea may besides this type
of the genus comprise the similarly equipped Mangilia devia of
Suter, which, however, I had no opportunity to examine.

Fam. AÅcteonidae.

Acteon craticulatus Murdoch & Suter.
North Island: 16, 3 shells, h. 9.

Fam. Tornatinidae.

Tornatina decapitata Suter.

Stewart Island: 36a, 5 sps., h. 2.4. —- Auckland Island: 43, 1
SPEÆRhÆ3: SS:

Volvulella reflexa (Hutton).
Northølsland: TO" 2'Fshells BEA 781 spy, h>4.5.

Fam. Scaphandridae.

Cylichna pygmaea Adams.
Northelsland: 162 sps:, h.4.7.

Cylichna thetidis Hedley.
Northelslands 1642" shells 7:

Fam. Åceridae.

Haminea zelandiae (Gray).
Northelsland:328 11sps uh. 14.

46

Fam. Philinidae.

Philine constricta Murdoch & Suter.
Northulsland ION FSsps KEEL SS (SED SE 24 (animal va
alriformis-Sutern "Stewart Island 32 IE sp HT] 7 She ER
26 (animal), var. auriformis.

Philine umbilicata Murdoch & Suter.
NorthulslandtætsæPeEspseEhæsSISElsheld!

Fam. Aglajidae.

Aglaja cylindrica (Cheeseman).
Northælslande ls seles pE SE (animal)

Fam. Runcinidae.

Runcinella zelandica n. gen. n. sp.
(Pl. I, figs. 30—32; text-figs. 6—9.)

Animal small, ovate, rather high, destitute of a shell; back
covered with a disc of firm cutaneous consistency, shallowly
bilobed in front, with sessile eyes shining through the skin, slightly
incurved behind; margin a little projecting all around. Foot broadly
ovate, everywhere, except in front, exceeding the notum, with thin
simple margins. Anus behind the end of notum, submedian, a
little to the right, surrounded by
4—5 gills consisting of radiating
lamellae with a few short lateral
branches. Genital opening to the
right of the anus; right side of
the body with an open furrow
serving as vas deferens leading to
thefpenisteloseRtorthem mont

Colour fulvous on back and
gills; sides of foot paler yellowish.
Fig. 6. Radula of Runcinella zelandica n. Length 2.2, breadth 1.3, height
Ssp.; lateral teeth seen from their upper 1 mm.

surface above, from the margin below.

X 440. Radula (fig. 6) with the formula

47

…1.1.1.1.1., containing 19—22 series of teeth. Its length 0.32, breadth
0.12 mm. Median tooth broad, with a slight middle incision of
its edge, carrying 4—6 conical denticles on each side of it, the in-
nermost and outermost ones smallest. Lateral tooth narrow, with
a strong bent cusp. Marginal tooth broad, with 2 strong cusps,
separated by a deep incision; no denticles on the external teeth.

Gizzard armed with 4 hyaline chitinous crest-like bodies, com-
posed of about 8 thick triangular pieces attached to a common
basal plate.

Locality: North Island, Cape Brett, the coast, among large Co-
rallinae (St. 2), several sps., adult as well as young ones.

Remarks. The features stated above, chiefly of the external hab-
itus, are already sufficient to establish the systematical position of
this interesting little molluse in the close vicinity of the genus
Runcina belonging to the Tectibranchiate Opisthobranchia. With
this genus it shares the general organization, absence of shell,
position of anus, armature of stomach, and so on. At the same
time, however, important differences are striking, above all the
place and arrangement of the gills and the structure of the radula
(in Runcina and Ildica having the formula 1.1.1.), characters justi-
fying the creation of a new genus for the reception of the new
species. Though the genus Runcinella thus occupies a position
apart from the other genera of fam. Runcinidae it is the most con-
venient to retain it within this same family, which, as far as hi-
therto known, constitutes a well defined group of the Cephalaspidea.

Anatomy.
(Text-figs. 7—9.)

Alimentary canal. In the muscular pharynx which is fixed
to the body wall by means of muscle cords, a pair of thin mem-
braneous jaws are lodged. The structure of these jaws is similar
to that of the jaws in Runcina described by Vayssiére (1883,
pl. 1, fig. 7), thus showing their surface closely beset with small
rhomboidal corpuscles, each with a central denticle. A pair of tu-
bular salivary glands debouch at the sides of the oesophagus. This
soon opens into the very muscular gizzard. On the left side of
the debouching point a short diverticle, like the one described
by Colosi (1915) in Runcina calaritana, is inserted. It has the

48

same lining epithelium as the gizzard, viz. large glandular cells
secreting small yellowish-brown granules. In the gizzard four chitin-
ous masticatory plates are situated, as already mentioned, and these
latter are arranged symmetrically, the longitudinal axis passing
through the middle of two opposite ones. From the distal end of the
gizzard issues the second part of the oesophagus, which soon opens
into the stomach. The latter is surrounded by the liver and re-
ceives from it a single large posterior duct. A close examination

pp Es ør. vumtid g

Fig. 7. Longitudinal section through Runcinella zelandica nm. sp.
a anus surrounded by gills; b bursa copulatrix; c cerebral
ganglion; d vas deferens; e opaline gland; g shellgland; h herma-
phrodite gland; iintestine; ; jaw; k kidney; I liver; m stomach;
o genital orifice; p penis; r pericard; s salivary gland; t ter-
minal gland of the penis; u mucous gland; z gizzard.

shows that the duct is, in reality, made up by two pairs of large
canals, one coming from the right, the other and larger from the
left, but pressed secondarily towards the middle. The common liver
duct is very short, a fact explaining the diverging opinions about
the mumberforkducts bin er unend (CM CON OS EOS SE DENS
any case, there is no stomachal epithelium separating the two
branches which, consequently, cannot be considered as a pair of
ducts. In the left upper portion of the liver the intestine appears
as a narrow canal; its walls contain the same yellowish-brown
corpuscles as the gizzard, and they lend it a reddish tint in
specimens dissected. The intestine describes a curve towards the
right side of the body and, from this side gradually approaching
the middle line, debouches by the anus somewhat to the right of
the middle.

After the alimentary system the genital one is the most spa-

49

cious. It consists of two separate portions, the hermaphrodite and
"the male ones, combined only by means of the external ciliated
furrow. In the median part of the body we find the hermaphrodite
gland situated to the right of the liver
and extending beneath it backwards and
above the gizzard in front. Its ovarial
acini are arranged peripherically. On
its posterior and upper side, just be-
neath the point where the intestine
traverses it, the spermoviduct takes its
origin. It follows the left side of the
intestine backwards. In front of the
rectum it widens to an ampulla, which
after some convolution opens in the
large, much folded albuminiparous gland.
With the same gland, which has a thick
cyanophil epithelium, is connected a
shell gland with an erythrophil granular
epithelium of high cells. From the right
side of the gland complex the uterus Fig. 3. Scheme of the anatomy of
5 Runcinella zelandica n. sp. Nota-
issues, describes some coils, and openS tion as in fig. 6; nm nephroproct.
to the right in the posterior end of the

body. Before its mouth it receives a narrow duct which differs
from the spermoviduct in lacking in its interior the ciliated epi-
thelium; it ends blindly and is certainly to be interpreted as a
bursa copulatrix.

From the genital pore the seminal groove leads, as mentioned,
to the male opening at the side of the mouth. The penis consists
of two portions, a narrow and muscular atrial one, the penis proper,
and a tubular gland forming a posterior prolongation of the former,
somewhat wider than that and composed of large glandular cells.
The penis is a muscular cord with a fine central canal allowing
the secretion of the tube to pass. The whole apparatus lies freely
beneath and to the right of the pharyngeal bulb.

The kidney is a large sac on the right side and has its walls
entirely smooth. It extends from the hermaphrodite gland in front,
close beneath the tissues of the notum, to the surroundings of the
anus, where it forms some small descending lobes. The nephroproct

Vidensk. Medd. fra Dansk naturhist. Foren. Bd. 77. 4

50

is a simple fissure in its wall, and above it the kidney detaches
a lobe which becomes more and more narrow and lastly com-
municates with the pericard. The latter is rather small, as is the
heart too. Its place is somewhat in front of and above the genital
opening, thus on the right side, and close outside the intestine.

The nervous system corresponds to the description of the same
in Runcina coronata given by Vayssiére (1883) and in R. capre-
ensis (Mazzarelli 1893), thus showing two visceral ganglia, with-
out direct connection with each other.

Opaline gland. Beneath the anus a small pore appears,
being the outlet from a rounded sac, otherwise entirely closed and
lined with a thin epithelium. This sac
contains 7 date-like corpuscles attached
with their anterior ends to the front
wall of the sac and freely projecting
into its interior. The corpuscles prove
to be glandular formations. They con-
sist of an outer cutaneous sheath made
up by two cell layers and forming a
fold from the anterior wall of the sac,
and an inner bottle-shaped acinus with
a narrow efferent canal opening by a
terminal pore; the walls of this canal
are similar to those of the sheath thus
Fig: 9. Runcinella zelandica n. sp., proving the origin of the glandula by
section through one corpuscle of n i 2
the anal (opaline) gland. x 300. means of invagination (text-fig. 9). The

bottom part of the gland is formed by
large glandular cells with median nuclei and vividly stained con-
tents (by haematoxylin); among them narrower cells with small
apical nuclei and unstained contents appear. The small cells pre-
dominate, and the large ones disappear, towards the canal.

This gland is certainly homologous with the.so called opaline
gland in Aplysia and other genera (also named "fgrape-shaped”
gland or glandula of Bohadsch; cf. Mazzarelli 1893 a), which
has become dislocated together with the whole anal tract, and
further peculiarly specialized and modified by the folding of the

ø
SLÆT gs

walls of the primarily simple glandular sac.

Sl

[Sy

Conclusions.

From the above examination follows that the genus Runcinella
is well separated from Runcina, above all in the following particulars:
Anal and genital apertures are situated in the real posterior end
of body; gills 4—-5 with a doridoid arrangement round the anus;
opaline gland consisting of isolated glandulae enclosed in an infra-
anal sac; male opening close at the mouth; penis with a tubular
gland but lacking terminal vesicula seminalis; vagina with a simple
tubular bursa copulatrix.

Runcinella represents a more advanced and specialized type,
though in a few characters (e. g. penis) more primitive, than Runcina,
with which it shares its chief organization. Its systematical position
thus is to be established within the same family. This, beside
Runcina, contains the genus I/dica of Bergh with a single species.
The genus Runcina comprises the following 5 species: R. coronata
Quatrefages 1844, capreensis Mazarelli 1893, calaritana Co-
losi 1915, prasina Morch 1863 and inconspicua Verrill 1903.

Colosi (1915) arrives at the conclusion that the fam. Runci-
nidæ should be removed from the Cephalaspidea (Bullidea) and
made the type of a coordinate group Runcinidea. His opinion is,
however, in some cases, e. g. concerning the genital system, based
on interpretations of facts which seem to be debateable. In the
present species at least the structure of the genital apparatus en-
tirely corresponds to the Cephalaspidean type (type I in Lang, 1900),
and there is no other character (except the gills) in which it dif-
fers properly and positively — the absence of a shell being, of
course, insufficient to motive a separation, as a reduction of the
shell is more or less complete in many Bullomorph genera.

Fam. Pleurobranchidae.

Bouvieria (Pleurobranchus) aurantiaca Risso.
Stewart Island: 34, 1 sp., 1. 18 (animal). — Auckland Island:
41 (Masked Island), 1 sp., I. 9 (animal).

Bouvieria (Pleurobranchus) ornata Cheeseman.
North Island: 17, 2 sps., I. 30 (animal). — 19, 1 sp., I. 7 (animal).
— See Addenda p. 86.
42

52

Pleurobranchaea maculata (Quoy & Gaimard).

South FIsland Re ond Bay eo ms EO EOS TEE ES RES0
(from Capt. Bollons, "Hinemoa””).

Pleurobranchaea novae=zealandiae Cheeseman.

North Island: 10, 1 sp., I. 10. — 25, 1 sp., I. 19. — South
IslandehPO9RSESpSFEI ESS

Fam. Goniadorididae.

Acanthodoris molicella Abraham.
Campbell Island: 44, many sps., Il. 30. — Auckland Island:
AO ESPEN 2O:

Fam. Dorididae.

Doris nanula (Bergh).
Auckland Island: 43, 5 sps., I. 20.

Rostanga rubicunda (Cheeseman).
Northklstands mles pre

Alloiodoris lanuginata (Abraham).
(PEEPEHoSSSSIESÅÆ ter t- hos TSI)
North Island: 5, 1 sp., I. about 20 (reddish-brown with a series
offblackEspotsfalong feachøside Torfthetback) == ES DEESESI

Fig. 10. Three of the Fig. 11. The 20th tooth Fig. 12, The 6 uttermost teeth in a

innermost teeth of the in a row from the row from the radula of Alloiodoris
radula af Alloiodoris radula of Alloiodoris lanuginata. X 150.
lanuginata. X 150. lanuginata. X 150.

(colour rosy). — South Island: 29, 1 sp., I. 8. — Campbell Is-
land: 45, 1 sp., I. 35 (colour white).

53

In the size of the radula and the shape of the teeth the present
specimens (text-figs. 10—12) seem to differ from the type described
byt ElrotH((907ÆPES33) EET two specimens
examined the radula had 18 (+ 2 incomplete)
rows, the largest with about 40 hamate teeth
on each side of the bare rhachis; each tooth
with a bifid or trifid denticle at the outer side
of the cusp (text-fig. 11). Penis (text-fig. 13)
and vas deferens were armed with series of

Fig. 13. Armature of
the penis of Alloiodoris
small hooks in two specimens, but in one (from lanuginata. X 75.

Campbell Island) the hooks were replaced by

sac-shaped projections with inflated ends. In the characters of the
labial disc, where the elements were indistinct, and of the separate
hermaphrodite gland the specimens exhibited the typical features.

Chromodoris amoena Cheeseman.

North Island: 5, 1 sp., much contracted, I. 24 mm. Though the
specimen is decolorated, the mantle margin as well as the back of
the foot still show a deeper yellowish tint than the body in ge-
neral. The radula is large with about 100 rows, the largest con-
taining about 100 teeth, and these agree, as do the radula and
the armature of the labial disc, in all the characters described by
Elrot((do907 p 345).

Aphelodoris luctuosa (Cheeseman).
(A. cheesemani Eliot).

South Island: 29, 1 Sp., l. about 30, of an ivory-white colour;
the radula contained only 21 rows of teeth which are in complete
accordance with the description by Eliot (1907).

As to the name of the present species, Eliot (1907, p. 343)
states its identity with Doris luctuosa Cheeseman, but maintains
that this specific name is to be rejected, because at the time when
the species was referred to Aphelodoris, viz. 1907, there was already
an Aphelodoris luctuosa described by Bergh in 1905. As, however,
Cheeseman's name dates from 1882, it has priority and must
be considered valid, and, for the same reason, the later described
species (from Tasmania), which can, according to Eliot, hardly

54

be the same, has to take a new name. This may suitably become
Aphelodoris berghi.

Fam. Åeolidiidae.

Cuthona zelandica n. sp.
(PII ss SE tere he

Body very slender, tapering backwards, foot narrow, with rounded
anterior corners and thin margins. Rhinophores smooth, equalling
the tentacles in length. Dorsal papillae elongate, linear, a few
with bifid tops, set in ahout 15 transverse rows,
the foremost 5 rows a little separated from the
sequent ones; the largest rows, 5 and 6, "con-
taining each 9—10 papillae on each side. Genital
orifice beneath the 4th row of papillae; anus close
behind the genital pore, Glans penis conical,
without any armature. Colour of the papillae (in
spirit) pale brown, tips whitish; colour of foot and
head whitish.

Jaws with one row of minute denticles at the
masticatory margin. 0 Radula with 60 series of
arched teeth (text-fig. 14) with a strong but not
much prominent central cusp and 6 smaller dent-
icles on each side decreasing in size towards
Fig. 14. Atoolihfrom the base, the innermost denticle often very slen-
Sa der and shorter than its neighbour. Basal proces-
n. sp., seen from ses lodged in an articulatory hole on the under
De min DEN he side of each preceding tooth. Breadth of radula

0.12 mm, length of teeth 0.12 mm.

Dimensions: Length of animal 15, breadth 4, br. of foot in
front about 2 mm. — Locality: Auckland Island: 41 (Masked Is-
land)melesp

This species is a true Cuthona, differing, however, from the
mass of congeneric species in the unusual length of its radula, a
feature that it shares with the British C. stipata Alder & Han-
cock. The genus lacks further representatives in N. Zealand and
even in Australia.

559

Fam. Fionidae.

Fiona pinnata Eschscholtz (=marina Forskål).
Campbell Island: 44, 2 sps., I. 60.

Fam. Ellobiidæ (-Auriculidae).

Marinula (Cremnobates) parva (Swainson).
Auckland Island: 37, close to the high water line, 24/11 1914,
en masse, Il. 6.8. — 38, 1 sp., I. 6. — Connolly (1915) in dealing
with the genus Marinula includes this form and regards Cremnobates
as synonymous; cf. also Iredale 1915. — See Addenda p. 86.

Fam. Amphibolidae.

Amphibola crenata (Martyn).
Northælsland: "8 spr R2 2:

Fam. Siphonariidae.

Siphonaria cookiana Suter.
North Island: 17, many sps., I. 27. -— South Island: 30, 2 sps.,
l. 10 (on Turbo smaragdus). — Stewart Island: 36, many sps., I. 25.

Siphonaria obliquata Sowerby.
Auckland Island: 37, many sps., Il. 35.

Siphonaria zelandica Quoy & Gaimard.
Northulskaind FLE shell ks

Kerguelenia innominata Iredale.
(=Siphonaria lateralis Gould, by Suter).

Auckland Island: 37, en masse, Il. 19. — 39, 1 sp., 1. 7.

Fam. Ancylidae.

Latia neritoides Gray.
North Island: Lake Takapuna, Auckland, 23/12 1914, many sps.,
Il. 8.7. — The anatomy of this species has been recently described
bytEal'es"((925)

56

Fam. Zonitidae.

Hyalinia cellaria (Miller).
North Island: Lake Takapuna, Auckland, 23/12 1914, 1 sp.,
dæ95: :

Fam. Helicidae.

Helix aspersa Miller.

Auckland, under stones, 2 sps., d. 26.5.

Fam. Endodontidae.

Thalassohelix zelandiae (Gray).
Stewart Island, Port Pegasus, under wood or stones, 21/11 1914,
læspen

Allodiscus planulatus (Hutton).
Auckland Island, under wood or stones, 25/11 1914, 5 sps.,
de2-7
Thermia expeditionis Suter.
Auckland Island, under wood or stones, 25/11 1914, 1 sp., d.
2.7, h. 1.9, whorls 4 1/2; base with microscopic striae. — Adams
Island, Auckland Island, under wood, 28/11 1914, 1 sp., d. 2.7.

Therasia antipoda (Hombron & Jacquinot).
Adams Island, Auckland Island, under wood, 28/11 1914, 1
spæde:
Flammulina zebra (Le Guillou)
(=phlogophora Pfeiffer, by Suter).
Stewart Island, Port Pegasus, under wood .or stones, 21/11
KOTE ES ps Ed:

Ranfurlya constanceae Suter.
Auckland Island, Amokura Harbour, under wood in the forest,
1/12 1914, 2 sps., I. 10.5. Suter's specimen measured 6 mm.

57

Charopa (Endodonta) benhami Suter.

Auckland Island, under wood or stones, 25/11 1914, many sps.,
d. 2.9, h. 1.6. — Adams Island, under wood, 28/11 1914, 3 sps.,
2 ENES fr fol taperfure le mm/swhorls" 6:

Charopa (Endodonta) pseudocoma Suter.
Balmerstone Febr or ST SEspse dl 5.5:

Fam. Bulimulidae.

Placostylus hongii (Lesson).
Cape Maria van Diemen, Dec. 1914, 3 shells, h. 75.

Fam. Rhytididae.

Paryphanta hochstetteri (Pfeiffer).
N. Zealand, without definite locality, 3 sps., d: 64.

Fam. ÅAthoracophoridae.

Athoracophorus verrucosus Simroth.

Auckland Island: Amokura Harbour, under wood in the forest,
1/12 1914, many sps., I. 34 (var. fasciatus Simroth). — Adams
Island, under wood, 1 sp., 1. 34, 28/11 1914 (var. fasciatus).

Athoracophorus martensi Suter.

Auckland Island: Amokura Harbour, under wood in the forest,
NAFPRIOTÆS Many sps:3 1:28:

Fam. Onchidiidae.
Onchidella campbelli Filhol.

Stewart Island: 33, many sps., I. 9. — 34, many sps., I. 10.
— 36, many sps., I. 8. -— Auckland Island: 37, close to the high
water line, numerous sps., I. 19. — 40, 3 sps., I. 10. — Camp-

bell Island: 44, 2 sps., I. 8.

Onchidella flavescens Wissel.
Northelslande JSF 1L sp; 41.

58

Onchidella nigricans (Quoy & Gaimard).
NorthælslanditkrsEsps mles DEER O

Onchidella patelloides (QQuoy & Gaimard).
North"Island: 1716 spss ll SM OSSE] Su meroussps sl

Scaphopoda.
Dentalium nanum Hutton.

North Island: 10, 1 sp., I. 37; anterior 3/5 of the shell with-
out costae, only with fine radiating striae, posteriorly with 13 ridges.
"TOP SPS.) 29 == 8 PFsSpSS Al POT EPS Sp SES

Dentalium zelandicum Sowerby.

North” Island" TI spr IA NRF Stewart Island ks SPRE spe
ISS:
Cadulus spretus Tate & May.
Northtlsland: F1T68 mu merous"sps El ESSE
Lamellbranchiata.

Fam. Solemyidae.

Solemya parkinsoni Smith.
North Island: 23, 1 shell, 1. 40.

Fam. Nuculidae.
Nucula hartvigiana Pfeiffer.
North; Island: T2SE2ESps 5 1557 SEES RES pE IE SE SRES SR
small sp. — 22, 1 small valve. — South Island: 29, 2 sps., I. 9.
— Auckland Island: 41 (Masked Island), 2 sps., I. 8.

Nucula nitidula Adams.
North Island: 16, many sps., Il. 8.

Nucula simplex Adams (-strangei Adams).
North Island: 16, some small sps. — 18, some small sps.

59

Fam. Ledidae.

Nuculana (Leda) bellula Adams.

North Island: 16, many sps., I. 11. — 18, many valves, Il. 8.
— Auckland Isiand: 43, many sps., Il. 8.

Malletia australis (QQuoy & Gaimard).
Nortbelsland IS EISEs pE re 2 13/2 MES 71821 small
valve.

Fam. Ånomiidae.

Anomia huttoni Suter.
Somthtlslande 29) Sp 125"

AÅnomia walteri Hector.
Northelsland: 7/72 spsk s 2:

Fam. Årcidae.
AÅrca novæ-zealandiæ Smith (=decussata Sowerby in Suter).

North Island: 4, 3 sps., I. 4 + 3/2, 1. 20. — E. A.Smith
(1915) points out the specific distinctness of this form.

Bathyarca (AÅrca) cybaea Hedley.
North Island: 16, 3 valves, I. 4. — 18, some small valves.

Glycymeris laticostata (Quoy & Gaimard).
Nonihelslande tage 2 Es ps SE ISA BES pE MS:

Glycymeris modesta (Angas).
Nosihelslande Han 2Es ps le SEEST 7 20 ED 26
SPS IO 1 6 many sps., 13: == "22 74 sps., 1:13:

Fam. Limopsidae.
Lissarca aucklandica Smith.
Auckland Island: 37a, 2 sps., I. 3.3. — 41, (Masked Island),
numerous sps:, I. 3.5. — 41, (Figure 8 Island), some very small
sps. — 43, some sps., I. 5.

60

Fam. Philobryidae.

Philobrya filholi Bernhard.
North Island: 2, many sps., I. 1.4.

Philobrya meleagrina (Bernard).
North Island: 3, many sps., h. 3.5. — 9, some sps., h. 5.7.

Fam. Mytilidae.

Mytilus planulatus Lamarck.

North Island: 3, many small sps. — 28, 1 small sp. — Stewart
Island: 31, many sps. — 11, 6 sps., 1. 96. — Auckland Island: 37,
many sps., Il. 100. — 38, many sps., I. 42. — 40, 2 valves, I. 135, over-
grown with calcareous algae. — Campbell Island: 44, 1 sp., I. 84.

Oliver (1923) has shown that the species which Suter named
Mytilus edulis is identical with the Australian Mytilus planulatus
Lamarck, which differs from the Linnean type in having 2—3
teeth placed inside the apex, not on an expanded lip. A good
discriminating character is offered by the muscle scars: in M. plan-
ulatus that of the anterior adductor is small and shorter than the
scar of the anterior retractor, whereas the latter scar is shorter
than the former in M. edulis. Oliver gives the maximum length of
the species as 89 mm, but from the present collections I have
larger specimens (135 mm; ef. above) at hand.

Mytilus canaliculus Martyn.

North Island: 3, 4 sps., I. 70. -—— 19, 1 sp., I. 45. — 28, some
sps., I. 37. — Auckland Island: 39, 1 sp., I. 50. — 40, 1 shell,
I. 20. — 41, (Masked Island), 1 sp., 1. 33. — Campbell Island:
44, many sps., I. 54.

Mytilus magellanicus Lamarck.

South Island: 29, many sps., I. 43. — Stewart Island: 31, many
SpS., 1. 57. — 32, 2: sps., I. 70. — Auckland" Island: "38 F2FSpSE
[42 — 39, ”some”sps:) 1.785. 737, many sps MINS GERE
(Figure 8 Island), some small sps., on a Macrocystis. — 41 (Masked
Island), many sps., I. 71.

61

Modiolus neozelanicus Iredale
(-ater Zelebor, non Molina).
North Island: 3, many small sps. — 26, some small sps. —
28, 1 small sp. — Auckland Island: 37, 2 sps., I. 27 (close to the
high water mark). — 38, many sps., I. 30. — 39, 1 sp., I. 21.

Modiolus australis Gray.

North Island: 2, 1 sp., I. 17. — 24, 4 sps., I. 46. — South
Island: 29, 4 sps., I. 38. — Auckland Island: 41 (Masked Island),
1 small sp.

Modiolaria impacta (Hermann).

North Island: 3, many small sps. — 15, 6 sps., I. 26. — 21,
1 sp., I. 15. — 22, 3 sps., I. 40. — 28, 1 small sp. — South
Island: 29, many sps., I. 43. — Stewart Island: 32, 2 sps., I. 26.

It may be according to a strict application of the nomenclatory
rules that Iredale rejects the generic name Modiolaria in favour
of Musculus Bolten, but as this genus is a conglomeratic one and
comprises also Anodonta, and in first case is synonymous with
Anodonta, it seems most convenient to me to make no exchange
of Modiolaria Beck.

Lithophaga truncata (Gray).
Northulsland ITST sp. 26:

Dacrydium radians Suter.
North Island: 16, 8 valves, 1. 4.5:

Fam. Pectinidae.

Pecten medius Lamarck.

North Island: 10, 3 sps., I. 72. — 16, 6 sps., 1. 69. — South
Island: 29, 4 sps., Il. 7.

Chlamys campbellicus n. sp.
(Pl. II, figs. 36—39.)
Shell of medium size, solid, both valves equally convex; ears
very unequal, sharply set off from the valve by means of a sharp
furrow, the anterior ears large, posterior less than half the anterior

62

in length. Sculpture: Right valve, about 22—24 high regular ribs,
bifurcating towards front and hind margins and becoming tripartite
towards under margin by the appearing of a marginal furrow along
each side of the ribs; interstices as broad as the ribs and sculp-
tured with fine, close, concentric lamellae with serrated upper edges,
or dissolved into isolated spinulæ; these lamellae extend on the
lateral sides, and, though more or less worn off, on to the upper
side of the ribs. Anterior ear with 5 coarse radiating ribs and a
smooth area beneath running from sinus to umbo; bounding groove
of the ear serrated by a series uf small tubercles. Left valve: Ribs
of the same number as in the right valve; concentric lamellae
produced on the ribs into small imbricating scales. Colour of both
valves orange rosy. Dimensions: max. h. 32, br. 29 mm. Locality:
Campbell Island: 45, 10 dead valves, the small ones having a fresh
appearance showing that the species belongs to the actual fauna.

Its nearest ally seems to be Chlamys patagonicus King, which
occurs in West Patagonia from 50? S to Tierra del Fuego and on
the Eastern coast of Patagonia to 51? 30” S as well as in the
Falkland Islands (Hågg 1910). The chief differences between
both forms are to be found in the greater number of ribs in the
latter species (about 35 on the disc and in the right anterior ear
6), together with a paler reddish-gray colour. The partition of the
ribs is similar, but Chl. patagonicus often shows a bifurcating of
the median ribs towards the inferior margin, and has, besides, an in-
termediate riblet in each interstitial furrow; a similar intermediate
riblet is totally absent in Cl. campbellicus. — The fossil Pecten
triphooki, Zittel, which has been found fossil in Campbell Is-
land (Marshall 1909, p. 701), seems to be closely related, too.

Chlamys (Pecten) dichrous Suter.

South Island: 29, many sps., h. 36. — Stewart Island: 31, 1
sp., h. 31. — 35, 1 small sp. — Auckland Island: 37a, 3 valves,
hæl 2:

Chlamys (Pecten) imparvicostatus Bavay.
Nortnkilsland el osElESs one 72:

Chlamys (Pecten) radiatus Hutton.
Northulslands MO Er ss EP GE ES ma spre

63

many valves, h. 40. — South Island: 29, 1 valve, h. 35. — Stew-
Fartelsland:"321spsE hh 35:

Chlamys (Pecten) zelandiae Gray.

Northelsland FIE fragment 722 sps., hh. LL (var: gem-
mulatus Suter, non Reeve)!). —- -4, 2 sps., h. 16.5 (var.). —
ild sps HS 27 TEEN FL Sp 25. -— 16,..3 sps:,. fh. 17.:—
South Island: 29, 1 sp., h. 40 (var. gemmulatus). — Stewart Is-

land: 32, 3 sps., h. 7! (var. gemmulatus. The last mentioned spec-
imens much exceed the size stated by Suter for the species).

Chlamys (Pecten) convexus Quoy & Gaimard.
Northilsland= 4/52 spssE STS —— 10 -2sps:," 1 .52.— 16,1
ES 2ESpS:, 1:27.
Fam. Limidae.
Lima bullata (Born).

North Island: 10, 1 sp., h. 10. — South Island: 29, 1 valve,

h8495:
Bimal sutter Dal

Nortmilstand: "16772 valves HSF 18: "1 valve:-h: 7.

Fam. Ostreidae.

Ostrea angasi Sowerby.
North Island: 22, 1 sp., h. 57. — South Island: 29, 3 coherent
sps., I. 58. — Stewart Island: 31, 1 sp., h. 40.

Ostrea. hyotis (Linné).
North Island: 15, 1 sp., h. 61. — 27, some sps., I. 50.

Fam. Gaimardiidae.
(Modiolarcidae.)

The characteristics of this family are in the first line the foot
which has a creeping disk, and the triforic mantle with a small
pedal, a ventral branchial, and a posterior anal opening. The gills

1) Iredale (1915) points out the distinctness of Suter's variety from
P. gemmulatus of Reeve.

64

have a varying structure as to the genera; they are of the eulamelli-
branchiate type and are fused to each other and to the mantle at
the anal slit. The intestine runs directly, in a slight curve back-
wards from the stomach, from which it issues on the right side.
Concerning the hinge, a great variation also prevails. The teeth
may be completely reduced, or they are present in a vestigial shape
only, or finally, they are well-developed. The hinge seems to re-
present the cyrenoid type as well as the lucinoid one of Ber-
nard; thus in G. faba and trapezina we find the latter, as well as
in Kidderia bicolor and in G. smithi (which may be a Kidderia; cf.
Hedley 1916, pl. II, figs. 17—19), and in Neogaimardia the former.
The ligament is external or subinternal in Gaimardia, subinternal
in Kidderia and distinectly internal in the new genus Neogaimardia.
To this family I refer the genus Gaimardia (=Modiolarca; for
the "change "of mame”ck. Iredale"19T5)Fandethetkcloselyfnelated
Kidderia Dall 1876, as well as the new Neogaimardia (type Kellia
rostellata Tate). The interrelation of these genera which are all
represented in the New Zealand fauna, is showri in the following

scheme:

I. Animal with 2 gill plates on each side.

A. Gills with well-developed interlamellary septa extending
nearly all along the height of the lamellae; plates folded be-
tween them; foot with mucus pore separated from byssus fur-
row; ventral mantle suture shorter than the branchial opening.
Shell rhomboid, with anterior rostrum; hinge of the lucinoid
type with indistinct teeth; ligament subinternal or external
Gaimardia Gould 1852.

Type: G. trapezina (Lamarck).
B. Gills with incomplete interlamellary septa (present in the
marginal part only, about 1/3 of the height), plates simple, smooth:
foot with mucus pore debouching in the front end of byssus
furrow; ventral mantle suture longer than both siphonal slits
together. Shell elongate, rostrum indistinct
Kidderia Dall 1876.

Type: K. minuta Dall.

II. Animal with 1 gill plate on each side (= the inner or an-
terior one of the preceding group); no interlamellary connec-

65

tion in the gill; foot and mantle sutures as in Gaimardia.
Shell orbicular, with a dictinct rostrum; hinge teeth of the
cyrenoid type, strong; ligament short, internal.

Neogaimardia n. gen.
Type: Kellia rostellata Tate.

A comparison of the hinge elements makes it evident that in this
family the two chief types of Bernard are manifested. I have

Fig. 15: Fig. 16.
Hinge of Gaimardia acrobeles. Hinge of Kidderia bicolor.

Fig. 18. Fig. 17. Fig. 19.
Three stages in the development of the shell and hinge of Neogaimardia rostellata.

examined the hinge in G. faba and G. acrobeles (text-fig. 15) — in
the latter it is rather well developed — and in both there is only
one small cardinal in the left valve being the ventral one in the
hinge and thus =— 2, according to Bernard's nomination; it is sur-

Vidensk. Medd. fra Dansk naturhist. Foren. Bd. 77. + 5

66

rounded by two right cardinals, thus 3a and 3b, according to
Bernard. An indistinct swelling of the hinge plate in front of
tooth 3a represents a 5a. In the left valve a small 4a is visible
in front of 2 and behind it a 4b, which may be well developed
or indistinct in G. acrobeles.

In Kidderia bicolor v. Martens (from S. Georgia; text-fig. 16)
the conditions are the same: teeth 2 and 3a are the largest, 4a
and 3b smaller.

Bernard (1898) has stated the same type in the prodissoconch
of Modiolarca pusilla.

Neogaimardia rostellata Tate represents a different arrange-
ment. In a small specimen (1. 1 mm; text-fig. 17) a single tooth
2 is present in the left valve, this fits in a socket in front of tooth
3a in the right valve; a small swelling before 3 represents a tooth
1. In a somewhat larger stage (1. 1.5 mm; text-fig. 18) tooth 2
has got a slight sinus on its inner side and comprises tooth 1, and
this state of affairs becomes much more obvious in the adult shell
(text-fig. 19) where also tooth 2 has acquired a hook-like shape
round tooth I. 4a (a1 in the figure) has been removed farther
towards front, and so has 5a in the right valve.

The coexistence of both these types within the same family is
certainly a sign of primitivity. So are also the features of the li-
gament which is often very indistinctly limited and may vary be-
tween external and internal position.

Concerning the structure of the gills this family exhibits a
parallel to the Cyrenacea (Cyrenidae and Sphaeriidae); also in this
group we find simple as well as folded gills and even a reduction
of the posterior (or outer) demibranch, no doubt as a consequence
of the incubatory development and its accumulative nursing of ju-
venile characters respectively arresting of progressive modification.
Thus the single gill in Neogaimardia is certainly to be compre-
hended as a secondary apparition due to reduetion, in the same
way as the similar condition in the single-gilled subgenus Neopi-
sidium of the freshwater mussels Pisidium (cf. Odhner 1923).

To Neogaimardia also belongs Gaimardia tasmanica Beddoms,
according to specimens sent by the Australian Museum.

Gaimardia acrobeles Suter.
Auckland Island: -37, many shells, 1. 5.6.

67

Kidderia campbellica n. sp.
(Pl. II, figs. 4£2—44, 56.)

Shell small, oblong, a little narrower at the anterior end, in-
flated, yellowish-gray and brown. Beaks a little produced, broadly
rounded, situated a little above the front end which projects, nar-
rowly rounded, below them. Basal margin slightly curved, posterior
end broadly rounded, dorsal margin evenly convex. Sculpture faint
irregular lines of growth; besides these a trace of some radial lines
or rugations in the median part of the shell; a faint dorsal ridge
(indistinct in old specimens) extends diagonally from the umbones
to the dorso-posterior margin. Colour yellowish-gray, posterior
and dorsal parts usually dark-brown, interior grayish-white, usually
brownish posteriorly and dorsally. Interior surface grainy, only
edges without the pallial line smooth and shining. Margins smooth,
sharp. Ligament external, very long. Hinge perfectly tooth-less.
Anterior adductor scar subcircular, smaller than the oblong poste-
rior one and distinctly impressed. Dimensions: L. 6.5, h. 4.5, br.
38 mm. — Locality: Campbell Island, 45, numerous sps.

Externally the new species has a great resemblance to K. hi-
color v. Martens (from S. Georgia), but that species is more
elongate (with subparallel margins), and the new species differs
from it and from any other species of the genus (thus also from
K. pusilla) in being edentulous even in young stages of growth;
only in one small specimen of 2.5 mm length a very indistinct
right cardinal tooth was observed.

The animal has a very short pedal slit of the mantle, its length
being smaller than the diameter of the anterior adductor. In K.
bicolor this slit is twice that diameter. The pedal opening has
smooth margins, then follows a long suture and, posteriorly, the
large branchial slit with finely papillate margins and, above it, the
anal slit with smooth margins. Between the two openings a pair
of small papillae or tentacles are visible.

Manv of the specimens collected contained fry in their gills,
but such were observed only in the inner gill on each side, and
in small number. In K. bicolor, on the contrary, both demibranchs
at each side serve as brood-pouches and contain numerous young,
as made evident by examination of specimens from S. Georgia. Also
in K. campbellica, however, there is a free communication between

68

the gill chambers due to the suspension of the gill axes which are
free, except for their ends. By means of the anal slit the gill
chambers communicate with the exterior. In their finer structure
the gills, as already mentioned, are smooth, not folded. There are,
however, many interlamellary connectives, though limited to the
marginal parts of each demibranch. In the margin of each reflected
lamella a marginal venous vessel is contained.

The front margin of each demibranch is furnished with a fine
longitudinal furrow.

The foot consists of an anterior fingershaped portion and a
broader posterior one, the latter containing the large byssus cavity
preceded by a mucus gland which debouches in the anterior end
of the byssus groove.

Both pairs of labial palps are well developed. There is a long
oesophagus. The stomach chiefly consists of two portions: a large
cardiac and a smaller pyloric sac, the latter evidently homologous
with the crystalline coecum, though containing only ciliated epithel-
ium and no excretion. The former portion is lined with a stomachal
cuticula and is dorsally furnished with a short curved coecal ap-
pendage. Only one liver duct is present on each side of the
stomach under the entrance of the oesophagus. The intestine issues
from the right basal part of the pyloric sac, describes a short coil
towards front and then runs with a dorsal curve through the heart
to the anus.

The gonads form a pair of few-lobed bunches in the posterior
half of the visceral hump. They debouch in a pair of papillae on
each side of the foot retractors within the inner gill room and
beneath the fundus of the pericardium.

Behind the pericard and surrounding the foot retractors lie the
nephridia which begin with long pericardial tubes. These debouch
dorsally in the posterior part of the outer sacs. The latter com-
municate medially by means of a short opening in their walls. They
debouch separate from and opposite to the gonads.

Kidderia costata n. sp.
(Pl. II, figs. 45—47.)
Shell small, ovate-oblong, thin, fragile, compressed, especially
below the middle, very inequilateral; umbones broad, flattened, in

69

the foremost part of the upper side. Front margin abruptly des-
cending, but little convex, strongly bent into the almost straight
under side, hind margin produced-rounded, upper margin long, a
little curved. Sculpture: 14 strong radiating costae, strongest in
the left valve, of which 9 directed to the posterior margin some-
what flexed upwards with their ends, elevated, rather compressed
(most so the uppermost ones), and 5 lower costae in the median
part; front half of the shell without radiating sculpture; besides ir-
regular concentric lines, in the posterior and upper parts raised as
lamellae crossing the costae and lending them a subsquamose ap-
pearance. Colour white, dorsally brownish. Interior white, brownish
behind and above; mantle line with a very small sinus below the
posterior adductor. Anterior adductor scar small, ovate, not dis-
tinctly separated above from the retractor scar, posterior one
broader, rounded ovate. Hinge-plate narrow. Hinge: left valve with
a single median cardinal; shell margin depressed on both sides of
it; right valve with 2 prominent stout teeth embracing the left one,
and fitting into the sockets of the left valve margin; no cardinals
in either valve. Ligament external, long, thin, with a strong resi-
lium. Dimensions: L. 4, h. 2.6, crass. 2.2 mm. — Locality: Auck-
land Island: 41 (Masked Island), 1 empty, somewhat injured shell.

Externally this species is strikingly similar to a Cardita caly-
culata; but the hinge shows quite different characters and proves
that it is referable to the genus Kidderia. It is similar to K. bi-
color in the teeth and the shape of ligament and protoconch; only
a slight difference is present between their left valves which is,
however, easily explainable in the obliteration of the foremost tooth
(4a) of the new species; even in K. bicolor it is not constant. A
further difference is that in K. bicolor the retractor muscle scars
are well separated from the adductorial ones. Also in K. bicolor
a tendency to forming a small sinus of the mantle line is observ-
able. The participating of the shell margin in forming the left
cardinal sockets is no doubt a secondary apparition.

Neogaimardia rostellata (Tate).

(PERIE o557 ext hoss 17299)
Mr. Hedley, who has kindly verified the identificaton of spec-
imens sent, communicated me the following references concern-

70

ing the literature about Neogaimardia rostellata, which is new to
New Zealand:

Kellia rostellata Tate, Trans. Roy. Soc. S.A., xi, 1889, p. 63,
(DSE Er bEN

Kellia' rostellata Wilson, Proc. Roy. Soc. Viet., 1i, 1890%pi
64—67.

Kellya'rostellata Tate" & May, P.L'SIN?SSW. xxvi, 1901 Ep RAS 2

Kellia Trostellata Pritchard'& GatlifEtProc" Roy Soc vicere
XI O OFTERE P2SE

Neolepton rostellatum Hedley, P.L.S.N.S.W., xxx, 1906, p.
542xepl. xxx, figs. 3,4.

Neolepton rostellatum V erco, Trans. Roy. Soc. S.A., xxxi, 1907,
pel06:

Neolepton rostellatum Gatliff & Gabriel, Proc. Roy. Soc.
Vice OD SENDES SO

Neolepton rostellatum May, Check-List Moll. Tasm., 1921, p. 19.

Neolepton rostellatum May, Illustrated Index Tasm. Shells, 1923,
DlEvnor 2:

Localities: North Island: 3, numerous sps., I. 2.8. — 21, mas-
ses of small sps.

The habitat in Australia of this species was communicated by
Mr. Hedley thus:

Type locality: Port Phillip Heads, Victoria, 7—9 fms, on sea
weed (Wilson). — Guichen Bay, alive, Lacepede Bay and Mac
Donnell Bay, S. Australia (Verco), King Island, Tasmania (May).

Mr. Hedley further informs me that, according to his opinion,
this form is referable to Gaimardia. This relationship has been
corroborated by my examination of the anatomy and the hinge,
but differences prevail which make necessary the creation of a
new genus for the present species.

Hedley (1906, cf. above) has given a figure of this shell and
its hinge. This differs, as already mentioned, from the normal type
of the family in being of the cyrenoid structure with a tooth 1 in
the right valve embraced by tooth 2 of the left one. Besides the
characteristic hinge teeth there are some peculiar accessory mar-
ginal teeth. There are in both valves 3 posterior and 2 anterior
ones, and between them small sockets for receiving the teeth of op-
posite valves. That these teeth are an accessory formation is evident

ml

. from a comparison with a young shell: here no marginal teeth of
this kind are visible. Similar teeth, though fewer in number, are
to be observed also in species of Gaimardia, e. g. G. acrobeles.

The animal of Neogaimardia rostellata has its coalesced mantle
edges pierced by three openings: a small pedal slit in the anterior
sinus behind the rostrum, a long branchial one ventrally, and an
anal opening behind. From Kidderia it differs in the mutual length
of slits and sutures, and in the same respects it approaches Gai-
mardia. Between the posterior slits which have both smooth mar-
gins, like the pedal one, a pair of papillae are situated.

The gills are reduced to comprise only one demibranch on each
side, viz. the inner or anterior one, the posterior or outer gill plate
being entirely obliterated. The demibranch has its filaments directed
in the length of the body and is smooth, not plicated; both its
direct and its reflected lamella are well developed. In both lamellae
there are many interfilamentary junctions, but no interlamellary
ones exist at all. The upper margin of the inner lamella contains
a venous blood vessel and is fused to the body at the sides of
the foot; both demibranchs likewise join their inner margins be-
hind the foot. The posterior margin of the direct lamella represents
the gill axis and is fused to the mantle in its whole length. Thus
a spacious chamber occupies the interior of each demibranch, com-
municating with the exterior only by means of the anal mantle
opening; this room serves as a broøod-pouch and was in many
specimens filled with fry.

The foot is furnished with a broad sole and contains a large
byssus gland secreting a bristle of coarse byssus rods. In front
of the byssus groove is a separate pore, the mouth of a mucus
gland, quite as in Gaimardia. The retractor muscles of the foot
are very strong.

The pedal ganglia are situated far towards front. The statocysts
at their upper sides contain one statolith each.

At the sides of the broad mouth 2 pairs of well developed
labial palps are present. The oesophagus is of moderate length.
The cardiac portion of the stomach is produced on the left side
to a straight caecum; it is lined with a cuticule and receives one
liver duct on each side. Downwards it passes on the left side
into the pyloric sac lined with high ciliated epithelium. From the

TE

proximal portion to the right issues the intestine, which bends
directly down and passes slightly curving through heart to anus.

On the under sides of the foot retractors a pair of small pa-
pillae are visible; here the genital ducts open. The sexes are se-
parated and the gonads occupy the posterior part of the body hump.
In female individuals very large eggs are seen in follicles which
are formed as in Pseudokellya (cf. Pelseneer 1903).

The nephridia are comparatively small; they have long peri-
cardial tubes and long communication; for the remaining part their
outer sacs have smooth walls, and open opposite the genital pores,
in the corner between foot retractors and visceral hump.

Fam. Crassatellidae.

Crassatella aurora Adams & Angas.
(Pl. II, figs. 40, 41).

Northilsland: "2/01 valve 1225; 516 28-10 SES ps ER ERES
hæl uke another spe 116 BP TS, SON DIES PEST S RS
species was until now known only from the Australian continent
(Lamy 1917). I give a description and figures of the New Zea-
land form in order to fix its characters for a comparison with the
closely allied species (or varieties) C. carnea, banksi and bellula.

Shell elongate ovate-trigonal, anterior end a little shorter,
rounded, posterior end rounded subtruncate, dorsal margins straight,
beaks sharply pointed. Lunula and escutcheon distinct, narrow and
of equal length. Colour pale fawn with 2 broken rays of brown
diverging from the umbonal region to the under margin dividing
the surface into 3 subequal areas. Sculpture: strong, concentric,
rounded ribs over the whole shell coincident with the growth lines
in' the middle, more or less deflected at a diagonal line behind
the posterior colour ray, and then running obliquely to the growth
lines, which are somewhat raised in the hind part of the valve;
concentric sculpture evanescent close at the dorsal margins. Interior
light rosv, brighter towards the margins; under margin crenelate.
Anterior adductor scar pear-shaped, posterior one subcircular. Hinge:
left valve with a strong tooth 2 and a thinner 4b, as well as an
anterior and 2 posterior thin laterals; right valve with a strong 3b,
very thin Za and 5b and 2 anterior and 1 posterior indistinct laterals.

73

Lamy (1917) restores Lamarck's genus Crassatella which
had been rejected in favour of Crassatellites Kriger; the latter
name was used by Suter.

Concerning the animal it ought to be noted that the mantle edges
are, posteriorly above the ends of the gills, coalesced to form a
small anal opening; for the remaing part they are quite separated.
Beneath the anal foramen the mantle bears sparse and thin tent-
acles; in its front part, at the sides of the foot, its edges are con-
siderably thickened, no doubt containing mucous glands. There are
two pairs of gill plates at each side; the gill axes descend per-
fectly free without fusing to each other or to mantle. Both pairs
of lamellae are well developed, here and there joining by inter-
lamellary connections; otherwise they are entirely smooth. The foot
is laterally compressed and contains a long ventral byssus groove.
At the mouth two pairs of large labial palps are present.

Cyamiomactra problematica Bernard.

Stewart Island: 36a, some shells, 1. 4.5 (incl. var. truncata

Sutter):
Perrierina taxodonta Bernard.

Stewart Island: 36a, many shells, 1. 3.5.

Cuna delta (Tate & May).
North Island: 16, many valves, h. 2.5.

Fam. Carditidae.

Cardita calyculata (Linné).
North Island: 4, 3 sps., 1. 10. — South Island: 29, 6 sps., Il.
25. — Auckland Island: 41 (Masked Island), 1 sp., I. 21.

Venericardia purpurata (Deshayes) (-zaustralis Lamarck).

North Island: 11b, many sps., I. 23.5. — South Island: 29, 1
sp., 1. 35. — For the nomenclature of this species cf. Smith (1915).

Venericardia difficilis (Deshayes).
North Island: 4, 1 sp., I. 15. — 16, 3 sps. + 5 shells, 1. 20.
— South Island: 29, 6 valves, Il. 23.

74

Venericardia bollonsi Suter.

North Island: 10;3 valves, 1. 6.5. "18,73" valves, 1.771
25 lt spy ul 67 -=F Stewart Island: "S2Ælvalverm less:

The animal has its mantle margins open except for a point
behind, where a small projection from each side join each other
medially; to these projections are also loosely attached the ends
of the gills, which are simple, have well developed laminae, and
freely depending gill axes. The foot is large, much compressed,
with a digitiform prolongation in front, and with a median byssus
furrow all along its keel, except in the foremost end.

Venericardia lutea (Hutton) (-=zelandica Deshayes).

North Island: 16, many valves, I. 5. — 18, 2 sps., 1. 4.

Fam. Lucinidae.

Loripes concinna Hutton.
Northølsland: "16/-many sps; it 87 == sr evalve ter

Divaricella cumingi (Adams & Angas).

North Island: 4, 1 valve, I. 10. — 10, 1 valve, I. 19.5. —
I6ÆSEvalves 12418; "1 small sp: 2574 Svalvesmlseker

Fam. Diplodontidae.

Diplodonta globularis (Lamarck).
Stewart Island: 33, 6 valves, 1. 26. — 36a, 1 shell, 1. 6,5.

Diplodonta striata Hutton.

North Island:—10,. 2 valves, I. 22. — 16,3" valves, "smal
254 many valves elm os Southelsland: 5 Es ps OS

Diplodonta zelandica (Gray).
Northølslande tel kyalve st TEN s ps ES REE
2 valves, I. 18. — 23, 1 sp., I. 8.5. — Stewart Island: 36a, søme
SPSSElLES:

To

Fam. Thyasiridae.

Thyasira flexuosa (Montagu).
Auckland Island: 37a, some sps., I. 4.7. — 42; 1- sp., I. 4. —
ABER Sp RE 73:

Fam. Erycinidae.

Erycina bifurca (Webster).
Stewart Island: 36a, 1 small sp.

Erycina parva (Deshayes).

Nøortbllstand TORS malls pt 2 GE sps ES 2 —=TAuck-
land Island: 37a, some sps., I. 3.4. -—— In this species the mantle
is entirely open, without sutures and siphons, the posterior gill is
small and consists of the descending lamella only, which is directed
forward. Its edge is fused to the mantle all along, and the upper
half is coalesced with the direct lamella of the anterior gill. Both
gills were full of fry; the posterior brood-pouch is the space be-
tween mantle and the single lamella of the posteror gill, and it
extends far beyond the gill posteriorly.

Neolepton antipodum (Filhol).
North Island: 2, 2 small sps., the largest of a yellowish colour
with brown fulgurations. — Auckland Island: 40, 2 small sps. —
43, numerous sps., I. 3. — Campbell Island: 45, 5 sps., I. 3.

Neolepton citrinum (Hutton).
Auckland Island: 37a, 3 spsrmles:

Neolepton sanguineum (Hutton).

Stewart Island: 36a, many sps., Il. 3.

The genus Neolepton was established by Monterosato in
1875 on Lepton sulcatulum Jeffreys (1859) and some allied spe-
cies as a subgenus of Lepton. It is, however, quite distinct, as will
be shown by a comparison of the animals of Lepton squamosum
(Forbes & Hanley 1853, pl. O, fig. 6) and of the present species.

Bernard (1897) includes in the synonymy of this genus Lu-
tetina Munier-Chalmas & Vélain 1876.

76

The animal of Neolepton sanguineum has its mantle margins
open in front and ventrally, but coalesced posteriorly to form one
branchial and one anal slit both with slightly elevated and densely
papillate margins which are tinged with red.

The foot has a long cylindrical sole and shortly projecting hind
and front ends. There is no byssal groove.

At each side two demibranchs are present, but the external
(here posterior) one is much reduced in size and consists chiefly
of the reflected lamella. This is combined with the direct one by
means of a few interlamellary junctions. The inner (here anterior)
demibranch has both its lamellae well developed, and has no in-
terlamellary connections. Both gills are entirely smooth and have
their filaments directed from behind towards front.

Montacuta unidentata n. sp.
(Pl. II, figs. 48—51.)

Shell small, rather solid, elongate-ovate, white, finely concen-
trically striated. Umbones broadly rounded. Anterior end much
longer than (about twice) the posterior one, frontal margin rounded,
posterior one subtruncate, antero-dorsal margin straight, basal mar-
gin faintly curved. Lunula obsolete, very narrow, most distinct in
the left valve. Interior white, smooth, margins simple. Hinge-line
narrow, that of the right valve sharply edged but strengthened
inside by means of a ridge (=inner margin of hinge plate); no lateral
teeth, except a single strong cardinal-like one of a broadly trian-
gular shape, in front of the deep, rounded trigonal ligamental pit;
left valve with a short anterior and a posterior lamella fitting inside
the right edge, the former gradually rising to an elongate lateral
tooth. Resilium short. Adductor scars ovate, the anterior more
narrow and elongate than the posterior one. Pallial line simple.
Dimensions: L. 2.8, h. 2, crass. 1.4 mm. — Locality: Stewart Is-
Island: 36a, numerous valves.

Suter (1913) described a Moniacuta triquetra from Port Pe-
gasus, which differs essentially in its shape, being more triangularly
elevated.

TEN

Montacuta tellinula n. sp.
(BIS os ES 2ÆSS text hes 20) 21)

Shell øvate, thin, compressed, covered with a thin, light yel-
lowish-brown cuticula; umbones small, papilliform, smooth, behind
the middle. Sculpture: close concentric, somewhat irregular striae.
Colour grayish-white with fine white stripes radiating over the
whole shell. Interior smooth, white
with the radiating stripes shining
through; margins smooth, thin.
Mantle line entire; adductor scars
subequal, (the anterior a little long-
er), ovate. Hinge with one large
projecting (lateral) tooth in each Fig Hinge of
valve, the left one crest-like, and Montacuta tellinula n. sp.
an indistinct knob-like = posterior
lateral behind the perpendicular ligament lodged in a deep hole
under the umbones. Dimensions: L. 5.2, -h. 4.2, crass. 1.9 mm.
— Locality: North Island: 5, several sps.

The animal (text-fig. 21) has a long pedal slit of the mantle,
behind that a long suture and then a single opening without si-
phons. Here in the posterior end the mantle edges are finely
scalloped by very small distant papillae. There are 2 gills on each
side extending far upwards
to behind the ligament, the
posterior (outer) one with
a much reduced direct la-
mella; they are smooth and

united in their lower ends,
which are, further, fused
with the mantle. The inner
(anterior) gill has its re-
flected lamella nearly as
high as the direct one and
for the greater part connec-
ted with it. The foot is large,
Fig. 21. Anatomy of Montacuta tellinula nm. sp. compressed, and has a well

g gill axis: h heart; I opening of liver duct into developed byssus groove.
stomach; n nephridium; r ligament; s suture of

mantle margins. The heart lies in the up-

78

permost end of the pericard a little behind the ligament. The neph-
ridia have their outer sacs dilated along the sides of the pericard.

Rochefortia reniformis Suter.
Northulsland ENE PES ps ELSE 17 MES pE S ENDS
many sps:, 16. — 23,12-sps., 1. 6: -—28, 1 "sp:,1.7.—RAueke
landelslande 43 valvermles:

Fam. Kellyidae.

Kellya suborbicularis (Montagu).
North Island: 2, 1 sp., I. 8. -— 24, 1 shell, 1. 6.2. — South
Istandsrso sy RA spS SETS

Fam. Lasæidæ.”)

Lasaea minutissima (lredale).
(L. miliaris Suter, non Philippi).

Stewart Island: 33, en masse, 1. 3. — Auckland Island: 37, en
masse, Il. 3.5. — 38, many sps., I. 3.5. — Campbell Island: 44, some
spsytly3 Oliver (923) maintains the"identity For mars Ko
Suter and Modiolarca minutissima of Iredale as well as the
specific distinctness from L. miliaris of Philippi.

Fam. Galeommatidae.

Spaniorinus zelandicus n. sp.
(DBIMITSHossSs4 ES SE Bert frøs RØD NESS)

Shell small, elongate-ovate, thin, a little shining, slightly gaping
in front, inflated in the median part; umbones papillate, submedian;
anterior half produced, rounded, posterior one a little higher, trunc-
ately rounded at the end; under margin faintly convex, almost
straight in the middle. Colour white; a very thin yellowish cuticula
present. Sculpture consisting of fine lines of growth only. Interior
white with smooth and sharp margins; anterior adductor scar elon-

ly OC. Cossmann& Peyrot 1911.

79

gated with acuminate upper end, posterior one a little lower si-
tuated, rounded. Hinge with a single cardinal tooth in each valve,
that of the right valve hook-like, the left one broadly triangular.
Ligament internal in a long oblique groove.

The animal (text-fig. 23) has thin mantle edges which are, as
a very narrow brim, reflected upon the shell
margin. The mantle edges are open in front
and backwards to about the middle of the shell;
for the greater part of this distance the edges
are smooth, but above the pedal opening they

: £ 2 Fig. 22. Hinge of
are furnished with small scattered papillae. sSpaniorinus zelandicus n. sp.

Behind the foot a long suture follows, which

occupies the whole posterior end of the animal. It is pierced by
a single perforation; the small and narrow anal siphon, which has
only slightly raised margins. Along the posterior margins of the
mantle numerous small
tentacles extend as far as
above the adductor. There
are two gill plates on each
side coalesced in their low-
er ends with each other
and the mantle. They ex-
tend far dorsally behind
the umbones. They are

Fig. 23. Anatomy of Spaniorinus zelandicus n. sp. smooth, ande BASERE
b byssus groove; c coalescing point of the mantle well developed reflected

margiis; m gta r ligament; frndle The posterior
3 (external) gill is the nar-

rower one, and its reflected lamella extends beyond the gill axis
behind; here it is covered by a lappet of the mantle, produced
by the tentacular muscles, which are unusually strongly developed
at this point. The labial palps are large, triangular, and distinctly
furrowed. The foot is very large, compressed, and has a byssus
groove posteriorly.

Dimensions: 6770.3:8; 'crass: 2 mm.

Localities: North Island: 16, 1 right valve, I. 5. — Auckland
Island:43,. 1"sp;,- 16.

This family and genus were not hitherto represented in the

80

New Zealand faunistical literature. Spaniorinus is nearly akin to
Solecardia Conrad (-Scintila Deshayes) in shape, the long
postpedal suture, the small anal siphon and the papillated mantle
margins. But it differs essentially in its hinge, which entirely
lacks lateral teeth and often, as in the present species, also the
small cardinals (3a, 4b), which are present in other species of
Spaniorinus. According to Cossmann & Peyrot (1911), the
genus has a geological range from the Eocene to the Miocene
epoch.

Fam. Unionidae.

Diplodon menziesi (Gray).

North Island: Lake Takapuna, Auckland, at the shore, 25/12
FO ÆSES PS STS:

Fam. Tellinidae.

Tellina deltoidalis Lamarck.

North Island: 10, 1 sp.; 1 20: — 17,2 sps: 1 20 Napier
inner harbour, muddy sand, 29/1 1915, some sps., Il. 46. Ire-
dale (1915) proposes a new name, /iliana, for this species, which
is said to be distinct from the Australian T. deltoidalis of Lamarck;
but which are the differences?

Tellina eugonia Suter.
OM Bard"Island/”35-fms;"mud; 17/72 TOT ÆSSIES pREIN2 0:

Tellina huttoni Smith.

North Island: 16, 1 valve, 1. 11.5. — 25, many sps., Il. 17. —
South Island: 29, 1 sp., I. 12.5. — Stewart Island: 32, 1 sp., I. 10.5.

Tellina disculus Deshayes.
Southilsland 29) Sp EØS:

Tellina glabrella Deshayes.
Auckland Island: 42, many sps., Il. 12.

81

Leptomya lintea (Hutton).

North Island: 10,1 'sp.,… 1. 15. — South Island: 29, 3 sps.,
Il. 19. — Auckland Island: 39, 5 sps., I. 14. — 41, (Masked Is-
land) bes pi ISS KFS ÆT SSP EO:

Fam. Amphidesmatidae.
Amphidesma gaimardi (Deshayes)
(«Mesodesma subtriangulatum Gray, by Suter).

North Island: 17, many sps., 1. 39. — Hokianga, the coast, in
sand, 6/1 1915, many sps., Il. 37.

Amphidesma (Mesodesma) australe (Gmelin).
North Island: 12, en masse, I. 45 (var. aucklandicum v. Martens).

— South Island: 30, 2 sps. — Stewart Island: 31, many valves,
l. 57. — 33, 1 sp., I. 30. — Auckland Island: 39, en masse, Il. 83
(var. aucklandicum). — 42, 4 valves, 1. 50.

Fam. Mactridae.
Mactra scalpellum Reeve.

North Island: 16, many valves, 1. 18.5. — 25, many sps., I. 19.

Mactra discors Gray.
North Island: 25, many valves, 1. 18.5.

Spisula ordinaria (Smith).
North Island: 25, 9 sps., I. 14.

Spisula aequilateralis (Deshayes).
North Island: "5 1 valve; 156.

Zenatia acinaces (Quoy & Gaimard).
Northelstand:s13;7 sp, 157:

Vidensk. Medd. fra Dansk naturhist. Foren. Bd. 77. 6

82

Fam. Veneridae.

Dosinia subrosea (Gray).
Northslsland ll be smallesp RIS ESE SPS TESS 0"

Macrocallista multistriata (Sowerby).
Norfhklslande IO P Sp ERIE EGE Mm any ps SENSE SR
South Island: 29, 1 sp., 1. 22.5. — Stewart Island: 35, 3 sps., 1.35:

Antigona zelandica (Gray) (=Cytherea oblonga Hanley).

North Island: 16, 1 valve, I. 7. — South Island: 29, 3 sps.,
1. 63" — Stewart Island: 32, many valves, 1. 18.

k Chione stutchburyi Wood.
North Island: 8, 4 sps., I. 35. — 12, many sps., I. 43. — 15,
Pl sps 120: 1751 spr, 112..—25 LL valvet El OSSE Napier
inner harbour, muddy sand, low water, 29/1 1915, some sps., I.
21. — South Island: 29, 1 sp., 1. 30. — Stewart Island: 31, many
sps., I. 47. — Auckland Island: 37, many sps., I. 55. — 39, many
spselee 0-72 manyesps relse:

Chione spissa (Deshayes) (=crassa Quoy & Gaimard).

Auckland Island: "373, 1 sp, 117 SS RÆS EEMmany sps Es
43, north arm of Carnley Harbour, 35 fms, mud, 30/11 1914,
læspæles 0

Chione mesodesma (Quoy & Gaimard).

North Island: 5, 1 valve, 1. 23. — 11a, some valves, 1. 23. —
INbIEGES ps) FÆLG 16 many ”sps) LES SS] ÆEEES pe 0)
22, 2 old valves. — South Island: 29, many sps., 1. 26. — Ste-

wart Island: 36a, some small sps.

Paphia intermedia (Quoy & Gaimard).

South Island: 29, 2 sps., I. 42. — 30, 5 sps., I. 14. — Stewart
Island: 31, 3 sps., 1. 41. — Auckland Island: 37a, 3 valves, Il. 35.
—. 39, 5 sps., I. 62. — 40, many sps., I. 58. — 41 (Masked” Is-
land), 4 sps., I. 44. — 41 (Figure 8 Island), 1 sp., 1. 29. — 742;
2 sps., I. 63. — Campbell Island: 44, 1 sp., I. 50.

83

Protothaca crassicosta (Deshayes)
(=Paphia costata Quoy & Gaimard).
Nornthælslandeselssesevalves telse oss ps fo
Sotthilslandes30 2 sp 2

Venerupis reflexa Gray.
Norfhilsland:FØ23NEEspØE IIS 2605 ES ps 127. =Z28: 9
spsæals25.
Venerupis siliqua Deshayes.
Northalsland F2SANSESpS ENNS TF South Island: F29 2 spss,
lÆ32:

Fam. Cardiidae.

Cardium (Protocardia) pulchellum Gray.

Norsthelsland: Es SUE == 10 SE sSps, MIT. SET,
ManyÆæS PS RIIS RØSEE Spy EN OM SE Some valvest br20:
—— South Island: 29, 4 sps., 1. 22.5. — Stewart Island: 33, 1
valve, I. 18. — Campbell Island: 1 sp., I. 22.

Fam. Garidae.

Gari (Psammobia) lineolata (Gray).

North Island: 16, I valve, I. 23. — 25, many sps:, I. 36. —
Stewart Island: 36a, 3 valves, 1. 82.

Gari (Psammobia) stangeri (Gray).
North Island: 8, I sp., I. 64. -—— South Island: 29, many val-
vestlesoed— 1 sp.,…1.20.

Gari (Psammobia) zelandica (Deshayes).
Nostbilstndst0NelEsbelb eet SEND 2 sp 2 SS
SfewartElsland:k3Ss mm valve sl 30!

Soletellina nitida (Gray).
Norfh Island:—16, I valve, 1:45.

62

84

Fam. Corbulidae.

Corbula zelandica Quoy & Gaimard.

NorthEIslands MOM many ss LET SSRI SES NS ps SEERE
USERS SEE ED SEE ES PRS, ==
2302 spsyl ll SE South stand 20 Mm anyes ps SEER ASE SAtekE
land Island: 41 (Masked Island), 5 sps., I. 12.

Fam. Såxicavidae.

Saxicaraortcalt inde)
North Island: 4, 2 sps., I. 10.5. — 9, some sps., 1. 19: 55510);

BESPS EIN 7 ÆT sp, 16 EL 16 many as ps SEES RE RTR
spsum lee re valve "ILTES —R2S ME many SPS sl
off" Bare Island "35" fms"eclayish mm ud 1 7/M PSO MES EOS
== Southelsland: 2976 sps., N21)--"Sstewart Island 35 Sp 8

1. 11. — Auckland Island: 41 (Masked Island), 1 sp., I. 13. —
43, 4 sps., I. 9. — Campbell Island: 45, many sps., I. 5.5.

Fam. Pholadidae.

Pholadidea spathulata (Sowerby).
Northelstandemlildemspreles 0

Pholadidea tridens (Gray).
NorthælslandkelrælespsEle2 2:

Barnea similis (Gray).
North Island: 28, numerous sps., Il. 80.

Fam. Thraciidae.

Thracia transenna Suter.
North Island: 19, 1 sp., Il. 16:

Thracia vitrea (Hutton).

North Island: 25, 1 valve, 1. 22. — Auckland Island: 43752
SPS GS FRAMES DSE] 85:

É

85

Fam. Periplomidae.

Cochlodesma angasi (Crosse & Fischer).
Stewart Island: 33, 1 valve, 1. 57.

Fam. Myochamidae.

Myodora antipodum Smith.
North Island: 16, many valves, Il. 6.

Myodora novae-zealandiae Smith.
North Island: 16, many valves, Il. 5.5.

Myodora pandoriformis (Stutchbury).
Northelsland: Fe valverteos

Myodora striata (Quoy & Gaimard).

North Island: 25, 1 valve, I. 18. — South Island: 29, 4 sp
34.

Fam. Cleidothaeridae.

Cleidothaerus (Chamostrea) albidus (Lamarck).
North Island: 24, 2 sps., h. 60.

Fam. Verticordiidae.

Verticordia setosa Hedley.
Northalskand:Fr683valves 45

Fam. Cuspidariidae.

Cuspidaria fairchildi Suter.
NorthElsland: 18 ME shell IEL

Cuspidaria trailli (Hutton).
North Island: 16, 1 sp., 1. 21, + 1 valve.

S

3

==)

Addenda.

Bouvieria ornata (Cheeseman), p. 51.

Suter refers this species to Berthella evidently on account of
its smooth-edged jaw-elements. Like Berthella, too, it has a rela-
tively small shell. But the radula characters undoubtedly place
it in Bouvieria. Externally it differs from B. aurantiaca and all
Berthellas in the position of anus somewhat in front of the post-
erior end of the gill mesenterivm.

Bergh (1902) certainly had another species at hand, when
he described a specimen from Rarotonga, designated as Pleurobranchus
ornatus Cheeseman, since it differed in serrated jaw-elements.

Marinula parva (Swainson), p. 55, var. striata n.

The present specimens differ from the typical M. parva (from
Tasmania) in being regularly striated spirally, at least in their
upper whorls. This character being exceptional within the genus,
the form in question de-
serves to be recognized as FUE
a separate variety striata É ]
(text-fig. 24).

SinterHllolS)Ekoives
some particulars of the ra-
dula of M. parva. They
may be completed by the
following facts concerning
the present form: Length
and breadth of radula, 0.95 Fig. 24. Marinula parva Swainson, var. striata n.

2 Auckiand Isl., X 6, with teeth from its radula
and 0.36 mm TESpP., Series (median, two laterals, one marginal). X 2300.
of teeth 138; teeth in one
series 270. Median tooth with a small simple cusp; laterals 1—
109 with an entocone; 110—114 with an additional ectocone;
subsequent (marginal) teeth, by addition of ectocones with 4 den-
ticles, and outermost ones with 5. All teeth extremely small:
laterals little more than 1 w in breadth (text-fig. 24).

130

List of Works quoted.

Ashby, E., Further Notes on Australian Polyplacophora etc. Trans. Roy.
Soc. S. Australia, XLIV, 1920.
== Descr. of B. Wilson coll. of Victorian Chitons etc. Proc. Roy.
Soc. Victoria, XXXIII, 1921.
= Notes on Australian Polyplacophora etc. Trans. Roy. Soc. S. Au-
stralia, XLVI, 1922.
— Monogr. on the Australian Lepidopleuridae. Ibidem, XLVII, 1923(a).
— Notes on the genus Stenochiton etc. Proc. Malac. Soc., 25,
1923 (b).
Bergh, R., Malacologische Untersuchungen. Semper, Reisen im Arch. d.
Philippinen. Bd. 7, 4:4, 1902.
Bernard, F., Sur quelques coquilles de Lam. de Pile Stewart. Bull. Mus.
Paris, 3, 1897.
—= Recherches ontog. et morphol. sur la coquille des Lamelli-
branches. Ann. Sci. Nat. Zool. 1898.
Colosi, G., Osservazione anat.-istol. sulla Runcina calaritana n. sp. Mem.
RFAccad:"Ssers korino) Ser 1166-1975:
Connolly, M., Notes on S. African Moll. II The genus Marinula King, etc.
Ann. S. Afr. Mus. XIII, 1915.
Cossmann, M., & Peyrot, Conchol. néogén. de PAquitaine. Actes Soc.
Linn. Bordeaux, 65, 1911.
Dall, W. H., Contrib. to the Tertiary Fauna of Florida, etc. Part V. Trans.
Wagner Inst. III, 1900.
Eales, Nellie B., Anatomy of Gastropoda etc. British Antarctic (,,Terra
Nova") Exp. 1910, Zool. VII, No. 1, 1923.
Eliot, Ch., Nudibranchs from New Zealand and the Falkland Islands. Proc.
Malac. Soc. VII, No. 6, 1907.
Hågg, R., Interglaziale und Postglaziale Meeresmoll. aus Feuerland und Sutd-
Patagonien etc. Arkiv f. Zool. (K. Sv. Vet. Akad.) Bd. 7, Stock-
holm 1910.
Hedley, Ch., Studies on Australian Mollusca. P. Il. Proc. Lin. Soc. N.S.
WEEXXV; 1900:
= The Moll. of Mast Head Reef, Capricorn Group, Queensland,
Il. Ibidem, XXXI, 1907.
— Moll. from the Hope Island, North Queensland. Ibidem, XXXIV,
1909.
— Mollusca. Australasian Antarctic Exp. 1911—14. Ser. C. Zool.
and Bot. IV, 1. 1916.

88

Hedley, Ch., A Revision of the Australian Turridae. Rec. Austral. Mus.
KITE O22:
Iredale, Tom, Å Commentary on Suter's ,,Manual of the New Zealand
Mollusca". Trans. N. Z. Inst., XLVII, 1915.
Lamy, E., Révision des Crassatellidæ vivants du Mus. d”Hist. Nat. Paris.
Journ=Conch.62, 1917:
Lang, A., Lehrbuch d. Vergl. Anatomie d. wirbellosen Thiere. Mollusca v.
K.Hescheler.… 1900.
Marshall, P., in Marshall & Biowne, The Geology of Campbell Is-
land and the Snares. Chilton, Subantarctic Islands of N. Zea-
land 2. 1909.
Mazzarelli. G., Monogr. delle Aplysiidae del Golfo di Napoli. Mem. Soc.
Ital: Sci. (3a), IX, No:'4 1893 (a)
— Ric. sulle Peltidae del Golfo di Napoli. Atti R. Accad. Sci. Na-
poli, VI, No. 4, 1893 (b).
Mestayer,:M. K., New Species of Mollusca from various dredgings taken
off the Coast of N. Zealand etc. Trans. N. Z. Inst. 51, 1919.
— Notes on New Zealand Mollusca, No. 2. Ibidem., 53, 1921.
Murdoch, R., Additions to the Marine Mollusca of New Zealand. Trans.
NÆæZSInsts sr 905:
Murdoch R., & Suter, H., Results of Dredging on the Continental Shelf
of New Zealand. Trans. N. Z. Inst. 38, 1906.
Odhner, N. Hj., On the Anatomical Characteristics of some British Pisidia.
Proc=MalnSocelsSæi1o23:
Oliver, W. R. B., Notes on New Zealand Pelecypods. Proc. Malac. Soc.
London, XV, 1923.
Pelseneer, P., Mollusques, Rés. du Voyage du S. Y. Belgica. Zool. 1903.
Smith, E. A., Gastropoda Prosobranchia, Scaphopoda and Pelecypoda. British
Antarctic ("Terra Nova”) Exp., Zool. II, No. 4, 1915.
Suter, H., Additions to the Marine Moll. Fauna of New Zealand etc. Proc.
Malac. Soc. London 8, 1908.
— Manual of the New Zealand Mollusca. Wellington 1913. (Atlas
of Plates 1915).
Tate, R, & May, W. L., Å revised Census of the Marine Moll. of Tasmania.
PÆEmnæSsoceNESAVSBSÆV IE O IE
Thiele, J., Die Antarktischen Schnecken und Muscheln. Deutsche Siid-
polar-Exp. 1901—03. XIII Bd., Zool. V. Bd. Berlin 1912.
Vayssiére, A., Recherches anat. sur les genres Pelta et Tylodina. Ann.
Sci. Nat. Zool. 15, Paris 1883.

Explanation of the Plates.

Plate Ii.

Fig. 1. Lepidopleurus inquinatus Reeve, half of a median valve. Camp-
bell Island. X 10.

Fig. 2. The same, Stewart Island. X 10.

Fig. 73. Gibbula mortenseni n. sp. X 5.5.

Fig. 4. Calliostoma onustum n.sp. X 6.

Figs. 5—8. Rissoa achatina n. sp., different colour variations. X 8.5.

Fig. 9. The same, opereulum. X 20.

FiosHl 0 "TIR Sssoa semen ny sp <<" 20!

Fig. 12. Rissoa erosa n. sp. X 20.

HremISSErhEel same "operculum FS < 20!

Fig. 14. Rissoa cylindrella n. sp. X 20.

Fig. 15. Cerithium invaricosum n. sp. X 3.

Fig. 16. Cerithiopsis dirempta n. sp. X 15.

Fig. 17. Cerithiopsis trizonalis n. sp. X 15.

FisMISNÆSeila"dissimilis" Sutter —<112:

Fig 19" Caecum suteri n. sp: X 20:

Fig. 20. Lamellaria verrucosa n. sp. Nat. size.

Fig. 21. The same, from below. Nat. size.

Fig. 22. The same, shell, somewhat enlarged.

Fig. 23. Turbonilla campbellica n. sp. X 6.

Fig. 24. Mitra mortenseni n. sp. X 3.

Fig. 25... Prosipho chariessa Suter. X 10.

Fig. 26. Trophon mortenseni n. sp. X 4.

Eief27ÆMIhel same opercuum>< 10:

Fig 28. Marginella coma n. sp. X 6.

Fig. 29. Heterocithara mediocris n. sp. X 10.

Fig. 30. Runcinella zelandica n. sp., from the right. X 25.

Fig. 31. The same, anterior end from below. X 25.

ElenyS2NE Ther same” from "above" ><"25:

Fig. 33. Alloiodoris lanuginata Abraham, from above. X 1.5.

FisnSTR The same from"below: —><11.5:

FigN353Cuthona zelandica n. sp XX 4.5:

Plate Il.

Figs. 36—38. Chlamys campbellicus n. sp. X 1.5.
Elen SONE Ther same sculpture: 15479:

Fig. 40.
Fig. 41.
Fig. 42.
Fig. 43.
Fig. 44.
Fig. 45.
Fig. 46.
Fie47:

90

Crassatella aurora Adams & Angas, from exterior.
The same, from interior, another valve. X 2.5.
Kidderia campbellica n. sp., left valve, from exterior.
The same, right valve from interior. X 4.

The same, dorsal view. X 4.

Kidderia costata n. sp., left valve from exterior. X 10.
The same, right valve from interior. X 10.

The same, hinge of left valve.

Figs. 488—51. Montacuta unidentata n. sp. X 10.
Figs. 52—53. Montacuta tellinula n. sp. X 6.
Figs. 54—55. Spaniorinus zelandicus n. sp. X 5.

Fig. 56.
Fig+57.
Fig. 58.
Fig. 59.
Fig. 60.

Anatomy of Kidderia campbellica n. sp.
Anatomy of Neogaimardia rostellata Tate.
Fossarus ovatus n. sp. X 12.

Fossarus conicus n. sp. X 12.

Fossarus productus n. sp. X 12.

Figs. 61—62. Fossarus hyalinus n. sp. X 12.

a opening of liver duct into stomach; b byssus gland; c cerebral gang-
lion; eé embryo in the gill; f pedal ganglion; g gonad; I liver; L ligament;
m pedal gland; m nephridium; p pericard; r margin of reflected lamella of
the inner gill; s4 pedal slit; s411 branchial slit; s111 anal slit; £ tentacle;

v visceral ganglion.

AOA

Papers from Dr. Th. Mortensen's Pacific Expedition
1914—16.

. XX.
Echinoderms of New Zealand and the Auckland-
Campbell Islands.

IL. Ophiuroidea.
By
Dr. Th. Mortensen.
(With Pls. III—IV.)

The first Ophiuroid known from New Zealand was Pectinura
maculata, described by Verrill”) in 1869 under the name of Ophi-
arachna maculata. In Hutton's "Catalogue of the Echinodermata
of New Zealand” (1872) in. all 5 species are mentioned, viz.

Ophiothrix coerulea n. sp.
Ophionereis fasciata n. sp.
Ophiactis nigrescens n. sp.
Ophiura maculata Verrill
Ophiura cylindrica n. sp.

KoRtbiskls RE nr rovkaddskink STS) oner moretnewspeciese
Amphiura parva. In 1877 E. A. Smith”) added another Ophiurid
to the New Zealand fauna, viz. Ophiopteris antipodum, representing
a new generic type.

Not counting a few deep-sea forms, dredged by.the "Challenger"
and the "Gazelle" off New Zealand, all additions to the New Zea-

1) A.E.Verrill. On new and imperfectly known Echinoderms and Corals.
Proc. Boston Soc. Nat. Hist. Vol. XII. p. 388.

2) F. W. Hutton. Notes on some New Zealand Echinodermata, with de-
scriptions of new species. Trans. N. Z. Inst. XI, p. 305.

3) E. A. Smith. Description of a new form of Ophiuridae from New Zea-
land. Ann. Mag. Nat: Hist. 4. Ser. XIX. p 305.

92

land Ophiuroid fauna for the next nearly 30 years are due solely
to the efforts of H. Farquhar; who in a series of papers, pub-
lished mainly in the Transactions of the N. Z. Institute, describes
several species new to science from New Zealand waters, corrects
former identifications of New Zealand species, records species hith-
erto not found in New Zealand waters or rejects species wrongly
included in the New Zealand fauna.

In 1894 he describes Amphiura rosea n. sp. from Wellington
Harbour. In 1895 Ophiomyxa australis Ltk. is recorded from New
Zealand, and Hutton's Ophionereis fasciata is declared identical
with the Australian Ophionereis Schayeri M. & Tr., while Ophiothrix
coerulea Hutton is rejected from the New Zealand fauna, being from
Eyieln 18978) Farquhar describes the new species Amphiura
pusilla, and Amphiura elegans (-= Amphipholis squamata) is recorded
from New Zealand. His next paper, 1898,7) contains only the data
up to that time, giving no new additions to the New Zealand
Ophiuroid fauna. Next follow the descriptions of these new species:
Ophioplocus Huttoni (1899), Ophiocreas constrictus (1900), Amphiura
aster (1901), Ophiactis nomentis (1907), Ophiocoma bollonsi (1908)
and finally Amphiura arenaria (1913).

In 1907 Koehler described in his "Revision de la collection
des Ophiures du Muséum d'histoire naturelle de Paris” ”) an Oph-
iurid, Amphiura præfecta, from Campbell Island and another, Am-
phiura basilica, from East Cape, New Zealand, both of them brought
home by M. Filhol, from the Transit of Venus-Expedition in 1874,
but which had remained undescribed till then. — The Trawling Ex-
pedition of the New Zealand Government, 1907, brought to light
two more Ophiurids new to science, viz. Astrotoma-Waitei and Am-
phiura noræ, described by Benham in 1909;") no other forms
were added by this expedition to the New Zealand Ophiuroid fauna.

1) H. Farquhar. AÅA contribution to the history of New Zealand Echino-
derms. Journ. Linn. Soc. London. Zoology. XXVI. p. 186—198.

2) H. Farquhar. On the Echinoderm Fauna of New Zealand. Proc. Linn.
Soc. N.S. Wales. 1898.

3) Bull. sc. de la France et de la Belgique. XLI.

1) Scientific Results of the New Zealand Government Trawling Expedition
1907. Echinoderma, by W. B. Benham. Rec. Canterbury Mus. Vol. I.
No. 2. 1909.

93

… The same holds good of the Expedition to the Subantarctic Islands
in 1907, which found only one species of Ophiurids, in Carnley
Harbour, Auckland Islands. In his report on the Echinoderms of
this expedition Benham"Y lists this species as Amphiura squamata,
proving at the same time Hutton's Amphiura parva to be only
a synonym of this species.

A few more additions to the Ophiuroid fauna of New Zealand
are found in H. L. Clark's "Catalogue of Recent Ophiurans”
1905,7) viz. Ophiocormus notabilis and Ophiozonoida picta, both col-
lected by Farquhar; further the New Zealand Ophiomyxa is de-
scribed as a new species, O. brevirima. — Lastly F. Jeffrey Bell
in 1917 in his Report on the Echinoderms of the British Antarctic
("Terra Nova”) Expedition adds four new Ophiuroids to the New
Zealand Fauna, viz. Ophiothrix sp., Astroporpa Wilsoni, Astroschema
elegans and Astrotoma benhami, all dredged off the North of New
Zealand, the three latter being new to science.

In the present paper 9 new species and 3 new varieties are
described, namely:

Ophiocreas longipes

Gorgonocephalus chilensis, var. movæ-zelandiæ
Ophiacantha vilis

Amphiura spinipes

Fa alba

mn hinemoæ

z amokuræ

i annulifera

få eugeniæ, var. latisquama

Ophionephthys stewartensis
Ophiactis profundi, var. novæ-zelandiæ
Pectinura gracilis

Two more species, Astroschema sp. and Amphiura sp. are pro-
bably new, but are too young to be identified with certainty.

The following 5 species are recorded as new to the New Zea-
land fauna:

1) The Subantarctic Islands of New Zealand. 1909. Art. XIII. W. B. Ben-
ham. The Echinoderms, other than Holothurians, of the Subantarctic
Islands of New Zealand.

2) Mem. Mus. Comp. Zool. Harvard College. Vol. XXV. 1915.

94

Ophiothrix oliveri Benham

Å aristulata Lyman
Ophiactis hirta Lyman
Amphiura magellanica Ljungman
Amphiocnida pilosa (Lyman)

Further it is proved that Hutton's Ophionereis fasciata is a
valid species, not identical with the Australian Ophionereis Schayeri,
while, on the other hand, .Ophiactis nomentis Farquhar is identical
with the Australian Ophiactis resiliens Lyman. Also Farquhar's
Amphiura arenaria is shown to be identic with his Amphiura aster.
Finally Hutton's Ophiactis nigrescens is rejected from the New
Zealand fauna, the examination of the type having led to the re-
sult that it is a specimen of Ophiocoma schoenleini M. & Tr. from
the Fiji Islands.

The following is then a corrected list of the New Zealand Ophi-
uroids, not including those from the Kermadec Islands and from the
Deep-sea off New Zealand.

Ophiocreas constrictum Farquhar
y longipes nm. sp.
Åstrotoma Waitei Benham
g Benhami F. Jeffr. Bell
Astroporpa Wilsoni F. Jeffr. Bell
Astroceras elegans (F. Jeffr. Bell) (= Astroschema elegans
FJ etræBel)
7. Astroschema sp.
8. Gorgonocephalus chilensis, var. novæ-zelandiæ, n. var.
9. Ophiomyxa brevirima H. L. Clark (nom — Ophiomyxa austra-
list Etko)
10. Ophiacantha vilis n. sp.
11. Ophiothrix aristulata Lyman
i Rn Oliveri Benham
( E coerulea Hutton not New Zealand)
13. Ophiocormus notabilis H. L. Clark
14. Ophiocoma Bollonsi Farquhar
15. Ophiopteris antipodum E. A. Smith
16. Ophiactis resiliens Lyman (= Ophiactis nomentis Farquhar)
ie & hirta Lyman

SD SME SNE

95

18. Ophiactis profundi, var. novæ zelandiæ n. var.
(Ophiactis nigrescens Hutton not New Zealand, = Ophiocoma
schoenleini M. & Tr.)

19. Amphiura magellanica Ljungman

20)! A spinipes n. sp.

il 5 præfecta Koehler

BØ: 5 aster Farquhar (== Amphiura arenaria Farquhar)
25: 3 noræ Benham

24. 5 rosea Farquhar

BEE g eugeniæ, var. latisquama n. var.
26. å amokuræ n. sp.

PME Å alba n. sp.

28. i hinemoæ n. sp.

29. É annulifera n. sp.

30. y pusilia Farquhar

Silg Sp.

32. Amphiocnida pilosa (Lyman)

33. Amphioplus basilicus (Koehler)

34. Ophionephthys stewartensis n. sp.

35. Amphipholis squamata (D. Ch.) (= Amphiura parva Hutton)

36. Ophionereis fasciata Hutton (non — Ophionereis Schayeri M.
SØRRE)

37. Ophiozonoida picta H. L. Clark

38. Ophioplocus Huttoni Farquhar

39. Pectinura cylindrica (Hutton)

40. dÅ gracilis n. sp.

41. i maculata (VerrilD

As the number of species of Ophiurids recorded in the fIn-
dex Faunæ Novæ Zelandiæ” (1904) is 36, the present list, numb-
ering 41 species, would appear to represent a small progress only
in our knowledge of the New Zealand Ophiurid fauna. An analy-
sis of the list of the ,Index” will, however, give a somewhat differ-
ent impression. Out of the list of the ,Index” no less than 22
species are Deep-sea forms, and one is known from the Kermadec
Islands only. These species might well be added to the present
list; when omitted here it is not because they are not regarded
as belonging rightly to the New Zealand fauna, but only because

96

it is out of the scope of this work to treat the Deep-sea forms.
Accordingly, only the remaining 13 species of the ,,Indexf are to
be compared with those of the present list, and, moreover, one of
these 13 species, Amphiura parva is a synonym of Amph. ele-
gans (= Amphipholis squamata). Thus the number of Ophiurids
known from the New Zealand seas has been raised from 12 to
41 in the course of the last twenty years. Rather a noticeable in-
crease !

That the list is still far from complete is indubitable. We may
especially feel confident that many more forms will be found in
the sea to the North of New Zealand, which appears to be an
eminently rich and interesting faunistic area. Also the Cook Strait,
which has yielded the first Gorgonocephalus and the first Ophia-
cantha to the New Zealand fauna, as well as the rare Ophiactis
hirta, will, no doubt, afford lots of interesting forms, when once a
thorough survey of its bottom fauna will be made. Even the purely
littoral fauna may well be expected to yield new forms, seeing that
such interesting species as Ophiozonoida picta, Ophiocormus nota-
bilis and Amphiura annulifera have been found there within the
last few years.

From the Auckland- and Campbell Islands were hitherto known
only two species of Ophiurids, viz. Amphiura præfecta Koehler,
brought home from the Transit of Venmus-Expedition by Filhol,
and Amphipholis squamata, the only species collected by the Ex-
pedition to the Subantarctic Islands in 1907. Besides these two
species I have found there Ophiomyxa brevirima, Amphiura magel-
lanica, Amph. amokuræ and Amphioplus basilicus. I do not think that
those 6 species are all that are to be found there; especially I
have no doubt that dredgings in the sea off these islands will result
in adding a fair number of Ophiurids — and other Echinoderms -—
to their fauna.

AÅ very noticeable feature in the New Zealand Ophiuroid fauna
is the large percentage of Amphiurids, 17 out of 41 — and almost
equally noticeable is the total absence of any Ophiura-species (sensu
lat.), a group otherwise of worldwide occurrence. It is hardly con-
ceivable that it should really be totally absent from New Zealand
waters, and considering the fact that only quite recently the first
Ophiothrix and the first Ophiacantha have been found in those seas

97

"it may not seem too fanciful to expect that also the Ophiura-group
will ultimately prove to be represented there.

None of the new species described in this paper are of excep-
tional morphological interest. AÅA noteworthy discovery is the vivi-
parity of Ophiomyxa brevirima and of Amphiura annulifera, the
latter being also hermaphroditic. Very interesting is also
the find of a parasitic Copepod of the genus Cancerilla on Amphi-
pholis squamata; while the Ophiurid cannot be distinguished from
the specimens living in the European seas (and, apparently, all
over the world), the parasite is specifically quite distinct from the
Cancerilla tubulata infesting specimens in the European seas —
(according to kind information from Mr. K. Stephensen, who is
preparing a report on the Crustaceans collected at the Auckland-
Campbell Islands).

The material upon which the present report is based was col-
lected mainly by the author himself during his visit to New Zea-
land and the Auckland-Campbell Islands in 1914—15. Further
Mr. W. R. B. Oliver, the Dominion Museum, Wellington, has done
me the favour partly of presenting me with material from his own
collection and partly of sending me some Ophiurids from the col-
lections of the Wellington Museum, among which the types of
£Ophiactis nigrescens” Hutton, Pectinura cylindrica (Hutton), Astro-
toma Waitei Benham, cotypes of Amphiura arenaria Farquhar, Ophio-
thrix oliveri Benham, and some material from the Cook Strait, col-
lected by Mr. Hazelwood, comprising Gorgonocephalus chilensis,
var. novæ-zelandiæ, Ophiacantha vilis and Ophiactis hirta, the two
former new to science, the latter new to the New Zealand fauna.
Also to Professor W. B. Benham, Otago, I am greatly indebted
for important material, comprising the type of Hutton's Amphiura
parva, a cotype of Ophiothrix oliveri Benham, Var. and a specimen
of Ophiocreas constrictum Farquhar from the type-locality. I beg
herewith to tender my cordial thanks to the two said gentlemen.
Finally, I beg to express my great indebtedness to the Authorities
of the British Museum, London, for leaving me for study the Oph-
iurids from New Zealand seas, collected by the "Terra Nova” Ex-
pedition, allowing these specimens to be sent to Copenhagen. I
had an opportunity of a rather cursory examination of these spec-
ies during my visit to the British Museum in 1920, and of seeing

Vidensk. Medd fra Dansk naturhist. Foren. Bd. 77. Ti

98

that the identifications due to Bell are as phantastic as might be
expected from the knowledge of the other later contributions to
science from the hand of this remarkable author. His Pectinura
sp. is Ophiozonoida picta, his Ophiomyxa brevirima is Ophiocreas con-
strictum Farquhar, while his Ophiocreas constrictum is the new spec-
ies described here as Ophiocreas longipes mn. sp.; alone his Ophio-
thrix sp. is correctly identified as to the genus. Fortunately, Bell
did not care to trouble himself with the three other species in the
collection but sent them to Professor Benham for identification.
Thus it happened that the three species Astroporpa Wilsoni, Astro-
schema elegans and Astrotoma benhami are correctly identified,
thanks to Prof. Benham (apart from Astroschema elegans, which
should rather be referred to the genus Astroceras); but the descrip-
tions supplied by Bell are very insuffcient, and likewise Bell did
not take the trouble of having figures made of these three new
species, while he gives several figures of the old and well known spec-
ies Cycethra verrucosa and Ophiosteira antarctica, in order to show
their supposed great variability. Through the courtesy of the Au-
thorities of the British Museum I have been able to supply the
necessary figures of these species and to give complete descriptions
of them.

Upon the whole, I have made a point of giving, so far as
possible, accurate and detailed figures of all the species, those new
to science as well as those not hitherto figured, and of supplying
necessary corrections to such figures as were previously published.
I have confined myself to giving ink-drawn textfigures (excepting
the Euryalids), as, in my opinion, photographs of such forms, where
the exact outlines of the various plates are of supreme importance
for the identification, are altogether too often more or less useless,
and rather tantalizing for the student who tries, often in vain, to
make out on those figures the characters mentioned (or perhaps
not mentioned) in the descriptions. Instances øf this are found
also in the literature concerning the New Zealand Ophiurids.

May I hope to have facilitated through these efforts the correct
identification of New Zealand Ophiurids, and to have given local
investigators some stimulus to a further study of this highly inter-
esting fauna, a study which cannot fail to bring many interesting
new facts to light, not only additions to this fauna but also in-

99

ereased knowledge of the biology of the forms already known to
occur in those seas.

1.… Ophiocreas constrictum Farquhar.
Pl. IV. Figs. 4—5.

Ophiocreas constrictus. H. Farquhar. 1900. On a new species of Oph-
iuroidea. Trans N. Z. Inst. XXXII. p. 405.
— constrictum H. Lyman Clark. 1905. Cat. Rec. Ophiurans,

pils:

= phanerum == — 1916. Biological Results …
SEndeavoursÆReportionkthersea-Lilies rep ETON PE KSXXILE
1=2:

Ophiomyxa brevirima. F. Jeffr. Bell. 1917. British Antarctic ("Terra
Nova”) Exp. 1910. Echinoderma. Zool. IV. p. 7.

Non: Ophiocreas constrictus. F.Jeffr. Bell. 1917. British Antarctic
("Terra Nova”) Exp. 1910. Echinoderma. p. 7. = Ophiocreas
longipes n. sp.

Having had a specimen of this species from the type locality,
Dusky Sound, kindly sent me for examination by Professor Ben-
ham, I must say that I do not see how this species could be dis-
tinguished from the Australian form described by H. L. Clark as
Ophiocreas phanerum. According to the descriptions it would appear
that O. constrictum differs from O. phanerum in the character of the
skin, which is stated to be covered with minute papillæ and small
pores in the former, while in the latter it is perfectly smooth. I
cannot, however, ascribe much importance to this character. In one
of two specimens of the Australian form at hand I find in places
similar small papillæ, though not quite so distinct as in the New
Zealand specimen. As regards the pores, I do not think them any-
thing but artefacts, due either to preservation or to some sort of
damage done to the type specimen by the dredging. In the spec-
imen at hand I can hardly see any indication of pores, and what
is seen is certainly due to some damage. As no other differences
are found, I do not see any reason for distinguishing the Austral-
ian from the New Zealand form.

To the descriptions given by Farquhar and Clark I may
add that the lateral plates do not meet in the ventral midline,
but are separated by very well developed ventral plates (Fig. 1.2).
This fact has a rather important bearing on the systematic position

7
4

100

of this species. As pointed out by Matsumoto") a main character
of the Astrochematinæ is the joining of the lateral plates in the
ventral midline of the arm, in contradistinction to the Trichasterinæ,
in which the lateral plates are separated by the ventral plates. Ac-
cording to this character the present species is no Ophiocreas at
all, but should be included in the subfamily Trichasterinæ, repre-

senting a new genus,

the nearest ally of which

BØ CD) 5 ([£ > G) - would appear to be Astro-
Nr 7 ceras But then dikters

JE) from the Trichasterinæ

(CE) OS KA ' .
E S2 O (./ in the lateral plates not
projecting ventrally like

i, 5 hanging rods, which is

Fig. 1. The ventral plates aud lateral plates of two also a character of the

consecutive armjoints of Ophiocreas longipes (1) and Trichasterinæ. Regarding
Ophiocreas constrictum (2). The small round spots on c
the outer end of the lateral plates indicate the grooves the anatomical charac

for the insertion of the armspines. 8/1. ters pointed out by Mat-
sumoto as distinguish-
ing the two said subfamilies, I have no material for examining
them in the present species. The matter is rather puzzling, and as
it would hardly be possible to reach a definite solution of the
systematic problems raised by this form without going into a very
detailed study of the whole family Trichasteridæ, for which I have
neither material nor time, I shall provisionally leave the present
species within the genus Ophiocreas, in spite of the marked diffe-
rence in the lateral and ventral plates.

Also Ophiocreas adhærens Studer has the sideplates separated
by well developed ventral plates. This species, apparently, is closely
related to O. constrictum; I should, indeed, not be surprised at all,
if it ultimately turned out to be identical with that species. From
the description given by Studer”) this would - appear rather im-

1) H. Matsumoto. Å new classification of the Ophiuroidea; with descript-
ions of new genera and species. Proc. Acad. Nat. Sc. Philad. Vol. LXVII.
1915. p. 51.

2) Th. Studer. Verzeichniss d. wåhrend d. Reise S. M.S. ,,Gazellef um
die Erde 1874—76 gesammelten Asteriden und Euryaliden. Abh. d. Kgl.
Preuss. Akad. d. Wiss. Berlin, a. d. Jahre 1884.

101

. probable, it is true, some very definite characters being assigned
to his O. adhærens, viz. large, conspicuous mouthshields, the pre-
sence of six granules, in two series, above the second tubefoot
and of a hook inside the two tentacle scales, from about the middle
of the arm; finally the tentacle scales are stated to begin only at
the fourth pair of tubefeet. Having had one of Studer's cotypes
from the Berlin Museum for examination, I must state that — in
this specimen, at least (and it corresponds very well with the fig-
ures given by Studer, so that there would not seem to be any
reason for thinking that it might be a different species confounded
with the true adhærens) — there are no grains at the second tube-
foot, no hook inside the tentacle scales in any part of the arm,
and the tentacle scales begin at the third pair of tubefeet (not
counting the oral tubefeet). (In Studer's figure 11.b. they are
even represented as beginning at the second pair!). Finally, the
mouth shields are not at all large and conspicuous, on the contra-
ry, quite small and inconspicuous, situated in the very outermost
corner between the large adoral shields. What has been taken by
Studer to be the oral shields are, in fact, the adoral shields
(Comp. his fig. 11. b., Pi. IV). The only noteworthy difference which
I find to exist between this specimen and the young specimen of
O. constrictum from off the North of New Zealand (see below),
which is of nearly the same size, is the somewhat greater length
of the bursal slits in O. adhærens. The very distinctly jointed ap-
pearance of the arms and the prominence of the radial shields in
O. adhærens would appear to be due to the specimen having been
half dry. In any case, O. adhærens and O. constrictum must be very
nearly related: whether they are really different species or ident-
ical, is a question which can only be settled on a close study of
a much larger material than at present available.

The young specimen figured in Pl. IV, figs. 4—5, is the one
which Bell (Op. cit.) identified as Ophiomyxa brevirima (evidently
only because it agrees with the name in its short genital slits;
the resemblance to an Ophiomyxa would be hard to find). It agrees,
upon the whole, so well with Ophiocreas constrictum that I hardly
have any doubt of its being a young specimen of this species. (It
measures 8 mm diameter of disk, ca. 100 mm length of arms).
Only the colour is different, light-brown, while O. constrictum is

102

deep red-purple. But as H.L. Clark states the young specimens
of his ”Ophiocreas phanerum" to be ”somewhat lighter", I do not
think this colour difference sufficient for regarding this specimen
as representing a separate species. Åt any rate, until more material
shall be available, it may be regarded as identical with O. con-
strictum. — It was taken East of North Cape, in a depth of 70
fathoms.

O. constrictum must then be expected to occur in the seas all
round New Zealand as well as in the East Australian waters.

2. Ophiocreas longipes n. sp.
Pl. II.

Ophiocreas constrictus Farqh. F. Jeffr. Bell. 1917. British Antarctic
(”Terra Nova") Exp. 1910. Echinoderma. Zool. IV.;. p. 7.

Diameter of disk 25 mm. Arms of unequal length, the longest
ca. 600 mm, the shortest ca. 400 mm. Width of arm near disk
6,5 mm, height 7 mm. Disk and arms covered with a rather thin,
completely smooth skin, which forms some longitudinal folds on
the arms. Radial ribs narrow, meeting in the centre of the disk.
Mouthangles with 2—3 rounded grains adjoining the teeth; the
number of these latter could not be ascertained, the mouth being
tightly closed. Genital slits 5-—6 mm long, deeply sunk, nearly
parallel. Tentacle pores small, the first pair without papillæ; the
following 4—7 pairs carry one papilla, beyond these there are two
papillæ to each pore. One of the arms shows a somewhat abnormal
arrangement of the tentacles on the second and third joint, and a
corresponding abnormal arrangement of the papillæ. The inner
papilla (or armspine) gradually becomes elongated and clubshaped,
its length not exceeding 3,5 mm. The outer papilla is about 7/2—
”/s that length, not clubshaped. The lateral plates join in the ventral
midline, a very small, oval ventral plate generally lying in front
of them (Fig. 1.1); in some joints it may, however, be lacking.
(The shape of the lateral and ventral plates discernible only on dis-
solving the skin e. g. by means of hypochlorite of sodium).

The single specimen was taken 25 miles off Three Kings Isl.,
in a depth of 300 fathoms.

This species is, evidently, closely related to Ophiocreas sibogæ
Koehler, from which it is distinguished through the grains on the

103

sides of the mouth-edges and through the arms being considerably
longer. Further the papillæ, or armspines, afford a characteristic
difference (Fig. 2). In O. sibogæ the outer spine is almost as long
as the inner one, the latter being provided with some larger,
straight thorns on the adradial side in its outer part; in O. long-
ipes the outer spine is, at most, two thirds the length of the inner
one, which latter is pro-
vided in its outer part,
on the adradial side, with
a great number of strong,
curved thorns. To this
thorny part of the inner
spine is attached a gland
which is much larger in
longipes than in sibogæ;
the more or less distinct,
claviform shape of this
spine is mainly due to
the different develop-
ment of this gland, which
appears to be of very

j Fig. 2. Armspines (papillæ). from about the middle or
common occurrence IN the arm, of Ophiocreas sibogæ (a) and Ophiocreas long-

Euryalids, and the se- TES (13) He
cretary function of which
has no doubt some important bearing on the biology of these forms.
The greater length of the arms in O. longipes might seem to
be no real difference from O. sibogæ, since H. L. Clark in his re-
port on the ,,Endeavourf 'Echinoderms (p. 80) records among his
specimens of the latter species from the Bass Strait and the Great
Australian Bight (80—300 fms) one of the same size and arm-
length as the New Zealand specimen here made the type of O.
longipes. Most probably, however, Clark's specimens are in reality
not O. sibogæ, but O. longipes. Clark, himself, expresses some
doubt as to the correctness of identifying the Australian speci-
mens with O. sibegæ; I would therefore think it probable that they
do really belong to the New Zealand species. At least, the state-
ments resting on these specimens cannot afford the proof of the
identity of the New Zealand species with O. sibogæ, and, for the

104

present, the only safe course seems to me to be that of regarding
the New Zealand form as a distinct species.

That this species is not identical with Ophiocreas constrictum
Farquhar, to which it was referred by Bell, is very easily seen.
The fact alone that the tentacle papillæ appear from the second
joint (in O. constrictum from the third joint) is sufficient to prove
these forms to be quite distinct, this character being of special
importance within this genus.

3. Astrotoma W/aitei Benham.
Pl. IV. Fig. 2.

Astrotoma Waitei. W. B. Benham. 1909. Scientif. Res. N.Z. Governm.
'Trawling Exp. 1907. Echinoderma. Rec. Canterb. Mus. 1.2. p. 19.
Ble 6:

Two specimens of this species having been lent me for
examination, by Mr. Oliver and Prof. Benham, I take the op-
portunity of giving a photographic figure of it, which
may not be superfluous, as the drawings by Prof.
Benham"(Opcit) "cannot olfcoursesiverallethe
details so exactly as does a photo.

o
o
o
o
o
o
o
o

To the very careful description given by Ben-
ham I would only add that the rounded ”scales",
statedtomtcovertthet upper sirfacelorkthendiskere
more appropriately designated as grains. The seg-
mented appearance of the dorsal side of the arms

Fig. 3. Hook from
arm of Astrotoma

Waitei. %4,… iS very differently developed in the two specimens

examined by me — in one the depressions are very

distinct, in the other, the one photographed, they are so narrow as

to be hardly distinguishable. — The hooks are provided with one
small tooth below the long, pointed endtooth. (Fig. 3).

When Benham speaks — here and in other Ophiurid-descrip-

tions — of the ”adradialf plates, the meaning is, of course, the

radial shields.

4. Astrotoma Benhami Bell.
Pl IV. Figs 6-7.

Astrotoma Benhami. F. Jeffr. Bell. 1917. Brit, Antarctic ,, Terra Nova"
Exped. 1910, Echinoderma. Zoology. IV.4. p. 8.

105

Bell states that there is only a single specimen of this species.
In fact there are 9 specimens, ranging in size from 10 to 14 mm
diameter of disk. One specimen has the arms well extended; they
reach a length of ca. 60 mm; as the point is broken the true
length is somewhat greater, probably some 80 mm total.

To the very deficient description not accompanied by figures,
given by Bell, I shall add the following remarks, also supplying
the necessary figures.

The tubercles, which cover the disk completely, leaving no dis-
tinct traces of the radial shields, are rounded, perfectly smooth,
smaller in the middle of the disk, increasing in size towards the
base of the arms; rarely they continue a little way out on the
dorsal surface of the arms. The interradial spaces on the oral side
generally carry a few similar, but somewhat smaller tubercles; other-
wise they are covered with fine grains. Also the underside of the
arms and the oral frame are covered by rounded grains, generally
slightly larger than those of the interradial spaces. Along the edge
of the mouthframe there is mostly a series of larger tubercles,
forming something like a fence, separating the slightly sunken inter-
radial space from the mouth frame. This transverse series of tub-
ercles has much the appearance of being a continuation of the series
of armspines. The genital slits are fairly large, some 2 mm long.
The mouth edges carry each a cluster of spines or papillæ, which
outwards gradually pass into the common granulation of the under-
side. This is perhaps what is meant by the statement of Bell
that , the papillæ are encircled by well-marked granules which be-
come spiniform towards the peripheryf, a statement which does
not appear very intelligible. The covering of the dorsal side of the
arms is that typical of Astrotoma s. str.; it may only be pointed
out that the double rings of hooks are complete from the base of
the arm, at most the 1—3 proximal rings being interrupted in the
dorsal midline. There are generally three short, thick, smooth arm-
spines, slightly rough at the point. Now and then there may be
only two spines on some consecutive joints. Towards the end of
the arm the spines gradually assume the character of hooks.

This species appears to be most nearly related to A. Murrayi
Lym. — No specimens are known besides those taken by the
”Terra Nova".

106

From the other species of Astrotoma known from New Zealand
waters, A. Waitei Benham, it is very easily distinguished through
its much coarser granulation of the disk, through the number of
armspines (8 in A. Waitei), as also through the rings of hooklets,
which are divided in many small parts in A. Waitel.

5. Astroporpa Wilsoni Bell.
Pl. VI. Figs. 8—9.

Astroporpa Wilsoni. F.Jeffrey Bell, 1917. British Antarctic (””Terra
Nova”) Expedition 1910. Echinoderma. Zoology. IV.4. p. 7.

This species is very closely related to the Australian species.
A. australiensis, described by H. L. Clark)). Only two characters,
so far as I can see, distinguish it from the latter species, viz.: the
grains covering the interradial spaces on the oral side are conical,
slightly pointed in A. Wilsoni, perfectly smooth (or nearly so) in A.
australiensis; the colour of the brown rings alternating with the
white rings on the arms and the disk are pale brown in A. Wil-
soni, dark brown, and accordingiy much more conspicuous, in au-
straliensis. Also the mouth papillæ are perhaps slightly shorter in
the New Zealand- than in the Australian form. These differences
are certainly rather small, but, if they prove constant, they may
well justify regarding the two forms as distinct species. At least,
it would not be correct to unite them into one species on the basis
of the material available at present (the two specimens of the New
Zealand form collected by the ”Terra Nova" and a few specimens of
A. australiensis, collected by the author in 1914 in the Australian
seas).

Bell's statement that there is ,a total absence of ornament-
ation from the plates, both of the arms and discf seems rather
peculiar, since there are, upon the whole, no plates to be dis-
cerned either on the disc or the arms, only a general covering of
grains of various character, as clearly set forth by Clark. Also
the statement that ,,the armspines are numerous, very delicate,
with minutely roughened surfaces" is somewhat remarkable; their
number amounts to 4—6 (only very exceptionally 7), which would

1) Scientific Results of the Trawling Expedition of H. M. C.S. ”Thetis".
Echinodermata. Mem. Austral. Mus. IV. 1909. p. 547. Pl. LIV.».

107

not seem to be an insuperable number to count, and they are
short, thick, flattened, ending in 2—4 distinct points, which could
not easily be gathered from the description quoted. — Otherwise,
IMwouldkrefer tom the description keiven by Clark"of his Æau-
straliensis, which — apart from the differences pointed out above —
suits A. Wilsoni as well.

No other specimens known than those taken by the "Terra
Nova". East of North Cape, 70 fathoms. Besides the two spec-
imens on which Bell's description was based, there is also a young
specimen, 4 mm diameter of disk, lying together with the spec-
imens of Ophiothrix aristulata, as mentioned by Bell under his
Ophiothrix sp. Its arms are so strongly coiled up that it is impos-
sible to measure their length. The specimen shows the interesting
feature of the 6 primary disk plates being distinct; they are, how-
ever, very small, and only through their darker colour to be dis-
tinguished from the grains. There is no trace of the radial shields.
There are only two of the grain-covered transverse bars on the
disk at the base of each arm, while in the grown specimens there
are 4—5 of these bars on the disk. The genital slits have ap-
peared, but are situated off the first armjoint (armspines), while in
the adult specimens they lie between the third and fourth joint. A very
considerable displacement must accordingly take place during growth.

6. Astroceras elegans (Bell).
Pl. VI. Fig. 3.

AÅstroschema elegans. F. Jeffr. Bell. 1917. British Antarctic(fTerra Nova"
Exped. Echinoderma. Zoology. IV.1. p. 7.

To the rather deficient description of this species given by Bell
I may add the following remarks.

With "the five pairs of rows of prominent plates, which might
at a superficial view be taken for radial shieldsf are evidently
meant the white tubercles, which cover the radial shields; they are
generally arranged in a very distinct series along each radial shield
in the younger specimens, while in the larger specimens the ar-
rangement becomes more irregular. Also the number of these tub-
ercles is rather variable. The white tubercles continue a various
distance on the arms, sometimes only on a few of the inner joints,
sometimes forming regular rings nearly to the end of the arm. In

108

any case the arms have a very distinct annulated appearance, rings
of white and brown skin alternating very regularly to the very tip
of the arm. — Sometimes the tubercles on the arms are distinctly
oblong. How Bell came to the statement that "the spines of the
lower surface (of the arms) are set in a single row on either side
of the median furrow" I do not understand. At the merest glance
it is seen that there are two armspines, not one. == Farther out
on the arm the inner armspine becomes somewhat elongated, very
distinctly clubshaped and distinctiy thorny in the thickened end. The
outer armspine remains short and thin and often has the appear-
ance of a small sidebranch on the larger, clubshaped spine; both
are placed on the top of the somewhat prominent side plates; these
latter are separated from each other by the well developed ventral
plates. The tentacles are sheathed, more or less distinctly, till about
the middle of the arm. The ventral surface is covered by a per-
fectly smooth skin. The "five prominent spinesf which, according
forBlellsFourardsthermouth can be mothingtbutithetmonthgedses:
There is a vertical series of about 10 broad triangular teeth and
some small grains on the sides of the mouth edges.

Ihe"<Terra "Nova" secured"7 specimens (or North Gapemm0
fms), ranging in size from 8 to 12 mm diameter of disk. Å small
specimen, taken off Three Kings Isl., in 60 fathoms, was given
me by Captain Bollons.

That this beautiful Ophiurid is no Astroschema is evident enough
and that it cannot be referred to the genus Ophiocreas is likewise
clear — if we do not want to extend the limits of the latter genus
beyond the usual conception, which would not be in any way de-
sirable. Ilt seems beyond doubt that this species is the nearest re-
lated to Astroceras compar Koehler from the Malay Archipelago,
and if this latter is justly referred to the genus Astroceras, the pre-
sent species must also be included in that genus. From the
figure of the oral side of 4. pergamena, the type of that genus,
given in the "Challengerf Ophiuroidea Pl. XXXIV., it might well
appear that the genital slits are quite different from those of the
present species, being represented there as long, narrow, horizontal
slits, while here they are short, wide, and vertical, as character-
istic of the 7Trichasteridae. It is, however, certain that the said fig-
ure is incorrect. In the diagnosis Lyman correctly states that the

109

genital slits are vertical, as also I find them in specimens which
I have collected myself in the Japanese seas. — In any case, it
seems to me that the present species must be referred to the genus
Astroceras, if it is not made the type of a separate genus, which
latter course I would not think desirable at the present state of
our knowledge.

7. Astroschema sp.

On a piece of a Gorgonid from off Three Kings Isl., 60 fms.,
collected by Captain Bollons, I found two small specimens, 1—
1,5 mm diameter of disk, which, evidently, belong to a species of
Astroschema. It is hardly possible to identify the species —- very
probably they belong to some undescribed species. In any case
these young specimens are interesting as they prove that also a
species of Astrøschema proper occurs in the sea here off the North
end of New Zealand. In the younger of the two specimens the
6 primary plates and the radial shields are still distinct, not yet
obscured by the covering of the grains. In the larger specimen
only the central plate is still discernible. The genital slits have
already made their appearance, even in the smaller specimen.

8. Gorgonocephalus chilensis (Phil.), var. novæ=zelandiæ n. var.
Pl. IV. Fig. 1.

Cooks trait kl 00 Rim SEES pecimenkcollected" by Mr ET aze ll
wood, 1921.

I do not see any characters by which this specimen, which
measures 50 mm diameter of disk, could be distinguished from G.
chilensis (Phil.). Only the short stumps of the disk are sparser than
appears to be the rule in chilensis, and for this reason I think it
correct, at least for the present, to regard the New Zealand form
as a separate variety of this species. If it should be ultimately
shown, when more material is at hand, that the disk covering
varies SO as to be sometimes closer and more like what is usual
in chilensis, I should not hesitate in simply uniting them. As the
species is known to be distributed from South America to Kerguelen
and Heard Island, it would not be very surprising if it turned out
to occur also in the New Zealand seas.

110

The small conical tubercles of the dorsal side are rather numer-
ous on the ribs, few and very sparse in the interspaces; similar
tubercles also occur on two of the arms at their base, mainly on
the sides. On the oral side a very few tubercles are found in the
interbrachial spaces. The underside of the arms is covered by very
fine granules, seen distinetly only when dried. When these grains
are removed (by means of hypochlorite of sodium) irregular small
plates are seen to fill the spaces between the lateral plates, which
join in the ventral midline.

9. Ophiomyxa brevirima H. L. Clark.

Figs. 4—5.

Ophiomyxa australis Ltk. H. Farquhar. 1895. Notes on New Zealand

Echinoderms. Trans. N. Z. Inst. XXVI. p. 199.

— — H. Farquhar. 1898. On the Echinoderm
Fauna of N. Z. Proc. Linn. Soc. N.S. Wales.
p. 309.

— = W. B. Benham. 1909. Scientific Results of
the N. Z. Governm. Exped. 1907. Echinoderma.
Rec Canterb. Mus. I.2. p. 19.

— brevirima. H.L. Clark. 1915. Catalogue Rec. Ophiurans ;
PENGE

Non: Ophiomyxa australis. Litken. 1869. Add. ad hist. Ophiuridarum.
INDE:

-— — brevirima. F. Jeffr. Bell. 1917. British Antarctic
("Terra Nova") Exp. 1910. Echinoderma. Zool. IV.
p. 7. (= Ophiocreas constrictum Farquhar).

Masked Island, Carnley Harbour, Auckland Isl. 3/XI1.1914 4 specimens.

Figure 8 Island, Carnley Harbour, Auckland Isl. 2/XI[.1914. 12 spec-
imens, found in the base of a Macrocystis, cast on shore.

Paterson Inlet, Stewart Isl., 5—15 fms. 17/X1.1914. 5 specimens.

Queen Charlotte Sound, 3—10 fms. 20/1.1915. 3. specimens.

Colville Channel, 35 fms. 21/X11.1914. 1 young spécimen.

10 M. N.W. of Cape Maria v. Diemen; 50 fms. 5/1.1915. 2 young spec-
imens.

Three Kings Isl., 65 fms. 5/1.1915. 1 young specimen.

The identification of the young specimens from the three latter
localities is not beyond doubt; especially that from Three Kings
Isl. recalls to some degree Ophiomyxa australis. It is, therefore,

HAL)!

not improbable that more than one species of Ophiomyxa will ulti-
mately be found to occur in the New Zealand seas.

Itfistthe” meritTof HH Lyman Clark to have pointed out that
the Ophiomyxa of New Zealand seas is not identical with that of

Fig. 4. Ophiomyxa brcvirima (1, 3, 4) and O. australis (2, 5). All the figures %/1. — 1. Part
of ventral side of O. brevirima; — 2. same part,of O. australis. — 3. Part of dorsal

=

side. — 4. part of ventral side of arm of O. brevirima. — 5. Part of dorsal side of arm
of O. australis.

the Australian seas, Ophiomyxa australis Ltk., as was stated by
Mr: Farquhar… However, the characters pointed out by H. L.
Clark as distinguishing the New Zealand species from O. australis
do not all hold good. The genital slits, as well as the radial
shields, do not appear to me to offer any reliable differences. The
number and arrangement of the armspines: alternating 3 and four
in brevirima, 5—6, not alternating in australis, is a much better
and fairly constant character. But there are some other not less
important differences. Thus the shape of the dorsal and ventral
plates is rather different in the two species. (Cf. Fig. 4). (The thick

2

skin obscuring the plates must be removed in order to make the
outline of these plates distinct; this may be done by applying
hypochlorite of sodium to some part of the arm, the treatment
being discontinued before the plates are becoming isolated). In

Fig. 5. 1. Spicules from an ovary of Ophiomywxa australis, in a natural group. 9/1, —

2. One of these spicules more enlarged. 3%/1, — 3. Spicules from the bursal wall of

O. australis in a natural group. 7%%/3. — 4, Spicules from the bursal wall of O. brevi-

rima, natural group. 7%/1, — 5. Spicules from the skin of white-ringed variety of O.
brevirima. ?%9/4,

both species there is on the dorsal side of each armjoint a pair
of large plates, looking like a continuation of the side arm plates,
which, however, they are not; these plates do not join in the
dorsal midline, but are separated here in O. australis through a
continuous mosaik of small polygonal plates (Fig. 4.5), in O. brevi-
rima through only some few (2—3) such small plates, which do
not form a continuous mosaik. (Fig. 4.3). Also the shape of the
ventral plates is different, the outer edges being much more pointed
in australis than in brevirima (Fig. 4.1—2). Å
There are, however, still other differences. In O. australis the

113

… eggs are rather small, ca. 0,25 mm, and the ovarial membrane is
studded with those remarkable double anchors characteristic of
Ophiomyxa (Fig. 5.1—2); the bursal wall is full of small bone-shaped
calcareous bodies (Fig. 5.3). In O. brevirima these latter bodies
are much smaller (Fig. 5.4), the double anchors much fewer in
number, and the eggs much larger, 0,5—6 mm. The latter fact
indicates that probably a considerable biological! difference exists
between the two species. Nothing is known about the develop-
ment of O. australis, but the relatively small size of the eggs
lends support to the suggestion that it is not viviparous, whereas
O. brevirima is viviparous. In one specimen from Lyttelton har-
bour I find one fairly large young one in each of two bursæ.
Another specimen, from Cook Sftrait, collected by Mr. W. R B.
Oliver (as was also the specimen from Lyttelton) likewise con-
tains young ones in its bursæ; but here conditions are quite
different. All the bursæ are here completely filled up with em-
bryos, most of them in nearly the same stage of development,
with 2—3 armjoints developed, only very few being in a younger
stage. They lie so closely packed that they are partly quite
irregularly compressed. I have counted no less than 120 embryos
in one bursa. They are of a bright orange colour, on account
of the content of yolk in the eggs. — The difference between the
two said specimens, one having the bursæ quite filled with em-
bryos, the other having only one in each bursa, is so remarkable
that the suggestion lies at hand that they may represent two dif-
ferent species, the more so as the two specimens are quite dif-
ferent in colour, one being of a uniform grayish-brown, the other
(the one with the many embryos) greenish with white bands on
the arms and irregular white spots on the disk. This white colour
is due to closely packed heaps of exceedingly minute, lenticular
calcareous grains (Fig. 5.5). (Such grains are also found in the skin
of the not banded or spotted specimens, only much less numer-
, scattered, not in dense heaps). I am, however, unable to
find any other difference. Accordingly, it would appear that we
have to do with only one species, and the difference in regard to
the embryos contained in the bursæ may then perhaps be due to
one of them having discharged its brood, with the exception only
of a few of them, which have remained in the bursæ a little longer,

OoUS

Vidensk. Medd. fra Dansk naturh Foren. Bd. 77. 8

114

and perhaps therefore grown a little larger. This is, of course,
nothing but a suggestion. Observations on a larger material, and
especially on living specimens, will be needed to settle the question
how the difference described is to be explained.

The discovery that O. brevirima is viviparous naturally led to
the suggestion that it might then perhaps prove to be identical
with the Ophiomyxa vivipara Studer of the Magellanic region. This
it is, however, not. There is a conspicuous difference in the shape
of the ventral plates (see fig. 6) as also in the. dorsal plates; the
two large lateral plates are not found in O. vivipara, the whole

Fig. 6. Part of ventral side of Ophiomyxa vivipara;
a. of a specimen from the Cape region, b. of a specimen from Patagonia. &/1.

dorsal side of the arm being occupied by one large, thin and del-
icate fenestrated plate. It should be pointed out that O. brevirima
has separate sexes, as is also the case with O. vivipara.

I would still add that probably the specimens from the Cape
region referred to Ophiomyxa vivipara do not really belong to that
species, but represent a separate species, as is also suggested by
H. L. Clark in his "Echinoderm Fauna of South Africa".”) I shall
not, however, enter on a discussion of this question here.

10. Ophiacantha vilis n. sp.
Figs. 7. a—d.
Some specimens from Cooks Strait, 200 fathoms (collected by
Mr. Hazelwood, 1920) were sent me by Mr. W. R. B. Oliver.
They are all in a rather poor state of preservation.

1) Annals of the S. African Museum. XIII. 1923; p. 313.

1Sk5

i Disk covered with a uniform coat of small spines or stumps
generally ending in four short, diverging points. The scales of the
disk are generally discernible, though with some difficulty (on the
figure they are rather too distinct and the coat of spines not

||
) Fig. 7. Ophiacantha vilis. a. Part of
ventral side, b. of dorsal side; c. two
armjoints, ventral side, from the middle
of the arm. d. spine from the disk.
a--c. 4/1, d. 190),

dense enough). The radial shields not distinct, only just the outer
end may be visible. On the underside of the disk the scaling is
more distinct, the spine-covering less dense. — The oral papillæ
are three to each side, the outer one generally scarcely widened;
the infradental papilla is fairly large; rarely one may find in one
of the mouth angles the outer papilla represented by two much
narrower ones, there being thus four papillæ here. The mouth
shields are about equally long and broad, with a somewhat pro-
duced outer lobe; the adoral shields crescent-shaped, meeting broadly
within, but not produced outwards so as to separate the mouth
shield from the first side armplate. The ventral plates are broader
gt

116

than long; the two inner ones are in contact, the second one hav-
ing the inner edge truncated; the third almost reaches the second,
but from the fourth they are widely separated. The inner ones
have a convex outer edge, from the fourth the outer edge has a
reentering curve, which gradually becomes more marked farther
out. In the outer part of the arm the ventral plates are about
regularly heptagonal. There is a single, rather large, smooth tent-
acle scale. The dorsal plates are very small, triangular, with a slightly
arched outer edge, widely separated throughout the whole length
of the arm. The side armplates are rather prominent, carrying 7—8
long, slender, very finely serrate armspines; farther out there are
only 6 spines. On the proximal joints the spines may almost join
in the dorsal middle line.

None of the specimens exceed a size of 4 mm diameter of
disk. The arms are broken, but apparently they are only ca. 4—5
times so long as the diameter of disk. The colour appears to be
that usual in Ophiacantha's, a light yellowish-brown.

This species, the first Ophiacantha recorded from the New Zea-
land seas, is very closely related to Ophiacantha pentagona Koehler,
a species widely distributed over the Indo- Pacific Ocean. It differs
from that species in the shape of the stumps covering the disk,
these being provided with much longer thorns in O. pentagona (cf.
PIJIV: Fig. 29 of Koehler's Report on the fInvestigator HOph
iuroidea and Pl. 93.5 of the Philippine Ophiurans);)) also the tent-
acle scale appears to be distinctly smaller in O. pentagona; the
shape of the buccal shield is slightly different, and there are only
5—6 armspines in O. pentagona.

Also to another species it bears a very close resemblance —
I rather think still closer than to O. pentagona —, viz. to O. adi-
aphora H. L. Clark, from the North Pacific, the main difference
from that species being found in the shape of the mouth shield.
A character which might look rather essential is the shortness of
the genital slits in O. adiaphora, where they appear not to reach be-
yond the first armjoint, while in O. vilis they reach almost to the
edge of the disc. I cannot, however, ascribe any greater signific-

1) R.Koehler. Ophiurans of the Philippine seas and adjacent waters.
Bull. N. S. Nat. Mus. 100. 1922.

157

.ance to this apparent difference. In some of the New Zealand spec-
imens the genital slit appears to be no longer than in O. adiaphora,
while in others it appears to reach to the edge of the disc. The
bad preservation of the specimens in hand makes it impossible to
make out exactly how the genital slits really are in this species
— in some places they even have the appearance of being divided
into two parts, as in Ophioderma.

I think it quite possible that both O. adiaphora and O. vilis will
ultimately prove to be the same species as 0. pentagona (also
Clark points out the close resemblance of his species to O. pen-
tagona). But for the present it seems to me more safe to regard
the New Zealand form as a separate species, especially so long
as O. pentagona or O. adiaphora have not been found in the Austral-
ian seas.

11. Ophiothrix aristulata Lyman.

Ophivthrix aristulata. Th. Lyman. 1882. Challenger Ophiuroidea, p.
223, Pl. XXI. Figs..9—12.
— — R. Koehler. 1904. FSibogaf Ophiuroidea. I.
PÆSE
—= == HSLymNCFarktlolskeataloguetRecent "Oph:
p. 269.
= = — 1916. Report on the Sea-Lilies,
Starfishes, Brittle Stars and Sea-Urchins. . .
<£Endeavour". Biol. Res. Fishing Experiments by
the fEndeavour"f, IV.4. p. 89.
= sp. F Jeffr. Bell. 1917. Echinoderma. British Antarctic
("Terra Nova”) Expedition 1910. Zoology IV.4. p. 6.
= aristulata. R. Koehler. 1922. Ophiurans of the Philippine
seas and adjacent waters Bull. U.S. Nat. Mus.
(00 Voss 0S EP SS MIE SEERE E
= — H. L. Clark. The Echinoderm Fauna of S. Africa.
Ann. S. Afr. Museum. XIII. p. 336.

The two specimens of Ophiothrix sp. from off Cape Maria van
Diemen, mentioned by Bell (Op. cit.), which I have had the op-
portunity of examining, undoubtedly belong to this characteristic
species. They agree in all essential features with the description
and figures given by Lyman. The keel on the dorsal midline of
the arms is rather indistinct, more so in the larger specimen (dia-
meter of disk 7 mm) than in the smaller one (6 mm). The only
noteworthy difference from the type is that the spines on the

118

ventral side and near the edge on the dorsal side of the disk are
short trifid stumps, not long, serrated spines as in the middle of
the disk. Evidently this feature is not of sufficient value for separ-
ating these New Zealand specimens from the typical form, not even
as a variety.

The species being widely distributed in the Indian and Austral-
ian seas, as far South as Tasrania, its occurrence in New Zealand
seas (off North Cape and Cape Maria van Diemen) is not surpris-
ing at all.

From Ophiothrix Oliveri Benham, the other species found in
New Zealand waters, it is very easily distinguished through its
naked radial shields and the long spines covering the disk scales,
O. oliveri having the disk with the radial shields completely covered
with small, trifid stumps. Also the shape of the dorsal plates is
quite different in the two species.

12... Ophiothrix oliveri Benham.
Fig. 8.
Ophiothrix oliveri. Benham. Stellerids and Echinids from the Kerma-
2. dec Islands. Trans. N. Z. Inst. Vol. XLIII.
1910. p. 154.

= —= = H. L. Clark. Catalogue Rec. Ophiurans.
1915. p. 276.

OF Eittle "Barrier Is 330 fn SEE shell ser
specimens.

Three Kings Isl., 65 fms.; hard bottom.
1 specimen.

Judging from the description and
figures of this species given by Ben-
ham it would seem that the spec-
imens in hand could not be simply
identified with the Kermadec-spec-
ies; especially the shape of the ven-
ae tral plates in Benham's Fig. 14
Fig. 8. Ophiothrix oliveri Benham. 1. differs rather conspicuously from
Part-of ventral side; 2. dorsal aspect — that of the New Zealand sSpecimensi

of three armjoints, from the middle
of the arm. 7/1. as shown in Fig. 81. The direct

119

… comparison with one of the cotypes of O. oliveri, which I have
received through the kindness of Mr. W. R. B. Oliver, shows,
however, that the difference in the shape of the ventral plates is only
apparent, due to the rather crude character of the said figure in
Benham's paper. I find the ventral plates in the cotype, from
the Kermadec Islands, to be quite like those of my New Zealand
specimens, as represented in Fig. 8.1.

There are a few other points to which attention should be
called, indicating apparent differences between the New Zealand
specimens and the typical form from the Kermadecs. Benham
states the dental papillæ to be arranged in four horizontal rows of
4 in each row, making thus 4 vertical rows. In the cotype in hand
the papillæ form only three vertical rows; only at the upper
(outer) edge there are four small papillæ. This discrepancy, evid-
ently, is due to the fact that the type specimen was much larger,
14 mm diameter of disk, the cotype measuring only 7 mm. Other-
wise Benham's figure does not correspond to the description, as
it shows 7 and & papillæ in a horizontal row. The New Zealand
specimens agree with the cotype in having the papillæ in three
vertical columns; only in the largest specimen, 8 mm diameter of
disk, the upper papillæ are fairly distinctly arranged in four columns.
— The small oval plate, seen along the genital slits in Benham's
figure, I do not find in anv of the specimens in hand; on the other
hand, Benham does not show the large genital plate bordering
the outer extremity of the genital slits. The raised median pro-
minence in the distal margin of the dorsal plates I do not find
either in the cotype or in the New Zealand specimens, or, at most,
only very indistinctly indicated. This can thus hardly be a constant
feature. Upon the whole, I do not sée any character by which it
might be possible to distinguish the New Zealand specimens from
those from the Kermadecs, not even as a variety.

The variety of this species mentioned by Benham (Op. cit.
p. 156) does not appear to me to deserve this designation. Prof.
Benham having kindly sent me one of the specimens I must
say that on comparing it with the cotype and with the New Zea-
land specimens I do not see any reason for distinguishing it as a
separate variety. The facet that the radial shields are more distinct

120

than in the type is due simply to its bad state of preservation,
the spines normally covering the radial shields having dropped off.

13. Ophiocormus notabilis H. L. Clark.

Ophiocormus notabilis. H.L. Clark. 1915. Catalogue of Recent Oph-
iurans. p. 219. Pl. 3.11—32.

Not having seen any specimens of this Ophiurid, known only
through H. L. Clark's description of the unique specimen found
by Mr. Farquhar under a stone near low water mark off Welling-
ton, I can only offer a few critical remarks to the said description.

H. L. Clark includes this form among the Ophiacanthidæ, as
an extreme development from an Ophioconis-like ancestor, though
recognizing, the uncertainty of its real relationships, stating that
«it is quite possible that its true position is in the Ophiodermat-
idæ". — Judging from the figures given by Clark one cannot
help thinking the latter suggestion by far the more probable; in
fact, were it not for the grains-covering the base of the armsøI
would suggest it to be a young Pectinura. But, as justly said by
Clark, fmuch more abundant material is necessary before the
matter can be satisfactorily determined.” I would only point out
this case as exemplifying in quite a special degree the insufficiency
of photographic figures. I defy anybody to find in the figures,
given by Clark, the details of the armplates or the mouth structure.
We gather from these figures that it is an Ophiurid with very
short, robust arms, with short, appressed armspines, the disk being
covered with grains. But this is not satisfactory in an up to date
work on Ophiurids.

14. Ophiocoma Bollonsi Farquhar.
Fig. 9.
Ophiocoma Bollonsi. Farquhar 1908. Description of a new Ophiurid.
fransNSZSIns EXE pE OS:

— H.L.Clark. 1915. Catalogue Rec. Ophiurans. p. 293.
— = — 1921. The Echinoderm Fauna of Tor-

res Strait: its composition and its origin. Publ.

Carnegie Inst: 214: p.132:

OF this species, hitherto known only from the single specimen
on which Farquhar based his description, I have been fortunate
enough to find three specimens in the following localities:

121

Wellington Harbour, 5—10 fms; hard bottom.

2 Miles E. of North Cape, 55 fms; hard bottom.

Three Kings Isl., 65 fms; hard bottom.

Further havelrecelyedithrough Mr WERBF Oliver a few
specimens from the Cooks Strait,120 fms., collected by Mr.Hazelwood.

To the very careful
description of this spec-
ies given by Farquhar
I have but little to add.
On the other hand, it
may be of importance
to give a pair of figures
ofthespecies,Farquhar
nothaving published any.

The tooth-papillæ,
which are rather excep-
tionally numerous for an
Ophiocoma, are arranged
abovein6irregulartrans-

verse series; inwards in

the mouth they gradu- c==7-

ally decrease in numb- aa
ecSselRonlyt hel ateral D
series on each side con-
tinuing until they meet
the teeth, which are
squarish, provided with

an enamel cap, as usu- Fig. 9. renee bollonsi Farquhar. — 1. Part of
ally in Ophicoma. There oral side; — 2. armjoints, from the dorsal side. %/1.
are 7 tooth papillæ in

the vertical row of the outer series, and below the:e papillæ (or
above them, if we place the animal in its natural position) 2—4
teeth. The mouth is thus very deep. The outer series of the tooth
papillæ are longer than the inner ones, the chewing surface of each
jaw thus being concave. — The side mouth shields may be excluded
from the adoral edge of the genital slit (Fig. 9.1). Regarding the
shape of the ventral and dorsal plates I may content myself with
referring to the figures. The spines may be in the number of 8

122

in the inner part of the arm in the larger specimens, increasing
in length from the ventral side upwards, the uppermost one being
again smaller, sometimes quite small. They are very slender, smooth
(— I do not find them fgranularf, as Farquhar states them to
be —), flattened dorsoventrally and with a slight furrow along the
upper side. They are not widened at the point.

The tubefeet are strongly papillated, as usual in Ophiocoma.
The very small size of the eggs indicates that the larva must be
a typical Ophiopluteus.

Some of the armspines are clubshaped through the skin being
much thickened in the outer part. That this is due to an infesting
parasitic organism may well be concluded from the fact that the
occurrence of such swollen spines is without any order whatever.
What sort of organism I have been unable to ascertain. In sections
of such spines the skin is seen to have a peculiar radiate struc-
ture; but no trace could be found of a foreign organism to the
action of which this peculiar structure might be due.

As pointed out by Clark (Op. cit.) this species is most nearly
related to Ophiocoma canaliculata Ltk., with which it has in common
a. 0. the peculiar character of the canaliculate spines.

15. Ophiopteris antipodum E. A. Smith.
Fig. 10
Ophiopteris antipodum. E. A. Smith. 1877. Description of a new form
of Ophiuridæ from New Zealand. Ann. Mag. Nat.
Hist ANSET OS ERIE
— — Th. Lyman 1882. "Challengerf Ophiuroidea ;
ps 6:
= == H. Farquhar. 1897, Contribucion to the Hist.
N. Z. Echinoderms. Journ. Linn.
Soc. Zool. XXVI. p. 192.
= == = 1898. Echinoderm Fauna of New
Zealand. Proc Linn. Soc. N.S. Wales, p. 308.
== = H L. Clark. 1915. Catalogue Recent Ophiurans
p. 294.

While no specimens of this species were collected by myself
during the investigations in New Zealand Seas, I had the pleas-
ure of receiving two fine, dried specimens from Mr. W. R. B.
Oliver, who had found them under stones at low water mark at
Rangitoto Isl. in Auckland Harbour. The species having hitherto

123

. been recorded only from Cook's Strait (Wellington, Nelson), this
new locality is of considerable interest, showing that the species
must be more widely distributed along the New Zealand coasts,
probably all round the North Island.

The very careful description given by E. A. Smith does not
leave much to be desired; only his figure of the mouth-structure
is insufficient, being drawn in too small a scale for showing the
shape of the mouthparts exactly and sufficiently detailed. I give,
therefore, a figure here to illustrate z
these parts (Fig. 10):

Asikpointed "out by E A:Smith,
the mouth structure has a consider-
able resemblance to that of Ophiothrix,
differing from it only in the presence
of mouth-papillæ. These, however, are
quite different from those of other
Ophiocomids in lying along the edge
of the mouth frame, covering one

é i Fig. 10. Part of oral side of Ophio-
another, not placed side by side along pteris antipodum. E. A. Sm. 6/1.

the mouth frame and at a right angle

therewith as usually in Ophiocomids; in fact, there is no distinct
limit between the mouth papillæ and the tooth papillæ, the former
passing quite gradually into the outer series of the tooth papillæ.
It is also important to notice that the teeth are not capped with
enamel as is the case in most Ophiocomids. Further the peculiar
shape of the adoral shields recalls Ophiothrix much more than the
Ophiocomids. In fact, these characters are important enough to
make it doubtful, whether this genus really belongs the Ophio-
comidæ. On the other hand, the characters of the arms and disk
decidedly recall the Ophiocomidæ. — In short, this genus would
appear to be intermediate between the Ophiothrichidae and the
Ophiocomidæ. A study of its anatomy and, especially, its larval
development would probably decide the question of its true relation-
ship, the larvæ of Ophiocoma and Ophiothrix being both very char-
acteristic.

124

16. Ophiactis resiliens Lyman. .
Figs. 11.1—4.

Ophinctis resiliens. Lyman. 1882. Challenger Ophiuroidea, p. 115. PI.
SER Ries 79)
== nomentis. Farquhar. 1907. Notes on New Zealand Echino-
derms, with descript. of a new spec'es. Trans. N.Z.
Inst XXXIX æÆp 125:
= = Benham. 1909. Scientific Results N. Z. G. Trawling
Exped. Rec. Canterbury Mus. I. Nr. 2. p. 23.
= resiliens. H. L. Clark. 1909. Scientif. Results of the Trawling
Expedition of H. M.C.S. "Thetis". Mem.
Austral. Mus. IV. p. 539.
== — — 1915. Catalogue Recent Ophiurans. p. 265.
== nomentis — = == p-. 264.
i PESbEE es 22
== resiliens — 1916. Report on the Sea-Lilies, Star-
fishes, Brittle Stars etc. Biol. Res. Fish-
ing Exper: FLIS FE ndeavom VE
p:87:
== = == 1918. Brittle-Stars, new and old Bull.
M:C-ZoortEXI Eps]
— nomentis — 1918. Ibid. p. 312.

Off White Island, (379 40” S. 1770 1” E.), 55 fms; sandy mud. 19/XII 14.
1 specimen.

Slipper Island, under stones at low water. 20/XI1.14. 2 specimens

Colville Channel, 35 fms; sandy mud. 21/XI1I.14. 1 specimen.

Little Barrier Isl, 30 fms; shells. 29/XII 14. 1 specimen.

Moku Hinau Isl., Hauraki Gulf; 5 fms; gravel. 30/XII.14. 1 specimen.

10 M. N.V. of Cape Maria v. Diemen; 50 fms; hard bottom. 5/1.15. 4
specimens.

Off New Plymouth; 8 fms; hard bottom. 12/1.15. 3 specimens.

Cook Strait, 120 fms. 13/VI11.1920. (Coll. by Mr. Hazelwood; received
from Mr. W. R. B. Oliver).

In "his "paper Brittle-Stars, "old "and new (pE SI P)FESER OG lark
states regarding Ophiactis nomentis Farquhar that it is very near
O. resiliens Lyman "though apparently larger, but if the differences
in the oral shields and adoral plates prove to be constant, the two
forms may well be kept apart". A very careful comparison of the
two forms has led me to the result that they are decidedly ident-

ical, and the name Ophiactis momentis thus becomes a synonym of
O. resiliens.

ræs

The differences between the Australian and the New Zealand
forms” pointed out by H.L. Clark (Op. cit. p. 301) are these: in
O. resiliens the oral shields are much wider than long; adoral
plates with no distally projecting angle separating oral shields from
side arm-plates; in O. nomentis the oral shields are about as long as
wide; adoral plates with a distally projecting angle separating oral

Fig. 11. Ophiactis resiliens Lyman. — 1. Part of oral side; 2. of dorsal side; 3. arm-
joints from middle of arm, oral side; 4. same, dorsal side. //1,

shields from side arm-plates. Regarding the latter character, the
distally projecting angle of the adoral shields, it is seen from the
figure given here, drawn from a specimen from Slipper Island, that
it may be wanting just as well in the New Zealand as in the
Australian form; of two specimens of the Australian form sent me
by H. L. Clark one has the distally projecting angle of the adoral
shields very distinctly developed. This character thus is decidedly
of no value as a distinguishing feature. The difference in the shape
of the oral shields thus remaining the only character to disting-
uish the two forms is decidedly too insignificant and inconstant to

126

serve as base for keeping the two forms as separate species. The
only thing which makes me hesitate a little in declaring O. nomen-
tis identical with O. resiliens is the fact that Farquhar in his de-
seription of O. nmomentis says: "one rounded leaflike mouth-papilla
on each side of the base of the mouth-angle”. As a matter of fact,
my specimens, which otherwise agree very well with Farquhar's
description, have two mouth-papillæ, as has O. resiliens. In the
rather poor photographic figure given by H. L. Clark (Cat. Rec.
Oph. Pl. 11.2) of a cotype of 0. nomentis the mouth-papillæ are
not distinctly discernible; but since Clark in his key to the spec-
ies-øof Ophiactis (Brittle-Stars, old and new, p. 301) places O. n0-
mentis in the group with 2 mouth-papillæ, the conclusion seems
inevitable that Farquhar's statement is a mistake, and that the
type of O. nomentis really had 2 mouth-papillæ.') — It thus seems
to me an unavoidable conclusion that O. nomentis is identical with
the Australian species, O. resiliens Lym.

It may be pointed out that the concave outer edge of the dorsal
plates in Fig. 11.4 is no constant feature, and cannot be used as
a feature to distinguish the New Zealand from the Australian form.

The breaking up of the dorsal plates in several small irregular
plates not rarely occurring in Australian specimens I have not ob-
served in any of my New Zealand specimens; but Farquhar has
observed it in his specimens.

The eggs are very small and numerous, which fact indicates
almost certainly that this species has a typical Ophiopluteus-larva.

17. Ophiactis hirta Lyman.

Figs. 12, a—c.

Ophiactis hirta. Th. Lyman. 1882. Challenger Ophiuroidea, p. 118. Pl.
XX, Figs. 4—6.
— — " H.L. Clark. 1915. Catalogue Recent Ophiurans:"p:266:
= = — 1918. Brittle-Stars, new and old. Bull.
Musi CZookvolEXIEE pE

1) In one of the specimens from Cook Strait, received through Mr. W.R.
B. Oliver, I find in some of the mouthangles only one outer mouth
papilla, in others two. This specimen is, upon the whole, somewhat ab-
normal. Another of these specimens has only 4 arms.

127

Among a number of Ophiactis profundi from Cook Strait, 120
fms (collected 13/VIII.1920 by Mr. Hazelwood), sent me by Mr.
W. R. B. Oliver, I found one small specimen of an Ophiactis,
which I do not hesitate in referring to Ophiactis hirta Lyman, in
spite of its differing from that species in a few minor characters.

This specimen is a small one, measuring only 2,5 mm in dia-
meter of the disk. It has only 6 arms, while the type specimen
has 7 arms. That this could be a valid specific difference hardly
anybody, who is familiar with the characters of Ophiurans, would

Fig. 12. Ophiactis hirta Lyman. — a. Part of oral side, b. of dorsal side; c. two arm-
joints from middle of arm, dorsal side. 7/1.

venture to maintain (— quite differently if we have to do with forms
normally having 5 arms; comp. sub. O. profundi). The only other
noteworthy differences to be observed between this specimen and
the type, as figured by Lyman, are in the shape of the dorsal
plates, which are more elongate in the New Zealand specimen
than in the type, and in the. oral papillæ being sligtly broader in
the former than in the type. — I do not think that these small
differences would justify us in distinguishing the New Zealand form
even as a variety of the typical O. hirta. — The figures given here
will serve to make clear the small differences from the type, and
also to facilitate distinguishing this species from the other 6-armed
Ophiactis occurring in New Zealand: seas.

It should be emphasized that in the specimen in hand all the
arms are equally developed, which may indicate that this species
does not propagate through autotomy.

128

The species Ophiactis hirla being until now known with cert-
ainty only from off the coast of N.S. Wales through the single
specimen collected by the "Challenger", it is very satisfactory that
it has now been demonstrated to occur also in the Cook Strait.
The statement of its occurrence in the Atlantic (Koehler. Echin-
odermes. Res. Campagnes Scientif. Monaco. Fasc. XXXIV. 1909.
p. 171) probably refers to a specimen of Ophiactis nidarosiensis
Mrtsn. (Comp. Th. Mortensen. Notes on some Scandinav. Echi-
noderms. Vid. Medd. Dansk Naturh. Foren. Bd. 72. 1920. p. 62).
That this latter species is closely related to O. hirta seems beyond
doubt; there is, however, a very marked difference in the shape
of the mouth shields, and also the shape of the ventral plates is
somewhat different. These "characters; addedttosthetfachethari0!
nidarosiensis is selfdividing, while O. hirta, according to the scanty
evidence at hand, is not so, and to the fact of one being known
with certainty only from the Scandinavian seas, the other only from
the Australian-New Zealand seas, necessitate, at least for the pre-
sent, that we regard these two forms as separate species.

18. Ophiactis profundi Ltk. &Mrtsn., var. Novae=Zelandiae n. var.
Figsm135=%

Ophiactis profundi. Lutken & Mortensen. 1899. "Albatross" Oph-

iuroidea. Mem. Mus. C. Zool. XXXIII. p 140. Pl. VI.
figs. 4—6.

— — H.L. Clark. 1915. Catalogue Recent Ophiurans.
p. 264.

= = R. Koehler. 1922. Ophiurans of the Philippine
seas and adjacent Waters. Bull. U.S. Nat. Mus. 100.
ps192MPIS6SEA TES

Hen & Chicken Isl., 50 fms. 30/X11.1914. 1 specimen.

2 miles E. of North Cape. 55 fms. 2/1.1915. 2 specimens.

Cook Str. 120 fms. 13/VII1.1920. Several specimens. (Collected by Mr.
Hazelwood).

These specimens are undoubtedly closely related to Ophiactis
profundi Ltk. & Mrtsn. There are, however, some slight differ-
ences which make me hesitate in simply identifying them with
that species.

129

… The size appears to be, upon the whole, smaller than in the
type, which has a diameter of disk of 6 mm. The New Zealand
specimens, which are most of them in various stages of reproduc-
tion after division through autotomy, do not exceed a size of ca. 4 mm
diameter of disk. Three of the specimens which have, appearently,
finished dividing, since they
have all 6 arms equally devel-
oped, and which would thus
appear to have reached full
size, measure only 3—4 mm
diameter of disk. The mouth
shields are generally broader
fhankinheRtype; they farer
however, subject to some var-
iation. The difference in the
shape of the infradental pa-
pilla, which is represented
here as trifid, while in the
type it is simply triangular,
pointed, is of no value as a
distinguishing feature, being
altogether too inconstant; even

in one and the same spec- Fig. 13. Ophiactis profundi, var. Novæ-Zea-

imen we may find both shapes landiæ. 12. Part of oral side of two differ-
ent specimens ; 3. part of dorsal side; 4. two

represented; "For the rest it armjoints, from middle of arm; dorsal side.

is hard to point out any note- 13/1... The two figures 1 and 4 are from an
g aberrant specimen, from off the North Cape
worthy differences between the (ef. p. 131).

typical form and the New Zea-
land specimens, excepting the fact that the latter have 4 armspines,
while the typical form has only three.

The characters here pointed out, viz. the smaller size, the dif-
ferent shape of the mouth shield and the different number of arm-
spines, would seem to necessitate distinguishing the New Zealand
specimens as a separate variety, the more so as the typical form
was found in the Gulf of Panama and at Galapagos, in depths of
550—900 fmrs.

The weight to be attached to the wide separation of the local-
ities is, however, considerably lessened through the fact that Koeh-

Vidensk. Medd. fra Dansk naturh. Foren. Bd. 77. 9

130

ler recently has recorded O. profundi from the vicinity of the Phi-
lippines. If Koehler is right in uniting the Japanese form Ophi-
actis pteropoma H. L. Clark with O. profundi, — as seems very
probable — this would indicate that the species is probably distri-
buted all over the Pacific, and the occurrence of a variety of it
in New Zealands seas would thus be very well in accordance with
zoogeographical facts.

In his paper "Brittle-Stars, new and old" (Bull. Mus. C. Zool.
XII TOTS pp SOL HE LC lark has"maintainedtthatsthelspeeles
Ophiactis plana Lyman, flexuosa Lyman, perplexa Koehler, profundi
Ltk. & Mrtsn. and brachygenys H. L. Clark are really all one and
the same species, which is thus distributed all over the Atlantic
and Indo-Pacific Oceans and has a bathymetrical range of 26—
1048 fms. I cannot agree with Clark in this view. It is beyond
doubt that they are all closely related, as every writer on these
forms has well recognized. But the unusually great horizontal and
bathymetrical distribution, which a species comprising all these
forms would have, must make us look very carefully into the
matter, before we accept their identity. One of the objections raised
by Lutken"& myself (Op [cit: p. 141) FagaiastEthelidentitydorme
profundi with O. flexuosa, at least, is still as valid as ever, viz.
that O. flexuosa has only five arms, while O. profundi has constantly
six farms Stheretistnorsuffieclenttevidencetthatinkanytspeceleskthe
young has six arms, the adult only five" — and Clark has given
no new evidence whatever as to this point. Concerning O. plana
Lyman, from the Atlantic, the figures given by Clark in his
«Catalogue of Recent Ophiurans'" would seem to show that the
ventral plates of this species are different in shape from those of
the New Zealand form; for the rest these figures are not suffic-
iently distinct for allowing a detailed comparison. The fact that this
species has 6 arms, otherwise, does not, a priori, make it impro-
bable that it might be identical with O. profundi, but the available
material does not seem to me to justify declaring them to be
identical. As for O. brachygenys this form has five arms and is thus
certainly not identical with O. plana or O. profundi, and the same
holds good with regard to O. perplexa, which is otherwise disting-
uished by the spines occurring on the edge of the disk.

Thus, while agreeing that O. plana and profundi may possibly

r'31

. prove to be identical I must maintain that sufficient proof of their
identity has not yet been given, and for the present the only safe
course is to keep them separate. Also the New Zealand form ought
to be kept separate for the present, the differences pointed out
above pointing more in the direction of its being a separate species
than of its being simply identical with O. profundi.

One of the two specimens from off North Cape differs in the
dorsal plates being in contact in the larger part of the arms, thus
having a truncated inner angle, and also in the ventral plates being
more broadly in contact than is otherwise the case, and, upon the
whol=, somewhat different in shape from those of the other spec-
imens (Fig. 13.1 and 4). I do not think, however, that this can be
regarded as more than an individual variation, especially since the
said features are more conspicuous on one arm than on the others.
But attention must be called to this form, which may possibly ulti-
mately turn out to be another, distinct species. The two specimens
from off North Cape have a few narrow, dark bands on the arms.

£Ophiactis nigrescens” Hutton.

iihronshetherkindnesstor MrEWwWSREBSOli ver IF haverreceived
a specimen of an Ophiurid from the Dominion Museum, Welling-
ton, which is, according to a handwritten label by Mr. Farquhar,
the type specimen of Hutton's fOphiocoma nigrescens". Since
Hutton did not describe any "Ophiocoma nigrescens", but only an
£Ophiactis nigrescens", it would seem probable that this is the type
specimen of the latter, to the description of which it corresponds
fairly well. It is a very poor specimen of Ophiocoma schoenleini
M. & Tr. — That it is not from the New Zealand seas is evident;
most probably the specimens have come from Fiji, as had also the
£Ophiothrix coerulea" of Hutton.

Herewith the "Ophiactis nigrescens", which has for so long a time
puzzled the echinologists, may well disappear both from the list of
Ophiurids and from the New Zealand fauna.

9

132

19. Amphiura magellanica Ljungman.
Figs. 14.1—3; 15.a.

Amphiura magellanica. Ljungman. 1866. Ophiuroidea viventia huc
usque cognita. Ofvers. kgl. Vet. Ak. Fårh. p. 320.
— — (?) Th: Lyman. 1875. Zo0ool Res: Hassler'Exped:
II. Ophiuridæ and Astrophytidæ.
Ill. Cat Mus. Comp. Zool. VIII.
p. 19
=— =— — 1882. "ChallengerfOphiuroidea,
p. 143.
— — H. Ludwig. 1899. Hamburger Magalh. Sammel-
reise. Ophiuroidea. p. 10.
== — — 1905. Asterien u. Oph. d. schwed.
É ExpedtZSweZo0l Bis ep ss:
— — R. Koehler. 1909. Asteroidea, Ophiuroidea &
Echinoidea. Scottish National Ant-
arct: Exp: Vol V5Part INF E PME
Pleo 0
— — == 1914. Ophiurans of the U.S. Nat.
Museum. Bull. U.S. Nat. Mus. 84.
p. 65.
— = H. Lym. Clark. 1915. Catalogue Ree. Ophiur-
ans. p 228.
—- == Th. Mortensen. 1920. On hermaphroditism
in viviparous Ophiurids. Acta Zoologica. I. p. 12.

Masked Island, Carnley Harbour. Auckland Isl. 3/X11.1914. Several spec-
imens, on the rocks, among calcareous algæ (Melobesia ant-
arctica).

Figure 8 Isl., Carnley Harbour, Auckland Isl. 2/XI1.14. 4 specimens,
under stones, at low water.

Port Ross, Auckland Isl., 10 fms. Sand. 25/XI.14. 1 specimen

Carnley Harbour, Auckland Isl., ca. 45 fms; sandy mud. 6/X11.1914. 1
specimen.

Perseverance Harbour, Campbell Isl. Ca. 20 fms, sandy mud. 10/X11.1914.
3 specimens.

Wellington Harbour, 5—10 fms, hard bottom. 16/11.1915. 2 specimens.

Queen Charlotte Sound, 3—10 fms, hard bottom. 20/[.1915. 2 specimens.

The finding of this interesting viviparous and hermaphroditic
Ophiurid in New Zealand seas is rather surprising; not from a
zoogeographical point of view — it is one of the forms which
might be expected to have got a circumantarctic distribution through
being carried by floating algæ —, but as it occurs in a place like

133

. Wellington Harbour, we may well wonder that it has been over-
looked hitherto. It is also surprising that it was not found by the
Expedition to the sub-antarctic Islands of New Zealand, as it is
fairly common at least in Carnley Harbour, occurring there on the
rocky shores among the beautiful Melobesia antarctica which covers
the vertical rock wall to a great extent; also under stones at low
water mark it may be found.

Although mentioned fairly often in literature, the only figure
of it ever published is that given by Koehler in his Report on

Fig. 14. Amphiura magellanica Ljungm. — 1. Part of oral side; — 2. of dorsal side:
3. two armjoints from middle of arm, dorsal side. ”?/1.

the "Scotia" Echinoderms. It is therefore evidently not superfluous
to give some figures here to illustrate the characters of this spec-
ies. Also for comparison with the following species such figures are
rather needed.

The largest specimens measure 6 mm diameter of disk, with
an armlength of ca. 25 mm. Although fairly robust looking, it is
exceedingly brittle, which may be due to the narrowness of the
side armpiates, leaving a rather large membraneous space between
each two successive plates. The radial shields are scarcely "/3 of
the disk radius. The primary plates hardly to be discerned in the
larger specimens, while in the younger ones they are quite distinct.
The disk generally swollen and bulging out between the arms. The
tubefeet are somewhat papillose. In larger specimens there may be

134

7 spines on the basal armjoints; in the middle of the arm there
are only 5 spines. The long, downwards directed ventral spines
(Fig. 15.a), may perhaps have relation to the biology of the spec-
ies: mainly living among algæ, not burrowing in sand or mud, as
is otherwise the rule among Amphiurids.

Amph. magellanica was hitherto known to occur only in the
Magellan region and at the Govgh Island in the S. Atlantic. It is
then of considerable zoogeographical interest to have proved it to
occur also in the New Zealand region. The greatest depth at which

as b.

Fig. 15. Four armjoints from middle of arm, in side view, showing the elongated
downward pointing lower spine. — a. Amphiura magellanica ; b. Amph. spinipes. 29/1.

it has been found is 75 fms (Gough Isl.). It appears to be mainly
littoral.

After this had been written I received from Prof. Benham a
specimen of this species dredged in Otago Harbour, 2 fms, and
also one from Foveaux Strait. This proves, as might be concluded
from its occurrence at the Cook Strait coast, that this species oc-
curs along the coasts of the South Island of New Zealand. Whether
it extends farther North than the Cook Strait remains to be seen.

20. Amphiura spinipes n. sp.
Figs. 15.b; 16.a—c.
Little Barrier Isl., 30 fms, shells. 29/XII.14. 7 specimens.
Colville Channel, 35 fms; sandy mud. 21/X11.14. 8 specimens.
10 M. N.W. of Cape Maria van Diemen, 50 fms; hard bottom. 5/1.15.
Several specimens.
Three Kings Isl. 65 fms; hard bottom. 5/1.15. 5 specimens.

135

Ås appears from a comparison of the figures of this species
with those of 4. magellanica, it is really difficult to indicate reliable
distinguishing features in the characters of the plates or spines.
The oral shields have the same rounded shape in both forms; the
ventral plates are more rounded at the outer edge in spinipes,
more straight or even slightly concave in magellanica — but, al-
though it may appear distinct enough in the figures, the difference
is really very slight. The single tentacle scale quite alike in both

) SE
BB; LIP
GÅ

Fig. 16. Amphiura spinipes Mrisn. — a. Part of oral side; b. of dorsal side; c. two
armjoints from middle of arm, dorsal side. "/1,.

species. The dorsal plates in the interior part of the arm are some-
what narrower and more elongated in spinipes than in magellanica;
those further out on the arm very nearly of the same shape in
both species. The radial shields are narrower and more elongated
than in magellanica, ca. ”/2 the disk radius, and the scales cover-
ing the disk on both sides are distinctly finer in spinipes than in
magellanica. The armspines are as in magellanica, 6 (more rarely
7) at the armbase, 5 farther out, and the ventral is very much
elongated, somewhat curved, and directed straight downwards. The
tube feet are not papillose.

Upon the whole, these two forms agree so closely that one
might be more inclined to think the form, here distinguished as
Amph. spinipes, merely to represent a more slender variety of ma-
gellanica. That it is, however, really a distinct species is proved

136

beyond any doubt by the fact that it is not viviparous and not
hermaphroditic, as is magellanica. Also the eggs are distinctly
smaller, only ca. 0,1, mm, those of magellanica ca. 0,2 mm, and
probably it has then typical pelagic larvæ.

The species is, upon the whole, smaller and more delicate than
magellanica; the largest specimen measures 5 mm diameter of disk;
the arms are ca. 4—5 times the length of the diameter of disk. The
long ventral armspines give the arms a very peculiar appearance,
looking more like feet than like spines, and the suggestion lies at hand
that they do really act as such (the species-name spinipes is meant to
refer to this); they are gradually increasing in length from the base
of the arm to the 8th-—10th joint, remaining very long on some
20—25 joints, and then again gradually diminishing in length to-
wards the point of the arm. It can hardly be doubted that this
Amphiurid lives among shells a. 0. hard objects on the bottom, not
burying itself in the sand or mud, as do most other Amphiurids.
Its long spines would, evidently, be very unfit for digging, but very
useful for crawling among hard objects, in the same way as does
Amph. magellanica, the armspines of which are exactly similar, only
somewhat more robust.

Three specimens from North Channel, Kawaii, Hauraki Gulf,
10 fms (29/XI[.14) I must hesitate in simply referring to this
species. They are, in fact, more like 4. magellanica, but not being
viviparous nor hermaphroditic they cannot belong to that species.
They are somewhat more robust than A. spinipes, and the ventral
spines not so long as they generally are in that species. Also the
eggs are somewhat larger. — I shall prefer to leave undecided
at present, whether they should be regarded as a variety of A.
spinipes or as representing, perhaps, a separate species. But it may
be useful to call attention to the possible existence in New Zea-
land seas of still another species of the group of Amphiura's with
elongate ventral spines.

21. Amphiura præfecta Koehler.
Figs. 17.a—c.
Amphiura præfecta. R. Koehler. 1907. Revision de la collection des
Ophiures du Muséum d'hist. Nat. Paris. Bull. sci.
Fr. & Belgique. XLI. p/ 302.
= — H. L. Clark. 1915. Catalogue Rec. Ophiurans; p. 235.

137

Masked Island, Carnley Harbour; Auckland Isl. Among Melobesia ant-
arctica on rock wall. 3/XII.14. 10 specimens.

Perseverance Harbour, Campbell Isl., ca. 20 fms. Sandy mud. 10/X11.14.
3 specimens.

Only a few remarks need be added to the careful description
given by Koehler, the figures otherwise supplying the necessary
information.

The. largest specimen measures 4 mm diameter of disk; the
arms are ca. 4 times the diameter of the disk. The outer oral papilla
is very broad, not pointed, but may be serrated along its free

/ 1, DK (N
| SØ SES A/ Y
Se BE
KNEE PSO,
NAS NCAA) SEE SS

mæ

es: 7—<
FE NE
NS ÆRES 2-0
a e: b
Fig. 17. Amphiura præfecta Koehler. — a. Part of oral side; b. of dorsal side; c.

three armjoints from middle of arm, dorsal side. 78/1,

edge. The oral shields are generally triangular, but the outer edge
is sometimes more convex than shown in the figure. The radial
shields may be contiguous in the outer part. The primary plates
in younger specimens join completely, with no small plates between
them, thus forming a very conspicuous rosette.

The species, although apparently not viviparous, shows some
unusual features in the arrangement of its genital organs. There
is, in both sexes, only one gonad to each bursa, situated at the
interradial side; the eggs are large and yolky and do not all ripen
at the same time, as is the rule in non-viviparous forms, but one
after another, as is the case in viviparous forms. This is so re-
markable and exceptional that one cannot help suggesting that it
may, however, ultimately prove to be viviparous; the fact that the

138

eggs ripen one after another, and consequently must be laid one
after another, is not in favour of assuming that some sort of care
of the brood exists, the rule in other Echinoderms which protect
their brood being that the eggs are laid simultaneously.

The species was first found at Campbell Island by Filhol,
the single specimen secured by him remaining undescribed until
Koehler undertook a revision of the Ophiuroid-Collection of the
Paris Museum (1907). Through the present author's researches it has
now been shown to occur also at the Auckland Islands. The fact that
it has not been found in other localities would seem to indicate
that it is endemic to the subantarctic region of New Zealand.

22. Amphiura aster Farquhar.
Figs. 18—19.

Amphiura aster. Farquhar. 1901. Description of a new Ophiurid. Trans.
NÆZS ns II

4

Fig. 18. Amphiura aster Farquhar. — 1. Part of dorsal side; 2. four armjoints from
middle of arm, dorsal side; 3. various forms of mouthshields: 4. two armjoints, from
another specimen, dorsal side; 5. two dorsal plates from yet another specimen. ””/1,

139

PAmphiura aster. Koehler. 1907. Revision de la collect. des Ophiures
du Mus. d'Hist. nat. Paris. Bull. sc. Fr. et Belgique XLI.
p. 299. Pl. XI, 15—16.
— … arenaria Farquhar. 1913. On two new Echinoderms. Trans.
NeEZSIns EVE PIA PISIVE
= Lyn FarkloS catalogue tReet Op p 224:
==" DSU = Ibidem. p. 224.

No specimens were collected by the author, but a few spec-
imens of 4. arenaria from Plimmerton were sent to me by Mr.
Farquhar in 1912, and a pair of specimens of A. aster (unfor-
finatelytin an very poor state"of
preservation) from Timaru, the type
locality of this species, were pre-
sented to me by Mr.W.R.B.Oliver.
Also a pair of specimens of arenaria
(again from Plimmerton) were sent
me from the Dominion Museum,
Wellington.

On studying these specimens I
find that they all belong to one and
the same species, and there can be
no doubt, accordingly, that Amph.
arenaria is a synonym only of A.
aster. Farquhar has also himself
called attention to the close relation
between arenaria and aster, but
thinks the differences in the scaling
oMktheRdiskkandkthet shape fol the
mouth parts sufficient for separating
them as two different species. As
regards the scaling of the disk there is, however, so considerable
a variation that it is quite out of question to find a reliable disting-
uishing character herein. The same I find to hold good for the
shape sof the mouth parts. Especially, I find the oral shields exceed-
ingly variable in form, as shown in figures 18,3 and 19. No other
differences existing between the two forms, I do not hesitate in
declaring them identical.

Regarding the characters of this species I would point out the
fact, already observed by Farquhar, that two tentacle scales are

Fig. 19... ÅAÅmphiura aster Farquhar.
Parlorforalfsidesk 2/35

140

found only on a few of the proximal joints; farther out generally
only one scale remains, sometimes placed on the side plate (as in
fig. 19), sometimes in the corner between the side plate and the
ventral plate, as usual in species where only one scale is found.
The ventral plates gradually change in form, from narrow, elongate,
about twice as long as wide, in the inner part of the arm, to rect-
angular, almost twice as wide as long, farther out (Fig. 19). The
dorsal plates are, generally, more or less fanshaped, but upon the
whole rather variable in shape; the proximal ones are rudimentary
or, partly, absent, as pointed out by Farquhar. (Fig. 18.1—2, 4—5).
Some of the armspines show the characteristic feature of having a
widened, slightly serrate distal edge in the basal part (fig. 18.4);
this feature is especially distinct on the second spine from below,
and, apparently, does not occur on the lowermost or the uppermost
one. The lowermost spine is slightly curved.

The figures of Amph. aster given by Koehler (Op. cit.) offer
so conspicuous differences frøm the characters to be observed in
this species that they must either be very diagrammatic or represent
another species.

The eggs are fairly large, ca. 0,15—0,18 mm, which may per-
haps indicate that this species has not a typical Ophiopluteus-larva.

23... Amphiura noræ Benham.

Amphiura noræ. W. B. Benham. 1909. Sci. Res. N. Z. Governm. Trawl-
ing Exp. 1907. Echinodermata, p. 22. Pl. X.;—3.

This species, — besides Ophiocormus notabilis the only New
Zealand Ophiurid not examined by the present author, — is very
well distinguished from the other New Zealand Amphiura's through
its two tentacle scales and» the nearly naked underside of the disk.

I have no remarks to offer to the careful description and figures
given by Benham.

24. Amphiura rosea Farquhar.
Fig. 20.1—7.
Amphiura rosea. Farquhar. 1894. Description of a new species of
Ophiuridæ. Trans. N. Z. Inst. XXVI. p. 110. Pl. IX.
— — Farquhar. 1898. On the Echinoderm Fauna of New
Zealand. Proc. Linn. Soc. N.S. Wales. p. 308.

141

Amphiura rosea. H. Lyman Clark. 1915. Catalogue Recent Ophiurans;
pres

— parva Hutton. H. Lyman Clark. Ibidem, p. 230. Pl. V, figs.
KOK

Wellington Harbour, c. 5 fms; mud. 16/1[.15. 3 specimens.

Queen Charlotte Sound, 3—10 fms; mud. 19—20/1.15. 2 specimens.
Off Bare Island, 35 fms; mud, clay. 17/XI1.14. 1 specimen.

Off Tiri-Tiri, Auckland, 15 fms; mud. 28/XII.14. Numerous specimens.

To the very careful description of this species given by Far-
quhar only a few remarks need to be added. Reference must

Fig. 20. Amphiura rosea Farquhar. — 1. Part of mouth and oral side of arm; 2. three
armjoints from middle part of arm, dorsal side ; 3—5. various shapes of dorsal plates;
6—7. various shapes of mouthshields. All figures ””/1.

also be made to his careful figures; only a few details it is desir-
able to figure here.

The oral shields are stated by Farquhar to be circular, usually
with a slight peak within. I have found a considerable variability
in regard to the shape of the oral shields, the nearly circular form
being met with more rarely. The usual form I find to be that with
a slight restriction near the outer edge (Fig. 20,1). The adoral shields
sometimes join completely proximally to the oral shield; they may
prolong outwards so as to reach the genital slit, but equally often
they have no such prolongation (Fig. 20.1). The outer mouthpapillæ
I have sometimes found to be bifid. The arms, which are very
long and slender, ca. 15 times the diameter of disk, are some-
what flattened and slightly increasing in width, thus being some-
what more slender close to the disk than farther out, and then very
gradually tapering towards the end. The dorsal plates may vary

142

rather considerably in shape (Fig. 20.2—5). As remarked by Far-
quhar there is not rarely only one tentacle scale at some of the
proximal pores.

The numerous specimens from off Tiri-Tiri have nearlv all of
them lost their original reddish colour on being preserved in alco-
hol; only a few of them have remained much darker than the rest.

The eggs are small, ca. 0,07-—0,08 mm, which fact tends to
indicate that this species will prove to have a typical Ophiopluteus-
larva.

The species having hitherto been recorded only from Wellington
Harbour and Foveaux Strait (H. Lym. Clark, op. cit.), it is of
interest to find it so widely distributed in the New Zealand seas,
in some places even occurring in great numbers.

The species mentioned and figured by H. L. Clark in his
Catalogue of the Recent Oph. (loc. cit.) under the name of Am-
phiura parva Hutton is not that species (which latter has been
shown by Benham to be Amphipholis squamata) but Amphiura
rosea Farqu. I can state this, having had, through the kindness of
my friend H.L. Clark, one of his specimens for examination.

Farquhar thinks this species nearly related to Amph. bellis
Lyman from the Japanese seas. I am inclined to think it more
nearly related to Amphiura Eugeniæ Ljungm. from the South Amer-
ican seas (the Fuegian region) and from off Kerguelen. I do not
think, however, that it is identical with the latter species. Espec-
ially the shape of the oral shields, although very variable in A.
eugeniæ, as shown by Koehler”) seems to afford a distinct dis-
tinguishing character, being upon the whole more elongate and
spearshaped in A. eugeniæ, shorter and more rounded in Å. rosea.

25. Amphiura eugeniæ Ljungm. var. latisquama n. var.
Fig. 21.a—c.

Among the Ophiurids from New Zealand, brought home by the
author, there is a single specimen of an Amphiura, in a very poor
state of preservation (dried), labelled only New Zealand. I am not
quite sure how I have got it, but it is presumably one of the Echi-
noderms presented to me by Mr. W.R. B. Oliver, and therefore
probably was found in the neighbourhood of Auckland.

1) See under the following species.

143

The specimen shows a very close resemblance to Amphiura
eugeniæ Ljungman. In view of the great variations shown by Koeh-
ler") to occur in this species, especially as regards the shape of
the oral shields, I do not think the small differences from the typ-

Fig. 21. Amphiura eugeniæ, var. latisquama. — a. Part of dorsal side; b. of ventral
side; c. three armjoints, from middle part of arm, dorsal side. a. ”/1; b.,—c 18/1,
ical form (from Kerguelen) to be observed in this specimen suf-
ficient for maintaining it as a separate species. It seems to me
preferable — until more and better material enables us to form a better
judgment of the value of these differences — to designate it as a
variety only of Amphiuræ eugeniæ; thus the undeniable close relation

to the said species is emphasized.
1) R. Koehler. Échinodermes (Astéries, Ophiures et Échinides) recueillis

par M. Rallier du Baty, aux iles de Kerguelen, en 1913—1914. Ann. de
FlnstFOceanogr VIE 1917: p- 63: PL-VIIL figss 1-9:

144

The New Zealand specimen (Figs. 21.a.—c.) differs from the
Kerguelen form in the character of the ventral plates, which are
somewhat shorter and wider than generally in the typical 4. eugeniæ;
also the characteristic form of the proximal ventral plate, shown in
the figure, affords a character distinguishing it from 4. eugeniæ. The
shape of the oral and adoral shields is almost exactly similar to
that of A. eugeniæ seen in Pl. VIII, fig. 8 of Koehler's work. The
outer mouth papilla appears to be generally more scale-like in 4.
eugeniæ than in the New Zealand form, but in Koehler's Pl. VIII,
fig. 9 the shape of this papilla is very much like that of the New
Zealand form. A noteworthy feature of the New Zealand form is
the presence of a small papilla outside the normal outer papilla;
such papilla is not observed in any of Koehler's figures of A.
eugeniæ, and mot mentioned in the text either.”) If this papilla
proves to be a constant feature in the New Zealand form I would
be inclined to ascribe some importance to it. —— The radial shields
are very small, widely divergent; they do, however, not differ
much from those inf Pl VII SKE NS Tor K oe ler skworklessEse
than those of another specimen of 4. eugeniæ represented in Fig. 1
on the same plate in Koehler's work. The shape of the dorsal
plates may perhaps prove slightly different in the two forms, but
I cannot ascribe much importance to a small difference herein. —
The tentacle scales are regularly two in the whole of the arm
fragment preserved; some of the proximal pores have three scales,
as has also been observed in A. eugeniæ by Koehler.

I may take the opportunity here of pointing out that also Am-
phiura mortenseni Koehler appears to be very closely related to A.
eugeniæ and perhaps cannot be maintained as a distinct species.
At least, a comparison between the figures of 4. eugeniæ, given by
Koehler in the work on the Echinoderms of Kerguelen quoted
above, and those of 4. mortenseni, given by Koehler in his report
on the Ophiuroids of the Australian Antarctic Expedition, Pl. 80,
figs. 5—8 conveys the impression that these two species are so
closely related as to be hardly distinguishable from each other.

1) In one of some specimens of 4. eugeniæ, kindly sent me by Prof. Koeh-
ler, I find a trace of this small outer papilla at one side of one of the
mouth corners.

145

26. Amphiura amokuræ n. sp.

Figs. 22.a—c.

Perseverance Harbour, Campbell Island; under stones, at low water.

8/XI1.1914. 2 specimens.

North Cape, New Zealand; under stones, at low water. 3/1.1915. 1 spec-

imen.

Diameter of disk 5 mm, length of arms 4—5 times the dia-
meter of the disk. The scales of the aboral side of the disk rather
coarse, somewhat irregular, round the radial shields more regular,
imbricating; the primary plates are distinct. The radial shields are

FSK

Aaal

z7
lg

Fig. 22. Amphiura amokuræ Mrtsn. — a. Part of oral side; b. of dorsal side; c. three
armjoints from middle of arm, dorsal side. "2/1.

small, only ca. ”/3 of the disk radius; they are diverging, com-
pletely separated by several irregular scales. The oral side of the
disk has a complete covering of very fine scales. The oral papillæ
are large, oval, not spiniform; sometimes a very small papilla is
found distally to the large papilla. The oral shields are almost
rhomboidal, with only a small outer lobe. The adoral shields do not
ineet within and, as a rule, do not reach the genital slits. The ven-
tral plates are about equally wide and long, with their lateral and distal
edges slightly concave and the outer corners rounded. Two small tent-
acle scales. The dorsal plates are in the proximal part of the arm
somewhat elongate, fanshaped, about as long as wide, farther out
more oval, nearly twice as broad as long. The armspines are short,
outstanding, distinctly flattened; there are six, sometimes seven, in

Vidensk. Medd. fra Dansk naturh. Foren. Bd. 77. 10

146

the proximal part of the arm, the number gradually decreasing to-
wards the point of the arm.

The eggs are rather small, only c. 0,1 mm.

The specimen from North Cape differs from those from Camp-
bell Island in having much finer scales on the aboral side of the
disk, the central plate alone remaining distinct; also the radial
shields are a little smaller and narrower. As I do not find any
other characters by which to distinguish it from the typical form,
I do not hesitate in referring it to the same species. If the differ-
ences noted in the scaling and the radial shields prove constant,
it may well be distinguished as a separate variety — but the
material available does not allow judging of the constancy of this
feature. i

The species shows a considerable resemblance to Amphiura
incana Lyman, from Cape of Good Hope. ("Challengerf Ophiur-
oidea, p. 128, Pl. XXXIII, figs. 5—7). The broad outer oral papilla
of A. incana and the different configuration of the oral and adoral
shields would appear, however, to afford good distinguishing char-
acters, to which must be added the difference in the shape of the
ventral plates which are — judging from the figure given by
Lyman — distinctly broader in incana than in amokuræ, and the
number of the spines, eight in incana, six (seven) in amokuræ.
These differences would seem to put the specific distinctness of
the two forms beyond all doubt.

After this was written I received from Professor Benham two
specimens of-thisttspecies; "dredgedfint0tagokharbonre sm sERVvie
1923. They agree very well with type specimens from Campbell
Ist., only the arms are somewhat longer, ca. 7 times the diameter
of the disk. Also a young specimen from Lyall Bay and one from
Timaru, collected by Mr. W. R. B. Oliver in 1907, prove to. belong
to this species. — It is very satisfactory thus to have demon-
strated the occurrence of the species at the coast of the South Is-
land of New Zealand. This fact, together with the above statement
of its occurrence at North Cape, leaves no doubt that it will prove
to occur all along the New Zealand coasts.

147

27... Amphiura alba n. sp.

Figs. 23, a—c.
Colville Channel, 35 fms; sandy mud. 21/XI1.14. 4 specimens.

Diameter of disk 4 mm; length of arms 4—5 times the dia-
meter of the disk. The scales of the disk on the aboral side fairly
large, those on the oral side much finer, but forming a complete
covering. The primary plates not very distinct; the radial shields

1
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Fig. 23. Amphiura alba Mrtsn. — a. Part of oral side, b. of dorsal side; c. two arm-
joints from middle of arm, dorsal side. ?”9/1.

rather broad, not quite as long as half the disk radius; they are
diverging and may be separated by a narrow wedge of scales or
join in their outer part. The outer oral papilla broad, but pointed,
thus evidently of the spiniform type. The oral shields are about
spear-shaped, somewhat longer than broad. Adoral plates just meet-
ing within, sometimes excluded from the genital slit. The ventral
plates are distinctly broader in their outer part, the outer edge being
slightly concave. One small triangular tentacle scale. The dorsal
plates are broadly contiguous, with the aboral edge slightly con-
vex; they are distinctly broader than long. The basal armjoints
carry 6 short slender spines; farther out the number diminishes,
as usual, to 5—4, and 3 at the end of the arm. They do not

10"

148

stand out at a right angle to the arm, as is the case in the pre-
ceding species. The two ventral spines are slightly longer than the
others.

The colour is white, somewhat shining, especially in the oral
region. The eggs are very small and numerous; it may thus be
inferred that it has typical pelagic larvæ.

This species appears to be nearly related to Amph. angularis
Lym. occurring at Kerguelen (cf. Koehler. Échinodermes, recueillis
par M. R. du Baty, aux iles de Kerguelen, en 1913—14. Ann. Inst.
Océanogr. "VIL. 1917. p.'67. PIAVIIL, figs! 13-75) Int facts
only the different number of armspines (4—3 in angularis, 6—5
in alba) and the different character of the dorsal plates (broadly
in contact in alba, scarcely so in angularis) which appear to form
distinguishing characters. This is, however, sufficient for showing
that they cannot simply be regarded as identical. Also to Amph.
constricta it bears a considerable resemblance; but the fact that
this latter species is viviparous at once proves that these two forms
are not identical.

28. Amphiura hinemoæ on. sp.

Figs. 24. a—d.
Of£f White Island (370 40” S. 1770 1” E.), 55 fms; sandy mud. 19/X11.14.
2 specimens.

Disk covered by numerous rather fine scales, among which
the six primary plates are distinct, through their somewhat larger
size and through having a whitish spot in the middle, surrounded
by a darker ring, due to a special structure of this part of the
plate. The radial shields are narrow and elongate, equalling half
the radius of the disk in length; they are separated throughout
their length. The underside of the disk is naked, the limit between
the naked part and the scales along the border being quite sharp;
a few larger scales are found along the genital slits. The outer
mouth papilla is somewhat leafshaped, not simply spiniform. The
oral shields are, in the larger specimen, rhomboidal, in the smaller
specimen almost triangular, with outer edge rounded. Adoral plates
rather narrow, meeting within. The ventral plates are somewhat
elongate, with outer edge slightly concave and the outer corners
rounded. The first fully formed ventral plate is distinctly broader

149

.in the distal than in the proximal part; outside the disk they are
in contact merely with the point. Only one small tentacle scale.
The dorsal plates are transverse oval with an obtuse point in-
wards, not in mutual contact. Three subequal armspines, about as
long as an armjoint. Colour of the dried specimens white.

The larger specimen, measuring 4 mm diameter of disk, has
all five arms broken; in the smaller specimen, 3 mm diameter of
disk, the arms are about 5—6 times the diameter of disk.

Fig. 24. Amphiura hinemoæ Mrtsn. — a. Part of oral side ; — b. part of mouth and
proximal armjoint of smaller specimen ; — c. part of dorsal side; —- d. two armjoints
from middle of arm, dorsal side. "6/1.

The eggs are not large, 0,5 mm. Apparently they do not all
ripen at the same time, which might well indicate that the species
has not typical pelagic larvæ. However, the material in hand is
rather too insufficient for giving this conclusion a reasonably firm
base.

Among the small group of Amphiuras with one tentacle scale,
three spines and naked underside of the disk A. seminuda Ltk. &
Mrtsn. and A. carchara H. L. Clark, both from the North Pacific,
are evidently nearly related to the present species. From the former
(known only from the mouth of the Gulf of California) it is
distinguished through the different shape of the outer mouthpapilla
(spiniform -in seminuda), through the different shape of the radial
shields (broadly joining in seminuda) and through the primary plates,

150

which are, not visible in the latter species. In A. carchara the outer
mouthpapilla is also long and spiniform and there would appear to
be some differences between A. hinemoæ and carchara also in the
scaling of the disk (primary plates not seen in the latter) and in
the shape of the dorsal plates. -— These differences are not very
important, it is true, but by the great geographical distance it would
be quite unjustifiable to regard the New Zealand form simply as
identical with the North Pacific form, since there are distinct dif-
ferences. Especially, I should think the shape of the outer mouth-
papilla a valuable character.

29. Amphiura annulifera n. sp.

Figs:25.'a—c.
Plimmerton, under stones, at low water. 15/1.1915. 2 specimens.

Diameter of disk, 3 mm, length of arms ca. 3 times the dia-
meter "oføthedisk; The scales"inthe"middleTortheaboralksideRot
the disk rather coarse. The central plate distinet, but the other
primary plates indistinguishable; towards the edge of the disk the
scales are conspicuously smaller than in the middle. The scales on
the oral side of the disk very fine. The radial shields are small,
separated, divergent, equalling only '/s of the disk radius. The
outer oral papilla fairly large, not spiniform. The oral shields are
triangular, with slightly rounded sides; adoral shields meeting within
and adjoining the inner border of the genital slit with their outer
edge. The ventral plates are elongate, somewhat longer than broad,
with the sides almost straight and the outer edge slightly concave,
outer corners rounded; the proximal end truncate. One small, but
distinct tentacle scale; pores small. The dorsal plates are fan-
shaped, with the proximal end truncate, somewhat wider than long.
4 short, cylindrical spines, of almost equal length. Genital slits
narrow.

The two specimens show a characteristic coloration, viz. a brown-
ish ring round the mouth, across the mouth angles, proximal to the
outer oral papilla; the species name refers to this feature. Other-
wise they have no coloration.

This small species is viviparous, two fairly large young ones
being found in the one specimen, which was sacrificed for anatom-
ical study. It disclosed the very important and interesting feature

Fol

of being hermaphroditic, as the author has shown nearly all
viviparous Ophiurids to be.) It was found to have one testis at
the adradial side and one ovary at the interradial side of each
genital slit. The eggs are fairly large, ca. 0,3 mm, full of yolk.

The two specimens were found together with, and under the
same conditions as Amphipholis squamata, and may well be sup-
posed to be of not rare occurrence in such localities as those, where
the latter species is found.

This species appears to be nearly related to the Australian
Amphiura constricta Lym., from which it differs, however, besides

Fig. 25. Amphiura annulifera Mrtsn. a. Part of oral side, b. of dorsal side; c. three
armjoints from middle part of arm, dorsal side. ?2/,,

in some minor details (tentacle scales larger, more elongate, dorsal
armplates somewhat shorter and broader, radial shields somewhat
more elongate in A. constricta) in the anatomical relations of the
genital organs, A. constricta having both ovary and testis on the
same, interradial side of the genital slit.

Also to the antarctic Amphiura algida Koehler the present spec-
ies shows a considerable resemblance, but still differs so much from
it in various minor points that their specific identity is out of
question. It is unknown whether 4. algida is ålso viviparous.

1) Th. Mortensen. On hermaphroditism in viviparous Ophiurids. Acta
Zoologica. I. 1920.

52

30. Amphiura pusilla Farquhar.
Figs. 26.1—2.
Amphiura pusilla. H. Farquhar. 1897. A contribution to the history
of N. Z. Echinoderms. Journ. Linn. Soc. Zool. XXVI.
PE OTEPEEXIV Ki gs IE 88
— — H. L. Clark. 1915. Catalogue Rec. Ophiurans. p.235:

Fig, 26.1—2. Amphiura pusilla Farquhar. %/1. 3—4. Amphiura sp. %/1. 1. and 3. part
of vral side; 2. and 4. part of dorsal side.

Island Bay, Wellington. 22/1.1915. 1 specimen.

Wellington Harbour, 5—10 fms. Hard bottom. 16/11.1915. 1 specimen.

Otago Harbour. VI1.1923. 1 specimen (received from Professor Benham).

All three specimens are in a poor condition. Still they are suf-
ficient to enable me to give a little additional information about
this species. They are all small, the largest scarcely-3 mm diameter
of disk. Arms all broken.

The figure of the ventral side of this species given by Far-
quhar is not quite satisfactory, the shape of the mouthshields as
well as of the ventral plates not being very well represented. In

153

. my three specimens I find these plates to have the shape given in
Fig. 26... Also the mouth parts are not quite satisfactorily repre-
sented in the said figure in Farquhar's paper. Farquhar's state-
ment that the first tentacle scale is long and spiniform probably
refers to the inner mouth papilla; the tentacle scales proper are
all rounded, leaf-like, as shown also in Farquhar's figure.

I can give no information as regards the propagation of this
species. It would especially be very interesting to know whether
it is viviparous or not — but the solution of this question requires
much better material than that at present available. — The species
was hitherto found only at Wellington. As pointed out by Farquhar
this species is very closely related to Amph. constricta Lyman. In
fact, I am rather inclined to think that they are really the same
species. But until we know whether A. pusilla is also viviparous
and hermaphroditic like A. constricta we must keep them as separ-
ateRspecies!

31. Amphiura sp.
Figs. 26.5—4.

A single small specimen of an Amphiura, dredged in a depth
of 50 fathoms, 10 M. N.W. of Cape Maria van Diemen, on hard bot-
tom (5/1.1915) very probably represents a hitherto unknown species.
It is, however, too young for stating this definitely; but it is so
characteristic, especially through the arrangement of the scales on
the dorsal side of the disk that it will probably be perfectly recog-
nizable, and I have therefore thought it worth while describing and
figuring it.

Diameter of disk 2 mm, length of arms ca. 10 mm. The scales
in the middle of the aboral side of the disk uniform, polygonal,
arranged like a regular mosaie. Towards the edge of the disk the
scales gradually become overlapping. No central or other primary
plates to be distinguished. Radial shields small, ”/3 the length of
the disk radius, separated, divergent. The oral side of the disk
covered with fairly large, overlapping scales. Genital slits not yet
distinct. The oral shields are triangular with rounded sides; adoral
plates meeting within. Outer oral papilla fairly broad and long,
apparently not spiniform. The ventral plates are elongate, with
nearly straight sides, outer edge rounded. Tentacle scales not yet

154

developed,. only at one pore a single triangular scale is found,
which would seem to indicate that this species belongs to the group
of Amphiura's with one tentacle scale only. The proximal dorsal
plates somewhat elongate, farther out they are shorter, more rounded,
separated from one another. Three short, cylindric, subequal arm-
spines.

The characteristic scaling of the dorsal side of the disk recalls
Amphioplus basilicus; also the ventral plates and the oral parts bear
a considerable resemblance to that species, as seen on a compar-
ison with fig. 28. The lacking of the tentacle scales evidently is
due to the specimen being too voung for yet having them devel-
oped and, therefore, might not be sufficient reason for not simply
referring this specimen to Amphioplus basilicus. But the single outer
oral papilla is so important a character, scarcely to be accounted
for by the young age of the specimen alone, that it is out of
question to identify the specimen with that species. (The youngest
specimen of 4. basilicus in hand, scarcely 2 mm diameter of disk,
already has the mouth papillæ typically developed). Also the arms
are very much shorter in A. basilicus of a corresponding size, only
ca. 3 mm against ca. 10 mm in the present specimen. Upon the
whole, it is out of question that these two forms could be more
nearly related, in spite of the conspicuous resemblances pointed
out above.

32. Amphiocnida pilosa (Lyman).
Figs. 27.1—10.
Ophiocnida pilosa. Lyman. 1882. Challenger Ophiuroidea, p. 153. Pi.
Sneen
= —… HJLSCTarks1909' Sci Res: Trawling 'Ezpedsinhetiss
Mem. Austral. Mus. IV. p. 541.

Amphiocnida — A.E.Verrill. 1899. Revision of certain families
and genera of West Indian Ophiurans. Tr. Conn.
Acad. X. p. 318.

= —"VHSL. Clark. 1915 Cat? Recent "Ophiuranstipre see

Colville Channel; 35 fms; sandy mud. 21/X11.14. 8 specimens.
Several minor points of difference existing between the spec-
imens from New Zealand and the type of this species (from Bass
Strait) as described and figured by Lyman (Op. cit.), tend to
make the referring of the New Zealand form to this species some-
what uncertain. However, the very great variability exhibited by

IS5S5

the specimens according to size, and the fact that they cannot be
» distinguished with certainty from specimens from the N. S. Wales

Fig.27. Amphiocnida pilosa Lyman. — 1. Part of oral side; 2. of dorsal side; 3 and

4. three armjoints from middle of arm, showing shape of ventral and dorsal

plates. Same specimen as 1—2 (7 mm). 5. three armjoints of a larger specimen (11

mm) showing different shape of ventral plates; 6. mouthshield of same specimen ;

7. part of oral side of a small specimen (4 mm); 8. three armjoints from same spec-

imen, dorsal side; 9—10. different shapes of mouthshield from specimens from off the
N.S. Wales coast. All figures 73/1,

Seas would seem to make it unjustified to maintain the New Zea-
land form as a separate species. Whether the N.S. Wales spec-
imens really belong to the species described from the Bass Strait

156

is another question; but here, again, I am inclined to think so,
in spite of the differences which can be pointed out. The fact that -
H.L. Clark, who had a cotype of Lyman's Ophiocnida pilosa
for comparison with his specimens, does not hesitate in declaring
them identical, makes me the more confident that both the New
Zealand and the N.S. Wales form really belong to this species.

As appears from the figures given here, the specimens differ
so considerably according to age that, if they had not been taken
all together in the same haul, one would hardly think of regarding
them as belonging to one and the same species. It is mainly the
shape of the ventral plates which differs so conspicuously. In a
specimen of 4 mm diameter of disk (Fig. 27.7) they are narrow,
elongate, distinctly longer than broad, the basal part being some-
what broader than the outer part. In a specimen of 7 mm dia-
meter of disk they have mainly the same character in the prox-
imal part of th2 arm, but farther out they get a very character-
istic polygonal shape, narrowing in their outer part (Fig. 27.1,3); finally
in the largest specimen, 11 mm diameter of disk, they are almost
regularly rectangular, distinctly broader than long (Fig. 27.5). The
same transformation of the ventral plates according to age is to be
observed in the N. S. Wales specimens. The difference in the shape
of the dorsal plates in smaller and larger specimens, as shown by
figs. 27.8 and 4, though no less striking, is not sø surprising. It may
be pointed out that generally the. first complete dorsal plate is
rhomboidal.

The armspines are in the larger specimens 7—9 in the prox-
imal part of the arm; in the smaller specimens there are only five,
as in the type. They are more or less distinctly flattened, some-
times slightly widened and dentate at the point (Fig. 27.3—4), but
this is no constant feature. Generally the lowermost one is the
longest, and sometimes also the upper one or two are somewhat
longer than the middle ones; but, again, this is not constantly so.
The radial shields are generally contiguous in the outer part, but
sometimes they are wholly separate (Fig. 27.2). The mouth shields
are very variable in shape, as is also the case in the specimens
from off the N. S. Wales: coast" (Fig. 27.176, 9—10) the form OR
mouth shields seen in Fig. 27.4 I have, however, not observed in
any of the specimens from off the N. S. Wales coast.

Sa

ENIS krathertperplexinettorindsinthistspecies so "great "af var
iation in the shape of the plates which otherwise generally afford
distinguishing characters of the highest value. But we have got to
agree that there is such great variation here — otherwise we should
have to designate each specimen as a separate species.

The scaling of the ventral surface of the disk is, upon the whole,
more sparse in the New Zealand than in the Australian form;
also the spines on the disk are generally not so coarse in the
former as in the latter form — but it appears to be not constant
enough to justify maintaining the New Zealand form as a distinct
variety.

Evidently the arms are very long. In the largest of the New
Zealand specimens the longest arm is ca. 7 times the diameter of
the disk, and quite a considerable length has been lost. In one of
the Australian specimens the arms must have been a good deal
morehthankISstimeskthelk diameter olfthe disk:

The eggs are not very numerous and fairly large, 0,25 mm.
This indicates that this species has probably not a typical Ophio-
pluteus-larva.

On the largest of the New Zealand specimens a number of
specimens of a small Loxosoma are found attached to various places
on the ventral side of the disk and arms. Also in one of the Au-
stralian specimens (37? 05” S. 150% 15” E. 30—50 fms) the same
Loxosoma is found.

33. Amphioplus basilicus (Koehler).
Figs. 28. a—c.
Amphiura basilica. Koehler. 1907. Revision de la Collection des Oph-
iures du Mus. d'hist. nat. Paris. Bull. sci Fr. & Bel-
NE ID PE SUS ED JESS
Amphioplus basilicus. H. Ly m. Clark. 1915. Catalogue Rec. Oph. p.257.

Carnley Harbour, Auckland Isl. 29/X1.14. 4 specimens.

Masked Isl., Carnley Harbour; Auckland Isl. 3/X11.14. 6 specimens.

Perseverance Harbour, Campbell Isl.; under stones, at low water. 9/XI1.14.

18 specimens.

These specimens agree so perfectly with the description given
by Koehler of the species Amphiura basilica, founded on three
specimens from off East Cape, New Zealand (Filhol), that the
identification therewith is beyond doubt.

158

A few remarks should be added to the description given by
Koehler and also a pair of figures may not be superfluous, those
given by Koehler being slightly diagrammatic.

The largest of the specimens in hand measures 4 mm dia-
meter of disk, the arms being scarcely three times so long as the
diameter of disk. As stated by Koehler, the primary plates are
not distinct. It is a noteworthy fact tnat also in the very young
specimens they are indistinct. There are some larger plates in the
centre, it is true, but they are not regularly arranged in the shape

Fig. 28. Amphioplus basilieus Køehler. — a. Part of oral side; b. of dorsal side;
c. two armjoints from middle of arm, dorsal side. 73/1,

of a rosette consisting of one central plate and five radially placed
plates, as it is usually seen in very young Ophiurids.

A very interesting feature is offered by the genital slits, which
are very short, not reaching beyond the first armjoint. This is in
contradiction with Koehler's figure, in which they are represented
as large slits, reaching to the edge of the.disk. In the text Koeh-
ler only says that the genital slits are narrow, without giving any
statement about their length. In view of the otherwise perfect agree-
ment of my specimens with Koehler's description of this species
I could not but suppose the said figure to be erroneous in this
regard and therefore asked Professor L. Joubin at the Muséum
d'hist. naturelle, Paris, to lend me one of Koehler's specimens
for reexamination, which he very kindly did. My suggestion proved
to be perfectly justified; the genital slits were found to be quite
narrow and small as in my own specimens.

159

i Thinking that perhaps also the closely related Amphioplus tex-
tilis Koehler from the Magellan region might have similar short
senitallslitsminspitetofsthet feure(Ko'e-hler Op cit. PL XI fig:
35) representing them as reaching to the edge of the disk, I asked
ErokkJonbintollendkmealsoFalfspecimen of thisispecies for ”ex-
amination. My suggestion” proved to be correct, the genital slits of
this species also are quite short, as in A. basilicus, not reaching be-
yond the first armjoint.— This interesting feature might perhaps justify
establishing a separate genus for these two species. I shall, how-
ever, for the present, not take up a definite position as to this point.

There is only one pair of genital organs in each interradial
space; the ovaries are fairly large, containing a number of reddish
0,3 mm large eggs This considerable size of the eggs shows almost
with certainty that the development is direct, not through a typical
Ophiopluteus-larva.

Some very young specimens, with only three armjoints devel-
oped, I have no doubt in referring to this species with which they
agree especially in the noteworthy feature that there is no regular
rosette of primary disk plates. They were found to gether with the
adult specimens under stones, Campbell Island, 9/XI1.14.

The species appears to be rather common in the littoral region
at the subantarctic islands and evidently will prove to occur also
at the New Zealand shores. (There is no information about the
depth in which Filhol's specimens were taken.)

34. Ophionephthys stewartensis n. sp.

. Figs. 29.1—58.

Halfmoon Bay, Stewart Island; 5—7 fms; sand. 19/XI.14. 1 specimen.

Although the single specimen in hand is in a very poor state
of preservation, having lost the disk, I do not hesitate in describ-
ing it as a new species, the oral and arm structures affording suf-
ficient characters for distinguishing it not only from all other Am-
phiurids of the New Zealand region, but upon the whole from any
other species of Amphiurids known till now.

There is a series of three papillae to each side of the mouth-
edge, and a very small one in the outer corner, close to the first
ventral plate. The oral shields are elongate, rounded, with slightly

160

reentering, sides and a straight outer edge. Adoral shields almost »
meeting within. The ventral plates are very characteristic, elongate,
a little broader within than without; the proximal one with a con-
cave inner edge. Farther out they are almost octogonal, with a
slight concavity in the outer edge. The dorsal plates are transverse
oval, about twice as broad as long. Two'very small tentacle scal£s
(they are not distinct at all the
pores, but this, evidently, is due
to the bad state of preservation).
Five or four simple spines, about
as long as a joint, the middle
ones slightly shorter. Whether
| they are naturally appressed, as
in Fig. 29.3, may well be doubted.
— The fact that the disk is lost,
indicates that it is naked as in
related species. The arms are all
Fig. 29. Ophionephthys SÆELD LT EnSTS Mrtsn. broken, but convey the impres-
1. Part of mouth and proximal armjoints ;

2. two ventral plates from middle ofarm; Sion of being long and slender.

3. three armjoints from middle of arm, This species agrees so per-
dorsal side. 73/1,

fectly in its oral structure and
in the shape of the så ra] plates with Ophionephthys limicola, that
I do not hesitate in referring it to the same genus.

Quite recently H. Lyman Clark!) has reestablished the genus
Ophionephthys, which was regarded by Matsumoto as a synonym
only of Amphiura. Clark comprises as belonging to Ophionephthys
the group of species of Amphiurids with nearly naked disk, cal-
careous scales occurring only around the radial shields and rarely
near the disk margin interradially, with numerous arm-spines, 5-10
on basal joints and with oral papillae as in Amphiura. In regard to
the oral papillæ, however, the type-species, O. limicola Ltk. (from
the West Indies) does not agree with the other species, and Clark,
in fact, is in doubt, whether it was not better to restrict the genus
SO as to include the latter species alone; since otherwise the oral
papillæ afford the main distinguishing characters of the genera

1) H. Lyman Clark. Brittle-Stars, new and old. Bull. Mus. Comp. Zool.
LXII. 1918, p. 278.

161

within the Amphiuridae, it certainly does seem very inappropriate
to unite, in this genus alone, species which, after the character
of their oral structures, should otherwise be referred partly to Amphi-
oplus, partly to Amphiura s. str.

The discovery of this new species, so closely agreeing with the
type of the genus Ophionephthys in the important characters of the
mouth parts, decidedly lends support to a restriction of the genus
Ophionephthys to those species agreeing with the type, O. limicola,
in regard to the oral characters. Besides the new species here
described I would refer to this genus also the species described by
H. Lym. Clark (Catalogue Rec. Oph. p. 253) under the name of
Amphioplus cyrtacanthus (from the Philippines). The genus would
thus also get a less remarkable geographical distribution. The
other species referred by Clark to Ophionephthys 1 cannot, ac-
cordingly, regard as really belonging to that genus.

35. . Amphipholis squamata (Delle Chiaje).

Amphiura parva. Hutton. 1878. Notes on some New Zealand Echin-
odermata, with descr. of new species. Trans. N.Z. Inst.
553805:
— elegans. Farquhar. 1897. Contr. to the history of New Zea-
land Echinoderms. Journ. Linn. Soc. Zool. XXVI. p. 191.
= = Farquhar. 1898. Echinoderm Fauna of New Zea-
lands ProcsLinns Soc NS WÆp: 308:
— — Farquhar. 1907. Notes on N.Z. Echinoderms, with
desertormewspecleskbr NELS Is FSR PPS:
mega mad ark 909 Sci Res Trawling Exp HM
C. S. "Thetis", Mem. Austral. Mus. IV. p. 541.
= = Benham.: 1909. The Subantarctic Islands of New Zea-
land. Echinoderms. p 303.
=— = Benham. 1911. Stellerids and Echinids from the Ker-
madee Is trENE ZZ In SENE PI S2
— — H. L. Clark 1915. Catalogue Rec. Oph. p. 242.
Non: Amphiura parva. H. L. Clark. 1915. Catalogue Rec. Oph. p.230.
Pl. 5, figs. 10—11 (=Amph. rosea Farquh.).

Wellington Harbour, 5—10 fms. 16/11.15. 3 specimens.

Island Bay, Wellington; under stones, at low water. 22/1.15. 12 spec-
imens.

Mahia Peninsula; under stones, at low water. 18/XII.14. 3 specimens.

Ponui Isl., Auckland; under stones, at low water. 24/XI1I.14. 2 specimens.

North Channel, Kawaii Isl., Hauraki Gulf. 10 fms. 29/XI1.14. 1 specimen.

Vidensk. Medd. fra Dansk naturhist. Foren. Bd. 77. 11

162

North, Cape, New Zealand; under stones, at low water., 3/1.15: 4 spec-
imens.

Plimmerton; 15/1.15. 3 specimens.

Halfmoon Bay, Stewart Island; 5—7 fms ; sand bottom. 19/X1.14. 2 spec-

imens.

Masked Island, Carnley Harbour, Auckland Isl. 3/X11.14. 12 specimens.

Carnley Harbour, Auckland Isl.; 45 fms., sand, mud. 6/XI1.14. 2 spec-
imens.

Further I have received from Mr. W.R. B. Oliver, 2 specimens from
Cook Strait, 120 fms, collected by Mr. Hazelwood, 13/V111.1920.

Like the authors who have previously dealt with the New Zea-
land form of Amphipholis squamata I do not find it distinguishable
from typical European specimens. It is a very extraordinary fact that
this small, viviparous Ophiurid should as the only one have a
cosmopolitan distribution. A more profound comparative study of
the whole question, based on rich material from all parts of the
world, would be very desirable, and might perhaps lead to the di-
stinguishing of local forms, or subspecies. For the present we must
regard all as one species.

It is very interesting to note that one of the New Zealand
specimens (Plimmerton) is infested with a specimen of the para-
sitic Copepod Cancerilla; also on one of the specimens from Carn-
ley Harbour, 45 fms, this parasite was found. Mr. K.Stephen-
sen, who has examined these specimens, informs me that they are
not identical with Cancerilla tubulata Dalyell, the species infesting
Amphipholis squamata in the European seas. This is most inter-
esting, showing that the parasite is not so widely distributed as is
its host, but replaced in the New Zealand seas by a related, but
quite distinct species.

Through the present studies the group of the Amphiurids has
been shown to be very richly represented in New Zealand seas,
no less than 16 (17) species having now been found there (not
counting the Ophiactis species, as this genus, in my opinion, does
not really belong to the family Amphiuridæ, but rather forms, to-
gether with Ophiopholis, Ophiopus and. a -few other forms, a separ-
ate family, Ophiactidæ). As it is, upon the whole, no easy matter
to identify Amphiurids, it may be of some practical value to give
here the following key to these species.

10.

163

Key to the New Zealand species of Amphiuridae.
Oral papillæ forming a continuous series along each side
offjawesmoresthantonesouterr oral papir sas
Only a single outer oral papillæ, widely separated from
the inner, infradental papilla; in the interval between
these papillæ there is one situated at a lower level in
ihemoutrkbelonsingstorthethirst tentacle eee ere
Two tentacle scales, at least in the broximal part of the
arme Nos spiInes oms hEe ISK SE re rer ve ere pA
Omiykonertentaclerscale:nospinesfonfthel disk.
No tentacle scales; spines on the disk.

Amphiocnida pilosa (Lym.)
kwoltentacle”scalestinftheswhole”arm length LEES:
Only a few of the proximal joints with two tentacle scales,
farther out only one; arms very long; 7—6 armspines.

Amphiura aster Farquhar.
Oral side of disk naked; 4 armspines.

Amphiura norae Benham.
Oralksidefolidiskrcompletely covered withøsealess LEE
Spines (6—7) distinctly flattened.

Amphiura amokuræ Mrtsn.
Spineskn or tlattene SR SEN he nn NA ve)
Oral shields spearhead-shaped, distinctly longer than wide;
radial shields very small. Æmphiura eugeniæ Ljungm.

var. latisquama Mrtsn.
Oral shields rounded, about as wide as long; radial shields
rather long. Amphiura rosea Farquhar.
Oral side of disk naked. Amphiuræ hinemoæ Mrtsn.
Oral side of disk completely covered with scales. .....
Lowermost spine on the middle part of the arm much
elongated and slightly curved, downwards directed.....
Eowermostspuae nof"much"elongateds 2: SEE ONE
Viviparous, hermaphroditic; armspines rather coarse.
Amphiura magellanica Ljungm.
Not viviparous; sexes separate; armspines rather delicate.
Amphiura spinipes Mrtsn.
llentaclet' scale smalle triang uldne SE BESES SES
iientaclesscalet lanse leafshap ed ere

(a9)

vs:

) Genital organs and radial shields of Ophionephthys stewartensis unknown.

Non: Ophiolepis

164

Vivipårous, hermaphroditic; oral shields triangular; 4
armspines. Amphiura annulifera Mrtsn.
Not viviparous, sexes separate; oral shields spearhead-
shaped; 6—5 armspines. Amphiura alba Mrtsn.
Oral shields triangular; ventral plates wider than long,
corners not rounded; 5—4 armspines.
Amphiura præfecta Koehler.
Oral shields roundly heart-shaped; ventral plates longer
than wide, with rounded cerners; 6 armspines.
Amphiura pusilla Farquhar.
Outer oral papilla very broad; radial shields contiguous;
viviparous, hermaphroditic.
Amphipholis squamata (D. Ch.).
Outer oral papilla not very broad; radial shields not con-
tiguous: not viviparous/tsexes separate) Hee
Four lateral oral papillæ; oral shields short, triangular ;
disk on both sides completely covered with scales.
Amphioplus basilicus Koehler.
Three lateral oral papillæ; oral shields elongate, with
straight outer edge. Disk (probably) nearly naked.
Ophionephthys stewartensis Mrtsn.

36. Ophionereis fasciata Hutton.
Fig. 30.

Zealand: "p) 2:

Ophionereis fasciata. Hutton. 1872. Catalogue of the Echinod. of New

— — Hutton. 1872. Descr. of some new Starfishes from

N”Zealands PRZÆSÆDE SINE

= Schayeri. Farquhar. 1895. Notes on New Zealand Echin-

oderms. Trans. N. Z. Inst: XXVII. p. 197.

== — Farquhar. 1898. On the Echinoderm Fauna of

NEZealand Ps EFSTNESEWÆDS SO

== Farquhar. 1907. Notes on N. Z. Echinoderms ;

with deser. of new species. Trans. N. Z. Inst. XXXIX.

p. 124.

= — Benham. 1909. Sci. Res. N. Z. G. Trawling Exp:

Echinodermata. Rec. Canterbury Mus. I2. p. 23.

— — Benham. 1911. Stellerids & Echinids from the

Kermadec ”Isl. Trans" NZ Inst SEINE SIS2

neuer Asteriden. Arch. f. Naturgesch. p. 182.

Schayeri, Muller & Troschel. 1844. Beschreibung

165

Several specimeus were taken under stones, at low water, at the following
"localities: Mahia Peninsula; Slipper Island; Bay of Islands; North Cape; Plim-
merton. Further in Queen Charlotte Sound, 3—10 fms, and in Paterson Inlet,
Stewart Isl., 5—15 fms. The latter of these localities alone is of interest, the
species not having hitherto been recorded from South of Dunedin.

30. 31.
Fig. 30. Ophionereis fasciata Hutton. Part of oral side and four armjoints from middle
of arm, dorsal side. %/1. — Fig. 31. Ophionereis Schayeri M. & Tr. Part of oral side and

three armjoints from middle of arm, dorsal side. 5,5/1.

Ever since Farquhar in 1895 declared the New Zealand spec-
ies Ophionereis fasciata Hutton to be identical with the Australian
Ophionereis Schayeri (Miller & Troschel) this identity has been
unanimously accepted by the authors, who have dealt with these
species, doubtless without having directly examined the question
themselves. It is probably due to the curious fact of these forms
never having been figured!) that nobody has become suspicious as
to their alleged identity.

Ås seen on a comparison of the figures given here the two
1) Only H. L. Clark (Catalogue of Recent Ophiurans, 1915, Pl. 13.1—2)
gives a pair of photographic figures of the true O. Schayeri (from Port Jack-

son); they do, however, not show any of the structural details by which this
species is distinguished from O. fasciata.

166

forms are very easily distinguished, mainly through the quite differ-
ent shape of the oral shields, which are distinctly rhomboidal
equally long and wide, in O. fasciata, whilst in O. Schayeri they
are elongate, egg-shåped, with the outer edge truncate, and distinctly
longer than broad. This difference is quite constant, and equally
distinct in younger and adult specimens. Further the dorsal plates
are distinctly broader in Schayeri than in fasciata, the distal edge
being twice the width of the supplementary plates in the Australian,
only equalling the width of the supplementary plates in the New
Zealand species. Also another feature appears to represent a val-
uable distinguishing character. In the New Zealand form the edge
of the genital slits, especially at the inner end, bends outwards
and looks like a sort of web, being more conspicuous on account
of its white colour. There is a distinct row of small papillæ along
the edge; sometimes the papillæ continue so far dorsally along
the base of the arm as to get the appearance of an armcomb. The
fwebs" from the two genital slits in each interradial space almost
meet in the midline outside the oral shield. In O. Schayeri and
other species of this genus, this fwebf is much less distinct and
a wide space separates the two slits outside the oral shield. The
shape of the ventral plates would appear from the two figures to
differ rather considerably in the two forms; I do not, however,
find the difference sufficiently constant for forming a reliable di-
stinguishing character. The same holds good for the small inner
tentacle scale seen in the figure of "0. Schayeri. It is" truet have
never observed this small scale in the New Zealand species, but,
on the other hand, I have not found it constantly in the Australian
form — perhaps its lacking in some specimens is due to bad pre-
servation; but for the present, I do not venture to lay any stress
on this feature as a distinguishing character. - The scales of the
interradia on the ventral side are somewhat larger in the Australian
than in the New Zealand form, and also the proximal part of the
interradia is more naked in the former than in the latter form;
small spines are found on the proximal part of the interradia in
both forms.

The differences here pointed out leave no doubt that the New
Zealand form is a distinct species, not identical with the Australian
form. The type specimen of Miller and Troschel's Ophiolepis

167

Schayeri being from Tasmania it could not beforehand be stated
which of the two species must keep the name Ophionereis Schayeri.
Through the kindness of the late Professor R. Hartmeyer I have
had the opportunity of examining the type specimen, which is in
the Berlin Museum; although it is in a poor condition there is no
doubt that it belongs to the Australian form, and accordingly this
latter must keep the name Ophionereis Schayeri (Miller & Troschel).
For the New Zealand species the name Ophionereis fasciata Hutton
must be revived.

This result, that the New Zealand form is specifically distinct
from the Australian form, considerably restricts the geographical
distribution of both. O. Schayeri is known only from Australia and
Tasmania. Regarding O. fasciata the question remains whether it is
really identical with the species of Ophionereis occurring at Juan
Fernandez, as it is maintained by Ludwig in his report on "Die
Ophiuren der Sammlung Plate" (Zool. Jahrb. Suppl. IV. 1898, p.
765). This question I am also able to solve through the kindness
of the late Prof. Hartmeyer, who sent me some material of the
Juan Fernandez form. I must agree that it is very difficult to find
characters by which to distinguish between the Juan Fernandez
and the New Zealand form. Nevertheless these forms are certainly
not identical. This is proved by the fact that the eggs of the former
are twice the size of those of the New Zealand species (0,2 mm
against 0,1 mm); this evidently means that the development is
quite different in these two forms.”) Probably the Juan Fernandez-
form is also a separate species (it does not appear to me to be
identical with O. albomaculata E. A. Smith from the Galapagos Is-
lands). But this question does not concern us here; for the present
it must suffice to have shown that the New Zealand species is not
identical either with the Australian or the Juan Fernandez form
and is known only from the New Zealand region.

In 1916 Professor H. B. Kirk published in the fTransactions
of the New Zealand Institute", Vol. XLVIII, a short preliminary
notice "On the much-abbreviated development of a Sand-star (Oph-
ionereis Schayeri?).”?”) His reason for referring the eggs and em-

1) This also holds good for Ophionereis Schayeri, the eggs of which are
likewise twice the size of those of O. fasciata.
2 p. 383—84. Pls. XXVII—XXVIII.

168

bryos, which he found on the underside of stones in the Bay of
Islands, Wellington, to Ophionereis Schayeri (viz. O. fasciata) are,
that the terminal plate of the young Ophiurids resembles that of
the said species, and that this species is very common in the
neighbourhood.

Grave objections may be raised to the referring of these eggs
and embryos to Ophionereis fasciata. Above all: the eggs of this
species are very small, ca. 0, mm, while the eggs observed by
Kirk were 0,5 mm. This small size of the eggs in Ophionereis
fasciata almost certainly indicates that it has typical pelagic larvæ,
not direct development. Further Kirk states that the tubefeet of
the young Ophiurids were provided with a number of bristle-like
processes; but the tubefeet of O. fasciata are perfectly smooth. It
is, of course, possible that in the quite young newly metamorphosed
specimens the tubefeet may be provided with such bristle-like pro-
cesses — but it is not very probable. The terminal plate of O.
fasciata is by no means so characteristic as to afford any proof of
the identity of the embryos with this species. Finally there are
other Ophiurids occurring under the stones in the same way and
the same places as O. fasciata viz. e. g. Pectinura cylindrica, Ophio-
plocus Huttoni, Ophiopteris antipodum, Ophiozonoida picta, Ophio-
cormus notabilis. Any one of these species is more likely to come into
consideration in the question about the parency of the directly
developing .-embryos described by Kirk, in so far as nothing is
known as yet to prevent their coming into consideration.

37. Ophiozonoida picta H. L. Clark.
Figs. 32—33.
Ophiozonoida picta. H. Lyman Clark. 1915. Catalogue Rec. Ophiur-
ans. p. 340. Pl. 18, Figs. 3—4.
Pectinura sp. F.Jeffr. Bell. 1917. British Antarctic ("Terra Nova")
Exped. 1910. Zoology. Vol. IV. 1. Echinoderma, p. 6.

Off White Island (370 40? S. 1770 1? E.), 55 fms. Sandy mud. 4 spec-
imens.

Little Barrier Isl.; 30 fms. Shells. 1 specimen.

2 miles E. of North Cape, 55 fms. Hard bottom. 1 specimen.

10 miles N.W. of Cape Maria v. Diemen, 50 fms. Hard bottom. Some
small specimens.

Off Three Kings Isl., 65 fms. Hard bottom. 5 specimens.

169

This species was hitherto known only from the coast at Wel-
lington, where Farquhar collected some specimens under stones,
near low-water mark. Although I have been collecting at the same
place and also in other places of the New Zealand coast in the
littoral region, I have not come across this species there. — It is
interesting that it has now been proved to be rather widely di-
stributed in the seas off the North Island of New Zealand, in depths
until at least 55 fathoms.

The specimens on which Clark had to base his description
being quite young, it will be necessary to give some additional

Fig. 32. Ophiozonoida pic!a H. L. Clark. Part of oral and dorsal side. 8/1.

remarks on the characters of this species as shown by the adult
specimens (Fig. 32).

The larger of the specimens before me measure 10 mm dia-
meter of disk, the arms, which are rather thick and stiff being ca.
30 mm long. Disk covered with somewhat thickened scales, among
which the primary plates remain more or less distinct, according
to the varying size of the smaller secondary plates surrounding
them. Generally there is a median series of 3—4 large plates in
each interradius, but the series is sometimes indistinct, on account
of smaller plates intruding among the larger ones. The small ovoid
radial shields are widely separated by a series of three squarish
plates, almost as large as the interradial ones. Adjoining the distal
one of this series is a slightly larger plate outside each radial
shield, these three plates together forming a conspicuous band across
the base of the arm. The dorsal plates are about twice as broad as

170

long, the outer edge arched with a slight concavity in the middle,
made more conspicuous through the coloration, the notch itself
being dark coloured, and the corners being white. They are broadly
in contact almost to the end of the arm. The characters of the
ventral side in the adult specimens do not differ essentially from
those found in the young specimens; I must merely emphasize
that the oral shields are not pentagonal, but have the outer sides

Fig. 33. Ophiozonoida picta H. L. Clark. Young specimen. ””/1.

distinctly concave, the outer part thus being distinctly narrower
than the inner part; they may be said to be almost spearshaped.
The madreporite alone retains the pentagonal shape. Also in younger
specimens I find the oral shields more or less narrvowed in their
outer part, not so distinctly pentagonal as they are in the spec-
imen figured by Clark (Op. cit. Pl. 18, fig. 4). The ventral plates
are generally more or less distinctly brownish -and thus form a
continuous brownish median band, lined on both sides with white,
viz. the side plates. The outer edge of the ventral plates sometimes
appears to have two distinct small whitish spots; it is, however,
the inner, adradial point of the sideplates, which is thus coloured.
The tentacle scales are single, as stated by Clark; but in the
larger specimens there may be a very distinct elevated rim along

il

the adradial side of the pore, which may convey the impression
that there are two tentacle scales.

The genital slits are narrow, not reaching beyond the second
armjoint; an indication of papillæ along their edges. The teeth are
strong, broad, squarish, six in each column. The mouth-structure
upon the whole rather robust, recalling that of Ophiopholis.

In the larger specimens it is not rare to find some of the dorsal
armplates divided in two lateral halves through an oblique median
line. — In a very young specimen, only 1,5 mm diameter of disk
(Fig. 33), the primary plates are very prominent, the secondary
plates have just made their appearance, viz. 5 interradial ones, ad-
joining the corners of the central plate, and 5 radial ones (or rather
3, the fourth and fifth having not yet appeared) beginning to separate
the radial shields, which are still almost completely contiguous. The
plate outside each radial shield has already appeared and is, on
account of its white colour, very conspicuous. They very much give
the impression of representing the side armplates corresponding to
the inner dorsal plate. This, however, they do not, the side plates
proper of this joint lying wholly on the oral side. It is a note-
worthy fact that the arms of the young specimens may be of un-
equal length (Fig. 33). The coloration of the disk plates in the young
specimen — brown, with the distal part white — makes them very
conspicuous.

The Ophiurid which Bell (Op. cit.) mentions as Pectinura sp.
I have had the opportunity of examining in the British Museum.
There is no doubt that it belongs to the present species.

Also in this species the eggs are rather large and yolky, which
fact tends to indicate that it has, probably, direct development,
without a pelagic larva of the typical Ophiopluteus-form.

38. Ophioplocus Huttoni Farquhar.
Fig. 34.
Ophioplocus Huttoni. H. Farquhar. 1899. Description of a new Oph-
inranet Proc" Enns SocyNYSEWales pl ST PISBNVE
= — H.L. Clark. 1915. Catalogue Recent Ophiurans,
p. 344.

Slipper Island; under stones, at low water. 1 specimen.
North Cape; under stones, at low water. 1 specimen.

172

To the careful description of this species given by Farquhar
I shall only add that in the larger specimen before me (8 mm
diameter of disk) the shape of the ventral plates is somewhat dif-
ferent from that shown in Farquhar's figure, these plates being
more broadly in contact than there (Fig. 34). The difference is
simply due to age. In the second specimen before me (5 mm dia-
meter of disk) the ventral plates have exactly the shape given in
Farquhar's figure (from a spec-
imen 6 mm diameter of disk.)

It may also be pointed out
that the genital slits are very
short, reaching from close by the
oral «shield to! sthetendkkorRkthe
second armjoint; in the smaller
specimen they are still shorter,
not reaching beyond the first
armjoint.

The species was known hith-
erto only from the coast off Well-
Fig. 34. Ophioplocus Huttoni Farquhar. ington. It has now been shown to

Part of oral side. 72/1. occur along the East coast of the

North Island of New Zealand up

to the northern end, and most probably it will thus prove to occur
along the whole coast of the North Island.

From the other species of Ophioplocus hitherto described it is
easily distinguished through its single tentacle papilla (the semi-
circular rim along the outer side of the tentacle pore is found also
in the other species) and through the armspines being only two.

39. Pectinura cylindrica (Hutton).
Fiosy35e»
Ophiura cylindrica. Hutton. 1872. Catalogue Ech. New Zealand. p. 3.
Descr. new Starfish from N. Zealand. P. Z.S.p.811.
Ophiopeza — Farquhar. 1895. Notes on some New Zealand
Echinoderms. Trans. N. Z. Inst. XXVII. p. 198.
= — Farquhar. 1897. A Contribution to the History of
N. Z. Echinoderms. Journ. Linn. Soc. Zool. XXVI.
p. 190. Pl. XIV. figs. 4—5.
— — Farquhar. 1898. On the Echinoderm Fauna of N. Z.
ProcsEnnssocENSSAWÆRDE306

1575

Pectinura cylindrica. H.L. Clark. 1909. Notes on some Australian and
Indo-Pacific Echinoderms. Bull. Mus. Comp. Zool.
ENE pl
— — H. L. Clark. 1915. Catalogue of Recent Ophiur-
ans. Mem. Mus. Comp. Zool. XXV. p. 303.

Some few specimens of this species were taken at Mahia Pen-
insula, under stones at low water (18/XI1I.14). Further, a single,
very young specimen was taken at the Three Kings Isl., in a depth
of 65 fathoms, 5/1.15, and must undoubtedly belong to this spec-
ies. — Some remarks on the characters which distinguish this
species from Pectinura gracilis are given under the latter species.

40. Pectinura gracilis n. sp.

Figs. 35.5—5; Fig. 36.

Paterson Inlet, Stewart Isl., 5—15 fms; mud bottom; 17/IX.14. A few
specimens.

Queen Charlotte Sound, 3—10 fms. 20/1.15. 2 specimens.

Three Kings Isl., ca. 65 fms. 5/1.15. 1 specimen.

Diameter of disk of largest specimen 8 mm; arms 3 times the
diameter of disk, slender and very flexible. Disk, as usually in this
genus, completely covered with fine grains. Mouth papillæ as in
P. cylindrica, but the oral shields distinctly smaller than in that
species (Figs. 35.1, 3.). Supplementary plate generally distinct, semi-
circular. Ventral plates about as long as broad, sometimes with a
small keel in the proximal part. No grooves between the inner
ventral plates. Two tentacular scales of the typical shape and ar-
rangement. Dorsal plaåtes fanshaped, only slightly broader than long;
the inner one, following the one or two rudimentary plates within
the notch at the armbasis, almost semilunar. AÅrmspines 6, rarely
7 (on a few of the proximal armjoints); they are rather slender,
about half the length of the side plate. — Colour of disk and
arms almost black, the arms somewhat banded with white.

In some of the larger specimens a few of the dorsal plates in
the proximal part of the arm have a somewhat different shape, the
outer corners being somewhat rounded truncate. This character I
find more pronounced in the two specimens from Queen Charlotte
Sound (Fig. 35.5). These specimens otherwise agree so completely

174

with those from Stewart Isl. (— excepting only that the coloration
is somewhat lighter —) that there can be no doubt but that they
must be referred to the same species.

More doubtful is the specimen dredged at Three Kings Isl.,
ca. 65 fathoms (5/1.15). In this specimen the dorsal plates are
broader, more angular than in the type, as seen from a comparison

(HOS:
38920030
GEKGER)

Fig. 35. Pectinura cylindrica Hutton (1—2); Pectinura gracilis Mrtsn. (3—5). — 1 and 3.

part of oral side; 2, 4 and 5. base of arm, dorsal side, with part of the disk. 1/4.

of fig. 36 with fig. 35.3—5. Also the oral shields are møre rounded,
and the colour is much lighter, nearly white. Whether these dif-
ferences indicate this form to be a separate species or only a
variety of P. gracilis cannot, of course, be decided from the single
specimen in hand. For the present I must simply refer it to P.
gracilis,; but if the characters pointed out prove to be constant, I
should think it a distinct species.

From Pectinura cylindrica the present species is very well di-
stinguished, especially through the character of the dorsal plates,

175

which are twice as broad as long in the said species (Comp. figs.
"35.1—2 and 3—5). The oral shields are much larger, and the space
covered with grains inside the oral shields smaller than in P. gra-
cilis. Also the spines are shorter and more flattened in cylindrica.
The ventral plates do not present marked differences in the two
species. Finally it would appear that P. cylindrica grows to a some-
what larger size than P. gracilis. The figures of the two species
were drawn from specimens of nearly the same size in order to
eliminate differences solely due to age.

Fig. 36. Pectinura gracilis Mrtsn.; specimen from Three Kings Isl. Part of oral side,
and base of arm, dorsal side, with part of the disk. 1/1.

The two species appear to have the same distribution along the
Northern coasts of New Zealand, from Three Kings Island to Cooks
Strait. Whether this holds good also for the Southern coasts is still
uncertain; only P. gracilis has been recorded from Stewart Isl. and
thus evidently is distributed all along the coasts of the South Is-
land. Recently I received from Prof. Benham some specimens of
£P, cylindrica" from Stewart Isl.; they proved, however, to be P.
gracilis. The facts at present available would thus seem to indicate
that P. cylindrica does not extend so far South as P. gracilis.

After the above was written I received from Mr. W. R. B.
Oliver a specimen stated to be the type of Hutton's Ophiura
cylindrica. There is no doubt but that this specimen belongs to the
species described here as P. gracilis, not to the one here named
Pectinura cylindrica (Hutton) in accordance with the figures and
description of the latter, given by Farquhar (Op. cit.). According

176

to this, the two names should be interchanged. This does not, how-
ever, seem to me desirable or necessary. On the board, which
carries the name Ophiura cylindrica, two specimens have been
mounted. Only one of these is left. I cannot help suggesting that
the two specimens may have been one of each of the two species
here mentioned, because of a discrepancy in Hutton's description.
The colour given by Hutton decidedly agrees far better with the
form here mentioned as P. cylindrica than with P. gracilis; on the
other hand, the shape of the dorsal plates — fconvex on the outer
edge, and tapering inwards, nearly as long as broad" is in con-
formity with P. gracilis, not with the P. cylindrica of Farquhar
and later authors. — In view of these facts, and as nothing at
all is gained by the changing of the names, only a considerable
confusion Certain to arise from this change, I think it the best
course to keep the name Pectztinura cylindrica (Hutton) for the spec-
ies figured and described under this name by Farquhar.

41. Pectinura maculata (Verrill).

Pectinura maculata. H.Farquhar. 1898. Echinoderm Fauna of New
Zealand. Proc” Linn, "SocENSMWæpEs 06 ele
rences to previous literature given here).

== R. Koehler. 1907. Revision de la coll. des Oph-
iures du Mus. d”hist. nat. Paris. Bull. "Sci "Fr:tet
Belsique FX EFEDNESS TEE BE

= = H. L. Clark. 1909. Notes on some Australian and

Indo-Pacific Echinoderms. Bull. Mus. Comp. Zool.
JENS:
== =— H.L.Clark. 1915. Catalogue Rec. Ophiurans. p. 303.

Of this large and magnificent species several specimens were
taken in Queen Charlotte Sound, 3—10 fathoms, 19/1.1915.

Further a few specimens were dredged in Paterson Inlet and
in Halfmoon Bay, Stewart Island in 5—15 fms, in November 1914.

One of the specimens from Queen Charlotte. Sound is 4-rayed.
— In the only young specimen in hand (9 mm diameter of disk)
the grooves between the first and the second ventral plate are not
to be observed; in the larger specimens they are always distinct,
though their entrance may be reduced to a mere narrow slit.

I find the eggs of this species fairly large and yoiky, which

would appear to indicate that its larva does not assume the typical
Pluteus-shape.

Al

17

Explanation of the Plates.

Pl. III.
Ophiocreas longipes n. sp. Natural size.

Pl. IV.

Fig. 1. Gorgonocephalus chilensis Phil., var. novae-zelandiae n. var.

— 2. Astrotoma Waitei Benham. Type-specimen.

— 3. Astroceras elegans Bell; two specimens with arms interlaced; one
from the oral, the other from the aboral side.

— 4—5. Ophiocreas constrictaum Farquhar, young specimen; 4. from the
oral, 5. from the aboral side. (The specimen named as Ophiomyxa
brevirima in Bell's Report).

— 6—7. Astrotoma Benhami Bell; 6. oral side; 7. aboral side.

— 8—9. Astroporpa Wilsoni Bell; 8 oral side; 9. aboral side.

All figures natural size.

26 01924)

Vidensk. Medd. fra Dansk naturh. Foren. Bd. 77. 12

Papers from Dr. Th. Mortensen's Pacific Expedition
1914—16.
XXI.

Actiniaria from New Zealand and its Subantarctic Islands.
By
Oskar Carlgren, Lund.

(With 53 figures in the text).

T hougn several Actiniaria from New Zealand and its sub-
antarctic islands have been described by various authors, our know-
ledge of the Actinian fauna of these islands is rather imperfect.
Almost all species, described before, are littoral forms and so it is
also with the species in the collection of Mortensen. The older
descriptions of the species, as those by Farquhar and especially
Hutton, are for a great part rather incomplete and based only on
outer characters. In the recent descriptions by Stuckey, Kirk
andlES kue key S tue key and Walton Stephenson tand
Clubb also the anatomy of the forms is treated. Especially
Stuckey has increased our knowledge of the Actinian fauna
New Zealand's. In his paper (1908) is given a review of the forms,
known to 1908. Unfortunately the preservation of Stuckey's spec-
imens was often far from good — he has namely used perchloride
of mercury as fixation means, which, according to my experience,
only exceptionally gives good results — wherefore his anatomical
descriptions are often incomplete and sometimes wrong. For this
reason it is often difficult to identify his species as also those of
which only the exterior is described. After the publication of Stu-
ckey's paper 1908 some contributions to our knowledge of the
Actinian fauna in these districts are given by Stuckey and W al-
ton, Clubb and Stephenson (compare the list of literature).

I beg to express my best thanks to Dr. Mortensen for giv-
ing me the opportunity to study this collection.

180

Fam. Corallimorphidae.

Though I fully agree wiih Stephenson (1921) that the Proto-
stichodactylinae (Corallimorphidae, Ricordeidae (Watzl 1922) and
Discosomidae) are more related to the Madreporaria than all other
Actiniaria, in as much as a number of Madreporarian characters
are accumulated in these families, I cannot, however, accept Ste-
phenson's proposition to remove the Protostichodactylinae -from
the Actiniaria — an opinion already pronounced by Krempff
(C. R. Acad. Sc. Paris. 139. 1904) though partly based on other
arguments than those of Stezhenson. Our knowledge of the
"anatomy of the Madreporaria is namely so imperfect that it is im-
possible, at least at present, to say where the Protostichodactylinae
should be placed in the system of Madreporaria, and I think that
if we remove the Protostichodactylinae we must also transfer the
Gonactiniidae and the Ptychodactiidae to the Madreporaria, as these
families are likewise related to this group. For the explanation of
the question, whether the Protostichodactylinae belong to Actiniaria
or to Madreporaria, it seems to me important to make it clear
whether the Protostichodactylinae have lost their skeleton or never
developed one. If the skeleton of this group is reduced we must
place them among the Madreporaria; in case that the Proto-
stichodactylinae never had a skeleton I see no reason to remove
them from their old place. Though we shall probably never be able
to confirm with certainty which alternation agrees with the phylo-
genese of the Protostichodactylinae, I cannot find anything advocating
that a skeleton has been reduced here. In case that all Proto-
stichodactylinae were real deep-sea forms I should be inclined to
suppose that a reduction of a skeleton had taken place here, as in
Leptopenus among the Madreporaria, but as most Protostichodactylinae
(except Corallimorphus and the nearly allied /socorallion) are strongly
marked littoral forms, I cannot find the reason for a reduction of
a skeleten. Thus I favour the view that the Protostichodactylinae
never developed a skeleton and consider them as forms descending,
as the Ptychodactiidae and the Gonactiniidae, from a common an-
cestor with the Madreporaria and having passed a development
parallel with this group. A supposition of a parallelism here offers
no difficulties as among the Actiniaria parallel series often appear

(Carlgren. Wiss, Ergebn. Schwed. Siidpoiar-Expedition, Bd. 6, L. 5.
Stockholm 1911. p. 26).

181

Corynactis haddoni Farquhar.
Corynactis haddoni n. sp. Farquhar 1898, p. 532, — Stuckey 1909 c,

p:.390' fig. 12.

v 5 mollis n. sp. Farquhar 1898, p. 534. — Stuckey 1909 c,
p. 390.

SY TS gracilis n. sp. Farquhar 1898, p. 534. — Stuckey 1909 c,
p- 390.

Gr ts ANA albida n. sp. Stuckey 1909 c, p. 390.

Diagnosis. Sphincter distinct, rather long. About 40 radial
rows of endocoel-tentacles, each row containing 2—4 tentacles.
About 40 (35—41) pairs of mesenteries. Not half the mesenteries
perfect. 1—3 pairs of directives. Specific nematocysts with very
coiled thread in the filaments 72—88 x<x 26—29 u, in the caput
of the tentacles 65—71.x<x 13—17 uw, in the actinopharynx 31—36
< 9—10 w, in the column 31—41 X 7 u. Spirocyst-like cnidae
with visible basal part to the spiral thread in the caput of the ten-
tacles 48—61 X<X 4,5—5 w.

Colour very variable, compare Farquhar and Stuckey.

Dimensions in contracted state about 1 cm high and 0,s cm
broad. An extended oral disc was 1,2 cm in preserved state.

Occurrence. Slipper Islands. Coast, at low-water 20.12.1914.
Several specimens.

In the neighbourhood of Wellington (teste Farquhar and
Sstuckey):

Exterior aspect. The exterior of this species agrees with
other Corynactis-species. A good description is given by Farquhar.
The rows of endocoel-tentacles were about 40. The arrangement
rather well agrees with that of Corynactis globulifera (Carlgren
1900, p. 21). In a specimen with well extended oral disc the ar-
rangement of the endocoel-tentacles was as follows (the figures indi-
cate the number of tentacles in the rows) 3, 2, 4, 3, 4, 3, 3, 4,
SERENE SED RAS 3541. 37 4, 3, 4 3 ANS USS TAN 233,
ARNRD NES NEON ARES MES EPS 240 Tays Between theendocoel-
rows there issues one tentacle from each exocoel. The exocoel-
tentacles are larger than the endocoel-tentacles and are situated
inside the outmost endocoel-tentacles. Of these latter the innermost
are the smaller, the outmost the larger. The actinopharynx is provided
with numerous longitudinal ridges and furrows. There are no distinct
siphonoglyphes.

182

Anatomical description. The ectoderm of the column is
high and contains numerous mucus cells. At the insertion of the
ectoderm at the mesogloea there is on transversal sections a row
of small refractive bodies, much more delicate than the transversally
sectioned muscles in the mesenteries; whether we really have to do
with ectodermal muscles here I cannot decide with certainty, but I
am more inclined to regard these bodies as the somewhat thickened
bases of the supporting cells. The mesogloea is in every part almost

Fig. 1. Corynactis haddoni. Transverse section of sphincter.

homogeneous,with sparse cells. A distinct, rather long, diffuse sphineter
is developed, forming rather high folds in its uppermost part (textfig. 1).
Stuckey has not observed any sphincter. Below the sphincter the
circular muscles form very short folds or none. The tentacles and
the actinopharynx show the typical structure in Corynactis.

The number of mesenteries varies a little. In two sectioned
specimens there were 35 resp. 41 pairs. In a third specimen, the
tentacles of which I have counted, the number of pairs was pro-
bably 40, as there were 40 rows of endocoel-tentacles. This number
agrees with Farquhar's statement, while Stuckey states that
there are in all species (compare the synonyms!) 24 pairs of me-
senteries. I think that Stuckey has generalized too much in
this case, at also when he says that there were typically 12 pairs
perfect. It is a well known fact that the mesenterial arrangement

183

in Corynactis is very irregular. In the specimen with 41 pairs of
mesenteries at least 17, probably 19 pairs reach the actinopharynx.
In this specimen 3 pairs of directives were present. The other
sectioned specimen was provided with only a single pair of direct-
ives. The longitudinal muscles of the mesenteries are weak and
form a very coarse-folded lamella, the parietobasilar muscles are
weak and not folded, the basilar muscles are lacking. The filaments
are structured as in other Corynactis-species. I cannot understand
what Stuckey means when he states that the filaments in some
sections "show an appearence of three three-foils". True enough,
the inner parts of the mesenteries on some sections look like a
"three-foilf but these parts belong to the undermost part of the
actinopharynx, which splits in the middle of its furrows before its
end. It is probably these lateral processes (furrows-parts of the
actinopharynx) which very soon end, and which McMurrich 1904,
p. 295 concerning Corynactis carnea homologizes with the ciliated
streaks. In fact these processes are no ciliated streaks as far as I can
see — I have also sectioned Corynactis carnea — although the sup-
porting cells here are somewhat more numerous than in the
ridges. These cells are also closer in the outside of the filaments
than in the inside.

There are stinging capsules of different size and structure in
treReecfodermeInkthetstalkt offthelttentacles there seemsttorbe
only common spirocysts present. They are also numerous in the
caput of the tentacles (here 24 X 1,,—53 X 3 u) but very sparse
in the actinopharynx and in the filaments. In the ectoderm of the
column, in the caput of the tentacles, in the actinopharynx and
filaments there are large nematocysts with very coiled spiral thread.
In the filaments they are largest 72—88 X 26—29 mx, in the caput
of the tentacles 65—71 X 13—17 w, in the actinopharynx 31—36
<< 9—10 uw and in the column 31—41 <X 7 u (these nematocysts
are possibly a little different in structure from the others). In the
caput of the tentacles there are also spirocyst-like cnidae with
visible basal part to the spiral thread. They are somewhat broader
in their distal parts than in their proximal, and 48—61 X 4,5—5 u
in size. In the actinopharynx cnidae of about the same kind are
present. They are, however, more opaque, and their spiral thread
is hardly visible. Also in the column and filaments there are

184

similar capsules, which however are narrower in the basal end than
in the distal, their basal part to the spiral thread is perspicuous but
the spiral thread itself is very indistinct. In the column their size
was partly 14—19 X 3 w, partly 19—29 X 4,5—5 w, in the fil-
ament 34—43 X 10—11 uw. In different parts of the ectoderm
there were also opaque, often irregular developing-stages of stinging
capsules.

Fam. Edwardsiidae.

As I have already pointed out (Carlgren 1921, p. 25) I cannot
accept the supposition of Bourne (Journ. Linn. Soc. 32 Zool. 1916,
p—513) and Stephenson (compare Stephens onto keprRssse
559) that .the Edwardsiids "must rank as a distinct group equal to
that containing the Zoanthids" and the Dodecactiniaria (Actiniaria
and Madreporaria). The Edwardsiids certainly belong to the group
Athenaria among the Actiniaria.

Edwardsia tricolor Stuckey.

Edwardsia elegans n. sp. Farquhar 1898, p. 528. Pl. 36 figs. 1—2.
3 tricolor mom nov. Stuckey 1908 c, p. 378, figs. 1—4, PI. 22
bigs til =2:

SR neozelanica n. sp. Farquhar 1898, p. 529. Pl. 36 fig. 3.

Diagnosis. Physa well developed. Scapus with a thin peri-
derm and very numerous, small scattered nemathybomes occupying
the whole surface. Nematocysts of the nemathybomes partly 41—56
< 5,5—4,5 w, partly 34—41 x almost 2 uw, the latter strongly dimin-
ishing towards the distal end. Especially upper part of scapus and
capitulum polygonal. Tentacles 16 (16—24 in neozelanica). Nemato-
cysts of the capitulum 10—15 X 1 w, those of the tentacles 22—24
< almost 2 w and of the actinopharynx partly 20—24 X 1—1;5 mx,
partly 31—36 X 2—2,5 u. Longitudinal muscle pennons of the
mesenteries in the reproductive region well developed with about
20—30 mostly high folds especially ramificated in the outermost
part. Outer lamellar part of the mesenteries attached close by the
outside of the pennons. Parietal muscles strong. Main lamella of the
mesogloea in the region of the parietal muscles thick. Distribution
of the parietal muscles on the column considerable.

185

Colour. Capitulum muddy-brown or orange with eight opaque

white lenticular figures, which alternate with eight longitudinal white

double lines. Tentacles pellucid white with opaque yellowish-white
tips. Disc pale muddy-brown with eight white radiating lines. Actino-
pharynx orange or white (elegans) teste Farquhar. Capitulum, disc,
tentacles uniform pellucid white or pinkish white, without any mark-
ings (neozelanica teste F.). The scapus of Auckland-specimens was
yellowish, that of the Slipper-specimen dirty gray.

Dimensions in extended state: length of the animal 7,5 cm,
that of the tentacles 0,6 cm (elegans teste F.), length 4,3 cm, that
of the tentacles 0,37 cm (neozelanica teste F.). The well preserved
specimen with extended tentacles from Auckland Islands was 3 cm
long and up to 0,4 cm broad, length of the tentacles 0,5 cm. The
specimen from Slipper Islands was very contracted and only 0,8 cm
long and 0,45 cm broad.

Occurrence. Masked Island, Carnley Harbour, Auckland
Islands. Rocky coast with Melobesia. 3.12.1914. 2 specimens.

Slipper Island, low water. 20.12.1914. 1 specimen. Cook strait,
Island Bay, Ohiro Bay (teste Farquhar and Stuckey), Lyall Bay,
Ohiro Bay (neozelanica teste F.)

ErteriorkaspectiklheRphysakiskwelledeveloped' Frefractile?
The scapus is provided with a thin cuticle and 8 longitudinal furrows
corresponding to the insertions of the mesenteries. Its nemathy-
bomes are small but very numerous, scattered and distributed over
the whole surface of the scapus making it appear granulous. The
capitulum is deeply furrowed at the insertions of the mesenteries,
and polygonal. The cylindrical tentacles are of usual length, in
the examined Auckland-specimen 16. Farquhar states in elegans
16 and in neozolanica 16—24 but usually 16 tentacles. The actino-
pharynx is provided with 8 longitudinal furrows, one of which forms
the ventral single siphonoglyphe.

Anatomical description. The ectoderm of the physa is
high and without a cuticle. The cuticle of the scapus is thin, at its
outside foreign bodies such as diatoms are sticking. The ectoderm
of the scapus is rather thin. The nemathybomes contain 2 kinds
of nematocysts, one kind larger and only a little narrower in one
end than in the other, the other smaller with the broadest part in
one end and the narrowest in the other, which is strongly acum-

186

inated. The size of the nematocysts in the nemathybomes was in
the three 'specimens as follows:

Largest specimen from Auckland Island 41—48 = 4,5 w, 383—46
x almost 2 w.

Smallest specimen from Auckland Isl. 41—49 x 4,5 w, 36—43
x almost 2 u.

Specimen from Slipper Island 46—56 X 5,5—4,5 W, 34—41
x< about 2 u.

2 É
. »

Fig. 2—5. Edwardsia tricolor. Transverse sections of pennons (figs. 2, 4) and parietal
muscles (figs. 3, 5) in the upper part of the reproductive region.
e

187

The mesogloea of the scapus is thicker than the ectoderm and
”fibrillous with few cells. The nematocysts of the capitulum were
small as usually in Edwardsia, their size was 10—15-X 1,5 m.
Concerning the nematocysts of the tentacles and actinopharynx
compare diagnosis! The ectoderm of the actinopharynx was very
high in the ridges, rather thin to thin in the furrows. The cilia
of the siphonoglyphe was longer than in the other part of the
actinopharynx.

The mesenteries show an arrangement equal to that in E. cla-
paredii. The micromesenteries were very weak. The pennons of
the stronger mesenteries were well developed as were also the
parietal muscles. The sections of a pennon and a parietal muscle
in the reproductive region of a specimen from Auckland Island
(textfigs. 2, 3) and of the specimen from Slipper Island (textfigs. 4, 5)
show good agreement. The more curved pennon in the latter spec-
imen is of no importance as due to a stronger contraction. I have
found sections of about equal appearence also in the former spec-
imen. Concerning the folds etc. compare the diagnosis. One specimen
was a male, the other a female.

Remarks. It is impossible to decide, without an examination
of the nematocysts in the nemathybomes, whether zricolor (elegans)
and neozelanica are two distinct species or not. To my mind they
probably belong together.

Fam. Halcampoididae.

Peachia neozelanica n. sp.

Diagnosis. Tentacles 10 (always?), Conchula tentacle-like
small. Muscle pennons only on the five first couples, the sixth
couple agreeing with the weaker mesenteries (4 single mesen-
teries of the second cycle in the four lateral and ventrolateral exo-
coels (always?). Muscle pennons not extended but more concentrated
with high and ramificated folds. Parietal muscles of the perfect
mesenteries with few palisade-like folds. Imperfect mesenteries
developed about as the parietal part of the perfect, not forming
pennons. Nematocysts of the column 12 X I uw, those of the ten-
tacles 14X 1 4, those of the actinopharynx partly 17—22 Xx 1—1,5 w,

188

partly 29—31 X 7 w, the latter broader at the basal end. Spiro-
cysts of the tentacles 12 X 1 u—36 X 2 uw.

Colour in alcohol. On each side of the tentacles a dark spot,
otherwise uncoloured.

Dimensions in preserved state. Length 2,15 cm, largest
breadth 0,3. cm, length of the actinopharynx 0,3 cm, length of the
tentacles 0,2 cm.

Occurrence. Three Kings 65 fms. Hard bottom. 1.5.1915.
Il specimen.

Exterior aspect. The co:umn is strongly elongated,. in the
undermost part with 16 distinct longitudinal furrows probably cor-
responding to the insertions of the mesenteries. Above this region
an area with very small papillae only perspicuous with a strong
magnifying' glass. The cylindrical tentacles are certainly not more
than 10. The actinopharynx is evaginated owing to a strong con-
traction of the distal part of the body and provided with numerous
longitudinal folds. The siphonoglyphe is broad and furnished with
a small tentacle-like conchula (textfig. 6).

Anatomical description. For the anatomical examination
I have sectioned a piece transversally rather below the actino-
pharynx and a piece of the evaginated actinopharynx region and
made maceration preparations of the ectoderm in the column, ten-
tacles and actinopharynx. The maceration preparations of the column
are taken from its undermost part as the ectoderm was lost in the
other regions. Concerning the size of the nematocysts and spiro-
cysts I refer to the diagnosis. The smaller nematocysts of the
actinopharynx were rib-like, the larger broader at the basal end
which is sometimes square, the basal part of the spiral thread and
the thread itself perspicuous. The actinopharynx as also the siphono-
glyphe agree in structure with other Peachia species. Not having
sectioned the upper part of the actinopharynx I cannot, however,
decide if a strongly ciliated boundary zone is present between the
actinopharynx and the siphonoglyphe (compare Carlgren 1921,
POP):

The mesenteries were only 16. Of the 6 pairs of the first order
only the 5 first couples were perfect and provided with pennons, the
sixth couple (the ventral mesenteries of the ventrolateral pairs) is
imperfect and devoid of pennons but furnished with filaments as

189

the five other couples. The mesenteries of the second order are
"situated as usual in Peachia, in the lateral and ventrolateral exocoels,
but do not consist of pairs but of single mesenteries. It is true
that I have sectioned only one part of the specimen, but as this
part is situated rather close to the tentacles, and as also in the
undermost part of the
body there are only 16
longitudinal furrows pro-
bably corresponding to
the imserfions" of the
mesenteries, and as the
single mesenteries of
the second order are
well developed in the
sectioned part, I think
that the single mesen-
teries have no partner
also in other regions of
the body. The muscle
pennons below the ac-
tinopharynx are not as
much extended as for
inst. in Peachia hastata,
but somewhat more con-
centrated and provided 7

with high ramificated Figs. 6—7. Peachia. neozelanica. Fig. 6. Siphono-

folds. The parietal part glyphe, conchula and directive tentacle.
Å Fig. 7. Transverse section of mesenteries in the
of the perfect mesen- ”… reproduction region (compare the text).

teries consists of rather

high folds arranged pallisade-like. In textfigure 7 I have re-
produced a transverse section of a mesentery of the first couple
and an imperfect. lateral mesentery of second order. The muscle
folds of the parietal part of the perfect mesenteries, as also the
imperfect mesenteries, are often higher than shown in the figure.
The imperfect mesenteries of the sixth couple are only slightly
stronger than those of the second order. At least most of the
perfect mesenteries inclusive the directives are provided with ovaries
containing partly very large ova.

190

Remarks. As to the mesenteries, the species shows an organ-
ization somewhat different from the previously described Peachia
species. It is possible that the species is an anormal Individuum
(compare Carlgren 1921, p. 104) and never develops the missing
mesenteries of the second order. It is, however, more likely that
the specimen is not full-grown, though the reproductive organs are
rather well developed.

Judging from the description of Peachia hilli (Wilsmore 1911,
p. 39) dredged in Broken Bay, New South Wales, this species
is not identical with P. neozel«nica. I have not identified our
Species with P. carnea Hutt. (Hutton 1879, p. 275) as it is very
doubtful if this species really is a Peachia. Hutton's short de-
scription of P. carnea is as follows: "Column flesh colour, semi-
transparent with pale longitudinal lines, contracted below the mouth
and again about one third from the posterior end but the form is
variable, anus (!) large and conspicuous. Disc pale flesh colour,
rayed with brown. Mouth rayed surrounded by a brown-banded
ring, on one side a number of small papillae. Tentacles 12, rather
longer than the diameter of the disc, simple pale flesh colour with
about five brown, often chevroned, bands on the upper surface.
Length about 1/4 inch. A single specimen, Ocean Beach, Dunedin.”

Fam. Condylanthidae.

I accept Stephenson's proposition to form a family Condy-
lanthidae for the genus. Condylanthus. According to this author,
(1922, p. 262) Charisea should be a synonym of Condylanthus. To
my mind it is not so, as the description and especially the figures
of Torrey (Proc. Wash. Acad. Sc. 4. 1902, p. 388) indicate that
there is no real pedal disc in this genus. Therefore, and also on
account of other structural characters, I have (1921, p. 92) sug-
gested that Acthelmis and Charisea are synonyms. In Condylanthus
the lower part of the column is much broader and provided with
more numerous mesenteries than the upper part, while in Charisea
with its vermiform body the number of tentacles and mesenteries
agree. On account of the excluding of Charisea from the Condy-
lanthidae and of the structure of the genus Condylanthus (compare
below) the diagnosis of the family must be altered as follows:

191

Thenaria with a broad pedal disc and distinct basilar muscles.
Column without marginal sphaerules, verrucæ and vesicles, divisible
in scapus and capitulum. Tentacles fewer (always?) than mesen-
teries, retractile. Longitudinal muscles of tentacles and radial
muscles of oral disc mesogloeal. No sphincter or a weak, diffuse.
Six pairs of macrocnemes with filaments, gonads and strong re-
tractors.. Microcnemes without these organs, in the lower part
more numerous than in the upper (always?)

For reasons, which I will give in another paper, I maintain the
group Thenaria, as I cannot accept Stephenson's groups Endomy-
aria and Mesomyaria.

Genus Condylanthus.

Diagnosis. Condylanthidae with well developed pedal disc.
Column divisible in scapus and capitulum without papillae or warts.
Scapus provided with cuticle. Ectoderm of the capitulum with spiro-
cysts. Sphincter weak diffuse or absent. Tentacles short, consider-
ably fewer than mesenteries. Longitudinal muscles of the tentacles
and radial muscles of the oral disc mesogloeal. The six pairs of
macrocnemes with pinnate circumscript pennons and very strong
parietal muscles. 2 pairs of directives. Microcnemes without muscle
pennons, those of the second order recalling the parietal part of those
of the first. Basilar muscles well developed.

The diagnosis of the genus Condylanthus is here altered because
a renewed examination of the very bad preserved tentacles and oral
dise in the examined type-specimen of C. magellanicus has shown
that the longitudinal muscles of tentacles and oral disc are meso-
gloeal and not ectodermal. "In another paper I will give a more
complete description of the geno-type, based on examination of new
material better preserved. The species, described below, is separated
from C. magellanicus by the structure of the parietobasilar muscles
and the pennons. Below the actinopharynx the parietobasilar muscles
form no deeper fold and are more robust in aucklandicus than in
magellanicus, in which they are very broad and form a very deep but
thin fold. Th2 muscle folds of the pennons are also comparatively
more ramificated in aucklandicus than in magellanicus.

192

Condylanthus aucklandicus n. sp.

Diagnosis. Body conical. Cuticle of the scapus thin, easily
deciduous. Sphincter weak, diffuse close to the tentacles. Tentacles
24 hexamerously arranged, conical, short. Longitudinal muscles of
the tentacles considerably stronger. on the inside than on the out-
side. Actinopharynx long with indistinct siphonoplyphes. Pairs of me-
senteries at least in four cycles, the last cycles very weak, present only
in the undermost part of the body. Muscle pennons in the upper
part of the mesenteries, strong, richly ramificated, in the under part
considerably weaker. Parietal part of the longitudinal muscles and
the parietobasilar muscles very strong and richly ramificated in the
under part of the mesenteries, weak in the upper. Mesenteries of
the second order recalling the parietal part of those of the first. Mes-
enteries of the third and fourth orders very small, only in the
proximal part. Nematocysts of the capitulum 19—22'X almost 2—2 uw,
those of the tentacles 19—24 X almost 2—2 u, those of the actino-
pharynx about 24 X 4,5 u, the last broader at the basal end, spiro-
cysts of the capitulum 29—41 X 2—2,5 u, those of the tentacles
12 X 1—38 X 2 uw.

Cololrmre

Dimensions" in preserved state: "Height 0 rokken seeareest
breadth of the pedal disc 1,2 cm, Length of the tentacles 0,15 cm.

Occurrence. Masked Island. Carnley Harbour. Auckland
Islands. Rocky shore with Melobesia. 3.19.1914. 1 spec.

Exterior aspect. As to the exterior, the single specimen
(textfig. 8) was not well preserved, the column very contracted and
very folded, the actinopharynx for a great part evaginated. The
pedal disc is broader than the upper part of the column and fur-
nished with a cuticle. The column is divisible in scapus and capi-

tulum, the former is rather thick and provided
with a thin, easily deciduous, dirty gray cuticle.
The thin capitulum is rather long. The ten-
tacles are 24, hexamerously arranged in three
mM close standing cycles. In contracted state they
EEK BE SE Ba are Conicalskveny short and thick. The almost
aeerts Festen wholly evaginated actinopharynx was provided
rn eh erRERe aner. With 12 tongitudinal ridges. If siphonoglyphes
landicus. Magnif. 2/1. are present they are weak.

193

Anatomical description. The ectoderm of the scapus is
Tather thick, but considerably thinner than the mesogloea, and con-
tains very numerous gland-cells. In the high ectoderm of the capi-
tulum there are very numerous spirocysts 29—41 X<X 2—2,5 u and
rather numerous nematocysts 19—22 x almost 2—2 u. The meso-
gloea of the capitulum is thin. The circular muscles of the column
are very weak, in the capitulum somewhat stronger than in the
scapus. The sphincter is weak, endodermal, diffuse (textfig. 9) and

Fig. 9, 10. Condylanthus aucklandicus. Transverse section of sphincter and longitudinal
section of the base of one tentacle (fig. 9). Transverse section of tentacle (fig. IO).

situated close to the tentacles. The ectoderm of the tentacles is
high and contains rather numerous nematocysts 19—24 X almost
2—2 w and numerous spirocysts 12 X 1—38 X 2 u. The longi-
tudinal muscles of the tentacles are mesogloeal, stronger on the
inside of the tentacles than on the outside, in the latter place the
muscle meshes are small, in the former large and extended in
radial direction (textfig. 10). The radial muscles of the oral disc
are also mesogloeal. The actinopharynx ectoderm is rather high,
in the ridges supported by mesogloeal thickenings.

The pairs of mesenteries are in the upper half 12, of which
2 pairs of directives, and in the proximal part of the body there
are also a third and a fourth cycle of mesenteries present, possibly
also traces of a fifth cycle hexamerously arranged. Only the six

Vidensk. Medd. fra Dansk naturh. Foren. Bd. 77. 13

194

12

Figs. 11, 12. Condylanthus aucklandicus. Transverse sections of pennons at the oral
disc (0) (fig. 11) and at the undermost part of the actinopharynx (fig. 12). S, Stoma, il, ol,
inner and outer lamellar part of the mesentery.

first pairs are provided with filaments and reproductive organs. Also
in other respects the mesenteries of the different cycles are une-
qually developed. The longitudinal muscles form pennons only on
the 6 first pairs. They are attached to the oral disc immediatelv
inside the tentacles and here richly ramificated, and are of a distinct
pinnate circumscript appearance (textfig. 11). Also in the under-
most part of the actinopharynx the pennons are strong and here
more broad (textfig. 12). Almost the whole upper half of these me-

195

senteries, except the pennons, are thin and lamellar, as is also the small
parietal part of the mesenteries. In the lower half the mesenteries show
another structure. The pennons, indeed, retain their character but are
here considerably weaker and,
in comparison with the parietal
part of the mesenteries, incon-
siderable (textfig. 13 mp). In the
undermost part they are yet
somewhat stronger. The lower
half of the mesenteries are na-
mely considerably thickened in
the here broad parietal region,
and the longitudinal muscles
richly ramificated on the pennon
side as well as especially on the
parietobasilar muscle side (text-
fig. 13)... At the same time as
the pennons diminish, the
parietal part increases and vice
versa. The ova in the mesen-
teries were very large.

The muscles of the mesente-
ries of the second cycle recall
the parietal part of those in the
first cycle. Thus they are strong
in the lower half (textfig. 13),
weak in the upper. The mesen- Fig. 13. Condylanthus aucklandicus. Trans-
id and fourth 70 teen of one meseniery orme ses
cycles are weak, in their upper- and of 2 mesenteries of the third order in
most part not reaching above the under part of the body. mp: pennon.
the endoderm of the column wall, and only present in the lowest
part of the bødy. The filaments are of usual structure.

Fam. Actiniidae.

According to Stephenson (1921, p. 528) there is no real
difference between the families Bunodactiidae and Actiniidae as
the sphincter in the former sometimes agrees with that in the latter.

13+

196

If this variation is constant in some species, as it seems, and the
sphincter 'in some species of Bunodactiidae appears weak in its
whole circumference, I have nothing to object to the suppression
of the Bunodactiidae. Thus at least provisionally I refer the species
of Bunodactiidae described here to the Actiniidae. I cannot here dis-
cuss Stephenson's revision of the genera, but I think that we can
retain the genus Anthopleura for forms with marginal sphaerules
(acrorhagi), limiting the genus Bunodactis to forms without such, in
the same manner as we separate Actinia from Gyrostoma. Ås far as
I know, there is namely no variation as to the marginal sphaerules
in the species of Anthopleura, so that a species may have or miss
these organs. In this connection I cannot understand for what
reason Stephenson assigns Tealia (Urticina) sulcata and carl-
greni) acrorhagi. Clubb (1902) mentions no such organs in these
species and, in fact, there are none (stated by myself on material
determined by Clubb). Besides, both these species belong to the
genus Bunodactis and not to Tealia. Qwing to Stephenson's
enclosing of these Bunodactis-species in the genus Tealia, Ste-
phenson's diagnosis of this genus is not good (compare my diag-
nosis of the genus Urticina 1921, p. 160).

ÅActinia tenebrosa Farqh.

Actinia tenebrosa mn. sp. Farquhar 1898, p. 535.
>) 5 Farq. Stuckey 1909c, p. 380. Pl. 23 figs. 1,2, textfig. 5.
S australiae n. sp. Carlgren 1900, p. 32.

Diagnosis Column shorter than broad. Marginal sphaerules
very well developed. Sphincter diffuse, rather well developed with
tendency to form humps. Tentacles at least to about 144 (200 or
more Stuckey). More than half the dise without tentacles. Actino-
pharynx with numerous longitudinal furrows and two well developed
siphonoglyphes forming aboral prolongations. Pairs of mesenteries
hexamerously arranged in 4 or 5 cycles, the fifth cycle more or less
complete with irregular development in the different compartments.
2 pairs of directives. Longitudinal muscles weak, forming no distinct
pennons. Parietobasilar and basilar muscles strong. Nematocysts of
the column 14—20 X 1,5—2 u, those of the marginal sphaerules
37—53 x<x 2,5—3,5 (4) u, those of the tentacles 19—24 X about

197

1,5—almost 2 w, those of the actinopharynx 19—29 X about 1,5
=25u, spirocysts of the tentacles 14 <X 1—31 X 25 um.

Colour greenish or brown from reddish-brown to brownish-
black or yeliowish-green, marginal sphaerules whitish with a blue
or lavendar tinge. Tentacles and oral disc dusky crimson or dull
red (teste Farquhar and Stuckey).

Dimensions. Column about 2,7 cm, diameter of the disc
abontkemilengsthkoltthettentacles about 15 Tem (F are u har).
The 3 largest specimens from Slipper Islands were 2,,—2,3 broad
and 1,5, cm high in preserved state,

Occurrence. Slipper Island; low water. 20.12.14. Several
specimens.

New Zealand. Manakau Harbour, Cook Strait, Queen Charlotte
Sound (Grant) Robin Hood Bay (Skelley), Stewart Island (M or-
rison) teste Stuckey and Walton, Auckland Isl. (Kirk) teste
Stuckey, Kermadec Islands (teste Stuckey). Port Jackson (M or-
tensen) 4 specimens.

Esternforkasnecteenhetexteriorfoffthistspeciesfasreest with
that of Actinia equina. The pedal disc is wide, the column smooth,
its height shorter than its diameter. The margin is distinect. The
marginal sphaerules, situated in the deep fossa, are large, in con-
tracted state often deeply transversally furrowed so that they some-
times look as if there were a short row of sphaerules instead of
a single sphaerule. Their number varies in connection with the
number of compartments., Sometimes they are miscarrying in some
parts. The tentacles are conical, short, and arranged in several cycles.
Their number varies. Stuckey states 200 or more. The three
largest specimens from Slipper Islands had 144, 138 and 114 ten-
tacles. More than half the oral disc lacks tentacles. The mouth
is situated on a conus. The actinopharynx is provided with numerous
longitudinal ridges and two well developed siphonoglyphes forming
well developed aboral prolongations.

Anatomical description. The anatomy of this species is
described by Stuckey but in some points incompletely. Stuckey
states that there is no sphincter. In fact a rather well developed
diffuse sphineter is present, showing a tendency to form humps,
and situated as usual in Actinia between the tentacles and the
marginal sphaerules. I have sectioned 2 specimens, one from the

198

Slipper Islands and one from Port Jackson and in both the sphincter
shows thé same structure. In the textfig. 14 I have reproduced the
sphincter from the Port Jackson specimen. The ectodermal longi-
tudinal muscles of the tentacles are ordinarily developed (Stuckey
says: very strong) and form palissade-like close folds. The radial
muscles of the oral disc are stronger than the longitudinal muscles
of the tentacles between the insertions of the mesenteries, at the
insertions of the mesenteries weaker. I have not observed any
anastomoses between the muscle folds. Å

Fig. 14. Actinia tenebrosa. Transverse section of sphincter. r: marginal sphaerule.

The pairs of mesenteries vary in number. Stuckey states
that the normal number appears to be 48 pairs, in one specimen
he observed 56 pairs. As the number of mesenteries here agrees
with that of the tentacles it should thus be 200 or more, if the
statement of Stuckey is correct. In the specimen with 114 ten-
tacles and 57 pairs of mesenteries there were 11, 9, 7, 7, 9, 8
pairs of younger mesenteries in the compartments between the 6
first pairs, counted from the one directive pair, in the specimen
with 144 tentacles and 72 pairs 14, 8, 11, 10, 8, 15. The develop-
ment of the mesenteries in the different compartments thus was
irregular, in some compartments richer than in others. There were
always two pairs of directives. In the large specimens the mesen-
teries of the first, second, third, and part of the fourth were perfect,

199

a larger number than Stuckey states. The mesogloea of the
"mesenteries is rather thick. The longitudinal muscles form no
distinct pennons, only in the lower and inner part of the mesen-
teries the muscle lamella forms some higher folds. The parieto-
basilar muscles are strong and form inwards a very distinct fold on
the mesenteries. Between the fold and the main lamella of the
mesenteries the muscles are enclosed in the mesogloea. Also the
basilar muscles are very strong and recall those in Bolocera longi-
cornis (Carlgren 1893). The fcurious three division of the filaments
provided with trefoils of the mesenteryf, which Stuckey describes,
is certainly arisen by contraction. The mesenteries and filaments
are namely normally structured. The reproductive organs were best
developed in the weaker mesenteries, in some stronger ones there were
also a few ova or testes. All three examined specimens were pro-
vided with a few large young in the coelenteric cavity. It is very
remarkable that two of these three specimens were males, one a
female. In the latter the ovaries were small, in the former the
testes were. very well developed on the mesenteries of the last
cycle. I have not observed any traces of testes in the female or ova
in the males. Under such circumstances it is hardly probable that
the species is a proterandric hermafrodite. In the case that the
species is dioecious, the embryos must in some manner have immi-
grated in the coelenteric cavity of the males and there been retained.

The size of the nematocysts (n) and spirocysts (sp) in different
parts of the animal was as follows.

Habitat Column Marginal sphaerules
n n
Slipper Island 17—19 X well 1,5 u. 46—53 X 2,5—3 w.
Port Jackson 14—20 X 1,5—2. 37—48 X (2,5) 3 mu.
— — 41—50 <x 3—3,5 m.
Habitat Tentacles
n sp

Slipper Island 19—23%& 1,5—almost 2 w. 14X1—31Xx2,54.

Port Jackson 20—24 X about 1,5—almost 2 u. 17X1—30X2 1.
— 20—24 X about 1,5 w. —

Habitat Actinopharynx
n .
Slipper Island 21—29 X almost 2—2 (2,5) u.
Port Jackson 19—24 X 1,5—…about 2.

— 22—29 X almost 2—2.

200

The nematocysts in the column and tentacles were sparse, in
the actinopharynx more numerous, in the marginal sphaerules very
numerous, in the latter there were also sparse spirocysts. In the
specimen from the Slipper Isl. I observed also very large nemato-
cysts (62—79 X 6—6,5 uw) in the maceration preparations of some
tentacles, in other tentacles however no such nematocysts. Probably
these nematocysts do not belong to the tentacles but are stuck to them.

Genus Parantheopsis McMurr.

Diagnosis. Actiniidae with more or less cylindrical body and
well developed pedal disc. Urticina-verrucae in longitudinal rows at
least in the upper part of the column. Margin and fossa distinct.
(Little? or) no sphincter. Tentacles short, the outer almost as long as
the inner. « Longitudinal muscles of the tentacles and radial muscles
of the oral disc ectodermal. Siphonoglyphes well developed. Mesen-
teries arranged octo-, penta- or hexamerously. All or most mesen-
teries perfect. 2 pairs of directives (always?). Longitudinal muscle
pennons of the mesenteries well developed as also the parietobasilar
and basilar muscles. Reproductive organs on the mesenteries of
the first order and on all or almost all of the other orders.

Owing to the different length of the tentacles in the typical
Condylactis-species and in some other species described as Condy-
lactis, for inst. C. cruentata, I have 1903 proposed to divide the genus
Condylactis in two genera or subgenera. The following year 1904
McMurrich aålso erected a new genus Parantheopsis for C. cru-
entata and a new species ocellata. According to him the genus
Parantheopsis should be distinguished from Condylactis "by the
possession by the latter of a "collar" in place of a parapet, and of
longer and stouter tentacles.” In Stephenson's paper of 1922
Condylactis as well as Parantheopsis are on his list of genera, but
the characters given by him are not good. Stephenson remarks
(p. 269) fthat it seems possible that two distinct species have been
described under the name cruentata. The description rather sug-
gests this and that one of the two is a Condylactis and the other
a Parantheopsis." I cannot agree with him in this point, the spec-
imens anatomically described by McMurrich, myself and Clubb
åre undoubtedly the same species. Only the identification of Cou-
thouy's Actinia cruentata with the species, described by the above

201

named authors is somewhat uncertain. Stephenson retains Con-
dylactis "for forms with smooth collar aud no acrorhagi or appreci-
able sphincter,f and Parantheopsis "for such as have vertical rows
of verrucae and also acrorhagi but little or no sphincter." Con-
cerning the acrorhagi (marginal sphaerules) there are in fact no
such neither in Condylactis nor in Parantheopsis. True enough
that McMurrich speaks of pseudoacrorhagi in P. ocellata, and
ClnbbF of "such in" PS eruentata;" but -at the same time Clubb
remarks that they have no trace of nematocysts, and McMurrich
says, concerning the distal papillae in cruentata and the pseudo-
acrorhagi in ocellata, that they have no special development of ne-
matocysts.. Under such circumstances these formations cannot be
considered as pseudoacrorhagi, a name proposed by myself (1899,
p. 70) for such formations which look" like marginal sphaerules
but are provided with rather numerous nematocysts, though not so
numerous as in the real acrorhagi (marginal sphaerules). The
nematocysts of the pseudoacrorhagi are besides of about the same
length as those of the other part of the column, while the nemato-
cysts of the real acrorhagi mostly are considerably larger. In fact,
as far I can see, the distal papillae (fpseudoacrorhagi") are nothing
but the uppermost verrucae, which are sometimes not so much
contracted as the other verrucae, but more vesicle-like.

Parantheopsis cruentata (Couth.) McMurr.

Aectinia cruentata n. sp. Couthouy in Dana 1849, p. 8 Pl. 3 fig. 23.
Gay 1852, p. ? (compare McM urrich 1904).

Cereus cruentatus Milne Edwards 1857—60, p. 268.

Bunodes cruentata Gosse 1860, p. 194, Verrill 1869, p. 467, Andres
1883, p. 832, 1884, p. 215.

Bunodactis cruentata Verrill 1899a, p. 42.

Actinioides cruentata Verrill 1899b, p. 146.

Condylactis cruentata McMurrich 1893, p. 150. Pl. 21 figs. 20—21.
Carlgren 1897, p. 170 textfigs. 4, 5, 1899, p. 10 figs.
13—14, 1903, p. 3, Pax 1907, p. 30, Stephenson
1922, p. 269.

Parantheopsis cruentata McMurrich 1904, p. 233, Clubb 1908, p. 2.
PERKEENS rep hen son 922 pp 270:

Anemonia dichogama n. sp. Kirk and Stuckey 1909, p. 384, Pl. 19,20.

Gyrostoma dichogama Kirk and Stuck. Stephenson 1922, p. 268.

Bunodes kerguelensis n. sp. Studer 1878, p. 543 Pl. 4 fig. 16.

202

Condylactis kerguelensis Stud. Carlgren 1900, p. 31, Pax 1907, p. 32.
Condylactis crassa n. sp. Pax 1922, p. 78
Anthea (?) kerguelensis (Stud.) Kwietniewski 1895, p. 595.

Diagnosis. Column with rather well developed verrucae in
the upper part of the column. No sphincter. Tentacles cylindrical,
up to 48. Actinopharynx with two siphonoglyphes forming well
developed aboral prolongations. Pairs of mesenteries up to 24.
Between the stage of 12 pairs and that of 24 pairs there is often
an intermediate octomerous stage, which is at least mostly (perhaps
always) transient. Development >»f the mesenteries of the third ørder
from the dorsal towards the ventral side. 2 pairs of directives. All
or almost all mesenteries perfect and fertile. Parietobasilar muscles
very strong forming a distinct fold inwards and reaching almost to
the distal -body-end, with muscle meshes also in the mesogloea.
Nematocysts of the column 14—19 X 1,5 uw, those of the tentacles
19—29 X 1,5—about 2 4, those of the actinopharynx partly (24)
26—738 x 2,5—3 (3,5) u, partly 19—26 X 3,5—4 u, the latter broader
at the basal end, spirocysts of the tentacles 12 X 1—24 X about 2 w.

Colour variable. Column grayish, grayish-white, white, olive-
green, the proximal part often paler, sometimes rose-coloured, distal
part sometimes deep carmine-purplish-red with numerous vertical
lines of darker red, verrucae rose-white (cruentata), dirty white (A.
dichogama), rose-red (B. kerguelensis). Tentacles clive-green or olive-
gray sometimes in the distal part carmine-coloured or deep carmine
with spots of gray or intense rose blood-red (cruentata) — purple
(B. kerguelensis).

Dimensions in preserved state to about 3 cm long and 1,5
cm broad, length of the tentacles 0,,—0,6 cm. The largest spec-
imen from Auckland Island was 2,8 cm long and 1,7 cm broad, and
the length of the tentacles 0,5—0,6 cm.

Occurrence. Masked Island; Carnley Harbour; Auckland
Islands. Under stones. 29.11.1914. Numerous specimens. Rocky
shoal. 3.12.1914. 3 specimens.

Campbell Island; Perseverance Harbour. Under stones, low
water. 8.12.1914. 1 specimen.

Further distribution. Campbell Island (teste Kirk and
Stuckey. 4. dichogama).

Kerguelen, Accessible Bay (Studer B. kerguelensis), Kerguelen

203

(C. crassa teste Pax), Chile, Talcahuano (teste McMurr.), Smyth
" Channel, Isthmus Bay, Strait of Magelian, Punta Arenas (teste also
McMurr.), Sandy Point (teste McMurr.), Forests strait, Løndon-
derry Isl., Gente Grande, Terra del Fuego, Cabo Espiritu Santo
(teste McM urr.), Orange Bay (teste Couthony), Lapataia nueva,
Uschuaia, Picton Isl., Navarin Isl., Lennox Isl., Puerto Pantalon,
Harberton Harbour.

Falkland Islands. Port Harris (teste Clubb), Port Stanley.

Remarks. The exterior and anatomy of this species is de-
scribed by McMurrich, myself and Clubb (compare the litera-
ture above). I will here only add some notes concerning the size
of the nematocysts (n) and spirocysts (sp) in specimens from dif-
ferent localities.

Occurrence Column
n
Carnley Harbour 17—19X 1,5 4.

rmk INSEE SKO ESRIE Sar
Campbell Island ==

Falkland Islands —

Punta Årenas 14—18 X 1,5 m.
Kerguelen (P. ker- -—
guelensis Stud.)

Occurrence Tentacles Tentacles
n Sp
Carnley Harbour 22—29X 1,5—almost 24. 11X1—24X 154.
— 22—26&X 1,5— — 12X 1—24X almost 2.
Campbell Island 22—29X1,5— — ==
— 22—26X 1,5— — ==
Falkland Islands 24—29 about 2 uw. 12Xx1—24X1,5.
Punta Arenas 19—24%Xalmost 2 u. 12 X 1—24 X about 2.

Kerguelen (P.ker- about 24 w long. —
guelensis Stud.)

Occurrence Actinopharynx Actinopharynx
n n
Carnley Harbour 26—38 almost 3 uw. 24—26X4 u.
== (24)-26—31X3. er
Campbell Island 26—33% almost 3—3. 20—24X 3,3.

— 29—34X almost 3. —
Falkland Islands 26—35 almost 3—3. 19—24 X about 3,5.
Punta Årenas 29—36 5% about 3 (3,5). 26 X4.
Kerguelen (P.ker- 30—36%3—3,3. 24X4.
guelensis Stud.)

204

As seen from the literature of the species I regard Paran-
theoides cruentata (Couth.), Anemonia dichogama Kirk and Stuck.,
(Gyrostoma dichogama Stephens.), Bunodes kerguelensis Stud. and
Condylactis crassa Pax as synonyms. Hardly anything in the descrip-
tions given by Kirk and Stuckey contradicts that we have to do
with a species of Parantheoides. Only the distribution of the repro-
ductive organs, according to K. and S. present on several secondary
mesenteries, speaks against such a supposition. I think, however,
that it is not worth much attention. If Kirk's and Stuckey's
statement of brood-pouches with embryos in specimens containing
testes is right it is clear that the testes were not fully developed.
The description of the brood-pouches is besides very curious. ("The
embryo lies in a distinct brood-pouch occupying the whole thickness
of the mesentery!") The "false" mesenteries from the wall of the
actinopharynx, described by K. and S., are of course the sectioned
inner parts of perfect mesenteries, only with a lobe attached to the
actinopharynx. To my mind Parantheoides cruentata and Anemonia
dichogama are the same species.

I have also examined the type specimen of Bunodes kerguelensis
and cannot find any distinct character, by which it could be sepa-
rated from cruentata. Also Pax's description of Condylactis crassa
from Kerguelen indicates that it is one and the same species, having
thus a very wide circumsubantarctic distribution.

Bunodactis rubro-fusca n. sp.

Diagnosis. Pedal disc well developed. Column with longi-
tudinal rows of rather small Urticina-verrucae, especially distinct
in the upper part. Fossa deep. Sphincter rather weak to ordinarily
developed, concentrated diffuse or palmate-circumscript. Tentacles
cylindrical rather short, the outer almost as long as the inner, in
numbers from 56 to about 100, often irregularly arranged. Longi-
tudinal muscles of tentacles and radial muscles of oral disc ecto-
dermal. Actinopharynx with numerous longitudinal furrows and ridges,
and with 1—3 siphonoglyphes. Mesenteries more numerous than
tentacles, in varying numbers to 122. 1—3 pairs of directives.
Most mesenteries perfect. Pennons diffuse ordinarily developed.
Parietobasilar muscles strong, forming a very distinct fold inwards.
Basilar muscles very strong. All stronger mesenteries excl. the

205

directives fertile. Nematocysts of the column 15—22 X almost
15—15 uw, those of the tentacles 19—29 X almost 1,5—2,5 m,
those of the actinopharynx partly 22—31 X 2—2,5 u, partly 24—
2600 4—5 mu.

Colour in formaline: (specimens from Bay of Islands) Column
dark reddish-brown, tentacles, oral disc, and actinopharynx of similar
colour but paler, especially the actinopharynx. Specimens in alcohol
(from Slipper Island and North Cape): column more or less distinct
olive-brown.

Dimensions of two contracted specimens: length of the column
1,4 resp. 1,7 cm, breadth 2 cm, length of the tentacles about 0,4 cm.

Ofeurrence"Bayof Islands, under'stones, 1.1.1915. 4 spec-
imens. North Cape, under stones, 3.4.1915. 7 specimens. Slipper
Island, littoral, 20.12.1914. 3 specimens.

Exterior aspect. The pedal disc is wide, the column espec-
ially in its upper part provided with rather small verrucae, which
in its lower part are probably more sparse. The warts were most
distinet in the specimens from Bay of Islands, in one of them, a
very contracted specimen, the warts were obscure. Also in the alco-
holic specimens they were indistinet, as the longitudinal and trans-
versal furrows, the latter due to the strong contraction of the column,
make the body look checkered. The fossa is deep. There are no
marginal sphaerules. The tentacles are rather short, cylindrical or
somewhat acuminated in their apex, smooth or somewhat longi-
tudinally sulcated, according to the state of contraction. The outer
tentacles are almost as long as the inner. Their arrangement is
probably often irregular in connection with an often appearing ir-
regular development of the mesenteries. The numbers vary; I counted
in 8 specimens 56, 66, 66, 75, 78, 94 (96?), 98 and 99. The
oral dise is indistinetly radially furrowed, about half the oral disc
lacks tentacles. Of 10 examined specimens 6 were provided with
a single siphonoglyphe, 2 specimens were normally developed with
2 siphønoglyphes, and 2 had 3 siphonoglyphes one of which weaker
than the others. The aboral prolongations of the siphonoglyphes
are inconsiderable.

Anatomical description. The ectoderm of the column is
high and contains, besides rather numerous nematocysts, numerous
rather elongated gland-cells. As far I can see from the not well

206

preserved ectoderm the verrucae are of the same structure as in
Urticina.. The mesogloea of the column is of ordinary thickness,

Fig. 15, 16. Bunodactis rubro-fusca. Transverse sections of sphincters. Tentacle side
to the right (fig. 15) on the left (fig. 16).

the circular muscles of usual development. The sphincter is rather
weak to ordinarily developed. In three specimens, one from each
of the three localities, it was palmate-circumscript (textfig. 15) in

2OM

one of them (from Bay of Islands) more typical than in the other;
in one specimen (from Bay of Islands) concentrated diffuse (textfig.
16). The endoderm of the column, tentacles and oral disc is strongly
pigmented, in the other parts of the endoderm the pigment cells
are more sparse. The endoderm lacks Zooxanthellae. The ectoderm
of the tentacles is high and its nematocysts very numerous, the
folds of the longitudinal muscles high and palissade-like arranged.

The number of mesenteries varies and is, at it seems, always
somewhat larger than that of tentacles. In the specimen with 66
tentacles there were 39 pairs of mesenteries, a short distance be-
low the tentacles, in the under part of the body, 45 pairs, in the
specimen with 75 tentacles 45 pairs in the upper part, in that with
99 tentacles 58 pairs in the under part of the column. The largest
number of mesenteries which I have observed, in a specimen from Slip-
per Island, was 122 (33 X 29 pairs), this specimen had 94 or pos-
sibly 96 tentacles. The examined specimens were furnished with
1—3 pairs of directives, corresponding to the siphonoglyphes. In
the two specimens with 3 pairs of directives the directives were
the first, seventh and twenty-seventh (resp. twenty-sixth). The
muscle pennons were diffuse and ordinarily developed, in their under
part somewhat more concentrated than in the upper, where they
were. broader. The parietobasilar muscles were strong, very broad
in their under parts and forming a distinct fold inwards. Part of
the muscles are enclosed in the mesogloea. The basilar muscles
were very strong. All stronger mesenteries except the directives
were fertile. The species is dioecious.

The size of the nematocysts (n) and spirocysts was as follows:

North Cape Slipper Island

Column (n) 16—22Xalmost1,5—1,54.17—19X 1,5 4.
Tentacles (n) 19—29Xalmost 1,5—2,5. 21—29X1,5—about 2.

3 (sp) 11Xalmost 1—19X1,5... 12Xalmost 1—24X 1,5.
Actinopharynx (n) 22—29Xalmost 2—2,5.. 25—31X2.
” 24X4. ÅAGESSE
Slipper Island Bay of Islands
Column (n) — 15—19X 1,5 4.
Tentacles (n) — 20—27X1,5—2 (2,5).
D (sp) — LØSE NI-=OPSSIL ER:
Actinopharynx (n) 25—31 <2—2,5. 24—26Xabout 2 uw.

2ÆXS5. =—=

”

208

The broad nematocysts with visible basal part to the spiral thread
were extraordinarily sparse. In the specimens from North Cape and
Slipper Island there were also somé broader nematocysts, often ir-
regular, probably developmental stages of the typical nematocysts,

Besides this species there were in a glass from New Zealand,
Puhoi Rock, Hauraki Gulf (littoral under stones. 29.12.1914) some
small specimens, the largest of which I have examined. The ten-
tacles were 40 in number, the sphincter recalls that given in the
textfig. 14 of Bunodactis rubro-fusca, the size of the nematocysts in
the column was 13—14 Xx 1,5—almost 2 w, in the tentacles 19—24
x almost 2—2,5 4, in the actinopharynx 34—41 X about 3,5 uw, the
spirocysts in the tentacles 8—16 X almost 1—1,5 4. The endøderm
lacks Zooxanthellae. Owing to the large nematocysts in the actino-
pharynx the species does not beiong to rubro-fusca, but I will not
give this species a name as the specimens were badly preserved,
wherefore the description must be incomplete.

Anthopleura aureo-radiata (Stuck.).

Bunodes aureo-radiata n. sp. Stuckey 1909 a, p. 367, Pl. 17.

Bunodes aureo-radiata Stuck., Stuckey 1909 c, p. 394.

Diagnosis. Pedal disc rather wide. Column pillarlike provided
in the upper part with distinct verrucae, in their configuration agreeing
with those in Urticina. Margin distinct with a small fossa. At the
margin 24 or more distinct marginal sphaerules. Sphincter palmate
circumscript with comparatively few, but ramificated folds. Tentacles
short, conical from 48 to about 70. Actinopharynx with numerous
longitudinal ridges and two siphonoglyphes with well developed aboral
prolongations. Mesenteries more numerous than tentacles. Pairs
of mesenteries from 48 to about 76, hexamerously arranged. 2 pairs
of directives. Mesenteries of the first, second and at least part
of the third perfect, those of the first and second order fertile; of
the mesenteries of the fourth order those situated at the mesenteries
of the second order developed earlier than those at the first. Pen-
nons of the mesenteries diffuse with rather low, often richly rami-
ficated folds. Parietobasilar muscles broad, forming a distinct fold
inwards. Nematocysts of the co!umn partly 12—14 X 1 w, partly
14—17 + 2, the latter sparse, those of the marginal sphaerules

209

28—34 x (2) 2,,5—3 w very numerous, those of the tentacles
2 172) 4, those of the actinopharynx partly: 19—24
< well 1,5—almost 2 uw, partly 19 X 4, the latter very sparse;
spirocysts of the tentacles 12 X 1—19 X 2 w.

Colour. Lower half pale brown or yellowish-brown, upper half
greenish-brown. Tentacles and oral disc bronze-green. The mouth
surrounded by a broken circle of yellow, from which extend 6 groups
each consisting of 3 radiating yellow lines with a shorter yellow
line between each 2 groups (Stuckey).

Dimensions of the largest specimens: length about 2 cm,
greatest breadth in the distal part about 1 cm, length of the inner
tentacles about 0,5 cm.

Occurrence. Bay of Islands. 1.1.1915. Several specimens,
Oriental Bay, Wellington Harbour (teste Stuckey).

Exterior aspect. The pedal disc is well developed but not
broad. The column is pillar-like, also in contracted state higher than
broad, and provided with distinct hollow verrucae in the upper third.
Below it they are indistinct. They correspond to the endocoels and
are most numerous in the vicinity of the margin, where they are
hemisphaeric. The margin is distinct with a small fossa. At the end
of the rows of the warts there are at least 24 very distinct marginal
sphaerules, in the larger specimens the number of marginal sphae-
rules is greater in connection with the development of new endocoels.
Sometimes some sphaerules are miscarried. The tentacles are conical,
short, at least 48, but in larger specimens to about 70 and hexam-
erously arranged. The oral disc is wide and more than half of it
lacking tentacles. The actinopharynx is rather short with numerous
longitudinal ridges and 2 distinct siphonoglyphes forming well devel-
oped aboral prolongations.

Anatomical description. The anatomy of this species was
described by Stuckey; it is, however, in some points incomplete.
As the ectoderm of the column is not sufficiently well preserved I
cannot decide if the verrucae are structured as those of Urticina.
It is possible that they agree more with the bladder in Phymactis.
In the maceration preparations of the hemisphaeric warts in the
uppermost part of the column I namely observed rather many small
nematocysts, but they are probably situated in the edge-zone of the
warts. The endoderm in all parts of the body contained numerous

Vidensk. Medd. fra Dansk naturhist. Foren. Bd. 77. 14

210

T.ooxanthellae as also in Stuckey's specimens. The sphincter is.
weak, almost palmate circumscript, with rather few but often richly
ramificated folds (textfigure 17).

Concerning the mesenteries Stuckey states that there are 24
pairs of which 12 perfect. In a specimen with 48 tentacles there:

Fig.17. Anthopleura aureo-radiata. Transverse”section
of sphincter. Tentacleside upwards.

were 24 pairs at the tentacles, 30 pairs in the aboral part of the
actinopharynx, in another specimen with about 70 tentacles 38 pairs
in the lower part of the body. If the cycles are indicated by let-
ters the arrangement of pairs was as follows. (dm: directives).

dm dm

in the first specimen: 132431342431323132313424313243.

dm dm
SNE SE CON URE 13243134243134243134243154342434134243.

The mesenteries of the fourth cycle seem to arise earlier in
the exocoels situated on both sides of the mesenteries of the second
order than in those bordered on the first. The mesenteries of the
first, second and at least part of the third order are perfect, the

2 li

last only in the uppermost part of the actinopharynx, and provided
with filaments. The mesenteries of the first and second order were
fertile... The species is dioecious. The pennons are diffuse, their
folds not high but often richly ramificated, the pennons are broad
on the mesenteries of the first order (compare the fig. 2, Pl. 17,
Stuckey 1909a). The parietobasilar muscles are broad and form
a distinct fold inwards, their muscle lamellae are low. The oral
stomata are large, the marginal stomata smaller. The mesogloea
in the region of the ciliated tract contains numerous cells.

Anthopleura sp.?

Diagnosis. Pedal disc broad. Column in contracted state
conical, in the upper part with distinct Urticina-verrucae corre-
sponding to the endocoels. Fossa distinct. Sphincter as in aureo-
radiata. Tentacles from 38—54. 2 distinct gonidial tubercles and
siphonoglyphes. Mesenteries about 24 pairs one half perfect. Pen-
nons of the mesenteries strong with high and ramificated folds
(stronger than in aureo-radiata). Parietobasilar muscles strong, form-
ing a distinct fold. Nematocysts of the column 12—17X(1)1,5—2 u,
those of the tentacles 17—22X 1,5 uw, those of the marginal sphae-
rules partly 29—37x<3,5—4,5 (5) w, partly (22) 25—31%(2)2,5—
3,5 w (probably transition stages between the two kinds present),
those of the actinopharynx 22—-24X2 u. Spirocysts of the tent-
acles 10X1—23X2 su. Endoderm with Zooxanthellae.

Colour in alcohol reddish or white.

Dimensions. Largest specimen from Paterson Inlet: breadth
often pedalldiser 0; cmy height "0,7 cm:

Occurrence. Stewart: Island, Paterson Inlet; littoral, under
stones 18.11.1914 numerous specimens. Stewart Island, Port Pega-
sus; littoral, under stones 22.11.1914. 2 specimens.

I have not given a name to this species, because the spec-
imens were not sexually ripe and it is possible that it is a young
form of Anthopleura inconspicua (Phymactis inconspicua Hutton, Bu-
nodes inconspicua Stuckey) or of A. rosea"(Bunodes rosea Stuckey
and Walton). The Urticina-verrucae were mostly distinct, in some
specimens they had stones attached to them. The tentacles were
38, 38, 48, 54 in 4 examined specimens, in the last specimen

(from Port Pegasus) the tentacles were 24 on one side, 30 on the
14

212

other. In the largest sectioned specimen from Paterson Inlet the
mesenteriés were 48, of which one half perfect. Also in hand-section
through the under part of the largest specimen from Port Pegasus
I counted 48 stronger mesenteries, but it is probable that some
very small mesenteries were besides present (compare the number
of tentacles).

Gen. Isocradactis nov. gen.

Diagnosis. Actiniidae (Bunodactiidae) with well developed pedal
disc. Column high with sucking warts (Urticina-verrucae) arranged
in longitudinal rows and encreasing enormously in number a short
distance from the tentacles. Several warts in bunches projecting
from a common stalk form here in each compartment ffrondf-like
formations.: Sphincter diffuse (or circumscript, I. plicata Hut. teste
Stuckey). Tentacles numerous, short, conical, hexamerously ar-
ranged, the outer somewhat shorter than the inner. Longitudinal
muscles of the tentacles and radial muscles of the oral disc ecto-
dermal. Actinopharynx well developed. 2 siphonoglyphes with well
developed aboral prolongations. Mesenteries hexamerously arranged.
Most mesenteries perfect. Longitudinal muscle pennons diffuse band-
like. Parietobasilar and basilar muscles well developed. All 'mesent-
eries excl. the directives fertile.

The genus Cradactis proposed by McMurrich (1893 p. 197)
is characterised by him as follows: fPhyllactidae with the ffronds"
represented by bunches of simply or slightly branched, short tent-
acle-like structures. Sphincter aggregated or circumscribed. Column
with verrucae.” Unfortunately McMurrich gives no description of
the structure of these" "frondss" "Ste phensonk(TOP PK DNS) ERE
gards the genus Saccactis, proposed by Lager (1911) as identical
with Cradactis. Lager describes the nature of the branched ffrondsf
in Saccactis and states that they are nematocyst batteries (f'die
kleinen Nesselkapseln scheinen indessen immer und vorzugsweise
an den Spitzen der Zweige sich zu befinden und liegen daselbst
dicht aneinander gedrångt" — 1911, p. 220). There are in all three
specimens described here besides marginal sphaerules (Randsåckchen),
which seem to be lacking in Cradactis. Thus it seems that Crad-
actis and Saccactis are two different genera. i

However this may be, it is impossible to place Cradactis magna

25

Stuckey and C. plicata Hutton together with Saccactis. The "fronds"
"in these two species are namely nothing but aggregates of suck-
ing warts (Urticina-verrucae) and no nematocyst-batteries. Stuckey
also states (1909c p. 393) concerning C. plicata that "the lobes
of the fronds are able to act as suckersf. Cradactis magna and
plicata are thus to be placed in the family Cribrinidae (Bunodac-
tiidae) or Actiniidae (if in conformity with Stephenson we join the
both families to one). As the type-species of the genus Cradactis
is imperfectly described but as it is probable that the "fronds" here
are batteries of nematocysts and not sucking warts, I have pre-
ferred to propose a new genus Isocradactis for Cradactis magna
and C. plicata. If, however, it should appear that the genus Cra-
dactis and Isocradactis are identical, the genus Saccactis must at
any rate be kept, as I cannot agree with Stephenson in his sup-
position that the sucking warts are predecessors to the vesicles
(92 ED 500 19229282) In such "al case we should namely
have to presume a change of function of the warts, accompanied
by a re-appearance of the nematocysts, which are lacking in the
apex of the warts. It seems more probable that these formations
are developed independantly of each other. Besides, it is a pity that
Stephenson (1921 p. 500) uses the term acrorhagi fto cover
marginal sphaerules of any sort whether simple or compound,
whether nematocyst-batteries or not”. This leads to a confusion of
almost the same kind as that concerning the terms f"suckers",
which has been used for so different formations as Halcampa-
papillae, Urticina-verrucae, elevations of cinclides and other papillae
of various structure on the body-wall.

Isocradactis magna (Stuckey).
Cradactis magna n. sp. Stuckey 1909c p. 394.

Diagnosis. Column cup-like. f"Frondsf with very numerous
sucking warts, especially in the endocoelar parts of the column,
where their number amounts to considerably more than 100.
Sphincter diffuse, in comparison with the size of the body rather
weak. Tentacles, at least in contraction, distinctly longitudinally
furrowed, about 192. Mesenteries about 96 pairs of which 2 pairs
of directives, almost all perfect. Nematocysts of the column 12—14

214

23 x 1,5, — almost 2 w, those
almost 3 u. Spirocysts of

Xx 1 w, those of the tentacles 19
of the actinopharynx 26—31%X2,5
the tentacles 14X1—26X 15 mv.
Colour: Column brownish-yellow, pinkish yellow, yellowish-
green, green, dull gray. Tentacles bicoloured, proximal end deep
purple or orange, distal end bright claret or yellow. Oral disk marked
with brown streaks with regular white patches between (Stuckey).
The single specimen preserved in formaline had the fronds blue-
gray. The endoderm of the tentacles was almost black, the oral

dise olive-brown.

Dimensions. Diameter of the pedal disc about 3,5 cm and
of the oral disc about 7 cm, height of the column 7 cm.

Ocecurrence. Cape Maria van Diemen. In a rock pool. 4.1.1915.
15 specimens.

New Zealand. Plimmerton (teste Stuckey), Manakau harbour
(teste Stuckey and Walton).

Exterior aspect. The pedal disc is well developed but con-
siderably narrower than the oral disc. The column is cuplike and
strongly enlarged at the distal end, which is folded. The two upper
thirds of the column are provided with sucking warts (Urticina-
verrucae), in the largest part of the warts-region arranged in long-
itudinal rows corresponding to the compartments. In the undermost
part the warts are sparse, higher up they stand more close, in the
uppermost part they increase rapidly in number at the same time
as they dimimish considerably in size. Here they are arranged
on several pedunculate bunches forming together ffronds"-like for-
mations in all compartments (textfig. 18). In the lower part of these
"fronds" the warts are not so numerous as in the distal end.
In the compartments corresponding to the exocoels the ffrondsf"
contain about 30—40 warts, in those corresponding to the endo-
coels 130—140 or more. The endocoel-ffronds" are thus mostly more
than twice as long as the exocoel-fronds and extend a good deal
further towards the tentacles than these. There is no distinct limit
between the larger warts and the warts in the ffrondsf, as some
warts in the undermost part of the "frondsf form a transition in
size to the larger warts of the column. The tentacles are about
192, hexamerously arranged. They are short, conical and in pre-
served state distinctly longitudinally furrowed, the outer are some-

215

what longer than the inner, which are often broader at the base
” than the outer. Probably there is no great difference in the size
of the tentacles in extended state. The oral disc is very wide,
hardly one third of it is provided with tentacles. It is deeply sul-
cated, the furrows correspond to the insertions of the mesenteries.
The long actinopharynx is furnished with numerous longitudinal
ridges and two broad siphonoglyphes, the aboral prolongations of
which are well developed.

Figs. 18, 19. Isocradactis magna. Fig. 18. Part of the upper body-wall with simple and
composed verrucae ('"fronds””). Fig. 19. Transverse section of sphincter, Tentacle-side
on the left.

Anatomical description. The ectoderm of the column is
high and contains few nematocysts 12—14X 1 u. The warts are
structured as in Urticina felina and there are no nematocysts in
their apex. The mesogloea is thick, fibrillar and provided with rather
numerous, small protoplasma-poor cells, in the warts the mesogloea
is thinner. The endoderm of the column is pigmented, especially
in the region of the fronds, in the tentacles and oral disc. The
circular muscles are well developed between the large warts as in
Urticina, weak in the warts, the fronds-region shows a considerably
weaker musculature than in other parts of the column. The sphincter
is diffuse (textfig. 19), elongated and rather well developed, but in

216

comparison with the size of the specimen rather weak. It is quest-
ionable if 'the contracted sphincter can cover the tentacles. The
ectoderm of the tentacles is high. Its nematocysts are rather num-
erous, 19—23X 1,5 —- almost 2 w, its spirocysts very numerous
14X1 — 26X1,5. The longitudinal muscles of the tentacles are
ectodermal with palissade-like, inconsiderably ramificated folds about
one third the height of the ectoderm. The mesogloea is thick and
longitudinally folded. The radial muscles of the oral disc are also
ectodermal and of the same appearance as the longitudinal muscles
of the tentacles, but the folds are somewhat higher except at the
insertions of the mesenteries. The ectoderm of the actinopharynx
contains nematocysts with visible basal part to the spiral thread
and somewhat acuminated in the distal end. Their size is 26—31
< 2,5 — almost 3 w.

The number of mesenteries agrees with that of the tentacles.
The mesenteries are hexamerously arranged 6 + 6 + 12 +24—+48
= 96 pairs of which 2 pairs of directives. The mesenteries of the
four first orders are perfect. Also those of the fifth order reach
almost to the actinopharynx, and some of these mesenteries seem
tor bel perfect FF Stuckeystatesthaftherefarefonlyk 24 parnskper=
fect, probably he has not dissected the mesenteries at the mouth,
where many more mesenteries are perfect than further down. The
longitudinal muscles of the mesenteries form on the stronger
mesenteries broad, band-like, diffuse pennons, on the weakest
mesenteries the pennons are somewhat more concentrated. The
folds are rather high, very numerous, thin and richly ramificated,
especially on the stronger mesenteries and show a tendency to
form humps (on sections) in the inner part of the mesenteries.
The parietobasilar muscles are very strong and are enclosed in
the mesogloea between the mesogloea-thickenings of the basilar-
muscles and the main lamella of the mesenteries. The basilar
muscles are strong. All mesenteries exclusive the directives were
provided with ovaries.

Epiactis mortenseni n. sp.

Diagnosis. Margin distinct with a well developed fossa.
Cinclides in the region of the margin. Sphincter strong, circum-
script, of various appearance. Tentacles of the same number as the

PAN TE

mesenteries, in large specimens 70—88. Longitudinal muscles of
the tentacles and radial muscles of the oral disc palisade-like ar-
ranged. 2 siphonoglyphes with long aboral prolongations. Mesent-
eries hexamerously arranged in 4 cycles, the fourth cycle incom-
plete. Mesenteries of the fourth order developing earlier in the
exocoels situated next to the mesenteries of second order than in
those next to the first. All mesenteries of the three first orders
and part of the fourth perfect. Longitudinal muscle-pennons strong,
band-like. Strong parietobasilar and basilar muscles. Mesogloea in
the region of the ciliated tract with numerous cells. Embryos devel-
oping in a deep circular fold round the column. Nematocysts of

20 ; 21

Fig. 20, 21. Epiactis mortenseni with young ones on the column (comp. the text). Fig. 20.
Specimen from Campbell Isl. Magnif. 3/1. Fig. 21. Specimen from Auckl. Isl. Magnif. 1,3/1.

the column 17—26X 1,5—2 u, thøse of the tentacles about 20—31
x 2(—2,5) w, those of the actinopharynx partly 29—38X 2,5 mu,
partly 22—29X3,5—4 u.

Colour?

Dimensions of the largest specimen in contracted state:
Breadth of the pedal disc 2,2 cm, hight of the column 2 cm.

Occurrence. Auckland Islands, Carnley Harbour, under
stones, low-water. 29.11.1914. Several specimens. 30.11.1914. 1
spec. Campbell Island, Perseverance Harbour. Under stones, low-
water. 8—9.12.1914. Several specimens, most of them small.

Exterior aspect. Pedal disc is wide. Column. as far I can
see, without sucking warts, in the Auckland-specimens very con-
tracted, so that there have arised deep circular and shallower long-
itudinal furrows. 4 of the Auckland-specimens and 4 of the Camp-
bell-specimens bear small young arranged in a more or less distinct

218

annulus round the column (figs. 20, 21). In one specimen there
was round the column a deep fold, in which several young were
hidden wholly or for the greater part. In some of the other spec-
imens provided with young the circular fold for the young was
hardly differentiated from the other circular folds of the column.
The embryos had mostly immigrated from the brood-pouch. It is
namely clear that we have to do with a species, the young of
which develop their first stages in a brood-pouch of the same kind
as in Cricophorus nutrix (compare this species). The margin is
distinct with a deep fossa. In sections through the marginal region
I have observed cinclides (stated in 5 specimens). The tentacles
are hexamerously arranged. The youngest cycle is incomplete. The
number of tentacles varies in the larger specimens from 70 to
88. Strange to say I have not observed the largest number in the
largest specimens. Two specimens, each with 88 tentacles, were
not more than 1 resp. 1,8 cm broad at the pedal disc and 0,5 resp.
1 cm high, while 3 specimens with a pedal disc of 2,3 resp. 2,3
and 2 cm diameter and with a column 1,9, 1,8 and 1,5 cm high
had at most 76 tentacles. The tentacles were short, conical and
in consequence of a bad preservation strongly depressed in the
apex and here with a wide perforation. The oral disc is radially
furrowed. The actinopharynx is well developed with numerous long-
itudinal ridges and furrows and 2 as a rule symmetrically situated
siphonoglyphes, which are provided with long aboral prolongations.

Anatomical description. The ectoderm of the column is
high with numerous gland cells and nematocysts. The mesogloea
is, at least in contracted state, thicker than the ectoderm, fbrillar
and provided with numerous protoplasma-poor cells. The circular
muscles of the endoderm are ordinarily developed. The sphincter
is circumscript and mostly strong but varies in its structure. I
have sectioned the sphincter of several specimens both from Auck-
land and Campbell Island. In the textfigure 22 we observe a main
lamella of the mesogloea strongly thickened in the inner parts and
divided in 2 thick branches; in a second specimen the main la-
mella was thickened in the inner part without partition, in a third
specimen. (textfig. 23) it was thin, inn a fourth specimen it was
thick but short. In a fifth specimen, which I have sectioned in
two different plans, the main lamella was in one place divided in

219

two portions, making the sphincter look almost double, in the other
place there was no main lamella and the sphincter is with a broad
base attached to the column. In the Campbell specimens the main-

2) n
2 ES
LETTER SADAT SE

Do
(ge)

Figs. 22—24. Epiactis mortenseni. Transverse

sections of sphincters. Tentacle-side down-

wards. The organism seen in fig. 24 is, prob-
ably, a parasitic Trematod (cf. text).

24

lamella was mostly thin, as also in some of the Auckland spec-
imens. There were more or less anastomoses between the muscle
folds. In the sphincter I have often observed a parasite, ås far I
can see a Trematod (textfig. 24), once I have found it in the pen-
non of a mesentery. It is possible that this parasite has had some

220

influence upon the structure of the sphincter. The ectoderm of the
tentacles is high with rather numerous nematocysts. The longitud-
inal muscles of the tentacles and radial muscles of the oral disc
are ectodermal. Their folds are not or only a little branched and
palisade-like arranged. The actinopharynx is high and contains 2 kinds
of nematocysts, partly riblike, partly broader at the basal end, and
with visible basal part to the spiral thred. The siphonoglyphes are
distinctly differentiated, their endoderm considerably thickened, in
other parts of the actinopharynx thin.

The mesenteries are hexamerously arranged in 4 cycles, of
which the fourth is incomplete. In no dissected specimen I have
found more than 44 pairs in all and this in 2 specimens with 88
tentacles. 3 other specimens had 37, 37 and 38 pairs. Character-
istic to the development of the mesenteries of the fourth cycle is
that they always seem first to arise in the exocoels situated next
to the mesenteries of the second order. In two specimens with
37 pairs the arrangement was in 5 primary exocoels (1)34243(1),
in the sixth (1)434243(1). There is thus only a single pair of the
fourth order developed in the exocoels next to the mesenteries of
the first order. In the specimen with 38 pairs the arrangement
was similar except that two pairs of the fourth order were devel-
oped next to the primary mesenteries. In the specimens with 44
pairs most mesenteries of the fourth cycle were regularly arranged,
in 4 exocoels bordering the primary mesenteries they were lacking.
In no case have I seen the mesenteries of the fourth cycle devel-
oped earlier in the outer compartments of each hexamer than in
the inner. All mesenteries of the three first cycles and at least
part of those of the fourth are perfect. The longitudinal muscles
of the mesenteries form well developed broad bandlike pennons.
These latter show often deep longitudinal furrows (humps on sec-
tions). The muscle folds are in the strongest mesenteries of the
longest specimens richly branched and numerous. The parietobas-
ilar muscles are well developed and form a distinct fold on the
mesenteries. Where the parietobasilar muscles have grown on the
main lamella of the mesenteries there are mesogloeal muscles. The
basilar muscles are well developed. The mesogloea in the region
of the ciliated tract is provided with numerous cells, especially at

22l

the middle streak. All mesenteries inclusive the directives were
fertile. The species is dioecious.

The size of the nematocysts and spirocysts in four specimens
was as follows. (The three first specimens were taken at the Auck-
land Islands, the fourth at the Campbell Island. n: common ne-
matocysts, nv: nematocysts with visible basal part to the spiral
thread, sp: spirocysts.

Length and breadth

(at the pedal disc) Column Tentacles
of the specimens n n
1) 2 2 BØD SUEDE Pr ASE PU
2) isse 19—24X1,5 (2) 20—29&X 2
3) IE5 HZ — 26—29X&X 2
4) 142 3— 14 17—20X 1,5 (2) 23—26X2 (2,5)
Tentacles Actinopharynx

sp n nv
5 7 125 (03) 3138250] 2220 SX Au

2) 17X1,59—36X2.,5 —= ==
3) — 31—36X 2,5 22—26% 3,5—4
ANER ES 175—31 (255) 3 29—36 5 2,5 —

The specimen 4 was not so much contracted as the others.

Epiactis Thompsoni (Cough.)
Actinia Thompsoni n. sp. Coughtrey 1874 p. 280.

” > Cough. Hutton 1878 p. 313.
eV AGERER En Farquhar 1898 p. 527.
Leiotealia , EESTI ke ye D0S bp SS 1 OS PEEL SÆR oESEISE 2;

PIO Koss T 3 PI 20, fig 1: 19080 "pr 395:
Epiactis Thompsoni (Cough.) Stephenson 1922, p. 274.
Epiactis novo-zealandica n.sp. Stephenson 1918 p. 24, PI. 1, fig. 8,
BES RE sNe SNP 6 hos sg
Diagnosis. Pedal disc well developed. Column thick, cylin-
drical, forming irregular flat papillae or folds on the surface, most
distinct in the upper part. Fossa deep. Sphincter strong, circum-
script with a more or less distinct main lamella and densely packed
folds. Tentacles of ordinary length about 60—96, the inner some-

222

what longer than the outer, conical and in contracted state long-
itudinally sulcated. Oral disc radially furrowed. Longitudinal muscles
of the tentacles and radial muscles of the oral disc very well devel-
oped with high, dichotomically ramificated folds. Two deep siphon-
oglyphes with long aboral prolongations. Actinopharynx with numer-
ous longitudinal ridges. Pairs of mesenteries in variable numbers
unto 48. 2 pairs of directives. All or most mesenteries perfect.
Muscle pennons strong, diffuse, in the youngest mesenteries more
concentrated. Parietobasilar muscles very strong, forming a distinct
projection, some of its part enclosed in the mesogloea. Basilar
muscles very strong. Nematocysts of the column 19—22 X almost
2 um those of. the tentacles 29—34 < almost "2 4 al mse2 ss]
those of the actinopharynx 23—29 (31)X2X well 2,5 w. Spirocysts
of the tentacles 22 Xalmost 2—53X 4,5 uw.

Colour: Column white and red in alternate longitudinal lines,
the red in small irregular spots, the white markings more or less
elliptical (Stuckey), striped vermillion and whitish-yellow (Coug h-
trey). Tentacles dull white, often with tips manoe, or light-brown
(Stuckey), yellowish-white; or sometimes purple (Coughtrey).
Oral disc reddish brown, marked in radiating lines by the insert-
ions of the mesenteries. Peristome of darker colour (Stuckey).
Column with red stripes (Mortensen). In preserved state in
formaline: Column yellowish-fleshcoloured, the tentacles somewhat
darker (Mortensen's specimens); in alcohol?: yellowish (Steph-
enson).

Dimensions of the largest specimen: hight 5,5 cm, breadth
of the pedal disc 4 cm, breadth of the column mostly 3,5 cm (height
6=77cm; 'breadth 4—5"cmtentaclest 2 Te MES t Ul key)

Occurrence. E. of North Cape. 55fms. Hard bottom. 2:1:1915:
6 specimens. (Mortensen). 7 miles E. of North Cape:"70 fms!
(British Antarctic-Exp. teste Stephenson). Debora bay, Port
Chalmers (teste Coughtrey). Cock strait from Plimmerton to
Seatown, littoral (teste Stuckey).

Exterior aspect. The exterior of Mortensen's specimens
agrees with that given by Stuckey and Stephenson. The number
of tentacles were in 4 specimens 82, 82, 87, 96, while Stuckey
states 60 and Stephenson 96. The arrangement is probably hexam-
erous although from the stage with 48 tentacles to that with 96

223

a transitory decamerous state may appear. (Compare besides the
diagnosis).

AÅAnatomical description. I have not much to add to
Stuckey's and Stephenson's descriptions of the anatomy. The
structure of the column is well described by these authors. In
the uppermost part of the column I have on sections observed
endodermal bays extending into the mesogloea to about half its thick-
ness and arranged in longitudinal lines in the endocoels, which
are here considerably larger than the exocoels. If these bays have
arisen by contraction or are present also in wholly expanded spec-

Fig. 25. Epiactis Thompsoni. "Transverse section of oral disc.

imens I cannot decide. The structure of the sphincter varies. In
one specimen the sphincter agrees mostly with that reproduced by
Stephenson, the main lamella is, however, indistinct as in Stuc-
key's figure of the sphincter, Sections of the sphincter in another
specimen showed fewer folds than in the sphincter previously re-
produced, the main lamella is considerably stronger and in the
distal part now divided in two branches, now thickened in the middle
part, being here either more solid or more or less divided in meshes.
Stuckey's figure of the muscles in the tentacles agrees with the
figures in my sections, only in the furrows the longitudinal muscle
layer is weaker in my sections. Stuckey has certainly sectioned a
very extended tentacle. The radial muscles of the oral disc agree with
the longitudinal muscles of the tentacles (textfig. 25), they are weaker
at the insertions of the mesenteries than between the insertions.
The pairs of mesenteries were in the specimen with 96 tent-
acles 48 (6+6+12—+24), in a specimen with 82 tentacles 41
(6612 176551). In the. latter the mesenteries of the fourth
cycles are missing in several exocoels, one pair of a fifth cycle

224

was besides present. If we indicate the different cycles by letters
the arrangement of the pairs was as follows (dm: directives).

dm dm
13423134243414342431342434P434 ZÆS NS PEST

The two closer examined specimens were not provided with
reproductive organs.

Concerning other anatomical structures compare the diagnosis
and Stuckey's and Stephenson's descriptions.

Remarks. Ås far as I car: see Stephenson's Epiactis novo-
zealandica is identical with the specimen described by Stuckey
as Leiotealia Thompsoni. I cannot find any real difference between
these species. The structure of the sphincter varies namely so
much in the specimens that one might propose two species only
on the base of the nature of the sphincter.

Fam. Phelliidae.
Genus Acraspedanthus nov. gen.

Diagnosis. Pedal disc well developed. Column smooth with
cinclides in the lower part. Sphincter mesogloeal, weak. Margin
rather distinct, without fossa. Tentacles short, conical, hexamerously
arranged, the outer tentacles considerably shorter than the inner.
Longitudinal muscles of the tentacles and radial muscles of oral
disc ectodermal. 2 well developed siphonoglyphes. Mesenteries more
numerous in the distal part than in the proximal. Perfect pairs of
mesenteries (macrocnemes) 6, fertile, with strong pennons, with
filaments and acontia. Imperfect mesenteries (microcnemes) sterile
without filaments, pennons and acontia. Basilar muscles well devel-
oped also on the stronger imperfect mesenteries. Nematocysts of
the acontia rather small.

Ås this genus is provided with only 6 macrocnemes, cinclides
and acontia, it should be referred to the family Diadumenidae if we
follow Stephenson. But as I have pointed out (1921 p. 21)
this family is certainly heterogeneous and Diadumene itself not
allied with the other genera. Pelocoetes, Phytocoetes and Mena be-
long to the Azthenaria, as far I can judge from Annandale's and
Stephenson's descriptions. Comparing Acraspedanthus and Dia-

220

dumene with each other they also seem not to be related to each
other. The thing is I cannot accept Stephenson's interpretation that
the mesenteries in Diadumene (Metridium) schilleriana are divisible
into macrocnemes and microcnemes. It is not certain that Annan-
dale has always sectioned the whole specimens, and in that case
it is possible that gonads, filaments and pennons were always pre-
sent also in the stronger imperfect mesenteries. (Compare Diadu-
mene neozelanica, where these organs begin rather far down on
the imperfect mesenteries). In each case there is in some indi-
viduals in Diadumene, in opposition to Acraspedanthus, no distinct
difference between the mesenteries of the first and the second
order. To my mind Diadumene is more allied with the genus ÅAi-
ptasia than with Acraspedanthus (compare Diadumene p. 234). Con-
cerning the last genus I think we can, at least provisionally, place it
among the Phelliidae. It agrees with Phellia in almost all char-
acters.: Only the structure of the column is different, in Phellia
the column is divisible into scapus and capitulum, in Araspedanthus
not. Further the cinclides are absent in Phellia, present in Acra-
spedanthus. I am, however, of opinion that we can hardly base
family characters on the presence or absence of cinclides. Steph-
enson as well as I myself have shown that cinclides may appear
or be lacking in species belonging to one and the same genus
outside the old Sagartiidae. Besides, we are at present far from a
satisfactory classification of the Actinians with acontia. Only when
the anatomy of these forms shall have been revised and their nema-
tocysts in the acontia examined, the relationship between the genera
can be expected to be brought to a close.

Acraspedanthus elongatus n. sp.

Diagnosis. Body cylindrical, pillarlike, also in very contracted
state mostly higher than broad. Sphincter close to the tentacle base,
" Teticular, wholly separated from the endodermal circular muscles.
Tentacles 6 + 64+12+24—+an incomplete fifth cycle. More than
half the oral disc provided with tentacles. Actinopharynx more than
one third of the length of the body with about 14 longitudinal
ridges. Pairs of mesenteries 6+6+ 12+an imperfect fourth cycle
only in the uppermost part of the body. 2 pairs of directives,
Pennons very strong, circumscript.. Nematocysts of the column

Vidensk. Medd. fra Dansk naturh. Foren. Bd. 77. 15

226

17—24X1,5 uw —— almost 2,5 4, those of the tentacles 16—27%
1,5 — almost 2—2,5 44, those of the actinopharynx partly 14—29
<3—45 u, partly 26—34%X about 2—235 0, those of the acontia
partly 22—-34X about 2 (2,5) u, partly 14—17X 1,5 pm. Spirocysts
of the tentacles 12X almost 1 u—30X 2,5 uw.

Colour?

Fig. 26, 27. Acraspedanthus elongatus. Fig. 26. Specimen from North Cape. Magnif. 2,5.
Fig. 27. Transverse section of sphincter and longitudinal section of part of a tentacle.

Dimensions of the longest specimen from North Cape: length
of the column 2 cm, largest breadth 1,2 cm, length of the inner
tentacles 0,5 cm — of the smallest specimen: length 1 cm, breadth
0.3 cm, length of the inner tentacles 0,3 cm. The very contracted
specimen from Slipper Isl. was 1,, cm high and 1,8 cm broad.

Occurrence. North Cape 3.1.1915. 14 specimens. Slipper
Islkkattebb: "20 PMO EELES PD

Exterior aspect." The pedal "disc"is"distinctatandewell
outlined from the column. The column is pillar-like (Fig. 26) and
must in wholly expanded state be of considerable length in com-
parison with the breadth. Although namely the column in all spec-
imens from North Cape was strongly transversally folded, the length

PARAT

of the body is much greater than its breadth. Only in the very
contracted specimen from Slipper Island the breadth was! greater
than the height. In some specimens the column was provided with
indistinct flongitudinal furrows corresponding to the insertions of
the mesenteries.

28 29

Fig. 28, 29. Acraspedanthus elongatus. Transverse sections of pennons in the actino-
pharynx region (fig. 28) and the reproduction region (fig. 29). Fig. 28 spec. from Slipper
Isl. Fig. 29 from North Cape. Inner side upwards.

In the lower half of the column I have observed cinclides in
sections. The column is not provided with verrucae, the margin is
rather distinct but there is no fossa. Though the mesenteries are
most numerous in the uppermost part of the column, the oral disc
is not broader than the column. The number of tentacles varies
from 48 (the specimen was not sexually ripe) to 70. They are
conical, short and the inner considerably longer than the outer
ones which may be partly very small. More than half the oral disc
is provided with tentacles. The actinopharynx is long and provided

15”

228

with 7 longitudinal ridges on each side of the directives. Both
siphonoglyphes are of ordinary breadth and lack aboral prolong-
ations.

Anatomical description. The ectoderm of the column is
rather high, but considerably thinner than the mesogloea, It con-
tains numerous gland cells and nematocysts 17—24Xabout 1,5 4
— almost 2,5 w. The cinclides seem to have arisen partly by in-

Fig. 30, 31. Acraspedanthus elongatus. Fig. 30. Transverse section of the outer part or
the mesentery figured in fig. 28. Fig. 30. Transverse section of one mesentery of the
second order.

vaginations from the ectoderm, partly by evaginations from the
endoderm. The circular muscles of the column are ordinarily devel-
oped, on the other hand, the mesogloeal sphincter is weak and
situated close to the outer tentacles. It is mostly reticular, broader
in the proximal part than in the distal, and whølly separated from
the endodermal circular muscles. It stands nearer to the ectoderm
than to the endoderm (textfig. 27). The ectoderm of the tentacles
is high and contains numerous nematocysts 16—27X 1,5—2,5 m
(in four examined specimens 16—22X 1,5 u, 17—27 X 1,5 — almost
2 mk, 17—22X 1,5 uw, 21—26X 2—2,5 u) and numerous spirocysts
12Xalmost 1 4u—30X 2,5 u. The longitudinal muscles of the tent-

229

acles and radial muscles of the oral disc are ectodermal, rather
weak than strong. The ectoderm of the actinopharynx is high and
provided with numerous gland cells and nematocysts partly 26—34
< about 2—2,5 uw, partly 14—29X3—4,5 u. The former nema-
tocysts are sparse, the latter numerous and broader at their basal
end, the basal part to the spiral thread is here perspicuous.

The pairs of mesenteries are 24 (6+6+ 12 of which two pairs
of directives) in the greater part of the body. In the uppermost
part an incomplete fourth cycle is present. There is a great differ-
ence between the 6 first pairs and the rest of them. The former are
macrocnemes (perfect, provided with reproductive organs, strong
pennons, filaments and acontia) the latter microcnemes (imperfect
and without these organs). The longitudinal muscle pennons are
very strong, circumscript, the insertions of the lamellar inner and
outer parts of the mesenteries at the pennon stand very close to
each other or concur. The folds of the pennons are very high and
richly ramificated (textfigs. 28, 29), sometimes, especially in the
directives, there is in the pennon a rather thick mainlamella from
which the thinner folds branch off. The parietal parts of the long-
itudinal muscles are well developed and form a rather distinct pro-
jection. The parietobasilar muscles are not so broad as the former,
but agree with them in structure (textfig. 30). Both are stronger
in their inner parts than in the outer, where the folds are low.
The imperfect mesenteries are narrow, in the undermost part at
the insertions on the pedal disc considerably broader. The folds of
their longitudinal muscles, covering the whole surface of the mes-
enteries, agree with the parietal part of the muscles in the macro-
enemes (textfig. 31). The prominences of the mesogloea to which
the muscles are attached are rather thick and in the distal part
sometimes a little ramificated. The mesenteries of the third cycle
are weaker than those of the second. The basilar muscles are well
developed also on the imperfect mesenteries. The acontia are rather
thick and contain numerous nematocysts 22—34 X about 2 (2,5) uw,
(22—31 X about 24; 26—34X about 2 u, 24—34X2 (2,5) u, three
specimens examined). Exceptionally I have here observed some small
nematocysts 14—17X 1,5 u. In the specimen from Slipper Isl. I
observed also a few nematocysts 26—34 <x 3—3,5 u. They are pos-
sibly development stages of the larger nematocysts. The species is
dicecious.

230

Gen. Synphellia n. gen.

Diagnosis. Pedal disc large, considerably broader than the
oral disc. Column divisible into scapus and capitulum, the former
with Halcampa-papillae. Sphincter strong and long, mesogloeal.
Tentacles considerably fewer than the mesenteries, the inner longer
than the outer. Longitudinal muscles of the tentacles and radial
muscles of the oral disc ectodermal. 2 siphonoglyphes. Mesenteries
more numerous in the basal part than in the proximal, 6 pairs or
a few more perfect. Perfect mesenteries with strong, high, diffuse
to almost circumscript pennons, imperfect mesenteries without pen-
nons. Filaments on the perfect as well as on the stronger imper-
fect mesenteries. Parietobasilar muscles in the perfect mesenteries
rather well developed. Acontia with nematocysts of ordinary length.
Distribution of the reproductive organs? (Perfect mesenteries pro-
bably fertile ?).

As the species described below is not sexually ripe, it is very diffi-
cult to decide if we have to do with a new genus or not, as also whe-
ther the genus really belongs to the Phelliidae. It is certainly differ-
ent from Phellia and Isophellia on account of the more numerous me-
senteries in the proximal than in the distal part, but recalls in that
respect Paraphellia (compare Haddon's and Stephenson's de-
scription of that genus). Possibly it will appear in the future that
Synphellia and Paraphellia are synonyms, and in that case Syn-
phellia may be dropped.

Synphellia aucklandica n. sp.

Diagnosis. Cuticle of the papillae strong. Sphincter not
stratified, not occupying the whole breadth of the mesogloea, with
small but numerous rather close meshes. Tentacles about 48. Pairs
of mesenteries in the upper part about 24. 6 or a few more per-
fect. Nematocysts of the capitulum 14—18X2 m, those of the tent-

acles 14—19%X 1,5—almost 2 w, (those of the actinopharynx 13—14
<2—2,5 W?), those of the acontia 29—-41X 2 5—4(45) Wu SpIr Os
cysts of the tentacles 14 X about 1—29X3 mm.

Colour in alcohol. Halcampa-papillae brown, other parts pale
yellow.

231

Dimensions of the largest specimens: length 0,8—0,9 cm,
"breadth of the pedal disc 0,;—0,6 cm, length of the inner tent-
acles about 0,2 cm.

Occurrence. Auckland Islands, Masked Island, Carnley Har-
bour. Under stones, at low-water. 3.12.1914. 4 specimens.

Exterior aspect. The pedal disc is broad but often some-
what damaged. The column is conical with the narrowest part at

32 33

Fig. 32, 33. Synphellia aucklandica. Fig. 32. Magnif. 5/1. Fig. 33. Transverse section of
sphincter. Tentacleside upwards.

the margin of the scapus, as shown in the fig. 32. The column is
namely divisible into scapus and capitulum, of which the former is
provided with large, close papillae and a cuticle, which is in the
apex of the papillae several times thicker than in the other parts
of the scapus. The scapus recalls that in Halcampa arctica Carlg.
The capitulum is short, longitudinally wrinkled. The tentacles are
about 48 in number and probably a little irregularly but hexamer-
ously arranged. They are cylindrical, the inner of ordinary length but
considerably longer than the short outer ones. The oral disc is not

232

broad and is radially sulcated. The actinopharynx is long and long-
itudinally wrinkled, in the sectioned specimens there are 2 sipho-
noglyphes, especially in the one specimen asymmetrically arranged.

Anatomical description. The specimens were not well
preserved, wherefore I cannot give a perfect description of the
anatomy of this species.

The ectoderm of the scapus and capitulum is rather thick, the
former is provided with a rather well developed cuticle, which in
the apex of the Halcampa-papillae is strongly thickened. In the
capitulum there are nematocysts 14—18X 24 in size and often some-
what curved. The mesogloea of the column is thick, on its outer
side very folded and contains very numerous ramificated cells. The
sphincter (textfig. 33) is long and strong and extends rather far
into the scapus. It does not occupy the whole breadth of the meso-
gloea and approaches more to the ectoderm than to the endoderm,
except in its undermost part. Its muscle meshes are small and
rather close. The circular muscles of the column are ordinarily
developed. The high ectoderm of the tentacles is provided with
very sparse nematocysts 14—19%X 1,5—almost 2 w and very numer-
ous spirocysts 14X about I u—29X3 u. The longitudinal muscles
of the tentacles are ectodermal and rather well developed, weaker
are the ectodermal radial muscles of the oral disc. The ectoderm
of the actinopharynx is rather high and contains nematocysts with
visible basal part to the spiral thread. Their sizes were 13—14X
2—2,5 w (possibly these nematocysts belong to the oral disc as it
was difficult to get a good maceration preparation of the actino-
pharynx). The mesogloea of the actinopharynx is thin in the furrows,
considerably thickened in the ridges; the ridges of the siphono-
glyphes are stronger than the rest of them.

The mesenteries are somewhat irregularly but evidently hex-
amerously arranged. I have sectioned 2 specimens transversally,
one of which (a) completely. In the specimen a there were 26
pairs of mesenteries in the upper part, of which 6 pairs perfect.
In 5 of the 6 primary exocoels there were 3 pairs of mesenteries
(of a second and third order) in the sixth 5 pairs, one of which
very weak. The two pairs of directives were asymmetrically ar-
ranged, On one side, between the directives, only 7 pairs —
among these one perfect pair — were developed, on the other side

233

17, of which 3 pairs perfect. The sixth exocoel containing 5 me-
senteries was situated on the latter side. In the undermost part
of the column a fourth cycle is present, but I cannot decide if
this cycle is complete, as the specimen was somewhat damaged
in this part.

i

SD

SEER EEESE
34 35

Figs. 34, 35. Synphellia aucklandica. Transverse sections of a directive mesentery
(fig. 34) and of a pennon of a non-directive (fig. 35).

The second specimen was in the upper part provided with 27
pairs of mesenteries. Between the two pairs of directives there
were on one side 11 pairs, of which 2 pairs and a single mesent-
ery of the second order perfect, on the other side 14 pairs, of
which 3 pairs perfect. In the exocoels between these perfect pairs
normally 3 pairs were developed, only in a single exocoel one pair
of the third order was missing.

The perfect mesenteries were furnished with strong, high, dif-
fuse to almost circumscript pennons (the latter in the directives).
In the. textfig. 34 I have reproduced a. section of the pennon of a
directive mesentery, in the textfig. 35 a pennon of a non-directive.

234

The shortest muscle folds in these latter are often situated in the
middle part of the pennons. The parietobasilar muscles of the per-
fect mesenteries are distinct but not strong. They are, however,
by a fold inwards separated from the main lamella of the mesent-
eries (textfig. 34). In the imperfect mesenteries the parietobasilar
muscles and the longitudinal muscles — both more strongly developed
in their inner parts — form an almost continuous layer. The im-
perfect mesenteries of the second order have filaments. Also in
some of those of the third order I have observed filaments. The
acontia are well developed ané contain numerous nematocysts 29
—41X2,5—well 4 (45) uw. Possibly there are here two kinds of
nematocysts, partly 29—31X 2,5, partly 34—41 Xx 3—4 (4,5) u. The
basal part to the spiral thread is mostly perspicuous in the former,
indistinct in the latter. The reproductive organs were not devel-
oped in the two examined specimens.

Fam. Diadumenidae.

Diagnosis. Thenaria without sphincter. Column without
ectodermal muscles. Margin not distinct. Tentacles not retractile or
not perfectly. Longitudinal muscles of tentacles and radial muscles
of oral disc ectodermal. Mesenteries not or not distinctly divisible
into macro- and microcnemes. Muscle pennons diffuse or with a
tendency to be circumscript. Reproductive organs from the mesent-
eries of the first cycle. Nematocysts of the acontia well developed
(in the type-specimen of Diadumene ?).

The diagnosis of the family Diadumenidae is altered here, owing
to the excluding of all genera except Diadumene itself from the
family (compare p. 224) and the enclosing of the genus Aiptasio-
morpha in the genus Diadumene. I am namely of opinion that if
we retain the family Diadumenidae we must transfer Aiptasiomorpha,
distinguished from Aiptasia by the absence of a sphincter, to this
family. On the other hand it seems that Diadumenidae and Aip-
tasia with its cognates are nearly related to each other, wherefore
in the future it may possibly be necessary to place Diadumene in
a family Aiptasiidae (as subfamily already proposed by Simon
1892). The genus Aiptasia and its related forms, Bartholomea, Carl-
greniella and Heteractis, are namely not so heterogeneous as shown
in Stephenson's diagnosis (1920), but are a very homogeneous

235

group and, in opposition to Stephenson's classification, to my mind
not belonging to the Metridiidae. There are, indeed, in the anatomy
of Aiptasia and allied genera some points which certainly need a
revision. Concerning the sphineter, we see in Stephenson's diag-
nosis, based mostly on statements by previous authors, that Aip-
tasia and Heteractis have a mesogloeal sphincter, Aiptasiomorpha,
among other species 4. diaphana, and Bartholomea no sphincter.
The sphincter of Carlgreniella is, according toWatzl, mesogloeal. As
to the type species of Aiptasia, A. couchii, Stephenson has shown,
that it is provided with a mesogloeal sphincter, completely imbed-
ded in the mesogloea. Through kind obligingness ofStephenson
I have had the opportunity to control the correctness of his state-
ments on some of his sections. Further I have recieved from him")
a glass with 3 specimens of this species and sectioned one of them,
and also here the mesogloeal sphincter was distinct. On the other
hand, an examination of two specimens from the station in Ply-
mouth, which were smaller than the others (2,4 resp. 2 cm long
and 1,2 resp. 1,1 cm broad at the oral disc) showed no distinct
mesogloeal sphincter. In some sections I have not observed any
sphincter, in other sections there were, however, rudiments of
muscle-fibrils in the mesogloea. Thus it seems that the mesogloeal
muscle meshes here arise rather late. Besides, the sphincter in A.
couchii is weaker than in the other species mentioned below, and
the muscles separated from the endoderm only by a very thin
mesogloeal lamella. Concerning the sphincter in Heteractis lucida, I
can confirm the statement of McMurrich and Watzl that it is
mesogloeal. On the other hand, Duerden declares that there is
no sphincter in this species: (1899 p. 356). I have sectioned one
part of a specimen recieved from Duerden and certainly invest-
igated by him, and there was indeed a mesogløeal sphincter pre-
sent. The sphincter of Carlgreniella is likewise mesogloeal. Bar-
tholomea has no sphincter in Stephenson's diagnosis. Watzl
has however stated that B. annulata and werneri are provided with
a mesogloeal sphincter. I have controlled Watzl's statement and
come to an identical result (2 specimens of B. annulata and one

1) I beg here to express my best thanks to Dr. Stephenson for sending
me this material.

236

specimen of B. werneri examined). I have also sectioned a spec-
imen of 'annulata from Bermudas and one of Duerden's spec-
imens from Jamaica, and there was a mesogloeal sphincter in both
(Duerden's description of the arrangement of the mesenteries
agrees perfectly with the observations I have made on the Baha-
mas-specimens, so that there is no doubt that they belong to one
and the same species). According to McMurrich (1889) and
Pax (1910) Aiptasia (? Bartholomea, Stephenson 1920) tagetes
has no sphincter, according to Watzl (1922) a mesogloeal one. A
control examinations of two Bahamas specimens examined by Watzl
sonfirms the correctness of his observations. AÅ specimen determ-
ined by Duerden as AÅ. ztagetes and received from him is also
provided with a mesogloeal sphincter. For comparison I have also ex-
amined Aiptasia diaphana, mutabilis and saxicola, of which the first
(O. a. R. Hertwig 1879) and the second (Simon 1892) should
be without a sphincter. Saxicola (1 spec. examined) as well as dia-
phana (2 spec. examined) are however like the other species pro-
vided with a mesogloeal sphincter.

How are we to interpret these various statements? Is there in
one and the same species a variation from no sphincter to a weak
mesogloeal one, is there one species described under different spec-
ies-names or do the various statements of the presence or absence
of a sphincter depend upon erroneous observations? In the cases in
which I have been able to control the observations, f. inst. of Duer-
den's specimens of lucida, tagetes and annulata, erroneous observ-
ations explain the differences. Although I am mostly inclined to re-
gard the many differences concerning the nature of the sphincter as

depending upon less exact observations — it is, in fact, often dif-
ficult to discover the sphincter in strongly expanded specimens,
especially if the sections are somewhat obliquely cut, — the pos-

sibility is not quite excluded that a variation concerning the sphinc-
ter can occur and that some authors have described one and the
same species under two different names.

Also concerning the distribution of the reproductive organs the
statements of different authors variate, no doubt owing to incom-
plete observations, possibly also to the fact that the specimens were
examined at the end (or beginning?) of a reproductive period. As
to first Aiptasia couchii I have not been able to decide, if the main-

237

mesenteries are fertile, as my specimens, as well as those examined
by Stephenson, were not sexually ripe. On account of a special
structure of the mesenteries outside the filaments I believe that
these mesenteries later on become reproductive organs. According
to my observations on Bartholomea annulata (3 specimens exam-
ined), werneri (1. spec. examined), Aiptasia tagetes (2 spec. exam-
ined), mutabilis, saxicola and diaphana, and Heteractis lucida (1
spec. of each species examined), the mesenteries of the first cycle
are fertile. So it is also with Carlgreniella. (Watzl's statement of
sterile mesenteries of the first order is false, he has not examined
the lower part of the body). Thus it seems clear to me that the
genera are perfectly homogeneous concerning the distribution of the
reproductive organs. As regards the size of the mesenteries of the
first cycle, it ought to be remarked that the fifth and sixth couples
are often more weakly developed than the other mesenteries of
this cycle. I have observed this in B. annulata, A. tagetes and
saxicola.

Also in a third character the species examined by myself show
agreement. Stephenson (1920) has observed that A. couchii,
the type of Aiptasia, is provided with an ectodermal longitudinal
muscle layer in the uppermost part of the column. I can confirm his
observations. But not only 4. couchii, also all the species (mutabilis 2)
mentioned above are according to my examinations furnished with
such a layer, weaker in some species, somewhat stronger in others.
The muscles do not seem to form a continuous muscle lamella as
for inst. in Protanthea and Boloceroides, but the muscle fibrils seem
more isolated. The muscle layer also ends rather soon, the greater
part of the column lacks an.ectodermal musculature. Also the ne-
matocysts of the acontia show good agreement in all species.

I give here at last a diagnosis of the family Aiptasiidae.

Thenaria with a very weak, elongated mesogloeal sphincter
(sometimes in young specimens almost endodermal?). Uppermost
part of the column with weak ectodermal longitudinal muscles.
Tentacles not retractile. Longitudinal muscles of tentacles and radial
muscles of oral disc ectodermal. Mesenteries not divided in macro-
and microcnemes. Fifth and sixth couples often weaker than the
other mesenteries of the first order. Muscle pennons diffuse. Repro-
ductive organs from the mesenteries of the first order. Acontia and
their nematocysts well developed.

238

Gen. Diadumene Stephenson.

Diagnosis. Pedal disc well developed. Column smooth (or
with suckers!). Cinclides scattered. Å ring-like convex collar pre-
sent round upper part of the column (always?). Margin not distinct.
No differentiated sphincter. Tentacles numerous. Oral disc with
tendency to be undulated. 6 or some more perfect pairs of mesent-
eries. Longitudinal muscle pennons diffuse or with tendency to be
circumscript. Reproductive organs on the perfect mesenteries incl.
the directives and on the stronger imperfect. Nematocysts of the
acontia well developed (in the type specimen ?).

As before mentioned I have enclosed Aiptasiomorpha in the
genus Diadumene (compare p. 234). Of the species of Aiptasio-
morpha, set down in the paper of Stephenson (1920, p. 531),
ÅA. minima is here described as a Diadumene and A. diaphana, which
is provided with a mesogloeal sphincter, belongs to the genus Åi-
ptasia. Concerning Aiptasiomorpha paxi and leiodactyla a renewed
examination of the sphincter is necessary, as it was probably over-
looked by Pax. It ought namely to be remarked that this author
has not observed the mesogloeal sphincter in tagetes and annulata.

Ås to Stephenson's division of the mesenteries into macro-
cnemes and microcnemes in the type species of Diadumene I have
already (p. 225) expressed my doubt. Also the constancy of the
presence of a collar in all stages of expansion of the column is
somewhat dubious. Annandale (1915, p. 77) says namely that
if the column is fully expanded "the oral disc is withdrawn for
some distance into the column and the wall of the latter are par-
tially closed by a constriction above the tips of the tentaclesf, and
further "When the oral disc has been completely extruded the
column itself contracts stronglyf because of a contraction of the
longitudinal muscles in the mesenteries. In this stage "a very distinct
fold "(collar)" of the body-wall can be seen some little distance below
the base of the tentacles". Whether the collar is visible also when
the uppermost part of the column is expanded I find not mentioned
in Annandale's paper. Besides, it is remarkable that a collar-
like formation is perspicuous in Aiptasia diaphana and A. tagetes
in certain stages of preservation. I have, however, provisionally
put down the presence of a collar in the diagnosis. Concerning at

239

last the f"suckersf, which usually should be present in the type-
species it remains to decide their nature. The term suckers has
namely been used for several very different formations (compare
p. 213). Are they perhaps elevated cinclides? Before the nature
of the fsuckersf and the size of the nematocysts in the acontia
have been examined, it is difficult to decide, whether Diadumene
and Aiptasiomorpha are different genera or not.

Diadumene neozelanica n. sp.

Diagnosis. Column smooth. Collar very distinct in contracted
state of the column. Margin somewhat undulated. Tentacles 160
to about 200 (or more) cylindrical, the inner considerably longer
than the outer. Tentacles distributed over the greater part of the
oral disc. Actinopharynx long with 2 siphonoglyphes well devel-
oped and with aboral prolongations. 6 or a few more pairs of
mesenteries perfect. Well developed diffuse longitudinal muscle
pennons on the perfect and stronger imperfect mesenteries. Parieto-
basilar and basilar muscles weak. Nematocysts of the column 12—
19X(2,5) 3—(3,5) u, those of the tentacles partly (17) 19—29 x
almost 3—4 (5) uw, partly 15—19X 1,5 (2) u, those of the actino-
pharynx partly 22—29 (34)X3—3,5 u, partly 24—26X 1,5 — al-
most 2 u, those of the acontia partly 46—70X 5—6 w, partly 13
ER 0 partly 17—19X25—3 mr.

Colour?

Dimensions in preserved, rather contracted state: Largest
specimen from Kaipara: length 2 cm, breadth 1,3 cm, that from
Slipper Island, length: 1,5 cm, diameter of the column a short
distance from the pedal disc 0,6—0,8 cm, diameter of the oral
disc 0,7 cm, length of the inner tentacles about 0,3 cm. Smallest
specimen: height of the column 0,7 cm, breadth of the pedal disc
Ofs"em

Occurrence. Slipper Island, low water, together with Thoé
vagrans. 20.12.1914. 3 specimens.

Kaipara, on conglomerates of sand. 8.1.1915. Several spec-
imens.

Exterior aspect. The pedal disc is well developed, of almost
the same breadth as the oral disc. The column is smooth with
indistinct longitudinal furrows, which are more distinct and more

240

numerous above the collar. In all specimens there is namely a
perspicuous collar at some distance from the tentacles as in Me-
tridium.. Whether this collar is formed by a contraction of the
pennons in the lower part of the body, resulting in a small invag-
ination of the upper part of the column in the lower, or the collar

— FEE
E=

Figs. 36, 37. Diadumene neozelanica. Fig. 36. Specimen from Kaipara. Magnif. 5/1.
Fig. 37. Transverse section of pennon in the mesentery of first order.

36

is visible also in not contracted specimens, it is difficult to decide
in preserved specimens. The circumstance, that in two very expended
and elongated specimens (the one specimen is figured in fig. 36) there
was a low, but rather distinct wall in the same place as in the other
more contracted specimen, possibly speaks for the presence of a real
collar. Above the collar the column is broader towards the tent-
acles at the same time as showing a tendency to be lobed. The
cinclides are not visible in contracted state of the animal, but I
have observed them in sections as well in the vicinity of the oral part

241

of the actinopharynx, and at the basal disc as also in the collar
region. Thus they are probably scattered. The tentacles are very
numerous, I counted in the largest specimen about 160 tentacles.
They are more cylindrical than conical, the inner tentacles consider-
ably longer than the outer, one part of which are very small. Al-
most the whole disc is provided with tentacles. The actinopharynx is
long and furnished with about 16 longitudinal folds. In the single
examined (the largest) specimen from Slipper Island there were 2
siphonoglyphes not symmetrically situated, ordinarily developed and
provided with aboral prolongations, in two examined Kaipara-spec-
imens 2 siphonoglyphes were present, in one specimen one siphono-
glyphe was weak (compare below).

Anatomical description. The ectoderm of the column is
ordinarily high and contains numerous gland cells and nematocysts.
The latter are sometimes a little broader in their basal part than
in their distal and somewhat curved, their basal part to the spiral
thread is visible. Their sizes are 12—19X (about 2,5) 3—(3,5) uw.
The mesogloea of the column is in the preserved specimens of
about the same thickness as that of the ectoderm, sometimes thinner,
sometimes a little thicker. It is fibrillar and contains very numer-
ous cells. The cinclides are invaginations of the ectoderm as well as
excavations of the endoderm. The circular muscles of the column
are weak, especially in the region above the collar. There is no
trace of a sphincter (3 specimens sectioned). The nematøcysts of
the tentacles are numerous and of two kinds, the one agrees in
its structure with the nematocysts in the column but is somewhat
larger (17) 19—29 X about 3—4 (5) w, the other is opaque and
rib-like and 15—19 X about 1,5 (2) w in size. The longitudinal
muscles of the tentacles and the radial muscles of the oral disc
are ectodermal and rather weak. The ectoderm of the actinopharynx
is high and thicker than the mesogloea. Its nematocysts are partly
22—29 (34)X3—3,5 u, partly 22—26&X 1,5—almost 2 w, the- basal
part to the spiral thread is visible in the former.

The mesenteries. I have sectioned transversally the proximal
half of the largest specimen from Slipper Island. There were in
the under part of the actinopharynx 50 pairs of mesenteries, of
which 2 pairs of directives not symmetrically arranged. 8 pairs
were perfect, between the directives on one side 2 on the other

Vidensk. Medd. fra Dansk naturhist. Foren. Bd. 77. 16

242

4. In the latter half the mesenteries were almost regularly devel-
oped, between the perfect pairs there were mesenteries of a second,
third and fourth order intercalated, only a pair of the fourth order
was lacking. In the other half the arrangement was more irregular,
only between one of the directive pairs and the adjacent perfect
pair the arrangement was regular. In the uppermost part of the
body the mesenteries are more numerous, probably about 160, just
as the number of tentacles. Also in the uppermost part of the act-
inopharynx only 8 pairs seem to be perfect (controlled by dissec-
tion); it is, however, possible that some of the mesenteries of the
second order reach the actinopharynx with a small flap. In one spec-
imen from Kaipara there were in its uppermost part 6 pairs of
perfect mesenteries and 2 siphonoglyphes of the same structure. In
another specimen from the same locality I have found 9 pairs
of perfect mesenteries, three pairs on one side of the two direc-
tives and four on the other. The extra-pairs are situated in the
vicinity of the one directive pair, and their pennons are weaker
than those of the other perfect mesenteries. The siphonoglyphe,
connected with this directive pair, is weaker than the other. The
mesenteries are thin, except at the pedal disc and in the region
of the pennons. The mesenteries of the first and second order are
namely provided with well developed diffuse pennons in their inner
half (textfig. 37). Also the mesenteries of the third order show a
tendency to form pennons. The other mesenteries are very weak.
The parietobasilar and basilar muscles are weak. The mesenteries
of the first, second and at least part of the third orders are furn-
ished with filaments. On the second and third order the filaments
begin rather far down at the under part of the actinopharynx, the
whole upper part of these mesenteries seem to lack filaments. The
filaments are of the usual structure. The mesenteries of the first,
second and most of the third order, inclusive the directives, were
fertile. The species is dioecious. The nematocysts of the acontia
are of three kinds, partly 46—-70X 5—6 w, partly 13—17 X about
1,5 4, partly 17—19X2,5-——3 u, both the former very numerous,
the latter sparse. The basal thread of the largest capsules is per-
spicuous; the smallest nematocysts are almost of uniform breadth
and at one end acuminated as a pin, the short and broad capsules
are provided with a visible basal thread, broader at the basal end.

243

In the largest specimen from Slipper Island there were also larger
opaque nematocysts sometimes irregularly curved, and 77—84 >
about 5 w in size. They are probably development stages of the
large typical nematocysts. The size of the nematocysts in the
acontia is shown in the following table. (Specimens 1—3 from Slip-
per Island, 4—5 from Kaipara. The specimens 4—5 were larger
ihantspeci1):
Specimens 1) length 1,5, breadth 0,6—0,8 cm: 58—70 X 5—6 u,
Speceimenske)llensinkor breadthkon Fem AG 55 D< 5
Spegimensks)klenstht OMA breadthk os em MASSE BSB

] LE SE) Før ele] 070) be) UT 507 7RRRD ly 9 KO PD ST SETE SETE

14 < about 1,5 17—19 X< 2,5—almost 3.

13—14 X about 1,5 IE SE2RSs
Sp. 4) 55—70 X about 6, 14—16 X about 1,5, 17 Xx 2,5—almost 3.
Sp. 5) 49—65 X about 6, 13—15X about 1,53.

Remarks. It is possible that this species is identical with
Metridium canum Stuckey 1914 p. 134 from the Kermadec Islands,
but the description of this species given by Stuckey is so im-
perfect and short, that it is impossible to decide its place. Among
other things Stuckey does not mention any collar.

Diadumene minima (Stephs.)

Aiptasia minima n. sp. Stephenson 1918, p. 49, Pl. 1 flgs. 2, 3, Pl. 6 fig. 1.

Aiptasiomorpha minima (Steph.) 1920, p. 531.

Diagnosis. Pedal disc well developed. Column smooth with
probably few cinclides (arrangement?). Sphincter absent. Tentacles
conical, smooth to about 70 (or more?) of ordinary length, the inner
at least twice as long as the outer. Longitudinal muscles of the ten-
tacles weak, ectodermal. 1 or 2 siphonoglyphes. Perfect pairs of me-
senteries 6 or some more, 1 or 2 pairs of directives. The first and
second cycles of mesenteries with pennons. Pennons diffuse with
rather few but ramificated folds situated in the inner part of the
mesenteries, in the directives higher and more concentrated. Parieto-
basilar and basilar muscles weak. The first and second cycles of
mesenteries fertile (teste Stephenson) and with filaments. Repro-
duction also by longitudinal fission. Nematocysts of the column partly
12—14X1,5—almost 2 w, partly 12—14X2,5 (3) w, the latter broader
in the basal end, those of the tentacles partly 17—22 X (2) 25 u

16=

244

often somewhat curved, partly 10—14 X 2 w, partly 12—14X 1 mu,
those of the actinopharynx 22—24 X 2,5 mu, those of the acontia
partly 43—51 (56) X 5—6 w, partly 26—33 < 2—3 u broader in
the basal end, partly 17—21 X 1,5 w. Spirocysts of the tentacles
12 xx 1-17 &X 2 u.

Colour?

Dimensions of one of the largest specimens: length and
breadth 0,5 cm. All other specimens, except one, smaller.

Occurrence. Bay of Islands, 7 specimens. (The same locality,
teste Stephenson).

Exterior aspect: Thetfspecimensasreskin

574 their exterior with the description given by Ste-
DK Bæphenson 1918. All my specimens seem, how-
USS ever, to be in a state of regeneration after longi-
3 tudinal fission. One side is mostly shorter than the
other (Textfig. 38) and the regenerating zone is often

| very distinct in the short side. There is, therefore,
no doubt that the specimen multiplies by longitudinal

ED fission. Possibly some ofStephenson's specimens
Fig.38. Diadumene are also in a state of fission (compare Pl. 1 fig. 3

FEER in Stephenson's paper). The tentacles were in

the two largest specimens 48 resp. about 70. In the
two largest examined specimens I observed only a single, well
developed siphonoglyphe, probably arisen in connection with the
asexual reproduction.

Anatomical description. My examination of the anatomy
of this species agrees well with that described by Stephenson.
Concerning the nematocysts (compare the diagnosis) it is possible,
that there are transition forms between the two kinds in the column
as also between the smaller nematocysts of the tentacles. It is also
uncertain, if the nematocysts 26—33 X 2—3 w really belong to the
acontia. I have namely not been able to isolate the acontia, the
maceration preparations contained also parts of the filaments. The
smallest nematocysts in the acontia I have only observed in sections.

The specimens were not well preserved and the actinopharynx
often evaginated. In one specimen, sectioned in its whole length,
there were 7 perfect pairs of mesenteries, of which, as far I can see;
only a single directive pair. Also in another specimen I observed

i ES
CR

245

only one such pair. The mesenteries were in the proximal part
of the former specimen some sixty, probably 66; the exact number
I cannot confirm as the smallest mesenteries were very weak and
the endoderm not well preserved. The mesenteries of the first and
second order are provided with pennons situated in the inner part
of the mesenteries, while the longitudinal muscles in the outer part
were very weak. The pennons are diffuse with rather few but rami-
ficated lamellae. In the directives the folds are higher than in the
other mesenteries and somewhat more concentrated. The mesenteries
of the first, second and some of the third cycles are provided with
filaments. The parietobasilar and basilar muscles are weak. The two
examined specimens lacked reproductive organs.

Fam. Sagartiidae.

Stephenson has (1920) divided the old Sagartiidae in several
new families and expects several more. True enough we can bring
together the genera in several groups, more or less distinct from
each other, but I prefer, at least at present, to keep the family Sagar-
tiidae for all genera provided with acontia and basilar muscles
which are not included in the families Diadumenidae (restr.), Aip-
tasiidae and Phelliidae. I have namely examined several new genera,
provided with acontia, which cannot be referred neither to the families
proposed nor to those supposed by Stephenson. More extensive
examinations of the anatomy of the Sagartiidae may prove, whether it
is necessary to divide this family any further, but in such a case I
should think it would have to be done partly on another basis than
that proposed by Stephenson. I especially very much doubt that
the presence or absence of cinclides is of any real value as a family
character, although it can be used in certain cases.

Gen. Thoe Gosse.

Diagnosis. Sagartiidae with broad pedal disc. Column smooth,
not divisible in regions, without verrucae (fsuckers") but with cinclides.
Sphincter rather well developed. Tentacles rather numerous, the inner
longer than the outer. Longitudinal muscles of tentacles and radial
muscles of oral disc ectodermal. More than 6 pairs of mesenteries

246

perfect. Pennons diffuse (rather) well developed. Reproductive
organs present from the mesenteries of the first cycle. Nemato-
cysts of acontia (at least) of two kinds, the larger nematocysts of
ordinary or more than ordinary size.

As it seems to me necessary to subdivide the genus Sagartia
I here propose to re-erect the genus Thoe for such Sagartia-species
having a smooth column without suckers and cuticle, and provided
with ordinary or more than ordinarily large nematocysts in the acontia.
I have namely, among others, examined Sagartia troglodytes, viduata,
luciae and sphyrodeta and found that the three latter species, to my
mind belonging to the genus Thoe, are so different from the first
species that they must be referred to a separate genus. Meanwhile
the diagnosis here given of the genus Thoe is only tentative as we
must expect an examination of more species before a good diag-
nosis can be established. In this connection I will mention that the
real Thoe (Sagartia) viduata (O.F. Mill.) is very probably not identical
with the species viduata from the coast of Great Britain and from
the Mediterranean.

Thoe vagrans (Stuck.).
Sagartia vagrans n. sp. Stuckey 1909 c p. 384, Pl. 17 fig. 2.

Diagnosis. Column cylindrical. Cinclides in the middle third
of the column. Margin distinct, in larger specimens somewhat un-
dulated. Sphincter strong, broad, proximally by degrees diminishing,
mostly reticular. Tentacles numerous, up to 192, in contracted state
rather short, the inner considerably longer than the outer. Some-
what more than half the oral disc provided with tentacles. Siphono-
glyphes well developed with aboral prolongations. Pairs of mesenteries
to about 96, hexamerously arranged. Mesenteries of the 1—3 (and
a part of the fourth) cycles perfect. Longitudinal musele pennons
diffuse,-in the middle part of the mesenteries on the three or four
oldest cycles. Parietobasilar muscles weak. Reproductive organs only
on the third and fourth cycles? (always?). Nematocysts of the column
12—17 <x 2—2,5 u, often somewhat curved, those of the tentacles
partly 14—22 X 1.5 u, partly 11—16 X 2—2,5 uw, partly 16—24
< 3,5—4 uw, those of the actinopharynx partly 22— 28 X about 1,5 4,
partly 14X 1 w, partly 17—27 < 3,5—4,5 w, those of the acontia partly
60—79 <x 5—almost 7 4, partly 24—31 X about 1 w, needle-like.

247

Colour. Column dirty white and olive-brown in alternate longi-
"tudinal lines or dirty white, gray or even pink-coloured. Tentacles
salmon-pink, sometimes white, Oral disc generally olive-brown.
Actinopharynx rich pink with darker coloured, red, longitudinal lines
(Stuckey). The specimens from Kaipara, preserved in formaline,
were salmon-coloured.

Dimensions of the largest specimen in preserved state; dia-
meter of the pedal disc 1,2 cm and of the distal end of the column
1,4 cm, height of the column 1,7 cm. Stuckey's largest specimen
was 4 cm high and 2 cm broad.

Occurrence. Slipper Isl., low water. 20.12.1914. 8 specimens.
Kaipara:"8:1.1915. 13 'specimens.

Plimmerton (Kirk) and Wellington Harbour (teste Stuckey).
Manakau Harbour (teste Stuckey and Walton).

Exterior aspect. The pedal disc is well developed, its dia-
meter often somewhat smaller than the distal part of the body.
Column smooth, longitudinally sulcated, the furrows corresponding to
the insertions of the mesenteries. (Textfig. 39). In the middle third
there are cinclides, propably not more than 2 in
each longitudinal row. To judge from the sections
they are probably not numerous. The tentacles are
numerous, in the largest specimen about 192.
They are in very contracted state almost wart-
like, in half contracted state thin, conical. In pre-
served state the inner tentacles do not reach half
the diameter of the wide oral disc in length but
are considerably longer than the outer. Somewhat
more than half the disc is provided with tentacles. re Re
The actinopharynx is of ordinary length and pro- per Isl. Magnif. 2/4.
vided with numerous longitudinal furrows and two
ordinarily developed siphonoglyphes with distinct gonidial tubercles
and rather distinct aboral prolongations.

Anatomical description. The ectoderm of the column is
of ordinary height and contains very numerous, longitudinally ex-
tended gland-cells and numerous nematocysts 12—17 <x 2—2,5 4,
somewhat broader in the basal end, and often a little curved. In
contracted state of the column the mesogloea is several times
thicker than the ectoderm, in more expanded state only somewhat

248

thicker. It is very fibrillous and contains numerous protoplasma-poor
cells. The.small cinclides seem to be excavations from the endoderm
as well as invaginations from the ectoderm. The circular muscles
of the column are ordinarily developed. Their folds are not high,
but very fine and numerous, here and there small parts seem to be

41

Figs. 40,41. Thoe vagrans. Fig.40. Transverse section of sphincter, fig.41. Outer half of
pennon in a mesentery of first order in the ciliated tract region.

enclosed in the mesogloea, also between the insertions of the me-
senteries. The mesogloeal sphincter (textfig. 40) is strong and wholly
separated from the circular muscles of the column. In its upper
part it fills out almost the whole breadth of the mesogløea and
diminishes by degrees in breadth. It is mostly reticular, in the
outer and upper part more alveolar. The muscle meshes are mostly
fine, in the upper and lower part of the sphincter larger (textfig. 40).

249

The ectoderm of the tentacles is high. Its nematocysts are of three
kinds, partly riblike and sparse 14—22 X 1,5—2 w, partly opaque
and numerous 11—16& well 2-—well 2,5 u, partly with conspicuous
basal part to the spiral thread and often somewhat curved and nu-
merous 16—24 X 3,5—4 u. The longitudinal muscles of the ten-
tacles and radial muscles of the oral disc are rather well developed.
The ectoderm of the actinopharynx contains very numerous gland
cells and nematocysts, partly 22—28 X about 1,5 u, partly 14 Xx
1 4, partly 17—27 X 3,5—4, u. The first are numerous, the second
very sparse and the third, which are broader at their basal end, very
numerous.

In the distal part the largest specimen was provided with about
96 pairs of mesenteries, of which 2 pairs of directives. Below the
actinopharynx the number of mesenteries is possibly a little smaller.
The mesenteries of the first, second, third and part of the fourth
cycles were perfect. The mesenteries of the fourth and fifth cycles
were often unequally developed, in as much as the one mesentery
of a pair was stronger than its partner. Below the actinopharynx
sometimes only the one mesentery of a pair was perspicuous on
sections. The last cycles of mesenteries are weak. AÅ second spec-
imen had 72 pairs of mesenteries in the lower part of the body.
The longitudinal muscles of the mesenteries form pennons on the
three or four first cycles. The pennons are diffuse and situated in
the middle of the mesenteries. The muscle folds are of ordinary
and uniform height, stand very close, and are rather richly ramificated
(textfig. 41). The parietobasilar muscles are weak and form a small
fold or none on the mesenteries. ÅA small oral stoma is present in
the perfect mesenteries and often a large marginal stoma in the
stronger mesenteries. Three transversally and one longitudinally
sectioned specimens were males. The testes were sometimes well
developed, sometimes weak. I have observed them in the mesen-
teries of the third and fourth orders. Probably the specimens are
at the end of a reproductive period as there were no testes in the
mesenteries of the first and second orders as in other Thoe-species.
The acontia are well developed and contain two kinds of nemato-
cysts partly 60—79 X 5—almost 7 w, partly 24—31 X about I 4,
the latter are needle-formed. Both kinds are numerous. I have
examined 5 specimens from Slipper Island and 1 from Kaipara

250

(spec. 6) concerning the nematocysts of the acontia, and all nemato-
cysts showed a good agreement concerning the size, as appears from

the following table.

Length and breadth
of the specimens

1) 1,7 1,2-1,4,cm (60)67—74X 6—almost74 24—29X about Im.

NUR ene 65—79X almost 7 24 37 EEN
ENKE OT Ar 60775556 25 2 3 PSA EEN
ANGE0r. 0% 60—79X% about 6 == 205 HEER
BOSE EON 66:-—79> 6 (almost) 70 20731
6) 67—79X6—6,5 24305 rl

Remarks. I have with hesitation identified this species with
Stuckey's Sagartia vagrans, principally on account of Stuckey's
statement that the whole body-wall has (more or less) the character
of a diffuse mesogloeal sphincter.

Thoe neozelanica n. sp.

Diagnosis. Sphincter strong, in its upper part occupying al-
most the whole breadth of the mesogloea, reticular-alveolar with
tendency to stratification. Tentacles some 60. 2 well developed
siphonoglyphes. Mesenteries pentamerously arranged (always?).
About 10 pairs perfect with strong, diffuse longitudinal muscle
pennons, the folds of which are high and somewhat ramificated.
Parietobasilar muscles weak. Imperfect mesenteries without pen-
nons, the stronger of them with filaments. Nematocysts of the
tentacles 17-—22 X about almost 2—(2,5) u, those of the acontia
partly 41—50 <x 5—6 uw, partly 19—24 X about 1—1,5 w, the latter
needle-shaped.

Colour?

Dimensions. Breadth of the pedal disc 0,,5—0,3 cm, height
of the column 0,2 cm.

Occurrence. North Channel, Kawai Island, Hauraki Gulf
10 fms. Hard bottom. 29.12.1914. 1 specimen.

Exterior aspect. The small, not sexually ripe specimen has
a broad pedal disc. The column is smooth. The distribution of the
cinclides I have not been able to confirm, but I have observed such
on sections in the height of the aboral end of the actinopharynx.
The tentacles were some 60, the inner considerably longer than
the outer. The actinopharynx was very much folded and provided
with 2 well developed siphonoglyphes.

ol

Anatomical description. As there is only one small spec-
imen present in the collection I cannot give a perfect description
of the anatomy.

The ectoderm of the column is high but considerably thinner
than the mesogloea, which is fibrillar and contains numerous small
protoplasma-poor cells. The circular muscles of the column are weak,

Fig. 42, 43. Thoe neozelanica. Transverse section of sphincter (fig. 42)
and of a mesentery of the first cycle (?) (fig. 43).

the sphincter, on the other hand, very strong. It is rather short,
probably in connection with a contraction, broad and occupies al-
most the whole breadth of the mesogloea in its upper part but
diminishes, rather abruptly, downwards. The meshes are small,
rather close and show a tendency to stratification (textfig. 42). The
longitudinal muscles of the tentacles and radial muscles of the oral
disc are ectodermal and ordinarily developed.

The mesenteries are pentamerously but somewhat irregularly
arranged. The two pairs of directives were symmetrically situated.

BADE

On one side of them there were 4 pairs of mesenteries perfect,
on the other side 4 pairs and a single mesentery, the partner of
which was imperfect. With these 11 pairs some weaker, imperfect
alternate. One more but incomplete cycle of very weak mesenteries
was besides present. The perfect mesenteries were provided with
strong longitudinal muscle pennons, the folds of which are high and
somewhat ramificated. Especially some pennons (probably those of
the first order) are strong. I have reproduced such a mesentery
in the region of the ciliated tract in the textfigure 43. The parieto-
basilar muscles are weak. The imperfect mesenteries lack pennons
hut have filaments. The reproductive organs were not developed.
Concerning the nematocysts compare the diagnosis. The needle-
shaped nematocysts in the acontia are measured on sections.

Gen. Cricophorus nov. gen.

Diagnosis. Pedal disc well developed, at least as broad as
the oral disc. Column thin, smooth, without cinclides. Sphincter
well developed, mesogloeal. Tentacles rather short, conical, fewer
than the mesenteries, the inner considerably longer than the outer.
Longitudinal muscles of the tentacles and radial muscles of the
oral disc ectodermal. Mesenteries hexamerously arranged, more
numerous in the proximal part than in the distal. Only six pairs
of mesenteries perfect, of which two directives. Longitudinal muscles
of the mesenteries weak, forming no distinct pennons. Parietobasilar
and basilar muscles weak. The six first pairs of mesenteries sterile.
Acontia slender with very short nematocysts.

As we see below from the description of fSagartia" nutrix Stuck.
this species is very different from the true Sagartia-species and agrees
in the absence of cinclides and the sterility of the six first pairs of
mesenteries with the subfamily Chondractiniinae (family Chondracti-
niidae Stephenson). It is however questionable, if the genus
is in reality allied with the other known Chondractiniinae except
Paraphellia.

Cricophorus nutrix (Stuck.).
Sagartia nutrix n. sp. Stuckey 1909 c, p. 382 fig. 6. Pl. 21 figs. 1, 2.

Diagnosis. Sphincter transversally stratified, in the upper part
sometimes reticular. Tentacles to 96 (6+6— 12 + 24 + 48), the inner

259

more than twice as long as the outer. Mesenteries in 4—5 cycles,
the last cycle only in the proximal part. Monoecious. Embryos
developing in an annular invagination around the column in its
proximal half. Nematocysts of the column 10—12 % almost 1—I1 4,
those of the tentacles 12—18X 1—1,5 m, those of the actinopharynx
17—22 X about 2,5 w and those of the acontia 14—19 X 1,5—2 w.
Spirocysts of the tentacles 13 X 1—26 X 2—2,5 u.

Colour. Column in general deep brown, sometimes greenish,
blue or yellow. Oral disc iridiscent green, but the colour is very
variable. Mouth pink or magenta with radial markings. The whole
animal is iridescent (Stuckey).

Dimensions. Height and breadth 1,2 cm in extended state?
(Sigttelkey) ÆREN preserved stater HEL) Hersh 1 breadth"Oo em"
2) Eeight "07, breadtk< 0;6 cm.

Occurrence. North Cape. 3.1.1915. Several specimens on
Fucaceae. Cape Maria v. Diemen; on Fucaceae. 4.1.1915. 3 spec.,
Island Bay, Wellington. 22.1.1915. 1 spec.

Further distribution in New Zealand. Island Bay, Ohiro Bay (teste
Stuckey).

ExteriorkdspectErhet wide pedal "disc fis provided with a
thin cuticle. The column is cylindrical to conical, smooth without
cinclides, in certain stadia of contraction somewhat longitudinally
folded. In many specimens there is a circular wall in the proximal
half (figs. 50, 52; compare below). The margin is distinct. The ten-
tacles are short, fine and smooth, placed at the margin and hexa-
merously arranged 6 + 6 —- 12 + 24 + 48 = 96, in large specimens
the inner are more than twice as long as the outer. The greater
part of the oral disc is devoid of tentacles. It is provided with
radial furrows. The mouth is situated on a conus. The actinopharynx
is well developed with longitudinal folds and provided with two rather
distinet siphonoglyphes.

Anatomical description. The ectoderm of the pedal disc
is high, as is also that of the column. The latter seems to be provided
with few gland cells and consists mostly of supporting cells; it con-
tains very small nematocysts 10—12 X about I w in size and is furn-
ished with a very thin cuticle, mostly dropped. The mesogloea is
thin, sometimes thicker, sometimes thinner than the ectoderm, ac-
cording as the column is more or less contracted. It is fibrillous

254

and contains numerous protoplasma-poor cells. In the sphincter
region the mesogloea is considerably thickened. The endodermal
circular muscles are weak, the sphincter strong, mesogloeal and
distinctly stratified (textfig. 44) especially in its under part. In one
of three examined specimens the upper part of the sphincter was
reticular but with distinct tendency to stratification, the strongest

Figs. 44—46. Cricophorus nutrix. Transverse section of parts of the sphincter,
in fig. 46 with curious ectodermal canals (compare the text).

mesogloea-balks were namely extended in transverse direction (text-
fig. 45, part of the sphincter, spec. from Island Bay). The sphincter
is wholly separated from the circular muscles of the column. Its
muscle meshes are usually rather small but numerous, in the reti-
cular part larger. In the sphincter region of the specimen from
Wellington there were curious transverse ectodermal canals (text-
fig. 46) extended in tangential direction. Their lumen was small also
at the communication with the ectoderm of the column, their ecto-
derm at the beginning of the invagination very high, at the end
considerably thinner. The canals end in the mesogloea and do not

eee ll hed medssikk dend

209

stand in communication with the endoderm. I cannot confirm their
nature, but it is possible that they are caused by a parasite. The
ectoderm of the tentacles is high and contains rather numerous
nematocysts 12—18 X about 1—1,5 w and spirocysts 13 X 1—26 x
2—2,5 uw... The longitudinal muscles of the tentacles and radial
muscles of the oral disc are ectodermal, somewhat stronger in
the tentacles than in the disc. The ectoderm of the actinopharynx
is rather high and contains nematocysts 17—22X about 2,5 u, broader
in the basal end and with visible basal part to the spiral thread.
The longitudinal folds in the actinopharynx are supported by meso-

Fig. 47. Cricophorus nutrix. "Transverse section of about a sixth of the body
in the actinopharynx-region.

gloeal ridges. The cilia of the siphonoglyphes are considerably longer
than in the other part of the actinopharynx.

The mesenteries are hexamerously arranged in four or five cycles
(textfig. 47). In smaller specimens there are probably not more than
four, in larger specimens five. The last cycle, consisting of very weak
mesenteries, is present only in the undermost part of the body and
not provided with filaments and acontia. Only 6 pairs are perfect,
of which two directives. The mesenteries of the second order reach
however almost to the actinopharynx. Stuckey states "that there
are 24 pairs, every second pair is perfect." He has thus neither ob-
served the fourth cycle in smaller specimens nor the fifth in larger ones
in the undermost part of the body, and his statement of 12 perfect
pairs is incorrect. The mesenteries are rather weak, their longitudi-
nal muscles are extended over the greater part of one side of the

256

mesentery and form only low folds but no distinct pennons. They
are somewhat stronger on the directives. The parietobasilar and
basilar muscles are weak. The filaments are of usual structure as
also the acontia, the nematocysts of which are small and only 14—
9 X 1,5—almost 2 w in size. The six first pairs of mesenteries are

Figs. 48, 49. Cricophorus nutrix. Fig. 48. Longitudinal section through a part of the
column with a beginning brood-room. Fig. 49. Longitudinal section through the upper
part of the brood-pouch (compare the text).

sterile as also the fifth cycle, if present. The species is monoecious,
ovaries and testes are present in one and the same mesentery (4
specimens examined). Sometimes the ovaries, sometimes the testes
are more numerous. In a specimen from Cape Maria van Diemen
the testes were extraordinarily sparse. The reproductive organs are
developed in the second, third and, in larger specimens at least, in
part of the fourth cycle.

This species is very interesting as provided with a circular
brood-pouch in such a simple form as not before observed in

257

Actiniaria"). Stuckey writes: "Presumablv the young of this
species are retained in the body till fully formed, for I found one
specimen, which had twelwe young ones attached to the outside of
the body-wall in a regular transverse circle about one-third of the
"height of the wall from the foot. If the young are not retained
till they are considerably advanced, it is difficult to see how they

Po (ADS
SS BEL ROSSEN]
fh

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252 me
En -

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Figs. 50—53. Cricophorus nutrix. Figs. 50. 51. Specimen with young immigrated (in
fig. 50 partly) from the brood-room. Fig. 52. Specimen with a distinct annular fold
bordering the invaginated brood-room. Fig.53. Transverse section of the body through
the brood-room (b). The embryos are removed. Figs. 50, 52, 53. Specimens from
North Cape, fig. 51. Specimen from Island Bay. Magnif. 5/1 (figs. 50, 51), %5n (fig. 52).

1) The circular brood-pouch here recalls that described by Clubb 1902
in Urticina (= Bunodactis, compare p. 196) sulcata and carlgreni. As
far as I can see from Clubb's paper and figures there is from the
beginning a similar circular invagination in the column as in Crico-
phorus, but from this invagination brood-pouches have sunk in between
the mesenteries, thus a more advanced stadium of the brood-pouches
than in Cricophorus,

Vidensk. Medd. fra Dansk naturh. Foren. Bd. 77. 17

258

can become attached in this manner unless there are external brood-
pouches.' I have seen no evidence in support of the latter view.”
As we see from the description above, Stuckey has only observed
one specimen the young of which had already left their brood-pouch.
In fact this species has formed only a single brood-pouch consisting
of a circular invagination around the column in its lower half. Al-
ready in younger individuals there are sometimes a distinct circular
wall in the above named place (textfig. 52). A longitudinal section
of the column wall in this place shows that we have to do with a
circular, though as yet rather shallow, invagination (textfig. 48). The
invagination contains no embryos. In a more advanced state the
circular brood-pouch is considerably enlarged and reaches below
the actinopharynx. In the sectioned specimen the brood-pouch
contained' several embryos not having developed their tentacles.
In textfigure 53 I have reproduced a transversal hand-section of
the animal showing the under part of the brood-pouch (b). The
section is somewhat oblique as the brood-pouch seems narrower on
the left side. The embryos are taken away. The textfigure 49 shows
a longitudinal section through the upper part of the brood-pouch
in this specimen (B: brood-pouch, c: column, m: mesenteries, Xx:
communication between the outer medium and the brood-pouch).
As long as the embryos are small, both rims of the brood-pouch
are closely pressed together, when the embryos grow they emigrate
from the brood-pouch and attach themselves in the expanded outer
part of the brood-pouch. In this stadium the embryos seem to stand
in a circular furrow around the animal (textfig. 50). From here they
emigrate to the column wall (textfig. 51).

The occurrence of an outer brood-pouch here from a locality
about 34? 25” S may somewhat modify our apprehension of the
causes to the origin of brood-pouches. I cannot here discuss this
question.

It is this species which is mentioned by Dr. Mortensen in
his paper "Observations on protective adaptions and habits, mainly
in marine animals" (Vid. Medd. D. Naturh. Foren. Bd. 69. p. 83) as
an instance of protective resemblance in an Actinian. It is stated
to resemble the peculiar branches of the alga, on which it lives,
to such a degree that it was very hard to distinguish.

259

Literature.

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1899.
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1927:
1902.

1908.
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1898.
1860.
1879.
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1911.

Flora. Neapel. 9. 1884.
Annandale. Fauna of the Chilka Lake. Mem. Indian Museum. Vol. 5.
Carlgren. Zur Mesenterienentwicklung der Actinien Ofvers. K. Vet.
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= Zoantharien. Hamburger Magelhaensische Sammelreise.
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— Ostafrikanische Actinien. Mitth. Naturh. Museum Ham-
burg 17. Hamburg. 1900.
== Actiniarien. Result. Voyage Belgica, Zool. Anvers. 1903.
— Actiniaria I. The Danish Ingolf Exp. V.9. Copenhagen 1921.
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= Actiniae. Rep. Nat. Antarctic Exp. 1901—04. Nat. Hist. 4. 1908.
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Zealand Inst 7. 1874, p. 280.
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delphia. 1846.
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Commission. 20.2. 1900, p. 321.
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Jour. Linn. Soc. Zool. 26. 1898, p. 527.
Gosse. Å history of the British Sea-anemones and Corals. London 1860.
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Hutton. The sea-anemones of New Zealand. Trans. New Zealand
Inst El S7SE PDS 08:
= Contributions to the coelenteric Fauna of New Zealand.
Trans. New Zealand Inst. 12. 1879, p. 274.
Kirk and Sruckey. Two species of Actiniaria from Campbell Island.
The subantarctic Islands of New Zealand 1. Wellington. 1909, p. 384.
Kwietniewski. Revision der Actinien, welche von …... Studer
gesammelt wurden. Jena. Zeits. 30. 1896, p. 583.
Lager. Actiniaria. Die Fauna Sidwest-Australiens. 3.8. Jena 1911,
pæ2rs:

1857-1860. Milne-Edwards. Histoire Naturelle des Coralliaires.

1889.

1893.

1896.

1904.

McMurrich. The Actiniaria of the Bahama Islands. Journ. of Morph.

3. 1889.

— Report on the Actiniae collected by .… Albatross .…
1887—88. Proc. U. S. Nat. Museum 16. 1893, p. 119.

== Notes on some Actinians from the Bahama Islands.
Ann. New York. Acad. Sc. 9. 1896, p. 181.

= The Actiniae of the Plate collection. Fauna chilensis. 3.
Zool Jahrbuch. Supp.-Bd. 1904, p. 215.

260

1907. Pax. Vorarbeiten zu einer Revision der Familie Actiniidae. Inaug.-
Dissertation. Breslau. 1907.

1910... — Studien an westindischen Actinien. Zool. Jahrb. Suppl. 11. 1910,
pÆLS7E
1922... — Diagnosen neuer Actiniarien aus der Ausbeute der deutschen

(1901—1903) und der fransåsischen (1908—1910) Sidpolar-Expe-
dition. Zool. Anzeiger. 54. 1922, p. 75.
1833. Quoy and Gaimard. Zoologie du Voyage de la corvette Astrolabe.
Paris. 1830—1833.
1892. Simon. Ein Beitrag zur Anatomie und Systematik der Hexactinien.
Inaug.-Dissert. Minchen. 1892.
1918. Stephenson. Coelenterata. Actiniaria. British Antarctic ("Terra Nova")
Expedition 1910. Zool. 5.1. London. 1918.
1920. == On the classification of Actiniaria. Part 1. Forms with
acontia and Forms with a Mesogloeal sphincter. Quart.
Journ. Microsc. Sc. 644. 1920, p. 425.
To2ie me On the classification of Actiniaria. Part2. Consideration
to the whole group etc. Quart. Journ. Microsc. Sc.
65.4. 1921, p. 493.
1922. == On the classificatlon of Actiniaria. Part3. Quart. Journ.
Microsc. Sc: 662. 1922; p: 247.
1908a.Stuckey. Notes on a New Zealand Actinian, Bunodes aureoradiata.
Trans. New Zealand Inst. 41. 1908, p. 367.
1908b. = On two Anemones found in the neighbourhood of Wel-
lington, Leiotealia thompsoni and Sagartia albocincta.
Trans. New Zealand Inst. 41. 1908, p. 370.

1908c. == A review of the New Zealand Actiniaria known to sience.
Trans. New Zealand Inst. 41. 1908, p. 374.
1914. = Description of a collection of Actinians from the Kerma-

dec Islands. Trans. New Zealand Inst. 46. 1914, p. 132.
1909. Stuckey and Walton. Notes on a collection of Sea-anemones. Trans.
New Zealand Inst. 42. 1909, p. 541.
1878. Studer. Zweite Abtheilung der Anthozoa polyactinia (Gazelle Exp.).
Monatsberichte K. Akad. Wissens. Berlin. 1878, p. 524.
1899a. Verrill. Notes on Radiata in the Museum of Yale College. 6. Review
of the Corals: .… Trans. Connect. Acad. 1, p: 377.
—= Descriptions of imperfectly known and new ÅActinians. 2.
Americ. Journ. Sc. (4)7. 1899, p. 41.
1899b. = Descriptions of imperfectly known and new Actinians.
Americ. Journ. Sc. (4)7. 1899, p. 143.
1922. Watzl. Die Actiniarien der Bahamainseln. Arkiv får Zoologi 14,
Nr. 24. Stockholm. 1922.
1911. Wilsmore. On some Actiniae from New South Wales. Journ. Linnean
Soc. Zool. 33. 1911, p. 41.

4—8—1924.

261

Postseripf:

After describing the above named Actiniaria I have had the op-
portunity of studying a small collection of Actiniaria made by Sten
Wallin 1924 at the Stewart and Campbell Islands. From Stewart
Island, Paterson Inlet, the occurrence of Actinia tenebrosa and Crico-
phorus nutrix is to be noted, from Campbell Island, Perseverance Bay,
numerous specimens of Parantheopsis cruentata and the species here
called Epiactis mortenseni. Ås 10 the latter species I have stated (p.217)
that the "column is, as far I can see, without sucking warts". In
several of Wallin's specimens, which were mostly not so much
contracted as those collected by Mortensen, there are, however,
distinct verrucae arranged in longitudinal rows, but there are not
many verrucae in each row and they are the most distinct in the
middle of the column. AÅ closer examination of these verrucae,
which are invaginated, shows that their ectoderm is structured as
that of the Urticina-verrucae. There is, however, here no evagination
from the endoderm into the verrucae, though the mesogloea is thinner
than in other parts of the column. Such warts I have observed also
in other Actiniaria, for inst. in the genus Sagartia. No doubt the
specimens collected by Mortensen and Wallin belong to one
and the same species. Both agree in the characteristic arrange-
ment of mesenteries, in the presence of a parasitic Trematod in
the sphincter and in other characters. Also the size of the nemato-
cysts shows good agreement, only the nematocysts with perspicuous
basal part to the spiral thread in the actinopharynx were somewhat
longer in Wallin's specimens; further the breadth of the nemato-
cysts was a little larger, possibly caused by a difference in the pre-
servation. The colour was still distinct in several of Wallin's spec-
imens which had been preserved in formaline-alcohol. The column
was red-brown, crimson or orange with more or less irregular ver-
tical pale (white?) lines and pale verrucae, the tentacles greenish,
sometimes with reddish tips (possibly banded), the oral disc greenish,
the actinopharynx and inner parts reddish. On account of the pre-
sence of verrucae on the column this species must be named Bu-
nodactis (Cribrina) mortensenl.

Papers from Dr. Th. Mortensen's Pacific Expedition
1914—16.

XXIL
Ascidiae Krikobranchiae von Neuseeland, den Chatham-
und den Auckland-Inseln.
Von

W. Michaelsen, Hamburg.
(Mit 30 Textfiguren).

Die vorliegende Arbeit schliesst sich an meine Abhandlung iber
die Ptychobranchen und Diktyobranchen Ascidien Neuseelands und
der Chatham-Inseln") an und bildet zusammen mit dieser und mit
Bovien's Arbeit iber die Holosomen Ascidien der Auckland- und
Campbell-Inseln”) eine vollståndige Ubersicht iiber die Ascidien-
fauna des Neuseeland-Gebietes im weiteren Sinne, d. h. einschliess-
lich der Three-Kings-Inseln, der Chatham-Inseln, sowie der Auckland-
und Campbell-Inseln.

Die Untersuchung des reichen Materials krikobrancher Neusee-
land-Ascidien zeitigte einige bemerkenswerte morphologi-
seheRErsebnisse:

Die interessante Polycitorella mariae mn. sp., n. gen. zeigte, dass
nicht nur bei Didemniden, sondern auch bei Polycitoriden morgen-
sternfåormige Kalkkårper im Zellulosemantel und als deren
Matrizien die charakteristischen Seitenorgane auftreten kånnen,

1) W. Michaelsen, 1921, Ascidiae Ptychobranchiae und Diktyobranchiae
von Neuseeland und den Chatham-Inseln. Papers from Dr. Th. Morten-
sen's Pacific Expedition 1914—16. XI. In: Vid. Medd. naturh. Foren.,
Kjøbenhavn, LXXIIL

2) P. Bovien, 1921, Ascidiae from the Auckland and Campbell Islands,
(Holosomatous forms). Papers from Dr. Th. Mortensen's Pacific Expedition
1914—16. IV. In: Vid. Medd. naturh. Foren.…. Kjøbenhavn, LXXIII.

264

diese Seitenorgane zwar nicht am Thorax, wie bei den Didemniden,
sondern am Abdomen.

Macroclinum hypurgon nm. sp. stellt eine Synoicide mit dem Be-
ginn eines Hypurgon-Zustandes dar, wie er bisher nur bei
Didemniden und Polycitoriden gefunden wurde.

Wie diese Befunde das Auftreten gewisser bisher nur von ein-
zelnen Familien bekannter Charaktere auch bei anderen Familien
krikobrancher Ascidien darlegen, also die bisher angenommenen
scharfen Grenzen zwischen diesen Familien in einzelnen Punkten
etwas verwischen, so werfen andere Befunde an einigen Synoiciden
der Amaroucium appendiculatum-Gruppe ein eigentiimliches Licht
auf die bisher stark iiberschåtzte Bedeutung des Hauptcharakters
der Fam. Synoicidae, nåmlich der Bildung eines als Postabdomen
bezeichneten Anhanges am Abdomen. In gleichem Sinne spricht
das mit Polycitoriden-Charakteren ausgestattete Pseudodistoma cereum
n. Sp., n. gen., das vielleicht als eine Polycitoride mit typischem
Postabdomen anzusprechen wåre.

Wie in meiner Arbeit iber die ptychobranchen und diktyo-
branchen Ascidien des Neuseeland-Gebietes stelle ich auch in dieser
Bearbeitung der krikobranchen Ascidien eine Erårterung der geo-
graphischen Beziehungen dieser Fauna dem beschreibenden
Teil voran. Was die faunistisch-geographischen Verhåltnisse der neu-
seelåndischen Fauna krikobrancher Ascidien anbetrifft, so gehen
unsere Kenntnisse bei dieser Abteilung bis auf die Veroffentlichung
Notts im Jahre 1892!) zurick und beschrånken sich auf diese
Arbeit und auf Sluiter's Bearbeitung der Sammlung Schauins-
land's.”) Eine kritiklose Zusammenstellung der bisherigen Angaben
uber die krikobranchen Ascidien dieses Gebietes wiirde die statt-
liche Zahl von 22 Arten ergeben. Eine kritische Sichtung ver-
ringert aber diese Zahl etwas und wiirde sie mutmasslich noch
weiter verringern, wenn eine vollståndige Nachprufung der Origi-
nale måglich wåre. Die Zahl der von mir durch eigene Unter-
suchung sicher gestellten krikobranchen Ascidien des Neuseeland-

1) J. T. Nott, On the Composite Ascidians of the North Shore Reef; in:
Tr. N. Zealand Inst., XXIV:

”) C. Ph. Sluiter, 1900, Tunicaten aus dem Stillen Ocean. Ergebnisse
einer Reise nach dem Pacific. (Schauinsland 1896—1897).. In: Zool.
JanrbøRsystyRsIlk

265

Gebietes betrågt 23 Arten samt 3 Varietåten. Dazu kommen noch
8 mehr oder weniger gut charakterisierte Arten, fir die ich die
Verantwortung den betreffenden Autoren iberlassen muss. Die fol-
gende Liste fiihrt demnach im ganzen 31 Arten samt 3 Varietåten
auf, eine Zahl, die die der bekannten ptychobranchen und diktyo-
branchen Ascidien dieses Gebietes (zusammen 29) um ein geringes
ubertrifft.. Zweifellos ist aber hiermit dieser Teil der Neuseeland-
Fauna auch nicht annåhernd erschopft, mutmasslich noch viel we-
niger vollståndig, als die friher von mir charakterisierte Abteilung
der ptychobranchen und diktyobranchen Ascidien dieses Gebietes.
Schon das mir vorliegende Material enthielt manche Stiicke, die
sicherlich noch anderen Arten angehårten, aber der Spårlichkeit
oder sonstiger Ungunst des Materials wegen nicht bestimmt oder
beschrieben werden konnten.

Was die Verteilung der Arten im Gebiet anbelangt, so
ist wie bei den iibrigen Ascidien-Familien ein charakteristischer
Unterschied zwischen der West- und Ostseite Neuseelands auch
bei den krikobranchen Ascidien keineswegs zu erkennen. Ubrigens
wissen wir von denen der Westseite so wenig, dass wir ein Urteil
dariber kaum fållen dirfen. Auch charakteristische Unterschiede
zwischen dem Norden und Siiden treten nur in spårlichen Fållen
deutlicher auf. Als Warmwasser-Gattungen, die auf den nårdlichen
Teil des Gebietes beschrånkt sind, missen wohl C/avelina und
Cystodytes angesehen werden, wåhrend Didemnum studeri Hartmr.
und Trididemnum cerebriforme Hartmr., die auf den Siden be-
schrånkt und hier anscheinend håufig und weit verbreitet sind,
wohl als Kaltwasserformen angesehen werden missen.

Als anscheinend im Neuseeland-Gebiet endemische Gat-
tungen kånnen håchstens die neuen Gattungen Polycitorella und
Pseudodistoma bezeichnet werden, deren bis jetzt einzige Arten
nur im Neuseeland-Gebiet gefunden worden sind.

Auch die bis jetzt erkennbaren auswårtigen Beziehungen
der krikøbranchen Ascidien des Neuseeland-Gebietes zeigen nicht
ein so ausgeprågtes, an charakteristischen Zigen so reiches Bild
wie die der ptychobranchen und diktyobranchen Ascidien. Das
liegt nur zum Teil an der kosmopolitischen Natur gewisser in
unserem Gebiet vertretenen Gattungen. In hohem Masse be-
ruht es darauf, dass die Verwandtschaftsverhåltnisse der in

Tabelle der krikobranchen Ascidien des Neuseeland-Gebietes
(einschliesslich der Chatham-, Auckland-, Campbell- und Three Kings Inseln).7)

Clavelina sigillaria n. sp. N. V.: Australien.
Polycitorella mariae n. sp.,n. gen. N. Gattung endemisch im Neuseeland
Gebiet.
Eudistoma circumvallata (Sluit.)! S. no.
Cystodytes draschei Herdm. IN. n., S. no Brasilien.
Sycozoa sigillinoides Less. | N., Chath | Tasmanien, Victoria, Sådwest-Austral
Kerguelen, Heard Isl., Siidpolar-M
Sud Georgien, Falkland-Ins., O.-P
gonien, Magalhaens. Geb., Pazif.
vor Peru.
Distaplia fasmeriana n. sp. Stew
Leptoclinides diemenensis n.sp. |N.n fi V.: Nw.-Australien, Sulu-See, O.f
FÆFsparsusin sp N. w '[. neo, Brasilien.
Trididemnum cerebriforme Stew Kaplånd. Geb.
Hartmr.
Didemnum psammatodes Sluit! N. no. Mocambique.
var. maculatum Nott
D. ps. var. intermedium Mich. || S. no. Sansibar.
D. studeri Hartmr. f. typicum | Chath., Stew., Auckl. Kerguelen, Magalhaens. Geb.
D. st. f. africanum Mich. Stew. Sudwest-Afrika, Magalhaens. Geb.
D. paradoxum (N ott) N. no. VÆRPISeyechellene
D. chondrilla n. sp. Næne n0., Sfew. i 5
D. lambitum (Sluit.) Chath. ' V.: Westl. Indisch. Ozean.
D. albidum (Verr.) NEvÆns no! N.-Atlant. Oz. von Neu-England u.
Norwegen bis Grønland, Spitzber
u. Weissem Meer.
D. tuberatum (Nott.) N. no., S. no., Stew.
D. candidum Sav. N. no, S. no., Stew. || Westl. Indisch. Oz., Rotes Meer, 0:
v. N- u S.-Amerika.
D mortenseni n. sp. Stew.
Pseudodistoma cereum n. sp. Stew. ? Westlich. Indisch. Ozean.
Amaroucium scabellum n. sp. Nænn0
A. circumvolutum Sluit. N. no., Chath. | KR
A. stelluferum (Slkuit.)
Å … constrictum Sluit. |
A. variabile Herdm. Chath. Kerguelen.
A. phortax n. sp. f. typica N., S. no. Chath.
A. phortax var. n. ptychodes Stew. ' V.: Rotes Meer.

A.vel Aplidium foliaceum (Sluit.)|| S. no., Chath.
Macroclinum hypurgon n. sp. UN. no. V.?: Beringsmeer, Skandinavien. N
eg fundland.

M. arenaceum n sp. N. n., Stew.

HA stewartense n Sy 3 | Stew. | NSSS RTE FR
Hr > fungosum (H erd mM) 1" Chath. ? New South Wales.

me linum cerebrale n. sp IN. w., Stew. V.P?: Westl. Indisch. Ozean.

1) Auckl = Auckland-Inseln, Stew. = Stewart-Insel, Chath. = Chatham-Inseln, N. = Nord-Il
von Neuseeland, $. = Siid-Insel von Neuseeland, n. = Nord-Ende, no. = Nordost-Seite be

-Ende, w. West-seite, V.

= Verwandte Arten.

267

Frage kommenden Gattungen, zumal der Synoiciden-Gattungen,
noch nicht geniigend aufzeklårt sind. Erschwerend wirkt auch der
Umstand, dass von dem benachbarten australischen Gebiet, abge-
sehen von der durch Hartmeyer behandelten entfernten Nord-
west-Ecke, nur wenige krikobranche Ascidien so genau beschrieben
sind, dass eine sichere Wiedererkennung måglich wåre. Auch von
dem artenreichen, sich weiterhin nordwårts anschliessenden malayi-
schen Gebiet sind nur verhåltnismåssig wenige Arten ausreichend
beschrieben. Die Folge ist, dass wir in einer der hauptsåchlichsten
Beziehungslinien, der siid-nårdlichen, fast ganz im unklaren blei-
ben. Das wenige, was wir an auswårtigen Beziehungen der Neu-
seeland-Fauna krikobrancher Ascidien sicher erkennen kånnen, haupt-
såchlich beruhend auf der weiteren Verbreitung einzelner Arten,
weniger der von Gattungen, deckt sich ziemlich genau mit gewissen
Zigen der B2ziehungen ptychobrancher und diktyobrancher Asci-
dien.

Die wahrscheinlich mit der Westwind-Trift zusammenhångenden,
mehr oder weniger vollkommen circumpolaren west-dstlichen Be-
ziehungen sind am deutlichsten ausgesprochen in der Verbreitung
von Sycozoa sigillinoides Less., Didemnum studeri Hartmr. und
Trididemnum cerebriforme Hartmr. Vielleicht sind hier noch an-
zufigen Amaroucium variabile Herdman, falls nåmlich Sluiter's
Bestimmung des Materials von den Chatham-Inseln richtig ist, so-
wie Macroclinum arenaceum nm. sp. und M. stewartense n. sp.

Sid-nårdliche Beziehungen der Neuseeland-Fauna krikobrancher
Ascidien sind aus den oben angefuihrten Grinden wohl weniger
reichlich erkennbar als vielleicht tatsåchlich vorhanden. Eine deut-
liche sid-nårdliche Beziehung weist die Gattung Sycozoa auf, die
in antarktisch-subantarktischen Breiten circummundan, im Neusee-
land-Australien-Sektor nordwårts iber Australien bis ins Malayische
Tropengebiet verbreitet ist. Åhnliche Beziehungen bieten vielleicht
auch die Clavelina-Arten der Gruppe C. sigillaria n. sp. auf, die
friher als Gattung Synclavella Caull. zusammengefasst wurden.

Noch fragliche Beziehungen zum westlichen Indischen Ozean
griinden sich vielleicht auf das Vorkommen verwandter oder iden-
tischer Formen von Didemnum psammatodes (Sluit.), D. chondrilla
n. sp., D. lambitum (Sluit.), Polyclinum cerebrale nm. sp. und Ama-
roucium phortax n. sp.

268

Eine auffallende Beziehung scheinen Amaroucium circumvolutum
(Sluit.) und 4. scabellum n. sp. aufzuweisen, nåmlich zu A. appen-
diculatum (Mich.) von den Azoren im Atlantischen Ozean.

Auch ein typisches Beispiel fir bipolare Verbreitung bietet eine
Neuseeland-Art dar, und zwar Didemnum albidum (Verr.), eine
gut bekannte und nicht zu verkennende Art. Den Neuseeland-
Vorkomnissen derselben stehen nåmlich die Vorkomnisse aus dem
nårdlichen Atlantischen Ozean, nårdlich bis ins nårdliche Eismeer
vorgeschoben, siidwårts einerseits bis Nord-Norwegen, andererseits
bis Neu-England reichend, gegeniber. Bei der guten Durchfor-
schung der Europåischen Westkiste und der Nordamerikanischen
Ostkiiste kann kaum ein Zweifel daruiber bestehen, dass diese Art
hier tatsåchlich nur bis zu den angegebenen Distrikten siidwårts
reicht, also eine Unterbrechung ihrer Verbreitung aufweist. Vielleicht
stellt auch die Gattung Leptoclinides eine bipolare Verbreitung
dar, doch ist zu beachten, dass die nårdliche Art, L. fårårensis
Bjerk. (mit einfachen Didemnum-Hoden) den sidlichen Formen
von Neuseeland, Australien, dem Malayischen Gebiet und dem siid-
lich tropischen Atlantischen Ozean (mit mehrfåltigen Polysyncraton-
Hoden) auch morphologisch gegeniber steht.

Krikobranchia.
Fam. Polycitoridae.
Gen. Clavelina Sav.

Nachdem sich die Verschmelzung der Familien Clavelinidae und
Polycitoridae als notwendig erwiesen hat, bedarf es einer Neurege-
lung der Gattungen, deren Diagnosen bisher nur in Riicksicht auf
den engeren Sonderkreis, dem sie friher angehårten, festgestellt
wurden. So sind die bislang massgebend gewesenen Diagnosen
der Fam. Clavelinidae (im alten, engeren Sinne) fast ganz auf die
Besonderheit der Kolonie-Form, einen fir die Gattung durchaus
unmassgeblichen Charakter, beschrånkt. Nach der Verschmelzurng
der Claveliniden und Polycitoriden wirden die beiden Claveliniden-
Gattungen Archiascidia und Clavelina neben Archidistoma bezw.
neben Polycitor (Polycitor) zu stehen kommen. Van Name wirft
die Frage auf, ob nun nicht etwa Clavelina mit Polycitor (Polycitor)

269

vereint werden miisse?") Er låsst aber diese Frage offen und hålt
die Gattung Clavelina einstweilen von Polycitor gesondert. Ich
folge ihm hierin, und zwar auf Grund des Umstandes, dass sich
diese friheren Claveliniden durch die Gestaltung der Kårperåff-
nungen (Branchial- und Atrialsiphonen nicht deutlich 6-lappig) von
den Arten der Gattung Polycitor (Kåorperåffnungen regelmåssig 6-
lappig) unterscheiden. Ich folge Van Name auch darin, dass ich
in der Gattung Clavelina alle Gattungen der friiheren Familie C/a-
velinidae (s. s.) mit Ausnahme der Gattung Archiascidia zusammen-
fasse, dazu auch die Gattung Synclavella Caull., die von Van
Name nicht erwåhnt wird, aber zweifellos nur versehentlich, denn
eine der von ihm neuerdings zu Clavelina gestellten Arten (C. gi-
gantea) zeigt den typischen Synclavella-Charakter.
Die Gattung Clavelina (emend.) kann wie folgt festgesetzt
werden.
Diagnose: Zellulosemantel ohne Kalkkårper.
Branchial- und Atrialoffnung nicht deutlich 6-lappig,
ganzrandig oder undeutlich und unregelmåssig lappig.
Kiemensack mit vielen (mehr als 5) Kiemenspalten-Zonen.
Magenwandung nicht faltenlos (stets ?).

Geschlechtsapparat zwittrig; Brutsåcke nicht vor-
handen.

Clavelina sigillaria n. sp.
P?? 1900, Synclavella lesson, sp. inqu., Caullery, S. 1. Clavelines nouv.
(Synclavella, n. g-), p. 3, Textfig.
P? 1900, Synclavella australis, sp. inqu., Caullery, ebendas. p. 3.
Fundangabe: Neuseeland, Nordinsel, 10 MI. Nordwest von
Kap Maria van Diemen, 50 Fd.; 5. Jan. 1915.

Vorliegend 2 Kolonien einer Polycitoride, die durchaus eine
von Caullery fir die Gattung Synclavella angegebene Kolonie-
gestaltung aufweist. Ob die neue Art mit einer der beiden Caul-
lerv'schen Arten identisch sei, låsst sich nicht feststellen, da iber
die Organisation der Personen jener Arten, deren Namen fast als
»nomina nuda" anzusehen sind, kaum eine Angabe gemacht ist. In
der Gestaltung der Kolonie weicht Clavelina sigillaria von den Ori-
ginalen jener Arten ab, insofern sich ihre Kolonie scharf in einen

1) Van Name, 1921. Ascid. West Indian Reg., p. 353.

PATO)

dickeren Kopfteil und einen weniger als halb so dicken Stielteil
sondert; 'doch mag hierin lediglich ein Wachstums- bezw. Alters-
unterschied liegen. Von Claveliniden der Synclavella-Form ist mei-
nes Wissens nur noch Crlavelina gigantea (Sluit.)")
beschrieben worden, die ebenfalls gestielte Kolo-
nien bildet, wenngleich bei ihr der Stiel nicht so
scharf ausgeprågt ist. C. sigillaria weicht, abge-
sehen von der betråchtlichen Gråsse der Personen,
von jener westindischen Form hauptsåchlich in
i der Bildung der Siphonen und des Magens ab
(siehe unten).

Beschreibung: Koloniegestaltung (Fig. 1)
bei beiden Stiicken gleichartig. Ein långlicher cy-
lindrischer personenhaltiger Kopf ist ziemlich
scharf abgesetzt von einem ”/» bis ”/3 so langen und
weniger als halb so dicken (bei einer Kolonie ca.
”/5 so dicken) cylindrischen personenlosen Stiel.

Die Gråssenverhåltnisse der beiden Ko-
lonien sind nur wenig verschieden. Die kleinere
ist im ganzen 135 mm lang, wovon 90 mm auf
den ca. 30 mm dicken Kopf, 45 mm auf den ca.
12 mm dicken Stiel entfallen; die andere ist 150
mm lang, wovon 90 mm auf den 36 mm dicken
Kopf und 60 mm auf den etwa 14 mm dicken
Stiel entfallen.

Aussehen der Kolonien sowohl im Kopf-
tell wie im Stielteil durchscheinend hellgelblich
grau, im Kopfteil mit dunkleren durchschimmern-

Fig. 1. Clavelina sigil-
laria mn. sp., ganze den Personen.

Bees Oberflåche der Kolonie (Fig. 1) am Kopf
durch måssig starke Einsenkung der Personen-Aussenflåchen un-
eben, im feineren glatt, ganz nackt, ohne Fremdkårper-Bewuchs,
am Stiel durch unregelmåssig und weitlåufig gestellte Ringelfurchen
uneben gemacht, bei beiden Kolonien fast ganz von einer krusten-

1) 1919, Polycitor (Paradistoma Caull) gigantea Sluiter, Uber alte und
neue Ascid., Zool. Mus. Amsterdam, p. 10, Taf. I Fig. 18—20.
1920, Clavelina gigantea, Van Name, Ascid. West Indian Reg. South-
east. Unit. St., p. 350, Textf. 40.

POT ID!

formigen Didemnide umwachsen, bei einer ausserdem mit einigen
"Hydrozoen Kolonien besetzt.

Anordnung der Personen, die abgesehen von den Gefåss-
anhången auf den Kopfteil der Kolonie beschrånkt sind, ziemlich
regelmåssig in Quincunsxstellung, so dass die Personen-Aussenflå-
chen in Långslinien und zugleich in sich kreuzenden Systemen von
Schråglinien stehen; der Abstand zwischen den Branchialåffnungen
benachbarter Personen einer Schråglinie mag durchschnittlich etwa
6 mm betragen. Die Personen-Aussenflåchen liegen als
unregelmåssig fåltelige schwache Erhabenheiten im Grunde scharf
umrandeter seichter Einsenkungen von fast kreisformigem Umriss,
die einander fast bis zu gegenseitiger Beriihrung nahe kommen.
Der ganze Kopf erhålt dadurch ein Sigillaria-artiges Aussehen, wenn-
gleich die Regelmåssigkeit dieser Narbenornamentierung die des
Siegelbaumes nicht ganz erreicht. Ich halte es nicht fir ausge-
schlossen, dass die Personen-Aussenflåchen am lebenden oder gut
ausgestreckt konservierten Objekt derartige Erhabenheiten bildeten,
wie sie Caullery bei seiner C. (Synclavella) australis sah (,un
bombemenfkassez marqueå lafsurface le pp: 3).

Personensysteme sind nicht gebildet und Kloakaloff-
nungen fehlen. Atrialåffnungen wie die Branchialoffnun-
gen unmittelbar an der Oberflåche der Kolonie gelegen, Branchial-
und ÅAtrialoffnungen einfach lochfårmig.

Zellulosemantel weich knorpelig, ziemlich fest elastisch,
mit etwas zåherer Oberflåchenschicht, im allgemeinen fast wasser-
hell. Oberhaut schwach getriibt. Blasenzellen fehlen, Stern-
cehen- und Spindelzellen sehr zart, farblose, annåhernd kuge-
lige Rundzellen (graue Pigmentzellen?) von ca. 20 u Dicke
im Innern spårlich, in der Oberflåchenschicht etwas dichter, hier
eine schwache Tribung hervorrufend.

Personen ziemlich regelmåssig schråg nach innen und basal-
wårts gerichtet, mit Ausnahme der fester an der zåheren Oberhaut
des Zellulosemantels haftenden Siphonen-Rånder leicht aus dem
Zellulosemantel herauszulåsen, unter Ausschluss des Gefåssanhanges
ca. 12 mm lang, scharf in Thorax und Abdomen gesondert, undurch-
sichtig gelblich grau. É

Thorax (Fig. 2) bei allen untersuchten Personen stark ge-
sehrumpft und anscheinend auch verzerrt, in der Seitenansicht mit

272

unregelmåssig trapezformigem Umriss, etwa doppelt so lang wie
dorsoventral hoch, seitlich etwas zusammengedrickt; er nimmt un-
gefåhr ”/3 der ganzen Kårperlånge ein.

Siphonen (Fig. 2) beige am Vorderende der Person ziemlich
dicht hinter einander, gleichweit vorragend, oder Branchialsipho
etwas weiter vorragend als der Atrialsipho und meist auch etwas
umfangreicher. Sowohl Branchialsipho wie Atrialsipho schråg ab-
gestutzt kegelfårmig. Die Abstutzungskante bezw. der Offnungs-
rand, der sowohl beim Branchialsipho wie beim Atrialsipho ventral-
wårts etwas abfållt, ist ganz glatt, wenn auch etwas geschweift, und
zeigt keine Spur von Lappenbildung oder Zåhnelung. Diese Glatt-
randigkeit der Siphonenrånder bezw. das Fehlen jeglicher Lappen-
bildung an den Siphonen hångt offenbar mit dem Umstand zu-
sammen, dass bei C. sigillaria die Långsmuskelbindel der Leibes-
wand des Thorax nicht auf die Siphonen hinaufreichen, søondern
dicht vor der Basis der Siphonen enden. Bedeutsam ist, dass nach
Sluiter die bei seiner Ci øigantea (Polycitor tele anteustlken pm)
undeutliche Zåhnelung mit dem Auftreten von 6 kråftigeren Långs-
muskelbindeln in der Siphonenwand zusammenhångt. Es ist wohl
anzunehmen, dass auch bei anderen Clavelinen mit 6-strahligen
Siphonen wie C. oblonga ") jene 6 Långsmuskelbindel in der Si-
phonenwand auftreten, im Gegensatz zu dem Verhalten der thora-
kalen Långsmuskelbindel bei C. sigillaria und anderen Clavelinen
mit ganz glattrandigen Siphonen. Die Ringmuskulatur bildet an den
Siphonen der C. sigillaria keine geschlossene Schicht, sondern un-
gleichmåssig getrennte, måssig starke Biindel. Das åusserste Ring-
muskelbuindel liegt unmittelbar am freien Rande des Siphos.

Abdomen mit Ausschluss des Gefåssanhanges bei stark ge-
schrumpften Personen ungefåhr doppelt so lang wie der Thorax,
von diesem sehr scharf abgesetzt, mit langem und schlankem, un-
gefåhr die Hålfte seiner Långe einnehmenden Taillenteil. Die Taille
ist kaum "/3 so dick wie der Thorax dorsoventral hoch. Das Hinter-
ende des Abdomens ist unregelmåssig gerundet und trågt an seiner
Kuppe einen scharf abgesetzten, ungemein langen Gefåssanhang,
der in der Achsenpartie der Kolonie basalwårts verlåuft. Wenigstens
eine Anzahl Gefåssanhånge der verschiedenen Personen (vielleicht

VGA TEN arme IE] ED R3S 6:

23

såmtliche?) treten in den Stiel der Kolonie

ein. (Ich verzichtete

auf Zerschneidung des Stieles und weitere Verfolgung der Gefåss-

anhånge).

Leibeswand im allgemeinen zart, mit
charakteristisch sangeordneter Muskulatur
(Fig. 2). Eine einigermassen kråftige Ring-
muskulatur ist nur an den Siphonen aus-
gebildet; im ibrigen beschrånkt sie sich am
Thorax und am Anfangsteil des Abdomens
auf sehr zarte, locker angeordnete Strånge.
Am Abdomen konnte ich im ibrigen iber-
haupt keine Ringmuskeln erkennen. Viel kråf-
tiger ist die Långsmuskulatur ausge-
bille Drese bilder fam "Thoraxjederseits
ungefåhr 12 kråftige, ca. 20 u breite Biin-
del, die durch weite Zwischenråume von
einander getrennt sind. Am Hinterende des
Thorax låsen sich diese Långsmuskelbiindel
auf und bilden dann schon beim Ubertritt
auf das Abdomen eine am ganzen Umfange
des Abdomens gleichmåssig verteilte, fast
geschlossene Lage feinerer Långsmuskeln,
die nun das ganze Abdomen bis an sein
Hinterende durchziehen. Ganz anders ge-
staltet sich das Vorderende der Långsmuskel-
biindel. Auch dieses låst sich auf, aber nicht
in eine gleichmåssige Schicht annåhernd pa-
rallel verlaufender feinerer Muskeln, sondern
fåcherformig in eine geringe Zahl kurzer
Strahlen. Diese enden meist einfach. Die
åussersten Strahlen gehen aber manchmal

måssig kråftiger, sehr

Fig. 2. Clavelina sigillaria

n. Ssp., Leibeswand-Musku-

latur am Thorax und am

Vorderende des Abdomens;
GES:

bogenfårmig in die ihnen zugebogenen Strahlen eines benachbarten
Biindels iiber. Sehr charakteristisch ist die Anordnung und der

Verlauf der Långsmuskelbindel am Thorax.

Wie oben erwåhnt,

tritt keines dieser Långsmuskelbiindel auf die Siphonen hinauf. Ja
nur der kleinere dorsale Teil der Långsmuskelbiindel verlåuft uber-
haupt in der Richtung auf die Siphonen zu, um sich vor deren
Basis aufzulåsen und so zu enden. Nur die beiden am weitesten

Vidensk. Medd. fra Dansk naturh. Foren. Bd. 77.

18

274

dorsal gelegenen Bindel verlaufen annåhernd parallel der Rucken-
linie des'Thorax. Die iibrigen zeigen eine allmåhlich stårker wer-
dende Abbiegung ventralwårts und enden, sich fåcherfårmig auf-
låsend, zum geringen Teil noch vor der Basis des Branchialsiphos,
zum gråsseren Teil neben dem vorderen und dem mittleren Teil
der ventralen Medianlinie iiber dem Endostyl. Bei dem nåher
untersuchten Stick endete nur das am weitesten dorsal gelegene
Biindel ganz an der Basis des Atrialsiphos, das zweite Bundel
sandte seinen ventralen Strahl schon zur Basis des Branchialsiphos.
Das fiinfte Biindel endete nur noch zum gråssten Teil vor der
Basis des Branchialsiphos und sandte seinen am weitesten ventral
liegenden Endstrahl schon gegen das Vorderende des Endostyls. Die
7 weiteren Biindel endeten ganz iiber dem Endostyl. Zu bemerken
ist noch, dass einzelne dieser ventralen Endstrahlen, die ventrale
Medianlinie iberquerend, in den Endstrahl eines Biindels der
Gegenseite iibergingen. Erwåhnt muss noch werden, dass manch-
mal auch Gabelung eines Bindels in der Seitenflåche des Thorax
vorkommt, so dass eine Zåhlung der Bindel in verschiedenen Zo-
nen des Thorax verschiedene Ergebnisse hat. Es ist hieraus wohl
zu schliessen, dass die Zahl der Långsmuskelbiindel an einer Thorax-
seite nicht ganz konstant ist. Die oben geschilderte Anordnung der
Långsmuskulatur scheint mir fir die Art sehr charakteristisch zu
sein; doch fehlt leider die Moåglichkeit eines durchgehenden Ver-
gleiches mit anderen Arten, da nur in den wenigsten Fållen
etwas iber diese Bildung angegeben ist. Oben erwåhnte ich
schon eine abweichende Bildung wenigstens der Vorderenden der
Långsmuskelbiindel bei C. gigantea (Sluit.) und C. oblonga Herd-
man, bei denen diese Bindel auf die Siphonen ibertreten. Eine
Abweichung der Zahl låsst sich fir C. australis Herdm.?) fest-
stellen, bei der sich am Thorax jederseits 6 Biindel finden. Am
interessantesten ist der Vergleich mit der Anordnung der Musku-
latur am Thorax von C.? cylindrica (Qu. & Gaim.), wie sie von
Caullery”) geschildert und abgebildet wird. Auch hier liegen
die fåcherartig aufgelåsten Vorderenden der anscheinend viel

1) Stereoclavella australis Herdman, 1899, Descr. Cat. Tunic. Austral.
MusÆæpi 6:

2) Chondrostachys ? cylindrica, Caullery, 1908, Rech. Synascid. Colella
et Considér. Distomidae, p. 53, Textfig. XV, A. B.

PATÅS

feineren und zahlreicheren Långsmuskelbiindel nur zum Teil
unter der Basis des Branchialsiphos und gråsstenteils iiber dem
Vorder- und Mittelteil des Endostyls. (An der Basis des Atrial-
siphos endet anscheinend keines
dieser Biindel, oder doch nur das
zu åusserst dorsal liegende mit
einem Teil seiner Fåcher-End-
strahlen). Die morphologischen
Hinterenden dieser Biindel gehen
jedoch nicht abwårts zum Abdo-
men und auf dieses hinauf, son-
dern verlaufen geradezu quer,
anscheinend die dorsale Median-
linie iberspannend, sich also hier
ganz wie Ringmuskeln gebår-
dend. Das Abdomen aber scheint
ganz frei von einer Leibeswand-
Muskulatur zu sein. Es wåre
wunschenswert, auch andere C/a-
velina-Arten auf diese Muskula-
turverhåltnisse hin zu unter-
suchen.

Branchialtentakel (nor-
malerweise 32?) bei einer nåher
untersuchten Person 28, nicht
ganz regelmåssig nach dem Sche-
HIdRISES SRP SME Everschieden
lang, je nach der Gråsse in be-
sønderen Kreisen stehend, die
grøssten in dem untersten Kreise.
Gestalt der Branchialtentakel fast Fig. 5. Clavelina sigillaria n. sp., hinterer
fadenfårmig, basal verdickt, apikal — TY des Abdomens må ger Damen
langsam dinner werdend. X 45:

Flimmerorgan nicht erkannt.

Kiemensack bei allen untersuchten Personen stark geschrumpft.
Zahl der Kiemenspalten-Zonen måssig gross (etwa 12 bis 14?).
Kiemenspalten sehr lang und schmal, parallelrandig, mehr als
50 in einer Halbzone. Endostyl bei allen untersuchten Personen

18"

276

stark gebogen (infolge von starker Kontraktion?), V-formig oder W-
formig mit langen End-Åsten. Dorsalfalten-Ziingelchen nicht genau
erkannt.

Darm eine lange, einfache, nicht ganz bis an das Hinterende
des Abdomens gerade nach hinten gehende Schleife bildend, die im
Bereiche der Taille eng geschlossen ist, im angeschwollenen Ab-
domen-Teil dagegen etwas klafft. Osophagus sehr lang und
schlank, den gråsseren Teil des hinlaufenden Darmschleifen-Astes
bildend. Magen (Fig. 3 u. 4) ungefåhr das finfte Sechstel des

hinlaufenden Darmschleifen-Astes einnehmend, ge-

rade in der Långsrichtung des Abdomens liegend,

linger als breit und breiter als dick, vorn und

hinten scharf abgesetzt, ungleichmåssig prismatisch,

mit flach trapezformigem Querschnitt (Fig. 4), des-

sen breiteste Seite dem gegeniiberliegenden End-

darm zugewendet ist. Die vier Kanten sind durch

eine deutliche Strukturbesonderheit des Wandungs-

epithels, im allgemeinen eine Verkirzung der Cy-

g … linderzellen bezw. eine Verdiinnung der Wandung
Fig.4. Clavelina sigil- N 2 A i É, ke

laria mn. sp., Quer- åausgezeichnet. Die Vierkantigkeit des Magens ist

BEEN REE also offenbar keine zufållige Kollabierungserschei-

(OG "… nung, sondern ein Charakter der Art, durch den

sie sich scharf von C. gigantea (Sluit.) unterscheidet. Sowohl

am Cardia-Ende wie am Pylorus-Ende treten die Kanten-Enden

etwas schulterartig vor. Eine der beiden Kanten der der Leibes-

wand zugewendeten zweitbreitesten Flåche ist durch eine Doppel-

rinne ersetzt, die als Doppeltyphlosolis bezw. Typhlosolis mit einer

Leitrinne auf der Kante die ganze Långe des Magens durchzieht.

Mitteldarm anscheinend sehr kurz, nicht deutlich weiter geteilt.

Enddarm (Fig. 3) den ganzen riicklaufenden Darmschleifen-Ast samt

dem Wendepol einnehmend, ziemlich gleichmåssig dick, im Quer-

schnitt oval, eine Breitseite dem hinlaufenden Darmschleifen-Ast

zugewendet. After zweilippig (?). Die darmumspinnende

Drise (Fig. 3) bildet am Enddarm vom Wendepol an nach vorn

hin ein den ganzen Umfang einnehmendes, von zarten Schlåuchen

gebildetes, ziemlich regelmåssiges Netzwerk, dessen Maschen sehr

in die Långe gezogen sind, sodass die Schlåuche gråsstenteils in

der Långsrichtung des Darmes verlaufen. Ein Querschnitt zeigt

BT

daher den Querschnitt des Darmes ziemlich dicht und regelmåssig
umstellt von etwa 24 bis 30 Querschnitten feiner Schlåuche. Am-
pullen sind nicht erkannt worden. In der Region gegeniiber dem
hinteren Teil des Magens und dem Mitteldarm låsen sich einige
.derartige Schlåuche vom Netzwerk ab, um sich nach und nach zu
vereinen und schliesslich såmtlich zu einem gemeinsamen Ausfihr-
gang zu verschmelzen. Dieser anfangs noch sehr zarte Ausfihr-
gang uberspannt das Lumen der Darmschleife und mindet schliess-
lich durch die schmale Hinterwand des Magens in geringer Ent-
fernung vom Pylorus in den Magen ein. Das Einmiindungsende
des Ausfiihrganges ist ziemlich stark verdickt und derbwandig.

Geschlechtsorgane: Personen zwittrig. (Gonaden im Be-
reich des hinteren Teils der Darmschleife, ungefåhr vom Hinter-
ende des Magens bis zum Wendepol der Darmschleife im Abdomen
liegend. Ovarium als langgestreckter, hinten titenformig zuge-
spitzter Schlauch an der Leibeswand sitzend. Eizellen im Ova-
rium nach vorn hin an Gråsse zunehmend, die gråssten etwa 100 u
dick. Die Hode ist ziemlich eng an die Darmschleife angelegt.
Sie wird von zahlreichen kleinen birnfårmigen, durchschnittlich etwa
60 u dicken Hodenblåschen gebildet, die zu einer långlich ovalen
Rosette løcker zusammengestellt sind, und deren feine, schlanke
Sonderausfirgånge sich nach und nach vereinen und schliesslich
im Mittelpunkt der Rosette zu einem verhåltnismåssig weiten, Zzart-
wandigen Samenleiter zusammenfliessen. Samenleiter und Ei-
leiter scheinen dicht neben einander gerade nach vorn hin zu
verlaufen.

Brutvorrichtungen, Embryonen und Larven sind an
der nåher untersuchten Kolonie nicht gefunden worden.

Gen. Polycitor Ren. s. s.

Ich halte es fir richtiger, die Gattung Polycitor, die im Neu-
seeland-Gebiet anscheinend durch keine Art vertreten ist, ganz auf
den kleinén Artenkreis zu beschrånken, den Hartmeyer!) bis-
her als Untergattung Polycitor der Untergattung Eudistoma gegen-
ibergestellt hat. Zur Sonderung von der Gattung Clavelina, wie
ich sie jetzt auffasse (siehe oben!), ist das Merkmal der Sechs-

1) Hartmeyer, 1909, Tunic., in Bronn, Kl. Ordn. Tier-R., p. 1931.

278

lappigkeit der Korperåffnungen in die Diagnose von Polycitor (und
von Eudistoma) aufzunehmen :
Diagnose: Zellulosemantel ohne Kalkkårper.
Branchial- und Atrialo&ffnung regelmåssig 6-lappig.
Kiemensack mit vielen (mehr als 5) Kiemenspalten-Zonen.

Magenwandung nicht faltenlos.
Geschlechtsapparat zwittrig; Brutsåcke nicht vor-

handen.

Gen. Polycitorella nov. gen.

Diagnose: Zellulosemantel mit morgensternformigen Kalkkårpern,
deren Matrizien abdominale Seitenorgane sind.
Branchial- und Atrialsipho råhrenfårmig, regelmåssig 6-

lappig.
| Kiemensack mit vielen (mehr als 5) Kiemenspalten-Zonen.
Magenwandung nicht faltenlos.

Geschlechtsapparat zwittrig; Brutsåcke nicht vor-
handen.

Typus: Polycitorella mariae n. sp.

Ich stelle diese- neue Gattung fir einen Polycitoriden auf, der
sich von den Arten der Gattung Polycitor anscheinend lediglich
durch den Besitz von charakteristisch gestalteten, morgensternfår-
migen Kalkkårpern im Zellulosemantel und den Matrizien die-
ser Kalkkårper, ,abdominalen Seitenorganen", unterschei-
det. Kalkkårper sind in der Fam. Polycitoridae bisher nur bei der
Gattung Cystodytes nachgewiesen (die angeblichen Kalkkårper der
daraufhin von Polycitor gesonderten Gattung Paessleria Mich. haben
sich spåter als Fremdorganismen erwiesen); doch åhneln die Cyszo-
dytes-Kalkkårper in keinem Falle den typischen, morgensternfårmi-
gen Didemniden-Kalkkårpern. Auffallend ist die Lage der Kalk-
korper-Matrizien bei Polycitorella mariae.. Diese Organe, bei den
Didemniden seitlich am Thorax gelegen und deshalb von mir als
»thorakale Seitenorgane" - bezeichnet, sitzen bei P. mariae seitlich
am Abdomen, eine nicht sehr grosse, aber immerhin noch betråcht-
liche Strecke hinter dem Hinterende des Thorax, und kånnen fiig-
lich hier nur ,,abdominale Seitenorgane" genannt werden. Ich sehe
in dieser verschiedenen Stellung der Kalkkårper-Matrizien eine
weitere Stitze fir die von Hartmeyer vertretene und von mir
adoptierte Anschauung, dass ein grundsitzlicher Unterschied zwi-

279

schen den Kårperabschnitten krikobrancher Ascidien, zwischen Tho-
rax, Abdomen und Postabdomen, nicht besteht.

Auffallend ist die Åhnlichkeit der Polycitorella-Kalkkårper mit
den typischen Didemniden-Kalkkårpern; doch glaube ich nicht, dass
wir aus diesem Umstand eine besondere verwandtschaftliche An-
nåherung von Polycitorella an die Didemniden annehmen miissen.
Diese besondere Gestalt der Kalkkårper, die morgensternfårmige,
ist ja auch fir die Didemniden nicht die ausschliessliche. (Beachte
die Gattung Echinoclinum sowie Didemnum cerebrale). Meiner An-
sicht nach steht die Polycitoriden-Gattung Cystodytes den Didem-
niden nåher. Erwåhnt mag noch werden, dass ich kirzlich morgen-
sternfårmige Kalkkårper auch im Zellulosemantel einer Pyuride ge-
funden habe, nåmlich bei Pyura australis (QQu. & Gaim.) von Siid-
west-Australien.

Polycitorella mariae n. sp.

Fundangabe: Neuseeland, Nord-Insel, 10 Sml. NW. von
Can eN akv ED em en SOE arter Grund FS an ONS

Beschreibung: Koloniegestaltung und Bodenståndigkeit
(Fig. 5): Die Kolonien bezw. Kormidien sehen aus wie långliche
Seerosen, die bis auf den verbreiterten Apikalteil von einem fest
zusammen gebackenen Panzer von meist kalkigen Fremdkårpern,
Muschelschalen und Kalkbryozoen-Fragmenten, zum Teil mehrere
Millimeter breit, Kieskårnern, Foraminiferenschalen und dergl., eng
umhiillt sind. Man kånnte sie auch bezeichnen als hinten ge-
sehløssene kurze Konglomeratråhren, aus deren vorderer Offnung
der etwas verbreiterte Apikalteil des Weichkårpers der Kolonie
herausquillt. Die Kolonien -bezw. Kormidien sassen offenbar nur
mit ihrem Hinterende am Untergrunde, von dem sie frei auf-
ragten, fest. Zwei Røhren waren urspringlich an ihrem Hinter-
ende verwachsen, brachen aber bei geringer Zerrung auseinander.
Ob sie lediglich mit einander aggregiert waren und zwei einfache
Kolonien darstellen, oder ob die Weichkårper stoloartig aus einer
Røhre in die andere ibergingen, die beiden Rohren also nur 2
Kormidien einer einzigen zusammengesetzten Kolonie sind, liess
sich nicht feststellen.

Grøåssenverhåltnisse der Kolonie: das gråsste vollstån-
dige Kormidium ist 20 mm lang und etwa 5—7 mm dick. Der

280

vorn hervorquellende Kopfteil des Weichteils des Kormidium ist
6 mm dick.

Aussehen des Weichteiles undurchsichtig schneeweiss.

Oberfliche des nackten Weichteiles der "Kolonre
nur stellenweise eben, an anderen Stellen sehr uneben, zumal durch
das Vorragen der Branchialdffnungen (und der Atrialdffnungen ?) auf
warzenformigen Papillen.

Kloakalåffnungen sind nicht deutlich nachgewiesen worden,
Vielleicht ist eine unregelmåssig gruben-
formige Einsenkung oder eine quere Ein-
kerbung im Mittelraum der Apikalflåche des
Weichteiles des Kormidiums als Kloakal-
offnung anzusehen.

Personenaussenflåchen ganztanf
die Apikalflåche des Weichteiles des Kor-
midiums beschrånkt, vielleicht sogar nur auf
die peripheren Teile dieser Apikalflåche.
Hier liessen sich kleine, scharf abgesetzte
Warzen erkennen, die auf ihrer Kuppe eine
regelmåssig sechsstrahlige Offnung aufwei-
sen. Diese Offnungen sind zweifellos Bra n-
chialoffnungen, falls nicht teils Bran-
Fig. 5. Polycitorella mariae chjalåffnungen und teils Atrialdffnungen. -Ob
n. sp., ganzes Kormidium ; F

x 21/4. die Atrialdffnungen wie die Branchial-
offnungen an der Oberflåche des Weichteils

des Kormidiums liegen oder im Innern an Kloakalråumen, konnte
ich nicht feststellen, da ich weiteres Material nicht opfern wollte.

Zellulosemantel måssig weich und måssig leicht zerreiss-
bar, durchaus undurchsichtig schneeweiss, rein und ohne Einlage-
rung von Fremdkårpern. Die oberflåchliche Inkrustierung an den
Seitenteilen des Kormidiums beschrånkt sich auf eine allerdings
sehr feste Auflagerung von Fremdkårpern, eine Einbettung unter
vollståndiger Umschliessung der Fremdkårper findet nicht statt.
Blasenzellen und Pigmentzellen fehlen im Zellulosemantel.
Das schneeige Aussehen der Zellulosemantel- Masse beruht auf
einer gleichmåssigen und dichten Einlagerung charakteristisch ge-
stalteter Kalkkårper in dem Zellulosemantel. Diese Kalkkårper
åhneln durchaus den typischen Didemniden-Kalkkårpern, wenngleich

281

sie nicht durchweg ganz so regelmåssig gestaltet sind wie die der
Didemniden. Auch ihre Herkunft von charakteristischen Haut-
organen (siehe unten!) ist die gleiche wie bei jenen. Sie sind bei
regelmåssiger normaler Ausbildung morgensternfårmig, mit spitz-
bogenfårmigen Stacheln, die etwas långer als am Grunde breit sind,
etwa 8 bis 16 im Umkreis des optischen Querschnit-
tes. Vielfach sind die Kalkkårper jedoch weniger
regelmåssig gestaltet. Die Stacheln erscheinen zum
Teil an der Spitze gespalten oder gar mehrspitzig,
oder nehmen eine ganz unregelmåssige Gestalt an.
Einzelne Kalkkårper sehen aus wie ein mehr oder
weniger unregelmåssiges Aggregat unregelmåssig po-
lyedrischer Kårner. Die Kalkkårper sind meist etwa
18—20 wu dick, zum geringen Teil kleiner, im Ma-
ximum etwa 25 w dick.

Jedes Kormidium enthålt nur eine geringe Zahl

von Personen, ein eingehend untersuchtes deren
9. Die ausgewachsenen Personen miinden an der
Apikalflåche des Weichteiles des Kormidiums aus,
und zwar anscheinend an den peripherischen Teilen,
vielleicht im Umkreis einer zentral gelegenen Kloa-
kalåffnung. Die Personen, die sich ziemlich leicht
aus dem Zellulosemantel herauslåsen lassen, er-
strecken sich im ausgewachsenen Zustand und bei
normaler Ausmiindung an der Oberflåche der Kolonie Fig 6. Polycito-
mehr oder weniger regelmåssig parallel mit einander Re JE NRREEN
durch die ganze Långe des Kormidiums, in dessen derende des Ab-
Basalteil die Hinterenden einen etwas unregelmås- SER
sigen Verlauf, manchmal eine Art Schleifenbildung, daneben auch
zeigen. Eine in ganzer Långe frei gelegte ausge- "PM YOM; SE
wachsene Person erwies sich als 20 mm lang, wovon etwa 3,2 mm
auf den Thorax, 16,8 mm auf das Abdomen entfielen. Der Thorax
(Fig. 6), bei der zur Messung ausgewåhlten sehr schlanken Person
etwa 7/8 mm dick, verengt sich hinten ziemlich schnell und ist
dadurch deutlich von dem im allgemeinen dinneren, bei jener
schlanken Person im allgemeinen 0,3 —0,4 mm dicken Abdomen
abgesetzt. Das Hinterende des Abdomens ist anscheinend stets

282

stark verbreitert, etwa bis auf die doppelte allgemeine Breite des
Abdomens. Gefåssanhånge sind nicht beobachtet worden.

Branchialsipho (Fig. 6) gerade am Vorderende des Thorax,
mehr oder weniger scharf abgesetzt, kronenfårmig, ungefåhr so lang
wie breit, apikal in 6 regelmåssige, fast zungenfårmige Lappen aus-
laufend. Der Branchialsipho ist mit ziemlich kråftiger, eine mehr-
fache Lage bildender, einen deutlich abgesetzten Sphinkter bilden-
der Ringmuskulatur ausgestattet. Dieser Branchialsphinkter er-
scheint im Långsschnitt durch den Branchialsipho bei måssiger
Kontraktion etwa 160 4 breit und 30 w dick.

Atrialsipho (Fig. 6) eine kurze Strecke hinter dem Branchial-
sipho an der Riickenseite des Thorax angesetzt, rohrenfårmig, un-
gefåhr doppelt so lang wie dick, in dem basalen und mittleren Teil
meist etwas aufgeblåht, sodass sich das Apikalende, das in 6 regel-
måssige, fast zungenformige Lappen auslåuft, kronenférmig von den
ubrigen Teilen absetzt. Dieses Apikalende ist ungefåhr ebenso ge-
staltet wie der Branchialsipho, wenn auch ein sehr geringes klei-
ner. Der Atrialsipho ragt fast gerade nach vorn, nahezu parallel
dem Branchialsipho und meist fast ebenso weit reichend. Seine
Ringmuskulatur ist nicht besonders stark entwickelt, nicht deutlich
sphinkterartig. Eine kurze Strecke innerhalb der åusseren Off-
nung trågt der Atrialsipho ein diinnhåutiges, aber ziemlich breites,
ringformiges Atrialvelum, das den Atrialsipho bis auf eine kleine
zentrale Offnung verschliessen kann.

Wie bei vielen Kalkkårper bildenden Didemniden so konnte ich
auch bei dieser Kalkkårper bildenden Polycitoride Kalkkårper-
Matrizien nachweisen. Wåhrend die Matrizien bei jenen Didem-
niden jedoch dem Thorax angehåren, sitzen sie bei Polycitorella
mariae am Abdomen, eine weitere Stitze fir die von Hartmeyer
und mir vertretene Anschauung, dass kein grundsåtzlicher Gegensatz
zwischen den als Thorax, Abdomen und Postabdomen bezeichneten
Kåørperabschnitten merosomer Ascidien bestehe. Diese Kalkkårper-
Matrizien bezw. ,abdominalen Seitenorgane" (Fig.6) sind bei
P. mariae rein åusserlich; es sind diinnhåutige, an der Innenseite
loffelartig ausgebauchte Lappen, die etwa 1 bis 2 Abdomenbreiten
hinter dem Hinterende des Thorax jederseits vom Abdomen schråg
nach vorn hin abragen. Ein solches sich im Ganzpriparat besonders
gut darstellendes Seitenorgan erwies sich als ca. 150 w lang und

283

120 u breit. An Långsschnitten durch die Leibeswand mit einem
Seitenorgan zeigte sich, dass die Långsmuskulatur der Leibeswand
nicht an der Bildung der Lappen beteiligt ist, sondern ungestårt
unterhalb dieser Organe geradenwegs weiter låuft. Auch die un-
gemein zarte Ringmuskulatur der Leibeswand geht wenigstens
gråsstenteils ununterbrochen und nicht aus ihrer Richtung heraus-
gebracht unterhalb der Lappen fort. Bei einigen wenigen Personen
konnte ich abdominale Seitenorgane gar nicht oder nur einseitig
nachweisen. Bei der ungemein zarten Beschaffenheit dieser Organe
mag dies auf Zerstårung bei der Pråparation beruhen. Vielleicht
aber sind auch bei dieser Polycitoride, wie anscheinend bei Didem-
niden, diese Organe nicht an allen Personen oder nicht stets vor-
handen.

Leibeswand måssig dick, mit im allgemeinen kråftiger Långs-
muskulatur und zarter Ringmuskulatur. Die von den Apikal-Enden
der beiden Siphonen ausgehenden Långsmuskeln iberziehen
den Thorax in ziemlich gleichmåssiger, einfacher, nicht ganz ge-
schlossener Lage, und gehen auch in dieser Form iiber den Vorder-
teil des Abdomens hin. Im weiteren Verlauf schliessen sie sich dann
jederseits zu einem breiten, enggeschlossenen und schliesslich bei
weiterer Verschmålerung eine mehrfache Schichtung annehmenden
Långsbande zusammen. Gegen das Hinterende des Abdomens
riicken diese beiden Långsmuskelbånder ventral nåher aneinander,
um schliesslich am Hinterende des Abdomens ohne zu verschmelzen
aneinander zu stossen. Sie enden dann plåtzlich in leicht konvexer
Rundung am einfachen Hinterende des Abdomens. Die Ring-
muskulatur bildet nur am Branchialsipho, als Branchialsphinkter,
eine dichtere dicke Lage, im. ibrigen am Thorax eine lockere, zarte,
wenn auch nicht ganz einfache Lage, die am Abdomen noch zarter
und spårlicher wird, aber selbst am Hinterende des Abdomens noch
nachweisbar ist.

Branchialtentakel schlank fingerfårmig, in 3 sehr ver-
schiedenen Gråssen ausgebildet, in engem, einfachem Kreise ste-
hend, jedoch die gråsseren Grundflåchen der gråsseren entsprechend
weiter vorragend, bei einer nåher untersuchten Person an Zahl 24,
ganz regelmåssig nach dem Schema !, 3, 2, 3, 1 angeordnet.

Flimmerorgan anscheinend ein Polster mit einfacher Durch-

bohrung.

284

Kiemensack (Fig. 6) bei einer gut gestreckten nåher unter-
suchten Person mit 12 Kiemenspalten-Zonen. Kiemen-
spalten schmal und lang, in einer Halbzone etwa 15, wenn nicht
mehr. Quergefåsse såmtlich gleich stark. Parastigmatische
Quergefåsse sind nicht vorhanden. Dorsalfalten-Zungel-
chen gross, såbelfårmig, långer als eine Kiemenspalten-Zone.

Darm eine lange, bis in das Hinterende des Abdomens reichende,
im allgemeinen einfache, nur am Beginn des riucklaufenden Darm-
schleifen-Astes durch geringe Schleifenbildung etwas umgebildete
Schleife bildend. Øsophagus ungemein lang, den gråssten Teil
des hinlaufenden Darmschleifen-Astes bildend, anfangs dinn und
zart, hinten etwas erweitert und mit spiraligem Lumen (Spiralfalte
oder unwesentliche Kontraktionserscheinung?). Magen infolge der
Långe des Osophagus ungemein weit nach hinten verlagert, nur
eine kurze Strecke vor dem Wendepol der Darmschleife liegend,
verhåltnismåssig sehr breit und kurz, scharf vom Osophagus und
Mitteldarm abgesetzt, deren diinne Enden als Cardiawulst bezw. als
Pyloruswulst etwas in das Lumen des Magens eingedriickt erscheinen.
Der Magen ist nicht ausgesprochen glattwandig; doch ist auch eine
regelmåssige Wulst- bezw. Faltenbildung nicht ganz klar erkennbar.
Die nåher untersuchten Magen machten mehr den Eindruck, als
seien sie unregelmåssig und stark kollabiert. Meist schienen 4 stark
erhabene Långswilste aufzutreten; doch machte ein Magen mehr
den Eindruck einer Querfalten-Bildung. Der Mitteldarm bildet
mit dem hintersten Teil des hinlaufenden Darmschleifen-Astes ein
kurzes, enges, manchmal stellenweise auch aufgeblåhtes Stiick von
gewohnlichem Aussehen, an das sich dann gerade am Wendepol
ein stark umgebildeter, beidenendes scharf abgesetzter, kurz- und
dick-ovaler Teil mit auffallend dicker, anscheinend drisiger Wandung,
offenbar ein Drisendarm, anschliesst. Der den ganzen ricklau-
fenden Darmschleifen-Ast bildende Enddarm ist in seinem Be-
ginn, in der Strecke hinter der Region des Magens, etwas.aus der
einfachen Schleifenrichtung herausgebogen, ob normalerweise oder
nur durch schiefe Kontraktion, muss dahin gestellt bleiben. Er ist
im allgemeinen nur måssig dick oder eng und mindet durch ein
lang-zweilippiges Afterstick im hinteren Teil des Thorax, im
Bereich der vorletzten, also der 11. Kiemenspalten-Zone aus. Die
das Afterstiick tragende Hinterwand des Atrialraumes liegt ungemein

285

weit hinten, gerade in der Zone des hintersten Kiemensack-Quer-
gefåsses.

Gesechlechtsapparat: Personen zwittrig. Hode dem
Hinterteil der Darmschleife in der kurzen Region zwischen Magen
und Wendepol angelagert, bestehend aus etwa 12 birnfårmigen,
locker und unregelmåssig rosettenformig angeordneten Hodenblasen,
deren lange Sonderausfiihrgånge sich in unregelmåssiger schneller
dichotomischer Aufeinanderfolge im Mittelpunkt der Rosette zu einem
Samenleiter vereinen, der betråchtlich dicker als die Sonder-
ausfuhrgånge der Hodenblasen, jedoch nicht zu einem Samen-
magazin angeschwollen ist. Ovarium verbogen birnfårmig, nach
vorn anscheinend in einen råhrenfårmigen Eileiter auslaufend,
in der Region dicht hinter dem Magen an die Leibeswand an-
geschmiegt, so zwar, dass es zwischen der Hode und der Leibes-
wand liegt, sein dicker hinterer Pol ungefåhr neben dem Mittel-
punkt der Hodenrosette bezw. dem proximalen Ende des Samen-
leiters. Besondere Brutsåcke sind nicht ausgebildet. Bei meh-
reren Personen fand sich eine einzige, anscheinend ausgewachsene,
ziemlich grosse, verhåltnismåssig lange und schmale geschwånzte
Larve dorsal im Vorderende des Abdomens, das hier infolgedessen
etwas aufgeblåht erschien. Knospung nicht beobachtet.

Gen. Eudistoma Caull.

Nach der Absonderung der friheren Untergattung Eudistoma
von der Gattung Polycitor hat ihre Diagnose folgende Fassung zu
erhalten: er

Diagnose: Zellulosemantel ohne Kalkkårper.
Branchial- und Atrialoåffnung regelmåssig 6-lappig.
Kiemensack mit geringer Zahl, 3 oder 4 (selten 5?) Kiemen-
spalten Zonen.
Magenwandung faltenlos.
Geschlechtsapparat zwittrigj Brutsåcke nicht vor-
handen.

Eudistoma circumvallatum (Sluit.).

1900. Distoma circumvallata Sluiter. Tunic. Stillen Ocean, p. 8,
KartekiotarafsEig 6:

1909. Polycitor (Eudistoma) circumvallatum, Hartmeyer, Tunic.; in:
Bronn, Kl. Ordn. Tier-R., p. 1431.

286

Vorkommen im Gebiet: Neuseeland, Sid-Insel, dUrville-
Insel (Sluiter 1900).
In den vorliegenden Sammlungen nicht enthalten.

Gen. Cystodytes Drasche.

Cystodytes draschei Herdm.

? 1877. C. aucklandicus und C. perspicuus Nott, Comp. Asc. N. Shore
reef, p. 323 bezw. p. 326, Taf. XXX.

1886. C. draschii Herdman, Rep. Tunic. Challenger II, p. 137, Taf. XIX.

1902. C. draschii, Van Name, Asc. Bermuda Isl, p. 347.

Fundangabe: Neuseeland, Sid-Insel, Queen Charlotte-
Sund, 3—10 Fd.; 1.—2. Jan. 1915.

Neusgeland, : Nord-Insel, Hauraki-Golf"”HØSsuter
(Mus. Berlin).

Åltere Fundangaben: Brasilien (Herdman 1886); ? Neusee-
land, Nord-Insel, vor Auckland (Nott. 1877).

Erorterung: Die mir vorliegenden Kolonien, die von zwei ziem-
lich weit entfernt voneinander liegenden Fundstellen stammen, ge-
horen zweifellos zu einer und derselben Art, die ich nach Mass-
gabe der scheibenfårmigen Kalkkårper nur mit C. draschii identifi-
zieren kann. Bei der Einférmigkeit in der Organisation der Per-
sonen bleibt uns bei der Gattung Cystodytes kaum ein anderes Or-
gansystem, das zur Sonderung der Formen benutzt werden kånnte.
Dabei ist die systematische Wertigkeit der Kalkkårper-Verschieden-
heit bei Cystodytes ebenso fraglich wie bei den Didemniden. Eine
Aufklårung uber diese Wertigkeit muss aber der Zukunft vorbehalten
bleiben.

Die scheibenfårmigen Kalkkårper der Personen-Schutzhiille er-
reichen bei meinem Material vereinzelt einen Durchmesser von
0,55 mm, die meisten sind jedoch kleiner, viele sehr klein (nach
Herdman "on an average 0,4 mm in diameter"). Sie sind meist
regelmåssig kreisformig, nur die gråssten, deren Durchmesser 0,45
mm uberschreitet, nehmen in der Regel eine etwas ovale Gestalt
an, die jedoch nicht sehr stark von der Kreisform abweicht. Sie
sind in den Mittelpartien verhåltnismåssig wenig verdickt, mehr
oder weniger stark schildfoørmig gebogen, an der der Person zu-
gewendeten Seite konkav oder geschweift konkav. Das Zentrum

287

ist nicht eigentlich knopffårmig verdickt, wie bei manchen anderen
Cystodytes-Formen, dagegen manchmal etwas nach aussen vor-
getrieben. Eine radiåre Struktur ist an den kleinen und mittel-
grossen Kalkscheiben sehr deutlich erkennbar, an den grøsseren
wird sie undeutlich, manchmal ganz unsichtbar. Dieser radiåren
Struktur entspricht bei vielen kleinen und manchmal auch bei
mittelgrossen Kalkscheiben eine sehr feine Zåhnelung des Randes,
die aber meist wie abgeschliffen erscheint; in der Regel sind die
Kalkscheiben, zumal die gråsseren, glattrandig. Sehr charakteristisch
und meist scharf ausgesproghen ist andererseits eine Zirkulårstruktur,
die den Eindruck konzentrischer Wachstumsstreifen macht, vergleich-
bar den Jahresringen am Querschnitt eines Baumstammes. Meist
erscheint besonders eine gleichmåssig breite Randpartie scharf ab-
gesetzt. Bei sehr grossen Scheiben ist auch die Zirkulårstruktur
meist schwerer erkennbar; doch tritt auch bei diesen der Rand-
absatz manchmal deutlich hervor. Die Oberflåche der Kalkscheiben
ist glatt und im allgemeinen ohne Buckeln und grobkårnige Schup-
penaufsåtze, dagegen mit einer ungemein feinen Kørnelung, die ibr
einen eigenartigen Atlasglanz verleiht. Die Schilderung und die
Abbildung von den Kalkscheiben von C. draschei (Herdman, l. c.
ISS ps ONE XD ES FS 0 EM) Tentsprechen im wesentlichen
diesem Befunde; dagegen stimmt die Schilderung Nott's von den
entsprechenden Kalkkårpern bei C. aucklandicus und C. perspicuus
nicht ganz iberein. Bei diesen Formen sollen die Kalkscheiben
digklimnsenformigseint(N' ott, 10771877, Taf. XXX Fig: 9), "eine
grobwarzige Oberflåche haben, am Rande unregelmåssig gekerbt
sein und keine Radiårstruktur aufweisen. Dagegen zeigen sie die
zirkulåre Struktur, wie sie fir die Kalkscheiben des C. draschel
charakteristisch ist. Werin auch eine meiner Kolonien von annåhernd
dem gleichen Fundort wie die Nott'schen Stiicke stammt, so ist es
doch zweifelhaft, ob ich sie der Nott'schen Art zuordnen darf.
Im Aussehen entsprechen meine Stiicke dem Nott'schen Ma-
terial, insofern zwei verschiedene Fårbungsformen vorkommen. Die
meisten Kolonien vom Queen Charlotte-Sund sind hell violettrot,
wåhrend eine Kolonie von dissem Fundort rein weiss ist. Die ein-
zige Kolonie vom Hauraki-Golf bildet gewissermassen eine Zwischen-
stufe, insofern sie fast weiss erscheint, nur stellenweise mit schwach
råtlichem, stellenweise mehr gelblichem Schimmer behaftet. Auf

288

diese Farbunterschiede, die nicht auf dem Vorhandensein oder
Fehlen von Pigmentzellen, sondern auf der verschiedenen Fårbung
der Zellulosemantel-Masse beruhen, ist sicher kein besonderer sy-
stematischer Wert zu legen. Sie finden sich in gleicher Weise bei
anderen Arten (C. dellechiajei f. typica und f. cretacea).

Bei dem farblosen, weissen Exemplar von Queen Charlotte-Sund
fand ich im Zellulosemantel die gleichen verzweigten krystallinischen
Kårper, die Nott von seinem C. perspicuus schildert und wie sie
auch bei anderen Arten angetroffen wurden (so z. B. bei C. tetra-
scelifer Mich.) Bei den ibrigen Kolonien vom Queen Charlotte-
Sund und vom Hauraki-Golf konnte ich derartige Kårper nicht deut-
lich erkennen, håchstens gewisse Spuren, die wie zerfallene oder
halb aufgelåste Kårper aussahen. Ich glaube, dass dem Auftreten
dieser Kårper eine systematische Wertigkeit nicht zukommt. Es
sind wohl immer zeitweilig auftretende Kårper, etwa Reservesub-
stanzen aufspeichernd (?), wenn es sich nicht gar um postmortale,
mit der Konservierung zusammenhångende Gebilde handelt.

Gen. Sycozoa Less., emend.

Diagnose: Kolonie mit långerem, hartem Uberwinterungsstiel.

Branchialéffnung 6-lappig; Atrialbffnung mit Atrial-
zunge.

Kiemensack mit 4 Kiemenspalten-Zonen; parastigmatische
Quergefåsse fehlen.

Magenwand glatt; darmumspinnende Drise ohne
Sammelblase.

Geschlechtsverhåltnisse: Kolonien getrennt geschlecht-
lich; Brutsack vorhanden, mehrere Embryonen enthaltend.

Eine Begrindung dieser geånderten Diagnose siehe unten, im
Abschnitt: ,,Gen. Sycozoa und Distaplia."

Sycozoa sigillinoides Lesson.

1830, Sycozoa sigillinoides Lesson, Voy. Coquille, Zool., p. 436, Taf.
Mol SKUE ge IS ES D

1834, Aplidium pedunculatum Quoy & Gaimard, Voy. Astrolabe, Zool.
III, p. 626, Taf. Moll. XCII Fig. 18, 19.

1871, — — Cunningham, Notes, Voy. Nassau, p. 490.

1886, Colella pedunculata, Herdman, Rep. Tunic. Challenger II, p. 74,
Taf. V—IX.

289

1889, Colella pedunculata, Pfeffer, Z. Fauna Siid-Georgien, p. 4.

ISG = Caullery, Rech.Synascid. Colella Distomid.
19005 —(part.?)Sluiter, Tunic. Stillen Ocean, p,5 (? non
Tafsl Fis: 1).

1906, = = Sluiter, Tunic.; in: Exp. åntarct. frang., p. 6,
Taf. IV Fig. 46.

1907, Colella sigillinoides + C. umbellata f. kophameli, Michaelsen,
Tunic., in: Erg. Hamburg. Magalh. Sammel-
reise;p43; Taf. II Fig. 14; p: 59) Taf, I Fig. 879.

1908, Colella pedunculata (part. ?) + C. p. robustipes + C. perrieri +
C. umbellata, Caullery, Rech. Synascid.
Colella Distomid., p. 30, Textfig. 11, p. 32,
Kersti HD pi SSR este 12 RDNS SKEEXE
fig. 13.

1909, Sycozoa pedunculata (? — sigillinoides Less.) + S. pedunculata
f. robustipes + S. perrieri + S. sigillinoides
+ S.umbellata var. kophameli, Hartmeyer,
Tunic.; in: Bronn, Kl. Ordn. Tier-R., p. 1439.

1911, Sycozoa sigillinoides, Hartmeyer, Ascid. Deutsch. Siidpol.-
Exp., p- 534, Textfig. 4—11.

1912, = — (part.?)Hartmeyer, Ascid. Deutsch. Tiefsee-
Expø ps SIS:
1915, == — Hartmeyer, AÅscid. nom, conserv., p. 256.

Fundangabe: Neuseeland ohne nåhere Angabe; Gray (Mus.
Berlin).
Weiterer Fundort im Gebiet: Chatham-Inseln (Sluiter 1907).

Neue Fundangaben: Tasmanien, Hobart; Arthur M. Lea
(Mus. Hamburg): 4 weibliche Kormidien, deren Stiele dichotømisch
zusammenhången, in verschieden weiter geschlechtlicher Ausbildung,
z. T. mit Brutsåcken.

Bass-Strasse; Mus. Godeffroy (Mus. Hamburg): 1 einfache
weibliche Kolonie mit Brutsåcken.

Vietoria. Port Western, 5—10 Fd.; Th. Mortensen
(Pacific-Expedition, Mus. Kopenhagen): 1 einfache weibliche Kolonie
mit Brutsåcken.

Westaustraliéen, Albany, Princess Royal Harbour,
51/89 m, und Oyster. Harbour, -”/6—5"/s m, Hartmeyer
und Michaelsen, 21. Aug. 1905 (Mus. Berlin u. Hamburg): 2
einfache månnliche Kolonien und eine einfache weibliche Kolonie
mit unausgewachsenen Personen ohne Brutsåcke, mit kleinen Ova-
rien. — Fremantle-Bezirk, Port Royal im Cockburn Sound,

Vidensk. Medd. fra Dansk naturhist. Foren. Bd. 77. 19

290

14//9—18 m; Michaelsen, 30. Sept. 1905 (Mus. Hamburg): 1 Ko-
lonie mit. grossen ungeschlechtlichen Personen, mit stummelfårmigem
Auswuchs mitten am Stiel (abgerissenes Nebenkormidium?) und eine
einfache weibliche Kolonie mit kleinen, sehr jungen, unausgewach-
senen Personen. — Garden Island, Mus. Perth (Mus. Hamburg):
1 weibliche Kolonie mit vielen verschieden weit entwickelten Kor-
midien (typische Gestalt der f. kophameli).

Pacifischer Ozean vor Peru 20%VYS/788AW5F Ringe
(Mus. Hamburg).

Weitere Verbreitung: Victoria, Port Western, und West-
australien, Port du Roi Georges (OuoyetiGaimand)
— Kerguelen and Heard-Insel (Herdman 1886). — Siid-
polar-Meer, Kaiser Wilhelm II-Land (Hartmeyer 1912).
Port Charkow bei Grahamslandk(S unter)
Sid-Georgien" (Pfeffer 1889 und MiehaelsenlooN SEE
Falkland-Inseln und zwischen Falkland-Inseln und der
Magalhaens-Strasse (Herdman 1886). — S. von Staaten-
Insel, 53Y S. (planktonisch gefundener losgerissener Kopf, Les-
son 1830). — Siid-Feuerland, Magalhaens-Strasse (Mi-
chaelsen 1907 und Caullery 1908). — Sid-Atlantischer
Ozean O. von Siid-Patagonien, 43 S. 60" W. (Michaelsen
1907), zwischen Magalhaens-Strasse und dem La Plata
(planktonisch gefundene losgerissene Kåpfe, Cunningham 1871).
— Tropischer Atlantischer Ozean vor Rio Grande
del Norte, 5” S. 54? W. (planktonisch gefundener losgerissener
Kopf, Michaelsen 1807).

Erorterung: In der obigen Liste habe ich die Synonymie von
Sycozoa sigillinoides Less., wie sie sich aus meinen neueren Unter-
suchungen ergibt, zusammengestellt.

Was zZunåchst die Gattungsbezeichnung anbetrifft, so habe ich
mich nach reiflicher Ueberlegung Hartmeyer angeschlossen, der
den damals allerdings gebråuchlichen Namen Colella Herdm. durch
den ålteren Sycozoa Less. ersetzte (1. c. 1909, p. 1437), gegen
meine von Caullery (1. c. 1907, p. 41) unterstitzte frihere An-
schauung (l. c. 1907, p. 42), nach der ein solcher Ersatz lediglich
aus Prioritåtsgriinden besser vermieden wiirde. Hartmeyer be-
grundet sein Vorgehen (Il. c. 1915, p. 256) mit dem Hinweis)
dass der Name Sycozoa ganz eindeutig ist, der Typus von Co-
lella dagegen nicht ausschliesslich von echten Colella-Arten gebildet

291

wird, und der Name auch sonst mehrfach in falschen Sinne gebraucht
worden ist. Wie ich die Sache jetzt ansehe, wåre die Bezeichnung
Colella fir die spåter darunter verstandenen Formen geradezu falsch.
Herdman sagt (1. c. 1886, p. 73) im unmittelbaren Anschluss an
die Diagnose der neuen Gattung Colella: "This genus is formed
for a very striking and remarkable new species, Colella thomsoni,
obtained near the Philippine Islands and some allied species from
other parts of the world, but, as will be shown below, a species
(Colella pedunculata) described fifty years ago by Quoy and Gai-
mard under the name of Aplidium pedunculatum also finds its place
here.” Demnach ist also C. thomsoni der ausgesprochene Typus
der Gattung Colella. Diese Art gehårt aber zur ålteren Gattung
Oxycorynia v. Drasche (1882)") bezw. Nephtheis Gould (1852)”).
Die Gattung Colella war also im statu nascendi ein reines Synonym
von Oxycorynia bezw. Nephtheis und wurde erst durch Einfigung
generisch vom Typus zu scheidender Arten zu der Mischgattung,
deren endgiiltige Låschung nur willkommen geheissen werden kann.

Bei der Synonymie-Feststellung des hier zu erårternden Typus
der Gattung Sycozoa ist vor allem bedeutsam der Nachweis, dass
das australische Aplidium pedunculatum Quoy & Gaim. mit der
subantarktisch-amerikanischen Sycozoa sigillinoides Less. identisch
IssEEDiesetldentitit "von Herdman (L"c1886;-p- 74) lediglich
nach der åusseren Tracht der australischen Form angenommen,
musste von mir (1. c. 1907, p. 43) in Frage gestellt werden und
wurde spåter von Caullery (1. c. 1908, p. 31), der die Typen
von Aplidium pedunculatum nachuntersuchen konnte, angezweifelt.
Caullery wies darauf hin, dass die nach ihm fir Sycozoa sigilli-
noides mutmasslich charakteristischen Kappen weisslichen, in den
gebråuchlichen Konservierungsfliissigkeiten unlåslichen Pigments
iiber dem Gehirn und dem Vorderende des Endostyls bei den au-
stralischen Typen von Aplidium pedunculatum fehlen. Ich meiner-
seits kann dieser Bildung eine wesentliche Bedeutung nicht bei-
messen, ebenso wenig wie der allgemeinen Fårbung der Kolonien.
Diese Fårbungen und Pigmentierungszeichnungen pflegen, wie bei
den Boftryllus-Arten und anderen Ascidien nachgewiesen werden
konnte, ungemein variabel zu sein. Wenigstens jene Pigmentkappen,

1) R. v. Drasche, 1882, Oxycorynia, e. n. Ascid.-Gattung, p. 177.
2) A. Gould, 1856, Moll. a. Shells; in: U. S. Expl. Exp. Wilkes, Atlas p. 16.
19€

292

wie sie Sycozoa sigillinoides vielfach aufweist, sind offenbar Schutz-
einrichtungen gegen zu starke Bestrahlung und als solche abhångig
vom Standort bezw. von der Wassertiefe, und mågen auch jahres-
zeitlichen Verånderungen unterworfen sein. Dass sie bei allen
ausgewachsenen Personen einer Kolonie in gleicher Weise aus-
gebildet erscheinen, will nichts besagen, unterliegen doch all diese
Personen den gleichen årtlichen und jahreszeitlichen Verhåltnissen.
Diese Anschauung wird bestårkt durch die Untersuchung einer zwei-
fellos der S. sigillinoides zuzuordnenden Kolonie von Neuseeland, die,
im Gegensatz zu den fraglichen australischen Typen, die weissen
Pigmentkappen iiber den anscheinend lichtempfindlichen Organen
des Thorax-Vorderendes in sehr starker Ausbildung aufweist. Auch
einige lokaltypische Kolonien von Siidwestaustralien zeigen Pigment-
flecke am. Vorderende der Personen; allerdings ist bei diesen eine
Sonderung in je 2 Pigmentflecke iber dem Gehirn und dem Vorder-
ende des Endostyls nicht so deutlich ausgeprågt. Was die Bestim-
mung der neuseelåndischen Kolonie als S. sigillinoides meiner An-
sicht nach durchaus sichert, wird durch einen anderen Charakter
dargeboten, nåmlich durch den der Brutsåcke. Diese Brutsåcke,
deren Gestaltung von Caullery auffallenderweise gar nicht beriick-
sichtigt wurde, zeigen meiner Ansicht nach fir die Art sehr cha-
rakteristische Merkmale. Bei S$. sigillinoides sind sie nach Herd-
man — und ich kann dies nach Untersuchung vieler weiblicher
Kolonien von verschiedenen Fundorten im magalhaensischen Gebiet
beståtigen — anfangs sehr breit, um sich gegen das stark eingebogene
bis fast spiralig eingerollte blinde Ende zu verschmålern, und die
Larven bezw. Embryonen sind in ihnen stets in einer einfachen
Reihe angeordnet, selbst die jungeren und entsprechend kleineren
im Blind-Ende sind einreihig gelagert, was auch dem hier engeren
Raum des Brutsackes entspricht. Bei keiner anderen Art, deren
Brutsåcke zur Beobachtung gelangten, ist ein solcher Charakter
gefunden worden, und diesen Charakter weist die neuseelåndische
Kolonie auf. Die Zahl der Larven im Brutsack ist zwar bei dieser
neuseelåndischen Kolonie durchschnittlich viel geringer als bei den
untersuchten magalhaensischen. Dies beruht aber offenbar auf einem
besonderen Lebensstadium. Die Larven, vielfach nur zwei oder gar
nur eine im Brutsack, fillten dies Organ bei weitem nicht ganz aus.
Meist erschien die grøssere Strecke am diinneren Blind-Ende ganz

293

leer. Offenbar waren die meisten friiher zur Entwicklung gekom-
menen Larven bereits ausgeschliipft, ohne dass ein Nachschub von
jungeren Eiern die dadurch geschaffenen Liicken ausfiillte. Da wir
diese neuseelåndische Kolonie der S. sigillinoides angliedern miissen,
so spricht nichts mehr gegen die gleiche Zuordnung auch der Stiicke
vom nahen australischen Gebiet sowie der Sluiter'schen von den
Chatham-Inseln.

Die weite geographische Verbreitung, der betråchtliche Zwischen-
raum zwischen den neuseelåndisch-australischen Vorkommnissen
und den magalhaensischen bezw. denen von den Kerguelen, spricht
nicht gegen die artliche Zusammengehårigkeit der verschiedenen
Materialien. Die sidlich circumpolare Meeresstråmung, die West-
windtrift, hat auch vielen anderen Tieren des Litorals zu einer
circumpolaren Verbreitung verholfen. Was die Sluiter'schen
Stiicke seiner Colella pedunculata von den Chatham-Inseln anbertrifft,
so erweckt mir das abgebildete dick- und kurz-stielige Exemplar
(1 c. 1906, Taf. I Fig. 1) gewisse Zweifel. Die besondere åussere
Tracht dieses Stiickes — der kurze dicke Stiel macht zumal in der
oberen Hålfte durch eine gewisse, bei S. sigillinoides sonst nicht
gefundene Tranzparenz den Eindruck einer weichlichen Konsistenz
— erinnert mich weniger an Sycozoa sigillinoides als an Distaplia
fasmeriana n. sp. (siehe unten!), wenngleich das Originalmaterial
dieser Art, vielleicht aber nur infolge anderer Konservierung, viel
dunkler aussieht. Hier kann wohl nur eine Nachuntersuchung des
Sluiter'schen Stickes Klarheit schaffen. Wåhrend die von Hart-
meyer nur fraglicherweise zu S. sigillinoides gestellten Kolonien
vom antarktischen Kaiser Wilhelm II-Land (l. c. 1911, p. 489, Taf.
NEVER Taf LI Fig 1-- Sund Texthig 1 12) meiner”Ansicht
nach zweifellos zu dieser Art gehåren — der charakteristisch ge-
staltete Brutsack mit der einzeiligen Embryonenreihe ist uber-
zeugend —, ist mir die Zugehårigkeit gewisser kurzstieliger Ko-
lonien Hartmeyer's von den Kerguelen (l. c. 1912, p. 315) sehr
zweifelhaft.. Hat man es hier vielleicht mit Exemplaren der S.
quoyi Herdm. (1. c. 1886, p. 113, Taf. XIV und W. Michaelsen,
1907, p. 47) zu tun? Diese Art, deren Brutsåcke noch unbekannt
sind, und deren Berechtigung Hartmeyer anzweifelt, bedarf
dringend einer Nachuntersuchung an besserem, zumal auch an
weiblichem Material. Einer Erårterung bedarf auch noch das von

294

Caullery (1. c. 1908, p. 30) zu Colella pedunculata gestellte Ma-
terial. Caullery giebt an, dass er ausser vielen Kolonien mit
einfachem Stiel auch solche mit gegabeltem oder dreifach geteiltem
Stiel beobachtet habe. Ich meinerseits habe bisher als feststehend
angenommen, dass Sycozoa sigillinoides nur einfache Kolonien mit
einem einzigen Kopf auf ungeteiltem Stiel hervorbringe, und dass
zusammengesetzte Kolonien anderen Arten wie S. umbellata Mich.
samt. "kophameli (IC: 1907"p. '55;755) Funds Fra mulosaREre nd
(L. c. 1886, p. 120) angehårten. Meine neueren Untersuchungen
fihren mich dahin, diese åltere Anschauung aufzugeben. Es liegen
mir nåmlich von Siidwestaustralien (Garden Island) und von Tas-
manien (Hobart) zusammengesetzte Sycozoa-Kolonien vor, die ich
zu S. sigillinoides stellen muss. Die tasmanische Kolonie besteht
aus 4 weiblichen Kormidien, einem Hauptkormidium, aus dessen Stiel
in ziemlich gleichmåssigen Abstånden 3 Nebenkormidien von an-
nåhernd gleicher Gråsse und mit fast gleich grossen Stielen her-
vorgehen. Im Hauptkopf haben sich in der apikalen Region bereits
Brutsåcke ausgebildet, die durchaus denen der S$. sigillinoides ent-
sprechen. Die gråssten zur Beobachtung gelangten Brutsåcke ent-
halten in einfacher Reihe 6 Embryonen bezw. geschwånzte Larven.
Andere Brutsåcke sind kleiner und enthalten weniger Larven, viel-
fach nur 2, manchmal sogar nur eine einzige. Niemals ist aber
die Regel, dass die Embryonen einzeilig liegen, gestårt. Ganz die
gleichen Brutsackverhåltnisse (Håchstzahl 6 Embryonen in einem
Brutsack) fand ich bei einer weiblichen Kolonie von Garden Island
(Stidwestaustralien), die ebenfalls zusammengesetzt ist, aber doch
einen ganz anderen Anblick gewåhrt als jene von Tasmanien. Sie
zeigt durchaus den Charakter der S. umbellata f. kophameli Mich.
(1. c. 1907, p. 35). Aus einem dicken, geknickten, wie zerknitterten,
offenbar vorjåhrigen Stiel sprossen an verschiedenen Stellen ver-
schieden grosse Kormidien,. die gråsseren z. T. selbst schon wieder
mit Knickungsstellen. Am plumpen, augenscheinlich abgebrochenen
und wieder verheilten apikalen Ende des vorjåhrigen Stieles sprossen
dicht neben einander zwei ganz. kleine Kormidien, die zusammen
einer Dolde der f. kophameli entsprechen diirften. Wenn mich dieser
Fund veranlasst, S. umbellata f. kophameli der S. sigillinoides ein-
zuverleiben, so erscheint es mir doch fraglich, ob auch die typische
Form der S. umbellata, die eine ganz andere, mehr cylindrische

295

Kopfform aufweist, mit dieser Art zu verschmelzen sei. Eine Ent-
scheidung hiertiber kann erst nach Aufklårung iiber die Verhålt-
nisse des Brutsackes bei S. umbellata f. typica getroffen werden.
Fraglich ist ferner, ob såmtliche zusammengesetzte Kolonien, die
Caullery vorgelegen haben, tatsåchlich der S. sigillinoides an-
gehåren; vielleicht mågen auch Exemplare der durch die Gestalt
des Brutsackes ausgezeichneten S. ramulosa dazwischen gewesen
sein. Leider hat Caullery der Gestaltung dieses Organs gar
keine Beachtung geschenkt.

Zur Organisation der S. sigillinoides mag nach neueren Unter-
suchungen noch mitgeteilt werden, dass die darmumspinnende
Drise einer Blase vollståndig entbehrt, insofern ihr (das Darmlumen
uberspannender) Ausfihrgang in ganzer Långe einfach diinn-schlauch-
formig ist, und dass die von mir an jungen Personen gefundene
Zentralblase der Hode, der Basalteil des Samenleiters, bei aus-
gewachsenen Personen mit entsprechend gråsserer Hode nicht mehr
ausgeprågt ist und håchstens als schwache Erweiterung des basalen
Samenleiter-Endes in die Erscheinung tritt.

Geographische Verbreitung: Die geographische Verbreitung der
S. sigillinoides ist, wie sie sich uns jetzt darstellt, insofern beson-
ders interessant, als sie nicht auf den circumpolaren eigentlichen
Bereich der Westwindtrift beschrånkt ist, sondern an verschiedenen
Stellen recht weit auch den sich von dieser Meeresstromung nord-
wårts abzweigenden Stråmen folgt, westlich von Sidamerika dem kal-
ten Perustrom bis zum 20? S. B., åstlich von Siidamerika dem kalten
Falklandstrom bis zum Bereich des La Plata; abgerissene plank-
tonische Kopfe, die allerdings fir die feste Gebietsbestimmung nicht
massgebend sind, fanden sich sogar noch weiter getrieben, geradezu
im tropischen Warmwassergebiet, auf dem 5? S. Br. vor Brasilien.

Biologisches: Fir die Ausbreitung der Art ist das håufige, viel-
leicht søgar ordnungsmåssige, auf Selbstamputation beruhende Los-
låsen der Kåpfe und ihre planktonische Wanderung mutmasslich von
grosser Bedeutung. Wåhrend die von Knospen und Nåhrmaterialien
beladenen Uberwinterungsstiele fiir das Fortdauern der Art in dem
einmal eingenommenen Gebiet sorgen, verursachen die fortgetrie-
benen Kåpfe weiblicher Kolonien, die noch lange nach dem Absterben
der Mutterpersonen iiberdauernde Brutsåcke mit Larven enthalten,
eine Ausbreitung des Gebietes durch Besiedelung neuer Distrikte.

296

Diese Art der Ausbreitung ist ibrigens nicht auf die Gattung
Sycozoa beschrånkt; zweifellos spielt sie auch in der Biologie von
Distaplia cylindrica (Less.) eine bedeutsame Rolle. Auch von dieser
Art wurden håufig losgerissene Kolonie-Teile planktonisch angetroffen.
Vielfach waren es Stiicke, deren Personenkårper schon ganz ge-
schwunden, und die noch zahlreiche Brutsåcke mit Larven ent-
hielten. Auch bei dieser Art miissen wir die Losreissung von Kopfen
oder von Teilen derselben nicht als einen Verlust fir die Art an-
sehen, sondern fir einen Vorteil, der im Charakter der Kolonie
vorbereitet sein mag. Unter d.esem Gesichtspunkte betrachtet, be-
darf auch die zwischen Sluiter und Hartmeyer schwebende
Streitfrage nach der Långe der sehr zarten, lang cylindrischen Ko-
loniekåpfe einer besonderen Beurteilung. Sluiter gab an, dass
Charcow planktonische Bruchstiicke ”) dieser Art von 43 m Långe
gemessen, habe. Hartmeyer (ct ONSEDRAT 6) Ebbe WwellelfeR die
Richtigkeit dieser Charcow'schen Beobachtung und sprach die
Vermutung aus, dass hier eine Verwechslung mit den langen, håufig
losgerissenen und planktonisch angetroffenen Tentakeln von Medusen
der Gattung Desmonema vorlåge. Nach seiner Ansicht kånnten
sich derartig lamge zarte Kolonien nicht flottierend im Wasser halten.
Ihr eigenes Gewicht miisse sie herunterdriicken, wie auch ein von
Herdman (1. c: 1886, p: 252) tuntersuchtes mitt Sandibesetzies
Stick, das offenbar dem Seegrunde aufgelegen hat, beweise. In
einer spåteren Arbeit widerspricht Sluiter”) dieser Auffassung.
Er selbst habe ein an beiden Enden abgerissenes Bruchstiick vor
sich, das im lebenden Zustande 5,60 m gemessen habe, und mut-
masslich im ganzen noch viel långer gewesen sei, und dass in den
Tiefen von 300 m und mehr, aus denen einzelne Stiicke stammen,
die Bewegung des Wassers durch Stiirme gleich null sei. !ch mei-
nerseits schliesse mich der Sluiter'schen Auffassung an. Es ist
nicht einzusehen, warum in dem håchstens durch eine ganz lang-
same und zumal ganz gleichmåssige Stromung bewegten Wasser
dieser grøsseren Tiefen selbst die zartesten und ungemein lang
gestreckten Organismen sich nicht flottierend halten kånnen. Das
Beispiel des von Herdman erwåhnten sandigen, schon ganz zer-

1) C. Ph. Sluiter, 1906, Tunic., in: Exp. antarct. frang. p. 29.
2) C. Ph. Sluiter, 1912, Tunic., in: Deux. Exp. anarct. frang. p. 29.

297

fallenen Stiickes ist durchaus nicht beweisend. Dagegen spricht
der Umstand, dass so håufig gut erhaltene planktonische Bruch-
stiicke gefunden werden, dass also das spezifische Gewicht, wenig-
stens bei den noch frischen Ståcken, nicht håher als das des See-
wassers ist. Schon dieses geringere spezifische Gewicht muss Ståcke
von unbeschrånkter Långe flottierend halten. Ubrigens lag nach
meiner Ansicht eine Einrichtung zur Festigung der Kolonie gar
nicht in dem Organisationsplan, wie er in der Biologie der Art zum
Ausdruck kommt. Håchstens kånnte man in Frage stellen, ob nicht
die Aussicht auf Besiedelung eines noch jungfråulichen Gebietes
durch fortgetriebene Bruchstiicke um so gråsser sei, je gråsser die
angetriebenen Bruchsticke sind.

Weitere Erérterungen iber Sycozoa sigillinoides und andere
Sycozoa-Arten siehe unten, hinter Distaplia fasmeriana, im Abschnitt
»Gen. Sycozoa und Distaplia.”"

Gen. Distaplia D. V., emend.

Diagnose: Kolonie ungestielt oder mit kurzem, weichem Stiel.
Branchial&ffnung 6-lappig; Atrialådffnung mit Atrial-
zunge.

Kiemensack mit 4 Kiemenspalten-Zonen; parastigmatische
Quergefåsse vorhanden oder fehlend.

Magenwand gefurcht oder glatt; darmumspinnende
Drise mit Sammelblase.

Geschlechtsverhåltnisse: Personen zwittrig oder Kolo-
nien getrennt geschlechtlich; ein enggestielter Brutsack vorhanden,
1 Embryo oder deren mehrere enthaltend.

Eine Begriindung dieser geånderten Diagnose siehe unten, im
Abschnitt: ,,Gen. Sycozoa und Distaplia.”

Distaplia fasmeriana n. sp.")

Fundangaben: Vor Stewart-Insel, ca. 35 Fd., Sandgrund;
20. Nov. 1914. Stewart-Insel, Paterson Inlet, 5—15 Fd.,
weicher Grund; 17. Nov. 1914.

Beschreibung. Koloniegestalt und Bodenståndigkeit
(Fig. 7): Die Kolonien sind einfach oder zusammengesetzt. Die
einfachen Kolonien und die Kormidien zusammengesetzter Kolonien

1) Nach dem alten Familiennamen des Sammlers: Fasmer.

298

sind lang gestreckt und deutlich gestielt. Der Stiel ist schlank-
oder plump-walzenformig, etwas kirzer oder långer als der so-
genannte Kopf der Kolonie (an dem die Personen ausmiinden) und
etwa ”/2—?/3 so dick. Der Stiel scheint durch dick-plattenfårmige
oder kurz- und undeutlich-åstige Verbreiterungen im Sande verankert
gewesen zu sein, wenigstens zeichnen diese nur an 2 Kolonien
beobachteten basalen Endbildungen des Stieles sich durch eine
dichte Inkrustierung mit grobem Sand aus. Der Kopf ist stets
ziemlich scharf vom Stiel abgesetzt, dicker als dieser, viel långer
als dick, walzenfårmig, långlich
ellipsoidisch oder birnfårmig,
drehrund oder seitlich abge-
AN plattet, apikal gerundet. Das
75%) vorliegende Material. besteht
' aus einer zusammengesetzten
Kolonie, 2 sicher einfachen
und 4 anscheinend einfachen
Kolonien; die letzteren mågen
såmtlich oder zum teil nur
abgerissene Kormidien von
zusammengesetzten Kolonien
sein. Die zusammengesetze
zeigt zwei verschiedene Sta-
dien der Koloniespaltung: Der.
gemeinsame dicke Basalstiel
gabelt sich sehr bald in zwei verschieden dicke Åste. Der diinnere
Ast stellt ein einfaches Kormidium mit walzenfårmigem Kopf dar,
wåhrend der dickere Ast den Beginn einer weiteren Teilung auf-
weist. Der Stielteil dieses dickeren Astes zeigt einseitig eine Långs-
furche, die sich auf den Kopfteil fortsetzt. Dieser Kopfteil ist stark
verbreitert (im ganzen etwas breiter als lang) und åpikal durch
einen tiefen, breiten Einschnitt zweigeteilt. Die vom Stiel herkom-
mende Långsfurche geht iiber den Innenwinkel dieses apikalen Ein-
schnittes noch etwas auf die andere, im iibrigen ungeteilte Breit-
seite des Kopfes iber. Das Ganze macht den Eindruck einer in
ganzer Långe von einem Meridian ausgehenden nicht durchgefiihrten
Teilung.

Fig. 7. Distaplia fasmeriana, nm. sp.,
ganze Kolonie; X 1/3.

Gråssenverhåltnisse der Kolonie: Eine der grossen,

299

einfachen Kolonien (bezw. ein Kormidium) ist 50 mm lang, der
Stiel etwa 7—9 mm dick, der walzenfårmige Kopf ca. 11 mm dick.

Aussehen und Beschaffenheit der Kolonie: Die Ko-
lonie ist dunkel bråunlich grau, mit etwas helleren Personen-Aussen-
flåichen am Kopfteil, sehr schwach wåchsern durchscheinend, im gan-
zen fleischig weich, besonders weich der Kopfteil, der Stiel im all-
gemeinen aber nur wenig fester, nur am Basalteil durch die Inkru-
stierung mit Sand erhårtet.

Oberflåche der Kolonie im gråberen uneben, im feineren
glatt, schliipfrig, am Stielteil vielfach (nicht iberall) mit unregel-
måssigen feinen Querfurchen, die fast als Ringelfurchen bezeichnet
werden kånnten. Abgesehen von der Inkrustation der Stielbasis
ist die Oberflåche der Kolonie im allgemeinen ganz rein; nur haben
sich bei einigen Kolonien kalkig-weisse krustenfårmige bezw. breit
polsterformige Didemniden-Kolonien an den Stiel angesetzt, und
zwar in der Regel an den oberen Teil desselben, dicht unterhaib
des Kopfes. Drei Distaplia-Kolonien trugen eine solche Didemniden-
Kolonie, eine Distaplia-Kolonie deren drei.

Anordnung der Personen in Systemen sehr charak-
teristisch, Sycozoa-artig, wenn gleich nicht iberall ganz regelmåssig.
Im allgemeinen liegen die Personen-Aussenflåchen in gleichmåssig
dichten Långsreihen, deren je zwei zusammen gehåren und ein
gesondertes System darstellen. Die Entfernung zwischen zwei
solchen, zusammen ein System bildenden Långsreihen ist in der
Regel deutlich gråsser, wenn auch nur wenig gråsser, als die Ent-
fernung zwischen zwei neben einander verlaufenden Långsreihen
zweier benachbarter Systeme. An einigen wenigen Systemen er-
kannte ich deutlich, dass die beiden Långsreihen eines Systemes
sich apikal unter geringer Erweiterung des Zwischenraumes bogen-
formig zusammenschliessen, auf diese Weise hier eine fast kreis-
formige Ose bildend. Im Mittelpunkt dieser Ose liegt eine Klo-
akenåffnung, ein ovales oder unregelmåssiges Loch, dessen
Rand in eine Anzahl unregelmåssige, verschieden breite und lange,
zum Teil durch Kerbschnitte am apikalen Rande in drei (?) Låpp-
chen geteilte Lappen zerschlitzt ist. Der gråsste Durchmesser einer
måssig stark zusammengezogenen Kloakenåffnung betrågt ungefåhr
5/8 mm. Die Anordnung der Personen und der Verlauf der Sy-
steme zeigt viele Unregelmåssigkeiten. Vielfach sind die Systeme

300

verkiirzt und verlaufen nicht bis an das apikale Ende der Kolonie.
Die Kloakenåffnungen, eine måssig grosse Zahl an einer Kolonie
bezw. an einem Kormidium, liegen zwar meist nahe dem apikalen
Pol der Kolonie, zum Teil aber auch seitlich in weiterer Entfernung
von diesem Pol. Zum Teil verlaufen die Systeme auch in schråger
Richtung oder in geknickter und gebogener Linie. Stellenweise
erscheint auch die Anordnung der Personen-Aussenflåchen, zumal
am apikalen Ende des Kormidiums, ganz unregelmåssig. Meist ist
die Anordnung an einer Seite des Kormidiums deutlicher und regel-
måssiger als an der anderen Seite. Bei einzelnen Kolonien ist eine
Doppelreihen-Anordnung iberhaupt kaum zu erkennen. Die Per-
sonen-Aussenflåchen stellen sich als verwaschene hellere
Kreisflecke mit dunklerem Mittelpunkt dar. Dieser dunklere Mittel-
punkt enthålt die mehr oder minder regelmåssig 6-strahlige Bran-
chialoffnung.

Zellulosemantel sehr weich knorpelig, fast gallertig, mit
festerer, zåher, feiner Oberhaut. Der Zellulosemantel wird der
Hauptsache nach von dicht gedrångt stehenden, sich gegenseitig
mehr oder weniger stark abplattenden Blasenzellen von durch-
schnittlich etwa 30 u Dicke gebildet. Zarte Sternehenzellen
und mehr oder weniger regelmåssig kugelige, hell olivgelbe, fast
wie Oltropfen aussehende Pigmentzellen von etwa 8—9 uw Dicke
finden sich besonders zahlreich in der Oberhaut.

Lage der Personen: Die måssig dichtfangeordneteniEer=
sonen ragen von den an der Oberflåche des Koloniekopfes liegen-
den Aussenflåchen ziemlich regelmåssig schråg nach innen und
hinten in die Zellulosemantel-Masse der Kolonie hinein, und zwar
nicht nur in den Kopfteil der Kolonie, sondern mit ihren Gefåss-
anhången auch in den Stielteil bis in dessen Basalpartie. Die zu
unterst im Kopfteil sitzenden Personen ragen auch mit ihrem eigent-
lichen Kårper mehr oder weniger weit in den Stielteil hinein. Der
Stielteil der Kolonie macht durch die enge, parallele Aneinander-
lagerung der Gefåssanhånge den Eindruck eines mit dichten, pa-
rallelverlaufenden Gefåssbiindeln versehenen Pflanzenstieles und
zerreisst auch am leichtesten in der Långsrichtung.

Die Personen (Fig. 8) ausschliesslich des Gefåssanhanges sind
im ausgewachsenen Zustand bei anscheinend ziemlich starker Kon-
traktion, hauptsåchlich des Thorax, ungefåhr 1/4 bis 2/4 mm lang,

301

wovon ungefåhr je die Hålfte auf den Thorax und auf das Abdomen
samt Taille entfållt. Einschliesslich des Gefåssanhanges, der in
keinem Falle unverletzt beobachtet und gemessen werden konnte,
kommt die Långe mancher am Apikalpol des Kormidiums sitzender
Personen fast der Långe des Kormidiums gleich, wåhrend die weiter
unten sitzenden Personen mindestens fast so lang wie der Stiel der
Kolonie sind.

Der Thorax ist seitlich etwas abgeplattet, in ziemlich stark
kontrahiertem Zustand ungefåhr so lang wie hoch oder etwas långer
als breit (im ausgestreckten Zustande
nicht beobachtet, mutmasslich viel långer
als hoch), vorn und hinten wenig ver-
schmålert, ziemlich grade abgestutzt. Die
Taille, dorsal aus der Hinterseite des
Thorax hervorgehend, ist ziemlich schlank,
beidenendes scharf abgesetzt, ungefåhr
1/8 so lang und so dick wie das eigent-
liche Abdomen. Das Abdomen ist
seitlich abgeplattet beutelfårmig, etwas
linger als hoch und etwa doppelt so
hoch wie breit. Aus der Mitte des Hinter-
endes geht aus dem Abdomen ein un-
gemein langer, dinner, ziemlich scharf
abgesetzter Gefåssanhang hervor, eine
durch Långsscheidewand geteilte diunn-
wandige Doppelråhre. Der Gefåssanhang, Fig: 8. Distaplia fasmerorum

n.sp., ganze Person samt Brut-
dessen Långe ein Mehrfaches der Kårper- sack; Gefåssanhang abgeris-
långe betrågt, verlåuft bei ausgewachsenen SENGE GS
Personen anscheinend bis in die Basalregion des Stieles. Ich habe
keinen solchen Gefåssanhang in ganzer Långe frei pråparieren
kønnen. Bei jungeren, unausgewachsenen Personen ist der Gefåss-
anhang kiirzer, bei einer Person mit 0,64 mm langem Kårper ca.
6 mm lang; das långste zur Beobachtung gelangte Bruchstuck mass
ca. 12 mm. Am blinden Ende zeigt ein Gefåssanhang nach geringer
Verdiinnung eine schwache birnfårmige Anschwellung mit dickerer,
stårker gefårbter Wandung (und einfachem Lumen?). Eine Gabelung
oder Verzweigung ist bei keinem der zahlreichen zur Beobachtung
gelangten Gefåssanhånge beobachtet worden.

302

Branchialsipho (Fig. 8) mitten an der Vorderflåche des
Thorax stehend, ziemlich scharf abgesetzt, cylindrisch oder in der
Mitte etwas verengt, kronenfårmig, etwas kuirzer als b'eit, apikal
in 6 regelmåssige, an der Spitze schmal gerundete Lappen aus-
laufend; Randlinie zwischen diesen Lappen bogenfårmig, fast halb-
kreisformig. Ringmuskulatur des Branchialsiphos måssig stark,
eine einfache, nicht ganz geschlossene Lage måssig dicker Muskel-
bindel.

Atrialsipho (Fig. 8 u. 9) am vorderen Teil des Thoraxriickens

| stehend, sehr umfangreich, aber ab-
gesehen von den Zungenbildungen
meist sehr kurz, manchmal als eigent-
liche Réhre kaum hervortretend. Der
"»vordere Teil der sehr "kurzeniRkohne
des Atrialsiphos ist stets in eine sehr
grosse Lippe ausgezogen, diealsAtrial-
zunge zu bezeichnen ist. Die Gestalt
der Atrialzunge ist sehr verschieden.
Im einfachsten Falle ist sie geschweift
dreiseitig, etwa um die Hålfte långer
als am Grunde breit, apikal schmal
gerundet, manchmal fast spitzig. Im
anderen Extrem ist sie annåhernd recht-
eckig, apikal fast so breit wie basal,
quer abgestutzt. Die apikale Abstut-
Fig. 9. Distaplia fasmeriana zungskante låuft in verschieden breite
n. sp., Atrialsipho dreier ver- = z
Sehiede ner Per SER SEG und verschieden lange, manchmal ziem-
lich regelmåssig angeordnete Lappen
oder Spitzen aus. Die Seitenkanten der Atrialzunge sind meist
mehr oder weniger eingebogen, besonders basal, entsprechend der
Råhrenform des Atrialsiphos, aus dessen vorderer Hålfte die Atrial-
zunge hervorgeht. Der die Vorderlippe des Atrialsiphos darstellenden
Atrialzunge steht vielfach eine aus der hinteren Hålfte des Atrial-
siphos hervorgehende Hinterlippe gegeniiber, die viel kleiner als
die Atrialzunge ist und nur selten die halbe Långe der Atrialzunge
um ein Geringes ibertrifft.. Auch die Hinterlippe ist nicht immer
einfach, sondern manchmal eingeschnitten oder zerschlitzt. Die
Muskulatur des Atrialsiphos und seiner Lippen ist zart. An der

303

Atrialzunge erkennt man zarte Långs- und Quermuskeln, die zu-
sammen ein ziemlich weitmaschiges, unregelmåssiges Netz mit Recht-
eckmaschen bilden.

Die Leibeswand ist am Thorax ziemlich zart, am Abdomen
sehr zart. Ihre Muskulatur ist ziemlich spårlich. Die Ring-
muskulatur scheint ganz auf die Siphonen beschrånkt zu sein.
Die Långsmuskeln durchziehen die ganze Långe des Thorax
in weit getrennten diinnen Biindeln, ca. 20 jederseits. Gegen das
Hinterende des Thorax nåhern sich die Långsmuskelbiindel einer
Seite wohl etwas, treten jedoch nicht zu einem geschlossenen
Bande zusammen. Sie scheinen hier gesondert zu enden und nicht
auf das Abdomen iberzutreten.

Branchialtentakel lang fingerfårmig, abwechselnd ver-
schieden lang, (stellenweise?) nach dem Schema 1, 3, 2,3, 1 an-
geordnet, wobei die der 3. Ordnung sehr klein sind; 24 oder mehr
an Zahl.

Flimmerorgan ein kleines Kreispolster mit anscheinend ein-
facher Durchbohrung.

Kiemensack mit 4 Kiemenspalten-Zonen. Ca. 20 Kiemen-
spalten in einer Halbzone. Kiemenspalten sehr lang und schmal,
parallelrandig, von je einem parastigmatischen Quergefåss iiber-
spannt.

Darm (Fig. 8 u. 10) eine einfache, nicht gedrehte (nur an-
scheinend infolge schiefer Kontraktion ein wenig verzerrte), gerade
nach hinten gehende Schleife bildend, die im Bereich der Taille
eng geschlossen, im Bereich des eigentlichen Abdomens zu einem
Kreis mit måssig weitem Lumen erweitert ist. Osophagus eng,
måssig lang, gerade nach hinten gehend, nur sein Hinterende ven-
tralwårts gegen den Magen hingebogen. Magen (Fig. 8 u. 10m)
den vorderen ventralen Viertelkreisbogen der Darmschleifen-Ose
bildend, olivenfårmig. Nach dem Verlauf der Strukturlinien (der
Wiilste) ist er ventral stark gestreckt, dorsal stark verkirzt. Der
Osophagus, dessen Hinterende zur Bildung eines scharf ausgeprågten,
knopffårmigen Cardiawulstes in das Magenlumen eingedriickt ist, setzt
sich unter scharfem Absatz eine betråchtliche Strecke hinter dem
Vorderpol dorsal an den Magen an, wåhrend der Mitteldarm ebenfalls
unter scharfem Absatz gerade aus dem Hinterpol des Magens her-
vorgeht, ohne dass es dabei zur Bildung eines deutlichen Pylorus-

304

wulstes kåme. Das Epithel der Magenwandung ist in eine ziemlich
grosse Zahl tiefer, ziemlich regelmåssiger Långsfalten gelegt, deren
Zwischenpartien åusserlich als stark ausgeprågte Långswilste in die
Erscheinung treten. Die mittleren ventralen Långswilste, die uber
den Vorderpol des Magens auf die Dorsalseite hintberragen, sind
stark verlångert und, zumal in den vorderen Partien, auch ver-
breitert und vertieft. Gegen die Dorsalseite nehmen die Långs-
wilste an Långe und Stårke””ab:
Unregelmåssigkeiten im Verlauf
der Långswilste sind nur gering-
fuigig und meist anscheinend durch
postmortale Zerrung verursacht. So
erscheinen die Långswilste manch-
mal aus der geraden Långslinie
herausgedreht, fast spiralig ver-
laufend.. (Ein Långsschnitt trifft
dann, wie es in Fig. 10b gezeichnet
ist, mehrere Långswilste). Manch-
mal sind einzelne Wilste verkirzt
oder gegabelt. Die Zahl der Wiilste
scheint normal 15 zu sein; jeden-
falls fand sich in keinem Fall eine
starke Abweichung von dieser Zahl.
Manchmal erscheinen allerdings

Fig. 10. Distaplia fasmeriana n. sp., zwei Wiilste undeutlich, und nur
a Querschnitt, b Långsschnitt durch 13 scharf ausgeprågt; doch schien
die Darmschleife mit dem Ausfiihrgang 2
der darmumspinnenden Drise; m = das auf dem schlechten Erhaltungs-
Mage um Nachmasenskdd Drys tandtzubernhentinene mer
sendarm, ed = Enddarm; X 52. å - Rg
schnitt durch einen Magen zåhlte
ich andererseits 16 Långswilste; in diesem Falle waren aber 2
Wiilste verkirzt, der eine nach vorn der andere nach hinten vor-
zeitig endend, sodass ihnen zusammen nur der Wert eines einzigen
Långswulstes zuerkannt werden mag. Die darmumspinnende
Drise (Fig. 8, 10a u. b) mindet ungefåhr in der Mitte der Magen-
långe dorsal-rechts in den Magen ein, und zwar zwischen zwei Långs-
wiilsten auf der First einer Långsfalte. Infolge dieser mehr rechts-
seitigen Lage erscheint die Basalpartie des Ausfihrganges der Driise
bei Betrachtung des Darms von der linken Seite durch den Magen

305

verdeckt, wåhrend sie bei Betrachtung des Darms von der rechten
Seite bis auf den åussersten, zwischen den Magenwiilsten ver-
laufenden Teil frei liegend erscheint. Der Einmindungsteil der
Driisse ist ein ungefåhr 40 u& langer und 10 w dicker, dickwandiger
Schlauch mit engem Lumen. Dieser Schlauch geht proximal in
scharfem Absatz in eine diinn- aber derbwandige, regelmåssige
kugelige Blase von ca. 65 uw Dicke iiber. (Die regelmåssige Kugel-
gestalt der Blase wurde ausnahmslos bei den annåhernd 100 unter-
suchten Personen gefunden, darf also als durchaus konstant und
fir die Art sehr charakteristisch angesehen werden). Da der kurze
distale AÅusmindungsschlauch fast ganz zwischen zwei Magenwiilsten
verlåuft, so ist er in Ganzpråparaten nicht deutlich erkennbar. Bei
diesen scheint die kugelige Blase dem Magen eng anzuliegen.
Proximal geht die Blase ebenfalls unter scharfem Absatz in den
schlauchformigen Mittelstamm der Drise iber, der zunåchst fast
eben so dick wie der Ausmiindungsteil ist (ca. 8 4), sich aber
proximalwårts bald etwas verengt, bis auf 5 und 4 w Dicke. In
unregelmåssigen Windungen geht dieser Mittelstamm iber das
Darmschleifen-Lumen hiniber zum Enddarm hin. Die Beschaffen-
heit der proximalen Teile der darmumspinnenden Driise, ihre Ver-
zweigung und ihre blinden Enden, habe ich nicht deutlich erkennen
kønnen. In der Deutung der auf den Magen folgenden Darmteile
bin ich nicht ganz ins Klare gekommen. Ich lege der zunåchst
folgenden Schilderung die Deutung zugrunde, die ich fir die rich-
tige annehmen måchte, und die ich in der Abbildung Fig. 10b
durch einfache Buchstabenbezeichnung an der Innenseite des Dar-
mes (im Lumen der Darmschleife) gekennzeichnet habe. Der
Mitteldarm ist sehr kurz und dinn, zugleich sehr dinnwandig.
Er zeigt in der Mitte einen mehr oder weniger deutlichen Absatz,
durch den anscheinend eine Teilung in Nachmagen (Fig. 10 nm)
und Driisendarm (Fig. 10 dd) gebildet wird. Vielfach, zumal - bei
Fillung des Darmes mit Nahrungsmassen, ist diese Bildung kaum
oder gar nicht erKkennbar. Vielleicht handelt es sich hier nur um
eine unwesentliche Kontraktions- oder Stauchungserscheinung. Der
Enddarm (Fig. 8 u. 10ed) bildet den Wendepol und den ganzen
rucklaufenden Darmschleifen-Ast. Er beginnt mit einer plåtzlichen
Erweiterung, die sich wulstartig um das viel engere Hinterende
des Mitteldarmes, das etwas in das Vorderende des Enddarmes

Vidensk. Medd. fra Dansk naturh. Foren. Bd. 77. 20

306

eingedrickt ist, herumlegt. Das Epithel des Enddarmes ist zumal
anfangs, im Bereich dieses Wulstes, deutlich dicker als das Epithel
des Mitteldarmes und fårbt sich in Pikrokarmin viel intensiver. Der
Darm zeigt hier also einen sehr deutlichen Strukturabsatz. Eine
kurze Strecke hinter dem Beginn, ungefåhr am Wendepol, zeigt
der Enddarm meist eine Einschnirung, die aber mutmasslich keine
wesentliche Bildung ist. Manchmal hatte es allerdings den Anschein,
als bezeichne diese Einschnirung einen Darmabschnitt. Sollte dies
wirklich der Fall sein, so miisste ich die oben dargelegte Deutung
der Darmabschnitte als unzutreffend ansehen. Es bliebe dann nur
die Deutung, dass erst hier an dieser Wendepol-Einschnirung der
Enddarm beginne, und dass folglich der vorhergehende Darmteil
mit dem dickeren Epithel und der wulstigen Rickwårtsuberwallung
dem Mitteldarm zuzurechnen, also als Drisendarm (Fig. 10 dd?) zu
bezeichnen sei. Die undeutliche Teilung des unmittelbar auf den
Magen folgenden engen Darmteils, der hiernach als Ganzes einem
Nachmagen (Fig. 10 mm?) gleichzusetzen wåre, miissste dann als
unwesentliche Kontraktions- oder Stauchungserscheinung gedeutet
werden. Diese zweite Deutung, die mir jedoch minder wahrschein-
lich vorkommt, ist in der Abbildung Fig. 10 durch Buchstaben mit
Fragezeichen an der Aussenseite der Abbildung gekennzeichnet.
Der Enddarm (Fig. 8 u. 10 ed) erstreckt sich als riicklaufender
Darmschleifen-Ast gerade nach vorn, dorsal vom Mitteldarm, Magen,
Osophagus und Kiemensack bis in die vordere Partie des Thorax
hinein. In der Håhe der Atrialoffnung mindet er durch einen
glattrandig zweilippigen After aus. Die beiden Afterlippen sind kurz
und breit, fligelformig abgesetzt.

Geschlechtsorgane: Bei finf nåher untersuchten Kolonien
fand sich keine Spur von Geschlechtsorganen oder Embryonen.

Die sechste nåher untersuchte Kolonie (weitere Kolonien wurden

nicht angeschnitten) enthielt zahlreiche Brutsåcke, ich schåtze je
einen zu jeder ausgewachsenen Person gehårig. Im ibrigen war
an den Personen dieser Kolonie keine Spur von Geschlechtsorganen
zu finden. Da die untersuchten, dem gleichen Funde angehåren-
den Kolonien annåhernd von gleicher Gråsse und anscheinend vom
gleichen Entwicklungsstadium sind, so vermute ich, dass die Ko-
lonien dieser Distaplia wie die einiger anderer Distaplia-Arten und
die der nahe verwandten Gattung Sycozoa eingeschlechtlich sind,

307

dass die Kolonien ohne jegliche Geschlechtsorgane månnlich sind,
wåhrend die eine mit Brutsåcken offenbar eingesechlechtlich weib-
lich ist. Wåren die geschlechtslosen Kolonien weiblich oder zwit-
trig, so wåre das Feblen von Brutsåcken kaum zu erklåren. Das
vorliegende Material befindet sich offenbar in dem Stadium, in
dem die Gonaden vollståndig geschwunden, die Geschlechtsprodukte
såmtlich ausgestossen sind, wåhrend die Embryonen der weiblichen
Kolonien in den iiberdauernden Brutsåcken ihrer Reife entgegen
gehen, ein Stadium, das bei den Arten der Gattung Sycozoa mehr-
fach zur Beobachtung gelangte. Die Brutsåcke (Fig. 8) sind
sehr gleichmåssig und charakteristisch gestaltet. Es sind dick- und
zåhwandige, dick-birnfårmige, am blinden Pol gleichmåssig breit
gerundete, am Gegenpol kegelfårmige (Spitzenwinkel ca. 80?) Kår-
per von ungefåhr 1'/2 mm Långe und %”/4 mm gråsster Dicke,
deren Spitze in einen langen, dinnen Stiel auslåuft. Der Stiel (in
keinem Falle in ganzer Långe zur Beobachtung gelangt) mag un-
gefåhr so lang wie die eigentliche Bruttasche sein. Er ist nur
etwa 0,08 mm dick und stellt eine sehr dinnwandige Doppelråhre
dar. Jeder Brutsack enthålt einen einzigen Embryo. Soweit zu
erkennen war, befanden sich die vielen zur Beobachtung gelangten
Embryonen der daraufhin untersuchten Kolonie såmtlich annåhernd
in dem gleichen Entwicklungsstadium, im Stadium der geschwånz-
ten Larve, deren Kårper bei eingeschlagenem Schwanzteil eine
Långe von ungefåhr 1 mm aufweist. Der Brutsack ragt von der
Person schråg nach unten in das Innere der Kolonie hinein. Den
Zusammenhang des Brutsackes mit der Person habe ich nicht
sicher nachweisen kånnen; doch konnte ich in einer Schnittserie
den Stiel vom Ursprung aus dem eigentlichen Brutsack bis fast
zum Thorax der Person hin verfolgen. Es schien mir, als ob er
in die Hinterwand des Thorax ibergehe.

Erorterung: D. fasmeriana kommt in der Gestaltung der Kolonie
und der Anordnung der Personen der D. cerebriformis nahe, von
der sie sich aber schon durch die Gestalt des Magens scharf unter-
seheidet. Von anderen Distaplia-Arten, die eine åhnliche Kolonie-
Bildung zeigen, sind D. vallei Herdm.") (part.: Material von den
Philippinen, siehe unten: Distaplia und Sycozoa) und D. clavata

1) W.A. Herdman, 1886, Rep. Tunic. Challenger, II, p. 128, Taf. XVII

Fig.-1 (non Fig. 2) (D. vallii).

20"

308

(Sars)") durch einen glattwandigen bezw. einen an der Innenseite
der Wandung netzartig gefurchten Magen ausgezeichnet, und gleicht
nur D. bursata Van Name?) von Florida und Jamaica in der Långs-
faltung des Magenepithels der neuen Art. D. bursata hat aber zwit-
trige Personen und weicht auch in der Gestalt der Blase der darm-
umspinnenden Drise weit von D. fasmeriana ab. In Hinsicht auf
diese letztere Bildung, ebenso wie in der stark ausgeprågten Långs-
faltung des Magenepithels, zeigt D. fasmeriana eine von der Di-
staplia nahe stehenden Gattung Sycozoa weitest abliegende Bildung.
In der scharf abgesetzten Kugelform der Blase der darmumspin-
åenden Drise scheint ihr nur D. stylifera (Kow.)”) vom Roten
Meer nahe zu kommen. Auffallend ist in der betreffenden Abbil-
dung Kowalevsky's der Umstand, dass mehrere (3) Driisen-
schlåuche gesondert in die Blase zu miinden scheinen, wåhrend
sich diese Schlåuche sonst stets zu einem einzigen Schlauch ver-
einen bevor sie in die Blase iibergehen. Sollte hier etwa eine Un-
genauigkeit der Zeichnung vorliegen? SD. stylifera unterscheidet
sich durch die Kolonieform, die Zwittrigkeit der Personen und die
Glattwandigkeit des Magens von D. fasmeriana. Die Getrennt-
geschlechtlichkeit der Kolonien, die auch fir die nahe stehende
Gattung Sycozoa charakteristisch ist, teilt D. fasmeriana noch mit
D. magnilarva D. V.%) (siehe auch unten im Abschnitt ,,Sycozoa
und Distaplia"), D. cylindrica (Lesson)”) und D. confusa Ritter);
alle diese Arten unterscheiden sich von D. fasmeriana, abgesehen
von manchen anderen Charakteren, durch die Struktur der Magen-
wandung, die bei ihnen nie ein geradezu långsgefaltetes Epithel
besitzt. In der Gestaltung des Brutsackes scheint D. fasmeriana
mit D. mikropnoa (Sluit.)”) ibereinzustimmen, wåhrend sie die
Einzahl der in einem Brutsack zur Entwicklung kommenden Larven

JER SHA tmever 003 FAscidsd Arktis" p313 ma Feer eee

2) W. G. Van Name, 1921, Ascid. West Indian Reg. Southeast. U.S., p. 366,
Textflg, 47.

3) A.Kowalevsky, 1874, Knospung Åscid., p. 445, Taf. XXX Fig. 1 bh
(als Didemnium styliferum).

1) A. Della Valle, 1881, N. Contr. Ascid. comp. Napoli, p. 3.

5) W. Michaelsen, 1907, Tunic.; in: Erg. Hamburg. Magalh. Sammelr,
p. 41 (als /ulinia ignota).

6) W. E. Ritter, 1901, Pap. Harriman Alaska Exp., Ascid., p. 247.

7) R. Hartmeyer, 1919, Ascid.; in: Res, Sw. sc. Exp. Austral. 1910%783;
p. 134.

309

nicht nur mit dieser malayisch-nordaustralischen Art, sondern auch
mit D. californica Mich.") von Kalifornien und mit D. cylindrica
(Lesson) (Michaelsen, I. c. 1907, p. 41) vom antarktisch-sub-
antarktischen Gebiet, sowie mit D. cerebriformis (siehe auch unten
im Abschnitt Gen. ,Sycozoa und Distapliaf) gemein hat.

Im ibrigen verweise ich auf die Erårterung auch dieser Art
im folgenden Abschnitt.

Gen. Sycozoa und Distaplia.

Die oben beschriebene neue Distaplia-Art, D. fasmeriana, zeigt
in ihrem Åussern, in der Gestaltung der Kolonie und der Anord-
nung der Personen, solche Charaktere, dass man sie fir eine Sy-
cozoa halten kånnte. Distaplia und Sycozoa stehen einander offen-
bar sehr nahe. In der Tat ergeben sich aus den bisher vorliegenden
Artbeschreibungen nicht 2 Merkmalsgruppen, deren Kombination beide
Gattungen durchgehend zu scheiden gestattet. Um hier Klarheit zu
schaffen, habe ich das mir zur Verfigung stehende reiche Distaplia-
und Sycozoa-Material einer Nachprifung unterzogen. Dieses Mate-
rial gehårt zum gråssten Teil dem Hamburger Museum an. Dazu
kommt aber noch eine sehr bedeutsame Sammelnummer der M or-
tensen'schen Pacific-Expedition, die mir Lokaltypen des Aplidium
cerebriforme und des A. pedunculatum Qu. Gaim. von Port Western,
dem klassischen Sammelort der Astrolabe-Expedition, in die Hand gibt.
Im Folgenden will ich eine vergleichende Ubersicht iiber die ver-
schiedenen in Betracht zu ziehenden Organsysteme geben.

Koloniegestaltung: Wåhrend in der Gattung Distaplia alle
måglichen Kolonieformen von der diinnen Krustenform bis zur deut-
lich gestielten Keulenform vertreten sind, zeigt Sycozoa stets deut-
lich gestielte Kolonien bezw. Kormidien. Nach Caullery?”) kann
man in der Gattung Sycozoa [Colella], wie er sie auffasst, nach
der Art des Stieles deutlich zwei Gruppen unterscheiden: 1) eine
Gruppe der typischen Sycozoa [Colella], bei denen der meist lange,
scharf vom Kopf abgesetzte Stiel durch eine hornartige Aussen-
schicht hart und zåh gemacht ist und nach Zerfall oder Ablåsung
des Kopfes als Organ fir die Uberwinterung der Knospen dient,
die in der folgenden Wachstumsperiode neue Kåpfe zu bilden be-

1) W. Michaelsen, 1923, N. u. altbek. Ascid. Reichsmus. Stockholm, p. 27.
2% Caullery, 1908, Synascid. Colella. Distomid., p. 44.

310

stimmt sind, 2) eine Gruppe des Aplidium cerebriforme Quoy &
Gaim.”) mit kurzem, weichem, fleischigem oder håchstens weich
knorpeligem Stiel, der nicht so scharf vom Kopf abgesetzt ist und
nicht als Uberwinterungsorgan dient. Die gestielten Distaplia-Arten,
zumal D. fasmeriana, schliessen sich in Hinsicht auf diese Ver-
håltnisse eng an diese zweite Gruppe an. Ich sprach in der Er-
6rterung uber die zu dieser Gruppe gehårende Sycozoa arbores-
cens! W- ?) dje Vermutung aus, dass die Knospengruppen im apikalen
Teil des Stieles von S. arborescens bestimmt sein mågen, ,nach dem
Ableben und Abfallen des Kopfes zu iberwintern, um im nåchsten
Friihjahr neue Kopfe zu bilden.” Eine reiflichere Uberlegung bringt
mich dazu, diese Anmschauung fallen zu lassen. Es handelt sich
hier wohl nicht um eine Einrichtung zum Uberwintern, wie bei
typischen Sycozoa, S. sigillinoides Less. und Verwandten, sondern
um einen ununterbrochenen Ersatz der absterbenden Personen des
ausdauernden Kopfes. Beim Uberwinterungsstiel der tvpischen Syco-
zoa findet sich meines Wissens nicht die Gråssenzunahme der
Knospen in der Richtung nach dem apikalen Ende des Stieles und
die Ansammlung der grøssten Knospen an der Basis des Kopfes.
Die Formen der cerebriforme-Gruppe sind auch nicht Tiere der
Kaltwasser-Zone, sondern auf die gemåssigten und warmen Gebiete
beschrånkt (Ost-, Siid- und Nordaustralien, Kapland). Die typischen
Sycozoa um S$. sigillinoides dagegen sind vorwiegend Kaltwasser-
formen, circummundan im antarktisch-subantarktischen Gebiet, nur
stellenweise nordwårts in wårmere Gewåsser vordringend, meist
deutlich dem Laufe der kalten Meeresstråme folgend, wie die S.
sigillinoides vom Pazifischen Ozean vor Peru (20? S. 789W.) und
von der Sidwestecke Australiens. Die Fåinge losgelåster und plank-
tonisch vorkommender Kåpfe, wie der von mir erwåhnte vom At-
lantischen Ozean vor Rio Grande do Sul (5? S., 34? W.)?), dirfen
fir die Gebietsbestimmung dieser Formen natirlich nicht in Rech-
nung gezogen werden. Die eigentlichen Warmwasser-Vorkommnisse
typischer Sycozoa gehen allerdings im australischen Sektor bis in
das tropische Gebiet des Malayischen Archipels hinein. Nach der

1) R. Hartmeyer, 1912, Ascid. Deutsch. Tiefsee-Exp., p. 310.

SW. Michaelsen "19237Sudafrik. Ascid… p: 22.

3) W. Michaelsen, 1997, Tunic.; in: Erg. Hamburg. Magalh. Sammelr.,
p. 47.

Sl

Gestaltung der Kolonie bezw. der Beschaffenheit des Stieles, ob
mit langem harten Uberwinterungsstiel oder mit kiirzerem weiche-
ren, nicht zur Uberwinterung von Personenknospen dienenden Stiel
bezw. ohne Stiel, miisste man die Gruppe Sycozoa-Distaplia so tei-
len, dass die Gattung Sycozoa auf die erste Gruppe der typischen
hartstieligen Sycozoa beschrånkt wirde und die weichstieligen For-
men um Aplidium cerebriforme zu Distaplia gestellt wirden. Es
fragt sich nun, wie sich die ibrigen Charaktere zu dieser bezw.
einer anderen Sonderungsweise verhalten.

Systembildung: Die typischen Sycozoa um S. sigillinoides
sowie die der cerebriforme-Gruppe zeigen abgesehen von gering-
fugigen Unregelmåssigkeiten meist eine Anordnung der Personen
in doppelreihigen, in der Långsrichtung am Kopf verlaufenden Sy-
stemen mit einer einzigen, fir såmtliche Doppelreihen gemeinsamen
Kloakenåffnung am apikalen Ende des Kopfes (so z. B. bei den
meisten, wenn nicht allen Kolonien von S. [Colella] georgiana Mich.,
l. c. 1907, p. 63), oder mit einigen fir mehrere Doppelreihen ge-
meinsamen Kloakenåffnungen am apikalen Ende des Kopfes (so
z. B. bei S. [Colella] umbellata Mich., I. c. 1907, p. 55). Selten
ist diese charakteristische Systembildung an einzelnen Ståcken oder
an Teilen eines Stockes undeutlich oder durch eine ganz unregel-
måssige Anordnung ersetzt (so bei meinem Material von S. [C.]
gaimardi (Herdm.), Mich., I. c. 1907, p. 49, sowie bei manchen
Kolonien von $. [C.] sigillinoides Lesson, Mich., I. c. 1907, p. 43).
In den meisten Fållen, so bei S$S. sigillinoides, ist diese unregel-
måssigere Anordnung der Personen nachweislich ein Zustand des
Zerfalles. Die bisher zu Distaplia gestellten Arten zeigen anderer-
seits zumeist eine ganz unregelmåssige Anordnung der Personen,
so bei D. confusa Ritter,!”) oder eine mehr oder weniger deut-
liche Anordnung in kleinen geschløssenen Figuren mit zentral im
System gelegener Kloakenåffnung, so bei D. [Holozoa] cylindrica
Lesson?), seltener eine mehr oder weniger regelmåssige Anord-
nung in Doppelreihen, so bei D. distomoides (Herdman), 3) nur
ausnahmsweise eine regelmåssige Anordnung in meridional ver-
laufenden Doppelreihen. Eine Annåherung an diese fir Sycozoa

1) W. E. Ritter, 1901, Ascid.; in: Pap. Hariman Alaska Exp., p. 207.

2) W. F. Calman, Julinia australis, 1895, On Julinia, p. 1.

3) W. A. Herdman, Amaroucium d., 1909, Deser. Cat. Tunic. Austral. Mus.,
p: 75:

312

charakteristische Systembildung findet man bei der westindischen
Distaplia' bursata Van Name!) und der arktischen D. clavata
(Sars),”) u. ”). Eine Anordnung in meridional verlaufenden Reihen
mit einer einzigen, allen Reihen gemeinsamen Kloakenåffnung am
Apikalende des Kopfes zeigt mehr oder weniger deutlich D. vallei
Herdm.,”) wenigstens das Material von den Philippinen (das Ma-
terial von Marokko ordne ich der D. rosea D. V. zu, siehe unten !).
Ich vermute, dass es sich bei diesem Philippinen-Material nicht
um einfache Personenreihen handelt, wie es der Herdman'schen
Schilderung entspricht, sondera um verkannte Doppelreihen, wie
sie fir Sycozoa charakteristisch sind. Eine solche typische Sycozoa-
Systembildung weist jedenfalls die oben beschriebene Distaplia fas-
meriana auf. Da diese sich durchaus an die typischen Distaplia-
Arten im' alten Sinne anschliesst, so ist dem Charakter der System-
bildung keine Bedeutung fir die Sonderung von Sycozoa und Di-
staplia beizumessen.

Atrialsipho: Nach Hartmeyer?) sollen sich die Gattungen
Distaplia und Sycozoa dadurch von einander unterscheiden, dass
die erstere eine grosse einfache Atrialzunge am ÅAtrialsipho trågt,
wåhrend der Atrialsipho bei Sycozoa mit 6 Lappen versehen sei.
Diese Angabe fir Sycozoa ist zuriickzufuihren auf Herdman's Diag-
nose seiner Gattung Colella (1. c. 1886, p. 72); suchen wir aber fir
diese Originalangabe der Diagnose einen Beleg in den Beschrei-
bungen der vielen (8) in jener Arbeit zu Colella gestellten Arten,
so finden wir nichts, was sie rechtfertigte. Herdman sagt uber-
haupt kaum etwas Bedeutsames iber die Gestaltung des Åtrial-
siphos seiner Colella-Arten aus. Das einzige, was ich in der mehr
als 50 Quartseiten umfassenden Erårterung jener 8 Arten finden
kann, ist auf Seite 112 die Angabe fir C. elongata: "The atrial
siphon is large and projecting". Auch aus den Abbildungen ist

1) W. G. Van Name, 1921, Ascid. West-Ind. Reg. Southeast. U. S., p. 306,
Textfig.

2) H. Huitfeld-Kaas, 1897, Synascid.; in: N. Nordh.-Exp., p: 10% TE
Fig. 3.

3) R. Hartmeyer, 1903, -Ascid. Arktis, p:'3137 Taf.

4) W. A. Herdman, 1886, Rep. Tunic. Challenger II, p. 128, Taf. XVIII
FiSSklE

5) R. Hartmeyer, 1909, Tunic.; in: Bronn, Kl. Ordn. Tier-R., p. 1437,
bezw. 1438.

313

nichts sicheres zu entnehmen. Die Atrialsiphonen erscheinen hier,
wenn iberhaupt an den Abbildungen der ganzen Person erkennbar,
meist als abgestutzt kegelformige Hervorragungen mit rauhrandiger
Kreisåffnung. Nur bei jener C. elongata (1. c. 1886, Taf. XVI
Fig. 5) erscheint der Atrialsipho gelappt, aber nicht regelmåssig
sechslappig, sondern schief zugeschnitten und in eine nicht genau
feststellbare Zahl (im Profil der sichtbaren Seite 3 erkennbar) ver-
schieden grosser und durch verschieden tiefe Rand-Einbuchtungen
von einander getrennter Lappen auslaufend. Nun bildet zwar Herd-
man auf Taf. VI in Fig. 1 ein Stick der Kolonie-Oberflåche von
C. pedunculata "showing the aperturesf ab, in der -zwei unregel-
måssig sechslappige, verschieden grosse Offnungen zu erkennen
sind, und man muss aus seiner Figurenerklårung. entnehmen, dass
er eine derselben als Atrialdffnung angesehen wissen will, wenn
er sie auch nicht ausdricklich als solche bezeichnet. Tatsache ist
aber, dass wir es hier nicht mit einer Atrialoffnung zu tun haben.
Wie ich nachweisen konnte (1. c. 1907, p. 42, 44) und wie auch
Caullery (1. c. 1908, p. 16) fand, miinden die Atrialsiphonen bei
dieser Gattung iberhaupt nicht an der Oberflåche der Kolonie aus,
sondern an gemeinsamen Kloakenkanålen. Jene Offnungen in der
Herdman'schen Figur sind zweifellos beide als Branchialåffnungen
anzusehen, die gråssere als die einer ausgewachsenen, die kleinere
als die einer jungeren Person. Wir kånnen demnach die Herd-
man'sche Originalangabe iber die Sechslappigkeit der Atrialsiphonen
als unbegrindet bezeichnen. Auch Caullery bezeichnet in der
zusammenfassenden Charakteristik der typischen, hartstieligen Syco-
zoa [Colella] die Atrialoffnung (f"Porifice cloacalf) als sechslappig
(Semi 900 p 16: IL offre six lobes: obtus?);: doch! bemerkt er zu-
gleich, dass sie nicht in sehr gutem Zustande beobachtet werden
konnte. Da er die Gestaltung der Atrialoffnung im ibrigen, zu-
mal in den Beschreibungen der verschiedenen Arten nicht weiter
erwåhnt, so glaube ich annehmen zu miissen, dass auch er sich,
wie Hartmeyer, in Ermangelung eigener sicherer Beobachtung
auf die (unbegriindete) Herdman'sche Angabe stiitzt. Auch ich
gebe in den Beschreibungen der verschiedenen von mir unter-
suchten Sycozoa-Arten des Magalhaensischen Gebietes (1. c. 1907,
p. 44—65) keine genauere Schilderung der Gestaltung des Atrial-
siphos und beschrånke mich auf die wenig bedeutenden Angaben

314

»lang", ,lang gestreckt" oder dergleichen. Das hatte seinen Grund
darin, dass es mir trotz des umfangreichen Materials in keinem
Falle geglickt ist, eine Person so herauszupråparieren, dass ihr
Vorderende mit dem Atrialsipho unversehrt zur Anschauung ge-
bracht werden konnte. Tatsåchlich bin ich bei meinen vielen Unter-
suchungen an zusammengesetzten Ascidien kaum einmal auf solche
Schwierigkeiten bei der Herauslåsung måglichst unverletzter Per-
sonen gestossen, wie bei diesem Sycozoa-Material. Das Vorderende
der Personen haftet hierbei ganz ungewåohnlich fest am Zellulose-
mantel, und hierauf fihre ich es zuruck, dass uns bisher eine
Klarstellung der betreffenden Verhåltnisse fehlt. Leider kann ich
diese Liicke auch jetzt nicht mit voller Sicherheit aunsfullen. In
einem einzigen Falle, bei einer S£. sigillinoides Lesson vom Pa-
zifischen' Ozean vor Peru (20? S. 78? W.), glaube ich einen Atrial-
sipho unzerfetzt herauspråpariert zu haben; doch war der betref-
fende Thorax so stark verzerrt, dass ich auch in diesem Falle
meiner Sache nicht ganz sicher bin. Ich sah an diesem Thorax
am apikalen Ende der Rickenseite einen breiten, kurzen, etwas
unregelmåssig quer abgestutzten Lappen vorragen, der an seiner
Abstutzungskante einige (7 oder 8?) sehr schlanke, in verschie-
denen Entfernungen von einander stehende Zingelchen trug. Ich
kann diesen Lappen nur fir eine in mehrere unregelmåssige Ziin-
gelchen auslaufende Atrialzunge halten. Man kånnte wohl auch hier
an einen langen, in Fetzen (jene Zingelchen) zerrissenen Atrial-
sipho denken; doch hatten die durchaus glattrandigen, von einer
diinnen Reihe dunkler gefårbter Zellen umsåumten Ziingelchen
nicht das Aussehen von Zerfetzungslappen. Ich glaube wenigstens
als wahrseheinlich hinstellen zu dirfen, dass auch Sycozoa, wenig-
stens S. sigillinoides, mit einer grossen Atrialzunge ausgestattet sei.
Fir eine Form der cerebriforme-Gruppe, nåmlich fir Sycozoa arbo-
rescens, kann ich nach eigener Untersuchung an mehreren Per-
sonen das Vorhandensein einer verschieden grossen, aber auch im
Håchstfalle nur måssig grossen, einfachspitzigen, dreiseitigen Atrial-
zunge feststellen. Dies entspricht auch den Originalangaben Hart-
meyer's (1. c. 1912; p: 317, Taf. XLIII Fig. 6) sowie seinenPAns
gaben iiber S. cerebriformis f. intermedia"), wåhrend Caullery den

1) R. Hartmeyer, 1919, Ascid.; in: Sw. Sc. Exp. Australia, Taf. II Fig. 60.

315

Atrialsipho der S. [Colella] cerebriformis als einen "tube cylindrique
sans lobes terminaux netsf bezeichnet. In diesem fnets" sehe ich
aber eine gewisse Beschrånkung der Angabe. Ich vermute, dass
auch hier eine Atrialzunge vorhanden war, die abgerissen oder
durch enge Anlagerung an die Kårperwand unklar gemacht sein
mag. Ich fasse meine Erårterung dahin zusammen, dass in dem
Besitz einer Atrialzunge kein Sondercharakter der Gattung Distaplia
im Gegensatz zu Sycozoa liegt, sondern dass wenigstens Formen
der cerebriforme-Gruppe eine wohlausgebildete Atrialzunge aufweisen,
was fir die typischen Sycozoa der S. sigillinoides-Gruppe zum min-
desten wahrscheinlich ist.

Kiemensack: Der Kiemensack weist bei allen Distaplia- und
Sycozoa-ÅArten anscheinend ausnahmslos 4 Kiemenspalten-Zonen auf.
Abweichende Angaben Herdman's iber verschiedene Sycozoa-
Arten sind schon von Caullery (1. c. 1908, p. 40), dem ich mich
anschliesse, als irrtumlich bezw. ungenau hingestellt worden. Frag-
lich erscheint mir nur Herdman's Angabe iber seine $. [C.] con-
creta von den Kerguelen (1. c. 1886, p. 123), die fabout eight rows"
von Kiemenspalten besitzen soll. Es ist nicht die starke Åbwei-
chung in der Zahl, als vielmehr die Angabe iiber die abwechselnd
verschiedene Dicke der Quergefåsse, die mich bedenklich macht.
An und fir sich kånnte eine gleichmåssige Kontraktionsfaltung des
Kiemensackes wohl den Irrtum einer doppelt so grossen Zahl von
Kiemenspalten-Zonen veranlassen. jJene Erkenntnis der verschie-
denen Quergefåss-Dicken, zumal auch die betreffende, ein ganz
glattes Stick Kiemensack darstellende Abbildung (1. c. 1886, Taf.
XVI Fig. 13), zeugt dafiir, dass ein derartig gefåltelter Kiemensack
nicht vorgelegen haben kønne. Meine fruihere Deutung der din-
neren Quergefåsse der S. concreta als fsekundåre Quergefåsse"
(1. c. 1907, p. 66) muss verbessert werden, falls man unter sekun-
dåren Quergefåssen nur parastigmatische, die Kiemenspalten nicht
teilende, sondern iiberbriickende Quergefåsse verstehen will, wie
es wohl das Richtige ist. Jene dinneren Quergefåsse sind, wie
aus der Abbildung deutlich hervorgeht, echte, nur wenig schwå-
chere Kiemenspalten-Zonen trennende Gefåsse, also richtiger als
primåre Quergefåsse zweiter Ordnung zu bezeichnen. Die Herd-
man'sche Angabe ist auch insofern befremdend, als S. concreta
offenbar der S. georgiana Mich. (1. c. 1907, p. 62 u. f") von Siid-

316

Georgien mit normaler Vierzahl der Kiemenspalten-Zonen nahe
steht. 'Hier kann wohl nur eine Nachuntersuchung der Herd-
man'schen Typen oder lokaltypischen Materials Klarheit schaffen.
Ein bemerkenswerter durchgehender Unterschied zwischen Sycozoa
samt der cerebriforme-Gruppe einerseits und Distaplia andererseits
ist vielleicht darin zu sehen, dass bei Sycozoa parastigmatische
Quergefåsse fehlen, wåhrend die Kiemenspalten bei Distaplia von
feinen parastigmatischen Quergefåssen iiberbriickt werden. Fir die
typischen Sycozoa und fir die Formen der cerebriforme-Gruppe ist
das betreffende Merkmal offenbar konstant; fir lokaltypische Apli-
dium cerebriforme von Port Western sowie fir westaustralische und
nordwestaustralische Lokaltypen von f. intermedia Hartmr. kann
ich das Fehlen parastigmatischer Quergefåsse nach eigener Unter-
suchung' beståtigen; in der Gattung Distaplia finden sich jedoch
manche Arten, in deren Beschreibung parastigmatische Quergefåsse
nicht erwåhnt, bezw. in deren Abbildungen nur primåre Querge-
fåsse eingezeichnet sind. Fir manche dieser Arten hat spåter eine
Berichtigung durch den Nachweis parastigmatischer Quergefåsse
stattgefunden, so durch Caullery!) fir D. rosea D. V. Ebenso
glaubt Hartmeyer (1. c. 1919, p. 133) sie bei D. mikropnoa (Sluit.)
erkannt zu haben, einer Art, in deren Originalbeschreibung”) sie
nicht erwåhnt, und in deren Abbildung die 4 Kiemenspalten-Zonen
uniberbrickt dargestellt sind. Hartmeyer erwåhnt bei dieser
Gelegenheit, dass diese parastigmatischen Quergefåsse ein Gattungs-
merkmal zu sein scheinen, was sagen will, dass er gegensåtzliche
Angaben fir irrtimlich hålt. Ich bin halbwegs geneigt, mich ihm
in dieser Auffassung anzuschliessen. Die Gestaltung des Kiemen-
sackes ist an ungiinstig konserviertem Material infolge starker
Schrumpfung an ausgewachsenen Personen von Distaplia meist
schwer klarzustellen. Viel besser erhalten sich bei der Konservie-
rung die jungen Personen, die håufig vollståndig ausgestreckt er-
scheinen, wåhrend die Thoraces der in gleicher Kolonie befind-
lichen ausgewachsenen Personen bis zur Unkenntlichkeit der Or-
ganisation geschrumpft sind. Es liegt nahe, in diesen Fållen die
an jungen Personen gemachten Beobachtungen zu verallgemeinern
und in halb schematischen Abbildungen auch auf erwachsene Per-

1) M. Caullery, 1895, Contr. Ét. Ascid. comp., p. 8.
2) C.Ph. Sluiter, 1909, Tunic. Siboga-Exp. II, p. 94, Taf. V Fig. I (als
Polyclinum mikropnus).

317

sonen zu ibertragen, und hierauf mag manche irrtuimliche Dar-
stellung des Kiemensackes beruhen. Die parastigmatischen Quer-
gefåsse bilden sich nåmlich wenigstens bei manchen Distaplia-Arten
erst in spåterem Stadium aus. So fand ich.in einer Kolonie von
D. cylindrica junge Personen von I mm Långe — die ausgewach-
senen Personen sind etwa 2—3 mm lang —, die 4 Zonen wohl
ausgebildeter, aber uniberbruckter Kiemenspalten aufwiesen und
keine Spur von parastigmatischen Quergefåssen, die bei erwachse-
nen Personen wohl ausgebildet sind, erkennen liessen. Diese Ver-
håltnisse kånnen allerdings nicht alle Unstimmigkeiten aufklåren.
Sø ist kaum anzunehmen, dass z. B. v. Drasche bei der Abbil-
dung der Person von seiner D. lubrica”) nicht ein gut gestrecktes
ausgewachsenes Exemplar vorgelegen haben soll. Es muss also
die Frage nach der Beståndigkeit des Auftretens parastigmatischer
Quergefåsse bei Distaplia einstweilen offen bleiben.

Magen: Wåhrend der Magen bei typischen Sycozoa und den
Formen der cerebriforme-Gruppe aussen und innen glattwandig ist,
zeigt er innerhalb der Gattung Distaplia die verschiedensten Aus-
bildungsweisen von der sich an den Sycozoa-Zustand anschliessen-
den Glattwandigkeit bei Distaplia bermudensis Van Name (l. c.
1921, p. 365, als Holozoa b.) bis zu der wohl ausgebildeten Långs-
faltung des Epithels bei der oben beschriebenzn D. fasmeriana.
Zur Sonderung der beiden hier erårterten Gattungen kann dem-
nach der Charakter der Magenwandung nicht verwandt werden.

Darmumspinnende Drise: Eine die Gattungen Distaplia
und Sycozoa von einander sondernde Merkmalsgruppe liegt viel-
leicht in der Gestaltung der darmumspinnenden Driisse, insofern
dieses leider bisher zu wenig beachtete Organ bei Sycozoa mut-
masslich stets einen in ganzer Långe einfach schlauchfårmigen
Ausfihrgang besitzt, wåhrend dieser Ausfihrgang sich mut-
masslich bei allen Distaplia-Arten zu einer innerhalb der Darm-
sehleife gelegenen, meist fir die Art charakteristisch gestalteten
Blase erweitert. Caullery (1. c. 1908, p. 45) fihrte zuerst den
betreffenden Charakter in die Diagnose der Gattung Distaplia ein,
ohne jedoch nun den gegensåtzlichen Charakter bei der Diagnose
von Sycozoa [Colella] zu verwenden. Nur in der Charakteristik
der typischen, hartstieligen Sycozoa [Colella] bemerkt er: "La glande

1) R. v. Drasche, 1883, Synascid. Rovigno, Taf. VIII Fig. 8.

318

pylorique" —- als solche bezeichnet er die darmumspinnende Driise
"ne; m'a pas semblée former d”ampoule avant de se jeter dans
”estomac". Fir die typischen, hartstieligen Sycozoa kann ich das

von Caullery nur fraglicherweise angegebene Fehlen einer Blase
am Ausfihrgang der' darmumspinnenden Driise sicher nachweisen.
Bei zwei gut konservierten Kolonien der $. sigillinoides Lesson
vom Pazifischen Ozean vor Peru (20? S., 78? W.) und von der
Magalhaensstrasse bei Punta Arenas,
sowie bei einer gut konservierten
Kolonie der S$. gaimardi (Herdm.)
von dem gleichen sidlichen Fund-
ort konnte ich den Ausfihrgang der
darmumspinnenden Driise an liik-
kenlosen Schnittserien vom seiner
Einmindung in den Magen bis zum
Enddarm zurickverfolgen. Er stellt
sich als gut fårbbarer, diinner, aber
verhåltnismåssig dickwandiger ein-
facher Schlauch von etwa 7bis 10 w
Dicke" "dar "der sichkberksssrere
noides unmittelbar am Enddarm, bei
Fig. 11. Distaplia cylindricaLess.,Långs- SS. gaimardi eine kurze Strecke vor
schnitt durch das Åbdomen, a einer aus- = jj
gewachsenen 3 Person, b einer jungen Erreichung des Enddarms verzweigt.
2 Person ; ag = Ausliihrgang, b1=Sam- Fijr die typischen Distaplia-Arten
melblase, dd = Driisenschlåuche der $ Eg is

durfen wir wohl das ståndige Vor-

darmumspinnenden Driise, ed = End-

darm ; hd = Hode; md == Mitteldarm ; kommen dieser Blase annehmen.
mg = Magen; oe = Osophagus; ov = x z å
Ovarium ; slå = Samenleiter; X 52. Dass ihrer in den Beschreibungen,

zumal in den ålteren, so selten Er-

wåhnung geschieht, liegt wohl daran, dass sie håufig von den Go-
naden verdeckt wird und dann schwer zu erkennen ist. Einer ein-
gehenden Eréårterung bedarf wohl nur das Verhalten der D. cylin-
drica Lesson((JuliniataustralistCialman, 1c 18095 pE) an
lery war nicht ganz korrekt, als er (1. c. 1908, p. 45) sagte, dass
Julinia kaum von Distaplia zu unterscheiden sei: "Il n'a en propre
que la forme allongée de ses colonies.” Da er das Vorhandensein
einer Blase am Ausfihrgang der darmumspinnenden Driisse in die
Diagnose von Distaplia aufnahm, musste er /ulinia auch in Hin-
sicht auf dieses Organ von Distaplia trennen, denn in der ausfihr-

319

lichen Angabe Calman's, der diese Drise in ihrem ganzen Ver-
lauf schildert, wird nichts von einer Blase erwåhnt. fA series of
fnbules ==... funite to form a duct which crosses the intestinal
loup to open into the stomac at about its middle”, Calman's
Schilderung ist aber nicht ganz zutreffend. Ich habe sowohl in
Ganzpråparaten sowie in liickenlosen Schnittserien von mehreren
Personen der Distaplia cylindrica — diese Bezeichnung muss als
die giltige angesehen werden — das ståndige Vorhandensein einer
charakteristisch gestalteten Blase am Ausfihrgang der darmum-
spinnenden Drise sicher nachweisen kånnen. Zur Untersuchung
dienten mir die etwa 1 mm langen jungen Personen einer weib-
lichen Kolonie (Fig. 116) von Siid-Georgien und die ausgewach-
senen Personen einer månnlichen Kolonie (Fig. 114) vom Smyth
Channel, West-Patagonien. Im Wesentlichen ist der Ausfihrgang
der-Drise bei allen untersuchten Personen, einer ziemlich grossen
Zahl, gleich gestaltet, in der Lagerung zeigt er bei den Stiicken
verschiedener Herkunft insofern einen betråchtlichen Unterschied,
als er bei den jungen Personen der siid-georgischen Kolonie gerade
von vorn nach hinten verlåuft, wåhrend er bei den ausgewachse-
nen Personen von der west-patagonischen Kolonie das Darmschleifen-
Lumen in wenig schråger Richtung quer iberspannt. Dieser Unter-
schied beruht offenbar auf einer Verschiebung der verschiedenen
Darmabschnitte und damit der Endpunkte des Driisen-Ausfiihrganges
bei dem ungleichen Wachstum des Darmkanals. Der Driisen-Aus-
fuhrgang (Fig. 11 ag) beginnt in beiden Stadien am Magen mit
einem nicht ganz die Hålfte ausmachenden, ungefåhr 10 w dicken,
einfachen, dickwandigen Schlauch mit sehr engem Lumen, der sich
ziemlich plåtzlich zu einer lang gestreckten, ungemein diinnwan-
digen Blase (Fig. 11 bl) erweitert. Bei den jungen Personen ist
diese sich distal spitz kegelfårmig zu dem diinnen distalen End-
schlauch verengende Blase walzenformig, ungefåhr 20 w dick, bei
den ausgewachsenen Personen ist sie eher als schlank-birnformig
zu bezeichnen, etwa 50 w dick. Der dicke proximale Pol der Blase
ist bejim Anstossen an den Enddarm etwas rektalwårts umgeknickt
und geht in ziemlich scharfem Absatz in den wieder dinn schlauch-
formigen proximalen Teil des Ausfiihrganges iiber, der, an die Wand
des Enddarms angeschmiegt, sich bald in die dinnen Driisen-
schlåuche zu veråsteln scheint. (Veråstelung nicht genau erkannt,

320

allerdings auch nicht geradezu untersucht). In beiden Fållen streicht
der Driisen-Ausfuhrgang, das Lumen der Darmschleife iiberspannend,
dicht an der Gonade entlang, bei den ausgewachsenen månnlichen
Personen schråg hinten-ventral an der aus einer grossen Zahl ver-
håltnismåssig kleiner Hodenblasen bestehenden rosettenformigen
Hode (Fig" I1a, Ad), bei den jungen weiblichen Personen ventral
an den noch sehr kleinen Ovarien (Fig. 11b o0v), deren Struktur
(infolge unginstiger Konservierung) nicht ganz klargestellt werden
konnte, die aber in ihrer Aussenpartie schon einige etwas grås-
sere Eizellen erkennen liessen, wåhrend sie im Mittelpunkt einen
rundlichen, von einer dinnen, stårker fårbbaren Epithelschicht aus-
gekleideten Hohlraum, offenbar eine in den Eileiter ibergehende
Ovarialhohle, aufwiesen. D. cylindrica steht nach der Gestaltung des
Ausfihrgangs der darmumspinnenden Drise mit seiner fast noch
schlauchformigen Blase dem urspringlichen Zustand, wie ihn "Sy-
cozoa sigillinoides mit der einfachen Schlauchform des Ausfiuhr-
ganges zeigt, noch ziemlich nahe, wåhrend Distaplia fasmeriana
mit der beiderseits scharf abgesetzten Kugelform der Blase das
andere Extrem der Bildungsreihe darstellt. Die Spindel- und Ellip-
soid-Formen der Blase bei verschiedenen anderen Distaplia-Arten
bilden vermittelnde Glieder.

Fur die Formen der cerebriforme-Gruppe finde ich weder bei
Caullery noch bei einem anderen Autoren eine Mitteilung uber
dieses Organ. Meine eigenen Untersuchungen an lokaltypischem
Material ergaben, dass bei allen Formen eine Blase am Ausfihr-
gang der darmumspinnenden Drise vorhanden, aber vielfach nur
schwer nachweisbar ist; allerdings ist im letzteren Falle die darm-
umspinnende Driise, deren Fehlen doch nicht angenommen werden
kann, uberhaupt nicht klar nachweisbar, sei es nun infolge ungin-
stiger Konservierung oder infolge von Verzerrung. Auffallend ist,
dass die Gestalt der Blase, die doch sonst artlich sehr konstant zu
sein scheint, bei verschiedenen Kolonien der cerebriforme-Gruppe
betråchtliche Verschiedenheiten aufweist (siehe unten!). Gemeinsam
ist den verschiedenen Befunden nur der Charakter, dass die Blase
verhåltnismåssig weit vom Magen entfernt liegt und sich meist in
ganzer Långe an den Enddarm anlehnt.)”)

1) Anhangsweise mag hier erwåhnt werden, dass sich die Bildung einer
Blase am Ausfihrgang der darmumspinnenden Driise nicht auf die Gat-

321

Als Schlussfolgerung ergibt sich aus diesen Erårterungen, dass
sich die Gattung Distaplia durch den Besitz einer artlich charak-
teristisch gestalteten Blase am Ausfiihrgang der darmumspinnenden
Drise scharf von den typischen, hartstieligen Sycozoa, bei denen
dieser Ausfihrgang in ganzer Långe einfach diunn-schlauchfårmig
ist, unterscheidet, und dass sich die Formen der cerebriforme-
Gruppe in dieser Hinsicht an Distaplia anschliessen.

Geschlechtsverhåltnisse: In- dieser Hinsicht- steht die
Gattung Sycozoa samt der cerebriforme-Gruppe einheitlich da, inso-
fern offenbar bei allen ihren Arten die Kolonien getrenntgeschlecht-
lich sind, wie schon 1896 Caullery”) fir die typischen hartstie-
ligen Arten nachwies, und wie es spåter von Caullery (1. c. 1908,
p. 6) und mir (1. c. 1923, p. 23) auch fir die cerebriforme-Gruppe
(S. cerebriformis und S… arborescens) festgestellt wurde. Ich kann
diese Feststellung nun nach der Untersuchung des Materials von
Port Western und von Westaustralien beståtigen. In der Gattung
Distaplia s. s. kommen dagegen sowohl Arten mit getrenntgeschlecht-
lichen Kolonien vor, sowie solche mit Kolonien, deren Personen
zwittrig sind. Diese letztere Form iiberwiegt bei weitem, und dies
setzt Distaplia in Gegensatz zu Sycozoa, ohne eine scharfe Sonde-
rung zu ermåglichen. Nicht nur die oben beschriebene Distaplia
fasmeriana, sondern auch einige andere Arten dieser Gattung, so
D. cylindrica Lesson (siehe /ulinia ignotå, W. Michaelsen, l.c.
1907, p. 41), wahrscheinlich auch D. confusa Ritter (l. c. 1901,

tung Distaplia, ja nicht einmal auf die Fam. Polycitoridae beschrånkt.
Eine gleiche Bildung fand ich bei dem Synoiciden Synoicum haeckeli
(Gottschaldt), von dem ich eine ganz vorziglich konservierte Kolonie
des Originalmaterials untersuchen konnte. Bei dieser Art erweitert sich
der ungemein diinne, vom Enddarm her gerade nach vorn zum Magen
hin verlaufende Ausfiihrgang der darmumspinnenden Drise bevor er die
Håhe des Pylorus erreicht plåtzlich zu einer grossen, ungefåhr 260 4
dicken, annåhernd kugeligen Blase mit sehr dinner, aber anscheinend
zåher Wandung. Je nach der Kontraktion der Person liegt diese Blase
ganz hinter dem Magen oder neben dem hinteren Pol des Magens. Diese
Bildung war bei allen nåher untersuchten Personen durchaus klar und
in die Augen fallend; es wundert mich, dass sie weder von Gott
schaldt noch von Hartmeyer, der ebenfalls Originalmaterial unter-
suchen konnte und dessen prachtvollen Erhaltungszustand hervorhebt,
erwåhnt wird. i

2) Caullery, 1896, S. 1. Synascid. Colella polymorph. bourgeons, p. 1066.

Vidensk. Medd. fra Dansk naturh. Foren. Bd. 77. 21

322

p. 247) und vor allem der Typus der Gattung, D. magnilarva D. V.7),
besitzen' getrenntgeschlechtliche Kolonien. Fir D. magnilarva hat
Della Valle dies schon in der Originalbeschreibung von 1881
ausgesprochen. Diese Angabe wurde spåter von Lahille”) als
irrtumlich bezeichnet, mit Unrecht. Abgesehen davon, dass jener
Befund angesichts des Vorkommens der gleichen Bildung bei der
nahe verwandten Gattung Sycozoa nichts Befremdendes besitzt,
konnte seine Richtigkeit auch an der Hand neuerer Untersuchung
von andéren Forschern beståtigt werden, so von Caullery?) Ich
vermute, dass Lahille's Material der zweiten, durch Zwittrigkeit
der Personen charakterisierten Mittelmeer-Art der D. rosea D. V.
(1. c. 1881, p. 19) zugeordnet werden miisse, deren Originale viel-
leicht nur weniger ippig entwickelte Kolonien der Lahille'sehen
D. magnilarva (non Della Valle) darstellen; sagt Lahille doch
(1. c. 1890, p. 174): fTous les caractéres anatomiques de D. rosea
se retrouvent chez les jeunes D. magnilarva. La taille seule reste
toujours trés différente.” Diese letzte Einschrånkung halte ich fir
bedeutungslos. Meiner Ansicht nach ist D. rosea auch von anderen
Forschern verkannt worden. So ist dieser Art meiner Ansicht nach
auch die von der marokkanischen Kiiste (Tangier Bay) stammende
Kolonie von D. vallii Herdm. (1. c. 1886, p. 129, Taf. XVII Fig. 2)
zuzuordnen. Ich beschrånke deshalb den Begriff D. vallii auf das
Philippinen-Material, das der speziellen Beschreibung Herdman's
zu Grunde lag, also als Typenmaterial anzusehen ist, ausgezeichnet
durch eine deutlich ausgesprochene, auch in der Abbildung (l. c.
Taf. XVII Fig. 1) erkennbare Bildung von Meridionalreihen-Syste-
men, von denen in der Abbildung der angeblich der gleichen Art
angehårenden marokkanischen Kolonie (/ D. rosea) nichts zu er-
kennen ist. Van Name stellt zu dieser D. vallii eine Anzahl
Kolonien aus dem Malayischen Archipel (von der Insel Jolo und
den Sulado- und Sirun-Inseln), die eine derartige Reihen-Anordnung
der Personen nicht aufweisen, sondern, soweit eine Anordnung
uberhaupt erkennbar ist, auf leicht eingedruckten Feldern kleine
einfache Systeme oder unregelmåssig umrissene Systeme verschie-

1) A Della Valle, 1881, N. Contr. Ascid. comp. Napoli, p. 6? 7.
2 F.Lahille, 1890, 'Rech. Tunic., p. 157.
SSMSCaullerym1895EContr ErTAScCId COM pPENp EST

323

dener Gråsse.!) Ich bezweifle, dass diese malayischen Kolonien
der philippinischen D. vallei zugeordnet werden diirfen, halte es
sogar fir unwahrscheinlich, dass wir es bei diesen Van Name'-
schen Formen mit einer einzigen Art zu tun haben. Nach meinen
Erfahrungen ist die Struktur des Magens im wesentlichen fir die
Art konstant. Jene malayischen Formen sollen aber zum Teil einen
glattwandigen, zum Teil einen an der Innenseite långsgefurchten
Magen aufweisen. Darauf, dass auch die Kolonieform bei jenen
malayischen Stiicken so verschiedenartig ist, måchte ich weniger
Gewicht legen, wenn auch bei den von mir untersuchten Materi-
alien die Kolonieform jeder Art charakteristisch erschien, entweder
gestielt oder polsterfårmig.

Brutsåcke: In dem ausnahmslosen Vorkommen dieser Bil-
dungen stimmen alle Arten der Gattungen Distaplia und Sycozoa
uberein. Fraglich ist aber, ob in der Zahl der in einer Bruttasche
grossgezogenen Embryonen ein Merkmal fir die Unterscheidung
gewisser Gruppen liegt. Wåhrend wir in der Gattung Distaplia so-
wohl Arten mit mehreren Embryonen, sowie solche mit je einem
in einer Bruttasche antreffen, scheinen sich die beiden iibrigen
Gruppen durch eine Verschiedenheit in dieser Zahl von einander
zu unterscheiden. Bei den typischen hartstieligen Sycozoa hat man,
falls tuberhaupt weibliche Kolonien mit Brutsåcken zur Beobachtung
kamen, stets mehrere Embryonen in einem Brutsack angetroffen ;
bei der einzigen Form der cerebriforme-Gruppe, uber die eine dies-
bezigliche Beobachtung vorliegt, nåmlich bei dem Typus dieser
Gruppe, fand Caullery nur eine einzige Larve im Brutsack (l.c.
1908, Textfig. Il; siehe auch die Unterschrift!).

Als durchgehender Unterschied zwischen Distaplia und Sycozoa
ist vielleicht die Gestaltung der Larven anzusehen. Nach Caullery
(1. c. 1908, p. 44, 45) unterscheiden sich die reifen Larven der
Distaplia-Arten durch friihzeitige Knospenbildung von den reifen
Larven der Gattung Sycozoa, und zwar sowohl der typischen hart-
stieligen Formen wie auch der der cerebriforme-Gruppe, bei denen
die reifen Larven noch keine Spur von Knospen aufweisen. Caul-
lery hat aber nur einzelne Arten auf diese Verhåltnisse hin unter-

1) Holozoa vallii, Van Name, 1918, Ascid. Philippines adj. waters, p. 140,
Taf. III Fig 47, 48, Textf. 93.

23%

324

sucht. Es scheint mir deshalb fraglich, ob wir es hier in der Tat
mit einem durchgehenden Unterschiede zu tun haben.

Zum Schluss stelle ich zur besseren Ubersicht die in Betracht
kommenden Charaktere der 3 hier erårterten Artgruppen in einer
Tabelle zusammen :

Distaplia s. s. sk. OSSE Sycozoa s. s.
ungestielt oder mit p mit långerem,
| ÆDE iz 3
Kolonie | kurzem, fleischigem mu kurzem, hartem Uberwin-
| ; fleischigem Stiel :
Stiel terungsstiel
|kleine geschlossene
Personen- || Figuren oder meri- meridionale meridionale
Systeme | dionale Doppel- Doppelreihen Doppelreihen
" | reihen
Parastigmatische eE 3);
Quergefåsse am | messe SS) Ever fehlen fehlen
: handen
Kiemensack
mit Netz- oder
Magen Långsfurchung oder glattwandig glattwandig
glattwandig
Darmumspin- - o
PERLE UNE] mit Blase mit Blase ohne Blase
Geschlechts- BErsanen zwittrig (Kolonien getrennt- (Kolonien getrennt-
verhåltnisse OgE Eko lene DRE Es eschlechtlich eschlechtlich
|| trenntgeschlechtlich 8 8

Zahl der Em-
bryonen im 1 oder mehrere 1 mehrere
Brutsack
Ausgewachsene (stets ?) mit ohne ohne
Larven Knospenbildung Knospenbildung | Knospenbildung

Aus dieser Zusammenstellung ist folgendes ersichtlich.

Distaplia s. s. ist eine vielgestaltige Gruppe, die in einigen Ar-
ten auch gewisse Bildungen zeigt, die bisher fir Sycozoa s. s. und
die cerebriforme-Gruppe oder fir einen Teil derselben charakteri-
stisch erschienen. Die cerebriforme-Gruppe schliesst sich unter Aus-
bildung geringfigiger Sondercharaktere (Fehlen der parastigmatischen
Quergefåsse am Kiemensack, vielleicht auch Nichteintreten von
Knospenbildung an den ausgewachsenen Larven) eng an Distaplia
s. S. an, wåhrend Sycozoa s.s. sich als eine Kaltwasserform (Uber-

325

winterungsstiel) darstellt, die sich von den typischen Distaplia noch
weiter entfernt als die cerebriforme-Gruppe. Wenngleich die cere-
briforme-Gruppe in mancher Hinsicht zwischen Distaplia s. s. und
Sycozoa s. s. vermittelt, so scheint sie in anderer Hinsicht (Ein-
zahl der Embryonen im Brutsack) doch auf anderem Wege als
Sycozoa s. s. aus Distaplia hervorgegangen zu sein. Es ist frag-
lich, an welcher Stelle ein Schnitt durch die ganze Ascidiengruppe
zur Sonderung der Gattungen anzusetzen habe. Die Entscheidung
wird erschwert durch den Umstand, dass wir von manchen Bil-
dungen nicht wissen, ob sie bei allen Arten einer Sondergruppe
auftreten und demgemåss fir die Sondergruppe charakteristisch
seien. Die Frage geht schliesslich darauf hinaus, ob die cerebri-
forme-Gruppe, die kaum als eigene Gattung angesprochen werden
kann, an Distaplia oder Sycozoa anzuschliessen sei. Meiner Ansicht
nach ist das Vorkommen einer Blase am Ausfiihrgang der darm-
umspinnenden Drise massgebend fir die Angliederung der cere-
briforme-Gruppe an Distaplia. Nach diesem Entscheid wirden die
Diagnosen der ihrem Inhalt nach verånderten Gattungen Distaplia
und Sycozoa die oben angegebene Fassung erhalten.

Erorterung iiber Distaplia cerebriformis (Quoy & Gaim.)
und Verwandte: Anhangsweise mågen hier noch einige Mitteilungen
und Uberlegungen Platz finden, die auf Untersuchungen neueren
Materials der cerebriforme-Gruppe beruhen. Hervorragende Be-
deutung hat dabei das von Th. Mortensen auf seiner Pacific-
Expedition in Port Western!) gesammelte Material, das als
Lokaltypus fir Aplidium cerebriforme angesehen werden darf. Dazu
kommen noch einige von Hartmeyer und mir gesammelte Kolo-
nien von West-Australien (ohne nåheren Fundort) und von
Nordwest-Australien>”), die als Lokaltypen fir Sycozoa cere-
briformisittÆintermedia Hartmeyer (17019195 p:124) ”gelten
kønnen, sowie die schon friiher von mir (1. c. 1923, p. 22) be-
sprochenen Kolonien vom Gebiet des Kaplandes, gewissermassen
Lokaltypen der Sycozoa arborescens Hartmeyer (l.c. 1912, p. 316).

Hartmeyer vereint in seiner neueren Arbeit (1.c. 1919, p. 124)

1) Genauere Fundangabe: Victoria, Port Western, 5—10 Fd.; Dr. Th.
Mortensen, 6. September 1914.

) Genauere Fundangabe: Nordwest-Australien, Port Hedland,
HOBIE SFESTS40O Gale; Juli 1905:

2

326

seine kaplåndische S. arborescens als f. arborescens und seine Form
von Nordwest-Australien als f. intermedia unter gewissem Vorbehalt
mit der siid- und sidost-australischen S. cerebriformis (Quoy &
Gaim). Er glaubt diese drei Formen nach der verschiedenen
Gestaltung der Kolonne als' Lokalformen! "deuten "zuFsollem
Die Berechtigung einer Formensonderung nach diesem Gesichts-
punkte erscheint mir fraglich. Ich kann in der, meiner Schåtzung
nach, geringfiigigen Verschiedenheit der Kolonieform keinen Grund
zur Sonderung von Formen oder gar Arten sehen. Schon die Herd-
man'schen Abbildungen zahlreicher Kolonien seiner Colella pli-
eata"), einem Synonym von Sycozoa cerebriformis, zeigen eine grosse
Variabilitåt der Koloniegestalt, und Caullery's Colella incerta (1. c.
1908, p. 10, Textfig. 2 B), mutmasslich von dem gleichen Fundort
wie Sycozoa cerebriformis, jedenfalls aber von Sid- oder Suidost-
Australien, stimmt in der Gestalt des Koloniekopfes ganz mit S.
arborescens uberein. Auch mein lokaltypisches Material von Port
Western åhnelt zum Teil mehr der f. arborescens als der f. typica,
und bei dem Material von Port Hedland bin ich im Zweifel, ob
ich es der f. arborescens oder der f. intermedia zuordnen miisste.
Es kann also von einer Sonderung in Lokalformen nach der Kolo-
niegestaltung nicht die Rede sein. Mutmasslich hat der Standort,
ob mit ruhigem eder mit bewegterem Wasser, einen Einfluss auf
die mehr lockere oder mehr geschlossene Bauart der Kolonie.

Fårbung: Das in Formalin konservierte Material von Port
Western hat seine ursprungliche Fårbung anscheinend unveråndert
oder wenig veråndert erhalten. Die Kolonien verschiedener Lebens-
stadien sind verschieden gefårbt. Einige Kolonien mit lediglich un-
ausgewachsenen Geschlechtspersonen (teils månnliche, teils weibliche
Kolonien) sind durchweg lebhaft bråunlich rot. Bei einigen Kolo-
nien mit gråsseren, anscheinend ausgewachsenen, aber geschlechts-
losen Personen zeigt nur die Stielregion ein solches bråunliches
Rot, wåhrend die mit den Personensystemen ausgestattete Kopf-
region einen blåulich grauen Farbenton aufweist.

Kiemensack konstant mit 4 Kiemenspaltenzonen, ohne para-
stigmatische Quergefåsse.

1) W. A. Herdman, 1899, Deser. Cat. Tun. AustraJ. Mus., p. 62, Taf. Dist.
II Fig. 1—11.

327

Darm eine einfache, ziemlich stark klaffende Schleife bildend.
Darmumspinnende Driise mit Blase, die verhåltnismissig
weit von der Einmiindung in den Magen entfernt liegt und bei
grøåsseren Personen eine mehr oder weniger dicke, schlauchfårmige,
bei kleineren, unausgewachsenen Personen eine scharf abgesetzte,
ovale oder gerundet kastenfårmige bis fast kugelige Erweiterung
des eng schlauchfårmigen Ausfihrganges der Driise darstellt.

Wachstums- und Geschlechtsverhåltnisse: In jeder unter-
suchten Kolonie zeigen die Personen, unter Umstånden allerdings mit
Ausnahme der an der Basis des Kopfes sitzenden, nur geringe Ver-
schiedenheiten des Wachstums- und Geschlechtszustandes. Diese Per-
sonen sind såmtlich klein und unausgewachsen oder såmtlich gross und
ausgewachsen, andererseits såmtlich geschlechtslos oder, wenn nicht
såmtlich, so doch zum grossen Teil mit Geschlechtsorganen versehen,
lediglich mit månnlichen oder lediglich mit weiblichen (also Kolo-
nien diåcisch). Die zur Beobachtung gelangten geschlechtslosen
Kolonien enthalten nicht etwa kleine Personen, sondern grosse,
anscheinend voll ausgewachsene Personen, wåhrend sich Geschlechts-
organe andererseits ebensowohl bei kleinen, etwa I mm langen un-
ausgewachsenen, wie bei gråsseren, anscheinend ausgewachsenen
Personen finden. Geschlechtsorgane treten schon bei Personen auf,
die noch nicht zur Nahrungsaufnahme befåhigt sind, deren Darm
noch durchaus leer ist. Diese verschiedenen zur Beobachtung ge-
langten Zustånde lassen sich nur durch Annahme einer Art Ge-
nerationswechsel der Personen innerhalb einer Kolonie erklåren.
Eine Generation von Personen (wenn nicht mehrere) befasst sich
nur mit der Nahrungsaufnahme und Aufspeicherung von Nahrungs-
material. Die Personen dieser Generation sind und bleiben ge-
schlechtslos. Die Personen einer spåter auftretenden Generation
bilden schon frihzeitig, lange bevor sie ausgewachsen und zur
Nahrungsaufnahme befåhigt sind, Geschlechtsorgane aus. Das Wachs-
tum dieser spåteren Generation geschieht offenbar wenigstens zeit-
weilig nur auf Kosten des von der friiheren Generation beschafften
Reservematerials. Eine Zeitlang, da die Personen der ålteren Ge-
neration schon såmtlich verschwunden sind und die unausgewach-
senen der jiingeren Generation noch keine Nahrung aufnehmen
kånnen, ist die Kolonie lediglich auf Reservematerial angewiesen.
Dieser Generationswechsel zwischen ungeschlechtlichen und ge-

328

schlechtlichen Personen scheint von jahreszeitlichen Verhåltnissen
unabhångig zu sein, was bei einer ausgesprochenen Warmwasser-
form auch einleuchtend ist, und was dadurch offenbar wird, dass
sich in dem Material aus Port Western vom 9. September 1914
neben einander Kolonien mit lediglich sehr jungen geschlechtlichen
Personen und Kolonien mit lediglich ausgewachsenen ungeschlecht-
lichen Personen finden.

Weibliche Geschlechtsorgane: Ovarien nur in frihem
Stadium an sehr jungen, unausgewachsenen Personen beobachtet,
rechterseits am riicklaufenden Darmschleifen-Ast eine kurze Strecke
vor dem Wendepol sitzend, manchmal in das Lumen der Darm-
schleife hinein gedrångt, in der Regel mit 2 sehr verschieden
grossen Eizellen (gråsste beobachtete am Ovarium sitzende Eizelle
ca. 160 w dick). Eileiter als sich verschmålernde Rohre vom
Ovarium am riicklaufenden Darmschleifen-Ast gerade nach vorn
hin verlaufend. Brutsack nur in sehr fruhem Stadium und un-
gefillt beobachtet, als engstieliger, schlank birnfårmiger Anhang
von nicht ganz einfachem Bau dorsal am Hinterende des Thorax.
An durchsichtig gemachten, mit Pikrokarmin gefårbten Personen
sieht er aus wie eine schlank gestaltete elektrische Birne, in deren
Lumen vom engen Stiel her ein dunkierer, im breiten Pol der Birne
verbreiterter und låffelartig ausgehåhlter Stab (eine Rohre?, offenbar
das åussere Ende des Eileiters) hineinragt. Nach Caullery (l. c.
1908, p. 7, Textfig. II, Unterschrift) beherbergt der Brutsack bei
dieser Art nur einen einzigen Embryo.

Månnliche Geschlechtsorgane: In meiner Erårterung
iiber S. arborescens (1. c. 1923, p. 22) behauptete ich, dass diese
Art in Hinsicht der månnlichen Geschlechtsorgane — in der Regel
nur 2 Hodenblasen in einer Hode, ausnahmsweise 3 — von allen
ibrigen Sycozoa-Arten, deren Geschlechtsorgane ich untersuchen
konnte, abwiche. Das ist zwar richtig, ich håtte aber hinzufigen
miissen, dass die Gestaltung ihrer Hode der von S. cerebriformis
f. intermedia Hartmr. sehr nahe kommt. Bei dieser Form setzt
sich die Hode ,aus wenigen grossen Follikeln”, nach der Abbildung
(L..c. 1912, Taf. 2 Fig. 60) aus 4, zusammen; die Zahl'der"Hoden:
blasen ist also nur ein Geringes gråsser als nach meinem Befund
bei S. arborescens. Meine neuere Untersuchung hebt diesen Unter-
schied ganz auf. Ich fand nåmlich an einem anderen Bruchsticke

329

der gleichen Kolonie, wenn nicht einer anderen von dem gleichen
Fundort stammenden Kolonie der kaplåndischen S. arborescens (Du-
blette des nach Stockholm zuriickgesandten Hauptmaterials) die Ho-
den vorwiegend aus 4, seltener aus 3 oder 2, einmal vielleicht sogar
aus 5 Hodenblasen (dies nicht ganz sicher erkannt) zusammengesetzt.
Nach diesem neuen Befund erscheint mir eine artliche Sonderung
von S. arborescens und S. cerebriformis f. intermedia auch auf Grund
dieses Organsystems ganz ausgeschlossen, und da ich eine Sonderung
nach der Koloniegestaltung aus dem oben angefiihrten Grunde in
diesem Falle auch nicht als berechtigt anerkennen kann, so muss
ich mich auch gegen eine Sonderung in verschiedene Lokalformen -
aussprechen. Ich verschmelze beide Formen. Wie stellen sich nun
die siid- und siidost-australischen Formen der cerebriforme-Gruppe
hierzu? Uber die månnlichen Geschlechtsorgane dieser siidlicheren
Formen finde ich nur eine wenig besagende Angabe Herdman's
uberksemeR Colella: plicata" (CX 1899 p 64), aus der "die Zahl
der Hodenblasen nicht zu ersehen ist, und eine genauere Angabe
Gaullernysstuber-seine Cincerta (Uc:1908 p 127 Texthig: 5)
Danach finden sich die Hodenblasen bei dieser Form, wie es auch
der Abbildung entspricht, ,au nombre d'une dizaine'". Wåhrend
Caullery also bei seiner S. incerta eine verhåltnismåssig grosse
Zahl von Hodenblasen fand, stimmt mein Untersuchungsmaterial
von Port Western auch in dieser Hinsicht durchaus mit dem kap-
låndischen und dem nordwest-australischen Material iberein. Ich
fand nåmlich bei einer månnlichen Kolonie die Hoden einiger we-
niger nåher untersuchter Sticke aus 2 oder 3 Hodenblasen zu-
sammengesetzt. Bei der in eine lickenlose Schnittserie zerlegten
Hode war eine Hodenblase .einfach, wåhrend die beiden anderen
Hodenblasen durch einen tiefen Kerbschnitt am breiten Pol zwei-
geteilt erschienen, eine Andeutung dafir, dass sich die Hode durch
weitere Teilung der einzelnen Blasen auch bei dieser Form in eine
noch gråssere Zahl von Teilsticken spalten mag. Eine beschrånkte
Variationsweite der Zahl der Hodenblasen ist also bei dieser Art
sicher nachweisbar. Fraglich bleibt nur, ob wir die Variationsweite
von 2—5 auf 2—10 ausweiten miissen bezw. diurfen? Vielleicht
handelt es sich bei jener S$. incerta gar nicht um 10 vållig geson-
derte Hodenblasen, sondern um eine geringere Zahl, deren einige
durch Kerbschnitte unvollkommen geteilt sind? Ich kann mir nicht

330

gut vorstellen, dass jene S. incerta tatsåchlich von dem ibrigen
australisthen Material der cerebriforme-Gruppe zu sondern sei, und
ich vereine deshalb alle Formen dieser Gruppe: ,,Aplidium cere-
briforme Qu. & Gaim., Colella plicata Herdm., C. incerta Caul-
lery, Sycozoa arborescens Hartmr. und S. cerebriformis f. inter-
media Hartmr.”" ohne weitere Varietåten- oder Formenspaltung
in der Art Distaplia cerebriformis (Qu. & Gaim.).

Erorterung iber Distaplia domuncula Hartmr. und Ver-
wandte: Im Jahre 1923”) beschrieb ich als neue Art eine Distaplia
aus kaplåndischen Gewåssern unter dem Namen D. domuncula. In-
folge eines literaturtechnischen Versehens hatte ich hierbei eine
Arbeit Hartmeyers, in der er unter dem gleichen Artnamen, als
Holozoa domuncula"), eine Distaplia aus dem gleichen Distrikt be-
schrieb, unberiicksichtigt gelassen. Wie sich nun auch meine Art zu
der Hartmeyer's stellt, diese letztere hat die Prioritåt und muss
als Distaplia domuncula (Hartmr.) bestehen bleiben, wobei das Material
Hartmeyer's von der False Bay als typisches anzusehen ist.

Es liegt der Gedanke nahe, dass diese aus dem gleichen Gebiet
stammenden, gleicherweise als Dromiden-Schutzhille verwendeten
Formen auch die gleiche Art darstellten. In der Tat zeigen sie,
auch abgesehen von der åusseren Form und dem inneren Bau der
Kolonie, bedeutsame Ubereinstimmungen. Diesen stehen aber einige
wesentliche Unterschiede gegeniber, die eine Vereinigung beider
Formen nicht angångig erscheinen lassen. Der Magen soll bei
Hartmeyer's Form an der Innenseite eine von Pigmentzellen
gebildete netzfårmige Zeichnung aufweisen, wåhrend er bei mei-
ner Form an der Innenseite schmale, niedrige Wålle trågt, die
in das Lumen des Magens hineinragen und in der Långsrichtung
verlaufen, gleichsam ein bis zum Kollabieren der Maschen in die
Långe gestrecktes Netz darstellend. Ferner sollen bei Hart-
meyer's Form die Kolonien, wie bei manchen anderen Distaplia-
Arten, eingeschlechtlich (in den zur Beobachtung gelangten
Fållen weiblich) sein, wåhrend bei meiner Form die Personen
zwittrig sind. Auch ist wohl die Lage der Gonaden bei beiden
Formen eine verschiedene. Ich glaube als sicher annehmen zu dur-
fen, dass Hartmeyer eine so charakteristische Bildung, wie sie

1) W. Michaelsen, 1923, Sudafric. Ascid., p. 15, Textfig. 3.

331

die Lagerung der Gonaden bei meiner Form (in bruchsackartiger
Vorwålbung) ist, beobachtet und erwåhnt håtte.

Da ich eine Identitåt beider Formen nicht wohl annehmen kann,
so bezeichne ich meine Form von Walker Bay jetzt als Distaplia
skoogi nom. nov.

Fam. Didemnidae.
Gen. Leptoclinides Bjerk.
Leptoclinides diemenensis n. sp.

Fundangabe: Neuseeland, Nord-Insel, Cape Maria van
Bremen "50"Fd; harter=Boden;" 5: Jan..1915.

Beschreibung: Gestaltung der Kolonie dick krustenfårmig
bis polsterformig, etwa. 2—9 mm dick, an einzelnen Stellen an-
scheinend noch dicker, doch handelt es sich hier anscheinend um
stengelumwachsende Scheinmassen bezw. Doppellamellen. Die vor-
liegende Kolonie scheint einem flåchenhaften, aber unebenen Unter-
grunde locker aufgewachsen gewesen zu sein, ist aber von unregel-
måssig stengeligen Fremdkårpern durchsetzt, die auch als Teil des
Untergrundes angesehen werden miissen, und die offenbar den un-
regelmåssigen Hervorragungen und Verdickungen der Kolonie als
Stiitze dienten.

Aussehen der Kolonie schwach wachsartig durchscheinend,
hell råtlich grau.

Oberflåche der Kolonie auch abgesehen von den Uneben-
heiten, die durch den unregelmåssigen Untergrund verursacht sind,
ziemlich uneben, nur an kleinen Teilen eben. Unebenheiten hervor-
gerufen stellenweise durch nicht iiberall ausgeprågte klein-polster-
formige Erhabenheit der Personen-Aussenflåchen und vielfach nie-
drig-warzenfårmige Erhabenheit der Branchialdffnungen. Oberflåche
der Kolonie im feineren etwas rauh.

Branchialoffnungen unregelmåssig iber die Oberseite der
Kolonie zerstreut, stellenweise ziemlich dichte Gruppen bildend,
stellenweise spårlich, an manchen ziemlich umfangreichen Stellen
sowie an der Unterseite der Kolonie ganz fehlend. Die Branchial-
offnungen (Fig. 12 b, c, d) erscheinen als winzige sternfårmige Spalt-
offnungen, die bei regelmåssiger Ausbildnng einen Dreistrahler mit
gegabelten Strahlen, also eine Umbildung des Sechsstrahlers, dar-

332

stellen. Es zeigen sich jedoch vielfache Unregelmåssigkeiten in
der Strahlenfigur, wenngleich die Sechszahl der Strahlen-Enden an-
scheinend stets beibehalten ist. Die Branchialoffnungen liegen
håufig auf niedrig-warzenformigen Erhabenheiten, manchmal aber
auch unmittelbar auf der Personen-Aussenflåche, die ihrerseits
schwach konvex vorspringt oder nicht erhaben ist.

Kloakaloffnungen nicht sicher nachgewiesen.

Zellulosemantel weich knorpelig, ziemlich zåh, mit etwas
festerer Oberflåchenschicht. Blasenzellen an der Oberflåche
in etwa 3- bis 5-facher dicht zedrångter Lage eine ziemlich scharf
begrenzte Rindenschicht bildend. Die Wandungen dieser Rinden-
schicht-Blasenzellen sind allseitig zart. Gegen die Branchialoff-
nungen nimmt diese Rindenschicht an Dicke ab. Im Umkreis der
Branchialoffnungen von etwa 3-facher Branchialsipho-Breite ist die
Rindenschicht unterbrochen. In den inneren Teilen des Zellulose-
mantels finden sich im allgemeinen nur spårliche zerstreute Blasen-
zellen; zu dichteren, wenn auch nicht gedrångten Schwårmen ver-
mehren sich die Blasenzellen wieder in den tieferen Schichten des
Zellulosemantels, unterhalb der Schicht der Kloakalråume. Kalk-
kårper ziemlich regelmåssig morgensternfårmig, etwa bis 48 w dick,
meist etwas oder viel kleiner, mit kegelfårmigen, spitzwinkligen
(Spitzwinkel ca. 45), ziemlich scharf spitzigen Stacheln, etwa 8 bis
10 im Umkreis des optischen Åquatorialdurchschnittes. Die Kalk-
kårper sind, abgesehen von den dichten Klumpen an den Seiten-
organen und in den Branchialsiphonen, sehr locker zerstreut, am
dichtesten in der Schicht unterhalb der Rinde, im iibrigen meist
spårlich, nur in den tieferen Schichten stellenweise wieder deut-
liche Schwårme bildend. Sehr spårlich treten sie in der Rinden-
schicht auf, etwas håufiger noch -an der Aussenseite der Rinden-
schicht. Hier bilden die einzelnen Kalkkårper winzige warzenfår-
mige Hervorragungen, durch die die Rauheit der Kolonie-Ober-
flåche hervorgerufen wird. Pigmentzellen sind nicht aufgefun-
den worden.

Kloakalsystem ein unregelmåssiges Labyrinth von weiten
Håhlungen und engeren Kanålen in der Horizontalschicht dicht
unterhalb der Thoraces.

Personen (Fig. 12 a) mehr oder weniger genau senkrecht zur
Oberflåche der Kolonie gestellt, bei gerader Streckung etwa bis
2!/» mm lang.

333

Thorax infolge der eigentimlichen Gestaltung des Atrialsiphos
im Profil annåhernd rechtwinklig dreiseitig.

Branchialsipho gerade am Vorderende des Thorax, lang und
schlank, in der Mitte etwas verengt, gegen die Enden etwas er-
weitert, mit nur måssig star-
ker Ringmuskulatur, am api-
kalen Rande mit 6 håufig sehr
undeutlichen, håchstens sehr
schwach vorspringenden, sehr
stumpfen Zåhnen, nicht eigent-
lich gelappt. Die deutlicher
ausgeprågten Lappen, auf de-
nen die charakteristische
strahlige Gestalt der -Bran-
chialoffnungen beruht, sind
Bildungen des Zellulose-
mantels.

Atrialsipho mit seiner
Basis die hintere Hålfte oder
mehr von der Rickenseite des
Thorax einnehmend, auf ke-
gelformig verjiingter Basal-
partie mehr oder weniger
lang réhrenfårmig schråg nach
hinten-unten ragend, wie ein
Rissel aussehend, der seine
Mindung in eine der ziem-
lich tief liegenden Kloakal-

råume taucht, mit seinem Fig. 12. Leptoclinides diemenensis nm. sp.
ganzrandigen oder håchstens a = ganze Person von der rechten Seite,
b—c = Aussenflåchen dreier Personen mit

schwach und unregelmåssig Branchialdffnung, halb schematisch; X 50.
gekerbten Mindungsrande et-
was in den Kloakalraum vorragend. Ringmuskulatur des Atrial-
siphos schwach ausgeprågt. In måssig weiter Entfernung von der Min-
dung weist der Atrialsipho eine måssig breite Ringfalte, ein Atrial-
velum, auf.

Von einem Zurickzieher am Hinterende des Thorax fehlt
jegliche Spur.

334

Thorakale Seitenorgane bei allen in ginstiger Lage sich
darstellenden Personen (fast 100) erkannt, ungemein gross. Es
sind scharf abgesetzte, annåhernd kreisrunde napfformige bezw.
halbkugelige Einsenkungen der Leibeswand in die Peribranchial-
råume hinein, jederseits in der Håhe der dritten Kiemenspalten-
Zone etwas nåher dem Endostyl als der Riickenmittellinie ge-
legen. Die Håhlung dieses napfformigen Organs &ffnet sich fast
in ganzer Ausdehnung nach aussen; ihre Mindung ist nur durch
einen schmalen, nicht allseitig ausgebildeten Saum eingeengt. Diese
Seitenorgane miissen als innerliche bezeichnet werden, wenngleich
sie von den typischen ,inneren" Seitenorganen, wie sie z. B. Di-
demnum bistratum Sluit.”) aufweist (flaschenformig, durch eine
sehr enge Offnung ausmiindend), stark abweichen. Der Flåchen-
durchmesser eines solchen Seitenorgans betrågt ungefåhr 0,18 bis
0,2» mm. Die thorakalen Seitenorgane sind prall mit unausge-
wachsenen, kleinen und kleinsten Kalkkårpern gefillt, die sich als
breiter Schwarm aus der Offnung heraus zu ergiessen scheinen.

Taille lang und schlank, vom Thorax scharf, vom eigentlichen
Abdomen nicht ganz so scharf abgesetzt, ohne Einschnirung.

AÅAbdomen abgeplattet beutelformig, bei geschlechtsreifen Per-
sonen durch die Gonaden hinten-rechts mehr oder weniger auf-
gebeult. Ungefåhr in der Mitte der linken Seite entspringen aus
dem Abdomen in der Regel zwei Gefåssanhånge, deren einer
manchmal gegabelt oder gar biischelig verzweigt ist. Die Gefåss-
anhånge sind kirzer oder långer; der långste gemessene war ca.
8 mm lang. Es sind zarte Doppelråhren, die am Ende in eine
stårker fårbbare birnfårmige Anschwellung auslaufen. Die Gefåss-
anhånge ragen zum Teil weit in den personenlosen Basalteil der
Kolonie hinein.

Leibeswand zart, am Thorax jederseits mit etwa 9 zarten,
weitlåufig gestellten Långsmuskeln.

Branchialtentakel abwechselnd verschieden gross, an Zahl
anscheinend gering (etwa 16?).

Kiemensack mit 4 Kiemenspalten-Zonen. Nach ziemlich un-
sicherer Schåtzung am stark verschrumpften Objekt mindestens 12

1) W. Michaelsen, 1920, Krikobranche Ascid. westl. Ind. Oz.: Didemn.,
pyS2Mtextliors:

335

(mutmasslich noch einige mehr) Kiemenspalten in einer Halbzone.
Kiemenspalten lang und schmal.

Darm (Fig. 124) eine einfache, hinten etwas klaffende, in der
Regel am Taillenteil um ungefåhr 90? gedrehte Schleife bildend.
Osophagus lang und diinn, gerade gestreckt. Magen je nach
Streckung långlich oval oder mehr gerundet tonnenfårmig. Cardia
nicht gerade am vorderen Pol des Magens, sondern eine kurze
Strecke nach hinten verschoøben, mit Cardiawulst. Mitteldarm
kurz, vom Enddarm scharf abgesetzt, mehr oder weniger deutlich
in Nachmagen und Driisendarm gesondert. Bei Aufblåhung durch
Nahrungsmassen sind diese Verhåltnisse des Mitteldarms nicht deut-
lich erkennbar. Enddarm nicht besonders dick. After zwei-
lippig, hinten im erweiterten Basalteil des Atrialsiphos gelegen.

Geschlechtsapparat: Personen zwittrig. Ovarien rechts
am Wendepol der Darmschleife gelegen. Ausgewachsene Eizelle
am Ovarium ca. ”/3 mm dick. Hode dicht hinter dem Ovarium
an der Hinterseite des Abdomens gelegen, aus 4 oder 5 rosetten-
formig angeordneten, unregelmåssig birnfårmigen Hodenblasen be-
stehendikSamenlertertinl6odert7 ens anelinander gelegten
Spiralwindungen den kurzen Stielteil der Hodenblasenrosette um-
kreisend und als Kappe die Hodenblasenrosette aussen locker iiber-
deckend. Samenleiter nicht besonders angeschwollen.

Pylorische Knospung konnte nicht nachgewiesen werden;
dagegen sind vielleicht gewisse anscheinende Knospenbildungen im
personenlosen Basalteil des Zellulosemantels als stoløniale Knospung
anzusprechen.

Erorterung: L. diemenensis gehårt wie der unten als neu be-
schriebene L. sparsus zur Gruppe des L. brasiliensis Mich."), zu
der ausserdem noch L. dubius (Sluit.)”) zu stellen ist. Diese
Gruppe verhålt sich zu dem arktisch-atlantischen Typus der Gat-
tung, zu L. faeroerensis Bjerkan?), wie die Gattung Polysyncraton

1) W. Michaelsen, 1923, Neue u. altbek. Ascid. Reichsm. Stockholm,
py34 Rexthig: 6.

2) Polysyncraton dubium, C. Ph. Sluiter, 1909, Tunic. Siboga-Exp. II,
p69M Ta IV Fie" 3) Taf: VIP Fig 10: WE GSvaneN'amie1918TAscid.
Philippines adj. wat., p. 155, Taf. XXXI Fig. 30, Taf. XXXII Fig. 47, Taf.
XXXIII Fig. 49, Textfig. 107, 108. — R. Hartmeyer, 1919, Ascid.; in

Res. Sw. Exp. Austral. 1910—13, p. 136.
SRBÆB rer kan 1905FAseid: "Michael SarsÉ "pr" 20) Taf III Fig 48:

336

Nott zur Gattung Didemnum Sav. Schon Hartmeyer!) wies
auf die 'Unhaltbarkeit der Gattung Polysyncraton hin. Das Auf-
treten der gleichen Bildung, die zur Sonderung der Gattung Poly-
syncraton von Didemnum fihrte, bei Arten einer ganz anderen Di-
demniden-Gruppe, gibt der Anschauung von der systematischen
Minderwertigkeit dieser Sonderbildung eine weitere Stiitze.

L. diemenensis unterscheidet sich von allen anderen Arten seiner
Gattung durch die Gråsse der thorakalen Seitenorgane, die iibrigens
bei allen Leptoclinides-Arten, bei denen sie nachgewiesen wurden,
den gleichen Bildungscharakter aufweisen. Es sind bei Leptoclinides
stets breite, aber kurze, in die Peribranchialråume hineinragende
Såcke, die durch eine mehr oder weniger weite Offnung nach aussen
miinden, im Gegensatz zu den Didemnum-Arten mit innerlichen tho-
rakalen Seitenorganen, bei denen diese Organe birnfårmig sind, weit
und frei in die Peribranchialråume hineinragen und durch eine eng-
rohrenformige Offnung ausmiinden.

Im iibrigen unterscheidet sich L. diemenensis von den Arten
seiner Gruppe durch die aus gleichmåssig zartwandigen Blasen-
zellen bestehende Rindenschicht des Zellulosemantels, durch das
Fehlen jeglicher Pigmentzellen im Zellulosemantel und andere mehr
oder weniger bedeutsame Charaktere, wie Gråsse der Kalkkårper,
Zahl der Hodenblasen und Zahl der Sameunleiter-Windungen.

Leptoclinides sparsus n. sp.

Fundangabe: Neuseeland, Nord-Insel, vor New-Ply-
mouth es Ed stankPyurae pil (Sti) FRE Janlols

Beschreibung: Koloniegestaltung und Bodenståndig-
keit: Die einzige vorliegende Kolonie (Fig. 13) ist ziemlich locker
auf der sehr unebenen, sandigen Oberflåche einer Pyura pulla
(Sluit.) aufgewachsen und låsst es zweifelhaft, ob wir es hier im
wesentlichen mit einer Krustenform oder mit bandfårmig lang ge-
streckten, stellenweise veråstelten Polstern zu tun haben. Sie be-
steht der Hauptmasse nach aus etwa 2—3 mm breiten, in der
Mittellinie etwa 1—1!/» mm hohen polsterartig gewålbten Båndern,
die mit ihrer flachen oder gar etwas ausgehåhlten, scharfrandigen
Grundflåche iber die Pyura-Oberflåche hinzukriechen scheinen.

1) R. Hartmeyer, 1912, Ascid. Deutsch. Tiefsee-Exp., p. 325.

337,

Vielfach zeigen diese Bånder Veråstelungen. Ihre freien Enden
sind gerundet. Wåhrend manchmal derartige Bånder unverschmolzen
dicht nebeneinander herlaufen, sind andere in ihrer Grundpartie mit
einander verwachsen oder durch eine deutlich krustenfårmige nie-
drigere Zwischenpartie miteinander verbunden; auch zeigen die Bån-
der an den Veråstelungsstellen manchmal geringe Verbreiterungen,
die diesen Stellen ein mehr krustenartiges Aussehen geben. Es
muss wohl damit gerechnet werden, dass diese Art auf breiterem,
glatterem Untergrunde deutlicher krustenfårmige Kolonien bilde,
vielleicht mit lappigen bis bandfårmigen Auslåufern am Rande.
KonsistenztdertKolFonrerziemlich"fest; fast knorpelig:

Tun ØE SE
4 FSA
BOER mel

$

Fig. 13. Leptoclinides sparsus n. sp.
Kolonie von zwei verschiedenen Seiten; X 21/4.

Fårbung der Kolonie fleckig und sprenkelig weiss-grau-
schwarz. Die undurchsichtig weissen Flecken riihren hauptsåchlich
von den Personen her, werden aber durch oberflåchliche Kalk-
kørper-Einlagerung an den Personen-Aussenflåchen verstårkt. In
den Zwischenpartien, an denen die Kalkkårpereinlagerung durch
eine Blasenzellenschicht iiberlagert ist, herrscht ein grauer Farbton
vor, der durch Einlagerung von Pigmentzellen eine schwarze Spren-
kelung aufweist.

Oberflåche der Kolonie eben, nicht glatt, aber auch nicht
sehr rauh, am besten wohl als duff zu bezeichnen. Personen-
Aussenflåchen im allgemeinen unregelmåssig iiber die obere
Flåche zerstreut, bei bandfårmigen Teilen der Kolonie vielfach auf
die Mittelpartie beschrånkt, in der Randpartie fehlend oder nur
stellenweise auftretend. Die Personen-Aussenflåchen stellen sich
dar als unscharfe weisse Flecke mit dunklerer Mittelpartie, in deren

Vidensk. Medd. fra Dansk naturh. Foren. Bd. 77. 22

338

Zentrum die Branchialoffnung infolge von Kalkkårper-Ein-
lagerung in dem Branchialsipho als hellerer, nicht deutlich strahliger
Punkt erscheint. Kloakalåffnungen måssig weit von einander
entfernt in den Mittellinien der bandformigen Kolonieteile bezw. auf
den etwas wulstig verdickten Randpartien der mehr flåchenhaften
Kolonieteile. Es sind kleine, mehr oder weniger breit spindelfår-
mige dunkle Spaltoffnungen auf grauem Grunde, in geringer Ent-
fernung umgeben von einem meist geschlossenen, mehr oder we-
niger regelmåssigen Kranz weisser Personen-Aussenflåchen. Die
ganze Region einer Kloakenåffaung samt dem Kranz der Personen-
Aussenflåchen ist meist deutlich flachhigelig erhaben, zweifellos
infolge von Auftreibung durch die darunter liegende Kloakenhåhle.

Zellulosemantel sehr: fest, zumal inder Aussensehicht;
knorpelig. In den Zwischenpartien zwischen den Personen-AÅussen-
flåichen bildet er zu åusserst eine dinne, sehr feste Oberhaut, eine
hornartige Schicht ohne Blasenzellen und ohne Kalkkårper von etwa
6—10 u Dicke. Auf diese folgt eine bis etwa 140 uw dicke mehr-

fache (etwa 6—8-fache) Lage von dicht gedrångt stehenden Blasen-

zellen. Diese Blasenzellen nehmen von aussen nach innen
an Dicke und an Derbheit der Wandung ab. Die åussersten sind
etwa 354 dick und haben eine einseitig stark verdickte Wandung,
die innersten sind nur etwa 18 bis 24 w dick, zartwandig. Weiter
im Innern der Kolonie treten Blasenzellen im allgemeinen nur sehr
spårlich und vereinzelt auf, etwas reichlicher vielleicht nur noch
in den Basalpartien. Spindel- und Sternchenzellen finden
sich in der Grundmasse des Zellulosemantels måssig dicht. Kalk-
kårper treten in ziemlich dichter, mehrfacher Lage unmittelbar
unter der aus Blasenzellen zusammengesetzten Rindenschicht auf,
wåhrend sie in der Rindenschicht fehlen. Nur im Bereich der Per-
sonen treten sie an die Oberflåche der Kolonie heran. Gegen das
Innere der Kolonie werden sie spårlich. Die Kalkkårper sind mor-
gensternfårmig, selbst die kleinsten in den thorakalen Seitenorganen
gefundenen von etwa 54 Dicke zeigten schon eine gefelderte, un-
ebene Oberflåche. Die Stacheln, etwa 8 bis 16 im Umkreis des
optischen Åquatorialquerschnittes, sind verhåltnismåssig breit und
kurz (Spitzenwinkel fast 60”), aber scharfspitzig. Die Kalkkårper
werden im allgemeinen bis etwa 40 w dick. Ganz vereinzelt trifft
man auf hypertrophe Kalkkårper, die eine Dicke von 50 w erreichen

MR

339

mågen. Besondere Ansammlungen kleinster und kleiner Kalkkårper
finden sich in den thorakalen Seitenorganen sowie, gleichsam rauch-
wolkenartig herausgequollen, unmittelbar ausserhalb dieser Organe.
Schliesslich finden sich im Zellulosemantel noch sehr grosse, unregel-
måssig sternformige rhizopodenartige Pigmentzellen auf der
Grenze zwischen Rindenschicht und Innenschichten, die ihre pseudo-
podienartigen Auslåufer in der engen Zwischenmasse zwischen den
Blasenzellen weit in die Rindenschicht hineinsenden. Diese Pig-
mentzellen enthalten feinkårniges bis staubartiges schwarzes Pig-
ment. Ihre Zusammengruppierung verursacht die oben erwåhnten
schwarzen Sprenkel.

Kloakensystem: Die Kloakenåffnungen fihren in breite
Kloakenhåhlen, die sich nach unten in ein gemeinsames Kloakal-
system fortsetzen. In den bandfårmigen Teilen der Kolonie be-
schrånkt sich dieses Kloakalsystem auf einen mehr oder weniger
breiten Achsenkanal, der wohl kleine Ausbuchtungen, aber keine
Verzweigungen bildet. In den mehr krustenfårmigen breiteren
Teilen der Kolonie, die ich nicht daraufhin untersuchte, mag das
Kloakalsystem etwas komplizierter sein.

Die Personen haften sehr fest am Zellulosemantel und waren
in keinem Falle unverletzt oder nur wenig verletzt herauszuldsen.
Sie sind verhåltnismåssig gross, im ausgewachsenen Zustande schåt-
zungsweise etwa 1,2 mm lang; doch kam diese Långe infolge von
Verzerrung bei der Einschmiegung in den verfigbaren Raum nicht
zur klaren Anschauung.

Der Thorax war so stark verschrumpft, dass seine normale
Gestalt nicht festzustellen war.

Branchialsipho am breit abgerundeten Vorderende des Tho-
rax gelegen, lang, schlank, drehrund, ohne deutliche Lappenbildung
am åuseren Ende, mit måssig kråftiger Ringmuskulatur.

Atrialsipho ziemlich weit hinten an der Rickenseite gelegen,
etwas schief kegelfårmig, nach abwårts geneigt und mit dem schlan-
ken, ganzrandigen distalen Ende unmittelbar in eine Kloakalhåhle
oder in den axialen Kloakalkanal, wenn nicht in kurze, dem zen-
tralen Kloakalsystem zufihrende Kanåle oder Ausbuchtungen ein-
mindend, mit måssig starker Ringmuskulatur. Håufig ragt das
åusserste distale Ende des Atrialsiphos papillenartig in den Kloakal-
raum vor.

22

340

Zurutckzieher am Ende des Thorax anscheinend ganz fehlend ;
wenigstens konnte ein solches Organ nicht nachgewiesen werden.
(Ich kann das Fehlen eines Zurickziehers nicht mit voller Sicher-
heit behaupten).

Thorakale Seitenorgane etwas nåher dem Endostyl als
der dorsalen Medianlinie in oder nahe der Mitte der Thoraxlånge
gelegen, ganz innerlich. Es sind sehr kurze und sehr breite Såcke,
die in ganzer Breite eng an die Innenseite der Leibeswand an-
geschmiegt sind, nur sehr wenig weit in die Peribranchialråume
hineinragen und durch eine ziemlich kleine Offnung nach aussen
minden.

Taille eng, måssig lang.

Abdomen eng gestielt und breit beutelfårmig. Es gehen schlanke,
an den blinden Enden.derbere und birnfårmig angeschwollene, im
ubrigen zartwandige Doppelråbren bildende Gefåssanhånge vom
Abdomen ab. Diese Gefåssanhånge sind zum Teil sehr lang und
zeigen Veråstelungen.

Branchialtentakel zu zwei verschiedenen Gråssen abwech-
selnd in zwei konzentrischen Ringen gelegen, im ganzen etwa 18.

Kiemensack mit 4 Kiemenspalten-Zonen. Etwa 7 bis 9
Kiemenspalten in einer Halbzone.

Darm eine einfache, etwas klaffende Schleife bildend. Magen
åusserlich und innerlich glattwandig, dick oval bis gerundet kasten-
formig, fast kugelig. Mitteldarm vom Magen und vom Enddarm
scharf abgesetzt, durch scharfe Einschnirung in einen birnfårmigen
Nachmagen und einen dick spindelformigen Drisendarm geteilt.
Enddarm weit.

Geschlechtsapparat: Personen protogyn? In den Personen
nur månnliche Geschlechtsorgane aufgefunden. Hode aus 5, 6 oder
7 birnformigen Hodenblasen gebildet, die locker rosettenfårmig von
der Leibeswand nach innen ragen, mit ihren breiten Polen an die
Darmschleife 'stossend, wåhrend ihre nach aussen gerichteten Spitz-
pole sich iber dem Mittelpunkt der Rosette zur Bildung des Samen-
leiters vereinen. Der Samenleiter beschreibt 7 bis 8 lockere,
die Spitzpole der Hodenblasen umkreisende Spiralwindungen bevor
er nach vorn geht. Er zeigt keine besondere Erweiterung, die als
Samenmagazin angesprochen werden kånnte. Einzelne geschwånzte
Larven in den basalen Teilen des Zellulosemantels.

341

Erorterung: L. sparsus unterscheidet sich von allen nåher ver-
wandten Formen durch das Auftreten der grossen sternfårmigen
Pigmentzellen in der Rindenschicht des Zellulosemantels. Im
ubrigen verweise ich auf die Erérterungen unter der vorhergehenden,
zu der gleichen Artgruppe gehårenden Form, L. diemenensis.

Gen. Trididemnum D. V.

Die Gattung Trididemnum steht zweifellos der Gattung Lepto-
clinides sehr nahe. Ich halte es nicht fir ganz ausgeschlossen, dass
beide Gattungen spåter verschmolzen werden miissen.

Trididemnum cerebriforme Hartmr.

1913, Trididemnum cerebriforme Hartmeyer, Tunic., in: L. Schultze,
Zool. anthrop. Forschungsr. Sudafrika, p. 139, Taf. VII Fig. 1,
Taf. VIII Fig. 4, 5.

1919, Trididemnum cerebriforme, Michaelsen, Z. Kenntn. Didemnid., p. 37,
ihextte 2:

Fundangabe: Stewart-Insel, Halfmoon Bay, 5—7 Fd.;
19. Nov. 1914.

Weitere Verbreitung: Kapland (Hartmeyer 1913).

Bemerkung: Die vorliegende Kolonie entspricht nicht nur in der
Organisation der Personen und des Zeilulosemantels im
wesentlichen dem von mir nachuntersuchten Originalstuck, sondern
zeigt auch in der eigentimlichen Gestaltung der Kolonie-Ober-
flåche die gleiche Bildung, wenn auch die oberflåchlichen Wiilste
im ganzen schmåler sind als bei dem Original.

Eine geringfigige Abweichung vom Original, wenigstens von
dem von mir untersuchten Bruchstick, liegt vielleicht in der grås-
seren Dicke der aus Blasenzellen gebildeten Rindenschicht,
die bei jenem Originalstiick nur eine etwa 3fache Lage von Blasen-
zellen aufwies, wåhrend sie bei dem neuen Stiick stellenweise eine
10- bis 12-fache Lage von Blasenzellen zeigt. An anderen Stellen
ist die Rindenschicht auch bei diesem Stick viel dinner.

Gen. Didemnum Sav.

Didemnum psammatodes (Sluit.) var. maculatum (Nott).

1892, Leptoclinum maculatum N ott, Comp. Ascid. N. Shore Reef,p. 316.
Taf. XXVII.

342

1898, Leptoclinum ianthimum Sluiter, Tunic. Sud-Afrika, p. 38, Taf. II
FigsSy Taf vVFio Et ==]:

1919, Didemnum psammatodes var. ianthinum, Michaelsen, Z. Kenntn.
Didemnid., p. 13.

1920, Didemnum psammatodes var. ianthinum, Michaelsen, Krikobr.
Ascid. westl. Ind. Oz.: Didemnid., p. 29.

Fundangabe: Neuseeland, Nord-Insel, Bay of Islands,
PPS HIS Jankkons

Weiteres Vorkommen im Gebiet: Neuseeland, Nord-Insel,
Ni orfhushoretbe rAnmcekland (Not So2):

Weitere Verbreitung: Mocambique (Sluiter 1898, Michael-
sent o20)

Bemerkung: Ich glaube N ott's Leptoclinum maculatum mit Sicher-
heit der Didemnum psammatodes-Gruppe zuordnen zu dirfen, und
zwar der friiher als var. ianthinum (Sluit.) bezeichneten Form.
Wenngleich L. maculatum der ålteste Name fir eine Form des
variablen Didemnum psammatodes ist, so behalte ich aus praktischen
Riicksichten doch diesen gebråuchlicheren jungeren Namen fir die
Art bei und beschrånke mich darauf, die betreffende Varietåt durch
den ålteren Namen zu bezeichnen.

Var. intermedium Mich.

1920, Didemnum psammatodes var. intermedium Michaelsen, Krikobr.
Ascid. westl. Ind. Oz.: Didemnid., p. 23.

Fundangabe: Neuseeland, Sid-Insel, Lyttleton; (Len-
denfteldsøæmMusæberln)'

Weitere Verbreitung: Sansibar (Michaelsen 1920).

Bemerkung: Das vorliegende Objekt, das ich dieser Form glaube
zuordnen zu miissen, zeigt einen Hypurgon-Zustand in mås-
sig weit vorgeschrittenem Stadium.

Didemnum studeri Hartmr. f. typica.

1879, Synoicum sp., Studer, Fauna Kerguelensland, p. 130.

1900, Leptoclinum asperum, Sluiter (non Gottschaldt), (part.: spec.
Maunganui), Tunic. Stillen Oc., p. 19.

1907, Leptoclinum tenue, part., Michaelsen, Tunic., in: Erg. Hamburg.
Magalh. Sammelr., p. 39.

1909, Didemnum gottschaldti Hartmeyer (part.), Tunic., in: Bronn,
Kl. Ordn. Tier-R., p. 1449.

343

1911, Didemnum studeri Hartmeyer, Ascid. Deutsch. Siidpolar-Exp.,

pX538:

1919, Didemnum studeri typicum, Michaelsen, Kenntn. Didemnid.,

p:k2S:

Fundangaben: Auckland-Inseln, Masked Island, Carnley
Harbour, an der Kiiste, an Ascidien (Corella eumyota Sluit.)
und an einer Patelliden-Schale; 30. Nov. 1914. Port Ross, ca.
JOFEdFanFlorideen; 257 Nov” 1914 Stewart-Insel Halfmoon
Bay, 5—7 Fd., an dinblåttrigen Algen; 19. Nov. 1914.

Weiteres Vorkommen im Gebiet: Chatham-Inseln (Sluiter
1900).

Weitere Verbreitung: Kerguelen(Studer, 1879); Magalhaen-
sisches Gebiet (Michaelsen 1919).

Bemerkungen : Bei einigen Kolonien von den Auckland-Inseln (nicht
bei allen) sind die Stacheln der Kalkkårper deutlich vorspringend,
plump, gerundet. Die thorakalen Seitenorgane sind ver-
håltnismåssig gross, und besonders gross auch die Kalkkårper-Klum-
pen, die aus diesen Organen hervorgegangen sind, aber nur noch
locker an diesen, ihren Matrizien, haften.

Die zur Beobachtung gelangten Hoden — die meisten Per-
sonen waren noch unreif — erwiesen sich ausnahmslos als zwei-
teilig.

Zulkdieser Art "gehort auch ein Teil des" von Sluiter (ec:
1900, p. 19) als Leptoclinum asperum Gottsch. bestimmten Ma-
terials der Ausbeute Schauinsland's, nåmlich die Kolonie von
Maunganui (Chatham-Inseln), die ich durch freundliche Vermittlung
Hartmeyer's nachuntersuchen konnte.

Dieses Stiick von Maunganui stimmt bei in den ganz gering-
figigen aus Gottschaldt's Beschreibung ersichtlichen Merkmalen
nicht mit dem Original iiberein. Dieses Didemnum von Maun-
ganui hat zahlreiche Blasenzellen im Zellulosemantel, und die
Stacheln der Kalkkårper sind nicht spitzig, sondern sehr flach
gewålbt, kaum hervortretend, sodass die Kalkkårper fast glatt kuge-
lig erscheinen. Die Richtigkeit der Bestimmung der anderen Ko-
lonie von Pitt-Island (Chatham-Inseln) ist kaum wahrscheinlicher,
denn es ist geradezu unmåglich, nach der ungenigenden Beschrei-
bung die Gottschaldt'sche Art wiederzuerkennen.

344

Var. africanum (Mich.).

1909, Leptoclinum tenue (part.), Michaelsen, Tunic., in Erg. Hamburg.
Magalh. Sammelr., p. 39.

1914, Leptoclinides africanus typica (part.), Michaelsen, Diagn. westafr.
Ascid., p. 78.

1915, Leptoclinides africanus f. typica, Michaelsen, Tunic., in Mee-
resf. Westafrikas, p. 488, Taf. XIX Fig. 56—68.

1919, Didemnum studeri var. africanum, Michaelsen, Z. Kenntn.
Didemnid., p. 29.

Fundangabe: Stewart-Insel, Port Pegasus, 25 Fd.; 20,
Nov. 1914.

Weitere Verbreitung: Magalhaens-Strasse (Michaelsen
1909); Westafrika, Angola (Michaelsen 1914).

Didemnum paradoxum (Nott)

1892, Polysyncraton paradoxum u. P. fuscum Nott, Comp. Ascid. N.
Shore Reef, p. 318, Taf. XXVIII, p. 321, Taf. XXIX.
1920, Polysyncraton paradoxum var. maheina Michaelsen, Krikobr.
Ascid. westl. Ind. Oz.; Didemnid., p. 12.
Vorkommen im Gebiet: Neuseeland, Nord-Insel, North
Shore bei Auckland (Nott 1892).
Weitere Verbreitung: Seychellen (Michaelsen 1920).

Didemnum chondrilla n. sp.

Fundangaben: Neuseeland, Nord-Insel, 2 Seeml. O. von North
Cap'e, 55 "Ed: harter"Boden: 27 Jan OTS SF —E VERS ane

Island, 30 Fd., Schalen-Boden; 29. Dez. 1914. — Colville
Channel, 35 Fd., Sandgrund; 21. Dez. 1914. — Stewart-Insel,
Paterson Inlet, 5—15 Fd., weicher Boden; 17. Nov. 1914.
—Stewart-lnselelssEdeE Sa ker (Mus Berlin)

Erorterung: Diese neue neuseelåndische Art, die nach der Ge-
staltung des månnlichen Geschlechtsapparates der friheren Gattung
Polysyncraton zugeordnet werden miisste, steht dem Didemnum sycon
Mich.”) vom westlichen Indischen Ozean offenbar so nahe, dass
sie nicht durch Gattungsgrenzen von ihr getrennt werden darf. Da
D. sycon eine einfache, aus einer einzigen Hodenblase bestehende

1 W. Michaelsen, 1919, Z. Kenntn. d. Didemn., p. 5. — 1920, Kriko-
branche Ascid. westl. Indisch. Oz.: Didemnid., p. 44, Taf. I Fig. 1—3.

—

345

Hode aufweist, also der Gattung Didemnum im alten Sinne ange-
hårt, so ergibt sich, dass die Zerkliftung der Hode in mehrere
Hodenblasen nicht als Grund fir eine Gattungssonderung angesehen
werden kann, dass also die Gattung Polysyncraton nicht aufrecht
zu erhalten ist, sondern unter Erweiterung der Diagnose mit der
ålteren Gattung Didemnum verschmolzen werden muss. Diese An-
schauung wird gestitzt auch durch die Erkenntnis, dass innerhalb

Fig. 14. Didemnum chondrilla n. sp., a, € und e = ganze Kolonien, mehr oder weniger
skizzenhaft, X1'/2; b, d und f— die apikalen Pole derselben mit der Kloakenåffnung, X 3.

einer und derselben Art eine einfache Hode oder eine aus 2 oder
3 Hodenblasen bestehende Hode auftritt, wie Van Name?) es bei
seinem Leptoclinum speciosum Herdm. var. bermudense, und wie
ich selbst (1. c. 1919,-p. 33) bei Didemnum studeri Hartmr. typi-
cum fand.

Vielleicht steht auch Didemnum lambitum (Sluit.) von den
Chatham-Inseln (siehe unten!) der neuen Art nahe. Sluiter er-
wåhnt zwar nichts von dem Vorkommen einer einzigen grossen

7, W.G.Van Name, 1920, Ascid. Bermuda Isl., p. 364.

346

Kloakenåffnung an der Kuppe der Kormidien, wie sie fir D. sycon
und D. chondrilla charakteristisch ist, doch mag eine dem entspre-
chende Bildung bei dem Sluiter'schen Material undeutlich ge-
wesen und ibersehen worden sein.

Ich fige in die folgende Beschreibung des D. chondrilla An-
gaben uber Abweichungen von D. sycon und D. lambitum ein.

Beschreibung. Kolonie (Fig. 14) meist aus einem einzigen Kor-
midium bestehénd, selten zwei Kormidien (Fig. 146) aus gemein-
samer Basis entspringend. Kormidium fast kugelig oder mehr
långlich, oval, gerundet kegelfåormig oder långlich stempelfårmig,
manchmal seitlich etwas abgeplattet, aber nicht so dinn, dass es
als zungenformig bezeichnet werden kånnte. Kolonien mit der Ba-
sis in ganzer Breite an Schneckenschalen-Bruchsticken oder åhn-
lichen Hartkårpern angewachsen. Anwachsstelle quer abgestutzt
und am Rand etwas erweitert, mit mehr oder weniger deutlichem
Anwachssaum. Die Gestalt ist bei meinem recht zahlreichen Ma-
terial stets einfach, oberflåchlich wohl manchmal etwas uneben,
aber nie wirklich håckerig wie das mir vorliegende Originalstuick
von D. lambitum und das von Sluiter abgebildete Original die-
ser Årt.

Gråssenverhåltnisse: Gråsste Kolonie (von Little Barrier
Island) 60 mm lang, 45 mm breit und dick.

Konsistenz der Kolonien sehr verschieden, weichlich
fleischig, fast gallertig, (wenn auch mit ziemlich zåher Oberhaut), bis
fest und hart-elastisch etwa wie hårtlicher Kautschuk. Die Ver-
schiedenheit der Konsistenz beruht wohl zum Teil auf verschieden
guter Konservierung, zum Teil jedoch auch auf verschieden reicher
Ausstattung mit Kalkkårpern.

Fårbung der Kolonie im allgemeinen ziemlich hell, farb-
los grau, fast undurchsichtig, bis ziemlich dunkel braunrot, durch-
scheinend. Viele Kolonien zeigen eine helle, råtliche Schieferfarbe.
Diese allgemeine Fårbung geht manchmal in ein kreidiges Weiss
uber. Der råtlich2 Farbenton vieler Kolonien rihrt nicht von typi-
schen Pigmentzellen in den Oberflåchenschichten her, wie: bei D.
sycon, sondern von einer homogenen Fårbung des Zellulosemantels.
Einen bedeutsamen Einfluss auf die Fårbung hat die verschiedene
Ausstattung mit heller fårbenden Kalkkårpern. Die unregelmåssig
in die Aussenschicht eingebetteten Personen erscheinen als hellere,
undurchsichtige Piinktchen.

"4

347

Oberflåche der Kolonie glatt, wenn auch nicht ganz eben,
håchstens zart und seicht gewellt, ohne kalkkårperhaltige Papillen,
wie sie fir D. sycon charakteristisch sind.

Branchialoffnungen unregelmåssig uber die Kolonie-Ober-
flåche zerstreut, etwa ”/2 mm oder etwas weniger von einander ent-
fernt, ziemlich unscheinbare weisse oder weissliche Piinktchen bezw.
Løcher im Mittelpunkt von schwach ausgeprågten, manchmal kaum
erkennbaren kreisformigen Håfen. Eine Sechsstrahligkeit der Bran-
chialdffnungen war in keinem Falle erkennbar.

Kloakendffnungen (Fig. 14b, d u. f): Jede Kolonie trågt
meist an dem mehr oder weniger deutlich als Kuppe ausgeprågten
Apikal-Ende eine einzige grosse Kloakenåffnung, wie bei D.sycon.
Selten finden sich Kolonien, die seitlich eine zweite Kloakenoff-
nung oder deren zwei aufweisen. Die Kloakenåffnungen sind nicht
ganz gleich gestaltet. In mehr oder weniger geschlossenem Zu-
stande (Fig. 14f) stellten sie sich als gribchenfårmige Einsenkungen
oder als kleine rundliche Léøcher dar, manchmal von einem krei-
digen Hof umgeben. In- gedehntem Zustande (Fig. 14b u. d) er-
scheinen sie als rundes Loch mit etwas aufragendem Rande oder
als etwas unregelmåssig umrandete, bis etwa 5 mm weite Låcher
in der Oberhaut, durch die der massige Achsenteil der Kolonie
sichtbar wird. Bei meinem Material hat sich meist die Aussenhaut
an der Kuppe der Kolonie mit dem Randsaum der Kloakenåffnung
unter Kollabierung des darunter liegenden Kloakenraumes so dicht
an den fleischigen Achsenteil der Kolonie angelegt, dass die Kloaken-
offnung durch den Achsenteil ventilartig geschlossen scheint (manch-
mal quillt der Achsenteil sogar ein wenig aus der Kloakenåffnung
heraus). Bei oberflåchlicher Betrachtung kann eine solche Kloaken-
offnung leicht den Eindruck einer Zufallsbildung machen, einer
Verletzung der Kolonie, bei der ein Stick der zåheren Oberhaut
vom fleischigen Kern der Kolonie abgerissen sei.

Innerer Bau der Kolonie åhnlich wie bei D. sycon, jedoch
wenigstens nicht immer so gleichmåssig ausgebildet. Wie bei D.
sycon, so fiihrt auch bei D. chondrilla die Kloakenåffnung an der
Kuppe der Kolonie in einen unter den oberflåchlichen Schichten
gelegenen Kloakalraum ein. Bei einer nåher untersuchten Kolonie
von North Cape erstreckt sich dieser Kloakalraum in der Schicht
der Personen und in der Schicht unterhalb der Personen wie bei

348

D. sycon ziemlich weit gegen die Basis der Kolonie hin, einen per-
sonenlosen fleischigen Achsenkårper von den oberflåchlichen per-
sonenhaltigen Schichten sondernd; jedoch ist bei D. chondrilla die
Scheidung eines åusseren Kloakalsystems im Bereich der Personen
und eines inneren Kloakal-Untergrundsystems durch eine Horizon-
tallamelle wenigstens nicht deutlich ausgeprågt. Allerdings glaubte
ich an einer Stelle der leider schlecht erhaltenen Kolonie von North
Cape auch eine solche Horizontallamelle zu erkennen. Im anderen
Ausserstfalle scheint das Kloakalsystem auf einen ziemlich kleinen
Kloakalraum beschrånkt zu sein. Zweifellos setzt sich dieser Kloa-
kalraum an den Seitenteilen der Kolonie in enge Kloakalkanåle
fort; doch konnte ich diese nicht immer sicher nachweisen. Ich
vermute, dass die Ausbildung des Kloakalsystems wie die anderer
Verhåltnisse (Kalkkårper, Knospung, Geschlechtsbildung) bei der
Aufeinanderfolge verschiedener Personen-Generationen verschiedene
Entwicklungs- und Rickbildungsstadien durchmacht. Ein derartiges
Stadium eigentiimlicher Art zeigte eine Kolonie von Colville Chan-
nel. Bei dieser fanden sich nur ganz vereinzelt ausgewachsene
Thoraces, dagegen vielfach wohl ausgebildete Abdomina mit ganz
kleinen, offenbar unausgewachsenen Thoraces oder Thorakalknospen,
die noch nicht an die Kolonieoberflåche herangewachsen waren,
und deren Kårperåffnungen noch geschløssen schienen. Zweifelløs
waren in dieser Kolonie die Thoraces einer ålteren Generation bis
auf einzelne långer ausdauernde zuruckgebildet, wåhrend die Tho-
races der jiingeren Generation noch in der Entwicklung begriffen
waren. Zahlreiche Kotballen, eingebettet in den inneren Teilen des
Zellulosemantels, deuten auf die Tåtigkeit der ålteren Generation
hin. In dieser Kolonie, deren Kuppenteil allerdings abgeschnitten
war, konnte ich keine Spur eines Kloakalsystems auffinden. Alle
Kloakalråume schienen mit den Thoraces der Personen ålterer Ge-
neration zurutckgebildet zu sein. Mutmasslich wiirde sich mit der
endgiiltigen Lagerung der Thoraces jingerer Generation und mit
der Ausbildung ihrer Atrialdffnungen ein neues Kloakalsystem ge-
bildet haben.

Zellulosemantel weich fleischig bis knorpelig wie hårtlicher »

Kautschuk. Blasenzellen fehlen; auch Pigmentzellen sind
nicht deutlich erkannt worden, jedenfalls nicht in solch charakte-
ristischer Weise ausgebildet wie bei D.sycon. Spindel- und Stern-

349

chenzellen dagegen iiberall sehr zahlreich. Kalkkårper mor-
gensternfårmig, verhåltnismåssig klein, vereinzelt bis 28 u dick,
meist aber viel kleiner bis winzig, und zwar winzig nicht nur die
noch in den thorakalen Seitenorganen befindlichen, sondern auch
die im Zellulosemantel weit zerstreuten. Die Stacheln sind meist
fein und zart, ihre Zahlen verhåltnismåssig gross, etwa 10 oder
mehr am Rande des Profilumrisses vorragend. Bei einzelnen ver-
håltnismåssig sehr grossen Kalkkårpern, bei denen die Stacheln
zugleich auch relativ gråsser sind, ist ihre Zahl etwas geringer,
etwa 8 am Rande des Profilumrisses. Bei D. sycon sind die Kalk-
kårper im allgemeinen noch kleiner, bei D. lambiton im allgemeinen
etwas gråsser. Bemerkenswert ist eine grosse Verschiedenheit in
der Zahl und Verteilung der Kalkkårper bei D. chondrilla. Beson-
ders auffallend ist in dieser Hinsicht die oben erwåhnte Kolonie
ohne Kloakalsystem (von Colville Channel), insofern ihr auch jeg-
liche Kalkkårper fehlen. Es scheint, als ob auch die Dauer der
Kalkkårper eine beschrånkte sei, und dass sich diese Elemente,
wenigstens bei dieser Art, mit jeder Thorax-Generation neu bil-
deten. Da die jungen Thoraces, an denen thorakale Seitenorgane
noch fehlen, noch nicht imstande sind neue Kalkkårper zu liefern,
so erklårt sich dieser kalkkårperlose Zwischenzustand ungezwungen
als eine gewisse Lebensstufe der Kolonie. Diese Auffassung ent-
spricht auch den sonstigen Befunden iber das verschiedene Ver-
halten der Kalkkårper. Jene kalkkårperlose Kolonie stellt den unteren
Åusserstfall in einer stufenweisen Anreicherung mit Kalkkårpern
dar. Die nåchst håhere Stufe zeigt eine Kolonie von dem gleichen
Fundort, bei der sich eine sehr dinne Schicht locker verteilter
Kalkkårper dicht unter der Oberhaut hinzieht, die Oberhaut selbst
noch fast ganz freilassend und so gewissermassen ein subcutanes
Skelett bildend. Stellenweise weist diese Schicht noch breite Lucken
auf, die ganz frei von Kalkkårpern sind oder im Bereich einzelner
Personen leichte Wålkchen von Kalkkårpern zeigen, den ersten
Beginn einer Schichtbildung. Eine bedeutende Vermehrung er-
fuhren die Kalkkårper bei einer nåher untersuchten Kolonie von
der Stewart-Insel. Hier bildeten die Kalkkårper eine dichte, dicke
Schicht in den oberflåchlichen Teilen einschliesslich der Oberhaut
und nach innen im allgemeinen bis an die Horizontalschicht der
Personentaillen, stellenweise aber noch weiter nach innen, bis in

350

die Schicht der Abdomina oder gar eine kleine Strecke in den
Achsenkårper der Kolonie hinein. Die Håchstausbildung zeigt eine
Kolonie von North Cape, bei der die Kalkkårper in zerstreuter
Anordnung bis ins Innerste des Achsenkårpers eingedrungen sind.
Ubrigens kånnen die Kolonien in verschiedenen Regionen eine ver-
schiedene Ausstattung mit Kalkkårpern zeigen. Zumal die Basal-
teile sind in der Regel reichlicher mit Kalkkårpern versehen, und
hier dringen sie auch weiter in dem Achsenkårper hinein, wenn
sie in den apikalen Teilen der Kolonie noch auf die oberflåchlichen
Schichten beschrånkt sind. Das Maximum der Kalkkårper-Ansamm-
lung bei D. chondrilla gleicht ungefåhr dem, was ich bei D. sycon
und bei dem Original von D. lambitum fand. Es finden sich bei
allen nåher untersuchten Kolonien zerstreut oder locker haufen-
weise ellipsoidische Kotballen in den Zellulosemautel eingebettet,
und zwar sowohl in den åusseren Schichten wie im Innersten des
Achsenkårpers. Es erscheint mir fraglich, ob es sich hierbei um
einen echten Hypurgon-Zustand handelt, nåmlich um eine Einlage-
rung von Kotballen, die von lebenden Personen ausgestossen wur-
den. Vielleicht sind diese ziemlich.…spårlichen Kotballen im Zellu-
losemantel von D. chondrilla nur die zum Teil verlagerten Uber-
reste abgestorbener und zerfallener Personen einer ålteren Gene-
ration. Schliesslich finden sich im Zellulosemantel noch mehr oder
weniger scharf begrenzte, wolkenfårmige dichte Gruppen von gelb-
lich grauen, rundlichen, bis 12 u dicken Nierensekret-Koårnern.

Personen im ausgewachsenen Zustand bis 1,2 mm lang, mehr
oder weniger genau senkrecht gegen die Kolonieoberflåche gestellt.

Thorax eifoårmig, etwas långer als dick.

Branchialsipho lang cylindrisch mit erweiterter Basis, un-
gefåhr doppelt so lang wie in der Mitte dick, nicht sehr scharf
vom Thorax abgesetzt, apikal nicht deutlich gelappt, dickwandig,
aber nur mit schwacher Långs- und Ringmuskulatur versehen.

Atrialsipho nicht deutlich ausgebildet. Atrialådffnung
anscheinend ein einfaches, jedenfalls nicht grosses Loch an der
Rickenseite.

Thorakale Seitenorgane åusserlich, seitlich etwas hinter
der Mitte des Thorax, dem Endostyl etwas nåher als der dorsalen
Medianlinie, von der Gestalt kleiner, schief zugeschnittener, breit-
randiger Kummen. In einer Kolonie von der Stewart-Insel lag

351

vielfach in diesen Kummen, etwas aus ihnen hervorragend, je ein
ovales Kårperchen, das besonders in der Rindenpartie durch Pikro-
karmin stark gefårbt war, wåhrend sein Inneres von winzigen Kalk-
kårpern eingenommen wurde. Manchmal lag ein solches ovales
Kørperchen ausserhalb des dann leeren Seitenorganes. Offenbar
werden bei dieser Art die Kalkkårper klumpenweise aus dem thora-
kalen Seitenorgan ausgestossen, um sich erst spåter frei zu machen
und Zu zerstreuen.

Zuruickzieher am Hinterende des Thorax in ganzer Långe
der Taille mit dieser verwachsen, ungemein lang, bis in das In-
nerste des Achsenkårpers hineinragend, wie bei D. sycon.

Taille eng und schlank, viel långer als dick, beidenendes
ziemlich scharf abgesetzt; bei D. lambitum ebenso.

Abdomen ungefåhr ebenso gross wie der Thorax, unregel-
måssig beutelfårmig. Nicht nur die Geschlechtsorgane, sondern
auch abgebogene Teile des Darmes verursachen unregelmåssige
Vorwålbungen am Abdomen.

Branchialtentakel schlank fingerfårmig, etwa 20 oder mehr
an Zahl, nach dem Schema 1, 3, 2, 3, 1 sehr verschieden gross,
doch anscheinend die winzigen der 3. Ordnung nur in kurzen
Strecken ausgebildet, sodass jenes Schema streckenweise in das
Sehema "1, 2, 1, 2, '1 ibergeht.

Kiemensack mit 4 Kiemenspaltenzonen. In jeder Halbzone
6, wenn nicht 7 oder 8, lang gestreckte Kiemenspalten.

Darm eine in der Wendepolgegend etwas klaffende, sonst eng
geschlossene, etwas oder stark verbogene Schleife bildend. Oso-
phagus lang und schlank. Magen gerundet kastenfårmig bis
dick olivenfårmig, glattwandig. Mitteldarm kurz und meist eng.
Eine Sonderung in Nachmagen und Driisendarm konnte ich nicht
deutlich erkennen. Enddarm måssig dick.

Geschlechtsorgane: Nicht nur die Personen, sondern an-
scheinend die ganzen Kolonien eingeschlechtlich, gerade so, wie
ich es bei D. sycon fand. Bei je einer D. chondrilla-Kolonie von
North Cape und von der Stewart-Insel mit normal ausgewachsenen
Personen und spårlicher Knospung waren anscheinend iiberhaupt
keine Geschlechtsorgane ausgebildet, wåhrend 3 nåher untersuchte
Kolonien von Colville Channel mit nur vereinzelten normal aus-
gewachsenen Personen und ippiger Personensprossung (Thoraces

352

uberwiegend sehr klein und unausgewachsen, noch nicht an die
Kolonie-Oberflåche heranreichend) Geschlechtsorgane aufwiesen. An
einer dieser Kolonien fanden sich nur månnliche, an den beiden
anderen nur weibliche Personen bezw. in den Zellulosemantel ein-
gebettete Eier oder Embryonen. Die Hode ist der Darmschleife,
und zwar mehr dem ricklaufenden als dem hinlaufenden Schleifen-
Ast, eng angelagert, mit ihrer nach aussen gerichteten Seite eine
Vorwélbung des Abdomens verursachend. Sie besteht aus einigen
wenigen (4 einmal sicher nachgewiesen, vielleicht manchmal nur
3 oder 2?) unregelmåssig birnfårmigen Hodenblasen, deren nach
aussen divergierende Spitzpole sich im Zentrum der Rosette zur
Bildung des Samenleiters vereinen. Der Samenleiter beschreibt
einige eng aneinander gelegte Spiralwindungen, die die Hoden-
blasen-Rosette eng umkreisen. An einem Sagitalschnitt durch die
Hode konnte ich sicher nur 4 Spiralwindungen des Samenleiters
nachweisen; doch mågen tatsåchlich einige mehr vorhanden sein.
Da die benachbarten Windungen meist eng aneinander gepresst
waren, so liess sich bei dem unginstigen Erhaltungszustand des
Materials ihre Zahl nicht ganz sicher ausmachen. Durch die Mehr-
zahl der Hodenblasen in einer Hode unterscheidet sich D. chon-
drilla bedeutsam von D. sycon und auch von D. lambitum, an dessen
Originalstick ich eine einfache, dick linsenfårmige Hode nachwei-
sen konnte. Ovarium an den Perscnen weiblicher Kolonien an
gleicher Stelle wie die Hode bei månnlichen Kolonien. Es findet
sich an jedem zur Beobachtung gelangten Ovarium eine hervor-
ragend grosse, an den Personen einer Kolonie aber verschieden
grosse Eizelle, die nach aussen in den Zellulosemantel hinein-
gewachsen erscheint. Viele losgelåste Eizellen oder junge Em-
bryonen fanden sich bei den beiden weiblichen Kolonien einge-
bettet in den tieferen Schichten des Zellulosemantels.

Didemnum lambitum (Sluit.).

1900, Didemnoides lambitam Sluiter, Tunic. Stillen Oc., p. 18, Taf.
IVEFios ie

1909, Didemnum lambitum, Leptoclinum lambitum,!) Hartmeyer, Tunie.;
in: Bronn, Kl. Ordn. Tier.-R., p. 1450, 1454.

1) Mir ist die Literaturstelle, auf die sich die Synonymie-Angabe Lepto-
clinum I. bezieht, nicht bekannt.

353

Vorkommen im Gebiet: Chatham-Inseln, Waitangi (Sluiter
1900).

Ich konnte den Basalteil einer Originalkolonie, den Hartmeyer
mir freundlichst anvertraute, untersuchen. Ich mutmasse, dass D.
lambitum dem D. chondrilla Mich. von Neuseeland sowie dem D.
sycon Mich. vom westlichen Indischen Ozean (siehe oben unter
D. chondrilla) nahe steht, wenngleich Sluiter nichts von einer
einzigen grossen Kloakenåffnung an der Kuppe der Kormidien
erwåhnt, sondern ausdriicklich angiebt, dass gemeinschaftliche Klo-
akenåffnungen zu fehlen scheinen. Die fir D. sycon und D. chon-
drilla charakteristische grosse Kloakenåffnung ist im geschlossenen
Zustande manchmal wenig deutlich, wåhrend sie im gedffneten Zu-
stande leicht fir eine zufållige Verletzung der Oberhaut der Kolonie
gehalten werden mag, fir ein Loch, entstanden durch AÅbreissen
eines Fetzens der zåhen Haut der Kolonie. Leider ist bei meinem
Untersuchungsobjekt die Kuppe des Kormidiums abgerissen. Im
Folgenden einige ergånzende Angaben iber diese Art nach Unter-
suchung an jenem basalen Teilsticke einer Kolonie.

Uber das Kloakalsystem kann ich nach Untersuchung ledig-
lich eines Basalstickes der Kolonie nur unvollståndige Angaben
machen. Das einzige, was ich an Kloakalråumen in diesem Basal-
stiick erkennen konnte, waren einzelne, meist kollabierte Kanåle,
die von den Atrialoffnungen einzelner Personen ausgingen.

Kalkkårper des Zellulosemantels klein, bis 36 w dick, also
im allgemeinen etwas gråsser als die von D. chondrilla, aber der
Gestalt nach diesen anscheinend ganz gleich, mit etwa 8—10 Sta-
cheln im Profilumriss. Nach Sluiter sind die gråsseren Kalk-
kårper "mit nur wenigen Strahlen, die an der Basis dick und dorn-
formig sind mit zapfenfårmiger Spitze. Die kleinen haben viel
mehr Strahlen, welche mehr dreieckig und spitz sind.” Ich habe
derartige gråssere wenigstrahlige Kalkkårper in meinem Original-
stiick nicht finden kånnen. Die Verteilung der Kalkkårper in der
Kolonie gleicht ungefåhr der, wie wir sie in håchster Anreicherung
bei D. chondrilla finden. Die Kalkkårper bilden eine dichte An-
sammlung in den Aussenschichten bis weit ins Innere hinein. Gegen
das Innerste der Kolonie wird die Verteilung der Kalkkårper eine
sehr unregelmåssige — "haufenweise vereinigtf nennt Sluiter es
—; sie bilden hier lang gestreckte milchstrassenåhnliche Wolken,

,

Vidensk. Medd. fra Dansk naturhist. Foren. Bd. 77. 23

354

die sich gabeln und anastomosieren und somit ein inneres Geriist,
eine Arf Innenskelett, darstellen. Kotballen und Nierensekret-
korner wurden nicht im Zellulosemantel gefunden.

Branchialsipho lang, annåhernd cylindrisch, dickwandig,
aber mit nur schwacher Muskulatur versehen, apikal deutlich 6-
zåhnig.

Thorakale Seitenorgane åusserlich, seitlich etwas hinter
der Mitte des Thorax gelegen, dem Endostyl etwas genåhert, lång-
lich titenformig, in ganzer Långe dem Thorax angelegt, offen und
schief zugeschnitten. Die Kalkkårper gehen anscheinend in freier
Stromung (nicht zu Ballen vereint, wie bei D. chondrilla) aus den
thorakalen Seitenorganen hervor.

Zurickzieher am Hinterende des Thorax wie bei D. chon-
drilla ungemein lang, bis in das Innerste der Kolonie reichend.

Taille scharf ausgeprågt, aber anscheinend nicht so lang wie
bei D. chondrilla. :

Kiemensack nach Sluiter mit nur 5 kleinen, fast runden
Kiemenspalten in einer Reihe. Ich konnte wenigstens an einem
Kiemensack des Originals 6 Kiemenspalten in einer Halbzone
sicher nachweisen, vielleicht mågen aber auch 7 in dieser Halb-
zone vorhanden gewesen sein. Die Kiemenspalten waren auch bei
anscheinend ausgewachsenen Personen verhåltnismåssig kurz, kaum
3 mal so lang wie breit, wenn auch nicht fast kreisfårmig (ffast
rundeknachksSimmiter)

Geschlechtsorgane: Personen wenigstens teilweise zwittrig.
Hode von einer einfachen, dick linsenfårmigen Hodenblase gebildet.
Samenleiter nach Sluiter 7, nach meinem Befund”auch'78/
wenn nicht 9 Windungen beschreibend. Ovarien in der Regel
mit einer uiberwiegend grossen Eizelle, die als Vorwålbung in
den Zellulosemantel hineinragt, um sich spåter ganz loszulåsen und
dann frei im Zellulosemantel dicht unterhalb der Personenschicht
zu liegen.

Didemnum albidum (Verr.).

1851, Didemnum roseum + Leptoclinum gelatinosum Sars, Ber. Reise
Lofoten Finm., p. 153, 154.

1871, Leptoclinum albidum (part.) + L. luteolum (part.) Verrill, Descr.
Ascid. N. England, p. 446.

1892, Leptoclinum densum Nott, Comp. Ascid. N. Shore Reef, p. 311,
Taf OG

355

1909, Didemnum densum, Hartmeyer, Tunic., in: Bronn, Kl. Ordn.
Tier-R., p. 1449.

1910, Tetradidemnum albidum, Van Name, Comp. Ascid. N. England,
p- 878 (hier ausfuihrl. Liter. uber die nårdliche Form).

1921, Didemnum albidum, Hartmeyer, Stud. Westgr&nl. Ascid., p. 81.

1923, Didemnum albidum, Hartmeyer, Ascid. I, in: Dan. Ingolf-Exp.
Dafoe 123

Fundangaben: Neuseeland, Nord-Insel, vor New Ply-
mouth es Ed.; 12: Jans191T5. —+Hauraki-Golf; North Chan-
melben Kawai ns OFEd 29 Dec: 1914:—7SIfp per I's
land, Kiste; 20. Dec. 1914. — 10 MI. NW. von Cape Maria
væde m en s0 Eds 5 Jan s191s:

Weiteres Vorkommen im Gebiet: Neuseeland, Nord-Insel,
North Shore bei Auckland (Nott 1892).

Weitere Verbreitung: Nordlicher Atlantischer Ozean und
Nørdliches Eismeer, von Neu-England und Nord-Norwegen
SEG onlandesSpitzbersentundinskWersser Meer (Van
Name o10orual).

Erårterung: Die Zugehårigkeit des vorliegenden Materials sowie
des D. densum Nott zu dem nordatlantisch-arktischen D. albidum
(Verr.) kann als sicher angenommen werden. Schon die gute
Schilderung Nott's von seiner Form liess kaum noch einen Zweifel
zu. Nott hatte die wesentlichsten Charaktere der Art (Fehlen von
Blasenzellen im Zellulosemantel, gerundete Gestalt der Kal k-
kårper-Stacheln, Zusammensetzung der Hode aus 2 Hodenblasen
u. a.) schon erkannt, lange bevor sie in ihrer Gesamtheit fir die
nordatlantisch-arktische Form festgeéstellt wurden.

In der Gestaltung der Kalkkårper zeigt mein neuseelån-
disches Material nicht die Einformigkeit wie anscheinend das
Nott'sche Material, sondern die gleiche Variabilitåt, wie sie Hart-
meyer an seinen westgrånlåndischen Kolonien fand (1. c. 1921, p.83).
In manchen Kolonien sind die Stacheln der Kalkkårper kuppelfår-
mig, in anderen mehr kegelfårmig. Eine in ersterer Richtung be-
sonders weit gehende Ausbildung zeigte die Kolonie von New
Plymouth. Bei dieser treten die Stacheln, zumal an einigen
hypertrophen, bis 90 uw dicken Kalkkårpern, noch weiter als halb-
kugelfåormig aus der Oberflåche der Zentralmasse des Kalkkårpers
hervor, sodass ihre Basis etwas verengt erscheint. Diese Kalk-
kårper machen den Eindruck, als sejen einige måssig grosse Kugeln

23"

356

in mehr oder weniger regelmåssiger AÅnordnung an eine gråssere
Zentralkugel angewachsen. Manchmal ordnen sich hierbei die
Stacheln in einer Åquatoriallinie an, meist allerdings mit Anfigung
noch je eines Polstachels, sodass Steuerrad- und Kreisel-Formen
entstehen. (Fig. 15). Åhnliche Kalkkårper-Gebilde mit etwas ab-
geschnirten Kugelstacheln finde ich von Hartmeyer fir ein
arktisches. D. albidum angegeben (1. c. 1923, Taf. I Fig. 21). Ubri-
gens kommt eine solche Sonderform der Kalkkårper auch noch
bei einer anderen arktischen Didemnide vor, nåmlich bei Lisso-
clinum wandeli Hartmr. (1.c. 1923,
Taf. I "Fig 26). MP Ceiderskkansser
der Abbildung der Kalkkårper bis-
her nichts iiber diese Art, bis jetzt
ein nomen nudum, bekannt gewor-
den, sodass wir uns iiber ihr Ver-
håltnis zu Didemnum albidum kein
Urteil bilden kånnen.

Als Ergånzung will ich noch an-
fihren, dass ich auch bei meinem
neuseelåndischen Material die tho-
rakalenSeitenorgane als åus-
serlich und ziemlich umfangreich

Fig. 15... Didemnum albidum Verr.

von New Plymouth. Kalkkårper ex- erkannte.

tremer Form, zum Teil mitten durch
geschnitten, X 335.

Auffallend, jedoch nicht einzig
in ihrer Art, erscheint die geo-
graphischeVerbreitung des D.albidum, die kaum anders, denn

S ,bipolarf bezeichnet werden kann. Sie erinnert an die Ver-
breitung gewisser Botrylliden umd der Ascidien-Gruppe Ascidia lagena
Mich.—longisiphonica Kiår!).

Didemnum tuberatum (Nott).

1892, Leptoclinum tuberatum N ott, Comp. Ascid. N. Shore Reef, p. 314,
Taf. XXVI.

1900, Leptoclinum scidula Sluiter, Tunic. Stillen Ocean, p. 19.

1909, Didemnum scidula + D. tuberatum, Hartmeyer, Tunic.; in:
Bronn, Kl. Ordn. Tier-R., p. 1451, 1551.

1) Vergleiche W. Michaelsen, Ascid. Ptychobr. Diktyobr. Neuseeland.
Chatham -Ins., p. 364.

357

1920, Trididemnum tuberatum, Michaelsen, Krikobr. Ascid. westl. Ind.
Oz.: Didemnid., p. 6.

Fundangaben: Neuseeland, Nord-Insel, Little Barrier
Island, 30 Fd.; 29. Dez. 1914. — Hauraki-Golf, Kawai,
North Channel, 10 Fd.; 29. Dez. 1914. — Vor Stewart-Insel,
ca. 35 Fd.; 20. Nov. 1914. — Stewart-Insel, 20 Fd.; 16. Nov.
1914. — Halfmoon Bay, 5—7 Fd.; 19. Nov. 1914. — Auck-
IndInseln Eris urers Island; Carnley Harbour Kuste,
an Ascidien (Corella eumyota); 8. Dez. 1914.

Weiteres Vorkommen im Gebiet: Neuseeland, Nord-Insel,
North Shore und Rangitoto bei Auckland (Nott 1892). —
Sid-Insel French Passage und dUrville-Insel (Sluiter
1900).

Erorterung: Ich habe der fir ihre Zeit vorziglichen Beschreibung
Nott's nicht viel hinzuzufigen.

Die ,pharyngeal tubercles" des Neuseelånder Autoren, nach der
Zeichnung (l. c. 1892, Taf. XXVI Fig. 1, p. 1) mit Kalkkårpern ge-
fullte, geschlossene ovale Såcke jederseits am Thorax, in die Kloakal-
råume hineinragend, im Text (1. c. 1892, p. 314) ganz richtig als
£projection of the testmatrix containing enormous quantities of small
spicules" bezeichnet, sind nach meiner Nomenklatur als 2 thora-
kale Seitenørgane zu bezeichnen, und ihre Ausbildung ist fir
diese Art sehr charakteristisch. Es sind verhåltnismåssig sehr um-
fangreiche, auf schmaler, derbwandiger Basis sitzende, ballonfårmig
aufgeblåhte, diinnwandige Såcke, die weit in die den Thorax dorsal
und seitlich umfassenden Kloakalråume hineinragen. Sie sind gegen
diese Kloakenråume natiirlich geschlossen, &ffnen sich jedoch nach
unten in die Zellulosemantelmasse.

Die Kalkkårper sind im allgemeinen bis etwa 25 oder 30 w
dick, vereinzelte hypertrophe, nur in wenigen Kolonien beobachtet,
erreichen eine Spannweite von 60 u. Die Stacheln der Kalkkårper
sind stets, wie es auch der Abbildung Nott's entspricht, kegel-
formig und ziemlich spitz. Ich fand bei dieser Neuseelånder Art
in keinem Falle Kalkkårper mit walzenfårmigen Stacheln, wie sie
fur D. biglans (Sluit.)") bezw. D. gaussi Mich.”) charakteristisch

DEGSPENSIuiter. 1906, Tunic:; in: "Exp: antarct. frang- (1903-1905) p-29,

(Leptoclinum b ).

2) R. Hartmeyer, 1911, Ascid. Deutsch. Sudpolar-Exp, p. 499 (Didem-

num b.). — W. Michaelsen, 1919, Kenntn. Didemnid., p. 30 (Didem-
num 24UssL).

358

sein sollen, Formen, die ebenfalls solch grosse, ballonfårmig auf-
geblåhte Seitenorgane besitzen.

Zwei (oder drei) kurze, birnfåormige Gefåssanhånge ent-
springen mit gemeinsamer Basis seitlich am Abdomen. Die von
N ott irrtumlicherweiser "Vascular appendages" bezeichneten als von
der Taille ausgehenden" Organe"dieser”Art (NCIS O2 FNS TSNEAR
XXVI Fig. 2 v, ap) sind tatsåchlich Zurtckzieher (Retraktoren)
von sehr charakteristischer Gestaltung. Sie entspringen am Hinter-
ende des Thorax, sind aber mit der Taille fast in deren ganzer
Långe verwachsen, ungefåhr so lang wie der Thorax, am blinden
Ende schwach oder etwas stårker angeschwollen, oberflåchlich in-
folge des Abragens der Muskel-Enden gleichsam zerfasert, kurz-zottig.

Ich habe friher (1. c. 1920, p. 6) diese Art irrtumlicherweise zu
Trididemnum gestellt, verleitet durch Nott's Angabe, dass er bei
reifen Personen nur drei Kiemenspalten-Zonen gefunden habe (stets
4 bei jungen). Tatsåchlich hat Didemnum tuberatum (ohne råhren-
formigen Atrialsipho) nichts mit der Gattung Trididemnum zu tun.
Ich meinerseits glaube auch bei ausgewachsenen Personen 4 Kie-
menspalten-Zonen erkannt zu haben, wenngleich infolge der starken
Schrumpfung des Materials in keinem Falle ganz sicher. Sollten
in der Tat manchmal nur 3 bei reifen Personen erhalten geblieben
sein, so wåre das wohl nur als vielleicht abnorme Umbildung, nicht
als etwas Urspringliches, anzusehen.

Sluiter's Leptoclinum scidula ist mit dieser Art identisch, wie
ich nach Untersuchung eines mir von Hartmeyer freundlichst
uberlassenen Originalstuckes feststellen kann.

Didemnum tuberatum scheint dem D. candidum Sav. (siehe
unten!) nahe zu stehen, unterscheidet sich aber. durch die so
grossen thorakalen Seitenorgane von dieser Art.

Didemnum candidum Sav.

1810? Didemnum candidum (nom. nud.), Savigny, Tabl. syst. Ascid., p. 6.

1816, Didemnum candidum Savigny, Mém. anim s. vertébr., p. 14, 194,
Taf SIV Eros Ta RET se

1886, Leptoclinum speciosum + L. s. asperum + L. tenue (part. ?) +
2? L. annectens, Herdman, Rep. Tunic. Challenger II, p. 281,
Taf. XXXIX Fig. 8—11; ? Taf. XL Fig. 3—5; p. 274, Taf. XXXIV
Fig. 8—13; p. 277, Taf. XXXVI Fig. 1—9; p. 281, Taf. XXXIX Fig.

359

SE LIES Ea FEER Eros SD 28 0 Da FSV EAR
XXXVIII Fig. 5—9.

1892, Leptoclinum niveum Nott, Comp. Ascid N. Shore Reef, p. 308,
Taf. XXIV.

1897, Leptoclinum cretaceum Sluiter, Tunic. Sid-Afrika, p. 36, Taf. 1
Fis el Pak Se 710

1907, Leptoclinum tenue (part), Michaelsen, Tunic.; in: Erg. Ham-
burg. Magalh. Sammelr., p. 39.

1909, Didemnum novae-seelandiae Hartmeyer, Tunic, in: Bronn,
Kl. Ordn. Tier-R., p. 1450.

1910, Didemnum lutarium Van Name, Comp. Åscid. N. England a.
neighb. brit. prov., p. 371, Taf. XXXVII Fig. 7, Textf. 8, 9.

1915, Didemnum candidum, Hartmeyer, Ascid. Suez, p. 419, Textf
ISA

1919, Didemnum candidum Michaelsen, Z. Kenntn. Didemnid., p. 18.

1920, Didemnum candidum Michaelsen, D. Krikobr. Ascid. westl.
Indisch. Oz.: Didemnid., p. 19.

1921, Didemnum candidum, Van Name, Ascid. West Ind. Reg. southeast.
USS pi S23 next 160=25

Fundangaben: Neuseeland, Nord-Insel, Moko-Hinau-
buselkimeEkaurakllG ore rEds 307 Der TYTAT Colville
Channel 35 'Fd; 21. Dez: 1914. — Neuseeland, Sid-Insel,
Queen Charlotte-Sund, 3—10 Fd.; 19.—20. Jan. 1915. —
Lyttleton (Lendenfeld s., Mus. Berlin). — Stewart-Insel,
AQREdER16Nov 1914:

Weiteres Vorkommen im Gebiet: Neuseeland, Nord-Insel,
Northkshoretund"RansitotosInsel bei "Aackland(N ott
1892).

Weitere Verbreitung: New Hampshire bis Bahia in Brasi-
lien, einschliesslich der Bermuda-Inseln (Herdman 1886
und Van Name 1910 und 1921); MagalhaensischesGebiet
(Herdman 1886 und Michaelsen 1920); Mocambique (Slui-
ter 1897); Sid-Madagaskar und Mauritius (Michaelsen
1920).

Erorterung: Ich schliesse mich in der weiteren Fassung dieser,
zumal in der Gestaltung der Kalkkårper sehr variablen Art an
Van Name (l. c. 1921, p. 323) an. Von friher beschriebenen
Neuseelånder Arten glaube ich Leptoclinum niveum Nott mit Di-
demnum candidum vereinen zu sollen.

360

Didemnum mortenseni nm. sp.

Fundangabe: Stewart-Insel, Port Pegasus, an abgestorbener
Austernschale, 25 Fd.; 20. Nov. 1914.

Beschreibung. Koloniegestalt und Bodenståndigkeit:
Die Kolonie ist eine ungefåhr 1 bis 1//> mm dicke hårtliche Kruste,
die, uberall fest anliegend, eine von Bohrschwåmmen -zermiirbte
Austernschale und deren Aufwuchs iberzieht, und zwar vom Rande
her sowohl die Ober- wie die Unterseite.

Oberflåche der Kolonie, abgesehen von den durch den
Untergrund verursachten Unebenheiten, ziemlich eben, im feineren
rauh.… Personen-Aussenflåchen markiert durch ziemlich
gleichmåssig, aber ohne besondere Ordnung verteilte breit-ovale,
dunkelgraue Feldchen von ca. 0,35 mm Breite und 0,4 mm Långe,
die durch hellere, im allgemeinen schmålere Zwischenpartien von-
einander getrennt sind, sodass die ganze Oberflåche der Kolonie
wie ein grobes Sieb aussieht. Stellenweise gehen die Personen-
Aussenflåchen bis dicht an den hier und dann wulstig geformten Rand
der Kolonie heran, stellenweise zieht sich die Randpartie dagegen
in personenloser Strecke dinn aus.

Branchialoffnungen als winzige, helle sechsstrahlige Stern-
chen mit 3 gråsseren und 3 kleineren Winkellåppchen excentrisch
auf den Personen-Aussenflåchen gelegen.

Kloakalåffnungen spårliche, ganz unregelmåssig gestaltete
Locher mit diinnhåutigem Rande, ungefåhr so gross wie die Per-
sonen-Aussenflåchen bis etwa doppelt so gross.

Zellulosemantel durch måssig starke Einlagerung von Kalk-
kårpern etwas brichig. Blasenzellen und Pigmentzellen
fehlen. Spindel- und Sternchenzellen ungemein zart. Kalk-
kårper unregelmåssig und locker durch alle Schichten des Zellu-
losemantels zerstreut, vielstrahlig-maulbeerfårmig,. mit mehr oder
weniger flach kuppelfårmigen, håchstens -halbkugelig erhabenen,
seltener gerundet stumpfkegelfårmigen Stacheln (åhnlich den ty-
pischen Kalkkårpern von D. albidum), bis etwa 85 uw dick. Die
kleinsten Kalkkårper in den thorakalen Seitenorganen bis etwa
10 w Dicke sind noch glatt kugelig, aber schon solche von 16 w
Dicke zeigen deutliche Maulbeerform.

Bau der Kolonie. Die Kolonie wird gebildet von zwei weit

361

getrennten Zellulosemantel-Platten, die am Rande in einander iiber-
gehen und ausserdem nur durch die von sehr dinner Zellulose-
mantel-Masse gestiitzten Personen zusammen gehalten werden. Die
Oberflåchen-Platte ist etwa 0,5 mm, die Grundplatte etwa 0,2 bis
0,3 mm, der je nach Kontraktion sehr verschieden weite Zwischen-
raum etwa 0,5 bis 0,75 mm dick. Die mehr oder weniger genau
senkrecht oder schråge zur Oberflåche der Kolonie stehenden Per-
sonen sind mit dem oberen Teil des Thorax etwa bis zum ersten
Quergefåss des Kiemensackes in die Oberflåchen-Platte des Zellu-
losemantels eingebettet, wåhrend andererseits ihr eigentliches Ab-
domen in die Grundplatte des Zellulosemantels eingesenkt ist.
"Diese Einsenkung der Abdomina
in die Grundplatte ist insofern
noch unvollkommen, als sie meist
noch mehr oder weniger starke
Hervorragungen an der Oberflåche
der Grundplatte verursachen. Die
mittleren und unteren Partien des
Thorax samt der måssig schlanken
Taille durchspannen im allgemeinen
frei den Zwischenraum zwischen den
beiden Zellulosemantel-Platten, der

als umfangreicher, durch die Klo- Fig.16 Didemnum mortenseni nm. sp.
Vertikalschnitt durch die Randpartie
einer Kolonie; X 25.

akalåffnungen unmittelbar ausmin-
dender Kloakalraum anzusprechen
ist. Weitere, etwa in die diinne Grundplatte eindringende Kloakal-
råume bezw. -kanåle sind nicht vorhanden. Die den Kloakalraum
durchziehenden Teile der Personen sind nur an der Ventralseite
und mehr oder weniger weit lateral von einer sehr dinnen Zellu-
losemantel-Hiille bedeckt, dorsal und mehr oder weniger weit lateral
ganz nackt, unmittelbar von der Flissigkeit des Kloakalraums be-
spiillt. Eine etwas bessere Stitze besitzen einige randståndige Per-
sonen, da sie mit ihrer ganzen Ventralseite fest in die hier unter
Zusammenbiegung und Verschmelzung der beiden Piatten gebildete
Randmasse des Zellulosemantels eingebettet sind. (Diese besser
gestiitzten randståndigen Personen waren infolgedessen in ganzer
Långe nur wenig kontrahiert und liessen die Organisation des
Thorax deutlich erkennen, wåhrend die den Kloakenraum frei durch-

362

setzenden Personen in ihren Mittelteilen bis zur Unkenntlichkeit
verschrumpft waren).

Personen bei måssig starker Schrumpfung etwa bis 17/4 mm
lang, meist etwas kurzer.

Thorax etwa doppelt so lang wie in der Mitte breit, nach
hinten verschmålert, ventral stark gewolbt.

Branchialsipho gerade am breiteren vorderen Pol des Tho-
rax, måssig lang, etwas uber der Basis verengt, nach aussen fast
trichterfoårmig erweitert, mit nur måssig starker Ringmuskulatur,
apikal in 6 Låppechen auslaufend.

Atrialsipho nicht ausgebildet… Atrialdffnungtemtsebr
grosses, ganzrandiges Loch, das den gråsseren Teil der Dorsalseite
des Thorax ungefåhr von der Håhe des ersten Kiemensack-Quer-
gefåsses bis fast zum Hinterende des Thorax einnimmt. Eine
Atrialzunge scheint nicht gebildet zu sein.

Thorakale Seitenorgane auch an entkalkten Pråparaten
sehr deutlich erkennbar, sehr gross, ganz innerlich. Es sind breite,
annåhernd kreisrunde Såcke, fast doppelt so breit wie lang, die
ziemlich weit vorn am Thorax, ungefåhr in der Håhe des ersten
Kiemensack-Quergefåsses, jederseits in die Peribranchialråume hin-
einhången. Durch eine måssig weite Offnung ergiessen sie ihren
Inhalt in die dinne ventrallaterale Zellulosemantel-Hille der Per-
son, ungefåhr dort, wo diese Hille in die Oberflåchen-Platte des
Zellulosemantels ibergeht, wenn nicht unmittelbar in diese Ober-
flåachen-Platte.. Manchmal, mutmasslich infolge gelegentlicher Aus-
wårtsbiegung oder Verzerrung, sah es so aus, als ragten die thora-
kalen Seitenorgane in den Kloakalraum hinein.

Einen Zurickzieher am Hinterende des Thorax konnte ich
nicht deutlich erkennen. Falls er vorhanden ist, kann er wohl nur
sehr kurz sein. !

Taille ziemlich eng und måssig lang, bei stark geschrumpf-
tem Thorax kaum enger als das Hinterende des Thorax, vom eigent-
lichen Abdomen scharf abgesetzt.

Abdomen seitlich zusammengedriickt-beutelformig, mehr oder
weniger stark zur Seite abgebogen, sodass es horizontal in der
Grundplatte zu liegen kommt, eine Breitseite nach unten gerichtet,
eine nach oben, hier eine mehr oder weniger starke Vorwålbung
der Grundplatte in den Kloakalraum hinein hervorrufend. Gefåss-

363

anhånge am Abdomen im allgemeinen kurz und anscheinend spår-
lich, linger und zahlreicher nur in den personenlosen Zuwachs-Rand-
partien der Kolonie.

Branchialtentakel stummelfårmig bis fadenfårmig, nach
demEschematlsts se SEN oderi(stellenwelse P) EINE PEPE ver
schieden gross, etwa 16 (?) an Zahl.

Kiemensack mit 4 Kiemenspalten-Zonen, etwa 8 Kiemen-
spalten in einer der vorderen Halbzonen (in den hinteren weniger?).

Darm eine fast kreisrunde Schleife mit måssig weitem Lumen
bildend. Øsophagus lang und eng. Magen gerundet kasten-
formig, glattwandig, mit Cardiawulst, ohne Pyloruswulst. Mittel-
darm (nicht ganz deutlich) in Nachmagen und Driissendarm geson-
der G)SREnddarmmåssig weit:

Geschlechtsapparat: Nur månnliche Geschlechtsorgane
beobachtet, Kolonien anscheinend getrenntgeschlechtlich. Auch
keine Embryonen und Larven im Zellulosemantel. Hode stets
aus 3 grossen, plump und unregelmåssig birnférmigen, ziemlich
eng aneinander gepressten Hodenblasen bestehend, deren Innen-
flåche durch die Pressung zu einer stumpfwinkligen Innenkante
umgeformt ist. Der bei praller Fillung ziemlich dicke Anfangs-
tell des Samenleiters windet sich in ungefåhr 5, durch deut-
liche Zwischenråume von einander getrennten Spiralumlåufen eng
um die Hodenblasen-Rosette herum.

Erorterung: Diese neue Art ist besonders auffallend durch den
Umfang, den der Kloakalraum bei ihr gewonnen hat. Sie bildet
in dieser Hinsicht einen weiteren Schritt von dem Zustand kanalartiger
Kloakalråume nach dem von D. sycon Mich.!) dargestellten Zustand,
in dem der Kloakalraum ein breiter, tiefer Raum ist, der von den
ganzen Personen frei durchspannt wird.

Besonders wesentliche Charaktere des D. mortenseni sehe ich
auch in der Gestaltung der thorakalen Seitenorgane und
dertmånnliichen Geschlechtsorgane.

1) W. Michaelsen, 1920, Krikobr. Ascid. westl. Ind. Oz.: Didemnid., p. 45
kaffe l SE 13:

364

Fam. Synoicidae.
Gen. Pseudodistoma, nov. gen.

Diagnose: Atrialsipho 6-lappig, ohne Atrialzunge, gesondert an der
Personen-Aussenflåche ausmindend.
Kiemensack mit wenigen (3) Kiemenspalten-Zonen.
Darm eine einfache håchstens im Taillenteil etwas gedrehte
Schleife bildend; Magen mit (wenigen) Långswilsten.
Personen mit einem langen, schlanken Postabdomen in
gerader Verlångerung des Abdomens. Herz und Gonaden im
Postabdomen.
Hodenblasen zweizeilig åhrenformig am Samenleiter sitzend.

Typus: Pseudodistoma cereum n. sp.

Ich stelle diese neue Gattung fir eine Art auf, die in mehreren
Hinsichten typische Distomiden-Charaktere aufweist, aber doch zu
den Synoiciden gestellt werden muss, weil sie ein richtiges, Herz
und Gonaden enthaltendes Postabdomen aufweist.

Eine eingehendere Erårterung iber diese Gattung knipfe ich
an die Erårterung des P. cereum.

Pseudodistoma cereum n. sp.

Fundangabe: Stewart-Insel, ca. 35 Fd., Sandgrund; 20. Nov.
1914.

Beschreibung: Kolonien långlich ballonfårmig, apikal etwas
verschmålert, gerundet, basal mehr oder weniger deutlich stiel-
formig verschmålert, im deutlichsten Falle auf etwa die halbe Ma-
ximaldicke in fast ”/> der ganzen Kolonie-Långe; im Mindestfalle
nur ein kleiner, schiefer Fortsatz am kaum verschmålerten, abge-
rundeten Basal-Ende. Die Kolonien haben anscheinend mit dem
schmalen Basal-Ende festgesessen und mågen fin situf hoch auf-
geragt haben.

Gråssenverhåltnisse der gråssten, deutlich gestielten Ko-
lonie: Långe 62 mm, wovon etwa 24 mm auf den Stiel entfallen,
groåsste Dicke 19 mm, Dicke des Stiels 8—10 mm.

Aussehen bråunlich gelbgrau, wachsartig durchscheinend mit
undurchsichtigen, dunkelgrau und gelblich braunen, zum grossen
Teil tief ins Innere zuriickgezogenen Personen.

Konsistenz måssig fest knorpelig.

Oberflåche infolge von der Einsenkung der Personen-Aussen-

365

flåchen uneben, auch im feineren nicht ganz glatt, sondern durch
mikroskopisch kleine Unebenheiten von meist kegel- oder kuppel-
formiger Gestalt etwas duff gemacht.

Personen nicht zu Personensystemen zusammengestellt.
Gemeinsame Kloakenoffnungen sind nicht vorhanden. Die
Personen stehen ziemlich weitlåufig und ohne Regel zerstreut (bei
dem vorliegenden Material zum grossen Teil tief ins Innere der
Kolonie zuriickgezogen), åusserlich durch breite, narbenartige Ein-
senkungen von ca. 1 mm oder etwas mehr Breite und mehr oder
weniger scharf. umrandeter ovaler Form angedeutet. Auf jeder
dieser Personen-Einsenkungen findet sich eine Branchialoff-
nung und eine Atrialoffnung, die Branchialåffnung meist deut-
lich 6-strahlig auf mehr oder weniger deutlicher warzenfårmiger
Papille, die Atrialoffnung anscheinend weniger regelmåssig gestaltet
und auf nur undeutlicher, anscheinend kleinerer warzenférmiger
Papille.

Zellulosemantel weich knorpelig, mit etwas zåherer Ober-
haut, im allgemeinen durchscheinend, aber nicht wasserhell, da die
verhåltnismåssig sehr dicht gestellten Spindel- und Sternchenzellen,
sowie kleine grob granulierte Rundzellen eine Tribung verursachen.
Blasenzellen fehlen. In der åussersten Schicht, wenn nicht dicht
unter der Oberhaut, liegen ziemlich weitlåufig zerstreut verhåltnis-
måssig sehr grosse, 75 bis 175 w dicke, breit ovale bis kugelige
Pigmentzellen, die schon bei Lupenvergråsserung als zerstreute
warmbraune Piinktchen in die Augen fallen. Diese Pigmentzellen
sind prall mit braunen und schwårzlichen Pigmentkårnern von 10 u
Dicke erfillt.

Die Personen liegen mit ihrem thorakalen Ende mehr oder
weniger genau senkrecht zur Oberflåche der Kolonie, wåhrend sich
das postabdominale Ende in die Richtung der Kolonie-Achse hin-
einbiegt. Trotzdem sie sich im allgemeinen leicht vom Zellulose-
mantel loslåsen, gelang es mir wegen ihrer Schlankheit und Zer-
brechlichkeit nicht, auch nur eine einzige unzerstiickt herauszuprå-
parieren. Die Gestalt der Personen ist infolge verschiedener Zu-
sammenziehung sehr verschieden; zumal das Postabdomen kann
einmal verhåltnismåssig dick und entsprechend kurz, ein andermal
ungemein dinn und lang sein. Einen recht guten Massstab fir die
Kontraktionsverhåltnisse bietet der Verlauf des Samenleiters: Im

366

schlanken, langgestreckten Postabdomen verlåuft er geradlinig, im
plumpen, zusammengezogenen Postabdomen bildet er sehr breite,
enge Schlångelungen. Die Långe einer stark zusammengezogenen
ausgewachsenen Person mag ungefåhr 6 mm betragen, wovon etwa
1 mm auf den Thorax, 1/2 mm auf das Abdomen und 3/2» mm
auf das Postabdomen entfallen. Andererseits erwies sich allein das
Bruchstiick eines sehr schlanken, nach Massgabe des Samenleiters
vollståndig ausgestreckten Postabdomens als 13 mm lang... Da aus
dem Verlauf des Darmes und der Gestalt des Kiemensackes bei
dem vorliegenden Material hervorgeht, dass auch Thorax und Ab-
domen in betråchtlichem Masse kontraktil sind, wenn auch wohl
nicht ganz so stark wie das Postabdomen, so glaube ich die Åus-
serstmasse kaum zu erreichen, wenn ich annehme, dass die Långe
einer normalen ausgewachsenen Person infolge verschiedener Kon-
traktion bezw. Streckung zwischen 5 und 20 mm schwanken kann.
Dem entspricht auch ungefåhr die grosse Strecke, die sich das
Thorakalende gewisser Personen durch Kontraktion von der Ober-
flåche der Kolonie ins Innere zuruickgezogen hat.

Thorax in stark kontrahiertem Zustand kurz und breit, im
Profil annåhernd quadratisch mit etwas vorspringenden Dorsalecken.

Branchialsipho in der Mitte der Vorderflåche des Thorax
in meist ziemlich scharfem Absatz entspringend, kurz cylindrisch,
weniger lang als breit, kronenfårmig, apikal in 6 regelmåssige,
breit gerundete, annåhernd halbkreisformige Lappen ausgezogen.
Ringmuskulatur des Branchialsiphos ziemlich kråftig, eine mehr-
fache Lage bildend.

Atrialsipho an der Dorsalkante der Vorderflåche des Thorax
stehend, in gleicher Richtung wie der Branchialsipho gerade nach
vorn ragend oder dorsalwårts abgebogen, fast cylindrisch oder quer,
in der Profillinie zusammengedrickt, nicht ganz so lang wie breit,
apikal in 6 umgekehrt herzférmige oder kurz-zungenfårmige Lappen
ausgezogen, die wenigstens annåhernd gleich gross sind; jedenfalls
ist keiner dieser Lappen iberwiegend gross und als Atrialzunge
anzusprechen. Die Ringmuskulatur des Atrialsiphos ist ziemlich
kråftig, vielleicht nicht ganz so kråftig wie die des Branchial-
siphos.

Abdomen mindestens durch eine scharfe, wenn auch feine
Einschnirung, vielfach durch einen betråchtlichen Dickenunter-

367

schied vom Thorax abgesetzt, etwas långer als der Thorax, je nach
der Kontraktion kaum diinner als der Thorax bis etwa ”/3 so dick.

Postabdomen cylindrisch, in gerader Verlångerung des Tho-
rax, stets långer als Thorax und Abdomen zusammen, bei starker
Streckung ein vielfaches so lang, in ganzer Långe oder in einem
mehr oder weniger grossen Vorderteil. kaum dinner als das Abdo-
men und nicht scharf, sondern nur undeutlich durch geringe Dicken-
abnahme von demselben abgesetzt, manchmal in den mittleren und
hinteren oder nur in den hinteren Teilen infolge starker Streckung
allmåhlich oder ziemlich schnell stark verengt, hinten gerundet ab-
stutzt und in einen ziemlich scharf abgesetzten, diinn-cylindrischen
Gefåssanhang mit anscheinend einfachem Lumen auslaufend.
Bei den beiden Personen, deren Hinterende unverletzt zur Beob-
achtung gelangte, war der Gefåssanhang 0,3 bezw. 0,4 mm lang bei
einer Dicke von ungefåhr 0,05 mm.

Leibeswand ziemlich derb. Ringmuskulatur nur in den
Siphonen, und zwar hier als ziemlich kråftige, breite Sphinkter ent-
wickelt. Långsmuskulatur vom Vorderende des Thorax bis
zum Hinterende des Postabdomens als zahlreiche ziemlich schmale,
durch verschieden breite Zwischenråume von einander gesonderte
Långsmuskelbindel gehend. Diese Långsmuskulatur zeigt vielfache
Unregelmåssigkeiten, insofern die Långsmuskelbiindel sich håufig
in zwei schmålere spalten oder einzelne Fasern zu einem benach-
barten Bindel hiniiber senden. Die Zahl der Långsmuskelbiindel
ist infolgedessen an verschiedenen Stellen verschieden. Ich zåhlte
am Umfang eines Postabdomen-Vorderteiles etwa 30 Biindel, an
ememneThorax ca 40.

Branchialtentakel schlank, ihre Zahl anscheinend gering,
(Cal?)

Flimmerorgan nicht klar erkannt.

Kiemensack mit 3 Kiemenspalten-Zonen, die vorn und
hinten einen betråchtlich breiten Kiemensack-Rand frei lassen, so-
dass der Endostyl an beiden Enden die åussersten Kiemenspalten-
Zonen iberragt. Kiemenspalten sehr lang und schmal, paral-
lelrandig, mehr als 20 in einer Halbzone. Parastigmatische
Quergefåsse fehlen. Dørsalfalten-Zingelchen gross, haken-
formig. Ubrigens waren diese Verhåltnisse infolge starker Schrump-

368

fung des Thorax so schwer klar zu stellen, dass irgendwelcher Irr-
tum nicht ganz ausgeschlossen sein mag.

Darm eine einfache, nicht betråchtlich -gedrehte, gerade nach
hinten ragende, in ganzer Långe eng geschlossene Schleife bildend.
Osophagus gerade nach hinten gehend, ziemlich lang, sodass
der Magen ziemlich weit hinten zu liegen kommt, dem Wendepol
der Darmschleife etwas nåher als dem Schlundeingang. Magen

Fig. 17. Pseudodistoma cereum n. sp. 4 Querschnitte durch einen Magen, a in der

Zone des Pylorus, b in der Mitte, c am Ende des vorderen Viertels, d in der Zone

"der Cardia; p = Pylorus, c = Cardia; bei b u. c der abweichende Umriss eines dicht
davor liegenden Querschnittes punktiert eingezeichnet ; X 68.

ungefåhr so lang wie breit, mit 4 anscheinend ziemlich regelmås-
sigen Långswiilsten, die vorn und hinten schulterartig vorragen und
breite, tiefe Einsenkungen bezw. Långsfurchen (innerlich Långs-
falten) zwischen sich fassen. Im Querschnitt stellt der Magen,
dessen Lumen durch diese Faltenbildung sehr verengt ist, im grås-
seren Teil seiner Långe ein ziemlich regelmåssiges langarmiges
Kreuz dar. Cardia und Pylorus liegen nicht sich gerade gegen-
iiber an den Enden des Magens, sondern einander etwas genåhert,
der Pylorus zwischen zwei Långswiilsten, die Cardia anscheinend
an der Flanke eines Långswulstes, doch war das letztere nicht
ganz sicher feststellbar, da der nåher untersuchte Magen (Fig. 17)
am Vorderende etwas unregelmåssiger gestaltet erschien. Eine
Långsfurche ging nicht ganz bis an das Vorderende, sondern wurde

369

vorn durch eine kurze Spaltfurche in etwas weiter ventral liegen-
der Linie ersetzt. Der Mitteldarm ist vom Magen scharf ab-
gesetzt und zeigt bei den nåher untersuchten Personen verschie-
dene Einschnirungen; doch erscheint es mir fraglich, ob diese
Einschnirungen nur gelegentliche Kontraktionsverengungen dar-
stellen, oder ob sie eine Sonderung des Mitteldarms in physiolo-
gisch verschiedene Teile anzeigen. Der Enddarm ist meist in-
folge Fillung mit nicht scharf geballten Fåcesmassen stark ange-
schwollen. After nicht klar erkannt.

Das Epicard zeigt im Postabdomen einen måssig starken, an
verschiedenen Stellen verschieden starken Besatz von sehr kleinen
Mesenchymzellen. Das Herz glaube ich im Hinterende des Post-
abdomens erkannt zu haben.

Geschlechtsorgane: Die Personen sind zwittrig. Die Go-
naden liegen im Postabdomen und zwar verhåltnismåssig sehr
weit hinten. Die Hode besteht aus zahlreichen, mehr als 30,
etwas verschieden dicken (durchschnittlich etwa 110 4), unregel-
måssig birnformigen Hodenblasen, die ziemlich regelmåssig zwei-
zeilig durch zarte, ziemlich kurze Sonderausfihrgånge in den Samen-
leiter eimminden. Bei weit ausgestrecktem Postabdomen ist auch
die Hode stark in die Långe gezogen und locker, sodass die
Åhrenform der Anordnung der Hodenblasen deutlich hervortritt.
Bei zusammengezogenem, verkirztem Postabdomen ist auch die
Hode zusammengezogen und verkirzt, sodass die Hodenblasen,
gedrångt stehend, eine långliche Gruppe bilden, und die Åhren-
Anordnung nicht erkennbar ist. Die Hoden erstrecken sich un-
gefåhr von der Mitte des Postabdomens nach hinten bis ungefåhr
zum Beginn des hintersten Viertels, das von Gonaden frei bleibt.
Unregelmåssige Kontraktion bezw. Streckung des Postabdomens
beeinflusst nattrlich dies Lagenverhåltnis. Der aus der Hode hervor-
gehende Samenleiter ist bei gestreckten Personen geradlinig,
wåhrend er bei stark kontrahierten Personen zumal in der vorde-
ren Hålfre des Abdomens eine dichte breite Schlångelung bildet. In
der Mittelpartie der vorderen Hålfte des Postabdomens zeigt der
hier prall mit Samenmassen gefillte Samenleiter (in der Regel?)
eine deutliche, bis 60 uw dicke Anschwellung, die als Samen-
magazin angesprochen werden muss. Das Ovarium liegt mehr
oder weniger dicht vor der Hode, bei kontrahierten Personen un-

Vidensk. Medd. fra Dansk naturhist. Foren. Bd. 77. 24

370

mittelbar vor der Hode, bei gestreckten Personen durch eine be-
tråchtliche Strecke von derselben getrennt, jedenfalls nahe der
Mitte des Postabdomens. Besondere Brutråume scheinen nicht
gebildet zu werden. Embryonen bezw. geschwånzte Larven
fanden sich in der Regel einzåhlig in dem Ausfihrwege, bei zwei
Personen im Abdomen dicht hinter der Region des Magens (ein-
mal ein Embryo, einmal eine geschwånzte Larve), bei zweien neben
dem Wendepol der Darmschleife, also teilweise im Abdomen, teil-
weise im Postabdomen (geschwånzte Larven), und schliesslich bei
einer Person ganz im Postabdømen, und zwar diesmal anscheinend
zu zweien, nåmlich eine geschwånzte Larve im Anfangsteil des
Postabdomens und ein Embryo weiter hinten, eine kurze Strecke
vor dem Ovarium. Es erscheint mir allerdings nicht ganz sicher,
ob dieser: letztere Embryo der Person entstammt. Es finden sich
nåmlich bei manchen Personen offenbar parasitische Embryonen
im Postabdomen!), so auch bei der in Rede stehenden Person im
Bereich der Hode, also hinter dem Ovarium und demnach sicher
nicht aus diesem hervorgegangen. So mag auch jener Embryo dicht
vor dem Ovarium, wenn er auch ein ganz anderes Entwicklungs-
stadium darstellt, ein derartiger Fremdorganismus sein.

Erorterung. Diese Art, fur die ich die neue Gattung Pseudo-
distoma aufstelle, zeigt bei typischer Synoiciden-Natur offenbare
Hinneigung zu gewissen Arten, die zur Zeit einer ganz anderen
Familie zugerechnet werden, nåmlich den Polycitoriden. Wie ich
an anderer Stelle”) darlegte und jetzt wieder zu zeigen habe (siehe
die Erérterung unter Amaroucium scabellum und A. circumvolutum)
ist die Abgrenzung der Fam. Synoicidae von der Fam. Polycitoridae
durchaus nicht an allen Stellen klar ersichtlich (Beziehung des Sy-
noicum appendiculatum Mich. zu der Gattung Heterotrema). Das
entscheidende Merkmal, das Vorhandensein bezw. Fehlen eines Post-
abdomens, låsst uns vielfach im Stich. Morphologisch ist das Post-
abdomen ein Auswuchs des Abdomens, in den Herz und Gonaden
hinein verlagert werden, und dessen Sonderung die verschieden-

1) Vergl. M. Caullery, 1908, Recherches sur les Synascidies du genre
Colella et Considérations sur la Famille des Distomidae. In: Bull. Sci.
France Belgique, XLII, p. 48.

2) W. Michaelsen, 1923, Neue u. altbek. Ascid. Reichsmus. Stockholm,
p:2:

371

sten Schårfegrade zeigt. Schon bei manchen zweifellos den Poly-
citoriden zuzuordnenden Formen verlångert sich das Abdomen iiber
den Wendepol der Darmschleife hinaus nach hinten, und zugleich
ragen auch die Gonaden iber das Hinterende der Darmschleife
hinaus in diese Verlångerung des Abdomens hinein. Diese Ver-
långerung kånnte figlich als Postabdomen angesprochen werden,
das sich noch nicht scharf vom Abdomen gesondert hat. Bei man-
chen Formen, so bei Polycitor måbiusi Hartmr.!) und Sigillina
australis Sav.”), Caullery?”), kommt es zur Bildung eines Fort-
satzes am Abdomen, der im wesentlichen die Struktur eines Post-
abdomens aufweist, ohne jedoch die Gonaden in sich aufzunehmen.
Schliesslich scheint bei Synoicum appendiculatum Mich. (1.c. 1923,
p. 14), das normalerweise die Gonaden wie bei typischen Synoi-
ciden in einem scharf ausgeprågten Postabdomen beherbergt, in
gewissen, mit der Knospenabschnirung zusammenhångenden Zu-
stånden eine teilweise Zurickverlagerung der Gonaden in das Ab-
domen vorzukommen. Wir sehen also an verschiedenen Stellen
ein Hiniberwechseln systematischer Beziehungen und morphologi-
scher Verhåltnisse uber die zur Zeit zwischen den Familien der
Synoiciden und Polycitoriden gezogenen Grenzen. Fir eine end-
gultige Festlegung dieser Grenzen und Gruppierung der Arten bezw.
Diagnostizierung der Gattungen fehlt meines Erachtens zur Zeit noch
die geniigende Grundlage.

Einer der bedeutsamsten Punkte, in denen Pseudodistoma cereum
von den typischen Synoiciden abweicht und sich den typischen
Polycitoriden an die Seite stellt, ist das Fehlen jeglicher Kloaken-
bildung bezw. die unmittelbare Ausmindung der Atrialoffnung
an der Oberflåche der Kolonie und die annåhernd regelmåssig 6-
strahlig kronenfårmige Gestalt des Atrialsiphos. [Andererseits
zeigen unter den Polycitoriden die Gattungen Sycozoa und Distaplia
die typische Synoicidenbildung der Kloakalråume und des bilate-
ralen, nicht radiåren, Baues des Atrialsiphos (Atrialzunge)|]. Vom
Synoicidentypus abweichend ist ferner die ungemein geringe Zahl,
Sædertkiemenspalten-Zonen.

1) Colella møbiusi R. Hartmeyer, 1905, Ascid. Mauritius, p. 396. — Po-
lycitor måbiusi, 1912, Ascid. Deutsch. Tiefsee-Exp., p. 305.

2) I.-C. Savigny, 1816, Mém. anim. s. vertébr., p. 179.

3) M. Caullery, S. Panat. position syst. Sigillina, p. 832. — 1908, 1. c. p. 47.

243

372

Von Polycitoriden-Arten, die eine nåhere Beziehung zu Pseudo-
distoma cereum zu haben scheinen, kommen nur solche in Betracht,
die ebenfalls 3 Kiemenspalten-Zonen besitzen, die Arten der Gat-
tung Sigillina und einige Arten der Gattung Eudistoma. Von diesen
letzteren åhnelt ihm Eu. måbiusi Hartmr. (1. c.) nicht nur in der
åusseren Tracht, in Form und Aussehen der Kolonie sowie in der
Anordnung der Personen, sondern auch in gewissen Organisations-
verhåltnissen der Person. Eu. måbiusi besitzt nåmlich hinten am
Abdomen einen langen Fortsatz, der seiner Struktur nach ganz dem
Postabdomen der Synoiciden, insbesondere des Pseudodistoma ce-
reum, gleicht, jedoch keine Gonaden beherbergt.!)

1) Nach Untersuchung einer Kolonie von Sansibar kann ich feststellen,
dass die Gonaden beider Geschlechter neben der Darmschleife im
Abdomen liegen, dass die Personen von Eu. måbiusi zwittrig sind. Die
Hode besteht aus ungefåhr 18 unregelmåssig birnfårmigen, ca. 0,95 mm
langen und 0,5 mm dicken Hodenblasen, deren sehr feine, verschieden
lange Sonderausfiihrgånge nach und nach, je zu 2 oder mehreren, teil-
weise dichotomisch und teilweise mehr doldenfårmig, zu einem Samen-
leiter Zzusammenfliessen. Die Hodenblasen bilden zusammen eine lång-
liche Røsette, aus deren Zentrum der Samenleiter hervorgeht. Der Sa-
menleiter ist anfangs nur etwa 0,094 mm dick, schwillt aber allmåhlich
an, manchmal bis zu einer Dicke von 0,938 mm (also fast so dick wie
eine Hodenblase). mancbmal weniger stark, um im distalen Teil wieder
dunner zu werden. Dieser schlank spindelfårmige Teil des Samenleiters
ist prall mit Samenmassen geftllt und mag alsSamenmagazin ange-
sprochen werden. Das kleine Ovarium sitzt neben der Hode, anschei-
nend dicht vor dem Zentrum der Hode (dem Beginn des Samenleiters),
von einzelnen Hodenblasen nach vorn hin iberragt und meist unter den
Hodenblasen versteckt und infolgedessen leicht zu ibersehen. Eine uber-
wiegend grosse, mit grobkårnigen Dottermassen gefillte und daher we-
niger Farbstoff annehmende Eizelle ist etwa 0,3 mm dick, daneben 1
oder 2 wenig kleinere, etwa 0,2 mm dicke stark fårbbare, zart granulierte
unausgewachsene. Den an der Dorsalseite des Thorax sitzenden kurz-
und breit-sackformigen Brutraum halte ich im Gegensatz zu Hart-
meyer (1. c. 1912, p. 308) fur eine echte Bruttasche, homolog den Brut-
taschen von Sycozoa und Distaplia. Diese Tasche ist zwar bei Eu. må-
biusi nicht gestielt wie bei jenen, aber doch scharf vom Thorax abge-
setzt, bruchsackartig, und nur durch eine sehr schmale Offnung mit dem
Thorax in Verbindung gesetzt. Die Bildung eines vermittelnden Råhren-
stiels, der auch bei den Arten jener Gattungen sehr verschieden lang
ausgebildet, manchmal sehr kurz ist, kann ich nicht fir so wesentlich
ansehen. Ich fand die Bruttasche stets nur wenig gråsser als den in

373

Einen åhnlichen, wenn auch etwas dinneren und schårfer ab-
gesetzten, anscheinend gonadenlosen (wenigstens månnliche Gonade
im Abdomen gelegen) Postabdominalfortsatz besitzt Sigillina australis
Sav. (Caullery) (1. c.). Diese Art stimmt mit Pseudodistoma
cereum auch in der Gestaltung des Magens auffallend iberein.
Savigny spricht (1. c, 179) von einigen ins Innere vorspringenden
Kanten (farétes saillantes"), denen die Nåhte (fsutures") der åus-
seren Oberflåche entsprechen, und in den betreffenden Abbildungen
(L. c. Taf. XIV Fig. 1,3, 4u.7) sieht man am Magen 4 scharf aus-
geprågte Långswiilste, an jeder Seite einen mittleren, der beiderseits
von einem die Profillinie bildenden Långswulst flankiert wird.
Hartmeyer glaubt die Richtigkeit dieser Feststellung in Zwei-
fel ziehen zu miissen!) weil Sluiter eine Sigillina mit glattwan-
digem Magen gefunden habe. Ich kann mich dieser Anschauung
nicht anschliessen, denn Savigny ist ein durchaus zuverlåssiger
Beobachter, und seine Angaben und Abbildungen sind genau und
scharf. Ich wirde eher in Zweifel ziehen, ob die betreffende
Sluiter'sche Art, Sigillina caerulea%), zu Recht in die Gattung
Sigillina gestellt worden sei. Meines Erachtens schliesst. sie sich
vielmehr eng an Eudistoma møåbiusi Hartmr. an. Ubrigens sind
die Geschlechtsverhåltnisse jener malayischen Art, sowie
auch die des Typus der Gattung Sigillina, noch nåher festzustellen.
Die weiblichen Organe sind bei beiden noch ganz unbekannt. Es ist
also fraglich, ob die Personen zwittrig oder getrenntgeschlechtlich
sind. Noch unsicherer erscheint mir die Gattungszugehårigkeit

ihr enthaltenen Embryo bezw. die geschwånzte Larve, deren Rumpf
eine Långe von 2!/, mm erreichen kann ; manchmal war die Bruttasche,
einen kleinen Embryo enthaltend, sehr klein. Bei mehreren Personen
fand ich nicht nur einen einzigen Nachkémmling in der Bruttasche, wie
es nach Hartmeyer fir diese Art charakteristisch sein soll, sondern
deren zwei, nåmlich neben einer ausgewachsenen geschwånzten Larve
einen sehr kleinen Embryo, nur wenig gråsser als eine ausgewachsene
Eizelle am Ovarium. Es ist einleuchtend, dass nach dem Ausschlipfen
der Larve der kleine Embryo die Bruttasche wenigstens anfangs bei wei-
tem nicht ausfuillt; doch mutmasse ich, dass sich die Bruttasche durch
Zusammenziehung bald der Gråsse des zurickbleibenden Embryos an-
passt.

1) R. Hartmeyer, 1909, Tunic. In: Bronn, Kl. Ordn. Tierr., p. 1441.

2) C. Ph. Sluiter, 1909, Tunic. Siboga-Exp. II, p. 31, Taf. II Fig. 12—16

374

von Colella cyanea" Herdm (CE SO9 ApG 9ETa FPO IVER
1—6), die Hartmeyer (1. c. 1909, p. 1441) fraglicherweise zu
Sigillina stellt. C. cyanea soll 5 oder 6 Kiemenspalten-Zonen
und nach der Abbildung (1. c. Fig. 5) mindestens 3 Dorsalfalten-
zungelchen besitzen, fållt also in dieser Hinsicht ganz aus dem
Rahmen der hier besprochenen Gruppe, deren Arten durchweg 3
Kiemenspalten-Zonen aufweisen, heraus.

Eine endgiilltige Beantwortung der Frage nach den Beziehungen
zwischen den hier erårterten Arten ist meines Erachtens nur nach
Klarstellung der Geschlechtsverhåltnisse derselben zu geben. Zu
Deachten wåre hierbei vielleicht noch die Struktur des Zellulose-
mantels: Bei Sigillina australis, S. caerulea und Colella cyanea fin-
den sich Blasenzellen im Zellulosemantel, wåhrend solche bei
Eudistoma mobiusi und Pseudodistoma cereum fehlen.

Gen. Amaroucium Edw.

Was den Umfang und Inhalt der Gattung Amaroucium bezw.
ibr Verhåltnis zur Gattung Synoicum anbetrifft, so halte ich es jetzt
fir richtiger, ihr auch alle die Arten einzuverleiben, bei denen die
Wiilste des Magens eine deutliche Långsrichtung aufweisen, wenn
sie auch mehr oder weniger durch Querfurchen zerschnitten sind,
und in der Gattung Synoicum nur die Arten mit typisch maulbeer-
formigem Magen zu belassen, eine Umordnung, die ich auch schon
bei der Erårterung von Synoicum (besser Amaroucium) steineni
Mich. in Vorschlag gebracht habe.”)

Amaroucium scabellum n. sp.

Fundangaben: Neuseeland, Nord-Insel, Little Barrier
Island, 30 Fd., Schillgrund; 29. Dez. 1914 (Typen). — Colville
ChannelesseEdsesandsrundsre FED Era

Vorliegend einige Kolonien bezw. Kormidien einer Art, die in
vielen Hinsichten auffallend an Synoicum appendiculatum Mich.?%)
von den Azoren erinnert; wenngleich sie in der Gestaltung der

1) W. Michaelsen, 1920, Ascid. Krikobr. Roten Meeres: Clavelinid. Sy-
noicid.

2) W. Michaelsen, 1923, Neue u. altbek. Ascid. Reichsmus. Stockholm
p. 10, Textfig. 2—4.

37.5

Kolonie sehr charakteristische Besonderheiten aufweist. Ich habe
jene Art von den Azoren der Gattung Synoicum zugeordnet, weil
die Magenwiilste manchmal durch Querkerben geteilt erscheinen
und dann den Beginn einer Magengestaltung darstellen, die in ihrer
håchsten Ausbildung als Maulbeerform bezeichnet fir die Gattung
Synoicum charakteristisch ist. Ich halte diese Zuordnung nicht
mehr fihr statthaft. Die Hinneigung zur Maulbeerform des Ma-
gens ist doch zu geringfigig, die fir die Gattung Amaroucium cha-
rakteristische Långswulstung des Magens doch noch zu sehr aus-
gesprochen, bei vielen Personen ganz rein ausgeprågt. Ausserdem
ist es doch noch fraglich, ob sich die Maulbeerform des Magens
wirklich durch Querteilung von Långswiilsten herausgebildet hat.
Neuerdings will es mir fast scheinen, als håtten wir in der Maul-
beerform eine von Amaroucium-Magenwiilsten ganz unabhångige
Bildung vor uns, hervorgegangen aus einer feinen Felderung, wie
sie etwa der Magen von Macroclinum stewartense n. sp. (siehe unten!)
aufweist, einer Felderung, die åusserlich gar nicht hervortritt und
håehstens die Innenseite der Magenwand uneben erscheinen låsst.
Wie die hier zu beschreibende Neuseeland-Art, so stelle ich jetzt
auch jene Azoren-Art zur Gattung Amaroucium. Auch dieses Vor-
gehen bringt meiner Ansicht nach keine endgiiltige Lésung der
Frage. Die Gattung Amaroucium bezw. die Gattungsgruppe Ama-
roucium-Aplidium ist sicherlich keine natutrliche Gruppe; erscheint
ESME do DE TaSE Fals bilde die hier zukerorternde FArteruppe (Ak
scabellum und Verwandte) eine Sondergruppe (Gattung?), die mit
der Gattung Heterotrema zu verschmelzen sei, einer Gattung, deren
Stellung noch ganz unsicher ist. und die man bis vor kurzem noch
zur Fam. Polycitoridae rechnen musste (vergl. Michaelsen, Il. c.
1923, p. 21). Eine eingehendere Besprechung dieser Verhåltnisse
schliesse ich in die Erérterung iber Amaroucium circumvolutum
(Sluit.) (siehe unten!) ein.

Beschreibung. Kolonien (Fig. 18) aus mehreren Kormidien
bestehend. Kormidien schemelfårmig, scharfkantig kreisrund oder
oval, wenn nicht etwas unregelmåssiger umrandet, mit konvexer
Oberflåche und mehr oder weniger breiten, manchmal sehr schma-
len, zurickweichenden Seitenflåchen. Bei stårkerer Ausbildung der
Seitenflåchen hat das Kormidium die Gestalt eines an der breiten
Oberseite gewolbten, an der schmåleren Unterseite abgestutzten

376

Kegels, bei schwacher Ausbildung der Seitenflåchen nåhert sich
die Gestalt des Kormidiums derjenigen einer bikonvexen Linse.
Wåhrend die meisten vorliegenden Kormidien vom Untergrunde
losgerissen sind, stehen ihrer zwei mit der schmalen Grundflåche
auf einer gemeinsamen diinnen, breiten Basalplatte, die ihrerseits
auf einem flachen Kiesgrunde gelegen zu haben scheint. Ich ver-
mute, dass auf dem Untergrunde bezw. auf der Basalplatte eine
ziemlich feste Sand- oder Kiesschicht lag, in die die Kormidien
bis zum scharfen Rande der Oberseite eingebettet waren.

Fig. 18. Amaroucium scabellum mn. sp. Kolonie mit 2 Kormidien; X 8/8.

Groåssenverhåltnisse der Kolonien: Gråsster Durch-
messer des gråssten (abgerissenen) Kormidiums 70 mm; gråsstes
noch an der Basalplatte sitzendes Kormidium an der freien Ober-
flåche 40 bezw. 45 mm, an der Grundflåche ca. 30 mm im Durch-
messer bei einer Håhe von ca. 25 mm messend; Basalplatte (2
Kormidien tragend) sehr verschieden dick, im Mindestmass etwa
3 mm, bei einer gråssten Flåchenerstreckung von ca. 100 mm.

Aussehen der Kolonie infolge von Inkrustierung dunkel
sandgrau; ganz undurchsichtig.

Oberflåche der Kolonie im feineren infolge von Inkrustie-
rung rauh, an der Basalplatte uneben, an den Seiten der Kormidien
ziemlich eben, an der konvexen Oberseite der Kormidien uneben,

377

mit einem ziemlich regelmåssigen Netz tiefer Furchen oder Grå-
ben, die durch eine dicht innerhalb des scharfen Randsaumes des
Kormidiums vorlaufende Ringfurche zu einem geschlossenen Sy-
stem zusammengefasst werden. Die annåhernd kreisfårmigen, ovalen
oder gerundet polygonalen, seltener långlichen Maschenråume des
Furchennetzes sind polsterformig erhaben. Die Breite der polster-
formigen Maschenråume betrågt durchschnittlich etwa 5 mm.

Branchialoffnungen unscheinbar, nicht erkannt, ebenso-
wenig Kloakalåffnungen. Ich mutmasse, dass einige Kloakal-
offnungen in der marginalen Ringfurche des Kormidiums liegen.

Innerer Bau des Kormidiums: Dicht unterhalb der ober-
flåchlichen Furchen und Gråben verlaufen mehr oder weniger weite,
zum teil ziemlich umfangreiche Kloakalkanåle, die zusammen
mit einem marginalen Ringkanal ein dem åusseren Furchennetz
entsprechenden Kanalnetz bilden. Die diese Kanåle von der Aus-
senwelt abschliessende Aussenwand, im Grunde der åusserlichen
"Furchen und Gråben, ist sehr diinn. Die Personen stehen an-
nåhernd senkrecht zur Oberseite der Kolonie reihenweise jederseits
von diesen Kloakalkanålen, in die zweifellos ihre Atrialbffnungen
einminden. Diese Personenreihen sind jedoch nicht ganz regel-
måssig und einfach. Vielfach treten einzelne Personen aus der
Reihe heraus, sodass eine Zickzackreihe oder eine mehrfache
Reihe jederseits neben der personenlosen Linie der Kloakalkanåle
entsteht. Es liegt offenbar ein ausgesprochenes System der An-
ordnung der Personen zugrunde, und zwar bildet ein Kormidium
anscheinend ein einziges, durch den Zusammenhang der Kloakal-
kanåle bestimmtes Personensystem, wenngleich das zusammenhån-
gende Kløakalkanal-Netz durch mehrere Kloakendffnungen ausmin-
den mag.

Zellulosemantel ziemlich fest knorpelig, iberall, sowohl in
der Basalplatte wie in den Kormidien, dicht mit måssig grobem
Sand, Spongiennadeln und dergl. durchsetzt, wodurch seine Druck-
festigkeit noch erhåht wird. Blasenzellen fehlen. Sternchen-
und Spindelzellen zart. Es finden sich ausserdem zahlreiche
grobgranulierte, kugelige oder ovale Rundzellen von durchschnitt-
lich etwa 6 u Dicke (Pigmentzellen?).

Personen offenbar meist stark verschrumpft. Sie låsen sich
zwar im allgemeinen sehr leicht vom Zellulosemantel los, doch ge-

378

lang es mir nicht, eine sicherlich vollståndige Person heil heraus-
zulåsen,; da das meist ungemein lange und sehr zarte Postabdomen
stets abriss. Die Gestaltung und die Gråsse der Personen ist sehr
verschieden, hauptsåchlich infolge der verschiedenen Gestaltung und
Gråsse des Postabdomens, in geringem Masse auch infolge Ver-
schiedenheit des Thorax und Abdomens; durch verschiedene Schrump-
fung ist diese Verschiedenheit offenbar noch verstårkt worden. Die
långste zur Beobachtung gelangte, offenbar stark gestreckte Person
ist mindestens 11 mm lang; ob ihr noch ein betråchtliches Stiick
des Postabdomens fehlt, muss dahin gestellt bleiben. Die kiirzeste
zur Beobachtung gelangte Person ist nur 3'/2 mm lang, trotzdem
ihr Postabdomen vollståndig zu sein scheint. Das letztere ist je-
doch nicht ganz sicher; denn das hintere Ende ihres kegelfårmig
zugespitzten Postabdomens ist nicht intakt; es mag sich in heilem
Zustande noch in einen ungemein dinn fadenfårmigen Postabdo-
minalteil fortgesetzt haben.

Thorax sehr verschieden gestaltet, vielfach verzerrt, je nach
der Streckung etwa doppelt so lang wie breit bis etwa 6 mal so
lang wie breit, håufig dorsal verkiirzt (verschrumpft), bei geschlechts-
reifen Personen meist in den mittleren und hinteren dorsalen Tei-
len zur Bildung eines Brutsackes stark aufgeblåht.

Branchialsipho in der Regel gerade am vorderen Pol des
Thorax gelegen, håufig infolge von Schrumpfung etwas dorsalwårts
verschoben und geneigt, kurz cylindrisch, weniger lang als breit,
anscheinend konstant in 6 regelmåssige, kurz herzfårmige oder ein-
fach gerundete Lappen auslaufend, mit ziemlich dicker und gleich-
måssig dicker. Ringmuskelschicht.

Atrialsipho eine kurze Strecke hinter dem Branchialsipho
gelegen, nur selten infolge besonderer Streckung so weit vorragend
wie der Branchialsipho, viel kleiner als dieser, von der Gestalt
eines kleinen abgestutzten Kegels, mit verhåltnismåssig enger Off-
nung und unregelmåssig gekerbtem Apikalrand, mit ziemlich dicker
Ringmuskulatur. Dicht vor dem Atrialsipho, eine deutliche, wenn
auch kurze Strecke von ihm getrennt, ragt eine ziemlich grosse
Atrialzunge vom Thorax ab. Die Atrialzunge ist in der Regel
einfach zungenférmig, ungefåhr doppelt so lang wie breit, apikal
in der Gestalt eines abgerundeten gleichseitigen Dreieckes endend.
Meist weist die Atrialzunge eine feine und ziemlich regelmåssige

379

Ringelung auf, mutmasslich eine Kontraktionserscheinung, deren
Regelmåssigkeit auf der regelmåssigen Anordnung der zarten Quer-
muskulatur des Organes beruht. Manchmal ist diese Ringelung
auf den apikalen Teil beschrånkt. Selten bildeten sich einige we-
nige tiefere Einkerbungen an den Seitenråndern oder ein Paar fast
lappige Vorwålbungen an der Basis. Mit einer Dreilappigkeit, wie
sie fir die Atrialzunge des A. appendiculatum charakteristisch ist,
haben diese undeutlichen Basallappen sicherlich nichts zu tun; sie
verdanken ihr stårkeres Hervortreten offenbar nur einer gelegent-
lichen stårkeren Kontraktion gewisser Quermuskelbiindel. An einer
einzigen der vielen zur Beobachtung gelangten Personen fand sich
eine deutlich ausgesprochene und gleichmåssige Zweizipfligkeit der
Atrialzunge. Eine typisch dreizipfliche Atrialzunge, wie sie fir A.
appendiculatum charakteristisch ist, wurde nicht beobachtet.

An der ventralen Hinterecke des Thorax findet sich in der
Regel ein dinnhåutiger, nicht muskulåser thorakaler Blind-
sack von cylindrischer, apikal gerundeter, oder kirzerer kuppel-
formiger Gestalt, åhnlich dem des 4. appendiculatum, das einem
solchen Blindsack seinen Namen verdankt. Die Gråsse dieses
Blindsackes schwankt bei A. scabellum in noch weiteren Grenzen
als bei A. appendiculatum. Manchmal konnte ich bei der neuen
Art iberhaupt keine Spur eines solchen Organs erkennen, doch
måchte ich nicht behaupten, dass es dann ganz fehlte.

Abdomen scharf vom Thorax abgesetzt, meist etwas kirzer
als der Thorax, selten, bei anscheinend stårkerer Streckung, etwas
oder betråchtlich långer, meist stark gebogen, ventral konvex, sel-
tfenentoeradelsestreckt:

Postabdomen sehr verschieden gestaltet, manchmal kurz,
pfriemformig, hinten kegelfårmig verjingt, anscheinend am Hinter-
ende in einen dinnen Gefåssanhang auslaufend, håufig sehr
lang und nach anfånglicher Verjuingung gleichmåssig dick, walzen-
formig, wenn nicht diinn, fadenfårmig. Bei oberflåchlicher Betrach-
tung hielt ich diese dinnen und sehr diinnen, walzenfårmigen bezw.
fadenformigen Weichkårperteile fir Gefåssanhånge. Eine genauere
Untersuchung ergab jedoch, dass es mit Långsmuskulatur, Epicard
und Mesenchymzellen ausgestattete echte Postabdominalteile seien.
Bei der schlankesten, offenbar stark gestreckten, mindestens 11 mm
langen Person ist das ca. 6,4 mm lange Postabdomen im allgemei-

380

nen nur 0,09 mm dick. Vielleicht war es urspringlich noch långer,
denn das Hinterende scheint abgerissen zu sein. In der Regel ist
das Vorderende des Postabdomens deutlich diinner als das Abdomen
und infolgedessen scharf von diesem abgesetzt. Auch liegt sein Ur-
sprung in der Regel (wie bei A. appendiculatum) etwas ventral,
zum mindesten insofern, als das Hinterende des Abdomens mit
dem Wendepol der Darmschleife dorsal in scharfem Absatz etwas
vorspringt.

Leibeswand ziemlich zart, mit charakteristisch angeordneter
Muskulatur, die im wesentlichen mit der von 4. appendiculatum
uibereinstimmt. Am Thorax sieht man eine offenbar etwas variable
Anzahl, jederseits etwa 20, ziemlich zarte Långsmuskelbiindel in
weiten, sehr unregelmåssigen Abstånden verlaufen, die manchmal
spitze Gabelungen, selten auch Anastomosen aufweisen. Nach vorn
treten diese Långsmuskelbiindel, sich zerfasernd, zum gråssten Teil
auf den Branchialsipho, zum geringeren Teil auf den Atrialsipho
iiber. Am Hinterende des Thorax vereinen sich die Långsmuskeln
jederseits zu einem ziemlich breiten, enggeschlossenen, dicken Bande,
an dessen Querschnitten man noch die Zusammensetzung aus meh-
reren (etwa 10?) dicken, in nicht immer ganz einfacher Schicht
eng zusammengelegten Långsmuskelbiindeln erkennen kann. Diese
beiden breiten Långsmuskelbånder ziehen sich durch die ganze
Långe des Abdomens hin und treten, sich etwas dorsalwårts ver-
schiebend, auch auf das Postabdomen iiber, das sie ebenfalls in
ganzer Långe — soweit erkannt — durchziehen. Sie bilden jeder-
seits am Postabdomen eine betråchtliche Verdickung der Wandung,
in deren Mittellinie das Epicard ansetzt. Die Ringmuskulatur ist
wenigstens der Hauptsache nach auf die Siphonen beschrånkt, an
denen sie je einen ziemlich kråftigen Sphinkter bildet. Am Thorax
konnte ich eine allgemeine Ringmuskulatur sonst nicht nachweisen;
sie kann jedenfalls nur ungemein zart sein. Es fand sich aber an
den mittleren Teilen des Thorax genau wie bei 4. appendiculatum
noch ein besonderes System von zarten Quermuskeln jederseits in
der Héhe der Kiemensack-Quergefåsse und durch je einen den
Peribranchialraum durchsetzenden Muskelstrang mit den Quermus-
keln der Kiemensack-Quergefåsse in Verbindung gesetzt. In den
beiden Långslinien dieser trabekelartigen Verbindungsmuskelstrånge
zeigt der Thorax vielfach eine Långsfurche als Folge scharfer Kon-

381

traktion dieser Verbindungsstrånge. Die aus der åusseren Gabelung
dieser Verbindungsstrånge hervorgehenden Quermuskelstrånge der
Leibeswand reichen ventralwårts fast bis zur ventralen Median-
linje mkSie enden "unter ”Zerfaserung eine kurze Strecke vor der
Medianlinie oberhalb des sehr breiten Endostyls. Die dorsalen
Åste der Quermuskelstrånge sind betråchtlich kiirzer und enden
unter Zerfaserung in betråchtlicher Entfernung von der dorsalen
Medianlinie.

BranchialfentakelundfEtimmerorgan nicht klar ter
kannt.

Kiemensack bei allen vorliegenden Personen stark geschrumpft,
mit etwa 20 Kiemenspalten-Zonen. Die Zahl konnte nur
nach Beobachtung der unklar durchschimmernden Dorsalfalten-
Zingelchen festgestellt werden, und zwar nicht ganz sicher.
Jedenfalls ist sie betråchtlich gråsser als bei dem nahe verwandten
Å. appendiculatum.

Darm eine einfache, gerade nach hinten ragende oder mit dem
Abdomen gebogene, manchmal auch etwas verzerrte, in ganzer
Långe eng geschlossene Schleife bildend. Magen ungefåhr in der
Mitte des hinlaufenden Darmschleifen-Astes, gerundet prismatisch,
in der Regel mit etwa 6 unregelmåssigen, seine ganze Långe durch-
messenden Långswiillsten, die an den Enden zum Teil schulter-
artig vorragen. Manchmal schienen diese Långswilste durch einige
wenige Querkerben geteilt zu sein. Besonderheiten des Mittel-
darms nicht deutlich erkannt. Enddarm einfach, ziemlich weit,
ausmiindend dicht hinter der Mitte des Thorax durch ein in den
Atrialraum hineinragendes, durch zwei Kerben bis auf den Grund
geteiltes Afterstick, bestehend aus zwei grossen, glattrandigen,
ovalen,- mehr oder weniger auswårts gebogenen oder eingerollten
Afterlippen.

Gesehlecehtsapparat:" Personen zwittrig RH ode nur an
wenigen Personen gefunden, bestehend aus einer ziemlich grossen
Anzahl (etwa 14?) bis 90 uw dicken, unregelmåssig birnfårmigen
Hodenblasen, die nicht ganz regelmåssig zweizeilig in Zickzack-
anordnung im mittleren und hinteren Teil des Postabdomens in
dem vom Epicard abgeteilten Dorsalraum liegen, eng eingebettet
in die hier etwas zurickgedrångten Massen der Mesenchymzellen.
Samenleiter ziemlich dick, bei fast allen untersuchten Personen

382

prall mit Sperma gefillt, auch an solchen Personen beobachtet, die
keine Hode zu besitzen schienen, bei diesen Personen bis in das
scheinbare Hinterende des Postabdomens zu verfolgen. Mutmass-
lich liegt hier wie bei 4. appendiculatum eine durch Knospenab-
schnirung bewirkte Stummelbildung des Postabdomens vor. Ova-
rium vor der Hode im Dorsalraum des Postabdomens, meist mit
einer die iibrigen an Gråsse weit tubertreffenden Eizelle, die die
Leibeswand des Postabdomens zunåchst vorwålbt, und in spåteren
Stadien eine bruchsackartige Vorwålbung in den Zellulosemantel
hineintreibt. Ich beoachtete derartige noch am Ovarium haftende
Eizellen mit einem gråssten Durchmesser von ”/3 mm. Als Brut-
raum dienen die mittleren und hinteren Teile der thorakalen Atrial-
håhle, die sehr stark aufgewdlbt sind und nach hinten meist ruck-
sackartig vorspringen. Dieser grosse Brutraum nimmt mebhr als
die Hålfte der Rickenseite des Thorax ein, von der er manchmal
kaum das vordere Finftel frei låsst. Selbst die Atrialoffnung ist
bei voller Entwicklung des Brutraumes in dessen Bereich einbe-
zogen, insofern sie an der Vorderwand dieser Vorwolbung zu sitzen
kommt. Der Brutraum enthålt in der Regel nur einen einzigen
Embryo bezw. eine einzige geschwånzte Larve von auffallen-
der Gråsse. Eine derartige Larve hat, den umgeschlagenen Schwanz-
teilknicht feingerechnet emnet Korperlinge vor tr mm berener
Breite von 0,44 mm. Sehr selten liegt im Brutraum hinter einer
geschwånzten Larve noch ein Embryo in sehr frihem Entwicklungs-
stadium. (Bei 4. appendiculatum finden sich in der Regel mehrere
gleichalterige, verhåltnissmåssig kleine Embryonen oder geschwånzte
Larven in dem nur wenig vorragenden, undeutlich ausgebildeten
Brutraum.)

Erorterung. Die obige Beschreibung zeigt, dass A. scabellum in
einigen sehr bemerkenswerten Bildungen (im Besitz eines dinn-
håutigen Blindsackes hinten-ventral am Thorax, sowie in der eigen-
artigen Bildung der Quermuskeln am Thorax und dem dorsalwårts
verschobenen Ansatz des Postabdomens) mit A. appendiculatum
ubereinstimmt. Um so auffallender ist es, dass die neue Art in
der Gestaltung der Atrialzunge, die in der Verwandtschaftsgruppe
des 4. appendiculatum in der Regel dreiteilig ist, abweicht. Das
seltene (bei meinem Material nur einmal beobachtete) Vorkommen
einer zweiteiligen Atrialzunge bei A. scabellum zeigt aber, dass es

383

sich hier um einen noch etwas schwankenden Charakter handelt,
dem in diesem Falle keine tiefgrundige Bedeutung zuzumessen ist.
Schon die charakteristische Koloniegestaltung unterscheidet A.
scabellum scharf von A. appendiculatum.
Eine weitere Besprechung dieser Art siehe unten, unter 4. cir-
cumvolutum.

Amaroucium circumvolutum (Sluit.).

1900, Psammaplidium circumvolutum Sluiter, Tunic. Stillen Ocean,
Bera ET mak IDE 91

1909, [Polyclinum] circumvolutum, Hartmeyer, Tunic.; in: Bronn,
Kl. Ordn. Tier-R., p. 1471.

Fundangaben: Neuseeland, Nord-Insel, North Cape, an
derEkKustekunter Steinen;t Sant IS —Colville Channel
SSREdsESandegrund; 21: Dez..1914.

Weiteres Vorkommen im Gebiet: Chatham-Inseln, Maun-
ganui (Sluiter 1900).

Dieser Sluiter'schen Art ordne ich einige Ascidien-Kolonien
von der Nord-Insel Neuseelands zu, die, abgesehen von gewissen
unwesentlichen, auf Variabilitåt beruhenden Verschiedenheiten, in
ausgesprochener Weise den Charakter der Originalkolonie von
Psammaplidium circumvolutum wiederspiegeln. Dieser Zuordnung
scheinen allerdings einige bedeutsame Verhåltnisse in der Organi-
sation der Personen entgegen zu stehen; ich glaube aber annehmen
zu dirfen, dass diese anscheinenden Abweichungen nur auf der Un-
gunst des Originalmaterials beruhen. Die Person, die der Sluiter'-
schen Abbildung zu Grunde lag, war offenbar stark verzerrt und
wohl auch gepresst. i

Beschreibung. Koloniegestaltung nicht immer so massig
wie beim Original. Diese Kolonien sind zum Teil viel dinner,
bis krustenfårmig, im Mindestfalle nur etwa 2 mm dick. Auch
die Struktur der oberen Flåche mit ihren Furchen und dazwischen
verlaufenden Wållen ist nicht immer so stark ausgeprågt wie beim
Original, wenngleich meist noch deutlich erkennbar.

In der Gestaltung der Personen (Fig. 19a u. b) stimmt mein
Material in dem bedeutsamsten Punkte, darin nåmlich, dass das
Postabdomen nicht gerade hinten aus dem Abdomen entspringt,
mit Sluiter's Angaben iiberein; im iibrigen aber zeigten sich

384

viele Abweichungen, die ich, wie oben angegeben, hauptsåchlich
auf Verzerrung der zur Untersuchung gekommenen Originalperson
zuruckfihre. (Die Schilderung, in der irgend welche Hinweise
auf variable Bildungen fehlen, scheint auf der Untersuchung nur
dieser einen"Person zu "beruhen)." Wåhrend "nach Slot ternedas
Postabdomen dorsal aus dem Abdomen entspringen und frei
vom Abdomen abragen soll, konnte ich an vielen Personen fest-
stellen, dass das eng gestielte Postabdomen ventral entspringt und
sich eng an die Hinterseite des in der Regel gerade nach hinten
ragenden Abdomens anlegt. (Bei der von Sluiter abgebildeten
Person ist das AÅbdomen offenbar postmortal ventralwårts abgebogen
und zugleich in seinem Taillenteil so gedreht, dass der Ursprung
des Postabdomens anscheinend dorsal zu liegen kam). Ihrer Ge-
stalt nach zeigen die Personen meines Materials insofern eine weit-
gehende Verschiedenheit, als sie zum Teil gerade gestreckt (Fig. 19q),
zum Teil mehr oder weniger stark ventralwårts eingekriimmt sind
Fig. 1956). Diese Einkrimmung beruht zweifellos auf dem Verlauf
der am Thorax noch ziemlich gleichmåssig iiber die Seiten ver-
teilten, im Bereich des Abdomens und Postabdomens aber sich
ventralwårts verschiebenden und sich schliesslich jederseits zu
einem dichten Bande zusammenschliessenden Långsmuskeln der
Leibeswand. Eine Kontraktion dieser Långsmuskeln fihrte zu
einer Verkirzung der Ventralseite von AÅbdomen und Postabdomen,
die sich ventralwårts einkrimmten, wåhrend die dorsalen Teile des
Abdomens mit der Darmschleife und das Dorsalfach des Postabdo-
mens mit der Hode dorsalwårts vorquollen. Bei dieser ventralen
Verkirzung rickt naturgemåss auch der Ursprung des Postabdo-
mens aus dem Abdomen in die Hohe, manchmal so stark, dass er
nur noch eine sehr kurze Strecke von der Taille, bezw. dem Hin-
terende des Thorax entfernt bleibt. Das Postabdomen zeigt eine
ganz eigenartige Gestaltung, hauptsåchlich charakterisiert durch die
verschiedene Ausbildung der beiden durch das Epicard gesonderten
Fåcher. Das die ziemlich massige Hode — Ovarien sind mir nicht
zur Anschauung gekommen — enthaltende Dorsalfach des Post-
abdomens ist durch seinen Inhalt stark aufgetrieben und anschei-
nend verkirzt. Das engere Ventralfach iiberragt infolgedessen mit
seinem hinteren Teil das Dorsalfach. Das Hinterende des Ventral-
faches ist nicht immer so einfach wie in der Figur dargestellt.

385

Håufig låuft es in zwei blasige Hervorragungen aus, oder es trågt
etwas weiter vorn noch eine kleinere dritte blasige oder stummelige
Hervorragung. (In der Sluiter'schen Abbildung kommt diese cha-
rakteristische Gestaltung des Postabdomens nicht zur Anschauung,
mutmasslich, weil sie eine Flåchenansicht, nicht eine Seitenansicht
darstellt).. Ektodermale Ge-
hassamhån gen haabe ice nicht
gesehen.

Der Branchialsipho ist kurz,
regelmåssig kronenfårmig, in 6 gleich
grosse Lappen auslaufend.

Der Atrialsipho trågt eine
grosse Atrialzunge, die nur sel-
ten einfach, meist dreiteilig ist.
Meist sind die Seitenlappen viel
kirzer als der mittlére, der auch
stets viel weiter vorragt. Nur selten
sind die drei Lappen fast bis zur
Basis gesondert; meist sind die
Seitenlappen deutlich als Anhånge
des mittleren ausgebildet.

Die Leibeswand ist måssig
dick und enthålt ziemlich betråcht-
liche, in ganzer Långe vom Bran-
chialsipho bis zum Hinterende des
Postabdomens verlaufende Långs-
muskeln, etwa 14 im allgemeinen
weit gesonderte Biindel, die sich

Fig. 19. Amaroucium circumvolutum
(Sluit.). Ganze Personen, a gestreckt,
hinten jederseits zu einem dichten b zusammengezogen; X 35.

Långsbande zusammenschliessen
(siehe oben!). Sluiter's Angabe, dass die Muskulatur åusserst
schwach sei, finde ich bei meinem Material nicht beståtigt.

Uber die innere Organisation des Thorax kann ich wegen
sehlechter Konservierung- meines Materials keine nåheren Angaben
machen; jedenfalls sprach nichts gegen die Sluiter'schen Angaben.

Der Darm bildet stets eine einfache, nur im Taillenteil gedrehte
Schleife. Der Magen soll nach Sluiter glattwandig, kugelig sein.
Bei meinem Material weist er 5 durch seine ganze Långe verlau-

Vidensk. Medd. fra Dansk naturhist. Foren. Bd. 77. 25

386

fende breite Långswiilste auf, die am Cardia-Ende schulterartig vor-
treten. Bei manchen Personen sind aber diese Magenwilste infolge
von Aufblåhung so sehr ausgeglittet, dass sie bei Betrachtung des
durchsichtig gemachten Ganzobjektes kaum in Erscheinung treten
und erst in Querschnitten an der Verdinnung des Wandungsepithels
der zwischen den Wiilsten liegenden Långsfurchen erkannt werden
konnen. Ich nehme an, dass Sluiter bei seiner Untersuchung
ein solcher Magen vorgelegen hat.

Geschlechtsapparat (Fig. 19): Wenngleich ich bei keiner
Person ein Ovarium gefunden habe, so muss ich doch annehmen,
dass die Personen zwittrig, mutmasslich protogyn, sind; denn ich
sah geschwånzte Larven im Brutraum von Personen, die mit einer
Hode ausgestattet waren. Die Hode besteht aus einer måssig
grossen Zahl, etwa 12, birnformigen Hodenblasen, deren verhålt-
nismåssig dicke Sonderausfihrgånge sich nach und nach zu sinem
nur wenig dickeren Samenleiter vereinen. Da die Sonderausfihr-
gånge im allgemeinen sehr kurz sind — manchmal fliessen zwei
Hodenblasen unmittelbar mit ihren Spitzpolen zusammen —, so
enisteht ein eng gedrångtes Biischel von Hodenblasen, das das
aufgetriebene Dorsalfach des Postabdomens ausfiilllt. Der Stielteil
de3 Hodenblasen-Biisschels ist håufig etwas spiralig gedreht. Der
Samenleiter ist måssig dick, prall mit Samenmassen gefillt.
Ovarien konnte ich an keiner Person erkennen; doch trugen einige
Personen, und zwar solche mit wohl ausgebildeter Hode, im schwach
aufgetriebenen Atrialraum eine geschwånzte Larve oder deren
zwei, selten auch drei. Die Sluiter'sche Darstellung der Ge-
schlechtsorgane (1. c.11900 Hp TS Ta FIE Fig EN) Fist mi e hear
klar. Danach soll das Ovarium in der Mitte des Postabdomens,
umgeben von den Hodenblåschen sein. In der Abbildung sieht man
dagegen im hinteren Teil des birnfårmigen Geschlechtsorganes bia-
sige Gebilde, die doch wohl Hodenblasen darstellen sollen, im vor-
deren Teil eine Anzahl kleinerer, im Profil kreisrunder Gebilde mit
dunklerem Mittelfleck. Sollen diese als Ovarium gedeutet werden?
Sie sehen in der Tat nicht wie die Eizellen eines Ovariums aus.
Ganz åhnliche Bilder boten mir dagegen die optischen Querschnitte
der spiralig aus der Långsrichtung herausgedrehten Spitzpole und
Sonderausfihrgånge der Hodenblasen an einer durchsichtig gemach-
ten Person.

387

Erorterung: A. circumvolutum steht offenbar dem A. [Synoicum]
appendiculatum Mich. (1 c. 1923, p. 10) von den Azoren und dem
A. scabellum n. sp. (siehe oben!) von der Nord-Insel Neuseelands
nahe. Es bildet zusammen mit diesen eine enge Gruppe, deren
Hauptcharakter wohl in der besonderen Art der Inserierung des
Postabdomens liegt, die sehr an die Gattung Polyclinum erinnert,
ohne jedoch mit ihr auf eine Stufe gestellt werden zu kånnen. (Bei
diesen Amaroucium-Arten gehen die Långsmuskeln der Leibeswand
auf das Postabdomen iiber, bei Polyclinum dagegen nicht). Ein wei-
terer gemeinschaftlicher Charakter dieser Arten liegt in der Gestalt
des Magens mit den wenigen (5 oder 6) breiten Långswiilsten.

Schon bei der Erårterung des 4. [Synoicum] appendiculatum
(1. c. 1923, p. 21) deutete ich auf gewisse Ubereinstimmungen mit
Arten hin, die bisher zu der Familie der Polycitoriden gestellt wur-
den, nåmlich mit Heterotrema sarasinorum Fiedler”) von Ceylon
und Polycitor (P.) torensis Mich.”) aus dem Roten Meer. Der Ver-
gleich der Hodenlage von A. circumvolutum mit der bei Heterotrema
sarasinorum (1. c. 1889, Taf. XXV Fig. 4) bestårkt mich noch in der
Anschauung, dass wir verwandte Bildungen vor uns haben. Ich
vermute, dass der Kårperteil, in dem sich die Hode bei Heterotrema
sarasinorum findet, nichts anderes ist als das an das Abdomen an-
gepresste Dorsalfach eines Postabdomens, wåhrend das (wie bei A.
circumvolutum) weiter nach hinten ragende Ventralfach, infolge von
Zerrung und Zerreissung undeutlich gemacht, durch die beiden
losgerissenen, anscheinend frei endenden Muskelbånder (Fig. 4
M. F.) der Leibeswand angedeutet wird. Vielleicht wåre es zu recht-
fertigen, wenn man diese Artgruppe unter dem Namen Heterotrema
als Gattung oder als Untergattung von Amaroucium absonderte, cha-
rakterisiert durch den ventralwårts verschobenen Ansatz des Post-
abdomens und die geringe Zahl (5 oder 6) der Långswilste des
Magens. (Nach Fiedler weist der Magen von H. sarasinorum
allerdings eine etwas gråssere Schwankung in der Zahl der Långs-
falten auf, nåmlich von 6—10; doch schliesse ich aus der Abbil-
dung vom Querschnitt des Magens, Fig. 6 M, dass diese Falten nicht

1) K. Fiedler, 1889, Heterotrema sarasin., Synascidiengatt. Distomidae,
px559;

2) W. Michaelsen, 1920, Ascid. krikobr. Roten Meeres: Clavelinid. Sy-
noicid., p. 3.

25

388

alle gleichwertig sein mågen, und dass Fiedler auch etwaige
bedeutungslose sekundåre Einfaltungen als echte Långsfalten mit-
gerechnet hat. Bei der erwåhnten Abbildung vom Querschnitt
des Magens kann es z. B. zweifelhaft sein, ob man 6 oder 7 Ma-
genwiilste zåhlen soll).

Amaroucium stelliferum (Sluit.).

1900, Psammaplidium stelliferum Sluiter, Tunic. Stillen Ocean, p. 13.
1900, Psammaplidium [Amaroucium)] stelliferaum, Hartmeyer, Tunic.,
in BronmeklOr de Tier RS STE
Vorkommen im Gebiet: Neuseeland, Sid-Insel, French
Passage n(Sluoiter1900):
Diese Art ist in den mir vorliegenden Sammlungen nicht ent-
halten.

Amaroucium constrictum Sluit.

1900, Amaroucium constrictum Sluiter, Tunic. Stillen Ocean, p. 16,
LafsiIfFigzSas

Vorkommen im Gebiet: Chatham-Inseln, Maunganui (Slui-
ter 1900).

In den mir vorliegenden Sammlungen anscheinend nicht ent-
halten.

Amaroucium variabile Herdm.

1879, Amaroucium sp., Studer, Fauna Kerguelensland, p. 130.

1886, Amaroucium variabile Herd man, Rep. Tunic. Challenger II, p.216,
Taf SX Fie 7-12 Text Er 9:

1889, Amaroucium variabile, Studer, Forschungsr. Gazelle, p. 145.

1911, Amaroucium variabile, Hartmeyer, Ascid. Deutsch. Sudpolar-
Exp.,p: 541, Taf. XLVILFig. 1—5, Taf LVI Fig. 4Æ83Textt il 231:

1912, Amaroucium variabile, Hartmeyer, Ascid. Deutsch. Tiefsee-Exp.,
p733570 hak eNEIVEE ESS RO:

Vorkommen im Gebiet: Chatham-Inseln (Sluiter 1900).

Weitere Verbreitung: Kerguelen (Studer 1879, Herdman
1886 und Hartmeyer 1911).

Ich muss die Verantwortung fir die Richtigkeit der Bestimmung
des Chatham-Materials Sluiter iiberlassen. Trotz der auffallenden
Weite bei Annahme der Richtigkeit der Sluiter'schen Bestimmung,

389

wurde die geographische Verbreitung dieser Art nicht aus
dem Rahmen der Verbreitung anderer subantarktischer Formen
heraustreten.

Amaroucium phortax n. sp.

1906, Amaroucium ritteri part. vel in toto, Sluiter (nec Sluiter 1895),
Tunic. Stillen Ocean, p. 15.

1906, Amaroucium obesum part. vel in toto, Sluiter, Tunic. Stillen
Oceans pine Taf ISEre 02)

Fundangaben: Neuseeland, Nord-Insel, Tauranga; Thi-
lenrusi(Mus" Berlin) VorStfewartInsel ca 35"Fdz20SNov-
1914 (var. ptychodes). Stewart-Insel, Paterson Inlet, 5—15
Fd.; 17. Nov. 1914 (var. ptychodesSs).

Weitere Verbreitung im Gebiet: Chatham-Inseln, Waitangi
(Sluiter 1906: 4. obesum part vel in toto). Neuseeland, Siid-
sek dDUrvyilleTnsel (auch Frenen” Passager Slulter
1906: A. ritteri part. vel in toto).

Ich fasse in dieser Art zwei Formen zusammen (f. typica von
den Chatham-Inseln und Neuseeland, var. ptychodes von der Ste-
wart-Insel), die sich anscheinend nur durch geringfiigige, ihrem
systematischen Werte nach noch nicht sicher zu beurteilende Eigen-
heiten unterscheiden. Die Beziehungen dieser Art zu gewissen
Sluiter'schen Arten, von denen ich Originalmaterial nachunter-
suchen konnte, sollen unten, bei der allgemeinen Erårterung, be-
sprochen werden. An dieser Stelle will ich nur hervorheben, dass
die Bezeichnung Amaroucium obesum keinenfalls auf ein Amarou-
cium des Neuseeland-Gebietes angewandt werden darf, da diese
Artbezeichnung bereits fir ein Amaroucium des Kaplåndischen Ge-
bietes, Psammaplidium obesum Sluiter!), festgelegt ist.

Beschreibung: Koloniegestalt und Bodenståndigkeit:
Kolonien (Fig. 20) massig, einfach gerundet oder unregelmåssig
gestaltet, meist mit nur kleinem Teil der Unterseite festgewachsen,
selten mit breiter Grundflåche dem Untergrunde aufliegend. Die
Kolonien der var. ptychodes, die viel kleiner als die der-typischen
Form sind, machen zum Teil den Eindruck, als seien sie durch
mehr oder weniger innigen Zusammenwuchs mehrerer einfach ge-

1) C. Ph. Sluiter, 1897, Tunic. Sid-Afrika, p. 28.

390

stalteter Kolonien entstanden. Als gute Darstellung einer Kolonie
der f. typica kånnte die Abbildung Sluiter's von seinem 4. obesum
von den Chatham-Inseln (1. c. 1906, Taf. I Fig. 9) gelten; doch ist
es fraglich, ob auch diese wie die zweite, von mir nachuntersuchte
Originalkolonie (siehe unten!) zu A. phortax gehårt.
Groåssenverhåltnisserder”Kolonie:NDieskerosstessmik
vorliegende Kolonie der f. typica, ein Stick von Tauranga (Fig. 20),
das in dicker Masse ein inniges Aggregat von einigen grossen
Schneckenschalen und einer Spongie umwachsen hat, bildet eine
unregelmåssig und viel gebuckelte Masse von etwa 220 mm Långe,
85 mm Breite und 45 mm Dicke. Da diese Kolonie jedoch nicht
einheitlich massig ist, sondern gewissermassen eine sehr dicke
Kruste darstellt, so ist als eigentliche Dicke nur etwa 20—25 mm

Fig. 20. Amaroucium phortaw n. sp. f. typica. Ganze Kolonie von Tauranga; X %/4.

anzunehmen. Eine andere, einheitlich massige, nierenfårmige Ko-
lonie von Tauranga ist 60 mm lang, etwa 40—42 mm breit und
15—25 mm dick. Die Kolonien der var. pæychodes sind betråcht-
lich kleiner. Die einfachen Kolonien dieser fraglichen Varietåt bezw.
die Teilsttcke der zusammengesetzten Kolonien sind etwa 6—20
mm breit und 5—12 mm hoch.

Konsistenz der Kolonie:"Die"Kolonien"derff typical sind
ziemlich fest knorpelig mit sehr zåher Oberhaut, die sich in gros-
sen Fetzen abziehen låsst. Die Kolonien der var. ptychodes sind
weicher, fast fleischig, jedoch mit ebenso zåher Oberhaut versehen.
Der betråchtliche Unterschied in der Konsistenz'der Kolonien beider
Formen mag auf verschiedener Konservierung beruhen.

Åussehen und Fårbung" der Kolonien versehiedener
Herkunft verschieden. Kolonien der f. zypica fast farblos, schwach
durchscheinend, mausgrau oder sehr hell gelblich grau, mit un-
durchsichtig weisslichen Personen. Kolonien der var. piychodes
von der Stewart-Insel schwach durchscheinend råtlich violett, mit

391

etwas helleren, såmischfarbenen undurchsichtigen Personen. Es ist
fraglich, ob auch dieser Unterschied auf verschiedener Konser-
vierung beruht. Vielleicht liegt hier eine echte Farbenvariation
vor, wie sie so håufig bei. Ascidien auftritt. Der Farbenton der
Kolonien von der Stewart-Insel beruht nicht auf bestimmten Pig-
mentkøårnchen, sondern ist gleichmåssig an die Zellulosemantel-
Masse gebunden.

Oberflåche der Kolonien ziemlich glatt, wenn auch nicht
ganz eben. Die geringen Unebenheiten hången jedoch nicht mit
einer Systembildung zusammen. Personen-Aussenflåchen als
kleine, helle Kreisflecke von etwa ”/2—>/3 mm Durchmesser er-
kennbar, der Hauptmasse nach unregelmåssig und verschieden dicht
iber die Oberflåche verteilt. Personensysteme sind nur stellen-
weise deutlicher erkennbar als kreisbogenfårmige oder reihenweise
Anordnung der Personen, sowie hier und da kleine Finfer- oder
Sechsergruppen, in deren Mittelpunkt eine Kloakenåffnung zu
liegen scheint. Bei einer sehr flachen, mit ganzen Grundflåche
angewachsenen polsterfårmigen Kolonie von Tauranga (Fig. 20) hat
es den Anschein, als wåre urspriinglich eine regelmåssigere System-
bildung vorhanden gewesen, die im Laufe weiteren Wachstums zu-
nåchst in den kulminalen Teilen der Kolonie undeutlich geworden
ist. Gerade in diesen kulminalen Teilen findet man Stellen, in
denen die Personen spårlich sind. Diese Bildung erinnert an die
von gewissen Korallen (z. B. von Porites-Blåcken) bekannte Erschei-
nung, dass die dem Nahrungszustrom besser ausgesetzten Aussen-
partien ein ippiges, frisches Wachstum aufweisen, wåhrend die in
Bezug auf Ernåhrung schlechter gestellten Mittelpartien mehr und
mehr absterben. Branchialoffnungen meist etwas excentrisch
in den Personen-Aussenflåchen, winzige undeutlich strahlige Sterne,
die von einer mehr oder weniger deutlichen Kreislinie umfasst sind.

Zellulosemantel mehr oder weniger fest und zåh, mit sehr
zåher, in grossen Fetzen abziehbarer diinner Oberhaut. Blasen-
zellen sind im Zellulosemantel nicht vorhanden, dagegen zahlreiche
Spindel- und Sternchenzellen, sowie durch die ganze Masse
verteilte långlich rundliche Pigmentzellen (?) mit sehr hellem,
grauem kårneligen Inhalt.

Die ausgewachsenen Personen stossen mit ihrem Vorderende
annåhernd senkrecht an die Oberflåche der Kolonie, wåhrend ihre

392

Mittel- und Hinterteile infolge unregelmåssiger Biegung ein lockeres
Filzwerk im Innern der Kolonie darstellen. Eine Herauslåsung gan-
zer Personen ist nicht gegliickt. Je nach der Streckung und je nach
der verschiedenen Långe des Postabdomens sind die Personen sehr
verschieden lang. Die kiirzeste in ganzer Långe zur Beobachtung
gelangte Person ohne Gefåssanhang war 4 mm lang, die långste ca.

Fig. 21. Amaroucium phortax n. sp. Vorderenden verschiedener Personen, a u. b der
f. typica, c der var. ptychodes; mit 3 bezw. 2 Embryonen, bezw. mit 1 Embryo im
Brutsack; d Atrialzunge einer anderen Person; X 35.

9 mm, doch fanden sich manche Postabdomina und Postabdomen-
Bruchstiicke, die auf eine noch gråssere Långe der vollståndigen
Person schliessen lassen. Im allgemeinen sind die Personen der var.
ptychodes (Fig. 21c) etwas gråsser, wenn auch nicht långer als die
der fl zypica (Fig "2 1TaluNb) OC hist est belkder Fungemeinkver:
schiedenen und nicht messbaren Kontraktion der ganzen Personen
wie einzelner Abschnitte derselben unmåglich, einigermassen be-
stimmte Masse anzugeben. Lediglich als Beispiel gebe ich an, dass
bei einer anscheinend måssig stark kontrahierten Person der f. typica
der Thorax etwa 1,25 mm lang und ohne Bruttasche 0,4 mm dick,

393

das Abdomen etwa 1,20 mm lang und 0,4 mm dick ist, bei an-
scheinend åhnlich kontrahierter Person der var. ptychodes der Tho-
rax etwa 2 mm lang und 0,85 mm dick, das Abdomen etwa 1,75
mm lang und 0,75 mm dick ist. Der Thorax, bei dem vorliegenden
Material in keinem Falle gut ausgestreckt, ist stets deutlich långer
als breit, manchmal nur wenig, manchmal betråchtlich, bis etwa 4 mal
so lang wie breit. Eine bedeutsame Umbildung zeigt er bei ge-
schlechtsreifen Personen infolge Ausbildung einer Bruttasche (Fig.
21), einer starken Ausweitung der Rickenseite des Thorax, die bei
ihrer Bildung zunåchst in den hinteren Teilen beginnt, um schliess-
lich die ganze Riickenseite einzunehmen. Schon bald nach dem
Beginn ihrer Ausbildung ragt die Bruttasche nach hinten iber den
Anfang des Postabdomens hinaus (Fig. 21c). Bei volier Ausbildung
ragt sie nach hinten iiber die Mitte des Magens hinaus und auch
nach vorn bis zur Håhe des Branchialsiphos (Fig. 214). Es sieht
dann aus, als wenn die Person auf dem Ricken des Thorax einen
nach hinten herabhångenden Sack triige (deshalb die Bezeichnung
A. phortax = Sacktråger). Abdomen so lang wie der Thorax,
wenn nicht etwas kirzer oder långer, meist scharf vom Thorax
abgesetzt, zumal scharf bei Personen mit Bruttasche, weniger scharf
bei unausgewachsenen Personen. Postabdomen wenig scharf
vom Abdomen abgesetzt, aber sein Beginn vielfach durch schlank
kegelformige Verengung gekennzeichnet, je nach dem Kontraktions-
zustand sehr verschieden lang, mindestens wohl etwa doppelt so
lang wie Thorax und Abdomen zusammen, vielfach ein Mehrfaches
dieser Långe ausmachend, manchmal ziemlich plump, nur wenig
dinner als das Abdomen, manchmal ungemein schlank. Ein etwa
7 mm langes Postabdomen aus der Kolonie von Tauranga war an
seinem dinnsten Teil nur ca. 0,12 mm dick. Das Hinterende des
Postabdomens trågt anscheinend konstant einen kleinen ziemlich
scharf abgesetzten, blasigen oder kuppelfårmigen Auswuchs, der
håchstens ein wenig långer als am Grunde dick ist. Håufig fand
sich jederseits neben diesem medianen Auswuchs noch ein kleinerer
seitlicher. Manchmal bildeten diese beiden seitlichen Auswichse
den am weitesten nach hinten ragenden Teil des Postabdomens,
wåhrend der gråssere mediane Auswuchs auf der hier stumpf kegel-
formigen Endflåche des Postabdomens etwas nach vorn geriickt er-
schien. In wenigen Fållen erkannte ich (nur an einer Kolonie von

394

Tauranga) einen langen, dinnen Gefåssanhang, ob neben einem
der oben geschilderten Auswiichse oder an Stelle eines solchen,
liess sich nicht feststellen. In einem Falle konnte ich den Gefåss-
anhang bis zu 8 mm Långe im Zellulosemantel verfolgen, ohne
sein Ende zu sehen; vielleicht war er also noch betråchtlich långer.

Branchialsipho (Fig. 21) mitten auf der gerundeten Vorder-
flåche des Thorax. Er ist klein, kronenfårmig, etwa halb so lang
wie breit, ziemlich scharf vom Thorax abgesetzt, und trågt apikal
6 regelmåssige, kurze, gerundete Lappen. Seine Wandung ist ziem-
lich dick, aber mit nur schwacher Muskulatur versehen.

Atrialsipho in måssig weiter Entfernung vom Branchialsipho
am Vorderende der Riickenseite des Thorax oder etwas weiter hin-
ten, je nach der Kontraktion des Thorax, im åussersten Falle etwa
am Ende des vorderen Viertels der Thorax-Rickenlinie. Der eigent-
liche Atrialsipho ist sehr kurz, ringwallfåormig. In der Ausstattung
mit Atrialzungen (Fig. 21) ist diese Art sehr variabel. In der
Regel trågt der Vorderrand des Atrialsiphos 1 oder 3 schlank lanzett-
liche, apikal scharf zugespitzte Atrialzungen, selten deren zwei. Bei
dem Auftreten von 3 Atrialzungen sind die beiden seitlichen meist
wenig oder betråchtlich kiirzer als die mittlere und manchmal basal
mehr oder weniger weit mit dieser verschmolzen, sodass sie nur
als Anhånge derselben erscheinen. Die mittlere bezw. die einzige
Atrialzunge reicht, an die Kårperwand angelegt, manchmal bis zur
Kuppe des Branchialsiphos. Die Seitenrånder und der Hinterrand
des Atrialsiphos sind entweder fast glatt, ganzrandig oder unregel-
måssig eingekerbt, oder auch in 2 oder 3 kurze Zungen ausgezogen.
Die Muskulatur des Atrialsiphos ist ziemlich schwach entwickelt.

Die Leibeswand des Thorax zeigt eine deutliche, aber
ziemlich schwache Långsmuskulatur, bestehend aus jederseits
etwa 14 (Zahl unsicher!) weit getrennten dinnen Långsmuskel-
biindeln.

Die innere Organisation des Thorax ist infolge starker
Kontraktion nicht ganz klar zu stellen.

Branchialtentakel schlank, spitzig, anscheinend recht zahi-
reich, etwa 24 (Zahlenangabe sehr unsicher!).

Kiemensack mit ziemlich vielen Kiemenspa!tenzonen. Ich
glaube an einer halbausgewachsenen Person deren 13 erkannt zu
haben, und mit diesem Befund schienen auch die mehr oder we-

395

niger unklaren Bilder von ausgewachsenen Personen iibereinzustim-
men; doch ist diese Zahlenangabe nicht ganz sicher. An einem
kleinen gut ausgestreckten Teil eines Kiemensackes zåhlte ich 9
Kiemenspalten in einer Halbzone. Die Kiemenspalten waren bei
dieser vollståndig ausgewachsenen Person etwa 4 mal so lang wie
breit.

Darm (Fig. 21 a) bei Personen mit gerade gestrecktem Korper
eine einfache, in ganzer Långe eng geschlossene, gerade nach hinten
ragende oder mehr oder minder um die Långsachse gedrehte Schleife
bildend; bei Personen mit verkrimmtem Abdomen macht der Darm
die Kriimmung naturgemåss mit. Der Osophagus ist schlank und
ziemlich lang, sodass der Magen ungefåhr in der Mitte des hin-
laufenden Darmschleifen-Astes eder etwas weiter hinten zu liegen
kommt. Bei unregelmåssiger Kontraktion des Abdomens und des
Darmes åndert sich auch die Lage des Magens. Der Magen ist
ungefåhr so lang wie breit, je nach Kontraktion bezw. Aufblåhung
etwas breiter oder schmåler, dorsoventral mehr oder weniger ab-
geplattet, vorn und hinten scharf abgesetzt, manchmal anscheinend
infolge von Zerrung mehr oder weniger schief. Hinterende des
Osophagus und Vorderende des Mitteldarms springen zur Bildung
eines ovalen Cardia- bezw. Pylorus-Wulstes etwas in den Magen ein.
Die Wandung des Magens ist åusserlich zwar nicht glatt, aber doch
nur mit verhåltmåssig wenig vorspringenden, den Magenfalten-
Zwischenråumen entsprechenden Långsfurchen versehen. Zahl-
reiche scharf ausgeprågte. Långsfalten der Wandung ragen weit in
das Lumen hinein. Die Långsfalten bezw. die Långswilste des
Magens, wenngleich der Hauptsache nach parallel mit einander in
ganzer Långe des Magens verlaufend, zeigen stellenweise manche
Unregelmåssigkeiten, Gabelung, Teilung in 2 oder 3 hintereinander
liegende, Einschiebung kirzerer und in Zusammenhang damit Schråg-
stellung einzelner Falten oder kleiner Gruppen (Fig. 214). Schon mit
diesen Unregelmåssigkeiten hångt eine Variabilitåt der Zahl der
Falten bezw. Wilste zusammen. Ich glaube jedoch in dieser Hin-
sicht auch eine echte, auf Lokalrassen zuruckzufihrende Variabilitåt
erkannt zu haben. Bei der Kolonie von Neuseeland und den Chat-
ham-Inseln ergab eine Zåhlung im allgemeinen eine betråchtlich
geringere Faltenzahl als bei den Kolonien von der Stewart-Insel,
bei denen diese Zahl eine selbst fir Amaroucium auffallende Hohe

396

erreicht. Sollte es sich zeigen, dass die ibrigen hier erwåhnten
oder noch weitere, an besserem Material vielleicht nachweisbare
Unterschiede zwischen dem Material von Neuseeland und dem
von der Stewart-Insel wesentlicher sind und somit eine Sonderung
von Arten nåtig machen, so schlage ich fir die Form von der Stewart-
Insel mit gråsserer Zahl von Magenfalten die Bezeichnung "A. pty-
chodes" ("mit vielen Falten") vor. Bei dem Material der f. typica
(Fig. 21a u. b) fand ich an den Querschnittserien durch den Ma-
gen von 7 Personen 23—26 Falten des Magens (Imal: 23, Imal:
24 2mal: 25 und "3mal:26)/ bei 4 Personen von "dertfStewart-
insel (Fig. 21c) 29—32 (1mal: 29, 2mal: 31 und Imal:"32)/7AMm
Ende des Magens geht auch bei dem Material von der Stewart-
Insel die Zahl der im Querschnitt getroffenen Falten bis auf Zahlen
zuriuck, wie sie fiir die f. typica charakteristisch sind, nåmlich bis
auf 24 oder 23. Der Mitteldarm ist beidenendes scharf ab-
gesetzt, im allgemeinen diinn und kurz, kaum so lang wie der
Magen und nicht an den Wendepol der Darmschleife heranreichend.
Eine Sonderung in Nachmagen und Driissendarm ist nicht immer
deutlich erkennbar. Bei einigen Personen der Kolonien zeigte der
Mitteldarm jedoch ungefåhr in seiner Mitte eine eigentiimliche
schmal-zonale, radfårmige Erweiterung, die vielleicht als Grenz-
marke zwischen Nachmagen und Drisendarm anzusehen ist. End-
darm måssig und gleichmåssig dick, ziemlich dicht hinter dem
Atrialsipho ausmiindend. After mit 2 grossen Afterlippen.

Das Epicard mit sehr dicker dorsaler und etwa halb so dicker
ventraler Wandung, sowie mit ziemlich weitem, an den Seitenkanten
nur wenig verengtem Lumen spannt sich so zwischen den Seiten-
wiånden des Postabdomens aus, dass es dessen primåre Leibeshåhle
in einen etwas umfangreicheren, die Gonaden enthaltenden Dorsal-
raum und einen etwas engeren Ventralraum teilt.

Geschlechtsapparat: Die Personen sind zwittrig Die
Hode nimmt den hinteren Teil des Postabdomens mit Ausnahme
des åussersten Endes ein. Sie besteht aus zahlreichen unregel-
måssig birnfårmigen, ovalen oder paketformigen Hodenblasen,
etwa 45 an Zahl, die je nach Kontraktion oder Strekung des Post-
abdomens dicht gedrångt oder locker bis fast zerstreut und mehr
oder weniger regelmåssig zweizeilig die Anhånge einer langen oder
sehr langen Åhre bilden. Der die Achse dieser Åbre bildende

397

Samenleiter låsst sich nach hinten bis weit iber die Mitte der
Hodenblasen-Zeilen verfolgen. Andererseits geht er unter geringer,
aber deutlicher Verdickung nach vorn bis in den Thorax hinein.
Je nach der Kontraktion der Person beschreibt der Samenleiter
hierbei schmale und weitlåufige bis sehr breite und dichte Schlån-
gelungen. Das Ovarium, iberspannt von dem Samenleiter, liegt
etwas vor dem Vorderende der Hode ziemlich weit hinter dem
Wendepol der Darmschleife. Bei einigen Personen mit stark ge-
strecktem Postabdomen betrug die Entfernung zwischen diesem
Wendepol und dem Ovarium ungefåhr 3 mm. Bei stark gedrun-
genen Personen ist diese Entfernung weit geringer; einmal mass
ich hier nur 0,558 mm. Als Brutraum dient die oben mit dem
Thorax geschilderte dorsale rucksackformige Bruttasche, die meist
1—3 Embryonen oder Larven enthålt. Diese Embryonen und
Larven sind sehr gross, bis ca. 0,38 mm dick, und fillen, eng an-
einandergepresst, die Bruttasche vollkommen aus (Fig. 21).
Erorterung: Mit A. phortax vereine ich verschiedene vonSchauins-
land im Neuseeland-Gebiet gesammelte Stiicke, die Sluiter (l. c.
1906) anderen Arten zuordnete, nåmlich je einen Teil des Materials
von A. obesum (Chatham-Inseln) und von 4. ritteri (D'Urville-Insel),
von denen ich typische Stiicke nachuntersuchen konnte. A. obesum
von den Chatham-Inseln (nicht zu verwechseln mit dem ålteren A.
[Psammaplidium] obesum Sluiter von Kapland) beruht auf 2 Ori-
ginalkolonien, von denen eine abgebildet wurde (1. c. 1906, Taf. I
Fig. 9). Mir liegt eine als Typus gekennzeichnete Kolonie dieser
Art vor (von Prof. Schauinsland dem Berliner Museum tber-
geben), die ihrer Gestalt nach von der abgebildeten Kolonie ab-
weicht und betråchtlich kleiner ist. Es ist augenscheinlich die
zweite der beiden von Sluiter erwåhnten Kolonien. Ihrer Ge-
stalt und Gråsse nach entspricht sie annåhernd dem rechtsseitigen
grossen Teilstick der von Sluiter abgebildeten Kolonie, und zwar
auch in Fårbung und in feinerem Aussehen so genau, dass ich an
einer artlichen Zusammengehårigkeit dieser beiden vom gleichen
Fundort stammenden Kolonien nicht zweifelte. Eine nåhere Unter-
suchung ergab jedoch, dass diese Kolonie in der Organisation der
Personen ganz betråchtlich von Sluiter's Angaben uber A. obesum
abweicht. Die hauptsåchlichste Abweichung betrifft die Anzahl der
Magenfalten. Nach Sluiter soll der Magen bei 4. obesum mit

398

9 Långsfalten ausgestattet sein. Ich stellte an Querschnitten durch
2 Personen der mir vorliegenden Kolonie mit voller Sicherheit ein-
mal 23 und einmal 26 Långsfalten fest, und bei vielen in durch-
sichtig gemachten Ganzpråparaten untersuchten Personen ent-
sprachen die Verhåltnisse wenigstens annåhernd diesen Befunden.
(Bei solchen Pråparaten lassen sich die Falten der nicht in Hori-
zontaltlåchen liegenden Teile der Magenwandung nur schåtzungs-
weise zåhlen). Dieser Befund låsst sich mit Sluiter's Angabe
kaum vereinen. Wenn auch eine ziemlich betråchtliche Variabilitåt
in der Zahl der Magenfalten auftritt, so ist der Unterschied zwischen
9 und 23—26 doch zu betråchtlich, um ihn durch Variabilitåt inner-
halb der Grenzen einer Art zu deuten. Ich halte deshalb'eine
uneingeschrånkte artliche Vereinigung der grossen, abgebildeten
Originalkolonie mit der zweiten, von mir untersuchten Cotype so-
wie mit dem iibrigen hier als A. phortax zusammengefassten Ma-
terial fir unangebracht, kann mich allerdings nicht des Verdachtes
erwåhren, dass hier ein Irrtum Sluiter's vorliegt. Bei Betrachtung
der Personen in Ganzpråparaten kehrt der dorsoventral zusammen-
gedrickte Magen dem Beschauer manchmal seine nur wenige Falten
zur Ansicht bringende Schmalseite zu Sollte sich Sluiter durch
solch eine Ansicht haben tåuschen lassen? Querschnitte, die allein
ganz sichere Auskunft iber die Zahl der Magenfalten geben kånnen,
hat Sluiter meines Wissens nicht angefertigt, wenigstens deutet
nichts in seiner Beschreibung darauf hin. Was die ibrigen Befunde
Sluiter's anbetrifft, so liessen sie sich wohl mit den meinigen
vereinigen, wenn man annimmt, dass Sluiter nur eine einzige
Person oder nur wenige, zufållig uibereinstimmend gestaltete Per-
sonen zur Schilderung der Organisation benutzte, und dass ihm
infolgedessen die Variabilitåt in der Bildung gewisser Organe, zu-
mal der Atrialzungen und ihrer Stellung am Thorax, entgangen sei.
Was mich vor allem stutzig machte, ist der Umstand, dass Sluiter
nichts von der bei 4. phortax so ungemein charakteristisch gestal-
teten Bruttasche erwåhnt, wie iiberhaupt nichts von Geschlechts-
organen, und dass er das Postabdomen als fhåchstens 2 mm lang"
angibt. Hat Sluiter vielleicht nur unausgewachsene Personen,
wie sie in einzelnen Téilena der Kolonie vorwiegen oder lediglich
enthalten sein mågen, nåher untersucht? Das wurde auch wohl die
fir ein 4. phortax so geringe Zahl der Magenfalten erklåren. Ich

399

halte es fir das Richtigste, A. obesum Sluiter im ganzen zu
A. phortax zu stellen, dem die zweite, mir vorliegende Kolonie mit
Sicherheit zuzuordnen ist.

Åhnlich wie 4. obesum von den Chatham-Inseln verhålt sich
A. ritteri Sluit. von Neuseeland (1. c. 1906, p. 15) zu 4. phortax.
Ich konnte eine der von Sluiter als A. ritteri bestimmten Kolo-
nien von der D'Urville-Insel untersuchen und erkannte in ihr ein
unzweifelhaftes 4. phortax. Ich erwåhne nur, dass die Querschnitte
durch 2 Personen als Zahl der Magenfalten 24 bezw. 26 ergaben,
und dass die fir A. phortax charakteristische Bruttasche wohl aus-
gebildet erschien. Es ist wohl kaum fraglich, dass auch die ib-
rigen, von mir nicht untersuchten Kolonien von der D'Urville-Insel
und von dem nahe gelegenen Fundort "French Passage" zu dieser
Art gehåren. Das Originalmaterial des A. ritteri”) von der Torres-
Strasse låsst sich dagegen nicht mit AA. phortax vereinen. In der
Abbildung (1 c. Fig. 7) zeigt der Magen an der dem Beschauer zu-
gewendeten Seite nur drei sehr breite Långsfalten. Man miisste
bei der Annahme, dass jene Zeichnung die Magenverhåltnisse
richtig darstellt, auf etwa 6 Magenfalten schliessen >”).

Was die Verwandtschaftsverhåltnisse des A. phortax anbetrifft,
so steht es wahrscheinlich dem A. savignyi Mich.”) aus dem Roten
Meere nahe, das eine åhnliche rucksackartige Bruttasche aufweist.
Es unterscheidet sich von dieser erytråischen Art nicht nur durch
die Gestaltung der Kolonie (bei A. savignyi krustenfårmig mit pa-
rallelrandigen Systemwållen an der Oberflåche), die Gråsse der Per-
sonen (bei 4. savignyi håchstens 4'/> mm lang) und die Gestaltung

SEGSPRYSIui ter. 1895, Tunic.; in: Se'm'on, Zool. Forschungsr:, p: 170,
Taf. VII Fig. 6—8.

2) Aufklårungsbedirftig sind die Geschlechtsorgane dieser Art. Die Hoden-
blasen sollen jederseits von der hellen Linie in der Mitte des doppel-
ten Septums, also jederseits des Epicards, liegen. Offenbar hat Sluiter
die Pakete der Mesenchymzellen im Epicard fir Hodenblasen gehalten.
Das angebliche Ovarium soll ventral im Postabdomen liegen. Es sieht
nach der Abbildung auch durchaus nicht wie ein Amaroucium-Ovarium
aus. Ich halte es fir parasitischer Natur; es mag das Eierpaket eines
parasitischen Krebses sein. Auch die Abbildung von den Ausfihrgången
der angeblichen Gonaden ist unklar und wenig iberzeugend.

3) W. Michaelsen, 1920, Ascid. krikobr. Roten Meeres: Clavelin. u. Sy-
noicid Ep II Taf Fig: 5—=7):

i

400

des Atrialsiphos (bei A. savignyi sechslappig), sondern auch durch
einige bedeutsame Verhåltnisse der inneren Organisation, zumal
durch die ungemein hohe Zahl der Magenfalten (bei A. savignyi
meist 14 oder 15, manchmal noch einige weniger).

Bei dem ebenfalls dem A. phortax nahe stehenden A. lubricum
Sluit.”) von Natal sollen die Personen håchstens 3 mm lang und
das Postabdomen -nicht långer als der Thorax sein, und die Wan-
dung des Thorax eine kråftige Muskulatur besitzen. Auch ist die
Zahl der Magenfalten (16) bei dieser Årt viel geringer.

Aplidium mauritaniae Sluit.”) von Nordwest-Afrika unterscheidet
sich durch die Pigmentzellen im Zellulosemantel, durch die Kurze
der Personen (bis 5 mm lang), die geringere Zahl der Kiemen-
spalten-Zonen (10) und der Magenfalten (14) von der neuen Årt.

Auch,A. variabile Herdman) von den Kerguelen unterscheidet
sich durch kleine Personen (fabout 6 mm in antero-posterior length")
und durch eine viel geringere Zahl der Magenfalten ("about fourteen
well-marked longitudinal foldsf) von A. phortax. Dasselbe gilt fur
AA. Tecumbens Herdm. (1. ec. p "2273 Taf XXIX Fis FI STS au seder
Magalhaens-Strasse.

Gen. Aplidium Sav. vel Amaroucium Edw.

Aplidium vel Amaroucium foliaceum (Sluit.).

1900, Psammaplidium foliaceum — Ps. ambiguum Sluiter, Tunic.
StillentOoceanspærsele:

1900, Psammaplidium [Amaroucium] foliaceum + Ps. [A.] ambiguum
Hartmeyer Tunics in "BronneklSOrdn ler REDEN ERE

Vorkommen im Gebiet: Neuseeland, Sid-Insel, French
Passage; Chatham-Inseln (Sluiter 1900).

Diese in den mir vorliegenden Sammlungen nicht enthaltene
Årt muss als "species inquir.f angesehen werden. Ob sie zur Gat-
tung Aplidium oder zur Gattung Amaroucium gehårt, låsst sich aus
der zweifachen Originalbeschreibung nicht ersehen.

1) C. Ph. Sluiter, 1898; Tunic. Sud-Afrikayp: 31; Taf-I Fig8/ Taf VOER

2) C. Ph. Sluiter, 1914, Ascid. West-Kiisste Afrikas, p. 50, Taf. IV Fig. 15.

3) W. A. Herdman, 1886, Rep. Tunic. Challenger II, p. 216, Taf. XXIX
Firs/-H2M Festiatol

401

Gen. Macroclinum Verr.
Macroclinum hypurgon n. sp.

Fundangaben: Neuseeland, Nord-Insel, Hauraki-Golf;
Suter (Mus. Berlin, Type!)

Auckland; Suter (Mus. Berlin).

Beschreibung: Kolonie mehr oder weniger regelmissig keulen-
formig oder dick-birnfårmig (Type!). Verengung am Grunde meist
nicht stielartig abgesetzt und kurz, bei einer der vorliegenden Ko-
typen deutlich abgesetzt und ungefåhr ebenso lang wie der Kopf
der Kolonie.

Groåssenverhåltnisse der Kolonie: Gråsste Kolonie 30
mm lang, am Kopf 12 mm, am Grund 8 mm dick; dick-birnfor-
mige Type: 17 mm lang, wenn nicht långer (am Stielende ab-
gerissen) und 14 mm dick.

Aussehen der Kolonie gelblich (Kotypen!) oder råtlich
grau (Type!); schwach wachsartig durchscheinend; undurchsichtige
Personen durchschimmernd.

Konsistenz der Kolonie fleischig mit festerer Oberhaut
(Type!) oder weich knorpelig.

Oberflåche der Kolonie eben (Type!) oder anscheinend
infolge unregelmåssiger Kontraktion etwas uneben, im feineren
glatt, im allgemeinen rein, ohne Fremdkårper-Aufwuchs, (Type!)
an der basalen Verengung bezw. am Stiel meist mit Sand besetzt.
Personen-Aussenflåchen auf die obere Hålfte der Kolonie
beschrånkt, unregelmåssig zerstreut, meist ziemlich dicht gestellt.
Branchialoffnungen, an.kleinen abgerissenen Fetzen der Ober-
haut untersucht, unscheinbar, nicht deutlich strahlig. Kloaken-
offnungen nicht aufgefunden. ,

Zellulosemantel fleischig (Type!) bis weich knorpelig, in
der åussersten dinnen … Schicht - fester. Blasenzellen fehlen.
Ausser Spindelzellen iiberall im Zellulosemantel zahlreiche un-
regelmåssig gestaltete, hellgrau grob granulierte Zellen (Pigment-
zellen?). Wåhrend eigentliche Fremdkårper im Zellulosemantel
fast ganz fehlen, finden sich zahlreiche mehr oder weniger regel-
måssig ellipsoidische Kotballen in dem Zellulosemantel ein-
gebettet, in der Art, wie wir es beim Hypurgonzustande gewisser

Vidensk. Medd. fra Dansk naturh. Foren. Bd. 77. 26

402

Didemniden ") und Polycitoriden ”) finden, jedoch in anderer Anord-
nung. Wåhrend die Kotballen bei den bisher beobachteten Formen
mit Hypurgon-Zustand ganz unregelmåssig zerstreut auftreten, finden
sie sich bei Macroclinum hypurgon meist mehr oder weniger eng
kettenformig oder rosenkranzfåormig aneinander gereiht oder zu
Strången verschmolzen, die nur durch gleichmåssige Einschniu-
rungen ihre Zusammensetzung aus eifårmigen Kotballen verraten.
In den oberen Teilen der Kolonie, zwischen den Personen, er-
strecken sich diese Kotballen-Reihen mehr oder weniger genau ab-
wårts, parallel der Personen-Erstreckung. Weiter innen in der Ko-
lonie, unterhalb der Personenschicht bezw. im Achsenteil der Ko-
lonie, verlaufen die Kotstrånge unregelmåssiger. Es hatte manch-
mal den Anschein, als lågen diese Kotballen-Strånge, wenigstens in
den oberen Schichten der Kolonie, in engen kanalartigen Licken
des Zellulosemantels. Vielleicht haben wir es hier tatsåchlich mit
Kloakalkanålen zu tun, die von den Atrialdffnungen der Personen
abwårts in das Innere der Kolonie hineinfihren. Leider genigte
der Erhaltungszustand des Materials nicht zu einer Klarstellung
dieser Verhåltnisse. Auffallend ist, dass ich niemals im Darm der
Personen eine reihenweise Anordnung von Kotballen fand. Meist
war der Darm iiberhaupt ganz leer. Nur selten zeigte sich im
Darm ein einziger Kotballen, oder es fanden sich einige sehr we-
nige zerstreute Kotballen. Auch schienen mir einige Kotballen-
Strånge im Zellulosemantel viel zu lang, als dass sie in einem
Darm Platz gefunden haben kånnten. Es liegt demnach der Schluss
nahe, dass die jetzt zusammenhångenden Kotballen eines Stranges
nicht das Resultat je einer einmaligen Defåkation, sondern mehrerer
aufeinander folgender Defåkationen sind, und dass sie sich erst im
Zellulosemantel — viell!eicht bei der Einschmiegung in die engen
Kloakenkanåle — zu Strången zusammen geschlossen haben. Es
ist aber andererseits in Betracht zu ziehen, dass die Spårlichkeit
der Kotballen sim Darm der Personen kein normaler, oder wenig-
stens kein allgemeiner dauernder Zustand sein kann, und dass mut-
masslich in anderen Zustånden auch Reihen von Kotballen im Darm
gefunden werden mågen.

1) W. Michaelsen, 1919; Z. Kenntn. Didemn., p. 11.
2) W. Michaelsen, 1921, Ascid. westl. Indisch. Ozean. Reichsmus. Stock-
holm, p. 11.

403

Personen (Fig. 22) ziemlich regelmåssig in der Koloniemasse
eingebettet, mit dem Vorderende senkrecht gegen die Oberflåche
der Kolonie gerichtet, im iibrigen ziemlich regelmåssig in die
Långsrichtung der Kolonie eingebogen, die verengte Basalpartie der
Kolonie frei lassend, ziemlich leicht aus der Zellulosemantel-Masse
herauszulåsen. . Gut gestreckte Personen, deren keine unzerstiickt
zur Beobachtung gelangte, mågen bis 10 mm lang sein,
wenn nicht långer. Die Dicke betrågt am Thorax und
Abdomen etwa !/3 mm. Das Postabdomen, manch-
mal nur wenig dinner als der Vorderkårper, kann bei
starker Streckung sehr schlank und dinn werden. Ich
sah Postabdomen-Stiicke von nur 0,08 mm Dicke. Tho-
rax und AÅbdomen sind bei guter Streckung zusam-
men ungefåhr 2 mm lang, dabei ist der Thorax etwas
långer als das Abdomen. Meist erscheint allerdings der
Thorax bei dem vorliegenden Material stark kontrahiert,
ktrzer als das AÅbdomen. Bei guter Streckung, bei der
der Thorax etwa 4 mal so lang wie dick ist, erscheint
das Abdomen nur undeutlich durch eine ventrale Zonen-
kerbe abgesetzt. Bei kontrahiertem und infolgedessen
verdicktem Thorax ist der Absatz zum Abdomen viel
deutlicher. Bei einigen wenigen Personen erscheint
der Thorax dorsal zur Bildung eines umfangreichen
Brutraumes stark aufgeblåht. Das Postabdomen, in
gerader Verlångerung des Abdomens nach hinten gehend, fig 22. Ma-
ist bei kontrahierten, verkirzten Personen kaum diinner croclinum hy-
als das Abdomen und nicht deutlich von diesem ab- SpA re
gesetzt, bei gestreckten Personen durch mehr oder we- Abdomen ei-
niger starke Verengung vom Abdomen unterschieden. ”” SEE
Das Hinterende des Postabdomens låuft meist in einen
kurzen, abgerundet kegelfårmigen Anhang aus, der von der Haupt-
masse des Postabdomens etwas abgesetzt ist. Ektodermale
Gefåssanhånge sind nicht beobachtet worden.

Leibeswand im allgemeinen zart, nur am Vorderende und am
åussersten Hinterende etwas derber. Muskulatur zart. Ring-
muskulatur nur an den Siphonen erkannt. Långsmuskulatur am
Thorax aus wenigen, jederseits etwa 8(?) sehr feinen, weit getrennten
Strången bestehend, bis zum Hinterende des Postabdomens zu ver-
folgen, hier aber anscheinend noch spårlicher. 6"

404

Branchialsipho (Fig. 22) gerade am Vorderende des Thorax,
wenn nicht etwas dorsalwårts geneigt, sehr kurz, kronenfårmig oder
(in geschlossenem Zustande) abgestumpft kegelfårmig, mit 6 regel-
måssigen Lappen.

Atrialsipho in geringer Entfernung vom Branchialsipho am
Vorderende der Riickenseite, sehr kurz, dick wallformig, aber am
Vorderende meist (stets?) mit grosser, schlank-spitzbogenfårmiger
Atrialzunge, die vielleicht (nicht ganz genau erkannt) am Grunde
jederseits eine kurze Nebenzunge trågt (vielleicht handelt es sich
bei dieser fraglichen Bildung nur um gelegentliche, unwesentliche
Einkerbungen und Vorwålbungen am Seitenrande der Atrialzunge).
Auch der Hinterrand des Atrialsiphos scheint nicht ganz glatt zu
sein; doch konnte an demselben eine deutliche Lappenbildung
nicht nachgewiesen werden.

Branchialtentakel schlank fingerfårmig, wenigstens zum
Teil ziemlich gross, anscheinend in måssig grosser Anzahl (etwa
16? — sehr unsichere Zahlenangabe!).

Kiemensack (Fig. 22) mit ziemlich grosser Zahl von Kiemen-
spalten-Zonen. An einem gut gestreckten Thorax konnte ich
deren 12 sicher nachweisen; vielleicht ist eine 13te am Vorderende
durch Schrumpfung unkenntlich geworden. An anderen Personen
glaubte ich 13 oder 14 zu erkennen. Es liegen etwa 9 oder 10
måssig lange (bei voller Streckung ziemlich lange?) Kiemen-
spalten in einer Halbzone (vom Endostyl bis zur dorsalen Me-
dianlinie, nicht bis zur Reihe der Dorsalfalten-Ziingelchen, gerech-
net). Quergefåsse såmtlich gleich stark. Die Dorsalfalten-
Ziuingelchen sind ziemlich plump. Bei gut gestrecktem Kiemen-
sack erreichen sie bei weitem nicht das nåchstfolgende Quergefåss.
Sie sind etwas zur linken Seite verschoben. Endostyl hinten
kurz eingebogen und in eine kurze Retropharyngealrinne
ubergehend.

Darm (Fig. 22) vom Hintérende des Kiemensackes nach hinten
ragend, eine etwas klaffende, in der Osophagealregion um ungefåhr
180" gedrehte (stets?), im iibrigen einfache Schleife bildend. Oso-
phagus schlank. Magen ungefåhr in der Mitte des hinlaufenden
Darmschleifen-Astes oder etwas weiter vorn, oval bis fast kugelig,
manchmal etwas schief. Einmiindung des Osophagus in den Magen
in der dorsalen Medianlinie des Magens betråchtlich nach hinten

—

405

gerickt, fast bis zur Mitte des Magens. Magenwandung åusserlich
und innerlich ganz glatt. Mitteldarm gerade hinten aus dem
Magen hervorgehend, beidenendes sehr scharf abgesetzt, sehr kurz,
bei weitem nicht den Wendepol der Darmschleife erreichend, im
allgemeinen sehr diinn, aber in der Mitte stark radartig erweitert.
Diese scharfkantige zonale Erweiterung ist vielleicht als Markierung
einer Grenze zwischen zwei Mitteldarm-Abteilungen, Nachmagen
und Driisendarm, anzusehen. Enddarm scharf vom Mitteldarm
abgesetzt, meist ziemlich gleichmåssig weit. After mit 2 grossen,
frei vorragenden Afterlippen.

Herz sehr umfangreich, im Hinterende des Postabdomens ge-
legen.

Geschlechtsapparat: Personen zwittrig. Gonaden im
Postabdomen gelegen. Hode aus einer måssig grossen Zahl
(10—16 beobachtet) ovaler bis birnformiger Hodenblasen bestehend,
die sehr locker åhrenfårmig mit ziemlich langen Sonderausfuihr-
gången am diinnen hinteren Teil des Samenleiters sitzen, die
benachbarten meist weit voneinander getrennt. Die Hode nimmt
ungefåhr die hintere Hålfte des Postabdomens mit Ausnahme des
vom Herzen eingenommenen åussersten Endes in Anspruch. Der
aus der Hode hervorgehende, zunåchst sehr diinne Samenleiter
nimmt. gerade nach vorn gehend, schnell an Dicke zu. Als prall
gefillter, bis etwa 65 w dicker Schlauch, der als Samenmagazin
bezeichnet werden muss, verlåuft er durch die vordere Hålfte des
Postabdomens, durch das Abdomen und die hintere Hålfte des Tho-
rax, um unter gleichmåssiger, schlanker Verengung neben dem After
auszumiinden (Fig. 22). Ovarium in geringer Entfernung vor dem
Beginn der Hodenåhre, in betråchtlicher Entfernung hinter dem
Wendepol der Darmschleife gelegen. Gråsste Eizellen am Ova-
rium etwa 140 w dick, in einem lang und schlank gestielten Follikel.
Bei zwei Personen fand ich. die Rickenseite des Thorax zur Bil-
dung eines Brutraumes stark angeschwollen. Der Brutraum
enthielt beidemale eine einzige geschwånzte Larve.

Erorterung: M. hypurgon zeigt, meines Wissens als erste Art der
Synoiciden, einen Hypurgon-Zustand, wenn auch in etwas
anderer Form, als wir ihn bei gewissen Didemniden und Polyci-
toriden (siehe oben!) finden.

In den iibrigen Charakteren scheint die neue Art sich an M. jor-

406

dani (Ritter)") vom Bering-Meer und M. crater (Verrill)”) von
Skandinåvien und Neufundland anzuschliessen. Es unterscheidet
sich jedoch von beiden Arten durch die Gestalt des Magens,
hauptsåchlich durch die betråchtliche Verschiebung der Cardia, und
durch die Samenmagazin-artige Erweiterung des Samenleiters,
eine Bildung, die in gleicher Weise an allen geschlechtsreifen Per-
sonen beobachtet wurde, und die mir sehr charakteristisch erscheint.

Macroclinum arenaceum n. sp.

Fundangaben: Neuseeland, Nord-Insel, 2 Seemeilen von
North Cape, 55 Faden, harter Boden; 2. Jan. 1915. — North
Cape, - Kiistemkmnter
Steinen; 3. Jan. 1914.

Stewart-Insel, ca.
35 Fd., Sandgrund; 20.
Nov. 1914.

Beschreibung: Kolo-
niegestaltung (Fig.
23): Basalmasse aus
sparrig veråstelten oder
zusammengewachsenen,
bis 3 mm dicken Balken
bestehend, die stellen-
weise zu etwas breiterer
Platte mit einander ver-
wachsen. Es ist nicht
deutlich zu erkennen,

Fig. 23. Macroclinum arenaceum n. sp. Ganze Kolonie i y
und Kormidium; X 21/4. ob es sich hier um Ver-

åstelung handelt oder
um nachtrågliche Anastomose, wie es stellenweise den Anschein
hat. Aus dieser Basalmasse entspringen einige (meist abgerissene)
Kormidien von schlank oder plump keulenfårmiger Gestalt. Das
plumpste Kormidium ist 20 mm lang, an der apikalen Verdickung
9 mm und am Grunde 7 mm dick, das schlankste Kormidium bei

1) Aplidiopsis jordani W.R. Ritter, 1899, Tunic. Pribilof Isl., p. 521, Text-
fig. 19, 20.
2) R. Hartmeyer, 1903, Ascid. Arktis, p. 319, Taf. VI Fig. 5, Taf. XIII Fig, 6, 7.

407

einer Långe von 32 mm an der apikalen Verdickung 7 mm, am
Grunde 5 mm dick. Stiel der Kormidien vielfach mit einer Kalk-
kåorper-Didemnide umkrustet.

Aussehen der Kolonie infolge der Inkrustierung sandgrau;
Apikalflåchen der Kormidien manchmal durch Abscheuerung des
Inkrustationsmaterials durchscheinend gelblich grau.

Oberflåche der Kolonie infolge der Inkrustierung im fei-
neren sehr rauh, im ibrigen an den Seitenflåchen der Kormidien
ziemlich eben, an den Apikalflåchen infolge des Hervorragens von
buckel- oder warzenfåormigen Personen-Aussenflåchen uneben.

Kloakenåffnungen ziemlich gross, unregelmåssig umrandet,
anscheinend nur je eine einzige an der Apikalflåche eines Kormi-
diums, das also zugleich ein System darstellt. Die zur Beobachtung
gelangten Kloakenåffnungen liegen jedoch nicht im Mittelpunkt der
Apikalflåche, wie bei M. stewartensis (siehe unten!), sondern stark
excentrisch. Es ist infolgedessen auch nicht ein so regelmåssig
radiåres Personensystem an einem Kormidium ausgebildet, wie bei
jener verwandten Art.

Branchialoffnungen ganz auf die kuppelfårmig gewdlbte
Apikalflåche beschrånkt, nur an etwas abgescheuerten Stellen der
Oberflåche deutlich erkennbar, manchmal auf kleinen warzenfor-
migen Erhabenheiten, von 6-strahligem Bau.

Zellulosemantel im allgemeinen weich knorpelig, im Innern
spårlich mit feinem Sand durchsetzt, an der Oberflåche dient mit
ziemlich grobem Sand inkrustiert und gefestigt, so dass sich die
Oberflåchenschicht in Form einer zåheren, aber noch lappig bieg-
samen Rinde abheben låsst. Blasenzellen fehlen.

Personen mehr oder weniger hell gelblich grau, regelmåssig
und ziemlich genau parallel der Långsachse der Kolonie gestellt,
ziemlich schwer aus dem Zellulosemantel herauszulåsen und infolge-
dessen in keinem Falle ganz heil zur Beobachtung gelangt. Eine
anscheinend vollståndige, wenn auch nicht unverletzte Person er-
wies. sich als 10,2 mm lang, wovon nur 1,6 mm auf den Thorax,
1,3 mm auf das Abdomen, dagegen 7,3 mm auf das ungemein
lange (vielleicht noch nicht einmal vollståndige) Postabdomen ent-
fallen. Dabei scheint diese Person noch nicht die gråsste der nåher
untersuchten Kolonie zu sein; denn es liegt mir ein abgerissener
Thorax vor, der betråchtlich gråsser als der der zur Messung

408

benutzten Person ist. Er ist nåmlich 2,1, mm lang. Thorax je nach
Kontraktion verschieden schlank, etwa 2 bis 4 mal so lang wie dick.

Branchialsipho gerade am Vorderende des Thorax, an-
nåhernd cylindrisch, manchma! apikal etwas enger, etwas kiirzer
oder etwas långer als dick, regelmåssig 6-strahlig, mit 6 kurzen,
stumpf zahnfårmigen oder lang zipfelformigen Lappen, mit ziemlich
kråftiger, fast in ganzer Långe des Siphos eine gleichmåssig dicke,
mehrfache Schicht bildender Ringmuskulatur.

Atrialsipho in geringer Entfernung vom Branchialsipho vorn
am Riicken gelegen, sehr kurz, manchmal etwas in den Atrialraum
eingedrickt, mit breiter, nicht immer ganz glattrandiger, meist ziem-
lich weit vorragender Hinterlippe und undeutlicherer Vorderlippe.
Dicht vor der Vorderlippe, bei mehr gestreckten Atrialsiphonen
anscheinend eine unmittelbare Verlångerung der Vorderlippe des
Siphos bildend, entspringt eine meist sehr lange, schmal oder breit
bandførmige, parallelrandige Atrialzunge, die apikal entweder
einfach gerundet endet, oder hier in 2 oder 3 (wenn nicht 4?)
papillenformige Vorspringe auslåuft. Die Ringmuskulatur des Atrial-
siphos ist ungefåhr ebenso kråftig ausgebildet wie die des Bran-
chialsiphos.

Abdomen in der Fortsetzung des Thorax gerade nach hinten
ragend, annåhernd cylindrisch, bei ziemlich stark geschrumpften
Personen ein wenig långer und deutlich dinner als der Thorax,
von dem es durch eine ziemlich scharfe Einschnirung abgesetzt ist.

Postabdomen die gerade Verlångerung des Abdomens bildend,
von dem es manchmal ziemlich scharf, manchmal nur unscharf
durch mehr oder weniger schnelle Verengung ahbgesetzt ist, ab-
gesehen von der Verbreiterung am Ubergang in den Thorax und
von gelegentlichen Anschwellungen der Ovarialpartie, viel dinner
als das Abdomen, ungemein lang gestreckt, mehr als doppelt so
lang wie Thorax und Abdomen zusammen, bis in die Basalpartie
der Kormidien hineinreichend. Ein solches mehr als 7 mm langes
Postabdomen misst meist nur etwa 0,18 mm in der Dicke, bei einer
besonders schlanken Person nur etwa 0,12 mm. Das Hinterende
des Postabdomens (bei 4 Personen beobachtet, Fig. 24 a—d) ist
einfach gerundet. (3 Personen von der Stewart-Insel, Fig. 24 a—c)
oder kurz gegabelt mit gerundeten Gabel-Åsten (Person von North
Cape, Fig. 24d) und trågt meist einen einzigen anscheinend unver-

409

zweigten, doppelråhrigen Gefåssanhang (Fig. 24a, b, d), dessen
beide Råhren aber streckenweise (Fig. 24 b, d) sich von einander
trennen kånnen. Bei einer Person (Fig. 24c) entspringen aus dem
Postabdomen zwei vom Beginn an getrennte einfachråhrige Gefåss-
anhånge, von denen aber einer sehr kurz, anscheinend rudimentår,
vielleicht aber nur noch nicht ausgewachsen ist (Fig. 24c). Ich
vermute, dass diese beiden vållig getrennten einfachen Gefåss-
anhånge die noch auf niedriger Entwicklungsstufe stehenden Teil-

Fig. 24. Macroclinum arenaceum nm. sp. Hinterende des Postabdomens von 4 ver-
schiedenen Personen; X 90.

stiicke eines einzigen Doppelråhren-Gefåssanhanges darstellen. Die
Gefåssanhånge entspringen ibrigens nicht am åussersten Ende des
Postabdomens, sondern stets etwas vor dem Ende.

Leibeswand måssig zart, an den Siphonen derber. Ring-
muskulatur nur an den Siphonen deutlich erkannt. Långs-
muskulatur sehr zart, am Thorax jederseits etwa 5 sehr weit-
låufig und unregelmåssig gestellte, manchmal sich gabelnde zarte
Långsmuskelbindel, die sich gegen das Hinterende des Thorax
jederseits einander nåhern und als breite, sehr lockere Långsband-
gruppe jederseits das ganze Abdomen und Postabdomen entlang
ziehen. Am Hinterende des einfach spitzigen Postabdomens stossen

410

die beiden Långsmuskelbånder an einander, bei gegabeltem Post-
abdomen, enden sie gesondert in den beiden Gabel-Åsten.

Branchialtentakel anscheinend verhåltnismåssig gross und
in ziemlich geringer Anzahl (etwa 12 oder 16?), abwechselnd ver-
schieden gross.

Flimmerorgan ein niedriges Polster mit anscheinend ein-
facher Durchbohrung.

Kiemensack bei drei Personen (1 von der Stewart-Insel,
2 von North Cape), an denen er deutlich erkennbar war, mit 15
Kiemenspalten-Zonen. (Bei den
anderen Personen wenigstens anschei-
nend mit nahezu gleichkommenden Zah-
len). Ca. 12 im allgemeinen långliche
Kiemenspalten in der Halbzone.
Kiemenspalten-Felder ventral ge-
rundet in ziemlich weiter Entfernung
vom Endostyl endend (zu åusserst ven-
tral stehende Kiemenspalten stark ver-
kurzt), dorsalmedian ohne Unterbrechung
in die der Gegenseite iibergehesd. Endo-
styl breit, fast gerade gestreckt, hinten
in eine quer abgebogene, die Hinterwand
des Kiemensackes iiberspannende Retro-
pharyngealrinne ibergehend. Dor-

Fig. 25. Macroclinum arena-
ceum mn. sp. Magen und an- É
grenzende Darmteile, a von Salfaltenzingelchen etwas zur Seite

der krechten ØSEL le BLAYODE JE eschobenketwasikrinzern als die Kiemen-

Ruckseite: X 48. k É
spalten-Zonen, hakenfårmig, dorsalwårts

stark eingebogen, fast eingerollt. Schlundeingang hinten-dorsal
am Kiemensack.

Darm eine einfache, nur wenig gedrehte, in ganzer Långe
ziemlich eng geschlossene, gerade nach hinten ragende Schleife
bildend. Øsophagus måssig lang, dinn, stark hakenfårmig ge-
bogen, sodass sein Hinterende horizontal gegen die dorsale Långs-
seite des Magens ståsst. Magen (Fig. 25) etwas vor der Mitte
des hinlaufenden Darmschleifen-Astes gelegen, sehr charakteristisch
gestaltet, von der Form einer hohen, hinten quer abgestutzten
Kuppel, deren vordere Wålbung etwas dorsalwårts gedrångt ist.
Der hakenfårmige ØOsophagus tritt ein sehr Geringes vor der Mitte

411

(fast in der Mitte) der dorsalen Långsseite in den Magen ein und
bildet dabei einen Cardiawulst, der wie ein hoher Ringwall in das
Lumen des Magens hineinragt. Der Mitteldarm entspringt scharf
abgesetzt aus der Mitte der hinteren Abstutzungsflåche des Magens
ohne Bildung eines deutlichen Pyloruswulstes. An der Riickenseite
des Magens zieht sich eine tiefe, von zwei schmalen, ziemlich
stark erhabenen Wulstråndern eingefasste Långsfurche median vom
Hinterrande nach vorn gegen die Øsophagus-Einmiindung hin. Hier
scheint diese Långsfurche nach links hin vor dem Osophagus-Ende
auszuweichen und es zu umfassen, um sich dann zu verlieren.
Manchmal aber schien es mir auch, als erweitere sich die Långs-
furche hier und nehme die Osophagus-Einmiindung in sich auf,
oder als gabele sie sich, die Osophagus-Einmiindung auch nach
rechts hin umfassend. Jedenfalls ist die rechtsseitige Umfassung
nicht so deutlich wie die linksseitige. Bei einer Person glaubte
ich annåhernd parallel der dorsalmedianen Långsfurche noch einige
wenige (rechts eine, links zwei?) sehr zarte Långsfurchen zu er-
kennen, die einen bezw. zwei weitere Långswiilste lateral von den
Mittelfurchen-Wiilsten zwischen sich einschlossen. Doch war diese
an Amaroucium erinnernde Bildung sehr undeutlich und beruhte
vielleicht nur auf unwesentlicher Kontraktion. Im ibrigen ist die
Magenwandung glatt. Bei einer Person von North Cape zeigt sie
die gleiche zarte Felderungsstruktur wie bei Macroclinum stewartense
(siehe unten); bei den Personen von der Stewart-Insel konnte ich
diese Felderung nicht deutlich erkennen. Zu erwåhnen ist noch,
dass die Form des Magens håufig durch teilweise Kollabierung
der Magenwand missgestaltet ist. Mitteldarm bei dem vor-
liegenden Material stets sehr stark verschrumpft, viel dinner als
der Magen, von dem er scharf abgesetzt ist. Manchmal schien es
mir, als sei die vordere Hålfte des Mitteldarms trompetenfårmig,
als Nachmagen von der hinteren Hålfte des Mitteldarms, einem
Driisendarm, zu unterscheiden; doch war eine derartige Bildung
in keinem Falle deutlich zu erkennen. Enddarm etwas dicker
als der Mitteldarm. After etwas hinter der Mitte des Thorax,
etwa iiber der neunten Kiemenspalten-Zone gelegen, mit zwei
kurzen, wulstigen, anscheinend glattrandigen Afterlippen.

Herz verhåltnismåssig umfangreich, in der spindelfårmigen An-
schwellung des Postabdomens, dicht vor dessen Hinterende gelegen.

412

Geschlechtsorgane: Personen zwittrig. Ovarium im vor-
deren Teil des Postabdomens, jedoch eine betråchtliche Strecke
hinter dem Wendepol der Darmschleife. Diese gonadenlose Strecke
des Postabdomens vor dem Ovarium ist fast halb so lang wie das
Abdomen. Das Ovarium, das aus Eizellen verschiedenster Gråsse
(bis etwa zu 0,2 mm Dicke) besteht, verursacht eine starke, bruch-
sackartig in den Zellulosemantel vorspringende Ausbauchung der
Leibeswand. Hode aus zahlreichen (z. B. bei einer Person 32)
birnformigen oder ovalen, etwa 50 w dicken Hodenblasen bestehend,
die unregelmåssig zweizeilig åhrenfårmig am Samenleiter sitzen.
Je nach dem sehr verschiedenen Kontraktionszustand des Post-
abdomens bildet die Hode eine gedrångte oder eine sehr lockere
Åhre, die unmittelbar hinter dem Ovarium beginnt und fast bis an
die spindelformige Anschwellung am Hinterende des Postabdomens
reicht. Der Samenleiter ist bei den untersuchten Personen stets
prall mit Samenmassen gefiillt, im Bereich der Hode und des Ova-
riums, das er von aussen eng umfasst, måssig dick, weiter vorn,
zumal im vorderen Teil des Postabdomens, håufig mit dicht auf-
einander folgenden ovalen Anschwellungen, fast rosenkranzfårmig.
Er ist je nach dem Kontraktionszustande der Person gerade gestreckt
oder unregelmåssig geschlångelt. Als Brutraum dient der mehr
oder weniger angeschwollene dorsale Raum des Thorax, entweder
nur der hintere Teil desselben oder bei stårkerer Inanspruchnahme
fast der ganze Raum bis zur Atrialåffnung. Ich fand in den Brut-
råumen bis 8 Embryonen und geschwånzte Larven; die am wei-
testen entwickelten Larven, deren Rumpf bis ”/» mm lang war,
lagen in der Regel im vorderen Teil des Brutraumes, die jungeren
Embryonen in den hinteren Teilen desselben.

Erorterung. M. arenaceum åhnelt in manchen Hinsichten dem
unten beschriebenen M. stewartense, in dessen Gesellschaft es auch
gefunden wurde, so in der Gestalt und dem Aussehen der Kor-
midien und in der Långe des Postabdomens. Es unterscheidet
sich von jener Art aber nicht nur durch die Systembildung, son-
dern auch durch die Farblosigkeit der Personen, durch die be-
tråchtlich geringere Zahl der Kiemenspalten-Zonen, durch die Ge-
staltung des Magens und durch die Lage des Ovariums.

Andererseits åhnelt M. arenaceum in vielen Punkten einer ant-

413

arktischen Amaroucium-Art, nåmlich dem AA. coeruleum Sluit.”y
von der Insel Booth Wandel. Die Kolonie- bezw. Kormidien-Form
und die Systembildung sind annåhernd die gleichen, ebenso die
Struktur des Zellulosemantels. Doch weicht die antarktische Art
in einigen Punkte der inneren Organisation von der neuseelån-
dischen ab, so in der Gestaltung des Kiemensackes, der bei A. coe-
ruleum nur 10 Kiemenspalten-Zonen aufweist, in der Bildung des
Brutraumes, der bei 4. coeruleum als eng gestielte, kugelige Brut-
tasche ausgebildet ist, und vor allem in der Gestaltung des Magens,
der bei A. coeruleum in typischer Amaroucium-Weise deutliche Långs-
wilste zeigt, 8 in ganzer Långe des Magens verlaufend, dazu einige
verkurzte am hinteren Teil des Magens. Aber auch Macroclinum
arenaceum zeigt mehr oder weniger deutlich einige Långswilste
am hinteren Teil des Magens und damit wenigstens den Beginn
einer zu Amaroucium hintberfuihrenden Långsfåltelung der Magen-
wandung. Ich vermute, dass wir es hier mit einer zwischen Ma-
eroclinum und Amaroucium vermittelnden echten Verwandschafts-
gruppe zu tun haben. Macroclinum arenaceum, anscheinend ein
Zwischenglied zwischen Macroclinum und Amaroucium, steht in
Hinsicht auf die Gestaltung des Magens (und des Kiemensackes)
zwischen dem unten beschriebenen Macroclinum stewartense n. sp.
und dem Amaroucium coeruleum Sluit.

Macroclinum stewartense n. sp.

Fundangabe: Stewart-Insel, ca. 35 Fd.; 20. Nov. 1914.

Beschreibung. Koloniegestaltung (Fig. 26): Abgesehen von
einer starken Inkrustierung mit Sand åhneln die Kolonien der neuen
Årt sehr denen des arktischen Synoicum turgens Phipps. Meist
bestehen die Kolonien aus mehreren, nach dem vorliegenden Ma-
terial bis 5 Kormidien, die bis zur Basis von einander getrennt
sind und dicht neben einander auf einer kleinen gemeinsamen,
manchmal stielformigen Basalmasse sitzen. Einige anscheinend
nur aus einem Kormidium bestehende Kolonien mågen abgerissene
Teilstucke von Kolonien sein. Die meisten Kormidien enthalten

1) A. coeruleum, C. Ph. Sluiter, 1906, Tunic.; in: Exp. antarct. Frang.,
p. 16, Taf. I Fig. 13—16, Taf. IV Fig. 49.

414

ein einziges Personensystem. Einzelne Kormidien von ungefåhr
doppelter Breite zeigen jedoch 2 Personensysteme. Der Ubergang
von einfachen Kormidien zu Doppelkormidien wird durch ein Zwil-
lingskormidium dargestellt, bei dem zwei einfache Kormidien seit-
lich bis etwa zu ”/4 der Långe mit einander verwachsen sind, bezw.
bei dem ein Doppelkormidium durch einen Kerbschnitt bis zu 1/4
der Långe geteilt ist. Die einfachen Kormidien sind unregelmåssig
birnformig bis schlank tonnenfårmig mit verengter Basis. Sitzen
sie am Ende einer stielformigen Basalmasse, so åhnelt die ganze
Kolonie einer einfachen Dolde. Die Apikalflåche des Kormidiums
ist abgestuzt mit gerundetem Rande.

Grossenverhaltmnssereder
Kolonie: Die einfachen Kormidien
sind apikal etwa 9 bis 11 mm dick
bei einer Långe von etwa 18 bis
22 mM

Aussehen der Kolonie in-
EN folge der starken Inkrustation ent-
sprechend dem Aussehen des Inkru-
stationsmaterials, beim vorliegenden
Material dunkel sandgrau.

Oberflåche im feineren infolge
der starken Inkrustation sehr rauh,
im gråberen ziemlich eben.

Fig. 26. Macroclinum stewartense n. sp.
Ganze Kølonie; X 1/2.

Personensysteme und Kårper- bezw. Kloakendffnun-
gen: Bei einfachen Kormidien findet sich im Mittelpunkt der Api-
kalflåche eine ziemlich grosse, unregelmåssige Kloakendffnung
auf einer higelartigen Erhéhung, die ihrerseits in einer ziemlich
tiefen, einen grossen Mittelteil der Apikalflåche einnehmenden Ein-
senkung steht. Der diese Einsenkung umgebende breite Randwulst
der Apikalflåche des Kormidiums ist mehr oder weniger deutlich
durch mehrere seichte radiåre Kerbschnitte geteilt. Die zwischen
diesen Kerbschnitten liegenden Radiårwilste entsprechen wohl den
Personenaussenflåchen, und tragen mutmasslich je eine Bran-
chialoffnung. Die Branchialoffnungen sind jedoch ganz unschein-
bar und konnten nicht klar gestellt werden; auch scheint die Zahbl
der Personen eines Personensystems bezw. eines Kormidiums grås-
ser zu sein als die Zahl der Radiårwilste, deren ich im Håchst-

( 415

falle 9 erkannte. Wahrscheinlich liegen nur die Branchialoftnungen
des innersten Personen-Kreises auf diesen Radiårwiilsten und die
der weiter aussen stehenden Personen auf kleinen, nur selten
deutlich ausgeprågten Erhabenheiten, die sich mehr oder weniger
regelmåssig interradiår zwischen die Radiårwiilste einschieben.
Håufig ist diese ganze Radiårstruktur undeutlich. Bei Doppel-
bezw. Zwillingskormidien verdoppelt sich mit dem Personensystem
diese um die Kloakaldffnungen gebildete Radiårstruktur.

Zellulosemantel weich knorpelig, ziemlich zåh, in der Ober-
flåchenschicht sebr dicht, im Innern locker mit ziemlich grobem Sand
durchsetzt. Infolge dieser dichteren Inkrustierung stellt sich die
Oberflåchenschicht als zåhere Rindenschicht dar. Blasenzellen
fehlen. Zahlreiche sehr zarte Spindel- und Sternchenzellen
sowie grob granulierte, hellgraue Rundzellen (Pigmentzellen?)
vorhanden. Die Grundmasse des Zellulosemantels ist fast wasser-
hell, durch die eingebetteten Zellen nur schwach getriibt, schwach
violett gefårbt.

Personen mit Ausnahme des langen, dinnen, leicht abreis-
senden Postabdomens im allgemeinen ziemlich leicht aus dem Zel-
lulosemantel herauszulåsen, im ganzen sehr dunkel purpurrot bis
purpurbraun, fast schwarz gefårbt, sehr verschieden lang, bei mås-
siger Dicke wohl bis 20 mm lang, wenn nicht noch långer. Da es
mir in keinem Falie gelang, das Postabdomen unzerstiickelt heraus
zu pråparieren, so kann ich iiber die ganze Långe der Personen
nur eine Mindestangabe machen. Da einzelne Personen aber mit
dem Postabdomen bis in die Basalmasse herabreichen, so darf das
Håchstmass wohl noch etwas gråsser angenommen werden. Die
Taille zwischen Thorax und Abdomen wird durch eine deutliche
kurze Verengung gebildet. Das in der geraden Verlångerung des
Abdomens liegende Postabdomen ist durch eine unmittelbar hinter
dem Wendepol der Darmschleife einsetzende Abnahme der Dicke
vom Abdomen gesondert.

Thorax lang gestreckt, bis etwa 6 mm lang, im Vorderteil etwa
bis 1,2 mm dick, nach hinten meist deutlich an Dicke abnehmend,
meist etwas gebogen, ventral schwach konvex, dorsal schwach
konkav.

Branchialsipho (Fig. 27) gerade am Vorderende des Thorax
gelegen, im zusammengezogenen Zustande gerundet kegelfårmig,

416

ungefåhr so lang wie am Grunde dick, im gestreckten Zustande
fast cylindrisch, ungefåhr doppelt so lang wie am Grunde dick, im
Basalteil etwas an Dicke zunehmend. Der Apikalrand des Bran-
chialsiphos ist in einige verschieden grosse gleichschenklich drei-
seitige Zipfel zerschlitzt, der Regel nach wohl deren 6, doch bei
keiner der wenigen Personen mit unverletztem Branchialsipho regel-
måssig 6-lappig. Ringmuskulatur ziemlich kråftig, zu einem zumal
hinten ziemlich dicken Sphinkter zusammengeschlossen.
Atrialsipho (Fig. 27) vorn an der Rickenseite in geringer
Entfernung vom Branchialsipho, sehr verschieden weit vorragend,

Fig. 27. Macroclinum stewartense n. sp. Umriss des Vorderendes des Thorax von
2 versehiedenen Personen; X 25.

in dem einen Åusserstfalle (Fig. 27 5) sehr kurz abgestutzt kegel-
formig, in dem anderen Åusserstfalle sehr lang gestreckt, schorn-
steinformig, schråg nach hinten oder etwas nach vorn hin abragend.
Er ist basal etwas erweitert, am Apikalrande mit 2 oder 3 unregelmåssig
gestalteten, meist stumpfen Zåhnen und mit einer in der Regel ganz
einfachen, måssig lang zungenfårmigen bis sehr lang und schlank
lanzettlichen Atrialzunge, die bei kurzem, eingezogenem Atrialsipho
eine sehr kurze Strecke vor dem Sipho zu stehen scheint, bei lang
ausgestrecktem Sipho aber aus dessen Vorderlippe entspringt, oder
an seiner Vorderwand etwas unterhalb des Randes der Vorderlippe
steht. Ich mutmasse, dass diese Verschiedenheiten der Hauptsache
nach Kontraktions- bezw. Erektionsverschiedenheiten sind; doch mag
auch die Entfernung der Person von der gemeinsamen Kloakenoff-
nung einen Einfluss auf die Långe des Atrialsiphos und der Atrial-
zunge haben. Ringmuskulatur des Atrialsiphos sehr kråftig, zu einem

417

sehr dicken Sphincter zusammen geschlossen. Auch ÅAtrialzunge mit
verhåltnismåssig kråftiger Muskulatur.

Abdomen gerade nach hinten hinragend, seitlich abgeplattet,
bei gut gestreckten Personen betråchtlich kiurzer, bei stark zusam-
mengezogenen Personen kaum kirzer als der Thorax, nicht ganz
so dick wie der Thorax, von dessen Hinterende er scharf abgesetzt ist.

Postabdomen die gerade Verlångerung des Abdomens bildend,
von diesem durch eine ziemlich schnell vor sich gehende, aber nicht
plåtzliche Verengung abgesetzt, im allgemeinen viel dinner als das
Abdomen, långer als Thorax und Abdomen zusammen, lang gestreckt
walzenformig, gegen das Hinterende håchstens sehr langsam an
Dicke abnehmend. Da es mir nicht gelungen ist, ein Postabdomen
vollståndig herauszulåsen, so kann ich iiber die Gestaltung seines
Hinterendes und einen etwaigen Gefåssanhang an demselben keine
Auskunft geben.

Leibeswand im allgemeinen zart, nur an den Siphonen derber.
Ringmuskulatur nur an den Siphonen (siehe oben!) kråftig aus-
gebildet, am Thorax ungemein zart, locker angeordnet. Långs-
muskulatur am Thorax jederseits in etwa 9 bis il weitlåufig
gestellten, måssig dicken oder dinneren Biindeln, die zum Teil.
nåmlich die am weitesten ventral gestellten, nicht ganz genau pa-
rallel der Långsachse des Thorax verlaufen, sondern etwas ventral-
wårts hingeneigt sind. Im allgemeinen sind die mehr dorsal ver-
laufenden Långsmuskelbiinndel kråftiger als die mehr ventralen;
doch kommen vielfach Unregelmåssigkeiten vor. Vorn entspringen
die Långsmuskelbiindel gråsstenteils am Branchialsipho, zum klei-
neren Teil (die zu åusserst dorsal verlaufenden) am Atrialsipho.
Nach hinten verlieren sich die weitest ventral verlaufenden Muskel-
biindel, allmåhlich zarter werdend, mehr oder weniger dicht hinter
der Mitte des Thorax; die iibrigen, mehr lateral und dorsal ver-
laufenden gehen bis an das Ende des Thorax und weiter, als jeder-
seits ein lockeres, zartes, breites Muskelband iiber das ganze Ab-
domen und auch das Postabdomen, werigstens soweit das Post-
abdomen untersucht werden konnte, mutmasslich bis an dessen
Hinterende.

Branchialtentakel fadenfårmig, nicht ganz regelmåssig ab-
wechselnd etwas verschieden lang, etwa 16 an Zahl (nicht ganz
sicher festgestellt).

Vidensk. Medd. fra Dansk naturh. Foren. Bd. 77. 27

418

Flimmerorgan anscheinend mit einfacher Durchbohrung.
Kiemensack mit 23 bis 25 Kiemenspalten-Zonen (nach
genauer Auszåhlung von 8 giinstig pråparierten Personen); ungefåhr

Fig. 28.

Macroclinum stewartense n. sp.
Mittlerer und hinterer Teil der Darm-

schieife in der Durchsicht, a —= ein Ma-
gen in der Aufsicht; X 28.

24 lange, schmale, parallelran-
dige Kiemenspalten in einer
der breiteren, normalen Halb-
zonen. Gegen den Endostyl
nimmt die Långe der Kiemen-
spalten schnell und stark ab, so-
dass hier eine gleichmåssige
Rundung der Kiemenspalten-
Felder auftritt, deren ventrale
Enden, repråsentiert durch die
kleinste, lochformige oder kurz-
ovale åusserste Kiemenspalte, in
betråchtlicher Entfernung vom
Endostyl bleibt. Andererseits
geht die Reihe der Kiemen-
spalten dorsal median ohne Ver-
kurzung der Kiemenspalten und
ohne Unterbrechung in die der
Gegenseite iiber. Quergefåsse
gleich breit, mit je einem måssig
starken, im allgemeinen einfachen
Muskelbindel, das sich am ven-
tralen Ende, gegen den Endostyl
zu, Spitzwinklig in 3 feinere Åste
spaltet, einem sehr feinen mitt-
leren und zwei etwas dickere
åussere. Parastigmatische
Quergefåsse sind nicht vor-
handen. Endostyl ziemlich
breit, schwach gebogen. Dor-

salfalten-Zingelchen im ganzen tentakelfårmig, basal ziem-
lich dick, apikal schlank fingerfårmig, ungefåhr so lang wie eine
gut gestreckte Kiemenspalte, hakenfårmig gebogen.

Darm (Fig. 28) eine in ganzer Långe eng geschlossene, ein-
fache, nicht gedrehte Schleife bildend. Osophagus ziemlich kurz.

419

Magen im vorderen Teil des hinlaufenden Darmschleifen-Astes
gelegen, gerade von vorn nach hinten gerichtet, seitlich abgeplattet,
sein seitlicher Umriss dem eines långlichen Bogenfensters gleichend,
Vorderrand gerundet vorspringend, Seitenrånder parallel, Hinterrand
in der Mitte eingesenkt. Der Magen ist oberflåchlich glatt, ohne
eigentliche Wulstbildung, håchstens gelegentlich (offenbar infolge
von Kollabierung) mit unregelmåssigen, manchmal in der Långs-
richtung verlaufenden Falten, Es sind dagegen am Magen mehr
oder weniger deutlich zwei sich gegeniberstehende Leitrinnen zu
erkennen, denen eine Verdiinnung des Wandungsepithels entspricht,
und die manchmal auch åusserlich als Långsfurchen in die Erschei-
nung treten. Bei der Flåchenansicht erscheint die Magenwandung
unter starker Vergråsserung zart und ziemlich regelmåssig polygonal
gefeldert (Fig. 28a). Diese Felderung beruht auf besonderer Grup-
pierung der Epithelzellen. Wenn die Innenseite der Magenwandung
auch nicht ganz so glatt ist wie die Aussenseite, so ist doch kein
regelmåssiges Vorspringen der einzelnen Felder nachzuweisen. Kei-
nenfalls kann diese Felderung der Magenwandung mit der beim Typus
der Gattung Synoicum (S. turgens Phipps) beobachteten, åusserlich
vortretenden Wulstbildung, die zur Maulbeerform des Magens fihrt,
gleich gestellt werden. Es ist augenscheinlich eine Sonderbildung.
Die Felder der Magenwandung bei Macroclinum stewartense sind
auch viel kleiner, im Durchschnitt etwa 30 w breit, als die åusser-
lichen Wulstpapillen von Synoicum turgens, die bei einem von mir
untersuchten Stiick durchschnittlich etwa 200 w breit sind. Das
Hinterende des Øsophagus ist bei Macroclinum stewartense zur Bil-
dung eines scharf ausgeprågten Cardiawulstes weit in das Vorder-
ende des Magens eingedriickt und springt stummelfårmig in dessen
Lumen ein. Durch Einsenkung des mittleren Teils der Hinterwand
des Magens wird andererseits ein weniger scharf ausgesprochener,
niedriger Pylornswulst gebildet. Der Mitteldarm ist kurz, nur
gut halb so lang wie der Magen, seitlich abgeplattet, im Umriss
ungefåhr trompetenfårmig, anfangs sehr schmal, nur etwa "/£ so
breit wie der Magen, von dem er sehr scharf abgesetzt ist, parallel-
randig. Am Hinterende erweitert er sich wie der Schalltrichter
einer Trompete, um sich dann plåtzlich unter Bildung einer scharfen
Ringkante wieder zu verengen. Ausser dieser verschiedenen Ge-
stalt des Vorder- und Hinterteils ist eine weitere Sonderung dieses

272

420

Mitteldarms nicht erkennbar, doch erscheint es mir fraglich, ob
nicht auch der nåchstfolgende, meist ziemlich deutlich als långlich
ovaler Abschnitt gesonderte Darmteil zum Mitteldarm zu rechnen
sei. Bei dieser letzteren Annahme wirde der trompetenfårmige
Teil als Nachmagen, der långlich ovale Teil als Drisendarm an-
zusprechen sein. Der Enddarm bildet den hinteren: Teillides
hinlaufenden Darmschleifen-Astes und den ganzen ricklaufenden
Darmschleifen-Ast. Er ist måssig weit und zeigt in der Regel
mehrere scharfe Einschnirungen. Die darmumspinnende
Dri se besteht aus sehr dinnen, anscheinend netzartig zusammen-
gefigten Schlåuchen. Ich zåhlte ungefåhr 30 Schlauchquerschnitte
im Umkreis. eines Enddarmquerschnittes. Der After liegt weit
hinter der Mitte des Thorax, bei mehreren nåher untersuchten
Personen gleicherweise iiber der sechstletzten Kiemenspalten-Zone.
Er ist mit zwei scharf abgesetzten, im allgemeinen glattrandigen,
aber etwas unregelmåssig welligen Afterlippen ausgestattet.
Geschlechtsorgane in annåhernder Vollståndigkeit nur an
einer einzigen Person gesehen, in einem Bruchstick, das aus dem
Hinterende des Abdomens und einem grossen Vorderteil des Post-
abdomens besteht. Gonaden såmtlich im Postabdomen. Ovarium
vorn im Postabdomen, eine sehr kurze Strecke hinter dem Wende-
pol der Darmschleife, gelegen. Eine hervorragend grosse, fast 0,6
mm lange und 0,4 mm dicke noch am Ovarium haftende Eizelle
hat eine bruchsackartige Vorwélbung der Leibeswand verursacht und
ragt somit weit in den Zellulosemantel hinein. Eileiter nicht
deutlich erkannt. Hode aus einer ziemlich grossen Zahl (etwa
20?) unregelmåssig birnformiger Hodenblasen bestehend. Die Ho-
denblasen bilden eine unmittelbar hinter dem Ovarium beginnende
und von hier nach hinten gehende, nicht ganz einfache gedrångte
Reihe. Die einzelnen Hodenblasen oder kleine Gruppen von 2
oder 3 Hodenblasen verursachen åhnliche, mehr oder weniger deut-
lich ausgeprågte bruchsackartige Hervorwålbungen der Leibeswand
wie die grosse Eizelle. Es erscheint mir fraglich, ob diese Her-
vorwålbungen einen normalen, auch am lebenden Tier vorhandenen
Zustand darstellen. Vielleicht handelt es sich hier nur um eine
postmortale Schrumpfungserscheinung. Samenleiter als måssig
und gleichmåssig dicker, prall mit Sperma gefiillter Strang in fast
gerader Erstreckung nach vorn gehend, eng an den Enddarm an-

421

geschmiegt, durch das ganze Abdomen hindurch und in den Thorax
hinein.

Erorterung. Diese neue Art erinnert durch ihre åussere Tracht
sehr an Synoicum turgens Phipps"); doch kann sie bei dem jetzigen
Stande unserer Wissenschaft nicht mit dieser Art in einer Gattung
vereinigt, also nicht zu Synoicum gestellt werden, da die Gestaltung
des Magens wesentlich von der bei Synoicum abweicht (siehe oben!).

Vielleicht steht Macroclinum stewartense dem M. pyriforme
(Herdm.)”) von den Kerguelen nahe, das ebenfalls birnfårmige
Kolonien bezw. Kormidien bildet. M. pyriforme zeigt jedoch meh-
rere Systeme in je einem Kormidium und scheint auch jeglicher
Inkrustierung zu entbehren.

Wie oben auseinandergesetzt, scheint M. stewartense durch Ver-
mittlung von M. arenaceum auch zu einer Amaroucium-Art, A. coe-
ruleum Sluit., in verwandtschaftlicher Beziehung zu stehen.

Macroclinum fungosum (Herdm.)?
? 1886, Polyclinum fungosum Herdman, Rep. Tunic. Challenger II, p. 1901,
Taf. XIV Fig. 15—23.
1900, Polyclinum fungosum, Sluiter, Tunic. Stillen Ocean, p. 10, Taf. I
Fig. 6.

Vorkommen im Gebiet: Chatham-Inseln, Waitangi (Sluiter
1900).

Weitere Verbreitung: ? New South Wales, Port Jackson
(Herdman 1886).

Die Richtigkeit der Bestimmung des Chatham-Materials durch
Sluiter erscheint mir sehr fraglich. Bei der Lickenhaftigkeit
der Herdman'schen Originalbeschreibung ist es wohl kaum måg-
lich, ohne Vergleich mit typischem oder wenigstens lokaltypischem
Material jene siidostaustralische Art in Stiicken aus fern gelegenen
Gebieten sicher wiederzuerkennen, ist doch aus der Original-Be-
schreibung nicht einmal zu erkennen, in welcher Weise das Post-
abdomen mit dem Abdomen zusammengehangen haben mag. Viel-
leicht ist die Chatham-Form auch mit einer der oben beschriebenen
Macroclinum-Arten identisch.

1) R. Gøttschaldt, 1894, Synasc. Bremer Exp. Spitzbergen, p. 347, Taf.

XXIV Fig. 2, Taf. XXV Fig. 6—8.

2) Polyclinum pyriforme W. A. Herdman, 1886, Rep. Tunic. Challenger II,
p. 1888, Taf. XXVI Fig. 1—4.

422

Gen. Polyclinurmn Sav.

Polyclinum cerebrale n. sp.

Fundangaben: Neuseeland, Nord-Insel, vor New Ply-
month stEdsshartenGrindsel rs ans OST LY PES)

Stewart-Insel”ca"35"EFdy Sandsrund: "2ONNov ol

Beschreibung: Koloniegestaltung (Fig. 29): Das typische
Stiick von New Plymouth ist kissenfårmig, von ovalem Umriss, an
der Unterseite in Anpassung an den gewolbten Untergrund etwas
ausgehåhlt, an der Oberseite stark
gewolbt, mit gerundeten Kanten,
57 mm lang, 45 mm breit und
in der Mitte ca. 20 mm hoch.
Einige Kolonien von der Stewart-
Insel sind mehr pilzformig, ebenso
hoch, aber schmåler und basal
' etwas verengt.

Aussehenmtderekolonke
ganz abhångig von dem ober-
flåchlich sehr dicht eingelagerten
Inkrustationsmaterial, bei der Ko-
lonie von New Plymouth dunkel
sandgrau, fast schwarz, bei den
Fig 29. Polyclinum cerebrale n. sp. Kolonien von der Stewart-Insel

ELENA RER hell gelblich sandgrau.

Oberflåche der Kolonie (Fig. 29) infolge der Inkrustierung
im feineren sehr rauh, an der Oberseite mit måandrisch verlau-
fenden, stark erhabenen, schmalen Wiilsten, die der Kolonie ein an
das Menschenhirn erinnerndes Aussehen verleihen. Breite der
Wilste durchschnittlich etwa 4 mm, Hohe ca. 2 mm. Diese Wulst-
bildung hångt zweifellos mit der Anordnung der Personensysteme
zusammen. Einige Kloakalåffnungen von unregelmåssiger Ge-
stalt glaube ich in dem engen Furchennetz zwischen den Wiilsten
erkannt zu haben (an dem Austreten von Flissigkeit bei leichter
Pressung der Kolonie). Branchialdffnungen jedenfalls un-
scheinbar (nicht erkannt).

Zellulosemantel weich knorpelig, von Gummi elasticum-
Konsistenz, im allgemeinen durchscheinend, ohne Blasenzellen,

423

mit zahlreichen zarten Sternchen- und Spindelzellen sowie
grobgranulierten, am konservierten Objekt hellgrauen Rundzellen
(verblassten Pigmentzellen?). Der Zellulosemantel ist zumal
in den oberen, von den Personen eingenommenen Schichten ziem-
lich stark mit grobem Sand und åhnlichen Fremdkårpern durch-
setzt. In der Oberflåchenschicht steigert sich diese Fremdkårper-
Einlagerung zu einer sehr dichten Schicht, in den unteren, per-
sonenlosen Schichten ist die Fremdkårper-Einiagerung dagegen sehr
spårlich, sodass der Zellulosemantel hier fast durchsichtig ist.
Personen mit Ausnahme des sehr leicht abreissenden Post-
abdomens ziemlich leicht aus dem
”Zellulosemantel herauszulåsen, im
allgemeinen parallel zu einander
und senkrecht zur Oberseite der
Kolonie — gestellt, die — unteren
Schichten der Kolonie frei las-
send, ohne Gefåssanhang, aber
einschliesslich des Postabdomens,
falls dieses nicht zur Seite ab-
gebogen ist, etwa 7 mm lang, wo-
von der lange Thorax ungefåhr
die Hålfte, das etwas kiirzere Ab- Fig. 30. Polyclinum cerebrale nm. sp.
É > Umriss der Branchialsiphonen von
domen etwa ein Drittel einnimmt. Al verschiedenen Personen 55)
Thorax lang gestreckt, an-
nåhernd cylindrisch, vorn in kaum verminderter ganzer Breite durch
den scharf abgesetzten Branchialsipho abgeschlossen, hinten ein we-
nig verengt und dann plåtzlich gerade quer oder etwas schråge ab-
gestutzt, in den hinteren und mittleren dorsalen Teilen zur Bildung
eines unscharf begrenzten Brutraumes etwas aufgeblåht.
Branchialsipho (Fig. 30) gerade am Vorderende des Thorax,
bei regelmåssiger Streckung von der Gestalt eines abgestutzten
Kegels, dessen Båschungswinkel etwa 45" betrågt. Branchial-
&ffnung von der etwas ausgeweiteten Abstutzungskante dieses
Kegels gebildet, nicht regelmåssig radiår gestaltet, nur selten an-
nåhernd gleichmåssig 6-strahlig gebaut, in 6, ausnahmsweise auch
8 meist schlanke Zipfel auslaufend. Das Mindestmass der von
mir angetroffenen Unregelmåssigkeiten bestand darin, das einer
der 6 Zipfel betråchtlich verbreitert, zungenfårmig, war. Meist ragt

424

dieser breitere Zipfel — es scheint der dorsalmediane zu sein —
auch vigl weiter vor als die iibrigen. Es kommt auch vor, dass
zwei dorsale Zipfel bis zu grésserer Hohe mit einander verwachsen
sind und nun gemeinsam weiter vorragen. Die Ringmuskulatur des
Branchialsiphos ist sehr schwach entwickelt. Sie besteht aus. einer
nicht ganz eng geschlossenen einfachen Schicht diinner Muskel-
biindel, die nur gegen den Offnungsrand des Siphos etwas enger
aneinander ricken und hier eine geschlossene Schicht bilden.

Der Atrialsipho sitzt vorn an der Riickenseite. Er ist nur
schmal und sehr kurz, quer oval, mit ziemlich kråftiger, eine ge-
schlossene Schicht bildender Ringmuskulatur und ungelapptem
Rande. Dicht vor dem Atrialsipho steht eine bei den zur Unter-
suchung gelangten Personen meist an der Basis abgerissene Atri-
alzunge. Nur an einer Person war ein betråchtliches Stiick der
Atrialzunge erhalten geblieben, anscheinend das basale Rudiment
eines lang zungenformigen, an der Basis ein wenig verschmålerten
Organes.

Abdomen viel kirzer und enger als der Thorax, entsprechend
der charakteristischen Biegung und Drehung der Darmschleife (siehe
unten!) gestaltet, scharf abgesetzt vom Thorax, von dessen dorsaler
Hinterecke es nach hinten ragt.

Postabdomen lang und schlank gestielt, mit schlank birn-
formigem bis dick spindelformigem Hauptraum, im ganzen fast so
lang wie der Thorax, etwas hinter der Håhe des Magens aus dem
Abdomen entspringend. Von dem meist kegelfårmig zugespitzten
Hinterende des Postabdomens geht ein anscheinend stets unver-
zweigter, sehr langer und sehr dinner, durch eine Långsscheide-
wand zu einer Doppelråhre gebildeter Gefåssanhang aus. Gråsste
beobachtete Långe eines Gefåssanhang-Bruchstuckes 1,8 mm. Ein
Blindenden-Bruchstick zeigte eine birnfårmige Anschwellung mit
anscheinend einfachem Lumen.

Leibeswand zart, mit spårlicher, charakteristisch angeord-
neter Muskulatur. Ringmuskulatur anscheinend ganz auf die
Siphønen beschrånkt, am Branchialsipho sehr zart und im allgemei-
nen sehr weitlåufig, nur gegen den Offnungsrand etwas dichter und
auf die Siphonenlappen iibertretend, am Atrialsipho in geschlossener,
måssig dicker Schicht einen schmalen Sphincter bildend, an der
Basis des Atrialsiphos sowie an der Atrialzunge dagegen wieder

425

sehr zart und sehr weitlåufig. Långsmuskulatur der Haupt-
sache nach in etwa 24 gleichmåssig und weitlåufig verteilten, ziem-
lich regelmåssig radiår angeordneten Bindeln vom Branchialsipho
ausgehend und ungefåhr iber das vordere Drittel des Thorax ver-
laufend. Das Vorderende der Långsmuskelbiindel verliert sich unter
Zerfaserung im vorderen Teil des Branchialsiphos, dicht an der
Basis der Siphonenlappen. Hinten enden die Långsmuskelbindel
unter allmåhlicher Verschmålerung (nicht unter Zerfaserung) vor der
Mitte der Thorax-Långe. Auch vom ÅAtrialsipho gehen Långsmuskeln
aus. Diese sind jedoch viel zarter und nicht zu dickeren Biindeln
zusammengefasst, sondern bilden eine fast gleichmåssige, nahezu
geschlossene, wenn auch sehr diinne Schicht. In schråger Richtung
die Långsmuskelbiindel des Branchialsiphos kreuzend, verlaufen diese
atrialen Långsmuskeln eine kurze Strecke iiber den vorderen dor-
salen Teil des Thorax hin. Einige wenige zarte Långsmuskelbiindel,
die sich anscheinend an die atrialen Långsmuskeln anschliessen, ver-
laufen auf der Atrialzunge.

Branchialtentakel etwa 32, wenn nicht mehr, schlank faden-
formig, abwechselnd sehr verschieden gross, dicht in einem nicht
ganz einfachen Kreise angeordnet, ihre Basis je nach der Gråsse
etwas weiter nach hinten, aber nicht ganz aus dem Kreise heraus
gerickt.

Flimmerorgan nicht ganz sicher erkannt (nur im optischen
Långsschnitt), anscheinend mit einfacher Offnung.

Kiemensack lang gestreckt, mit 16 bis 18 Kiemenspalten-
Zonen und etwa 14—17 lang gestreckten Kiemenspalten in
einer Halbzone. Quergefåsse ziemlich breit und annåhernd
gleich breit, mit je einem schmalen Muskelbiindel, das sich sowohl
am dorsalen wie am ventralen End2 gabelt, und an der Innenseite
mit einer ziemlich eng geschlossenen Reihe warzenfårmiger, basal
in der Querrichtung etwas breiter ausgezogener Papillen, deren
Zahl nur wenig geringer ist als die der Kiemenspalten, nåmlich
etwa 12 oder 13 in einer Halbzone betrågt. Parastigmatische
Quergefåsse fehlen gånzlich. Endostyl sehr schmal, fast
gerade gestreckt, an den Enden kaum merklich eingebogen, am
Hinterende in eine verhåltnismåssig ziemlich breite Retropharyn-
gealrinne ibergehend, die in scharfer Abknickung fast senkrecht
zum Endostyl verlåuft und in geradliniger Erstreckung parallel der

426

letzten Kiemenspalten-Zone die Hinterflåche des Kiemensackes
durchsetzt. Dorsalfalten-Zingelchen ziemlich kurz und
plump, kirzer als die normalen Kiemenspalten, scharf hakenfårmig
gebogen, dicht neben (wenn nicht gerade in?) der dorsalen Median-
linie stehend, jedenfalls nicht betråchtlich weit aus derselben her-
aus geriickt.

Darm eine enge, in ganzer Långe geschlossene Schleife bil-
dend; die Schleife macht im Anfangsteil eine einfache Krimmung,
sodass der Magen aus der Långsrichtung mehr oder weniger her-
ausgebogen erscheint; der hintere Teil der Schleife mit dem Wende-
bol bildet die charakteristische Drehung um die Långsachse, manch-
mal zugleich auch eine mehr oder weniger starke Krimmung. M a-
gen olivenférmig, glattwandig; Cardia und Pylorus nicht genau an
den Polen, sondern einander etwas genåhert. After mit zwei
grossen, gerundeten, glattrandigen Lippen, ungefåhr in der Mitte
des Thorax gelegen.

Geschlechtsorgane: Personen zwittrig. Hode aus einer
grossen Zahl (durchschnittlich etwa 30?) von dicken, ballenfårmigen
Hodenblasen bestehend, die den gråssten Teil der spindelfårmigen
Anschwellung des Postabdomens einnehmen. Samenleiter ziem-
lich dick, bei den untersuchten Personen stets in ganzer Långe
prall mit Samenmassen gefillt. Ovarium im vorderen Teil der
Anschwellung des Postabdomens neben der Hode. Eileiter zart-
wandig, eng an den Samenleiter angeschmiegt. Als Brutraum
dienen die etwas aufgeblåhte Atrialhéhle und die Peribranchial-
håhlen. Ich fand bis 34 Embryonen und geschwånzte Larven in
einem solchen Brutraum. Die verhåltnismåssig kleinen, anscheinend
ausschlipfreifen geschwånzten Larven erreichen eine Rumpf-
långe von etwa !/> mm. Es fanden sich in einem Brutraum gleich-
zeitig Embryonen bezw. Larven verschiedener Entwicklungsstadien.
Die weiter entwickelten liegen in der Regel weiter vorn, nåher der
Atrialoffnung, doch kommen stets auch Unregelmåssigkeiten der An-
ordnung vor.

Erorterung. P. cerebrale, ein Polyclinum im engeren Sinne H art-
meyer's, steht anscheinend dem P. isipingense Sluiter”) von Natal
nahe, unterscheidet sich aber von diesem unter anderen durch die

1) C. Ph. Sluiter, 1897, Tunic. Stid-Afrika, p. 21, Taf. II Fig. 1, Taf. IV Fig. 3.

427

viel gråssere Zahl der Kiemenspalten, nåmlich in einer Halbzone
14—17, gegen 7 bei P. isipingense. Nach Sluiter sollen zwar
£øewdhnlich 14 von letzteren in einer Reihe" stehen. Aus der
Abbildung Taf. IV Fig. 3 geht aber hervor, dass unter "Reihef
eine fGanzzone" zu verstehen ist, denn es finden sich 5—7, meist
7 Kiemenspalten in den gezeichneten Halbzonen. In der Gestaltung
der Kolonie zeigt P. isipingense (1. c. Taf. II Fig. 1) eine gewisse
Åhnlichkeit mit der neuen Art; doch sind bei P. isipingense die
Lappen und Wiilste der Kolonie im allgemeinen viel breiter. Es
sind hier offenbar unregelmåssige und morphologisch unwesent-
liche Bildungen, anscheinend keine charakteristischen, auf der An-
ordnung von Personensystemen beruhende Oberflåchenbildungen
wie bei A. cerebrale.

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Verzeichnis der im beschreibenden Teil
angefuhrten Gattungen und Arten.

Mitteilungen uber neue Organisationsbefunde, so auch Beschreibung
neuer oder ungenigend bekannter alter Arten, sind durch Fettdruck der be-
treffenden Seitenzahlen hervorgehoben, ebenso Diagnosen neuer Gattungen
und geånderte Diagnosen alter; Synonyme und fragliche Arten durch eckige

Einklammerung gekennzeichnet.

Seite
africanum, Didemnum studeri,
[Lerfoclinides HSA KA 344
albidum, Didemnum, [Leptocli-
num, Tetradidemnum)| .....
ER ØER 354—356, 360
AMarLoucIumn ses skeer 374
— Amber 400
== appendiculatum.....
SES NOMSSON SSP SE
— caeruleum[coeruleum]|

ES ERE 413, 421
=—= CCM POL TUNT RE

Sense 370, 375, 383—388
== CORSIMICILT ERE 388
ro lacenmn serene 400
-— [ubricunr skeerne 400
— fobesum].. 389, 397—399
— phortax see 389—400
— ph. ptychodes.. 389—400
— lptyenodes seer 396
— recumbenst se 400
— [ritteri].... 389, 397, 399
= SAVISMVISSESNESNEL 399, 400
= scabelumsrseeeere

.….…… 1370, 374—883, 387
= stenene SSL 374
== stelliferum seere 388
— variable 388, 400

(ambiguum, Psammaplidium] .… 400

Seite
[annectens, Leptoclinum] ...…... 358
[Aplidiopsis]| Jordan eee 406

[Aplidium] cerebriforme...........
SEES 309=315E325Æ330

er follaceum BEER 400
— mauritaniae eee 400
= pedunculatum ......

SE SØGER 7 288, 290, 309

appendiculatum,Amaroucium[Sy-

noicum]).. 370, 371, 377—383, 387
larborescens], Sycozoa ERE

HERE 1310, "314,32 ESP5S-=-S28
AÅrchlaseldia te ..-SRREE BLEER 268
Archidistoma 2 Jer SEERE 268
arenaceum, Macroclinum ......

SER Rn rr sa ETØRR 406—413, 421
[asperum, Leptoclinum] ... 342, 343
(asperum,Leptoclinum speciosum] 358
faucklandicum], Cystodytes 286, 287
[australis], Clavelina, [Stereo-

clavella, Synclavella]... 271, 274
[anstralisJulnia| SLS 318
australis, Sigillina... 371, 373, 374
[bermudense, Leptoclinum speci-

OST] FREE S EEN 345
bermudensis,e, Distaplia, (Ho-

To20dEAsae2 S SEE RR 3lg
biglans,Didemnum,[Leptoclinum] 357
bistraumtDidemn im seen 334

—

Seite
brasiliensis, Leptoclinides ..... 335
burst, DISA PLA 3. 308, 312
saeruleds SIOUNINA 34 43558 373
caeruleum, Amaroucium... 413, 421
salrforniea; Distaplia: 2... 309
candidum, Didemnum..... 358—359
rerebrale, Didem nur 2. 279
cerebrale, Polyclinum .... 422—427
cerebriforme, Trididemnum..... 341
cerebriformis,e, (Aplidium, Co-
lella], Distaplia, [Sycozoa]...
SER 307; 309-311,

315, 316, 320, 321, 323, 325—330
cerebriformis, [intermedia, Syco-

BD eee NE 314, 315
cereum, Pseudodistoma ... 364—374
chondrilla, Didemnum.........

bs ses eee 344—352, 353, 354
[Chondrostachys] cylindrica ... 274
circumvallatum, (Distoma)!,. Eu-

distoma, [Polycitor]..... 285—286
circumvolutum,Amaroucium,[(Po-

lyclinum, Psammaplidium]. ..

rn DEERE 375, 383—388
Clavdidt DISFAD UA... : 30732
(CLI DO HERE S SES SERSRERRERSES 268—269

— faustralis |... 212774

= Eylindricaed. i : 274

— gigantea 269, 272, 274, 276

FE BBR SAFE Pl2:E2TA

— SPL 3. 269—277
[coeruleum], Amaroucium .. 413, 421
[Colella] cerebriformis ......... 315
Corea ses 515
| Cyan ed 3.0. sl 374
I == PO 0010 SEERE SI2ÆS3IS
Banana 2; 318
BE eor land 2.3. 311
Ric ice] es 53 329
MOPS ad 371
Pedal 32

. 288—290, 293, 294, 313
RR red robustipes] 2... 289
Bl Herrer] ss ss err er 289
ed 772. 329, 330
RR srelllinoides . ….. 289, 311
——]| umbellata ….....… 289, 311
[ — umbellata kophameli)] ... 289
oms onds2..57 291
concreta, [Colella], Sycozoa ... 315
conjøsar- Distaplia 308, 311
constrictum, Amaroucium...... 388
Elder MACTOCIN UTM... 406
[cretacea],Cystodytes dellechiajei 288
leretaceum, Leptoclinum] ...... 359

Brarede Cole sa ses 379

Seite
cylindrica,[Chondrostachys), Cla-
Velind. FE rs RER EEC SUE 274
cylindrica, Distaplia, [Holozoa;
syet ed 296, 297, 308, 309, 317—320
CYSIOAVIES TES TALI SEER SE 278
— aucklandicus ... 286, 287
— delleehrajereeree 288
— dell. [cretacea! ..... 288
= draschei (draschii] . .
NE Eee 286—288
= perspicuustX 286-288
telrascelljerksk er 288
BENEELre er Gystodytes FE 288
dell. [cretacea], Cystodytes .... 288
[densum], Didemnum, [Leptocli-
TITLER. 2 RVR RRA LE SER 354, 355
(Didemnoides] lambitum …....… 352
[Didemnium] styliferum ......… 308
Didemnum albidum ...... 354—356
= biglansæmsiek sne 357
= brsiralnmtkeeeseee 334
= candidum eet 358 —359
— cerebraleslssse eee 279
= chondrilla.344—352—354
— [densum] MERNE ES 355
= Ko) VISSKEERE RO ES ENE EEE 357
— køortschaldti seere 342
= Fårmibitum eee
. 345, 349, 350, 352—354
— aar SE 359
— mortenseni ....… 360—363
— [novae-seelandiae] .. 359
== paradoxvunkekeeee 344
== psammaiodes:d- UNS Å2

= psamm. [ianthinum] . 342
— psamm. intermedium. 342
= psamm. maculatum.

SS Ra SN SENER 341—342
== rosen PEN 354
— fed eee 358
= studeri .… .342—343, 345
— st. africanum erne 344

— SYCOMnRE Er 344, 345,
347,349,351, 352, 353, 363
= tuberatum ..... 356—358
diemenensis,Leptoclinides331-336,341
Distap hare 297, 309—325
—— bermudensise nd er 317
RE blrs ala SSR: 308, 312
real orme SSR 309

—" cerebriformis ..... 307,
309, 320, 321, 323, 325—330
ENE r9 479 y 79 BEER SNEEN SES
RE CON US ARE PE EESA: 308, 311

RE eylindrica SES DRE

2067120977308-—115 317—320

Seite
Distapllasdistomordes ens AseeR 311
— Nm domunculastisireene 330
== domuncenla| KERES 330

— NH Ffasmerianasekere 293,
298—309, 312, 317, 320, 321
==" bra VSSE See 317
— … magnilarva ...... 308, 322
mer opn ode 308, 316
— bose. sis SIS S22
1 SKOOD rar KERNER ERE 331
Esge SAS: 308

Hr aller ball ER
SE SEE SOS SP ÆSEB
[Distoma] circumvallata ....... 285

distomoides, Distaplia ........ 311
domuncula, Distaplia,(Holozoa] 330

[domuncula], Distaplia ......…. 330
draschei [draschii), Cystodytes.
5 SORTER VE SY EEN SER 286—288
dubium, Leptoclinides, [Polysyn-
CRALOT ERE ener MURENE Rene 335
Echincceinuom essere 279
elonsatan|[Colella eee S2
Eudistomaees sier 285
— circumvallatum .285—286
— MLODIULSTESEREEEe 372—373
faeroerensis, Leptoclinides..... 335

fasmeriana, Distaplia 293, 298—309
foliaceum, Amaroucium vel Apli-

dium, (Psammaplidium] ..... 400
fungosum, Macroclinum, (Poly-

Clon um] KER ASE SEE MR EDER 406
fuscum, [Polysyncraton] para-

AO UTM EN ar re 344
gaimardi, (Colella], Syeozoa... 318
SaussiiDidemnumseerer seer SSI
[gelatinosum, Leptoclinum] .... 354
georgiana, [Colella], Sycozoa..

ERE ESSEN DT ode SIlsesISs
gigantea, Clavelina, [Polycitor

(Paradistoma)]. 269, 272, 274, 276
(gottschaldti], Didemnum........ 342
haeckelkESyYynorleum RER ENER 321
EHeterotrenma: Ade S70ÆS7TSMSST

— Saras Mee 387
[Holozoa] bermudensis ........ 337
FE = evil dre ARENSE Sl
RE dom anede 330
KJ polis e 2 SN ER 323
hypurgon, Macroclinum ...401—406
[ianthinum], Didemnum psamma-

todes kl eptoclinum eee 342

koncil mlne FRR SIS
[incerta, Colella, Sycozoa]. 329,
intermedia, Didemnum psamma-

fodessses Se AS EN SRR 314,

Seite
(intermedia], Sycozoa cerebrifor-

MISSER EEE RER 325530
isipingense, Polyclinum ... 426, 427
jordani, (Aplidiopsis], Macrocli-

BUT AE FONDE 405, 406
Vilnia australis| RR 3184821

—, monotaj ss 318, 321
[kophameli], Sycozoa [umbellata]

SØGE SEER MEE Es sr re 289, 294

lambitum, ([Didemnoides], Di-
demnum..345, 349, 350, 352—354
[Leptoclinides africanus] ...... 344
== braåsiliensis re 385
-- diemenensis .331—336
== dublus ES 335
= faeroerensis ..... 335
= Sparsus 335, 336—341
[Leptoclinum] albidum ........ 354
[ — annectens| NER 358
[ — asperum)... 342, 343
[ = IEbrolans eee 357
l — eretacenmi| Eee 359
[ — densumi esser 354
[ — gelatinosum] .... 354
[ — tanthinum] 3 342
[ — | lambitum eee 352
[ — luteolum| eee 354
[ — 1maculatum eee 341
[ — niveumi|keeeeee 359
[ — scIduld|N ere 358
[ — speclosim|eeee 358
[ — spec. asperum]... 358
[ — spec bermudensis] 345
[ — terning]. SSGRÆR
. 342, 344, 358, 359
[ — Ftuberatum eee 358
[lesson "Synclavella| Feer 269
Lissoclinumtwandelt SSR 356
lubriedikDista pla see Sim
lubricum CAmaroueiu meer 400
[Zutarium], Didemnum.......... 359
[[uteolum, Leptoclinum] ....... 354
Macroclinum arenaceum.......
BREDE SEER 406—413, 421
== crater-:.': KNR 406
== fUNngOSuMmesSNeSE 421
— hypurgon .... 401—406
—= Jordans tee 405, 406
= pyriforme re 421
— stewartense ... 375,
407, 411, 412, 413—421

maculatum, Didemnum psam-
malodes, [Leptoclinum]. .341—342

magnilarva, Distaplia..... 308, 322

[maheina), [PolySyncraton] para-

doxum 344

ere are ske; ae) en eree, DER AN GEGEN

433

Seite
mariae, Polycitorella .278, 279—285
mauritaniae, Aplidium ........ 400
mikropnoa,us, Distaplia, [Poly-
ET] HESS ERE 308, 316
mobiusi, [Colella], Eudistoma,
[Polycitor (Eudistoma)]......
LD NG mg 372—373
mortenseni, Didemnum ....360—363
Neo bikes Es i Sd dre tere daher ve 291
[niveum, Leptoclinum).…....... 359

[novae-seelandiae], Didemnum . 359
[obesum], Amaroucium, [Psam-

MADAM |. 389, 397—399
ablongamClavelind 3. 212, 274
OVEve RER ass ene: 291
paradoxum, [Polysyncraton] ... 344

— [fuscum], [Polysyn-
eratonl| ss. SETS 344

— maheina,|Polysyncra-
Forn SA UVISSE SS 344

fpedunculata,um, Aplidium, Co-
FeldMSPYEOZOA ES ss sss SEES
Forre: 288—290, 293, 294, 309,
[pedunculata robustipes,Colella],
Sean e Er E 289
[perrieri,] [Colella], Sycozoa ... 289

perspicuus, Cystodytes ....286 —288
phortax, Amaroucium ..... 389—400
ph. ptychodes, Amaroucium 389—400
iplieatakColellalsisss ss 329, 330
Pokpeltokeees ss drer. 277—278

Polycitor (Eudistoma) circumval-
Tatum Fseak2SS

== == mobiusi..
SEES 371, 372—373

[ — (Paradistoma)| gigan-
FORE Ea rd ere LOSS 2
[| — (Polycitor)] torensis .. 387
BolvceHoreNA RS ad oe de 278—279
= mariae.. 278, 279—285
Polyclinum cerebrale...... 422—427
[ — ] circumvolutum.... 383
BR Kingos 2... 421
== isipingense ... 426, 427
[ — Irmiteropnous…........ 316
[ = Hpynformesssss 23 421
fEolysynerafon| 2 2. 336, 345
[ — INdøbiu ms 335
[ — ] paradoxum .... 344
[ — ] par. fuscum ... 344
[ — par. maheina] .... 344
[Psammaplidium ambiguum] ... 400
[ — ] circumvolutum 383
[ — ] foliaceum .... 400
[ — obesum] ... 389, 397
[ — ] stelliferum ... 388

Vidensk. Medd. fra Dansk naturhist. Foren.

Seite
psammatodes, Didemnum ..... 342

— fianthinum), Di-
denne ERE 342

-— maculatum, Di-
demnum ...341—342
Pseudodistona eee eee 364
== Cereunveeee: 364—374
[ptychodes], Amaroucium ...... 396

== » Amaroucium phortax
SE EYE SEE 389—400

pyriforme, Macroclinum, (Poly-
Cum ERSRE Er e RR 421
AHOVIN SPVEOZ OASE Eee en 293
ramulosa; Sycozoaserreee 294, 295
recumbens, Amaroucium....... 400

[ritteri), Amaroucium. . 389, 397, 399
[robustipes,Colella],Sycozoa [pe-

dunetlard eee Ar 289
rosea, Distaplia ...... SI2A3STOES22
froseum | Didem numser 354
sarasinorum, Heterotrema ..... 387
savignyl, Amaroucium ..... 399, 400

scabellum, Amaroucium .......
EET nere BE ECS 370, 374—383, 389

[scidula], Didemnum, [Leptoc!i-
TUT SS REE TEE RESEN 358
sigillaria, Clavelina....... 269257

Sigillina australis ..
= caeruleakser 373, 374
sigillinoides, [Colella], Sycozoa

288—297, 310, 311, 314, 318, 320
SkOoOPPRDISTAD IDEER ERE EN 331
sparsus, Leptoclinides.335,336—341
[speciosum, Leptoclinum] ...... 358

[ — asperum, Leptoclinum] 358
[ — bermudense, Leptocli-
num]
steineni,Amaroucium,(Synoicum] 374
stelliferum, Amaroucium, (Psam-

mapldiund ss 388
[Stereoclavella] australis ....:. 274
stewartense, Macroclinum .....

Ryds 375, 407, 411, 412, 413—421

studeri, Didemnum … .342—343, 345
= africanum, Didemnum . 344
stylifera,um, [Didemnium), Di-
SJ ÅHE se odde over. oner LE 308
sycon, Didemnum -.….... ....... . -
344, 345, 347, 349, 351—353, 363

Syeozorrerrer ere .288, 309—325

z= larborescens| HEE
3103 IÆNS2 ES 25329

= cerebrgjormisskekeeeeee
SNS 315, 321, 325—330

— —. [intermedia]
Fiuagnees 31431531 67325330

Bd. 77. 28

Seite

Sycozoa"concreldt tesen 315
== DOAIMAR ASE GSR 318
— SeOFSIAMAORSE ESS 315

— Ur eer tales 329, 330

— [pedunculata] ....…... 299
== — robustipes] 289
— [perrieri] gs. ERE 289
—- GUOPL: NS NEDE DRE RER 293
— ramulosa ER 294, 295

— sigillinoides ..
297; ST0OFSUISSIAFS TE FS20
— umbellata 289, 294,295, 311

— [ — KKophameli).
ERE AE TS E, 6x 289, 294
[Synclavella australis)] .... 269, 271
i — lesson Renee 269
Synoieums dede 374
— |] appendiculatum ....
33 Må 37018711574 887
— ideel æres 321
== SLelnmenIEeRe ERE nen 374

10: 11922

Seite

Synoicam turgens..... 413, 419, 421
[tenue, Leptoclinum)...342, 344, 358
[Tetradidemnum] albidum ..... 858
tetrascelifer Cystodytes SEER 288
fihomsonvkG olelld ERE 289, 291
torensis, [Polycitor (Polycitor)] . 387
Trididemmumt seere GERE 341
— cerebriformeekee 341

— ] tuberatum ... 357, 358
tuberatum, Didemnum, [Lepto-

clinum, Trididemnum)....... .
SEN SE 356—358, 359
umbellata, Sycozoa... 294, 295, 311
[" 5 Colellakrrer 289, 311

[ — kophameli,| Sycozoa
ES 289, 294

valle" val Distaphakeeer
SEE ENN 307 31222325
variabile, Amaroucium .... 388, 400
wandeli, Lissoclinum eee 356

Papers from Dr. Th. Mortensen's Pacific Expedition
1914—16.
XXIII.
Sponges from New Zealand. Part I.

By
H. V. Brøndsted, Birkerød.

Tnis paper is the first part of a treatise on the sponges collected
by Dr. Mortensen at New Zealand in 1914—15. It contains a
report on the Tetraxonida; a second and concluding part will deal
with the groups Euceratosa and Calcarea; Hexactinellida are not
represented in the collection. In the second part, which is in
preparation, a general discussion of the sponge-fauna of New
Zealand will be given.

The material is, as most material from expeditions, in a state
of preservation only permitting coarser investigations; it is partly
preserved in rather thin formaline, and specimens thus preserved
are nearly all slimy and a good deal macerated; also Dendy has
had"the”same experience (7,7) pag. 272).

I take the opportunity here to express my deep sense of gra-
titude towards Dr. Mortensen for handing me over this most
interesting collection. It forms a very important supplement to the
report on the sponges of the "Terra-Nova" Expedition, so admirably
dealt with by Dendy 1924 (7), and very considerably increases
our knowledge of the New Zealand sponge fauna.

Order Tetraxonida.
Suborder Astrotetraxonida.
Myriastra biformis nov. spec.
(Fig. 1, a—e.)
Off New-Plymouth. 8 fathoms. Hard bottom. 12/1.1915.
One little specimen, globular, 23 mm in diameter; surface strongly
hispid; one osculum (?) at the side of the body, flush with the surface.

1) The numbers correspond to the literature-list.
28"

436

There is a not very distinct cortex, about 0,25 mm thick. Consi-
stence hård, colour grey and white.

The skeleton is typically radiate, the primary fibres are mostly
built up of triaenes; they are running perpendicularly towards the
surface. The spicules are not densely packed, hence the ground-
substance must be very tough, as the consistence of the sponge
appears rather hard; the outermost placed triaenes are mainly ortho-
triaenes with recurved cladi; long dermal oxea are projecting out
from the sponge body, being placed perpendicularly towards the
surface between the dermal brushes of the primary fibres. Chiasters
are found everywhere in the body.

Spicules: 1. Orthotriaenes (fig. 1 a, b), shaft straight, thickest
at the base, tapering evenly towards the generally sharp-pointed
apex; abbut 2000X42 u; the cladi are straight or more or less
recurved, tapering towards the sharp-pointed or somewhat blunt
apices; width of cladome about 320 u. 2. Anatriaenes (fig. 1c);
shaft straight, slender, generally sharp-pointed; length up to 2000 uw,
thickness 24 u; cladi short, width of cladome ca. 92 u. 3. Oxea,
(fig. 1 d); slender, thickest in the middle, evenly tapering, sharp-
pointed or a little blunt; about 1700X29 u. 4. Cortical oxea;
of the same shape as 3, but only ca. 1100X 17 wu; intermediate
sizes between the two forms occur. 5. Chiasters (fig. 1e); with
numerous comparatively short tylote rays; total diameter about 10 w.

Stelletta novae-zealandiae nov. spec.
(Fig. 2 a—e.)

2 miles East of North Cape, N.Z. 55 fathoms. Hard bottom. 2/1.1915.
One specimen.

The body is nearly spherical, though provided with a ridge half
way round; greatest diameter 19 mm; surface hispid. No oscula
are fo" be seen I here"is"aldensefandihardicortex carl m meter
very fibrous, of whitish colour. Numerous lacunes, up to 1 mm
in diameter are situated just beneath the cortex, leading into wide
canals; there are many more canals in the outer part of the sponge-
body than in the interior. The dermal-membrane is densely packed
with an one-layered crust of oxyasters. Colour dark grey. Consi-
stence hard.

The skeleton is distinctly radially arranged; bundless of triaenes
and oxea are running vertically towards the surface from the centre

437

of the sponge-body; there are no special cortical brushes of me-
gascleres; the fibres of the interior run right through to the sur-
face; the big dichotriaenes are, however, mainly restricted to the

Fig. 2. Stelletta mnovae-zealandiae

Fig. 1. Myriastra biformis
a. Orthotriaene with nov. spec. a. Dichotriaenes. b.

nov. spec.
recurved cladi. bb. Orthotriaene Plagotriaene. c Large oxeote of the
with straight cladi. c. Anatriaene. main skeleton. d. Small oxea of

d. Oxeote. e. Chiaster. the cortex.

distal part of the fibres, the cladome of those outermost placed
often pierce the dermal-membrane; this latter is sustained by a
single layer of densely packed oxyasters; small cortical oxea, mainly

438

placed vertically towards the surface, contribute to make the sponge
hispid; several of the oxea are also placed pell-mell in the cortex,
tending, however, to form brushes. In the interior of the sponge-
body oxyasters are assembled in greater numbers, especially in
places, where megascleres are only scantily found.

Spicules. 1. Dichotriaenes (fig. 2a); shaft generally thickest
at the base, then for a smaller part even, and then again tapering
towards the sharp-pointed apex; length varying from, say, 1500—
3000 u by a thickness of about 50 u. The primary cladi are
issuing from the shaft at the usual oblique angle, the secondary
sladi, of about the same length as the primary ones, are mainly
directed perpendicularly towards the shaft; they are conical and
generally rather sharp-pointed; entire width of the cladome about
350 u; some of the dichotriaenes, however, have cladomes, which
are only very slightly branched, and, as a matter of fact, all inter-
mediate forms between dichotriaenes and plagotriaenes occur. 2.
Plagotriaenes (fig. 2b); generally more slender than the dicho-
triaenes; length the same, but thickness only 30—40 u. 3. Oxea
(fig. 2 c); slightly curved, thickest in the middle, tapering evenly
to the sharp-pointed apices; 1200—3000 X 45 w or less. 4. Cor-
tical oxea (fig. 2 d); straight, thickest near the middle, rarely
just in the middle, tapering evenly to the sharp-pointed apices; 200
—400 X 10 u. 5. Oxyasters (fig. 2 e); with from 4—10 long,
sharp-pointed, conical rays, only a small body; entire diameter
26—32 u.

Stelletta sandalinum nov. spec.
(Fig. 3, a—e.)

Slipper Island; the coast, at low water. 20/X11.1914.

2 specimens, only fragments, flesh-coloured, somewhat flattened,
55 mm in largest diameter, about 15 mm thick. The sponges are
unfortunately preserved in formaline, therefore rather macerated.
Where the surface is intact it is coarsely hispid. No oscula are to
be seen. Through the dermal-membrane are seen the ends of nume-
rous narrow canals giving the sponge an appearance, when seen
through a pocket lens, as if it were pricked with a needle all over.
The cortex is thick and rather hard, being built up of the densely
packed brushes of plagotriaenes; it is up to 2 mm thick.

439

The skeleton is rather lax in the interior, consisting of rather
irregularly placed spicule-tracts; the external skeleton is, as said
before, made up of cortically placed brushes of plagotriaenes so
densely packed together, that they form a crust; the cladomes are
placed just beneath the dermal membrane, which is sustained by
a single layer of small spherasters; these latter together with the
oxyasters also occur in great numbers in the interior of the sponge.

Spicnles ER MAN P Fasolt Talenles
(Fig. 3a); shaft stout, long conical,
tapering evenly to a very sharp
point, straight or a little curved;
the cladi are placed obliquely to &
the shaft; they are short, conical,
sharp pointed or blunt; shaft about
2000—2500 X< 80 uw at the base;
the cladi are about 160 w long, at
the base just as thick as the shaft.
PEDE otrraene se (gt Db); Hof
the same shape and dimensions as
the plagotriaenes; the cladi often d
several times bifurcated. 3. Oxea
(fig. 3c); rather slender, fusiform, NSSS;
slightly bent at the middle, sharp-
pointed, 2000—3000 Xx 52 u; they
are mainly restricted to the interior
of the sponge, but may also part-

take in the building Up of the cortex, Fig. 3. Slelletta sandalinum nov.
being intercalated between the plago- spec. a. Plagotriaene. b- Dicho-

i triaenes. c. Oxea. d. Oxyasters. e€.
triaenes. 4. Oxyasters (fig. 3d); Spheraster.

with rather few slender, sharp-

pointed rays; no sphere; about 50 w in greatest diameter. 5. Spher-
asters (fig.3e); with relatively big centra and short truncated rays,
about 8 w in total diameter.

Ancorina alata, Dendy.
Dendy (7), p. 298. Pl. V, figs. 1—2; Pl. VIII, figs. 1—7.
We have this beautiful and well marked sponge from two loca-
lities: New-Plymouth. 8 fathoms. Hard bottom. 12/1.1915. — North

440

Channel, Kawaii Isl., Hauraki Gulf. 10 fathoms. Hard bottom.
29/X11.1914. The specimen from the first locality is massive in
outer form, not lamellar; the surface exhibits all over subglobular
prominences as seen on Dendy's fig. 2,"Pl. V to the left; The
specimen from the second locality is only a fragment; the sponge
has apparently been lamellar. General structure, skeletal arrange-
ment, and spicule-measurements agree closely with the type.
Hitherto known from 7 miles E. of North Cape, N. Z.

Penares tylotaster Dendy.
Dendy (past SOSÆDERVIT Hos GE 19:

Three specimens, the two only fragments, somewhat macerated;
all from Slipper Isl., the coast, at low water. 20/XI1.1914.

The cortex is very distinct, may easily be peeled off from the
soft choanosome. The skeleton agrees very well with that of the
type. There are rather few dichotriaenes, the tetractines mostly being
orthotriaenes of the same size and situated in the same manner as
the former. As the two spicula-forms may substitute one another
in the same individual, and none of them are very numerous, I
see no necessity for laying any stress upon this divergence from
the type as being of any taxonomic value. The oxea only attain
a length of ca. 1000 wu and there are all intermediate stages be-
tween these and the small ones of ca. 25 u; some of them have
the apex narrowly constricted. The tylasters are here about 12—
14 w in total diameter. Some styli of about 800 w occur; they
are mostly a little pathologic in structure, f. i. exhibit beginnings
to twin structures.

Hitherto known from 7 miles E. of North Cape, N. Z.

Geodia regina Dendy.
Dienidy (7) past 308 Ep EVA SSD EEVIN GER ENGE 228

Slipper Isl. The coast, at low-wateér. 20/X11.1914.

Two specimens of somewhat irregularly subspherical outline,
attached with a broad base to a stone. The structure agrees pretty
well with that of the type. The spicule-measurements are: Di-
chotriaenes 2000—3000 w; anatriaenes and protriaenes 4000 —
5000 u; oxea 2000—3000 w; cortical oxea about 250 w; sterr-

441

asters 110—160 u; oxyspherasters 12—30 u. I have not seen the
cortical anatriaenes. ;
Hitherto known from 7 miles E. of North Cape, N. Z.

Geodinella vestigifera Dendy.
Dendy (7) pag. 313, Pl. VIII, figs. 29—37.

2 miles East of North Cape. 55 fathoms, hard bottom, 2/1.1915.

Quter appearance and skeletal arrangement agree very well
with the type. The same spiculation is also found and of nearly
the same dimensions; it is very curious that the styli are here
likewise often abnormal; several of them bear the mark of being
of tetraxonoid origin, which is proved by their having the axial
canal split up into three branches at the base; other indications
of the same fact are given by Dendy, and are also seen here.
The choanosomal oxea are often centrotylote. The short curved
oxea measure down to about 200 w, and transitory stages between
these and the bigger ones are found.

Hitherto known from Spirits Bay, near North Cape, N.Z,

Monosyringa nov. gen.

Stellettrdaerwithttherbodyproducedfintorarspecial
eloacaltuberwhich has its'own specialskeleton built
mpRoRtorthodtaenesstthetmricerosclerestare oxyasterss
chiasters, and trichodragmata.

This is an extremely interesting new genus; as will be seen
from the description of the species it comes very near to Tribra-
chium and Disyringa, mainly differing from these in having chiasters
and no sanidasters. There are now two possibilities: 1. Monosyringa
is a converging genus, which has developed the curious cloacal
tube independently; this view is sustained by the fact, that the
genus does not possess sanidasters, but chiasters. Or 2. Mono-
syringa is really closely related to the two mentioned genera; this
view is sustained by the construction of the tube, which is nearly
identical with that of the two others; but if there is a close rela-
tionship, then the occurence of sanidasters is of no far-reaching
taxonomic value. The question cannot be solved as yet. I should,
however, think, that the former view is the right one: A cloacal

442

tube should, I think, more easily be produced, than a new type
of aster,' involving a lesser alteration of the genotypical construc-
tion; at least it seems that the cloacal tube may be an answer
to environmental influence") while we can hardly imagine envi
ronmental influences to alter the asters; consequently an alteration
of the asters must evidently be due to a higher degree of germinal
variation than the production of the cloacal tube.

Monosyringa Mortenseni nov. spec.
(Fig. 4 a—g.)

10 miles N.W. of Cape Maria van Diemen. 50 fathoms. Hard
bottom, 5/1.1915. One specimen, but only the cloacal tube, 30 mm
long, 3 mm thick. Three Kings, 65 fathoms, hard bottom, 5/1.1915.
One specimen, likewise only the cloacal tube. Colville Channel,
35 fathoms, sand and mud. 5/1.1915. One beautiful specimen.

The body is spherical, 20 mm in diameter; the surface of the
body is completely covered with sand, fragments of shells, etc. ;
the sandgrains can only with difficulty be removed from the sponge;
where they have been there are seen small corresponding hollows
in the surface of the sponge; other orifices than those at the top
of the cioacal tube could not be detected; the cloacal tube is di-
stinctly set off from the main body; it is completely free from
foreign particles at the surface, white of colour, cylindrical, curved,
ca. 30 mm long, 4.5 mm in diameter; the outermost part of the
tube in all three specimens is, unfortunately, damaged, perhaps torn
off. Consistence hard.

The skeleton of the body is distinctly radially arranged; it con-
sists of long spicula-fibres running from the center of the sponge
to the surface, projecting a little beyond this; the fibres are com-
posed of oxea and orthotriaenes, the latter mainly restricted to the
outermost part of the fibres; there is a distinet fibrous cortex,
about 0,5—1 mm thick, and of a somewhat bluish colour, resemb-
ling porcelain; all the sponge-tissues are crowded with microscleres;
in the cortex the asters and trichodragmata are often lying in de-
finite strands; both forms of microscleres, especially the tricho-

1) Perhaps even many tetraxonoid sponges may be able to produce such a
tube when covered by sediments, which has evidently been the case
with the specimens found of the three mentioned genera.

443

dragmata, also lie packed close together in the septa, which divide
the several subcortical crypts from one another.

The skeleton of the cloacal tube consists of an axis composed of
shafts of stout orthodiaenes and
oxea; the stronger cladus of the |
orthodiaenes projects vertically 6
outwards from the axis; they
are placed in stories in the same
plane, one above another, con-
nected with thin lamellae of or-
ganic tissues, thus building septa
dividing the entire cloacal tube
into 4—6 canals; the outer walls
of these canals are made up of
a dermal-membrane suspended
between the apices of the over-
grown cladi of the orthodiaenes
from row to row; the dermal-
membrane and the lamellae
separating the clocal canals are
sustained by microscleres. The
cloacal canals are only prolonged
a few mm into the sponge-body,
they are here in connection with
numerous finer canals lying in
the sponge-body itself.

SpleulesEHEKOrthotriaenes
(fig. 4a), in the main body; shaft
straight or slightly bent near the
base, evenly tapering to the Fig. 4. Monosyringa Mortenseni nov. spec.
sharp-pointed apex up to 4000 a. Orthotriaenes. b. Orthodiaenes. c. Or-
HO i Sraight or 2 lime (Pemennened Ore « Osyteter f. Chr
upwards curved; width of cla-
dome about 430 uw. 2. Orthodiaenes (fig. 4b) of the cloacal
tube; shaft straight, up to 4500 X 45 w, thickest near the base,
tapering evenly to the very sharp-pointed apex; the stronger cladus
is a little backwards curved, nearly as thick as the shaft, tapering
to a fine point, up to 1700 w in length; the other cladus is inserted

444

between the spicules in the axis, adding to the strength of this
latter; it issues from the shaft at about a right angle to this and
to the bigger cladus; it is a little backwards curved, only about
400 w long; it is nearly always thinner than the bigger cladus,
about 30 uw; in a few spicules it is entirely missing, thus giving
rise to orthomonaenes (fig. 4c). 3. Oxea (fig. 4d), long slen-
der, thickest in the middle, tapering to fine points, about 4000 x
52 w; they are found both in the main and the cloacal skeleton.
4. Oxyasters (fig. 4e) comparatively few in number; rays rather
slender, conical, ca. 16 w in total diameter. 5. Chiasters (fig. 4f)
with comparatively large sphere and short rays, which are not always
distinctly tyloted, 7—8 w in total diameter; they are exeedingly
numerous. 7. Trichodragmata (fig. 4 g), resembling scales of
butterflies, more or less truncated at one end, more or less pointed
at thefother;kaboutesE<r 675:

Donatia japonica (Soll.).

Tethya japonica Sollas 1888 (16).

For further synonyms vide Dendy 1916 (3) p. 262.

As I have no wish to accumulate the number of more or less
ill-defined species of the greatly varying genus Donatia, I have
tried to insert the several specimens of the collection from New-
Zealand in the specific limits given by Dendy in 1916 (3); as
a result of this all specimens seem to belong to Donatia japonica
(Soll.).

The diameter of the specimens ranges from 5—90 mm. I
shall give here som details of spicula-sizes, as it is of great inter-
est to know the variational range of a given species. It is an in-
teresting fact, that the styli are generally bigger in the larger, that
means older, specimens, ranging up to ca. 4000 w in the largest
ones.

Paterson Inlet, Stewart Island, The coast. 18/XI.1914. Styli up
to 1300 w, asters 19 w and 40—45 u. — Halfmoon Bay, Stewart
Island, the coast. 19/XI1.1914. Styli up to 1700 w, asters 45 w and
40 u. — Rangitoto, Auckland. The coast, under stones. 27/X11.1914.
Styli up to 1400 w, asters 15 w and 60 uw. — Bay of Islands. The
coast. 31/X11.1914. Styli up to 1000 u, asters 154 and 45 u. —-
2 miles East of North Cape. 55 fathoms. Hard bottom. 2/1.1915.

445

Styli up to 1200 w, asters 16 uw and 30 w. — 10 miles N.W. of Cape
Maria van Diemen. 50 fathoms. Hard bottom. 5/1.1915. Styli up
to 700 w, and asters 16 w, (I have found no big asters). Another
specimen from the same locality, but much larger, has: Styli up
to 4000 w, asters 12—15 w, and 70 uw (scarce). — Off New Ply-
mouth. 8 fathoms. Hard bottom. 12/1.1915. Styli up to 1800 mx,
asters 15 w, and 40 uw.

Hitherto known from several localities ranging from the Medi-
terranean to the Philippines; (vide for details Dendy 1916).

Suborder Sigmatotetraxonida.

Cinachyra novae-zealandiae nov. spec.
(Fig. 5 a—f.)

Hen and Chicken Island, Hauraki Gulf, 50 fathoms. Hard bot-
tom. 30/XI1.1914. 5 specimens.

Globular or somewhat elongated, largest specimen 15 mm in
diameter. The surface is strongly hispid on account of the spicula-
fibres lifting the dermal-membrane up into small conical elevations,
and piercing these at the top; this feature is easily seen with the
naked eye, as the spicula-tufts outside the sponge-surface reach a
length of one mm, or even more; small orifices in the dermal-
membrane, occur here and there, mostly hiding under an over-
shading spicula-tuft; they are leading into spacious cavities lying
just under the dermal-membrane, but over the cortex; these cav-
ities often appear as small tents between the spicula-tufts. Con-
sistence of the sponge hard; colour whitish. The ectosome is ca.
0,5 mm thick, in a section it appears bluish against the yellow
choanosome.

Skeleton typically radiate, consisting of long spicula-fibres run-
ning from the center of the sponge towards the surface right through
the dermal-membrane, making the surface strongly hispid; in the
interior the fibres are mainly made up of long slender oxea, while
the dermal-tufts are mainly made up of triaenes; in the ectosome
are placed shorter curved oxea, arranged almost perpendicularly to-
wards the surface as rows of palisades; the before mentioned der-
mal conical elevations, raised by the projecting main fibres, are to
a great extent filled up with small curved oxea, which are so placed,

446

that they lean towards the main fibres with their distal ends and
with théir convex sides towards the fibres; they resemble piles
of arms, lending a very characteristical appearance to a vertical

[2 8

'A

Cc /
a a 2
£ Cc
Fig. 5. Cinachyra novae-zealandiae nov. Fig. 6. Gellius regius, nov. spec.
spec. a. Anatriaene. b. Protriaene. c. Big a. Oxea. b. Sigmata. c. Toxa.

oxeote. d. Smaller oxea. e. Bayonetfor-
med oxeote. f. Siliceum-thread.

section of the sponge. Small oxea and curved siliceum-threads occur
everywhere in the sponge.

Spicules. 1. Anatriaenes (fig. 5a). Shaft very slender, straight
or curved in the distal part, about 2500X 18 wu. Cladi short, con-
ical, curved, width of cladome about 68 w. 2. Protriaenes (fig.

447

5b). Shaft slender, generally straight, about the same dimensions
as the anatriaenes, though often somewhat shorter. 3. Oxea (fig.
5e). Straight, slender, thickest in the middle, tapering towards a
sharp point; ca. 2200X 24 u. 4. Oxea (fig. 5d). Stout, curved,
thickest in the middle, tapering more or less evenly towards the
sharp points; varying from ca. 150—800 x 20—28 u; length in the
ectosome commonly about 650 w, in the dermal tufts about 400 w;
a few bayonet-like oxea (fig. 7e) are seen, perhaps of foreign ori-
gin, perhaps pathological forms. 5. Curved siliceum-threads
(fig. 5 f), up to 3000 w in length, but may be much smaller; some-
times they are assembled in bundles; I regard them as degener-
ated anatriaenes, since anatriaenes are met with, the cladomes of
which are very feebly developed, the shaft thin and curved, closely
resembling the siliceum-threads.

Gellius regius nov. spec.
(Fig. 6 a—c.)

Three Kings. 65 fathoms. Hard bottom. 5/1.1915.

One specimen forming a cake-like expansion with somewhat
irregular outlines; largest diameter ca. 65 mm, thickness ca. 4 mm;
a lobe of the sponge is rising perpendicularly to the main body,
ca. 20 mm high, 8X 14 mm thick and broad. Dermal-membrane
thin, shaggy from the numerous piercing spicules; big dermal cav-
ities and irregular canals are seen through it. Oscula numerous,
only situated at one side of the cake, 0,,—1 mm in diameter; no
surrounding elevations. Consistence hard, brittle. Colour (formaline)
greyish, with a reddish tint.

The skeleton is halichondroid; the spicules are lying pell-mell
in every direction, and rather dense, no indication of fibre-formation
being recognizable; no special dermal skeleton, not even so that
the spicules here may lie tangentially, but they are lying in every
direction, thus making, as before said, the surface shaggy. The
microscleres are found everywhere in the choanosome; the toxa
are rather scarce.

Spicules. 1. Oxea (fig. 6a), stout, a little curved, sometimes
only in the middle, sometimes the curvature may reach over the
entire length of the spicule; tapering gradually to the elegantly
pointed apices, only rarely the oxea are blunt; length varying,

448

about 560 w; thickness about 27 uw. 2. Sigmata (fig. 6b), very
regularly curved, seldom contorted, delicate, the apices rather abruptly
inwardly curved; 10—18% from curvature to curvature, thickness
1 uw. 3. Toxa (fig. 6c), elegantly arrowshaped, rather sharply bent
in the "middle; ”apices"al little "recurved; "ca "5S5

Gelliodes strongylofera nov. spec.
(Fig. 7 a—b).

Little Barrier Island. 30 fathoms. Shell-bottom. 29/XI11.1914.
Colville Channel. 35 fathoms. Sand, mud. 21/X11.1914. (The type).
Three specimens.

Typically barrelshaped; in all specimens several barrels are, by
a budding-process, issuing from the more or less lump-shaped
basis; largest specimen ca. 70 mm in its greatest extension; the

barrels up to ca. 35X18 mm, all bearing an oscu-
lum at the top; oscula from 1 to 5 mm in diameter;
ei the numerous subdermal cavities are seen as dark
Å VA spots through the dermal-membrane; they are up
a to 1 mm in diameter, giving the sponge a charac-
teristic appearance. Texture tough, elastic. Colour
le dark, with a reddish tint.

The skeleton is a coarse network of stout spicula-
fibres and spicula-lamelles, i. e. broad flat fibres; the
spicules are lying very densely, and cemented to-

BR msn gether by a little amount of very pale inconspicuous
nov. spec. spongin; the network is very irregular; the meshes,
SR SEREEN or rather the interstices between the fibres, are up to
ca. 600 uw in diameter; primary and secondary fibres
cannot be distinguished; the fibres and lamelles are up to ca. 400
w thick; they reach the dermal-membrane perpendicularly as well
as obliquely at any angle. Everywhere in the choanosome spicules
are scattered, both strongyla and sigmata. The dermal-membrane is
sustained by autogenetic spicules lying tangentially, as well as by
imbedded foreign particles; also the fibres and choanosome contain
foreign matter.

Spicules. 1. Strongyla (fig. 7a), straight or slightly curved,
cylindrical, with evenly rounded ends; 170—190X6—8 w. 2. Sig-
mata (fig. 7b), very numerous, often contorted, 10—20X 1 vw.

449

Gelliodes biformis nov. spec.
(Fig. 8 a—c.)

Colville Channel. 35 fathoms. Sand, mud. 21/X11.1914.

Two specimens, both with long, branching, cylindriform bodies,
one ca. 220 mm, the other 270 mm in length, at a diameter
of 4—7 mm; one is attached to a shell with an irregular root-
network, the other torn loose from the attachment; this latter spec-
imen has a curious outer aspect:
the oscula are nearly all situ-
ated on one side of the body,
with a mutual distance of 10—

SOMmmER they are ca2"mm' in
diameter, and situated on the
top of conical elevations varying
in length up to 6—7 mm; these C-
elevations may give origin to

new branches; at least one of É É (
the three branches is situated

exactly as the oscular elevations

issuing from the stem at exactly

the same angle as these obliquely

upwards. The former specimen

also has oscula, but of a smal-

ler diameter, and lying in a level > å ;

g Fig. 8. Gelliodes biformis nov.spec. a. Con-
with the surface of the sponge, necting flbre. b. Oxea. c. Sigmata.
not situated on elevations, and
not so regularly arranged, though one side of the cylinder is more
richly set with them. Surface very finely hispid from spicules pier-
cing the dermal-membrane perpendicularly. Texture soft, elastic.
Colour (formaline) light yellowish, stem darker, greyish on account
of incorporated foreign matter.

The skeleton is a coarse reticulation of spongin-fibres cored
with oxea; the meshes are more or less irregular, up to 650 w in
width; the main fibres are only slightly thicker than the connecting
ones (ca. 52 u as against ca. 40 4), but they are generally poly-
spicular, whereas the connecting fibres are one- to bispicular (fig.
8a), the main fibres are on a transverse section seen to radiate
towards the surface in a more or less pronounced perpendicular

Vidensk. Medd. fra Dansk naturh. Foren. Bd. 77. 29

450

way, but they never run unbroken from the center to the surface,
they are' always here and there bent and fusing into secondary
ones.

Spicules. 1. Oxea (fig. 8b), slightly bent, cylindrical for the
greater part; the apices sharp-pointed, rather abruptly set off. Length
from 78—91 w often 81 w, thickness ca. 6 u. 2. Sigmata (fig.

8c), evenly C-shaped, seldom a little contorted, rather
scarce; 26—34 u from curvature to curvature, ca. 2 w
thick.

This species is closely related to G. flagelliformis
Brstd., and G. filiformis Brstd., both from the South Sea
(Auckland- and Campbell Islands) (Brøndsted 1923.
(1)); the -oxea are pointed as in the latter, of even

'" thickness as in the former, a little larger than in both
forms. Perhaps they will prove to belong to the same
species when more extensive material is at hand.

Halichondria reticulata nov. spec.
(Fig. 9.)

Wellington Harbour. 5—10 fathoms. Hard bottom.
toro

One specimen, lumpshaped; growing on a little
stone and a shell. 5 mm high. Dark-brown. Surface
glabrous. With a pocket-lens one can see the very
beautiful reticulate dermal-skeleton through the thin
dermal-membrane. Numerous oscula are spread over
the surface; they are from ”/4—1 mm in diameter;
the oscular rim is slightly elevated, made firm by the
densely packed spicules in it. Consistence firm.

Bo neg Skeleton. The main skeleton consists of fairly well
ticulata, developed spicular-fibres running in every direction,
mneete though tending to reach the surface under more or less

right angles; the distal ends of these fibres embrace
the very numerous dermal-cavities. The fibres are of various thick-
ness, the spicules lying in rows of one to, say, ten, side by side.

Many isolated spicules lying pell-mell give, however, the typically

Halichondrioid aspect to the skeleton. The dermal skeleton is sup-

ported by the main one; it is beautifully developed; the oxea are

451

lying paralell with the surface in fibres splitting out and crossing
each other so as to form a polygonal network; also here, however,
are isolated spicules veiling the picture.

Spicules. Oxea (fig. 9), slightly and evenly curved, typically
intithemiddle: from" here fhe spicules taper very evenly to the
very sharp points. Dimensions: 150—500 < 8—14 4; typically
450 X 12 uw.

The species comes very near to H. panicea, but is clearly dis-
tinguished by the well defined spicular-fibres, especially those of
the dermal-membrane.

Halichondria panicea Johnst.

This cosmopolitan sponge we have from two localities: Bay of
Islands. The coast, under stones. 1/1.1915. Several damaged spec-
cimens. Off New Plymouth. 8 fathoms. Hard bottom. 12/1.1915.

Reniera pulcherrima nov. spec.
(Fig. 10.)
Colville Channel. 35 fathoms. Sand, mud. 21/X1[.1914. One
specimen.
Erect, branched, hollow cylinders, 30 mm high, ca. 4 mm in
diameter; wall only ca. 0,5, mm thick. Oscula, ca. I mm in dia-
meter, at the top of the cylinders. Dermal-membrane
thin, supported by a beautiful dermal reticulation of
spicules. If the sponge be held against the
light, one may easily with a pocket-lens
see the fibres of the main skeleton running
in the wall of the cylinders from base to
summit.
The skeleton consists of 1. the main
skeleton, just mentioned, composed of long-
itudinal, stout, polyspicular fibres, every now
and then connected by fibres at acute angles,
-+ and by unispicular fibres at every angle;
main fibres 150—200 w thick and ca. 300
w apart; and of 2. the before mentioned. Fig 11. Reni-
Fig.10. Reni- dermal-skeleton; this consists of spicules Se Rag,
era pulcher- forming a Renieroid reticulation with irre- On

rima nov. ig E
spec. Oxea. gular meshes; the layer is very thin. 99%

452

Spicules. Oxea (fig. 10), evenly curved in the middle third,
cylindrical; only the apices are conically set off, very sharp-pointed ;
size rather constantly 260X 13 mu.

In external form this specimen resembles R. aquaeductus Schm.
(15), but it is strongly marked off from that species by the con-
struction of the skeleton. In its spiculation it also comes near to
R. clavata Levins. (10) and R. hyalina Ldbck. (12), but the fibres
are very different in construction.

Reniera cinerea Grant.

This cosmopolitan sponge we have from two localities. Port
Pegasus, Stewart Island, the coast, under stones. 22/X1.1914. Slip-
per Island, the coast, at low water. 20/XII,1914. The length of
the oxea varies from 125—160 w.

Reniera scyphanoides Lamk.
(Fig. 11).

Spongia scyphanoides Lamarck. Ann. Mus. Hist. Nat. V. 20, p. 437.

Reniera scyphanoides Lindgren (12), p. 7.

Off New Plymouth. 8 fathoms. Hard bottom. 12/1.1915.

This is apparently a very heterogeneous species, and is very pro-
bably to be divided up into two or three distinct species. Provi-
sionally I incorporate our specimens into the species, as they all
fall within the variations given by Lindgren 1909 (12). There
are three specimens, erect, hollow cylinders, up to 15 mm high,
2—3 mm in diameter, walls ca. 0,5 mm thick. White; resembles
a calcareous sponge. Dermal-membrane very thin.

Skeleton. The main skeleton consists of densely packed spicula-
fibres, ca. 60—70 u thick, which support the body-wall, partly run-
ning parallel with the long axis of the sponge, partly perpendicularly
to the surface as short thick bundles of spicules. The dermal-skele-
ton is a one layered reticulation supporting the dermal membrane,
and resting upon the points of the transverse bunches from the
main skeleton.

Spicules.. Oxea (Fis 11) can 160SS 73; rather sto uten
drical, tolerably evenly curved in the middle part; apices short,
conical, sharp-pointed. As will be seen, the oxea are here a little

453

longer than in Lindgren's specimen (130 4%) and thicker (Lind-
sren 6 4). Ridley (13) has. 210 %X 11 pm.
Hitherto known from the Red Sea, South China Sea and Au-

stralia.
Reniera clathrata Dendy.

Reniera clathrata Dendy (2), p. 237.

Ø Eg Brøndsted (1), p. 125.

Queen Charlotte Sound. 3—10 fathoms. Hard, in places soft
bottom. 19—20/1.1915. Also from Long Reef, N. of Port Jack-
son; at low water. 29/X.1914.

From the first locality we have one specimen covering a shell,
from the second several specimens. Dimension of the oxea, first
locality, 90—105 X 6 wu, second locality, 80—95 X 4 u.

Hitherto known from Port Philip Heads and Campbell Island.

Reniera laxa Ldbck.
Renierallaxa Lundbeck (12) "p46;"P1 TIT føig:"6; PI: XT fig 135:
z Brøndsted DEDE ELEG:
Colville Channel. 35 fathoms. Sand, mud. 21/X11.1914.
One damaged specimen, encrusting as a 1—3 mm thick layer
on a shell; R. laxa seems otherwise typically to be barrelshaped.
Skeleton fibres hardly to be seen, the skeleton consisting of a
rather irregular reticulation; in the typical form the fibres are
easily to be seen; I think, that the lack of clearly marked fibres
is due to the encrusting habit of our specimen. The shape of the
oxea is identical with that of the specimen from the Campbell Isl.
(Brøndsted (1)); size 190—200 < 7—8 w, a little more slender
than the type.
Hitherto known from North of Iceland and the Davis Strait
(Lundbeck) and Campbell Isl. (Brøndsted).

Petrosia coralloides Dendy.

Petrosia coralloides Dendy (7), p. 324, Pl. XI fig. 1 and 1 a.

2 miles E. of North Cape. Hard bottom. 55 fathorms. 2/1.1915.

There is one fragment of this beautiful and interesting sponge
agreeing in every respect with the description given by Dendy;
the fragment seems to be a piece of just such a shallow cup as
figured by Dendy. The fragment in hand is 50-—80 X< 6 mm.

Hitherto known from near Three Kings Isl.

454

Pachychalina conica nov. spec.
(Fig, 12.)

Slipper Isl. The coast, at low water. 20/X11.1914.

Several fragments consisting of irregular, cylindrical branches,
sometimes fused into one another. 8—18 mm in diameter, largest
dimension in length ca. 50 mm. Dermal-membrane exceedingly
fine and delicate, with numerous small ostia; oscula ca. 2 mm in
diameter, with a mutual distance of ca. 8 mm; they are situated
on small conical elevations leading into the cylindrical cloacal ca-
vities of the same width. Colour yellowish, texture soft, elastic;
surface smooth, but not quite glabrous.

VU

Fig. 12. Pachychalina conica nov. Fig. 13. Pachychalina af-
spec. Variously ended Oxea. finis nov. spec. Oxeote.

Skeleton consists of spongin-fibres building a network with rather
irregular meshes; the spongin is very pale; it contains the spicules
which are generally completely enveloped therein; they are lying
rather densely, overlapping one another, 1—5 or 6 in the row;
one can scarcely speak of main and connecting fibres, though as
a matter of fact, the fibres running towards the surface, taken as
a whole, are a little heavier than the other fibres; the meshes
are from ca. 15 w to ca. 55 w broad. No special dermal-skeleton
is to be seen.

Spicules. Oxea (fig. 12), of a peculiar form, slightly curved,
thickest in the middle; the apices are more or less conically set
off. Some strongyla of the same dimension as the oxea are found.
Cai Oo Ren

455

Pachychalina affinis nov. spec.
(Fig. 13).

Little Barrier Island. 30 fathoms. Shellground. 29/X11.1914.
Colville Channel. 35 fathoms. Sand, mud. 20/XI11.1914.

Three specimens, the one very beautiful; copiously ramified
with cylindrical branches, total length ca. 420 mm, diameter of
branches ca. 8 mm. Numerous oscula on a level with the surface,
1—1,5 mm in diameter, occurring mainly on one side of the bran-
ches, although some may be found on the opposite side. Texture
tough, elastic. Colour (formaline) yellowish grey.

The main skeleton consists of a rather dense reticulation of stout
spongin-fibres, of a thickness of about 60—80 4; this holds good
for both primary and secondary fibres; the only difference between
the two sorts of fibres being that of the spicules enveloped in the
fibres: the oxea are polyserially arranged in the main fibres,
mono- or biserially in the secondary fibres. The meshes are toler-
ably rectangular, width about 500 uw. The primary fibres are run-
ning perpendicularly towards the surface, so that in a transverse
section of the sponge they roughly resemble spokes in a wheel.
The dermal-skeleton forms a more irregular network of fibres,
which are, as a whole, a little narrower than the fibres in the
main skeleton, and always with only uni- or biserially arranged
oxea.

Spicules. Oxea (fig. 13), about 70: 6%, cylindrical, with rather
sharply set, pointed apices.

This species comes very near to Euchalina exigua Lendf.
(Dendy 4 & 7); it differs from that species in having slightly
stouter fibres (exigua 40 4), larger diameter of the meshes (exigua
100 4), and the spicules somewhat shorter but thicker (exigua 90
X 2 u). It is also related to Chalina ramosa Gray, which forms,
together with Euchalina exigua Lendf. and Pachylina elongata Ridl.
and Dendy, a little group of nearly allied species.

Pachychalina lunae nov. spec.
(Fig. 14.)
Halfmoon Bay, Stewart Island. The coast. 19/X1.1914. Puhoi
Rock, Hauraki Gulf. The coast, under stones. 29/XI1.1914.
Three specimens; only fragments, which are of irregularly

456

roundish appearance; ca. 25X 15% 15 mm. Dermal-membrane very

delicate, pierced by small, numerous ostia, ca. 0,15 mm in dia-

meter; oscula situated at one side, ca. 2 mm in diameter, sur-
rounded by a low crater wall; cloacal cavities ca. 2
mm in width. Surface slightly granulose, on account of
the numerous primary fibres raising the dermal-mem-
brane. Texture soft, elastic. Colour light grey or yel-
lowish.

Skeleton consists of an irregular reticulation of fibres
up to ca. 100 & thick; one can scarcely distinguish
between primary and secondary fibres; only just be-
neath the surface are fibres to be discerned running
distinetly perpendicularly towards the surface, raising it
into the before mentioned small granules. Width of
meshes varying about ca. 250 u. The fibres contain
only comparatively little spongin; the spicules in the
outer layer are often almost free from spongin, which
is, besides, very pale and difficult to observe; thus the
spicules are everywhere forming the greater part of
the fibres. Many spicules, especially developmental

Fig Po: forms, are lying scattered in the choanosome between
chychalina the fibres. No special dermal-skeleton is to be seen.
KK eRDG Spicules. Oxea (fig. 14), ca. 120X 9—10 w; they
are slightly curved, the grown-up spicules cylindrical,

tapering in the last fourth into the sharp points.
This species comes very near to Pachychalina conica, though di-
stinctly marked off from that species by the form of the spicules.

Tetrapocillon vov. gen.

Esperellinae with peculiar microscleres (tetrapocilli).
Megascleres monactinal. No special dermal-skeleton.
IsolcheFaemavrkocceer

I propose to include in this new genus sponges with Esperelline
skeleton possessing the verv interesting and characteristical tetra-
pocilli. I have not been able to find these peculiar spicules men-
tioned anywhere in the literature. The following species is not
unique; I have at my disposal a sponge from Port Western, Vic-
toria, containing just the same tetrapocilli, and also in any other
respect this sponge may be referred to the new genus; (I hope in

457

a future paper to have the opportunity of taking the question up
again in dealing with sponges collected by Dr. Th. Mortensen
in the Australian seas). It is very interesting that the tetrapocilli
are found as foreign bodies in several sponges from the locality:
PAmilest E" of North" Cape; N:Z>1915:

Tetrapocillon novae=zealandiae nov. spec.
(Fig. 15 a—f.)

Slipper Isl. The coast, at low water. 20/X11.1914.
One fragment; seems to have been encrusting and then torn
loose from the body of attachment; it is forming a cake-like expan-

Fig. 15. Tetrapocillon novae-zealandiae nov. spec.
a. Styli. b—e. Tetrapocilli. f. Isochelae.

sion, ca. 3 mm thick, 30 mm and 25 mm in the other dimensions.
Consistence like felt. Surface finely granular. Colour black, though
the interior of the sponge light grey. Some few openings, ca. 0,8

458

mm in diameter are seen, but I think they are made by foreign
organisms.

The skeleton consists chiefly of scattered monactines, which are
however here and there forming distinct fibres, ca. 60 w thick;
there is no special dermal-skeleton.

Spicules. a. Megascleres. Styli or subtylostyli (fig. 15 a),
straight or slightly undulated; generally thickest in the middle,
apex sharp-pointed or sometimes blunt; 260—325 X 10 u. b. Mi-
croscleres. 1. Tetrapocilli (fig. 15b—e). It will be convenient
to start the description with the young stages (fig. 15b); here the
spicule is distinctly seen to consist of a cylindrical shaft, which
appears as formed by two parts, both nearly semicircularly curved
and cemented together with end towards end; it appears so, but I
think, that the two parts are really one spicule built in one cell;
then both ends expand, forming disc-like plates, which are placed
nearly, but never quite, at right angles to the axis of the shaft,
and both to the same side. Also in the middle of the shaft two
plates are being formed, which, so far as I am able to see, begin
as separated, but later coalesce with their outer rim; they are
standing perpendicularly towards the axis of the shaft, directed to-
wards the same side as the terminal plates. The perfect spicules
(fig. 15c—e) is then completed so, that the rim of all four plates
is growing obliquely inwards as a fine lamella; thus four cups are
built, situated in couples, with their hollow sides to each other,
quite as if two JIophon-bipocilli were cemented together with the
ends. Length from 40—80 4, ca. 50 uw the most common. 2. Iso-
chelae (fig. 15f), of common form, very thin and delicate, ca.
15 w long.

Guitarra bipocillifera nov. spec.
(Fig. 16 a—f.)

Colville Channel. 35 fathoms. Sand, mud. 21/X11.1914.

Several specimens; the largest one measures 290 X 65 X 32 mm;
they are all roundish lump-shaped, the smaller ones nearly globular.
The surface has a very characteristic appearance: it looks as if some
animal had been gnawing shallow furrows all over the sponge, these
furrows now and then expanding to broad patches; in this way small
and big fislands" are formed; the furrows are 0,,—1 mm deep, and
from a fraction of a mm to several mm broad; the dermal-mem-

459

brane is covering both furrows and "islands”", it is very thin and
delicate; in the furrows it covers spacious dermal cavities and ca-
nals, and only here are situated the oscula (and ostia?), which are

up to 1 mm in diameter. The surface is all over
very finely hispid. Texture rather firm, somewhat
crumbling. Colour dirty grey with a reddish tint
in the bigger specimens (formaline), light grey in
the smaller ones (spirit).

The skeleton is a triangular reticulation of spi-
cula-strands ; the sides of the meshes are ca. 450 4,
the strands are ca. 60 uw thick; no distinction be-
tween primary and secondary fibres can be drawn;
many megascleres are scattered disorderly every-
where in the soft tissues; in one of the examined
specimens this condition is the prevailing one, so
as to nearly extinguish the before mentioned re-
gular reticulation.

Spicules. a. Megascleres. Oxea (fig. 16a) long,
slender, straight or nearly so, often a little irre-
gularly undulated, the apices rather abruptly set
off; up to ca. 450 u in length and ca. 9 w thick;
a few styli of about the same dimensions are seen-
bællseroselere MP Tac holc helet (føl DE),
the ordinary Guitarra-form, varying in length from
407100%:2: Bipocilli (fig. 16d—f); seen in
side-view they closely resemble sigmata, and, in
fact, I first took them for sigmata, only two feeble
transverse lines, dividing the shaft in three parts,
show that we here have to deal with cheloid spi-
cules. The shaft is C-shaped, the distal third ex-
panding into a shallow cup with nearly circular
margin; the cups are obliquely placed towards
the middle portion of the shaft; the bipocilli are
10—14 uw long. These spicules are exceedingly
delicate, and their real nature easily overlooked.
It is very interesting to meet these Iophon-like
spicules in quite another genus.

aa
Fig. 16.

Guitarra
bipocillifera nov.

a. Oxea. b.
Side-view of pla-
chochel. c. Front-
view of plachochel.
d. Side-view of bi-
pocilli. e. Front-
view of bipocillon.
f. Half front, half
side view of bips-
cillon.

spec.

Perhaps the sigmata of some of

the other described Guitarra-species will prove to be of the same

nature.

460

Desmacidon novae=zealandiae nov. spec.

(Fig. 17 a—d.)

Off New Plymouth. 8 fathoms. Hard bottom. 12/1.1915.

One specimen, irregularly and thickly encrusting on a shell;
greatest extension ca. 30 mm, about 5 mm thick. Surface very
minutely hispid. Ostia very numerous, about 40 mm in diameter;

GAD

z)
H)

Fig.17. Desmacidon
novae-zealandiae
nov. spec a. Oxea.
b. Front-, c. Side-,
d. Half front-, half
side-view of Isan-
chorae unguiferae,

a few minute oscula with slightly elevated mar-
gins, about 0,3 mm in diameter are found. Texture
tough, colour whitish.

The skeleton consists of stout polyspicular fibres
arranged more or less radially; they are somewhat
serpentined, running more or less perpendicularly
towards the surface, where they expand to tufts
making the dermal-membrane hispid; in the interior
they here and there coalesce and branch; they are
up to ca. 200 wu in thickness; isolated oxea are
seen throughout the choanosome.

Spicules. a. Megascleres. Oxea (fig. 17 a)
rather slender, straight, evenly tapering towards
the pointed ends, about 350 X 6 u. b. Micro-
scleres. Isanchorae unguiferae (fig. 17 b—d),
very delicate, strongly curved; the lateral teeth
are standing almost vertically outwards and are
rather long, which fact makes the anchorae broad.
12—14 w in length.

This species seems to be somewhat related to
Desmacidon maeandrina Kirkp. (8), Desmacidon
intermedia Dendy (2) and D. (2?) ramosa R. & D.

(14), the latter having radially arranged fibres like the species in

hand.

Iophonopsis Dendy.

Iophonopsis Dendy (4), p. 348.

I follow Dendy in his establishment of this new genus. Dendy
has on p. 348 "usually acanthostyles, but sometimes smooth (?)",
which (?) now has to disappear.

461

Iophonopsis major nov. spec.
(Fig. 18 a—h.)

Stewart Island. Ca. 35 fathoms. Sand and mud. 20/X1.1914.
Little Barrier Island. 30 fathoms. Shell bottom. 29/X11.1914.
Colville Channel. 35 fathoms. Sand, mud. 21/X11.1914.

There are several specimens from both the North- and the South-
Island, which seems to indicate, that the species may be found also
in intermediate places at the coast of New-Zealand. The sponge
is apparently encrusting when
young, but more or less erect oS
and branching when growing older; h
we have both encrusting specimens
on shells, encrusting ones sending
off an erect cylindrical outgrowth,

and one beautiful branched spec- 2
imen; this latter is the biggest
one and attains a length of ca. (95
65 mm; the branches are sub-
cylindrical, often somewhat flat- z
tened at the apex, 5—15 mm in cd
diameter. The surface is smooth; VA É FA
z å

the dermal-membrane tough, on

; Fig. 18. Iophonopsis major nov. spec.
account of the strongyla lying a. Styli. bb. Subtyløstylote. c. Acan-

therein. Oscula few and scattered, thostyli. d. Tylota. e. Ends of Tylote.
; f. Side-. g. Front-view of Anisochelae.

on a level with the surface, ca. 0,8 i Ey gdI

mm in diameter. Texture soft,

elastic. Colour (both spirit and formaline) dark or even black, though

a little lighter in the interior. The pigment is in sections easily

seen as dark branched sacks.

The skeleton is built up of smooth styli. Main skeleton typi-
cally consists of stout primary spicula-fibres, ca. 65 w thick, run-
ning up through the sponge and bending vertically towards the
surface, connected ladderlike by transverse spicules lying in bundles
of a few together; in this way a coarse reticulation is made up of
rather square meshes, the sides of which are the length of one spicule;
but this rather regular edification is disturbed by isolated spicules
lying pell-mell, sometimes so densely, that they nearly extinguish
the regular picture of the reticulation; the main fibres can, how-

462

ever, always be made out. The fibres are never plumose; in a
few cases they are so clear-cut, that they are seen as compact
spicula-columns running a rather long course without any spicule
breaking out. When the main fibres reach the surface, they gener-
ally break up so as to form fan-spread spicula-tufts sustaining the
dermal-membrane. The dermal-skeleton is an one-layered tangent-
ially arranged reticulation of tylota.

Spicules. a. Megascleres. 1. Styli (fig. 18a—b), smooth, form-
ing the main skeleton, more or less regularly curved, tapering
evenly to the sharp-pointed apex; middle length ca. 260 w by a
thickness of 10 uw. 2. Acanthostyles (fig. 18c), very scarce, not
echinating the fibres, straight or a little curved, coarsely spined all
over, thickest at the base, evenly tapering to the apex; 100X 6 uw.
3. Tylota (fig. 18 d—e), with slightly spinous heads, straight or
a little curved, slender; shaft of even thickness all over; 260X 10 um.
b. Microscleres. 1. Anisochelae (fig. 18f—g) of the usually Iophon-
type; 14—20 w in length, 4—5 w broad. 2. Bipocilli (fig. 18h),
very scarce, 6—8 w.

Iophonopsis major nov. spec., var. tenuis nov. var.

Port Pegasus, Stewart Island. Ca. 25 fathoms. Clayey mud.
20/X1.1914.

One specimen, encrusting on a shell. Colour light greyish.
Skeleton almost as that of I. minor. The spicular set is the same
as that of I. major, but the dimensions of the spicules differ in the
following points: Smooth styli ca. 230 uw; tylota ca. 230 u;
anisochelae exceedingly numerous; bipocilli very numerous,
Cal 0u

Iophonopsis minor nov. spec.

Wellington Harbour. 5—10 fathoms. Hard bottom. 16/11.1915.
North Channel, Kawaii Island. Hauraki Gulf. .10 fathoms. Hard
bottom. 29/X1[.1914. Little Barrier Isl. 30 fathoms. Shell-bottom.
29/X11.1914. Colville Channel. 35 fathoms. Sand, mud. 21/X11.1914.

Several specimens. Encrusting or branching, with cylindrical
or flattened or irregularly formed branches, which often coalesce;
largest specimen attains a length of ca. 400 mm; it consists of
irregularly flattened branches growing in one plane, and coalescing

463

in several places, provided with rounded subglobular outgrowths.
Surface glabrous, though a little roughish to the touch, on account
of the contracted state of the dermal-membrane, whereby this latter
attains a finely granular appearance when seen under an ordinary
pocket-lens. Oscules scattered, few, ca. 1 mm in diameter. Texture
soft, elastic, rather tough. Colour dark brown to greyish brown.

The skeleton resembles that of I. major, but is not so regularly
square-meshed; in fact, secondary fibres are only very feebly de-
veloped, in most places substituted by scattered spicules; as a
whole the skeleton appears more diffuse than that of I. major; in
the few cases where meshes are formed (this being the case mostly
under the surface) the sides of these latter are two to more spi-
cules in length. The dermal-membrane is sustained by spicula-tufts
from the main skeleton, just as in /. major. The dermal-skeleton
also like that of I. major: a diffuse reticulation of one-layered tan-
gentially placed tylota.

Spicules. There is found the same spicular set as in I. major,
except the acanthostyles, which I have not been able to find. The
megascleres are all much smaller: The smooth styli about 145 X
8 uw; tylota ca. 150<8 wu; thus both forms of megascleres are re-
latively stouter than in I. major. The isocheles are 10—16 w;
the bipocilli, very scarce, (I have only seen a few), 6—8 vw.

This species is evidently closely related to I. major, and most
probably the var. fenuis is an intermediate form, thus indicating
the possibility, that all three forms may be one and the same
species, which will in that case have a wide variational range.

Microcionia novae=zealandiae nov. spec.
(Fig. 19 a—e.)

Slipper Isl. The coast, by low water. 20/X11.1914.

One encrusting specimen, growing as a 0,5 mm thick brownish
layer on a stone; the surface is, when seen against the light, finely
shaggy, as if covered with an exceedingly fine velvet of projecting
spicules.

The skeleton can hardly be said to consist of fibres, these being
represented by plumose brushes of big styli going from the stone
vertically outwards and piercing the dermal-membrane. From the
base and half way up the brushes small acanthostyles are radiating

464

horizontally outwards, with their apices nearly touching the neigh-
bouring brushes; seen from above the skeleton therefore appears
as if it were reticulated with mostly triangular meshes, the sides
of which are made up of small acanthostyles. The tylostyli are
dispersed through the body of the sponge seemingly without order.

Fig.19. Microcionia novae- Fig. 20. Microcionia heterospiculata nov. spec. a.
zealandiae nov. spec. a. Spicula-tufts. bb. Bigger acanthostyli. c. Small
Subtylostylote. b. Acan- acanthostylote. d. Subtylostylote. e. Front-, f. Side-
thostylote. c. Tylostylote. view of isochelae. g—m. Various developmental
d. Isochele. e. Smaller stages of abnormal isochelae.

isochele.

Spicules. a. Megascleres. 1. Subtylostyli (Fig. 19a), with
slightly spinous heads, a little curved, evenly tapering to the sharp
points; 260—300X 12 u. 2. Acanthostyli (fig. 19b), a little
curved, of even thickness in the greater part, spined all over, ca.
90—140X11 u. 3. Tylostyli"(fg19€c),”straight "or fnearlyksor
evenly tapering to the sharp points; heads sometimes rather feebly
developed. 260X6 u. b. Microscleres. 1. Isochelae (fig. 19d),
strongly curved, ca. 30—34 u. 2. Isochelae (fig. 19d), slightly
curved, 10—18 vw.

465

Microcionia heterospiculata nov. spec.
(Fig. 20 a—m.)

Colville channel. 35 fathoms. Sand, mud. 21/X11.1914. ;

One specimen encrusting on a shell, as a 0,3 mm thin layer.

The skeleton consists of spicula-tufts, raising perpendicularly
from the body of attachment (fig. 20a); they are built of acantho-
styli, the bases of which are imbedded in short stout spongin-
columns: the tufts are standing so close to one another, that the
spicules often overlap one another from neighbouring columns; the
subtylostyli are for a great deal scattered irregularly throughout
the body, but in many places they are arranged as small brushes
together with and partly continuing the acanthostyli-tufts. Both
forms of microscleres are scattered abundantly in the choanosome.

Spicules. a. Megascleres. 1. Acanthostyli (fig. 20b—Cc), the
base often subtylostylote; the bigger ones only spined at the base,
the small ones spined all over; they are slightly curved, tapering
evenly to the sharp points; length varying from ca. 80—400 u,
a common length is 300 uw; thickness up to ca. 14 u. 2. Sub-
tylostyli (fig. 20d), or styli, with rounded base, tapering evenly
towards the sharp points; straight or only a little curved; length up
to 320 X 4 w in thickness. b. Microscleres. 1. Isochelae (fig.
20e—f), of the usual type, only a little curved, length 10-—15 uw.
2. Abnormal Isochelae (fig. 20g—m), these bodies are of a
very strange shape; they somewhat resemble the curious micro-
scleres figured by Dendy (6) on plate 14, fig. 4. Accordingly I
have tried them with water after thé method of Dendy 1916 (4),
but they do not seem to be of the same nature as the colloscleres;
they seem to have developed from isochelae without fimbriae or
broad teeth, or even beginnings thereto. I have seen such imper-
fect chelae, whose teeth have not yet coalesced; and there are
others the teeth of which have coalesced, so as to form oval rings;
the foramen, which is being built in this way, is then filled up
more or less with siliceous matter forming a more or less conti-
nuous lamella. Length 12-—18 u. These curious bodies also re-
semble the clavidises of Merlia, thus perhaps giving a clue to the
origin of these spicules. At any rate the occurrence of degenerated
chelae, as I think they are, in the genus Microcionia is extremely
interesting.

Vidensk. Medd. fra Dansk naturh. Foren. Bd. 77. 30

466

Microcionia pyramidalis nov. spec.
(Fig. 21 a—d).

Slipper Isl. The coast, at low water. 20/X11.1914.

Encrusting as a 0,5 mm thick layer on a stone. Surface finely
hispid; colour brownish.

Skeleton in places consists of brushes formed by acanthostyles,
but more frequently the acanthostyli are standing isolated with the
base on the stratum of the sponge-attachment, and
pointing vertically upwards; sometimes many styli
are standing pretty close together, the biggest ones
in the middle, thus expressing a certain tendency to
build brushes; in this way the skeleton becomes
much more irregular in appearance than in the other
two just described Microcionia-species. The tornota
are scattered seemingly without order, but are rather
abundant everywhere; the same is the case with
the isochelae.

Spicules. a. Megascleres. 1. Acanthostyli (fig.
21a—b), evenly tapering to the sharp points, a little
curved; length varying from about 90 to 300 mx, by
a thickness "of up to 117557 The" largerfonest (com:
monly about 260 w in length) are slightly spinous,

Fig. 21. Micro-
cionia pyrami-
dalis nov. spec. and only in the first third; the smaller ones are
a. Big acantho-
styli. b. Small
acanthostylote.. every intermediate form occurs. 2. Tornota (fig.

comparatively coarser spined, and spined all over;

c:.«Tornota.. d:

FE ANES 21c), smooth, nearly straight, ca. 160—170X4 u;

they are the thickest in the middle, from here taper-
ing evenly towards the one end, but only very little towards the
other end, which is then conically set off, often a little head-like.
Sometimes this end is blunt, so that the spicule is not to be dis-
tinguished from styli in outer appearance. b. Microscleres. 3. Iso-
chelae (fig. 21d), with evenly curved shafts, short tooth and fim-
briae, 16—30 wu, often ca. 20 u.

Anchinoé novae=zealandiae Dendy.

Anchinoé novae-zealandiae. Dendy (7) pag. 360 Pl. XII. fig. 2; Pl. XV,
figs. 9—11.

Wellington Harbour. 5—10 fathoms. Hard bottom. 16/11.1915.

Little Barrier Isl. 30 fathoms. Shell bottom. 29/X11.1914. Off New

467

Plymouth. Hard bottom. 12/1.1915. Queen Charlotte Sound. 3—10
"fathoms. Hard, in places soft bottom. 19/1.1915. Paterson Inlet,
Stewart Isl. 5—15 fathoms. Soft bottom. 17/X1.1914.

There is plenty of material of this beautiful sponge, all closely
agreeing with the description giving by Dendy; several specimens
" are encrusting; the only difference is that the tornata here are up
to 200—210 vw.

The name 'novae-zealandiae' has, indeed, proved to be a very
adequate one, since we have specimens from the North- to the
Southend of New-Zealand, giving the evidence also, that the spec-
ies is a very good and constant one.

Hitherto known from off North Cape, N. Z.

Anchinoeé affinis nov. spec.
(Fig. 22 a-e).

Wellington Harbour. Ca. 5 fathoms. Mud. 16/11.1915. Off New
Plymouth. 8 fathoms. Hard bottom. 12/1.1915.

Three specimens; the two encrusting as thin layers; the third
(from Wellington) oblong roundish, pointed at both ends; the sponge
has apparently been freely growing, only attached at one end;
it is ca. 35 mm long, 13 mm thick.

This specimen has a very character-
istic appearance: The ostia are placed d
on distinct circular areas up to one |)
mm in appearance, surrounded by .
i £

a low wall; the whole figure is very
much like a low crater, up to 3 mm
in diameter including the walls; the
ostia are 20—30 u in diameter. The
dermal-membrane is very thin,trans-
parent; through it can be seen sub-
dermal-cavities and canals. Colour
whitish. Consistence elastic, tough.

The skeleton consists of long cur-
ved fibres, frequently splitting up
into several branches, which join 5
other fibres at acute angles; the pig. 22. Anchinoé affinis nov. spec.
BER EEES REer freeer
and are built up of the smooth of isochelae.

30=

aa

468

megascleres, more or less echinated by acanthostyles; spongin very
scarce; the fibres are running obliquely towards the surface, there
giving off tufts of smooth diactines sustaining the dermal mem-
brane. Everywhere in the choanosome are scattered smooth mega-
scleres. In the dermal-membrane lie several isochelae, and some-
times a good deal of acanthostyli arranged tangentially and in one
layer. The above mentioned walls surrounding the ostia-areas are
sustained by tangentially arranged smooth diacts, placed so as to
point towards the centre.

Spicules. a. Megascleres. 1. Smooth, nearly straight diactines
(Eg. 22a—b), ca. 320X5—6, variously ended: as strongyla, tylota,
tornota; sometimes the two ends are so unlike one another, and
the one blunt, as not to be distinguishable from styli. 2. Acantho-
styli (fig. 22c), from ca. 90—180 X 13—14 u, the smaller forms
very coarsely spined. b. Microscleres. Isochelae (fig. 22 d—e),
of common form, strongly curved, ca. 26 u.

The fact that this sponge is found at two distinct localities at
a comparatively long distance from one another, and in both local-
ities together with the foregoing species, seems to justify the erec-
tion of the sponge as a distinct species, and not merely as a vari-
ation of the former.

Myxilla crelloides nov. spec.
(Fig. 23 a—d).

2 miles East of North Cape. 55 fathoms. Hard bottom. 2/1.1915.

One large specimen. Very richly ramose; branches 3—4 mm
thick, often somewhat flattened, or otherwise a little deviating from
the purely cylindrical shape; total length of the specimen ca. 230
mm. Oscules very small and inconspicuous, scattered, rather scarce.
Surface just a little rough to the touch. Consistence hard but brittle;
colour (formaline) dirty reddish.

The skeleton is a dense reticulation of acanthostyles, only very
faint tentatives to fibre-formation can be seen; meshes often rather
triangular, the sides built up of one or a few spicules, but onlv
of one spicule's length. Here and there are tylota found irregularly
distributed; these latter spicules are forming brushes under the
dermal-membrane; otherwise no special dermal-skeleton is to be
found; the acanthostyles are even møre scarcely distributed in the

469

.dermal- than in the main skeleton; only the isanchorae are found
in a very great number in the dermal-membrane; hence no crel-
loid crust is built.

Spicules. a. Megascleres. 1. Acan-
thostyles (fig. 23a), generally thickest
at the base, where they are also most
coarsely spined; from the base in most |
cases a little tapering to near the apex,
which is markedly set off; the longer
styli are often without spines in the last || |
fourth; length varying from ca. 90—210
w, commonly about 145 4, by a thick-
uesskofge 12704. 2 Ty Tot (f2g--23 5),
straight or nearly so, with beautiful oval
heads; they are often slightly swelled in |
several places on the shaft; length ca.
260<X4 um. b. Microsclera. Isochelae 2
(fig. 23c—d), with strongly curved shafts, fig. 23. Myzilla erelloides nov.
rather stout, total length ca. 28 uw, ca. spec. a. Acanthostyli. b. Ty-
10—12 w broad, 18 um deep. SR se SR

This species is very interesting; it
comes very near to Dendy's Crellomyxilla intermedia; the external
shape is nearly the same, the skeletal arrangement likewise, but
no dermal crust is being built; and this point is the only real dif-
ference (save specific ones) from the said species; it strongly con-
firms the view set forth by Dendy, that the Crelleae are special-
ised Myxillae.

Crellomyxilla intermedia Dendy.

Crellomyxilla intermedia Dendy 7), p. 364, Pl. XV figs. 16—21.

Hen and Chicken Isl. Hauraki Gulf. Hard bottom. 30/X11.1914.
Colville Channel. 35 fathoms. Sand, mud. 21/X11.1914.

Two specimens. Encrusting, the one specimen very irregular,
seemingly corresponding in shape with the "main body of com-
pressed flabellate form" of the specimen, which Dendy has de-
scribed. In most features agreeing very well with the type spec-
imen; only the tornota are here a little longer, up to 260 u; the
isochelae are up to 40 uw and by intermediate forms connected with
small forms of ca. 12 w.

470

Lissoplocamia nov. gen.

Plocamiae with a reticulation of smooth dumb-bell shaped
spicules building the main skeleton, and smooth styli echinating
from the surface of the sponge. Microscleres toxa.

I propose to regard the following very characteristic and inter-
esting species as the type of a new genus; all the hitherto described
Plocamia-species have spined megascleres; I therefore think it con-
venient to create a new genus for species with smooth megascleres.
I am inclined to regard the sponge as a degenerate Plocamia.

Lissoplocamia prima nov. spec.
(Fig. 22 a—d.)

2 miles:East of North Cape. 55 fathoms. Hard bottom. 2/1.1915.
One specimen, slender, cylindrical, richly branched, ca. 260 mm
long, 4—8 mm thick. Very characteristic is the beautiful velvet

CC

t-

Fig- 24, Lissoplocamia prima

nov. spec. a Dermal-skeleton

seen from above. b. Tylola.
c. Styli. .d. Toxa.

&

471

covering the whole sponge, caused by the countless styli projecting
almost perpendicularly from the surface. Oscula and ostia could
not be made out. Colour dark, consistence rather hard, somewhat
elastic.

The skeleton consists of a stout reticulation of spongin-fibres,
cored by the tylota, which are in most places arranged uniserially,
only rarely biserially; the sides of the meshes are generally only
of ca. one spicule's length, the meshes themselves are often tri-
angular or quadratic; the fibres are up to 130 w thick, generally
only about ca. 60 u; primary and secondary fibres are not disting-
uishable. The nodes of the meshes are often rather thick, and
from the dermally placed nodes styli are projecting perpendicularly
outwards (fig. 24 a), only their bases are imbedded in spongin; as
before said these spicules are lending the sponge-surface a velvety
appearance. Everywhere in the soft tissues (or rather the remainder
thereof) are found numerous toxa and foreign spicules.

Spicules. a. Megascleres. 1. Tylota (fig.25b), very stout, straight
or a little curved, with short thick heads; about 270 w long and up
to 35 uw thick. 2. Styli (fig. 24c), a little curved, sometimes a little
subtylostylote, generally thickest at the base, from here evenly
tapering to the sharp points; they, are always longer than the
tylota, reaching up to 800 u, by a thickness of up to 35 um.
b. Microscleres.. Toxa (fig. 24 d), slightly and beautifully curved,
about 75 w in length, 2 4 in thickness.

Tedanione connectens nov. spec.
(Fig. 25a—d.)

Little Barrier Islands. 30 fathoms. 29/XI1.1914.

Three fragments. . Sponge irregularly encrusting, giving off di-
gitiform hollow processes; the elder parts of the sponge filled up
with sand; largest specimen 27 mm in greatest diameter; the pro-
cesses ere generally broader at the base, ca. 2—3 mm, tapering
to the apex, which is ca. I mm broad, length up to ca. 17 mm.
Colour whitish, surface smooth, consistence soft. Oscula and other
orifices could not be made out.

Skeleton composed of loose strands and wisps of tylota, in the
interior intermingled with a few styli, where the spicules also are
lying more close together; the main direction of the spicula-wisps

472

is obliquely upwards, reaching the dermal-membrane at nearly right
angles. The dermal-membrane is very delicate, supported by rather
few tangentially but irregularly placed tylota and raphides; these
latter are also distributed throughout the entire body of the sponge.

Spicules. a. Megascleres. 1. Styli (fig. 25a), up to 430X 11 4,
slightly curved in the first half part, evenly thick in the greater

(2 2

Fig. 25. Tedanione connectens nov. spec.
a. Style. b. Tylota. c. Ends of Tylota. d. Raphides.

part, apex tolerably sharp-pointed. 2. Tylota (fig. 25 b-—ec), straight
or a little (seldom strongly) curved; beautiful oval heads, which are
spined at the top; about 300 X 6 u. 3. Tornota, ca. 160X 3 u,
very scarce, probably not belonging to the sponge. b. Microscleres.
Raphides (fig. 25 d), up to ca. 200 X 1 u, finely spined at the
ends, straight or curved, numerous.

This species is very interesting in still having stylote spicules
as an integrating part of the main skeleton, thus retaining a remini-
scence of the monactinal skeleton of Tedania; it gives the clue to

473

the way in which Tedanione has probably developed from Tedania,
viz. by an invasion of dermal diactinal spicules into the main
skeleton; of course also the reversed process may have taken
place: the evolution of Tedania from Tedanione by a stronger
development of monactinals in the main skeleton; but a comparison
with other Desmacidonidae seems to prove the other way of evolution
as the more probable, since the styli in the main skeleton every-
where seem to be the more primitive state of things.

Cornulum novae=zealandiae nov. spec.
(Fig. 26 a—d.)

10 miles N.W. of Cape Maria van Diemen. 50 fathoms. 5/1.1915.

One large beautiful specimen, about 200 mm in largest dia-
meter, formed as a somewhat oblong pillow; it is torn loose from the
body of attachment. The sponge is covered with numerous fistulae
up to 30 mm in length, by a thickness of ca. 4+—8 mm at the base;
the apex of these hollow whitish fistules
is often swollen button-like. I have not
been able to see any oscula. Colour
(formaline) light grey with a reddish tint.

The main skeleton is a stout reticu- ! 2
lation of smooth spicular fibres up to
1000 w thick, thus easily seen with the
naked eye; the fibres are branching and ad
irregularly interwoven, often 6—8 mm
apart. Under the dermal-membrane the
fibres are expanding fanwise. The dermal
skeleton and the skeleton in the fistulae
consist of a dense feltwork of interwoven
tylota, all lying tangentially.

Spicules.. a. Megascleres. Tylota
(fig. 26 a—c), slender, slightly but ir-
regularly curved, with beautiful, oval Cc
heads, sometimes somewhat narrow just
beneath the head; up to 870 X 15 vw. a
b. Microscleres. Isochelae palmatae ' ==

Fig. 26. Cornulum novae-zea-

(fig. 26 d), slender, short alae and teeth, landiae nov.spec. a—b. Tylote

å (b from fistulae). c. Ends of
ca. 27 min length. Tylota. d. Palmate Isochele.

474

There are also some small fistula-fragments of the species from
the same locality; in these the tylota measure only up to 650 x
12 u, and the isochelae only ca. 22 w.

Axinella colvillii nov. spec.
(Fig. 27 a—b.)
Little Barrier Island. 30 fathoms. Shell-bottom. 29/XI1.1914.
Colville Channel. 35 fathoms. Sand, mud. 21/X11.1914.
Three specimens. The base is lump-shaped and encrusting with
shells and sand; from this base numerous slender processes arise
vertically; the largest specimen attains 95 mm in
É its greatest extension; the largest processes are
about 12 mm in diameter at the base, apices
pointed, about 55 mm high; their appearance is
very characteristic: they are spined, the spines"
being up to 4 mm in length, and placed in lon-
gitudinal rows, here and there coalescing with the
bases so as to form ridges, and a transverse section
of the process will appear rather like an aster.
The surface is everywhere shaggy. Numerous
apertures from a fraction of 1 mm to 4 mm in
diameter are seen everywhere; they are probably
ostia. Consistence rather soft, but somewhat brittle.
Colour of the body dirty grey, of the processes
whitish with -a red tint.

The skeleton is composed of densely aggregated
spicula-columns directed outwards towards the sur-
face in the main body, longitudinally in the pro-
cesses; the fibres are so densely packed, that their

outer spicules, which are directed a little obliquely
Fig. 27. Awinella 3 >
colvillii nov. spec. Putwards, are partly crossing those of the neigh-
a. Styli. b. Oxea. bouring fibres; the before mentioned spines at
the processes are mainly composed of spicules
issuing from the main fibres at nearly right angles; many scattered
spicules occur, mostly oxea, which only form a small part of the
main skeleton of the fibres; they occur in greater number in the
outer parts of the sponge than in the interior.
Spicules. 1. Styli (fig. 27a), straight or slightly bent, generally

a

475

thickest in the middle, sharp-pointed; sometimes beginnings to sub-
tylostyli are found; length about 700 w most common, but the styli
may vary from ca. 500— 900 u, by a thickness of 14—25 u. 2.Oxea
(fig. 27b), slightly and generally evenly curved, tapering from the
middle towards the pointed apices, varying in length from 170—
320 Æin thickness: from 7=9

Axinella globula nov. spec.
(Fig. 28.)

2 miles East of North Cape. 55 fathoms. Hard bottom. 2/1.1915.

One little specimen, hemispherical, torn loose from the body of
attachment; 13 mm in largest diameter, 8 mm high; numerous
small apertures up to 0,25 mm
in diameter are seen everywhere
on the surface, which is very |
hispid. Consistence nearly stony,
colour grey.

The skeleton is distinctly
radially arranged; the main
fibres run unbroken from the

centre of the sponge vertically |
outwards to the surface, every ]
now and then giving off new |
branches at very narrow angles !

to fill up the ever increasing
spaces between the original
fibres; most spicules in the
fibres are arranged so that they
point obliquely outwards in a
true Axinelloid manner; some spicules, however, are placed so,
that the point is directed vertically outwards from the fibre in an
Ectyonine manner; these latter spicules always reach the neigh-
bouring fibres, thus adding to the strength of the entire skeleton.
No special dermal skeleton is found, the distally placed spicules
in the fibres pierce the dermal-membrane, making it hispid.
Spicules. Styli (fig. 28), somewhat varying in appearance, in
most cases somewhat crooked a little above the base, only rarely
nearly straight; they are generally thickest at the base and at the

Fig. 28. Awinella globula nov. spec. Styli.

476

bending, from here tapering to the sharp points; some styli, how-
ever, are of even thickness for the greater part of the spicule, only
the apex abruptly and sharply set off. They vary in length from ca.
250—400 w by a thickness up to 22 uw.

Hymeniacidon racemosa nov. spec.
(Fig. 29 a—b).
Three Kings. 65 fathoms. Hard bottom. 5/1.1915.
Several specimens, apparently fragments. The sponge seems to
form branching and coalescing, more or less cylindrical stems; the

&

am
Fig. 29. Hymeniacidon racemosa Fig. 30. Hymeniacidon haurakii
nov. spec. a. Styli. b. Subtylostyli. nov. spec. Styli.

largest specimens attain a length of 18 mm, a thickness of 3 mm.
The surface is hispid; the dermal-membrane thin, covers numerous
small subdermal cavities; it is pierced by numerous ostia, which
are just seen with the pocket lens. Oscula could not be made out.
Consistence soft, a little elastic; colour yellowish.

The skeleton consists of a loose feltwork of spicules often for-
ming rather distinct fibres, which do not, however, attain a great
length before they dissolve, then being rsplaced by others; these
short fibres are forming a very irregular reticulation, being con-

477

nected by short whisps of spicules. When the fibres reach the sur-
face, they split up into short tufts of spicules; such tufts are also
formed by isolated spicules under the dermal-membrane, where no
fibres reach this latter.

Spicules. Styli (fig. 29a) or subtylostyli (fig. 29b), nearly
straight or somewhat bent, tapering to the sharp points; about 300 4%
long by a thickness of 7—8 uw.

Hymeniacidon haurakii nov. spec.
(Fig. 30.)

North Channel. Kawaii Isl. Hauraki Gulf. 10 fathoms. Hard
bottom. 29/X11.1914.

Encrusting. Several shells are cemented together by the sponge,
so that the whole aggregation forms a lump-shaped body of ca. 45
mm in greatest extension; the surface is beset with small cones, up
to 1 mm in hight, 1—3 mm apart. Spicules are piercing the dermal-
membrane, especially at the top of the conuli; texture tough, elastic;
colour light grey. Several small ostia, which can just be seen with
a pocket lens, are leading into spacious subdermal-cavities; oscula
rather numerous, 1—2 mm in diameter, not elevated over the level
of the sponge-surface.

The skeleton consists mainly of scattered spicules, lying with-
out order; but rather distinct fibres are met with, in a few places
of tolerable Axinelloid structure. No. special dermal skeleton is
found; here and there, however, the fibres, which are ail directed
more or less perpendicularly towards the surface, are bending in a
right angle when reaching the dermal-membrane, and passing tan-
gentially along this in ca. one spicule's length.

Spicules. Styli (fig. 30), more or less irregularly curved, of
even thickness for the greater part, then tapering towards the very
sharp point; length varying from about 400—800 u, by a thick-
ness of up to 14 vw.

Hymeniacidon novae-zealandiae nov. spec.
(Fig. 31 a—d).
Little Barrier Island. 30 fathoms. Shell-bottom. 29/XI1.1914.
One specimen. A long slender stalky body, near the apex di-
viding into two branches; length ca. 160 mm, thickness 2 mm in

478

the first two thirds, then gradually growing thicker, to ca. 4 mm;
apex ofithe one branch torn off; the other branch about 35 mm
long, 4 mm thick. Surface strongly hispid, especially on the distal

aa
6
C-
FØ a
Fig. 31. Hymeniacidon novae-zealan- Fig. 32. Hymeniacidon erecta nov.
diae nov. spec. a. Stylote. b. Substylo- spec. a. Styli. b. Siliceum-threads.

tylote. c. Small stylote. d. Oxea.

part of the body. Dermal-membrane macerated. Oscula and ostia
could not be made out. The consistence of the stalk hard, of the
upper parts of the sponge softer but tough. Colour dirty orange.

The skeleton is a dense feltwork of spicules lying pell-mell;

479

they are especially dense in the axis of the sponge; from here
arise indistinct fibres directed obliquely upwards and outwards.
Both oxea and styli are taking part in the building up of the skeleton.

Spicules. 1. Large styli (fig. 31a—b), only few in number;
straight or a little curved, of even thickness over the greater part,
then tapering to the sharp apex; length varying from about 450
—800 w by a thickness of ca. 16—26 uw; a few subtylostyli (fig.
SEb)RareR found —2/Smaller”stylis (fg. "31 c), "very ”numerous'
of the same shape as the foregoing, but only up to ca. 500 w in
length, by 7—8 w in thickness. 3. Oxea (fig. 31 d), more or
less curved in or near the middle, of even thickness over the
greater part, then tapering to the sharp points; length varying from
ca. 200—400 u, by a thickness of 6—7 vw.

Hymeniacidon erecta nov. spec.
(Fig. 32 a—b).

Little Barrier Isl. 30 fathoms. Shell-bottom. 29/X11.1914.

One specimen, attached to a shell ; cylindrical; ca. 45 mm long,
3—4 mm thick. Surface even, but hispid; dermal-membrane thin,
covering numerous subdermal cavities; several inconspicuous aper-
tures, ca. 0,5 mm in diameter, are found, especially on the lower
half of the sponge. Colour light grey; consistence tough, only a
little elastic.

The skeleton consists of a very dense feltwork of spicules, partly
lying pell-mell; partly forming longitudinally directed fibres; these
fibres cannot, however, be followed very far, as they soon dissolve,
and other short fibres take .up their tracts; the fibres are lying
close together.

Spicules. Styli (fig. 32a), some nearly straight, some more or
less, often irregularly, curved; in the axial portion of the sponge-
body many styli are elongated so as to form irregularly curved,
slender siliceum-threads. The styli vary in length from ca. 250—
650 w by a thickness of up to 8 4; the threads may attain nearly
the double length; they are not numerous.

This sponge somewhat resembles Hymeniacidon haurakii in spi-
culation, but is distinctly separated from that species in outer ap-
pearance.

480

Latrunculia spinispiraefera nov. spec.
. (Fig. 33 a—e).
2 miles E. of North Cape. 55 fathoms. Hard bottom. 2/1.1915.
One specimen; subspherical, ca. 100 mm in largest diameter,
beset with numerous short funnelshaped papillae, probably contain-

DE oL

Fig. 33. Latrunculia spinispiraefera nov. Fig. 34. Suberites aæxi-
spec. a. Stylote. b. Ends of stylote. c. Side- nelloides nov. spec. a.
view of discorhabds. d. Basal-view of Di- Tylostyli. b. Head of

scorhabd. e&e. Spinispirae. tylostylote.

ing pore areas, which could not, however, be discerned with cer-
tainty, as the sponge has unfortunately been preserved in forma-
line, and therefore is rather macerated; the papillae are from 1—3
mm high, from 1—10 mm in diameter; they are situated all over
the surface with a mutual distance of, say, 10 mm. The surface
is very finely granulated on account of the discorhabds, and very
firmly rough to the touch. Consistence soft, colour dark brown.

481

The skeleton consists of an irregular reticulation of thick spicula-
fibres, 150—200 w in diameter; these fibres are, however, very
indistinct in most places, everywhere loose spicules lying scattered
about. Throughout the body are also scattered spini-spirae and
discorhabds; the latter as usual form a thin, one-layered crust, a
dermal cortex.

Spicules. a. Megascleres. Styli (fig. 33a—b), generally slightly
and irregularly curved, with narrow base, sharp point, of nearly
even thickness all over; about 420X 10 uw. b. Microscleres. 1. Di-
scorhabds (fig. 33c—d), the base roughly spined; with three whorls,
the first of the greatest diameter and placed vertically to the axis;
the second is bending a little towards the apex, the third is di-
stally placed, with spines nearly parallel with the axis; length of
the whole spicule about 45 w, largest whorl about 25 w in dia-
meter. Developmental forms are found, confirming the observa-
tions set forth by Dendy 1917 (5), and hence I use the new
term discorhabd instead of discaster. 2. Spinispirae (fig. 33e)
strongly spined all over, 10—12 u; the occurrence of this spicule
in the genus Latrunculia is extremely interesting, as it gives further
evidence of the relationship of Latrunculia to other Spirastrellinae.

Suberites axinelloides nov. spec.
(Fig. 34 a—b.)

2 miles East of North Cape. 55 fathoms. Hard bottom. 2/1.1915.

Several specimens encrusting on coral fragments as thin dark-
coloured covers, only a fraction of a mm thick. Openings could
not be detected. Surface finely hispid.

The skeleton is made up of almost the dermal skeleton alone,
the main skeleton being reduced to a one-layered irregular felt-
work of spicules close to the body of attachment. The dermal
skeleton consists of brushes of tylostyles placed close together;
the spicules in the brushes are arranged so that they diverge. a
ittle from one another with their distal ends, the brushes are ac-
cordingly much narrower at the base than at the summit, thus
recalling short Axinelloid fibres. The larger spicules form the main
skeleton, the shorter ones the dermal.

Spicules. Tylostyli (fig. 34a—b), straight or slightly curved,

Vidensk. Medd fra Dansk naturhist. Foren. Bd. 77. 31

482

generally thickest about the middle, evenly tapering to the sharp
points; the heads are beautifully marked off; they vary in length
from ca. 200—700 w by up to 21 u in thickness.

Suberites perfectus R. & D.

Suberites perfectus, Ridley Den dy. (14) "pp 200 PI XEISHSRORP]
XLV figs: 3; 34430:

Three Kings. 65 fathoms. Hard bottom. 5/1.1915.

One fine specimen and some fragments, resembling the type
in general appearance; unfortunately the specimens are preserved
in" formaline, therefore somewhat macerated, so that the beautiful
dermal reticulation, mentioned by Ridley and Dendy, could not
be seen. As. in the type, the oscula are ålso here situated on
small, thinwalled elevations. The skeletal arrangement agrees fairly
well with the type. The spicules are of the same shape, varying
from ca. 200—1400 w, thus a little larger variation-range than in
the type.

List of Literature.

1. Brøndsted, H. V., Sponges from the Auckland and Campbell Islands:
Papers from Dr. Th. Mortensen's Paciflc Expedition 1914—16.
XV. Vidensk. Medd. fra Dansk naturh. Foren., Bd. 75. 1923.

2. Dendy, A., Catalogue of Non-Calcareous Sponges collected by J. Brace-
bridge Wilson, Esq., M. Å., in the neighbourhood of Port Phillip
Heads. I—II. Proc. Roy. Soc.Victoria. Vol. VII and VIII. 1895, 1896.

3. Dendy, A., Report on the Homosclerophora and Astrotetraxonida col-
lected by H. M. S. fSealark" in the Indian Ocean. Trans. Linn.
Soc. London. Vol. XVII. Part. 2. 1916.

4. Dendy, A., On the occurrence of Gelatinous Spicules, and their Mode
of Origin, in a new Genus of siliceous Sponges. Proc. Roy.
Soc: B: Vol LXXXIXC up "315-322.

5. Dendy, A., The Chessman Spicule of the Genus Latrunculia; a Study
in the Origin of Specific Characters. Journ. Queckett Microsc.
Club. XIII. 1917, p. 231—246.

6. Dendy,A., Report on the Sigmatotetraxonida collected by H. M.S.FSealarkf
in the Indian Ocean. Trans. Linn. Soc. London. XVIII. 1921,
p: 1—158.

7. Dendy, A., Porifera. Part I. Non antarctic sponges. British Antarctic
("Terra nova") Exp. 1910. Zool. Vol. VI. Nr.3. 1924, p. 269—392.

12:

13.

14.

T5:
16.

483

Kirkpatrick, ”"Tetraxonidaf. National Antarctic (fDiscovery'” Exp.,
Natural Hist. Vol: IV. p. 1—56.

Lendenfeld, Die Chalineen des Australischen Gebietes. Zool Jahrb.

| Vol: NM "18877 pp 123828.

Levinsen, Kara-Havets Svampe. "Dijmphna-Togtets zoologisk-bota-
niske Udbytte". 1886.

Lindgren, Beitrag zur Kenntniss der Spongienfauna des Malayischen
Archipels und der chinesischen Meere. Diss. Upsala 1900,
pr196!

Lundbeck, W., Homorrhaphidae & Heterorrhaphidae. Porifera Part I.
Danish Ingolf-Exp. Vol. VI. Nr. 1. 1902, p. 1—108.

Ridley, fSpongiida", Report on the zool. Collections made in the Indo-
Pacific Ocean during the voyage of H. M. S. fAlertf, 1881—82.
1884. p. 366—482, 582—630.

Ridley & Dendy, Report on the Monaxonida. Chall. Exp. Zoology
Vol. XX. 1887.

Sehmidt, O., Spongien d. Adriat. Meeres. 1862.

Sollas, W. J., Report on the Tetractinellida. Chall. Exp. Zoology XXV. 1888.

f5E HE 1022

Papers from Dr. Th. Mortensen's Pacific Expedition
1914—16.

XXIV.)
Scyphomedusen von
den Molukken und den Kei-Inseln.
Von

Dr. Gustav Stiasny, Leiden.
(Mit 7 Textfiguren.)

Die mir von Dr. Th. Mortensen zur Bearbeitung ibersandte
Scyphomedusen-Sammlung von den Molukken, Banda- und Kei-
Inseln umfasst folgende 8 Formen:

Aurelia aurita (Linnaeus) Lam. (Amboina).
Linuche unguiculata var. aquila Mayer (Kei-Inseln).
Cassiopeia andromeda Eschscholtz (Banda-I.).
Mastigias papua L. Agassiz (Molukken).

Mastigias ocellata Modeer (Amboina).
Thysanostoma thysanura Haeckel (Kei-Inseln).
Lorifera lorifera Haeckel (Kei-Inseln).

Crambione mastigophora Maas (Amboina).

Diese Ausbeute bietet weder in systematischer noch in tier-
geographischer Hinsicht viel Neues. Såmmtliche Formen sind

”) Although dealing only with material collected by the Danish Expedition
to the Kei Islands, 1922, this paper is included in the series "Papers
from Dr. Th. Mortensen's Pacific Expedition". This is done in order to
avoid the complication of having two parallel running series of papers.
Future papers dealing with material from the Expedition to the Kei-Islands
will, for the same reasons, likewise be included in the series of Papers
from the Pacific Expedition — the more so as in several cases it will
be the natural course to deal with the material from both expeditions
jointly. Editorial Note.

486

bereits wiederholt in den philippinischen Gewåssern und jenen
des malayischen Archipels nachgewiesen worden. Der Fundort Kei-
Inseln ist neu. Es ist jedoch sehr unwahbrscheinlich, dass die we-
nigen daselbst erbeuteten Exemplare ein auch nur einigermaassen
erschåpfendes Bild der Medusenfauna der Kei-Inseln darstellen
sollten. Viele der in den benachbarten Gebieten håufigen Scypho-
medusen sind in der kleinen Sammlung nicht vertreten.

Bemerkenswert sind die zahlreichen Exemplare von Linuche
unguiculata var. aquila Mayer in verschiedenen Entwicklungsstadien,
ein schånes Exemplar von Maszigias ocellata Mod. und ein solches
der seltenen Lorifera lorifera Haeckel. Der Erhaltungszustand ist in
den meisten Fållen ein sehr guter (Formalin 5/0).

Ordo Semaeostomeae L. Agassiz
Fam. ÅAureliidae L. Ag.

Aurelia aurita (Linnaeus) Lamarck.
1 Exemplar: Bucht von Amboina, Oberflåche, 22.II.

Stark beschådigtes Exemplar von 150 mm Schirmbreite, rost-
braun verfårbt.

Ordo Coronatae Vanhåffen.
Fam. Linergidae Haeckel.

Linuche unguiculata var. aquila Mayer.
(hexthir i):

1) Einige Tausend Exemplare. Godan, Kei-Inseln, Oberflåche, 4.IV.22.

2) Ca. 80 Exemplare, Doe Roa Strasse, Oberflåche, 23.IV.22.

3) 75 Exemplare, Elat, Oberflåche, 8.V.22.

1) Zahlreiche Exemplare eines Schwarmes; von 3—-5 mm Schirm-
breite, noch ohne Gonadenanlagen, flach, Ephyra-artig. Ringfurche
und 16 Radiårfurchen auf der Exumbrella bereits nachweisbar. Ex-
umbrella mit kleinen rundlichen Nesselwarzen dicht bestreut. Aus-
sackungen auf der Subumbrella noch nicht vorhanden, Ringkanal
noch nicht angelegt. Tentakel ganz kurz. Die meisten Exemplare
etwas junger als das von Mayer (7, Fig. 5, Pl. 59) abgebildete Sta-
dium. Fårbung grinlich-gelblich.

487

Derartige Ephyren, etwa von gleicher Gråsse, sind auch von
Agassiz und Mayer (1) bei den Fiji-Inseln beobachtet worden.

2) u. 3) Die typische Form von ca. 13 mm Håhe und 16 mm
Breite, mit 48 in 2 Reihen stehenden Protuberanzen auf der Sub-
umbrella. Innere Reihe besteht aus 16 gråsseren, die periphere
Reihe aus 32 kleineren Såckchen.

Der periphere Teil des Kanalsystems (Textfig. 1) zeigt meist —-
wie beim Sibogamaterial von Linerges draco Haeck. durch Maas
beschrieben (6) — ganz schmale kaum wahrnehmbare Verlåtungs-

Textfig. 1. Linuche unguiculata var. aquila Mayer. Stiick des Schirmrandes,
von innen, etwas vergråssert.

stellen, nirgends sind breitere Verwachsungsfelder oder Streifen zu
sehen, wie z. B. von Mayer in Fig. 11, Taf. 59, (7) dargestellt.
Der periphere Streifen erscheint daher als fast einheitlich. "Ring-
kanal" vorhanden. Die Veråstelungen in den Lappentaschen sind
hier weniger unregelmåssig und weniger zahlreich (etwa 12—15,
nicht etwa 30 Terminaliåste) als wie von Maas (6, Taf. 1, Fig. 2)
dargestellt und beschrieben (bei Linerges draco). Die einzelnen Åst-
chen sind durch tiefere Einschnitte von den benachbarten getrennt,
secundåre Veråstelung bei diesen gråsseren Exemplaren nur ange-
deutet. — Die Gonaden entweder halbmondfårmig, paarweise ein-
ander genåhert wie bei Maas Fig. 1, Taf. 1, weisslich oder bråun-
lich; oder halbmondfårmige långliche, dunkelbraune, mehr oder
minder gelappte Wirste formend, etwa wie von Mayer (7, Fig. 7
u. 11, Taf. 59) dargestellt.

488

Fårbung: grinlich-gelblich. Aussackungen auf der Subum-
brella schilfgrun. Jungere Gonaden weisslich, åltere Gonaden licht-
oder dunkelbråunlich. Entoderm der Lappentaschen intensiv licht-
grun.

Schwarmweises Auftreten dieser Meduse ist nichts ungewohn-
liches. Der Fang von Godan stellt formlich eine Probe einer Rein-
kultur dar von meist gleichaltrigen Individuen.

Åhnliche Massenfånge wurden auch von Conklin (2) und
Mayer (7) an verschiedenen Orten im Atlantic und Pacific ge-
macht.

Im Anschlusse an Mayer (7, p. 195), der die atlantische Li-
nuche unguiculata und die pacifische agquila nur als Varietåten einer
einzigen Form betrachtet, wurden die vorliegenden Medusen als
£Linuche unguiculata var. aquila" Mayer bestimmt. Die von Maas
im Sibogawerk als Linerges draco beschriebenen Medusen sind nach
meiner Ansicht nichts anderes als Jugendstadien dieser Form.

Ordo Rhizostomae Cuvier.

Subordo Kolpophorae Stiasny.
Stazmm Kampylomyariae Stiasny.
Fam. Cassiopeidae Claus.

Cassiopeia andromeda Eschscholtz.

33 Exemplare: Saparoea Bucht 11.IIIM.22.

EN mBandan GAVIE22!

PA : Ausserhalb Neira Banda, ca. 20 m Tiefe, Sand, 10.VI1.22.
3 : Lontor, Banda, Kiste 6.V1.22.

i "Station 36/35 m Elers Sande 23 I VE2 2"

4 ma (J 01

Såmmtliche 43 Exemplare (von 50—80 mm Schirmbreite) zei-
gen den Mangel der sternformigen Zeichnung und der weissen
Flecke auf der Exumbrella, wie dies nun schon bei zahlreichen
Cassiopeia-Arten nachgewiesen wurde (11, 15); ebenso zeigen sie
den von Hartlaubt(5)/EBbBrowned(sS)hundeverfasserk (I S)Ebe Ree
ganz verschiedener Provenienz beschriebenen Ringwulst auf der
Peripherie der Exumbrella. In manchen Fållen auch Radiårstruktur.

Umbrella flach, scheibenférmig, meist mit centraler Kuppel, nur

489

das eine Exemplar von Lontor, Banda, urnenartig vertieft mit erhåhtem
Rande. Der Ringwulst stellt die høchstgelegene Partie der Ex-
umbrella dar.

Randlåppchen meist 3, aber auch 4 und 5. Rhopalien + 16.
Långe der Mundarme meist kleiner als r, in einzelnen Fållen bis
1Y2 r... Mundarme dorsoventral abgepiattet, in vereinzelten Fållen
lateral comprimiert. Zottenrosette bei zahlreichen Exemplaren stark
entwickelt.

32 Radialcanåle; sinusartige Anschwellung im åusseren Drittel
nicht immer nachweisbar, kein zuverlåssiges Merkmal (14). Auf-
fallend die grossen ovalen blattformigen Kolbenblasen, die dunkel-
violett gesprenkelt sind, in der Mitte der Armscheibe oder auf
den Mundarmen den Saugkrausen aufsitzend; gelegentlich gånzlich
fehlend.

Fårbung: a) grinlich-gelblich mit grinlichen Saugkrausen oder
b) gelblich-bråunlich mit bråunlichen bis schwårzlichen Saugkrausen.
Bei einigen Exemplaren schwarzviolette Streifen auf der Subumbrella
oberhalb der Interrhopalarcanåle. Gonaden weisslich. — Zottenrosette
weisslich-gelblich.

Die vorliegende Exemplare stehen der durch Maas im ost-
indischen Archipel nachgewiesenen C. a. var. malayensis sehr nahe.
Die var. maldivensis Browne ist, da das Hauptmerkmal (der peri-
phere Ringwulst auf der Exumbrella nebst Farblosigkeit) in beiden
Fållen nachweisbar, zweifellos damit identisch. Beide Varietåten
habe ich bereits bei friherer Gelegenheit mit C. a. vereinigt (11,
på):

Stamm Krikomyariae Stiasny.
Fam. Mastigiadidae Stiasny.
— Mastigias papua L. Agassiz.…

2- Exemplare: Saparoea Bucht, 1—2 m Tiefe, Sandboden. 11.11.22.

Das gråssere Exemplar von ca. 80 mm Schirmbreite Zeigt auf-
fallende Fårbung. Die gewohnlichen Augenflecke oder die Tupfe-
lung auf der Exumbrella fehlen; dafir gleichmåssige Kornelung.
Fårbung gelblich-griinlich.

Auf der Subumbrellarseite treten die 8 Rhopalarcanåle durch
ihre auffallende schwårzlich-blåuliche Fårbung deutlich hervor, åhn-

490

lich wie von Maas (8, p. 66) bei M. papua var. sibogae beschrie-
ben. Das Anastomosennetz, das zwischen den Rhopalarcanålen und
dem Ringcanal ausgespannt ist, hat 8—10 Kanalwurzeln und ist
leicht schwårzlich gefårbt. Schwårzliche Fårbung zeigen ferner die
Mundarme, besonders in den distalen Teilen, sowie die Endanhånge,
die an der Basis und am freien Ende schwarz gesprenkelt sind.

Randkårper mit Spuren von rostbraunem Pigment.

Schwårzliche Fårbung der Rhopalarcanåle ist auch bei Mastigias
siderea Chun angegeben; diese Form weicht jedoch sonst in eini-
gen Punkten ab. Das vorliegende Exemplar zeigt groåssere Åhnlich-
keit mit M. papua var. sibogae Maas.

Ein Jugendstadium von 25 mm Schirmbreite zeigt beginnende
schwårzliche Verfårbung der Mundarme und der langen Endanhånge.

Mastigias ocellata (Modeer).
(Tertis 2MS)

1 Exemplar: Amboina-Bucht, Oberflåche, 11.22.

Schirmbreite ca. 190 mm. Gallerte knorpelhart, nicht schlapp.

Exumbrella ohne Skulptur (Rinnen), glatt.

Der Schirmrand zeigt auf der einen Hålfte 6 Velarlåppechen
pro Octant, gross, rundlich, durch tiefe, weit auf die Exumbrella
hinaufreichende Gallertfurchen getrennt, durch dinne Membranen
mit einander verbunden. Die beiden mittleren Velarlåppchen sind
die breitesten (15 mm), die seitlichen schmåler (10 mm), dazwischen
auch unregelmåssige kleine zungenférmige Låppchen. Auf jedem
der grossen Velarlåppchen 1 oder 2 grosse rundliche weissliche
Flecken. Auf der anderen Hålfte finden sich dagegen 12—14 kleine
Velarlåppchen, durch ganz kleine schmale seichte Furchen geschieden,
fast ganz mit einander verwachsen, so dass der Schirmrand dieser
Hålfte fast ganzrandig (bis auf ganz schwache Einkerbungen), nicht
gelappt, erscheint. 0QRhopalarlåppchen klein, spitz, schmal. Sinnes-
grubchen schwach entwickelt, ohne Falten.

Subgenitalostien 55 mm breite Schlitze. Keine Papillen.

Armpfeiler 20 mm breit, also nicht einmal halb so breit als
die Ostien. Muskulatur in 8 Knotenpunkten convergierend. Magen-
kreuzschenkel breit, gedrungen, peripher etwas breiter als central;
die benachbarten fast im rechten Winkel auf einander stossend.

491

Das Gefåssystem des Schirmes zeigt den Kanaltypus Mastigias
mit 18—20 Kanalwurzeln. Netzmaschen rundlich, nicht gestreckt.
Perradiale Rhopalarcanåle flaschenformig, nicht direkt mit dem Ana-
stomosennetz in Verbindung stehend. Interrhopalarcanåle in der
Mitte des Verlaufes verdickt. Ringkanal breit. Nur wenige Peit-
schenfilamente im Centrum der Armscheibe. Gonade auffallend
schwach entwickelt in Anbetracht der Gråsse des Exemplars (7 ?).

Textfig. 2. und 3. Mastigias ocellata Mod. Mundarme. 2.) von der Abaxialseite,

3.) von der Seite gesehen. Gefissversorgung nach einem Injectionspraeparat
(Del. Haematoxylin) gezeichnet.

Die Mundarme sind stark seitlich comprimiert, mit langem Ober-
arm und breiten Unterarmfliigeln (Textfig. 2 und 3). Der darge-
stellte Unterarm zeigt folgende Maasse:

Oberarmlånge 30 mm.
Unterarmlånge 55 mm.
Breite des Unterarmes ca. 55 mm.
i; NR Oberarmeses 20 EM
Spannweite der Unterarmfligel ca. 80 mini.

492

Die Seitenåstchen sind sehr kråftig, sehr selbståndig, nicht
membrands, sondern solid, knorpelhart. Die obersten, proximalen
Seitenåstchen durch tiefe Einschnitte gånzlich vom ibrigen Teile
des Unterarmes getrennt, oder durch breite Fenster davon geschie-
den. Auch die distalen Seitenåstchen ungewåohnlich stark selbstån-
dig. Die Mundarme erscheinen dadurch wie zerfetzt oder gefiedert.

Die Saugkrausen sind sehr schwach ausgebildet und sitzen fast
ausschliesslich an den Seitenkanten. Endanhang kurz, keulenfårmig
oder langgestreckt, oder gånzlich fehlend. Faden- und bandfårmige
Anhånge auf Abaxial- und Axialseite der Fligel, gestielte und
Sitzende Saugkålbchen zwischen den Saugkrausen.

Die Mundarme erinnern im ganzen Habitus mehr an diejenigen
von Versura palmata nach der Abbildung Haeckel's (4, Taf. XXXX,
Fig. 9) als an die von Crossostoma anadyomene (6, Taf. VII, Fig. 56)
durch Maas, oder die von Mastigias ocellata (12, Fig. 5 und 6)
vom Verf. abgebildeten. Sie sind jedoch noch stårker zerschlitzt, die
Fenster noch mehr ausgebildet, die Saugkrausen dagegen schwåcher.

Die Kanalversorgung der Mundarme wird durch kråftige ein-
fache Kanåle bewirkt, wie sie fir die tripteren Mundarme charak-
teristisch ist; am åhnlichsten sind die Verhåltnisse bei Mastigias
ocellata (12, Fig. 5 und 6). Im unregelmåssig geformten End-
kolben ein einfacher Kanal — kein Anastomosennetz — der wahr-
scheinlich blind endet, eventuell mit einer ganz kleinen åusseren
Offnung.

Die Bestimmung des Objektes bot nicht geringe Schwierigkeit.
Gegen die Zugehårigkeit zu Versura sprach die knorpelharte Kon-
sistenz, die breiten, kurzen Magenkreuzschenkel, das Anastomosen-
netz mit nicht gestreckten, -sondern rundlichen Netzmaschen, die
einfachen, nicht doppelten Kanåle in den Mundarmen. Gegen die
Bestimmung als Phyllorhiza: die mangelnde Struktur der Exum-
brella und vor allem die andere Form und Beschaffenheit der
Mundarme mit anderer Ausbildung der Seitenlåppchen, schwachen
Saugkrausen und reduciertem Endanhang. Gegen Mastigias: die
bedeutende Gråsse (190 mm), der Mangel gråsserer Endkolben mit
Anastomosennetz, die faden- oder bandfårmigen Anhånge zwischen
den schwachen Saugkrausen.

493

Erschwerend wirkt dabei, dass der Schirmrand nicht normal
" ausgebildet ist.

Fir die Bestimmung als Mastztigias ocellata waren schliesslich
ausschlaggebend: die kurzen Magenkreuzschenkel, die einfachen
Kanåle der Mundarme, der Kanaltypus Mastigias, die rundlichen
Flecken auf dem Randlåppchen.

Fam. Leptobrachidae Claus.

Thysanostoma thysanura Haeckel.
1. Exemplar: Elat, Oberflåche, 28.IV.22.

Exumbrella mit Netzwerk weisslicher Polygone zwischen vor-
gewdlbten, unregelmåssig geformten Nesselwarzen, 10—12 Rand-
låppchen pro Octant, die mittleren meist gespalten.

Fårbung der Umbrella: weisslich-gelblich-grinlich.

Mundarme distal intensiver grin als proximal.

Saugkrausen proximal weisslich.

Gonaden rosa, Randkårper mit rostbraunem Pigment.

Maasse: Schirmbreite 90, Hohe, 52 mm.

Perradialer Durchmesser der Armscheibe 70, interradialer 65 mm.

Durchmesser der Armscheibe im Niveau der Ursprungsstelle
der Mundarme 45 mm. Genitalostien 36 mm breit, Armpfeiler:
14 mm.

Mundarme: 180, 150, 110, 103 mm lang!

Lorifera lorifera Haeckel.
INEzemplar"Ohoideer; Kuste; V22:

Prachtvolles, sehr gut erhaltenes Exemplar mit lebhafter Får-
bung. Breite 180 mm, Håhe 50 mm.

Exumbrella fein gekårnelt. Zahl der Velarlåppchen ganz un-
regelmåssig: 4 zweigeteilte; oder 6, davon 4 zweiteilige, 2 einfache;
6, davon die beiden mittleren zweiteilig, die seitlichen einfach;
meist breit, abgerundet, durch tiefere und seichtere, kurze oder
lange Gallertfurchen von einander getrennt. Ocularlåppchen viel
kleiner, schmal, spitz. Randgriibchen glatt, ohne Falten. Subgenital-
ostien 60 mm, etwas mehr als doppelt so breit als die Armpfeiler.
Armscheibe mit einem Filz dinner Fåden bedeckt.

494

Patagium sehr gut ausgebildet: ca. 10 mm hoher dicker knor-
peliger Gallertwulst, vertikal auf der horizontalen Armscheibe ste-
hend. An 8 Stellen, oberhalb der Insertionsstelle der Mundarme,
mit starker rundlicher Verdickung. Von der Armscheibe durch eine
ringformige tiefe Einschnirung getrennt. Der Winkel zwischen
Patagium und Armscheibe ist ein ganz ausgesprochener, eine deut-
liche Knickung bildend, wåhrend beide nach Haeckel's Darstel-
lung, (4, Taf. XXXVIII, Fig. 2) ohne scharfe Grenze in einander
ubergehen. Ein Patagium låsst sich auch bei dem Thysanostoma-
Exemplar feststellen, ist jedoch bei weitem nicht so kråftig und gut
ausgebildet. Eine åhnliche starke Ausbildung des Patagiums habe
ich nur bei dem von Schultze abgebildeten Exemplar von Cram-
bessa palmipes (9, Taf. XXXIII, Fig. 1) beobachten kånnen, das von
mir als ein Jugendstadium einer Leptobrachide angesehen wurde
(ISÆpDE69):

Mundarme: 210 mm lang, Oberarm 30, Unterarm 180 mm
lang mit gut ausgebildetem Terminalknopfe. In ihrem ganzen Ver-
laufe tripter erscheinen sie doch in dem distalen Teil als plattge-
drickt, riemenfårmig. Die Saugkrausen sitzen nur auf den in den
proximalen Teile stårker ausgebildeten Seitenåstchen, im mittleren
und distalen Teile sitzen sie direkt auf den Seitenkanten. Dadurch
erscheinen die Seitenflåchen als verhåltnismåssig breite kahle Flå-
chen. Wenn nun zwei solche zarte Fliigel sich aneinanderlegen, so
erhålt man- den Eindruck, als wenn die Mundarme plattgedrickt
wåren. Dieselben sind jedoch bis ans freie Ende tripter. Auffallend
ist, dass die Saugkrausen selbst nicht die amethystblaue Fårbung
der Mundarme aufweisen, sondern gelblich grinlich sind. Die
Mundarme sehen so aus, als wenn sie mit einem dunklen, råtlich-
blauen Farbstoff -injiciert wåren. Endkolben gut ausgebildet.

Muskulatur rein circulår, die Muskelfasern im Bereich der Ra-
diårcanåle stårker entwickelt.

Das Gefåssystem des Schirms entspricht mehr der Schultze-
schen (9, p. 447) als der Haeckel'schen Darstellung (4, p. 628),
ist feinmaschig und ohne die Adradialcanåle der arabischen Form.
Die Perradialcanåle an der Ursp ungstelle am Magen diinn, spåter
keulenfårmig angeschwollen, dann wieder dinner werdend. Die
Interradialcanåle durch die beiderseitigen breiten Verlåtungsstellen
aus dem Queranastomosennetz heraustretend. Ca. 20 Kanalwurzeln.

495

Netzmaschen nicht gestreckt. Ringcanal breit, Magenkreuzschenkel
"lang und schmal, ca. 70 mm lang.

Gefåssversorgung der Mundarme zeigt ein System doppelter
Kanåle, åhnlich wie bei 7Thysanostoma.

Als Fårbung gibt Haeckel fir den Schirm Amethystfarbe an,
Schirmrand weiss mit einem dunkelvioletten Flecken auf jedem
Lappen, ferner dass die Saugkrausen der Arme dunkelviolett, die
Gonaden råtlich gelblich sind (4, p. 629). Schultze (9, p. 157)
besehreibt dagegen, auf Grund einer Farbenskizze Kikenthals nach
dem lebenden Tiere, den Schirm als in der Mitte dunkelblauvio-
lett, nach dem Rande zu bråunlich-weiss. Randlappen violett.
Glatte Aussenseite der Oberarme und Patagium wasserhell. Unter-
arme (Saugkrausen oder Gallerte?) am verdickten Anfangsteil hell-
braun, im ibrigen vorwiegend violett. —

Das vorliegende Exemplar hat gelblich-bråunliche Fårbung des
Schirmes.. Am Schirmrande und auf den Randlåppchen breite
amethystfarbene Flecken (auf jedem Låppchen 1 grosser breiter
Fleck). Am Apex keinerlei Fleck.

Armscheibe, Oberarme, Patagium gelblich-bråunlich. Zotten-
rosette und Saugkrausen der Mundarme gelblich-grinlich. Die
Membranen der Mundarme im proximalen Teile dunkelbraun, im
distalen amethystfarben. Gefåssversorgung als weissliches Netzwerk
durchscheinend. Die Saugkrausen sind nicht violett gefårbt. —

Subordo Dactyliophorae Stiasny.
Stamm Inscapulatae Stiasny.
Fam. Catostylidae Stiasny.
Crambione mastigophora Maas.
(Textfig. 4—7).

4 Exemplare: Amboina Bucht, Oberflåche. 11.22.

Ein Exemplar gut erhalten, die ibrigen am Schirmrande und
auf den Mundarmen stark beschådigt; gråsstes Exemplar 80 mm
breit, 30 mm hoch. Die Exemplare sind såmmtlich viel kråftiger,
consistenter als die gleich grossen aus dem Siboga-Material; die

Gallerte von Knorpelhårte. Gallertfurchen am Schirmrand ziemlich
tief.. 8—10 Randlåppchen pro Octant. Subumbrellargallerte stark

2 , . . to fr + r
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SENE K

496

497

verdickt, in der Muskelzone nach aussen vorgewålbt, von der Arm-
”scheibe durch eine Ringfurche abgesetzt. Die Arme sind auffallend
steif, wenig biegsam, die Unterarmfligel dicht aneinander geschmiegt.
Alle zusammen schliessen einen trichterformigen Hohlraum ein, wie
ich es sonst nur bei Stomolophus gesehen habe. Saugkrausen
schwach ausgebildet, fast nur auf die Seitenkanten beschrånkt.

Das Kanalsystem zeigt håufig Anomalien. Dieselben sind
umso interessanter als uber die Entwicklung des Gefåssystems, wie
der ganzen Form fast nichts bekannt ist, ausser einer ganz bei-
låufigen Bemerkung von Maas, dass bei Jjugendstadien das intra-
circulåre Netz fnur durch einzelne Maschen"f gebildet wird (11,
p. 129). Beziglich der Bedeutung der Anomalien fir die Beur-
teilung der Verwandschaft der verschiedenen Genera vergl. insbes.
die im Druck befindl. Mitteilung 15a. Ich gebe hier einige Ab-
bildungen solcher Anomalien in den Textfiguren 4, 5, 6, 7.

Textfig. 4. Ganz wenige langgestreckte grosse parallellaufende
Långsanastomosen mit wenigen ganz kurzen Queranastomosen. Ver-
einzelt auch (Sector 2 von links) ein langgestreckter isolierter
Centripetalcanal, der nur mit dem Ringcanal in Verbindung steht.
Er ist eine Reminiscenz an das 'Lychnorhiza'-Stadium, das in der
Entwicklung von Crambione als håchst wahrscheinlich anzunehmen
ist, im Analogie mit den Befunden bei den ibrigen Inscapulatae.

Textfig. 5. Im Sektor rechts vom Rhopalarcanal ein isolierter
am distalen Ende sich gabelnder Centripetalcanal, der vertikal auf
den Ringcanal steht und nur mit diesem, nicht mit den Radial-
canålen communiciert. In den seitlichen Sektoren hångt das intra-
circulåre Netz entweder direkt zusammen mit einem Rhopalarcanal
(links) oder einem Interrhopalarcanal (rechts). Ein adradialer Ra-
diårcanal ist an der Ursprungsstelle vom Magen gegabelt.

Textfig. 6. Breite, kurze, ganz feinmaschige Netze, die stellen-
weise mit ganz schmalen, halb so breiten alternieren. Ein Ra-
diårcanal gegabelt.

Textfig. 7. Aussergewéhnlich breite und hohe feinmaschige
Netze, die eine gewisse Åhnlichkeit mit der Netzarkade der Scapu-
latae zeigen und die bis iber die Hålfte des Abstandes des Ring-
canales von der Magenperipherie reichen. Die dem Ringcanal an-
liegenden Anastomosen sind langgestreckt, die ibrigen viel kirzer.

498

Man hat den Eindruck als wenn die Tendenz bestånde, dass das
intracirculåre Netz den Magen erreichen wiirde.

Andere Anomalien, von deren Abbildung ich absehen muss,
zeigen gleichfalls in manchen Sectoren direkte Verbindung des
intracirculåren Netzes mit dem benachbarten Rhopalar- oder Inter-
rhopalarcanal oder mit beiden. In einem Falle liess sich eine di-
rekte Verbindung des Netzes mit dem Magen in der Form eines
eingeschobenen Radialcanals nachweisen.

Leiden, Rijks Museum van Natuurlijke Historie, September 1924.

Litteraturverzeichnis.

1898—1899. Agassiz, Alexander und Mayer, A. G., Acalephs from
the Fiji-Islands. Bull. Mus. Comp. Zool. Harvard. Vol. XXXII. Cam-
bridge. U.S.A.

) 1908. Conklin, E. G., The habits and early development of Linerges mer-

curius. Papers from the Tortugas Lab. Carnegie Inst. Washington.
Vol. II. Washington.

3) 1905. Browne, E. T., Scyphomedusae. Fauna and Geography of the Mal-

dive and Laccadive Archipelagoes. Vol. II. pt. 3. Cambridge.

4) 1879. Haeckel, E., Das System der Medusen. Mit Atlas. Jena.

5) 1909. Hartlaub, Cl., Ueber einige von Gravier in Djibuti gesammelte

Medusen. Zool. Jahrb. Abt. Syst. Bd. 27. Jena.
6) 1913. Maas, Otto, Die Scyphomedusen der Siboga Expedition. "”Siboga
Expeditie" 11. Monogr. Leiden.
) 1910. Mayer, A. G., Medusae of the world. III. The Scyphomedusae.
Carnegie Inst. Washington.
8) 1917. == Report upon the Scyphomedusae collected by the U.S.
Bureau of Fisheries steamer "Albatross" in the Philippine Islands and
Malay Archipelago. Smithsonian Inst. U.S. Nat. Mus. Bull. 100.
Vol. 1. pt. 3. Washington.
9) 1897. Schultze, L. S., Rhizostomeen von Ternate. Abh. Senckenb.
Naturf. Ges. Frankfurt. Vol. 24. Frankfurt.
10) 1898. — Rhizostomeen von Ambon. Denkschr. Jena Ges. Naturw.
Vol. 8. Jena.

11) 1921. Stiasny, Gustav, Studien iiber Rhizostomeen mit besonderer Be-

ricksichtigung der Fauna des malayischen Archipels

nebst einer Revision des Systems. Capita Zoologica.

Deel. I. Afl. 2. ”s Gravenhage.

—

[9

+]

499

12151922: Stiasny, Gustav, Die Scyphomedusén-Sammlung von Dr. Th.

13) 1922, =

14) 1922. ER

15) 1924. —=

15a) 1924. =

Mortensen nebst anderen Medusen aus dem Zoolog.
Museum der Univ. in Kopenhagen. Papers from Dr.
Th. Mortensen's Pacific Expedition 1914—16. XIII.
Vid. Medd. Dansk Naturh. Foren. Bd. 73. Kopenhagen.
Ergebnisse der Nachuntersuchung einiger RQRhizosto-
stomeen-Typen Haeckel's und Schultze's aus der Samm-
lung des zoologischen Instituts der Univ. in Jena.
Zoolog. Mededeel. Deel VII. Afl. 1/2. Leiden.
Ergebnisse der Nachuntersuchung einiger Rhizosto-
meen-Typen Ehrenberg's, Haeckel's und Vanhoåffen's
aus den zoolog. Museen in Berlin und Køånigsberg.
Zoolog. Mededeel. Deel VII. Afl. 3—4. Leiden.
Ueber einige von Dr. C.J van der Horst bei Curacao
gesammelte Medusen. Bijdragen tot de dierk. Afl. XXIII.
Amsterdam.

Zur Entwicklung und Phylogenie der Rhizostomeen-
familie Catostylidae. Mededeel. Akad. Wetensch. Am-
sterdam. Im Druck.

16) 1913. Vanhåffen, Ernst, Ueber westindische Medusen. Zool. Jahrb.

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—1924.

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