B.,-u^//^j,^

HARVARD UNIVERSITY.

LIBRARY

OF THE

MUSEUM OF COMPARATIVE ZOOLOGY

35^^^S^

i.^M*^

niiemolrfl of tbe /IDuseum of Comparative Zoolo^l^

AT HARVARD COLLEGE
Vol. XXXV. No. 4.

REPORTS ON THE SCIENTIFIC RESULTS OF THE EXPHtllTOi-i TO THE
TROPICAL PACIFIC, IN CHARGE OF ALEXANDER Af. \SSTZ !?Y THE
U. S. FISH COMMISSION STEAMER "ALBATROSS," FROM AUGUST,
1899, TO MARCH, 1900, COMMANDER JEFFERSON F. MOSER, U. S. N.,
COMMANDING.

XVI.

REPORTS ON THE SCIENTIFIC RESULTS OF THE EXPEDITION TO THE
EASTERN TROPICAL PACIFIC, IN CHARGE OF ALEXANDER AGASSIZ,
BY THE U. S. FISH COMMISSION STEAMER "ALBATROSS," FROM
OCTOBER, 1904, TO MARCH, 1905, LIEUT. COMMANDER L. M. GARRETT,
U. S. N., COMMANDING.

XXVII.

THE SCHIZOPODA.

By H. J. HANSEN.

WITH TWELVE PLATES.

IPubllshed by permission of GRonoE M. Bowkrs, t(. S. Commissioner of Fish and Fisheries.]

CAMBRIDGE, U.S.A.:

prlnteD for tbe /Ruseum.

July, 1912.

/IDemolrs of tbe /ICmscum of Comparative Zooloop

AT JIARVARD COLLEGE
Vol. XXXV. No. 4.

REPORTS ON THE SCIENTIFIC RESULTS OF THE EXPEDITION TO THE
TROPICAL PACIFIC, IN CHARGE OF ALEXANDER AGASSIZ, BY THE
U. S. FISH COMMISSION STEAMER "ALBATROSS," FROM AUGUST,
L899, TO INIARCH, 1900, COMMANDER JEFFERSON F. MOSER, U. S. N.,
COMMANDING.

XVI.

REPORTS ON THE SCIENTIFIC RESULTS OF THE EXPEDITION TO THE
EASTERN TROPICAL PACIFIC, IN CHARGE OF ALEXANDER AGASSIZ,
BY THE U. S. FISH COMMISSION STEAMER "ALBATROSS," FRO.M
OCTOBER, 1904, TO MARCH, 1905, LIEUT. COMMANDER L. M. GARRETT,
U. S. N., COMMANDING.

XXVII.

THE SCHIZOPODA.

By H. J. HANSEN.

WITH TWELVE PLATES.

(Published by permission of Georoe M. Bowers. U. S. Commissioner of Fisb and Fislieries.l

CAMBRIDGE, U.S.A.:

printe& for tF)e /Duseuin.

July, 1912.

TABLE OF CONTENTS.

Page

Introductory Ueiuarks 177

Mysidacea

Lophogastrida

Chalaraspis Willemoiis Suhm. . . . 181

Chalaraspis alata G. O. Sars, PI. 1,

figs, la-11 1S2

Gnathophausia Willemoes-Suhm . . 184
Gnathophausia ingens (Dohrn) . . . 184
Gnathophausia gracilis Willemoes-
Suhm 185

Gnathophausia zorea Willemoes-Suhm 186

Eucopia Dana 187

Eucopia unguiculata Willemoes-Suhm 187

Eucopia major H. J. Hansen .... 188

Eucopia sculpticauda Faxon . . ." . 189

Mysida

Boreomysis G. O. Sars

Boreomysis media, sp. nov., PI. 1, figs.

2a-2b 190

Boreomysis fragilis, sp. nov., PI. 1, fig.

3a; PI. 2, fig. la 191

Siriella Dana 192

Siriella thompsonii (H. Milne Edwards) 192

Siriella gracilis Dana 193

Siriella media H. J. Hansen .... 194

Siriella aequiremis H. J. Hansen . . 194
Hemisiriella H. J. Hansen
Hemisiriella abbreviata, sp. nov., PI.

2, figs. 2a-2c 195

Anchialina Norman 196

Anchialina typica (Kroyer) .... 196

Anchialina grossa H. J. Hansen . . . 196
Anchialina obtusifrons, sp. nov., PI. 2,

figs. 4a-4c 197

Gastrosaccus Norman 198

Gastrosaccus pacificus, sp. nov., PI. 2,

figs. 3a-3g 198

Euchaetomera G. O. Sars ' . . . . 199
Euchaetomera typicus G. O. S., PI. 2,

figs. 5a-5c 199

Page
Euchaetomera tenuis G. 0. Sars . . 201
Euchaetomera plebeja, sp. nov., PI. 3,

figs, la-lb 202

Cryptomysis, gen. nov 203

Cryptomysis lamellicauda, sp. nov.,

PI. 3, figs. 2a-2m 204

Doxomysis, gen. nov 205

Doxomysis pelagica, sp. nov., PI. 3,

figs. 3a-3g 205

Euphausiacea 206

Bentheuphausia G. O. Sars .... 20(3
Bentheuphausia amblyops G. O. Sars 20
Thysanopoda H. Milne Edwards . . 207
Thysanopoda tricuspidata H. Milne

Edwards, PI. 4, fig. 2a 208

Thysanopoda cristata G. O. Sars, Pi. 3,

figs. 4a^c; PI. 4, figs, la-lh . . 209
Thysanopoda monacantha Ortmann,

PI. 4, figs. 3a-3c 212

Thysanopoda aequalis H. J. Hansen,

PI. 4, fig. 4a 214

Thysanopoda obtusifrons G. 0. Sars,

PI. 4, figs. 5a-5f 215

Thysanopoda pectinata Ortmaim, PI.

5, figs, la-lm 218

Thysanopoda orientalis H. .1. Hansen,

PI. 5, figs. 2a-2i 222

Thysanopoda cornuta Illig .... 223
Thysanopoda? cornuta Illig., .luv., PI.

6, figs, la-le 224

Thysanopoda egregia H. J. Hansen 225

Nyctiphanes G. O. Sars 226

Nyctiphanes simplex H. J. Hansen,

PI. 6, figs. 2a-2i; PI. 7, figs, la-lb . 227

Euphausia Dana 230

Euphausia eximia H. .T. Hanson, PI. 7,

figs. 2a-2g 230

Euphausia recur\ u II. .1. Hansen, PI. 7,

figs. 3a-3n 233

176

TABLE OF CONTENTS.

Page
Euphausia diomedea Ortmann, PI. 7,

fig. 4a 235

Euphausia mutica H. J. Hansen . . . 237
Euphausia brevis H. J. Hansen, PL S,

figs, la-lg 239

Euphausia pacifica H. .1. Hansen, PI. 7,

figs. 5a-5b 241

Euphausia tenera H. J. Hansen . . . 242
Euphausia gibba G. O. Sars, PI. 8, figs.

2a-2b 244

Euphausia paragibba H. J. Hansen . . 24G
Euphausia pseudogibba Ortmann . . 247
Euphausia distinguenda H. J. Hansen,

PI. 8, figs. 3a-3f 248

Euphausia lamellifera H. J. Hansen, PI.

8, figs. 4a-4e; PL 9, fig. la ... 2.50
Euphausia gibboides Ortmann, PL 9,

figs. 2a-2h 252

Euphausia mucronata G. O. Sars, PI.

9, figs. 3a-3g 255

Pseudeupliausia H. .1. Hansen . . . 257
Pseudeuphausia Litifrons G. O. Sars . 257

Nematoscclis G. O. Sars 258

Nematoscelis microps G. O. Sars, PI. 9,

figs. 4a-4d; PL 10, figs, la-lb . . 259
Nematoscelis gracilis H. J. Hansen, PL

10, fig. 2a 261

Nematoscelis tenella G. O. Sars, PI. 10,

figs. 3a-3c 2G3

Neniatobrachion Caiman 264

Nematobrachion boopis Caiman, PI.

10, figs. 4a-4d 267

Paqb
Nematobrachion flcxipes Ortmann, PL

10, figs. 5a-5m 269

Nematobrachion scxspinosus H. J. Han-
sen, PL 10, fig. 6a; PI. 11, figs, la-li 272

Stylocheiron G. O. Sars 273

Stylocheiron carinatum G. O. Sars, PI.

11, figs. 2a-2b 274

Stylocheiron microphthalma H. .1. Hun-
sen 277

Stylocheiron suhmii G. O. Sars, PI. 11,

figs. 3a-3b 277

Stylocheiron alfine H. J. Hansen . . 278
Stylocheiron longicorne G. O. Sars, PI.

11, figs. 4a-4b 279

Stylocheiron elongatum G. O. Sars . . 280
Stylocheiron abbreviatum G. O. Sars,

PL 11, figs. 5a-5f 280

Stylocheiron maximum H. J. Hansen 283
Larval stages of Euphausiaea, PI. 12 283
Thysanopoda sp. (T. monacantha aff.)

PI. 12, figs, la-lg 284

Euphausia distinguenda H. J. Hansen,

PL 12, figs. 2a-2c 287

Nyctiphanes simplex H. .1. Hansen, PL

12, figs. 3a-3f 288

Pseudeuphausia latifrons G. O. Sars,

PI. 12, figs. 4a-4b 290

Nematoscelis microps G. 0. Sars, PI.

12, figs. 5a-5c 291

Stylocheiron carinatum G. O. Sars, PL

12, figs. 0a-6d 293

The distribution of the Euphausiacca . 295
Explanation of the Plates

INTRODUCTORY REMARKS.

The collection dealt with in the present paper is extremely large, both
as to the number of species, sixty-three, and especially as to the numbers of
the specimens of the major part of the forms. A small portion of the material
was captured by the late Alexander Agassiz near the Fiji Islands in 1897, a still
smaller lot was secured during the trip of the "Albatross" in 1899-1900, but
the vast majority has been collected by Dr. Agassiz in 1904-1905 in the Eastern
Pacific. When we wish to get a closer insight into the whole topic it is, how-
ever, necessary to consider separately the two orders still not infrequently
united under the name Schizopoda, viz. Mj'^sidacea and Euphausiacea. And a
comparison with the results of the exploration of the Dutch "Siboga" Expedi-
tion in the Indian Archipelago is interesting.

Of the order Mysidacea only twenty-three species are at hand, fifteen of
which were secured in 1904-1905, while the remaining eight forms were exclu-
sively gathered during the earlier trips just mentioned. Fifteen species in all
from the Expedition in 1904-1905 is in reality a small number as compared with
the number of species already known of this order. But the explanation of this
fact is given below, and when we consider the order Euphausiacea the aspect
is quite different. Of the last-named order the collection contains forty species,
all with a single exception taken in 1904-1905 (some among them besides in
1899-1900 or off the Fiji Islands), but as only seventy-three species of this order
are known from all seas, it will be seen that Dr. Agassiz during that single
Expedition captured more than half of the world's fauna. The "Siboga"
gathered only twenty-five species of Euphausiacea but no less than forty-seven
species of Mysidacea. The explanation of this startling difference between the
results of the Agassiz Expedition of 1904-1905 and the "Siboga" Cruise is that
the Euphausiacea are nearly all true oceanic forms, while the majority of the
My.sidacea either inhabit shallow water, or live pelagically, or not far from the
bottom to a few hundred fathoms and within no very great distance from land.
And while the "Siboga" in the main explored the straits and comparatively

178 THE SCHIZOPODA.

smaller seas between the innumerable islands in the Indian Archipelago, the
Agassiz Expedition of 1904-1905 had the great majority of its Stations in the
open ocean and far from any coast.

On the Mysidacea at hand some remarks may be added. The eight species
not captured in 1904-1905 are small, pelagic forms taken near, or at most only
some miles from the coast; four among them are new, and one of these differs
so much from earlier known forms that it was necessary to establish a new genus
for its reception. Of the fifteen species taken in 1904-1905 four are new; three
of these belong to well-known genera, while a new genus is established for the
fourth. But by far the most important gain was the capture of Chalaraspis
alata (Will.-Suhm, MS.) Ci. 0. Sars. This genus as defined by Sars with its
single species has been described by him from a couple of sketches drawn by
Willemoes-Suhm during the "Challenger" Expedition, as the single specimen
had been lost. The genus belongs to the interesting suborder Lophogastrida,
comprising in all only six genera; the Agassiz Expedition secured some speci-
mens of Chalaraspis, and among them an adult male, thus rendering it possible
to give a detailed account of this hitherto rather enigmatic type.

The material of Euphausiacea is, as already stated, very rich, and besides
it is important in various respects. Among its forty species six could not be
referred to earlier established forms, but in a paper published in May, 1911,
I have given preliminary descriptions of these, and other, new species. Perhaps
one might expect that the number of undescribed species had been considerably
higher, but in the years 1905-1910 I had established a comparatively large
number of species of this order on animals from the Atlantic or the Indian
Archipelago; the major part of the species of the order have a very large or
frequently even vast distribution, and consequently more than three fourths
of the Euphausiacea from the East Pacific were known before from the Indian
Archipelago ("Siboga") or from the Atlantic, or from both Oceans. But the
collection made it possible to extend our knowledge of the distribution of the
major part of the species very much; furthermore, as the material, of nearly
all the new species, and besides of several earlier established but hitherto imper-
fectly known species, is rich and generally well preserved, it was possible to give
a full account of these forms. And without entering into other points eluci-
dated by the collection, for instance, the distribution of many of the species
within the area explored, geographical variation of some forms, etc., another

'H.J. Hansen: The Genera and Species of the Order Euphausiacea, with Account of remarkable
Variation. Bull. Mus. Ociaa. Monaco, No. 210.

INTRODUCTORY REMARKS. 179

consideration ought to be pointed out. In the Syn()p.sis inoiitioiieci (1!)11)
I set forth several reasons for the belief "that comparatively few, probably
not a dozen, species in the oceans of the globe are still undiscovered." And if
that view be correct it must be admitted that the results of the Agassiz explora-
tion in 1904-1905 are as to this order of Crustacea wonderfully rich, because
during that trip thirty-nine species were collected, thus a little more than half
of the species hitherto known — and not far from half of the species really
existing!— The collection contains besides a large number of larvae, of Euphau-
siacea, but on this topic it may be sufficient to refer to my remarks in the
chapter on the larval stages (p. 283-294).

As to the classification of the Mysidacea and some characters in the Euphau-
siacea — especially the important copulatory organs of first pair of pleopods
in the male — I may refer to the account in my paper on the "Siboga" Schizo-
poda frequently quoted on the following pages. Only a few points may be
added. Recently I found that in some genera (Thysanopoda, Nematoscelis,
and Nematobrachion) the maxillulae afford valuable specific characters or
characters for groups of species belonging to the same genus, furthermore that
in a few genera the maxillae show specific differences of some interest, finally
that in the genus Nematoscelis the thoracic legs afford excellent characters for
dividing the genus into two natural groups. — The nomenclature of the cepha-
lothoracic appendages in the two orders is identical with that applied in the
"Siboga" paper.

The geographical distribution of each species is mentioned. I have at-
tempted in all cases to give a full abstract of all trustworthy statements in the
literature, but as to several species of various genera (Euphausia, Nematoscehs,
Stylocheiron) most of the earlier statements had to be discarded as the species
in question were "collective." I have added a good many statements based
on the material of the Copenhagen Museum, but do not think it well to insert
still unpublished results based on collections to be reported on in the near
future, namely those from the Swedish Antarctic Expedition, from the U. S.
National Museum, etc.

And now I may express my deep regret that Dr. A. Agassiz did not li\-e
to see the publication of this paper, because it would certainly have been a
satisfaction for that great explorer to see how rich his collection of these groups
of Crustacea and especially of the oceanic Euphausiacea in reality was and
how important it proved for the advancement of this branch of zoological
science.

180 THE SCHIZOPODA.

Finally I desire to render my sincere thanks to the authorities of the Museum
of Comparative Zoology for their friendliness, and especially for allowing me
to employ my two very able countrymen, Mr. T. N. Moller, the engraver, and
Mr. J. Bech, the copper-plate printer, for the reproduction of my drawings.

Copenhagen, Sept. 18, 1911.

THE SCHIZOPODA.

I. The Order MYSIDACEA.
A. Suborder LOPHOGASTRIDA.
CHALARASPIS Willemoes-Suhm (1875).

Description. — Integument soft. Carapace thin, submembranaceous, with-
out processes, anteriorly produced as a very broad but somewhat short frontal
plate (Plate 1, fig. la), and with the postero-lateral rounded wings reaching
to the end of the thorax or a little more backwards; the cervical groove very
strong.

Eyes small, light reddish. Antennular peduncles (figs, la-lb) short and
extremely thick; inner flagellum thin, about as long as the peduncle. — Antennal
squama not jointed, with the outer margin serrate beyond the middle (fig. Ic). —
Maxillulae (fig. le) without palp and without setae or spines on the inner lobe. —
Maxillae (fig. If) somewhat reduced; the lobe from second (1'') and third (P)
joint distally rounded, undivided; the palp (p) very short, unjointed, and scarcely
marked off; the exopod strongly developed, very broad. — Maxillipeds (fig. Ig)
with the exopod about as long as the endopod, which distally is a little broader
than in Lophogaster.

Gnathopods slightly shorter than the following pair of legs, shaped as in
Lophogaster, with the seventh joint somewhat thick, a little curved, distally
rounded, and strongly setose. — Legs somewhat slender, and the last pair (fig. li)
considerably thinner than the first (fig. Ih) or second pair; claw long or very
long, thin; exopod well developed in all pairs (the ovigerous female is unknown).

Sixth abdominal segment with two pairs of acute teeth from the lateral
margin (fig. Ik), but the segment is not divided into two sections by any suture.
Uropods with the endopod slightly overreaching the telson and a little longer
than the exopod, which is not jointed towards the end (fig. 11). Telson (fig. 11)
oblong-triangular, with the narrow end truncate, with lateral spines, and a
couple of dorsal keels.

Remarks. — This genus is perhaps more allied and similar to Lophogaster
M. Sars than to any other genus of the suborder; from the genus named it is,
however, easily distinguished by the shape of the frontal plate, the reduced
eyes, the less developed maxillae, the long uropods, etc. As to the use of the

182 THE SCHIZOPODA.

name Chalaraspis I follow Sars (Challenger Rept., p. 51). Willemoes-Suhm
left two figures of a species to which he had given the name Chalaraspis alata.
The only specimen obtained by the "Challenger" had been lost, and therefore
Sars described the genus and the species from the drawings made by Suhm.
The drawings have been rendered as woodcuts by Sars; they were evidently
somewhat imperfect or inaccurate in several particulars. The figures show the
animal as having the carapace exceedingly large, covering the two anterior
abdominal segments and the lateral part of third segment. Among the ' ' Alba-
tross" material I found specimens agreeing tolerably with Suhm's figures in
all main features excepting the relative length of the carapace, but as specimens
of allied genera, Gnathophausia and Eucopia, sometimes are contracted to such
a degree that the carapace covers two segments of the abdomen, no stress can
be laid on the apparently very long carapace shown by Suhm's drawings, as
his specimen in all probability has been very much contracted. And Sars's
diagnosis of the genus agrees, so far as it goes, in the main with the description
founded on my specimens.

1. Chalaraspis alata Willemoes-Suhm, MS. G. O. Sars.
Plate 1, figs, la-ll.

1885. Chalaraspis alata G. O. Sars, Challenger Rept., 13, p. 51. (Two text-figures).

Sta.4665. Nov. 17, 1904. Lat. 11° 45' S., long. 86° 5.2' W. 300 fms. to surface. 1 very young

specimen.
Sta. 4672. Nov. 21, 1904. Lat. 13° 11.6' S., long. 78° 18.3' W. Top of Tanner net, 400 fms. to surface.

2 immature specimens (bad).
Sta. 4675. Nov. 22, 1904. Lat. 12° 54' S., long. 78° 33' W. 300 fms. to surface. 1 immature specimen.
Sta. 4719. Jan. 14, 1905. Lat. 6° 29.8' S., long. 101° 16.8' W. 300 fms. to surface. 1 male.

Description. — General aspect somewhat similar to that of Lophogaster. —
The frontal plate somewhat short but very broad, with the anterior transverse
margin straight or even slightly emarginate and the lateral angles broadly
rounded (figs, la-lb). The carapace has the cervical groove not only deep
but very curiously shaped; seen from the side (fig. lb) the groove seems to be
formed by two transverse furrows which unite laterally, while the anterior
furrow is again dorsally bifid; on the side the furrow is bent and is far from
reaching the lower margin of the carapace. A little more than the anterior
fourth of the lateral margin of the carapace is hollowed in a peculiar way, and
somewhat above the whole lateral margin a furrow runs from near the front
to the hind margin. Between the antero-lateral rounded angles of the frontal
plate and the cervical groove a pair of feeble longitudinal keels are seen (fig. la),
and the area between these keels is feebly concave ; a branchial groove is feebly
developed, and rarely the posterior third of the carapace has the middle line

CHALARASPIS ALATA. 183

distinctly keeled. The i)c)stero-lateral part of the carapace at each side is some-
what produced backwards and rounded as in Eucopia.

The eyes (fig. lb, o.) are small, a little compressed, seen from above (fig. la)
oblique-ovate, light reddish. — The antennular peduncles short and extremely
thick; second joint with an oblong, slender, moderately short process on the
outer side; third joint with the front margin projecting in an oblong, very acute
process above the insertion of the upper flagellum and a somewhat similar
process more downwards on the inner side of the joint; the upper flagellum
thin, with numerous joints and about as long as the peduncle; lower flagellum
very strong. — Last joint of the antennal peduncle with a small process on the
outer side just below the insertion of the squama; the squama itself is a thin
plate reaching somewhat beyond the end of the antennular peduncle, it is some-
what more than twice as long as broad (fig. Ic) with the inner margin very
convex and setose, the outer margin a little bent angularly near or a Httle beyond
the middle and its proximal part glabrous, the distal part serrate with 9-12
acute saw-teeth somewhat different in size.

The five anterior abdominal segments somewhat thick, dorsally flatly
convex, and some among them even with a small, a little excavated dorsal
area; lateral plates of the anterior segments rounded, on fifth, and sometimes
on fourth, segment the postero-lateral angle is produced in a tiny or small,
acute tooth. Sixth segment about as long as the fifth, with two pairs of obliquely
transverse, somewhat short and shallow furrows; the two pairs of lateral teeth
very acute. The uropods (fig. 11) with the endopods slightly overreaching
the telson and a little longer than the exopod, which has the end truncate and
three or four faint serrations along the outer margin. Telson (fig. 11) very
oblong-triangular, scarcely three times as long as broad, above with a pair
of high, longitudinal, very feebly serrate keels a little from the lateral margins,
and the area between these keels excavated longitudinally; the distal half of
each lateral margin with 5 or 6 spines; the end of the telson truncate, but hairs
or spines wanting — perhaps lost? — in the specimens.

Length of the largest specimen, a probably adult male, 35 mm.

Remarks. — I do not entertain the slightest doubt that the species described
here is C. alata. And I think it very important that it has been possible to fill
the gap in our knowledge of the only hitherto imperfectly studied genus of the
small but highly interesting suborder Lophogastrida.

Distribution. — The "Challenger" specimen was taken in the South Pacific:
"lat. 50° 1' S., long. 123° 4' E.; depth, 1800 fathoms." It is certainly a bathy-
pelagic form.

184 THE SCHIZOPODA.

GNATHOPHAUSIA Willemobs-Suhm (1875).

The material is scanty, consisting of seven specimens belonging to three
well-known species.

2. Gnathophausia ingens (Dohrn).

1870. Lophogaslcr ingens Dohrn, Zeilschr. wiss. ZooL, 20, p. GIO; taf. 31, figs. 12-14.
1885. Gnathophausia ingens G. O. Saus, Challenger Rcpt., 13, p. 30, pi. 2.

Gnathophausia calcarata G. O. Sars, Clmllcnger Rept., 13, p. 35, pi. 4.

1891. Gnathophausia hengalensis Wood-Mason, Ann. Mag. Nat. Hist., ser. 6, 8, p. 269.
1906. Gnathophausia ingens Ortmann, Proc. U. S. Nat. Mus., 31, p. 28.

Gnathophausia calcarata Ortmann, Pi'oc. U. S. Nat. Mus., 31, p. 30, i)l. 1, figs. 2a, 2b.

Sta. 36,81. Aug. 27, 1899. Lat. 28° 23' N., long. 120° 57' W. 3.50 fnis. to surface. 1 specimen.

Remarks. — The specimen, which measures about 68 mm., agrees well with
Ortmann's description of G. calcarata G. O. S. Dr. A. Alcock kindly sent me
Wood-Mason's type of G. hengalensis and I can confirm Ortmann's interpreta-
tion that it is identical with G. calcarata. Wood-Mason said that "the upper
lateral keels are strongly roof-shaped," but Ortmann was unable to understand
the meaning of this sentence; I suppose, however, that Wood-Mason intended
to say that the keels in question protrude laterally as eaves above the vertical
sides of the carapace, when this is seen from behind or in an optic transverse
section.

Ortmann (1. c, p. 28-30 and p. 34) was of the opinion that G. ingens
(Dohrn) G. 0. Sars, is the full-grown female of G. calcarata (Will.-Suhm, MS.) G.
0. S., and I am able to add three points corroborating his view. I examined
Sars's " Challenger " specimens of G. ingens (Dohrn) in the British Museum and
found that it possessed the two pairs of oblique keels on the upper surface of the
carapace, these keels being even well developed and completely similar to those
on the type of G. calcarata ; Ortmann rightly supposed that these keels had been
overlooked by Dohrn and Sars. Furthermore Sars's figure of the ventral epi-
meral plates of the sixth abdominal segment in G. ingens is incorrect; the sUt
between the two posterior lobes of the plate is longer and narrower in proportion
to the breadth of the lobes than in his fig. G (PI. II), and, what is of more
importance, each lobe has its outer terminal angle produced into a somewhat
short, pointed tip, while the inner terminal angle at the slit is acute but very
slightly produced, thus situated somewhat in front of the outer tip and shaped
about as in G. calcarata, but differing notably from Sars's fig. 6 of G. ingens.
Finally Sars says in the diagnosis of G. ingens: " branchiostegal spines ob.solete,"
but he overlooked that these spines liad been broken off in his specimen. I
think one is now justified in adopting Ortmann's supposition and may safely
take the step to jvithdraw G. calcarata, considering it only as a synonym.

GXATIIOPHAUSIA GRACILIS. 185

Distribuiion. — Accordini;- to the literature this species is known IVoin ofT
the West coast of Africa, "Laos," fioiu llu- (lulf of Mexico, the Bay of Bengal,
the Arafura Sea, South of Mindanao, the Hawaiian Islands, and is coinmon in
the California iv^ion in the East Pacific.

3. Gnathophausia gracilis WiixEMoijs-SiriiM.

1875. Gnalhoplianxid (jracilis Willemoes-Suhm, Trans. Linn.Soi'. Ijomloii, scr. 2, 1, p. 3.'!, j)!. 9, fiK- I.

1885. Gnathop)i(iu.iiii gracilU G. O. Sars, Challenger Rept., 13, p. 48, pi. 7, figs. 6-10.

1891. Gnalhophiiiisin hrevispinis Wood-Ma.son & Alcock, Ann. Mag. Nat. Ili.st., ser. (J, 7, p. 269.

1895. Gnalhophiiusia hrcritspinis Faxon, Mem. Mus. Comp. ZoiJl., 18, p. 21(1, pi. .1.

190(). Gnalhophtnisid (jrarUis Oktmann, Proc. U. S. Nat. Mus., 31, p. 39.

Sta. 4651. Nov. 11. 1904. Lat. 5° 47.1' S., long. 82° 59.7' W. 2222 fnis., trawl. 1 specimen.

8ta. 4652. Nov. 11, 1904. Lat. 5° 44.7' S., long. 82° 39.5' W. 400 fms. to surface. 1 small specimen.

Sta. 4656. Nov. 13, 1904. Lat. 6° 54.6' S., long. 83° 34.3' W. 2222 fms., trawl. 1 specimen.

Sta. 4709. Dec. 30, 1904. Lat. 10° 15.2' S., long. 95° 40.8' W. 2035 fms., trawl. 1 specimen.

Sta 4715. Jan. 2,1905. Lat. 2° 40.4' S., long. 90° 19.3' W. On way up from 1743 fms. 1 specimen.

Remarks. — The largest specimen, a male from Sta. 4709, is G9 mm. long;
a female with the marsupium well developed (from Sta. 4656) is 65 mm. long,
and another female with marsupium (from Sta. 4715) is 62 mm. These three
large specimens have on the gastric area an oblong, rather high, lamellar, sub-
triangular, dentate crest terminating in a spiniform process; besides they have
the lateral plates of the five anterior abdominal segments expanded posteriorly;
the expansion of the plates of first segment is small in the two females, moder-
ately large in the male, antl the expansions increase in all three specimens
gradually and considerably in size from first to fourth segment, while those of
the fifth segment are somewhat smaller. In the smallest specimen, measuring
25 mm., the anterior dorsal spine on first abdominal segment is extremely small,
the lateral plates of the abdominal segments are not expanded posteriorly,
and the lamellar crest on the gastric area is rudimentary with a small spine
above; in the fifth specimen, which is 37 mm. long, the last-named lamellar
crest is developed nearly as in the large specimens, but the lateral plates of the
second to the fifth abdominal segments are very feebly expanded.

I have examined the type-specimen of Willemoes-Suhm and G. O. Sars;
it measures 41 mm. and is preserved in the British Museum. It has on the
gastric region a small, oblong, triangular, lamellar plate with a spine on the
vertex and a little farther behind there are four small saw-like teeth in a longi-
tudinal row; furthermore the lateral plates of the abdominal segments are
feebly expanded nearly as in the above mentioned specimen measuring 37 mm.
Dr. Alcock loaned me the type of G. brevispinis, and an examination gave the

186 THE SCHIZOPODA.

result that it is identical with G. gracilis Will.-Suhm, as already pointed out by
Ortmann.

Ortmann's elaborate account of this characteristic species is very good;
my own examination of the types corroborates his statements and critical
remarks. The study of the five specimens from the Agassiz collection and the
two types mentioned shows that the lamellar crest is well developed both in
full-grown and a little more than half-grown specimens, but rudimentary in a
much smaller specimen, while the expansion of the lateral plates of the five
abdominal segments is well developed only in full-grown specimens and feebly
developed in specimens measuring 37-41 mm. in length. It may be added that
the anterior dorsal sj^iniform process on first abdominal segment is always
much smaller than the posterior, but proportionately considerably longer in
large than in small specimens. The character pointed out by Ortmann that
"there are two triangular, pointed epimeral lappets on each side of the anterior
part of the sixth segment ' ' is very interesting.

Distribution. — According to the literature this species has a wide distribu-
tion:— Atlantic at Lat. 1° 22' N., long. 26° 3G' W., Bay of Bengal, off Galapagos,
ofif Panama, and off Central California. It is a bathypelagic species, taken in
depths from more than 600 to more than 2000 fathoms to surface, the only
exception being the small, not half grown specimen from Sta. 4652 taken in 400
fathoms to surface.

4. Gnathophausia zoea Willemoes-Suhm.

1875. Gnathophausia zoeo Willemoes-Suhm, Trans. Linn. Soc. London, ser. 2, 1, p. 32, pi. 9, figs. 2-15;

pi. 10, fig. 4.

1885. Gnathophausia zoea G. O. Sars, Challenger Rept., 13, p. 44, pi. 6, figs. 6-10.

Gnathophausia willemnesii G. O. Sars, Challenger Rept., 13, p. 38, pi. 5, figs. 1-6.

1S91. Gnathophausia sarsi Wood-Mason and Alcock, Ann. ISIag. Nat. Hist., ser. 6, 7, p. 187.

1906. Gnathophausia zoea Ortmann, Proc. U. S. Nat. Mus., 21, p. 42.

1908. Gnathophausia zoea H. J. Hansen, The Danish Ingolf-Exp., 3, 2, p. 93, pi. 4, figs. 3a-3c.

1910. Gnathophausia zoea H. J. Hansen, Siboga-Exp., 37, p. 17.

Sta. 4641. Nov. 7, 1904. Lat. 1° 34.4' S., long. 89° 30.2' W. 633 fms., trawl. 1 specimen.

Remarks. — As to variation, size, etc., of this species I refer to Ortmann's
paper and to the remarks in my two recent treatises. The specimen from the
Agassiz Expedition is about half grown and shows nothing of interest.

Distribution. — This species is common in the tropical and northern tem-
perate Atlantic, where it is found northwards even to West of Iceland : Lat. 64°
45' N., long. 29° 06' W. (Ingolf-Exp.); it has been taken in the Bay of Bengal,
in the Indian Archipelago, and is widely distributed in the tropical and northern
temperate Pacific. Detailed statements on the geographical and bathymetrical
occurrence are found in Ortmann's paper and in my two recent reports.

EUCOl'lA UNGridLATA. 187

EUCOPIA Dana (1852).

The genus comprises four species, three of which are represented in this col-
lection. In the account t)f the "Siboga" Schizopoda I have given an analytical
key to the species and have dealt with the synonymy.

5. Eucopia unguiculata (Willemoes-Suhm).

1S75. Chalamspis unguinilald Willemoes-Suhm, Trans. Linn. Soc. London, ser. 2, 1, p. 37-40, pi. 8

(partim).
1905. Eucopia unguicukda H. J. Han.sen, Bull. Mus. Ocean. Monaco, no. 42, p. 3.
1910. Eucopia unguiculata H. J. Hansen, Siboga-Exp., 37, p. 20, pi. I, fig. 3a.

In this list I do not include Sars's account of his Eucopia auslralis Dana
in the "Challenger" Rept., p. 55, pis. 9-10, because he, as pointed out in the
"Siboga" paper, has confused three species, viz. E. auslralis Dana with figs.
1-2 on his pi. 9, E. sculpiicauda Faxon, to which his figures 13-17 on pi. 10
belong, and E. unguiculata Will.-Suhm, to which at least the majority of his
other figures belong.

Sta. 4646. Nov. S, 1904. Lat. 4° 1.6' S., long. 89° 16.3' W. 300 fms. to surface. 1 specimen.

Sta. 4650. Nov. 10, 1904. Lat. 5° 22' S., long. 84° 39' W. 300 fni.s. to surface. 1 specimen.

Sta. 4652. Nov. U, 1904. Lat. 5° 44.7' S., long. 82° 39.5' W. 400 fms. to surface. 1 specimen.

Sta. 4655. Nov. 12, 1904. Lat. 5° 57.5' S., long. 80° 50' W. 400 fms. to surface. 1 specimen.

Sta. 4664. Nov. 17, 1904. Lat. 11° 30.3' S., long. 87° 19' W. 300 fms. to surface. 1 specimen.

Sta. 4667. Nov. 18, 1904. Lat. 11° 59.5' S., long. 83° 40.4' W. 300 fms. to surface. 5 specimens.

Sta. 4668. Nov. 19, 1904. Lat. 12° 9.3' S., long. 81° 45.2' W. Bottom of Tanner net, 300 fms. 1

specimen.

Sta. 4669. Nov. 19, 1904. Lat. 12° 12.7' S., long. 80° 25.6' W. 300 fms. to surface. 6 specimens.

Sta. 4671. Nov. 20, 1904. Lat. 12° 6.9' S., long. 78° 28.2' \V. 300 fms. to surface. 8 specimens.

Sta. 4672. Nov. 21, 1904. Lat. 13° 11.6' S., long. 78° 18.3' W. 400 fms. to surface, Tanner net,

closed bottom. 1 specimen.

Sta. 4676. Dec. 5, 1904. Lat. 14° 28.9' S., long. 81° 24' W. 300 fms. to surface. 3 specimens.

Sta. 4679. Dec. 7,1904. Lat. 17° 26.4' S., long. 86° 46.5' W. 300 fms. to surface. 1 specimen.

Sta. 4716. Jan. 2, 1905. Lat. 2° 18.5' S., long. 90° 2.6' W. 600 fms. to surface. 1 specimen.

Remarks. — The largest specimen, an adult male from Sta. 4676, measures
33 mm. in length, and is thus uncommonly large; the largest female with marsu-
pium, from Sta. 4655, is 32 mm. long.

Distribution. — The species is common in the Western Mediterranean and
the northern temperate Atlantic and extends far northwards, as it has been taken
in the Davis Straits at Lat. 61° 50' N. and West of Iceland at Lat. 64° 38' N.,
long. 32° 37' W. (Ingolf-Exp.). It is known from some localities in the Indian
Archipelago; as shown above, it is not uncommon in a good portion South of
Lat. 4° S. of the area explored in 1904-1905, and it is probably widely distributed
in the tropical and temperate Pacific; Ortmann (1906) records a specimen from

188 THE SCHIZOPODA.

North Coronado Island, California. Its distribution southward in the three
large Oceans is still unknown. The majority of the localities enumerated
in the literature by the authors until July 1905 for E. australis Dana certainly
belong to E. unguiculata, but some among them to E. 7najor or E. australis,
and all specimens referred before July 1895 to E. australis should be reexamined.
The real E. australis Dana is a very large i^ntarctic species. The species has,
as far as I know, never been taken near the surface.

6. Eucopia major H. J. Hansen.

1910. Eucopia major H. J. Hansen, Siboga-Exp., 37, [i. 21, pi. 1, fig.s. 4a-4b.

Sta. 4645. Nov. 8, 1904. Lat. 3 °.37.G' S., long. 89° 43.1' W. 1955 fms., trawl. 1 .specimen (only a

fragment).

Sta. 4651. Nov. 11, 1904. Lat. 5° 41.7' S., long. 82° 59.7' W. 2222 fms., trawl. 2 specimens.

Sta. 4742. Feb. 1.5, 1905. Lat. 0° 3.4' N., long. 117° 15.8' W. 2320 fms., trawl. 1 specimen.

Remarks. — This species was estabhshed on a badly preserved female with
marsupium secured by the "Siboga" and measuring 42 mm. in length. The
specimens from the Pacific are also badly preserved; a male, from Sta. 4651,
is 58 mm. long, and a female, from Sta. 4742, with the marsupial plates perhaps
not fully developed is even, about 60.5 mm. But I am inclined to think that
these specimens had been a little shorter in the living state than in their present
bad and seeiningly extended condition.

The species is easily separated from E. unguiculata by its much larger size,
the largest specimen recorded of the last-named species was only 38 mm., and
especially by having its short eyes looking forwards, occupying less than one
fourth of the outer margin of the whole appendage (stalk + cornea), while in
E. unguiculata the cornea looks in the main outwards and occupies more than
one third, frequently about two fifths, of the same outer margin. E. major
is readily distinguished from E. australis Dana by having the terminal joint
of the exopod of the uropods distinctly broader than long, while in E. australis
it is longer than broad ; besides the eye-stalks are projjortionately longer and
narrower in E. australis than in E. major.

Distribution. — A single specimen was captured in the Indian Archipelago
by the "Siboga," and in 1910 some specimens were secured by the Prince
of Monaco in the Atlantic West of Southern Spain. In 1906 Ortmann enumer-
ated six localities in the North Pacific northwards to Lat. 56° 12' N. and one
locality in the West Indies for E. australis, but as E. australis Dana is an Ant-
arctic species his determinations cannot he correct. As he had separated E.
unguiculata from his E. australis I think that the specimens from his seven

EUCOPIA SCULPTICAUDA. 189

localities belong either all to E. major or some to E. major and others either to a
hitherto undescribed species or that they are young specimens of E. sculplicauda
Faxon.

7. Eucopia sculpticauda Faxon.

1893. Eucopia sculpticauda Faxon, Hull. Mus. Cornp. ZoOl., 24, p. 218.

1895. Eucopia sculplicauda Faxon, Mom. Mils. Comp. Zool., 18, p. 219, pi. K, figs. 2, 2il; pi. 53, figs.

1-ld.
1905. Eucopia inlermedia H. J. Hansen, Bull. Mus. Oc&n. Monaco, no. 30, p. 5, figs. 2-3. (Young).
1905. Eucopia sculpticauda H. J. Hansen, Bull. Mus. Oc6:in. Monaco, no. 30, p. G-7; fig. 4.

Sta. 4645. Nov. 8, 1904. Lat.. 3° 37.6' S., long. 89° 43.1' W. 1955 fms., trawl. 1 adult female.

Sta. 4648. Nov. 9, 1904. Lat. 4° 43' S., long. 87° 7.5' W. 300 fms. to surface. 1 young specimen.

Sta. 4652. Nov. 11, 1904. Lat. 5° 44.7' S., long. 82° 39.5' W. 400 fms. to surface. 4 specimens

(1 female with marsupium, 3 young specimens).

Sta. 4657. Nov. 13, 1904. Lat. 7° 12.5' S., long. 84° 9' W. 300 fms. to surface. 2 young specimens.

Sta. 4664. Nov. 17, 1904. Lat. 11° 30.3' S., long. 87° 19' W. 300 fms. to surface. 2 young specimens.

Sta. 4667. Nov. 18, 1904. Lat. 11° 59.5' S., long. 83° 40.4' W. 300 fms. to surface. 1 young specimen.

Sta. 4676. Dec. 5, 1904. Lat. 14° 28.9' S., long. 81° 24' W. 300 fms. to surface. 1 young specimen.

Sta. 4715. Jan. 2,1905. Lat. 2° 20.4' S., long. 90° 19.3' W. 300fms. to surface. 1 young specimen.

Sta. 4721. Jan. 1.5, 1905. Lat. 8° 7.5' S., long. 104° 10.5' W. 2084 fms., trawl. 2 adult females.

Sta. 4724. Jan. 17,1905. Lat. 11° 13.4' S., long. 109° 39' \V. 1841 fms., trawl. 1 adult female.

Remarks. — As already mentioned in the "Siboga" paper E. intermedia
is only the young, differing from large or adult specimens in having the telson
scarcely or not at all constricted a little before the tip and without any network
of ridges on a portion of its surface, furthermore by having the first pair of
thoracic legs somewhat less thick than in the adult, but yet much thicker than
in the three other species of the genus.

As seen in the list, five females with marsupium have been captured. The
smallest female (from Sta. 4652) is only 30 mm. long, the largest (from Sta. 4724)
is 49 mm., the three other respectively 31.6 mm., 34.5 mm. and 36.5 mm. Faxon
has mentioned a female measuring 66 mm. in length.

Distribution. — Faxon established E. sculplicauda on some specimens from
the tropical Pacific (the Galapagos, the Gulf of Panama, off Central America) ;
Ortmann (1905) enumerated two specimens from the Hawaiian Islands. It has
been taken by the "Investigator" in the Bay of Bengal, by the Prince of Monaco
in various places within the triangular area between Gibraltar, the Azores, and
the Canary Islands; finally West of the Hebrides and Southwest of Iceland
at Lat. 62° 25' N., long. 28° 30' W. (Ingolf-Exp.).

It is interesting that all the specimens captured by the ".Albatross" at
the six Stations in depths from 300 fms. to surface are not full grown, while
one adult female is from 400 fms. to surface and the four other adult females
from much greater depths to surface. This seems to confirm my observations

190 THE SCHIZOPODA.

as to GnatJiophausia zoea Will.-Suhm, Sergestes ardicus Kr., and Sergestes robustus
Smith, "that small specimens are often at least found nearer the surface than
the larger and that the wholly developed specimens are always only met with
in deeper layers."

B. Suborder MYSIDA.

BOREOMYSIS G. O. Sara (1869).
S. Boreomysis media, sp. nov.

Plate 1, figs. 2a-2b.

Sta. 4652. Nov. 11, 1904. Lat. 5° 44.7' S., long. 82° 39.5' W. 400 fnis. to surface. 1 adult female

(Type).

Sta. 4655. Nov. 12, 1904. Lat. 5° 57.5' S., long. 80° 50' W. 400 fms. to surface. 1 adult female.

Sta. 4675. Nov. 22, 1904. Lat. 12° 54' S., long. 78° 33' W. 300 fms. to surface. 1 adult female.

Description. — Frontal plate very considerably produced (fig. 2a), with
the transition between the front margin and the oblique lateral margin consid-
erably curved; the front margin is produced in a conspicuous, triangular, acute
rostrum. Eyes of very moderate size, brownish, somewhat depressed, scarcely
as broad as the end of the stalk, which is a little broader than long and with
a triangular process of moderate size on the upper surface. The antennal
scjuama somewhat short, only three times as long as broad, with the outer
margin nearly straight, the inner considerably convex and the end scarcely more
than half as broad as the squama a little behind the middle; the terminal margin
somewhat oblique and the outer tooth very distinct.

Exopod of uropods (fig. 2b) eight times as long as broad, with a couple
of spines placed a little beyond the end of the proximal sixth of the outer margin.
Telson scarcely three times as long as broad, because its proximal third is very
broad; from the end of that third the telson tapers strongly to the beginning
of the distal fourth, where it is narrow, only two fifths as broad as at the base;
its terminal fourth widens feebly to the end; the incision, which occupies one
fifth or one sixth of the whole length, has no angles on its margins and its proxi-
mal part is shaped as a triangle with its two sides a little convex. • Each lateral
margin from the end of the proximal third to near the distal end is furnished
with about 10-11 moderately small spines and 18-20 very small spines, the
latter regularly arranged between the former and generally two small spines
in each interval (fig. 2b, a) ; along the distal part of the margin the spines are
more equal in size, small.

Length of a female with marsupium (from Sta. 4652) 19.5 mm.

Sta.

4650.

Nov.

10,

1904.

Sta.

4652.

Nov.

11,

1904.

Sta.

4655.

Nov.

12,

1904.

Sta.

4671.

Nov.

20,

1904.

Sta.

4676.

Dec.

5,

1004.

Sta.

4679.

Dec.

7.

1904.

BOREOMVSIS FRAGILIS. 191

Remarks. — This species is allietl to B. sibogae H. J. H., Ijut differs especially
in having the antenna! squama conspicuously broader with the end obhque
and the inner margin more convex; furthermore, the telson is distally much
narrower and the incision conspicuously shorter than in B. sibogae.

9. Boreomysis fragilis, sp. nov.

Plate 1, fig. 3a; Plate 2, fig. la.

Lat. 5° 22' S., long. 84° 39' W. 300 fm.s. to surface. 3 specimens.
Lat. 5° 44.7' S., long. 82' 39.5' W. 400 fms. to surface. 1 specimen.
Lat . 5° 57.5' S., long. 80° 50' W. 400 fms. to surface. 1 adult female.
Lat. 12° 6.9' S., long. 78° 28.2' W. 300 fms. to surface. 1 specimen.
Lat. 14° 28.9' S., long. 81° 24' W. 300 fms. to surface. 1 specimen.
Lat. 17° 26.4' S., long. 86° 46.5' W. 300 fms. to surface. 2 adult speci-
mens, male (Type) and female.

Description. — Frontal plate considerably produced, subtriangular (fig. 3a),
with the lateral margins very feebly convex and a little concave in front at the
rostral process, which is triangular, acute, and bent a little upwards. Eyes very
small, reddish brown, looking forwards and especially downwards, only a narrow
strip being visible from above; the eye-stalks increase somewhat in breadth
from the base outwards and are somewhat longer, measured from the middle
of the terminal margin, than broad; at the upper inner angle produced into an
oblong-triangular process reaching considerably beyond the cornea.

The antennal squama is somewhat less than four times as long as broad,
broadest somewhat before the middle and there almost twice as broad as at the
end; the outer margin is feebly concave, the terminal margin oblique, and the
outer tooth very distinct.

Exopod of the uropods (fig. la) seven times as long as broad, with a couple
of fine spines on the outer margin at the end of its naked basal fifth. Telson
proportionately broad, scarcely more than three times as long as broad, but at
the beginning of its terminal fourth only about two fifths as broad at a little
from the base; the terminal incision, which occupies about one fifth of the total
length, has its proximal portion triangular and a little acuminate, while the major
part of the lateral margins of the incision are more or less distinctly diverging.
The lateral margins of the telson are furnished with a moderately small number
of spines; seven or eight at each side are somewhat small but yet considerably
or much longer than the others which are very or extremely small.

In the adult male the exopod of third pair of pleopods is about half as
long again, the exopod of second pair about one third as long again, as the
endopod.

192 THE SCHIZOPODA.

Length of the male 12 mm., of a female with marsupium 13 mm.

Remarks. — This small species is allied to B. rtiicrops G. 0. Sars, but differs
especially in having the process at the end of the eye-stalks very much larger
and the longer lateral spines on the telson much shorter than in the last-named
species. The integuments are thin; not a single specimen is really well pre-
served, and the majority a good deal mutilated and somewhat shrivelled; most
of them are besides immature or small.

It may be mentioned that a small, oblong ganglion is found at the base
of the process on the eye-stalks; this ganglion is connected with the large optic
ganglion by a couple of nerve fibres, and from it a fibre runs towards the end
of the process, which probably may have some sensory function.

SIRIELLA Dana (1850).

Of this very large genus four species are at hand, three of which were taken
in 1904-1905, and a fourth in 1900.

10. Siriella thompsonii (II. Milne Edwards).

1837. Cynthia thompsonii H. Milne Edwards, Hist. Nat. Crust., 2, p. 402.

1852. fSiriella vilrea Dana, U. S. Expl. Exp. Crust., 1, p. 656, pi. 43, figs. 0a-6m.

?Siriella breoipes Dana, U. S. Expl. Exp. Crust., 1, p. 658, pi. 44, figs, la-lq.

1861. Cynthia incrinis Kroyer, Nat. Tidsskr., 3, R. 1, p. 44, tab. 2, fig. 6, a-g.

1868. Siriella edwardsii Claus, Zeitsphr. wiss. Zoo!., 17, p. 271, taf. 18.

1882. SirieUides indica Czerniav.sky, Mon. Mj-sid., 1, p. 103, tab. 31, figs. 1-6.

1885. Siriella thnmpsoni G. O. Sars, Challenger Kept., 13, p. 205, pi. 36, figs. 1-24.

1910. Siriella thompsonii H. J. Hansen, Siboga-Exp., 37, p. 31 (with further notes on synonymy).

Sta. 4571. Oct. 7,1904. Lat. 33° 40' N., long. 119° 35' W. 4 fms., surface net. 2 specimens.

Sta. 4576. Oct. 8, 1904. Lat. 29° 52' N., long. 116° 56' W. Surface. 1 specimen.

Sta. 4611. Oct. 18, 1904. Lat. 10° 33' N., long. 88° 30' W. Surface. More than 30 specimens

Sta. 4615. Oct. 19, 1904. Lat. 9° 7' N., long. 85° 11' W. Sm-face. 2 specimens.

Sta. 4617. Oct. 20, 1904. Lat. 7° 45' N., long. 82° 25' W. Surface. 1 specimen.

Sta. 4619. Oct. 20, 1904. Lat. 7° 15' N., long. 82° 8' W. Surface. 2 specimens.

Sta. 4635. Nov. 4, 1904. Lat. 3° 52.5' N., long. 84° 14.3' W. Surface. 3 specimens.

Sta. 4640. Nov. 6,1904. Lat. 0° 39.4' S., long. 88° 11' W. Surface. 1 specimen.

Sta. 4646. Nov. 8,1904. Lat. 4° 1.6' S., long. 89° 16.3' W. Surface. 1 specimen.

Sta. 4648. Nov. 9, 1904. Lat. 4° 43' S., long. 87° 7.5' W. Surface. 1 specimen.

Sta. 4667. Nov. IS, 1904. Lat. 11° 59.5' S., long. 83° 40.4' W. Surface. 1 specimen.

Sta. 4071. Nov. 20, 1904. Lat. 12° 6.9' S., long. 78° 28.2' W. Surface. 3 specimens.

Sta. 4677. Dec. 5, 1904. Lat. 14° 37.5' S., long. 81° 41' W. Surface. 1 specimen.

Sta. 4678. Dec, 6, 1904. Lat. 16° 31.2' S., long. 85° 3.8' W. Surface. 1 specimen.

Sta. 4680. Dec. 7, 1904. Lat. 17° 55' S., long. 87° 42' W. Surface. 13 specimens.

Sta. 4682. Dec. 8,1904. Lat. 19° 7.6' S., long. 90° 10.6' W. Surface. 2 specimens.

Sta. 4683. Dec. 9,1904. Lat. 20° 2.4' S., long. 91° 52.5' W. 300 fms. to surface. 1 specimen.

Sta. 4685. Dec. 10, 1904. Lat. 21° 36.2' S., long. 94° 56' W. 300 fms. to surface. 2 specimens.

Sta. 4086. Dec. 10, 1904. Lat. 22° 2.2' S., long. 95° 52' W. Surface. 2 specimens.

Sta. 4688. Dec. 11, 1904. Lat. 23° 17.2' S., long. 98° 37.5' W. Surface. 3 specimens.

Sta. 4092. Dec. 13, 1904. Lat. 25° 40.4' S., long. 104° 1.3' W. Surface. 1 specimen.

Sta. 4094. Dec. 22, 1904. Lat. 20° 34' S., long. 108° 57.3' W. Surface. 4 specimens.

siRTF.i.T.A r.n.vriLTs. 193

Sta. 4695. Dec. 23, 1904. Lat . 2,')° 22.4' S., long. 107° 4,5' W. 300 fiiLS. to surface. 2 specimens.

Sta. 4696. Dec. 23, 1904. Lat. 24° 40.3' S., long. 107° 5.3' W. Suiface. 7 .specimens.

Sta. 4698. Dec. 24, 1904. Lat. 22° 50.4' S., long. 105° 31.7' W. .Surface. 1 specimen.

Sta. 4700. Dec. 25, 1904. Lat. 20° 2S.8' S., long. 103° 2G.3' W. Surface. 5 specimens.

Sta. 4702. Dec. 26, 1904. Lat. 18° 39.5' S., l<mg. 102° W. Surface. 1 specimen.

Sta. 4704. Dec. 27, 1904. Lat. 16° 55.3' S., long. 100° 24.fi' W. Surface. 1 specimen.

Sta. 4706. Dec. 28, 1904. Lat. 14° 18.7' S., long. 98° 45.8' W. Surface. 1 specimen.

Sta. 4709. Dec. 30, 1904. Lat. 10° 15.2' S., long. 95° 40.8' \V. 300 fius. to surface. I specimen.

Sta. 4710. Dec. 30, 1904. Lat. 9° 30.5' S., long. 95° 8.3' W. Surface. 1 specimen.

Sta. 4712. Dec. 31, 1904. L.at. 7° 5' S., long. 93° 35.5' W. Surface. 11 specimens.

Sta. 4718. Jan. 13, 1905. Lat. 5° 32.4' S., long. 90° 32.2' W. Surface. 1 specimen.

Sta. 4720. Jan. 14, 1905. Lat. 7° 13.3' S., long. 102° 31.5' W. Surface. 1 specimen.

Sta. 4723. Jan. 16, 1905. Lat. 10° 14.3' S., long. 107° 45.5' W. Surface. 14 specimens.

Sta. 4725. Jan. 17, 1905. Lat. 11° 38.3' S., long. 110° 5' W. Surface. 7 specimen.s.

Sta. 4727. Jan. 18, 1905. Lat. 13° 03' S., long. 112° 44.9' W. Surface. 12 .specimens.

Sta. 4729. Jan. 19, 1905. Lat. 14° 15' S., long. 115° 13' W. Surface. 6 specimens. -

Sta. 4741. Feb. 11,1905. Lat. 8° 29.7' S., long. 122° .56' W. Surface. 1 specimen.

Remarks. — Adult specimens of both sexes vary extremely in length. The
smallest female with marsupium (from Sta. 4702) is 4.4 mm. long, another
female (from Sta. 4696) scarcely 4.5 mm., while the large.st female (from Sta.
4680) is 9.6 mm. from the end of the frontal plate to the tip of the telson. One
of the smallest males (from Sta. 4678) is 6.6 mm., and the largest male (from
Sta. 4677) is 9.8 mm. The number of spines on the distal part of the outer
margin of first joint of the exopod of the uropods varies from 3 to 6.

Three females from Sta. 4727, two from Sta. 4680, and one female from
Sta. 4611 and from Sta. 4671, have an Epicarid, probably Dajus siriellae G. O.
Sars, in the marsupium.

Distribution. — According to the literature and the collections seen by me
this species is widely distributed in the tropical and warmer temperate areas of
the Atlantic, the Indian Ocean, and the Pacific; the Copenhagen Museum
possesses specimens from about fifty places in these Oceans. In the Atlantic
it has been taken northwards to Lat. 42° N., long. 44° W., southwards to Lat.
40° 32' S., long. 52° 2' W., in the Indian Ocean southwards to Lat. 40° 4' S.,
long. 53° 25' E. (specimens from these three localities in the Copenhagen Mu-
seum) ; in the Pacific it was taken at Lat. 33° 40' N. in 1904, and southwards
it is known from a point between Sidney and Wellington (G. O. Sars). It
has generally been captured at the surface; I am even inclined to think that
the specimens from the three Stations named above from "300 fms. to surface"
were taken near the surface.

11. Siriella gracilis D.\n.\.

1852. Siriella gracilis D.\na, U. S. Expl. Exp. Crust., 1. p. 65S, pi. 44, figs, la-lg.
1885. Siriella gracilis G. O. Sars, Challenger Kept., 13, p. 209, pi. 36, figs. 25-28.
X910. Siriella gracilis H. J. Hansen, Siboga-Exp., 37, p. 31.

194 THE SCHIZOPODA.

Sta. 4592. Oct. 13, 1904. Lat. 18° 20' N., long. 103° 40' W. Surface. 2 specimens.

Sta. 4607. Oct. 17, 1904. Lat. 12° 00' N., long. 91° 30' W. Surface. 1 specimen.

Sta. 4611. Oct. 18; 1904. Lat. 10° 33' N., long. 88° 30' W. Surface. 10 specimens.

Sta. 4619. Oct. 20, 1904. Lat. 7° 15' N., long. 82° 8' W. Surface. 5 specimens.

Sta. 4640. Nov. 6, 1904. Lat. 0° 39.4' S., long. 88° 11' W. Surface. 1 specimen.

Sta. 4712. Dec. 31, 1904. Lat. 7° 5' S., long. 93° 35.5' W. Surface. 3 specimens.

Sta. 4716. Jan. 2, 1905. Lat. 2° 18.5' S., long. 90° 2.6' W. Surface. 2 specimens.

Sta. 4720. Jan. 14, 1905. Lat. 7° 13.3' S., long. 102° 31.5' W. Siu-face. 11 specimens.

Sta. 4723. Jan. 16, 1905. Lat. 10° 14.3' S., long. 107° 45.5' S. Surface. About 30 specimens.

Sta. 4725. Jan. 17, 1905. Lat. 11° 38.3' S., long. 110° 5' W. Surface. 8 specimens.

Sta. 4729. Jan. 19, 1905. Lat. 14° 15' S., long. 115° 13' W. Surface. 1 specimen.

Sta. 4733. Jan. 21, 1905. Lat. 16° 57.4' S., long. 120° 48' W. Surface. 1 specimen.

Besides this species was talven by the "Albatross " in 1899 at a single place : —
Hyd. Sta. 3789. Sept. 9, 1899. Lat. 2° 38' N., long. 137° 22' W. Surface.
3 specimens. "Albatross."

Distribution. — This slender and small species, which has only been taken
at the surface, is known from the Bay of Bengal (the author), is common in the
Indian Archipelago ("Siboga"), and from here it is, according to the literature,
distributed across the Pacific in its tropical area; Sars has mentioned it from
the North Pacific. It has never been taken in the Atlantic.

12. Siriella media H. J. Hansen.

1910. Siriella media H. J. Hansen, Siboga-Exp., 37, p. 38, pi. 4, figs. 3a-3k.

Butaritari, Gilbert Islands, Jan. 6, 1900. Lagoon. Surface. Light. 9 specimens (1 adult male,
8 immature specimens). "Albatross."

Remarks. — The presence of an adult male rendered it possible to determine
the species. The strong setae of both rami of fourth pair of pleopods agree in
every main point and even in most of minute particulars with my drawings
(figs. 3e and 3f) in the paper quoted. The proximal joint of each exopod of
the uropods with only 13 spines. The male is 9.5 mm. long.

Distribution. — S. media was hitherto known only from seven places in
the Indian Archipelago ("Siboga").

13. Siriella aequiremis H. J. Hansen.

1910. Siriella aequiremis H. J. Hansen, Siboga-Exp., 37, p. 40, pi. 3, figs. 4a-4c; pi. 4, figs, la-11.

Sta. 4592. Oct. 13, 1904. Lat. 18° 20' N., long. 103° 40' W. Surface. 1 specimen.

Sta. 4619. Oct. 20, 1904. Lat. 7° 15' N., long. 82° 8' W. Surface. 7 specimens.

Hyd. Sta. 3789. Sept. 19, 1899. Lat. 2° 38' N., long. 137° 22' W. Surface. 1 adult female.

Remarks. — A couple of specimens are adult males, and the largest is 10.4
mm. The sexual setae on the endopod of fourth pleopods nearly as on fig. Ih
in the "Siboga" paper, but the longest inner seta slightly overreaches the
terminal, consequently intermediate between fig. Ih and fig. If.

HEMISIIIIELLA AHHREVIATA. l'J5

Distribution. — S. aequiremis was established on specimens from the Indian
Archipelago, where it was taken at ten places; furthermore it is known from
the Arabian Sea, the Bay of Bengal, the Indian Ocean Lat at. 3° 9' N., long.
84° 44' E., and the China Sea (the author).

HEMISIRIELLA II. J. Hansen (1910).

14. Hemisiriella abbreviata, sp. nov.

■ Plate 2, figs. 2a-2c.

Butaritari, Gilbert Islands. Jan. 6, 1900. Lagoon. Surface. Light. 1 female with young. "Al-
batross."

Description. — Slender. — Carapace extremely short, leaving along the
middle line nearly more than three segments uncovered; the frontal plate (fig. 2a)
somewhat feebly produced, constituting a low triangle with the vertex acute.
Eyes moderately large, very light brownish; the stalks somewhat broader than
long and broader than the retina. The antennulae with the third peduncular
joint distinctly less than twice as long as broad. The antennal squama short,
about two and a half times as long as broad, with the terminal lobe beyond the
base of the marginal tooth twice as broad as long.

Uropods (fig. 2b) with the endopod not overreaching the exopod, with five
marginal spines occupying only about one fifth of the outer margin of the proxi-
mal joint of the exopod, and the distal joint somewhat less than twice as long as
broad. Telson (figs. 2b and 2c) proportionately short, not reaching the articu-
lation of the exopod, distinctly less than twice as long as broad, with two pairs
of spines at the end of the broad proximal part, while its longer distal part is
linguiform, with the proximal third of its lateral margins conspicuously concave
and the end broadly rounded ; the lateral margins of a little less than the distal
half of the telson only with 4-5 spines irregular as to size and intervals, while
the terminal margin has three extremely small spines in the interval between
three pairs of long spines, the inner pair of which are slightly shorter than
the most lateral pair, while the intermediate pair are considerably longer
than the others; terminal feathered setae not observed.

Length of the single adult female 5.5 mm.

Remarks. — This species is alUed to H. pulchra H. J. H., but is smaller
with the eyes larger, the third joint of the antennular peduncle shorter in pro-
portion to breadth, and the telson broader with a small number of lateral spines
and three pairs of long terminal spines. Though the elongate endopod of the

196 THE SCHIZOPODA.

first pair of legs is lost I refer this species to Hemisiriella, because the preserved
second joint of these legs is thicker than that of second pair, because the cara-
pace is extremely short, etc.

ANCHIALINA Norman (1906).

No specimen of this very characteristic genus was taken by Dr. Agassiz
in 1904-1905, but three species were secured by the "Albatross" in 1900 at
Butaritari, Gilbert Islands, and one of these species is new to science. The
genus has been revised in my "Siboga" paper.

15. Anchialina typica (Kroter).

1861. Anchialus lypicus Kroyer, Nat. Tidssla-., 3 R., 1, p. 53, tab. 2, fig. 7, a-1.
1910. Anchialina typica H. J. Hansen, Siboga-Exp., 37, p. 52, pi. 7, figs. 2a-2k.

Butaritari, Gilbert Islands. Jan. 6, 1900. Lagoon. Surface. Light. 7 specimens. "Albatross."

Remarks. — The specimens are all adult males. They are somewhat
small, measuring about 5.5 imn. in length, but they agree closely with smaller
"Siboga" specimens in all particulars. The exopod of the third pair of
pleopods has not four but only three long, slender processes, each with a
terminal seta; these processes are found on the fifth, sixth, and seventh joint
counted from the distal end, while in the "Siboga" specimen figured (fig.
2i) such processes are found on the fifth to the eighth joint; in small "Si-
boga" specimens such processes are wanting on the eighth joint or even on the
seventh and the eighth joints, as already stated in my paper.

Distribution. — A. typica has a very wide distribution, and it may be suffi-
cient to give an abstract of the statements in the "Siboga" paper. The species
is known from tropical Atlantic (Kroyer), the West Indies, the Gulf of Siam,
several places in the Indian .\i-chipelago, and probably the Hawaiian Islands.

16. Anchialina grossa H. J. Hansen.

1910. Anchialina grossa H. J. Hansen, Siboga-Exp., 37, p. 54, pi. 7, figs. 3a-3n; pi. 8, figs. la-Id.
Butaritari, Gilbert Islands. Jan. 6, 1900. Lagoon. Surface. Light. 1 specimen. "Albatross."

Remarks. — The specimen is an innuature female. In the shape of the
frontal plate with rostrum, the size of the eyes and the shape of the exopod of
the uropods it agrees perfectly with females of A. grossa from the Indian Archi-
pelago.

Distribution. — A. grossa was taken at several places in the Indian Archi-
pelago, and besides it is known from the Gulf of Siam and the Bay of Bengal
(the author).

ANCHIALINA OBTUSIFRONS. 197

17. Anchialina obtusifrons, sp. nov.
Plate 2, figs. 4a-4c.
Butaritari, Gilbert Islands. Jan. 6, 1900. Lagoon. Surface. Light. 2 adult males. "Albatross."

Description . — This species is in most particulars closely allied and similar
to A. grossa. Frontal plate in the male (fig. 4a) less broad than in A. grossa
and produced in a long rostrum reaching slightly beyond the eyes; this rostrum
has the lateral margins a little concave, these being proximally somewhat con-
verging forward and distally parallel, while the end of the rostrum looks nearly
truncate, but its terminal, obtusely triangular portion is in reality bent down-
wards and backwards below the apparently terminal part. The eyes are brown
and slightly larger than in A. grossa, broader than the end of the stalk which
widens considerably from the base outwards.

Third joint of the antennular peduncle less thick and con.spicuously longer
than in A . grossa, being half as long again as broad. Antennal squama about as
in A. grossa.

Gnathopods (fig. 4b) nearly as in A. grossa; second joint very large and
much longer than broad; fifth joint strongly expanded, and from the inner side
with a very large, lamellar, oblong-triangular, distally blunt process directed
inwards and much forwards; sixth joint broad. First jjair of thoracic legs as
the following pair, with sixth joint divided into three subjoints.

Exopod of third male pleopods (fig. 4c) in the main as in A. grossa, with
the distal joints much altered and furnished with several processes which
constitute a most complex organ, though different in several minor particulars
from that in A. grossa. The gigantic lamellar process (a.) on the posterior
outer side is much narrowed somewhat before the end and its most distal part
is also a little widened; the joint (b.) bearing the terminal processes is much
longer than in A. grossa, with a terminal, lamellar expansion covering in front
the insertion of these processes (c, d., and e.); finally, the inner process (e.) has
more than its distal half very slender, the ramification of the median process
(d.) is somewhat different from that in A. grossa, and the very long outer process
(c.) has its secondary branch (c. ) adorned with a few low saw-like teeth.

Uropods with the endopod reaching about the end of the telson and some-
what longer than the exopod, which has the end broadly rounded, nearly trun-
cate, and 15-17 spines along the outer margin. — Telson nearly as in A. grossa,
but the proximal part of the terminal incision is narrower.

Length 7.5 mm.

198 . THE SCHIZOPODA.

Remarks. — As already stated, this species is on the whole allied and similar
to A. grossa, but the male is easily distinguished by the quite different shape of
the rostrum, by having the third antennular joint conspicuously longer in pro-
portion to its breadth, and by the above-mentioned differences in the sexual
organ terminating the exopod of third pair of pleopods.

GASTROSACCUS Norman (1869).

The "Albatross" secured several specimens in 1900, but none were found
among the material of 1904-1905.

18. Gastrosaccus pacificus, sp. nov.

Plate 2, figs. 3a-3g.

Butaritari, Gilbert Islands. Jan. 6, 1900. Lagoon. Surface. Light. 8 .specimens (3 (1 Type) adult
males, 5 females with marsupium, 1 immature female). "Albatross."

Description. — Frontal plate, eyes, antennulae, and antennal squama (fig. 3a)
nearly as in G. indicus H. J. H. (1910). — Male pleopods in the main as in G.
indicus, but differing in some particulars. First pair (fig. 3b) with the endopod
very slender, not one third as long as the exopod, which has the distal third
divided into four joints. Second pair (fig. 3c) only a little more than half as
long again as the first; the peduncle with second joint almost four times as long
as broad; the endopod more than half as long as the exopod, with the distal
major part of the proximal half considerably expanded on the outer side and
the expansion distally terminating in a .sharp, somewhat acute angle, while
the distal part of the endopod is slender with a single articulation; the exopod
is about as in G. indicus. Third pair (fig. 3d) with the endopod not distinguish-
able; the exopod is extremely elongate, but its distal portion is lost in all the
specimens; the most proximal part of the exopod is strongly thickened, twice
as long as broad and on the outer side distally produced into a rather short
triangular process directed strongly outwards; somewhat beyond that thick-
ened part three small spines are found. Fourth (fig. 3e) and fifth (fig. 3f)
pairs nearly as in G. indicus; both rami unjointed, the exopod considerably
more slender and on fourth pair slightly, on fifth pair considerably, longer than
the endopod.

Uropods (fig. 3g) nearly as in G. indicus; the exopod with 11 or 12 marginal
spines, most of them long, longer than in G. indicus. Telson nearly two and a
half times as long as broad, with 10-12 spines along each margin, the terminal

EUCHAETOIMERA TYPICA. 191)

spine included; the penultimate pair of spines considerably longer than the
terminal pair, twice as long as the antepenultimate pair and nearly as long as
the breadth of the telson at their insertion.

Length of both sexes 6.4 mm.

Remarks. — This species is a little smaller than G. indicus, but so closely
allied that it might be considered a variety if it did not show the very marked
difference in the third pair of male pleopods; the rather short, triangular process
turning essentially outwards from the thick basal part twice as long as broad
seems to be an excellent specific character, as this part differs very much in
aspect from the corresponding portion in G. indicus, in which the thickened
part is much shorter and the process much longer and directed much backwards
or parallel with the exopod (Siboga-Exp., PI. 8, figs. 2k and 21) ; unfortunately
the distal part of that exopod is wanting. The peduncles of the three anterior
pairs of pleopods are more slender than in G. indicus.

All five adult females have a parasitic Isopod in the marsupium, probably
a species of Prodajus, and allied to_ P. ostendensis Gilson which inhabits the
marsupium of the European Gastrosaccus spinifer Goes.

EUCHAETOMERA G. O. Sars (1883).

To this genus Brutomysis Chun and Mastigophthalmus lUig ought to be
referred. That Brutomysis must disappear is certain, as its single species,
B. vogtii Chun, is without doubt a synonym to E. typica G. O. S. And Mastigoph-
thalmus does not show any difference from Euchaetomera of real generic value,
as the appendix at the eye-stalks is rather developed in E. typica, and the spinu-
lation, length of flagella, etc., are only specific characters.

Three species, all captured in 1904-1905, are represented in the collection,
and one among them is new.

19. Euchaetomera typica G. O. Sars.

Plate 2, figs. 5a-5e.

1883. Euchaeiomera typica G. O. Sars, Forh. Vid. Sekk. Christiania for 1883, no. 7, p. 42.

1885. Euchaeloniera typica G. O. Saks, Challenger Kept., 13, p. 211, pi. 37, figs. 1-20.

1896. Brutomysis Vogtii ChuN, Bibl. Zool., 7, heft. 19, p. 179, taf. 15.

1906. ^Euchaetomera limbata Illig, Zool. Anz., 30, p. 203, fig. 10, A-D.

Sta. 4734. Jan. 22, 1905. Lat. 17° 36' S., long. 122° 35.6' W. 300 fms. to surface. 2 specimens.

As the two specimens, a female with marsupium and an immature female
(together with a third specimen from the Atlantic) differ considerably in a

2nn THE SCHIZOPODA.

number of features from the description and figures published by Sars, I asked
my friend the excellent carcinologist Dr. W. T. Caiman to examine the type
preserved in tlie British Museum. I sent him tracings of my figures published
in this paper of my specimen, together with a number of questions on particular
features. Dr. Caiman answered that the tyjje "agrees better with your descrip-
tion and figures than with those of Sars in all the points you mention," and he
added some notes and sketches which agree well with the features observed in
my specimens. Therefore I will now give the following additions to the descrip-
tion of Sars.

The front margin of the carajDace (fig. 5a) is furnished with spiniform
processes or denticles, those on the most lateral foiu'th of each half of the margin
are long and slender, and from here they decrease \'ery much in size, being
quite minute along a part of the margin towards the proportionately narrow
and very short frontal plate which is produced into a rather slender and some-
what long, acute rostrum. The posterior mai-gin of the carapace has a number
of small or very small denticles, while the posterior margin of its lateral wings
and the lateral margins are unarmed.

The eyes (fig. 5b) show peculiar features. The postero-lateral area of
ocelli is, seen from above, a little more than half as long again as broad; there
is no inter\-al between the anterior and the postero-lateral area; the most pos-
terior row of facets of the anterior area is of normal aspect, while each facet
in the four following transverse rows of the anterior area is produced into a
somewhat small, acute denticle; all other facets on the upper surface of the
eye are simple, rounded. From the inner margin of the eye-stalks a little before
the ocelli a very oblong, weak process or appendix projects forwards; in the
adult female it is about as long as the part with spine-bearing ocelli on the
opposite lateral margin. — The antennal squama (fig. 5c) is three times or a
little more as long as broad, with the outer margin scarcely concave, the terminal
lobe slightly broader than long and the outer distal process as long as, or a little
shorter than, the terminal lobe and bent slightly outwards. — The thoracic
legs (fig. 5d) on the outer side with a good number of moderately long setae;
the distal half or one third of each of these setae is quite naked, while the re-
mainder is very closely plumose; along the inner side of the legs the setae are
less numerous, but several among them are very long, and all are naked or with
extremely short hairs along the distal side.

First to third abdominal segment without denticles along the margins;
fourth segment with very small denticles along the posterior and the lateral

EUCHAETOMERA TENUIS. 201

margin, fifth and sixth segments witli spinifonn denticles along the same mar-
gins; most of these denticles are rather large though some small ones are inter-
spersed.— The uropods (fig. 5e) have both rami much slenderer than shown in
Sars's fig. 19 (whicli in this respect differs materially from his fig. 1). — Telson
(fig. 5e) considerably broader than long, in the adult female with 6-7 spines
along each lateral margin, while in the immature specimen only 4 and 6 spines
were observed.

Length of the adult female 9 mm.

Remarks. — It will be seen that the additions and corrections to Sard's
description and figures are rather numerous. I think that Brutomysis vogtii
Chun, taken at Madeira, is the young male of the same species. The author
states that the five anterior abdominal segments have a lateral armature, viz.
4 spiniform denticles at the postero-lateral angle of each segment, while the
sixth segment has spines along the whole posterior margin. It is far from im-
probable that the lateral armature of the anterior abdominal segments is found
only in the males, and if this supposition be correct, I think that the other
differences between the specimens studied and Chun's description and figures
are due to imperfections in the latter. — E. Umbata Illig is possibly another
species, because its squama, according to Illig's figure, has a shape somewhat
different from that in E. tijpica and the carapace is, at least in the male, spini-
ferous around the whole margin.

Distribution. — Sars enumerated three localities in the Northern Pacific
between Lat. 35° 22' and 37° 52' N., long. 169° 53' E. and 160° 17' W.; his speci-
mens were from the surface of the sea. Ortmann recorded it from off Galera
Point in the tropical East Pacific antl from the Sargasso Sea and the Southern
equatorial current in the Atlantic. Dr. J. Schmidt captured a single specimen
West of Gibraltar at Lat. 3G° 13' N., long. 9° 44' W.— Chun's Brutomysis vogtii
was captured at Madeira, and Illig's E. limbata at two Stations in the Atlantic.

20. Euchaetomera tenuis G. O. Sars.

1883. Euchaetomera leniiis G. O. Sars, Forh. Vid. Selsk. Christiania for 188.3, no. 7, p. 42.

1885. Euchaelomcra lenuis G. O. Sars, Challenger Rept., 13, p. 214, pi. 37, figs. 21-24.

190.5. B«c/iaetomera/o«i/frt Holt & T.\TTERSALL. Fisheries Ireland. Sei. Invest., 1902-3, (1905), p. 123

and 144; pi. 24, figs. 1-3.
1910. Euchaetomera tenuis H. J. Hansen, Siboga-Ex])., 37, p. OG, pi. 10, fig. 3a.

Sta. 4717. Jan. 13, 190.5. Lat. 5° 10' S,, long. 98° .56' W. 300 fms. to surface. 1 immature fem.ale.

Sta. 4719. Jan. U, 100.5. Lat. 6° 29.8' S., long. 101° 16.8' W. 300 fms. to surface. 1 adult female.

Sta. 4721. Jan. 15, 1905. Lat. 8° 7.5' S., long. 104° 10..5' W 300 fms. to surface. 1 male.

Sta. 4722. Jan. 16, 1905. Lat. 9° 31' S., long. 106° 30.5' \V. 3U0 fms. to surface. 1 adult female.

202 THE SCHIZOPODA.

Remarks. — lUig states (Zool. Anz., 30, 1906, p. 202) that the endopod of
first pair of thoracic legs is wanting in E. fowleri and in his two new species
of Euchaetomera, among which is the above-named E. limbata. As to E. tenuis
Sars = E. fowleri Holt and Tatt. his statement is incorrect; the endopod is
well developed both in the maxillipeds, the gnathopods, and in all six pairs of
real legs; I am inclined to think that the same is the case in his two other species.

Distribution. — Sars's type was captured in the South Pacific off the coast
of Chile. The "Siboga" secured it at two places in the Indian Archipelago.
According to several authors (Ortmann, Tattersall, Holt and Tattersall, and
myself) the species is widely distributed in the tropical and northern temperate
Atlantic, in its eastern part going northwards to West of Ireland; and it has
been taken in the Western Mediterranean also.

21. Euchaetomera plebeja, sp. nov.
Plate 3, figs, la-lb.

Sta. 4583. Oct. 11, 1904. Lat. 22° 45' N., long. 110° 5' W. 300 fms. to surface. 1 immature speci-
men.

Sta. 4676. Dec. 5, 1904. Lat. 14° 28.9' S., long. 81° 24' W. 300 fms. to surface. 1 male, (Type),
perhaps not quite adult.

Description. — Allied to E. tenuis G. O. S. and E. oculata H. J. H. — The
frontal plate (fig. la) shaped as a low, broad triangle with the two sides a little
concave and the vertex moderately broadly rounded. — The eyes about as thick
as in E. tenuis, but the posterior area with acting facets is much larger, being
longer than broad and the distance between the anterior and the posterior
area at the outer margin distinctly less than half as long as the outer margin
of the posterior area, while in E. tenuis that distance is about as long as the
whole outer margin of the posterior area which is shorter than broad. — The
antennal squama is five times as long as broad, with the outer margin almost
or quite straight, no external tooth and the terminal lobe beyond the most
proximal outer seta a little longer than broad. — The rami of the uropods (fig.
lb) broader in proportion to length than in E. tenuis. — Telson somewhat broader
than long, otherwise as in E. tenuis.

Length of the male 5 mm., but the specimen is perhaps not quite full grown.

Remarks. — E. plebeja is instantly separated from E. tenuis by the much
longer posterior dark area of the eyes and by the at least nearly straight outer
margin of the antennal squama. E. oculata differs from E. plebeja by having
a very conspicuous, somewhat narrow frontal plate, by considerablj^ thicker
eyes and by having the antennal squama only three and a half times as long
as broad.

CRYPTOMYSIS. 203

CRYPTOMYSIS, gen. nov.

Description (based on the female). — Body somewhat slender. — Carapace
produced into a moderately large, triangular frontal plate (Plate 3, fig. 2a) and
posteriorly not covering the entire cephalothorax.

Eyes very large, with short stalks. Antennal squama (fig. 2b) somewhat
elongate, lanceolate, narrow, with a transverse suture and setose along both
margins. — Labrum obtuse in front, without process. — Left mandible (figs.
2c-2e) has the incisive part well developed, a moderately strong, movable lobe,
a couple of thick, digitate setae and the molar process somewhat long and thick;
the palp is proportionately slender, its second joint (fig. 2e) somewhat curved,
with its inner margin adorned with a row of regularly arranged, spiniform
processes, each of which has a seta at the middle of its front margin; third
joint of the palp rather short. — Maxillulae (fig. 2f) with the outer joint somewhat
slender and a little angular at the middle of its exterior margin. — Maxillae
(fig. 2g) somewhat elongate and narrow, with the exopod small and very narrow
and the terminal joint not expanded distally and more than twice as long as
broad. — Maxillipeds (fig. 2h) with first and second joints very long and moder-
ately slender, first joint terminating in a free, minute lobe and second joint
with a small lobe; third, fourth, and fifth joints each not longer than broad
and without appreciable lobes; terminal joint small, triangular; claw well
developed.

Gnathopods (fig. 2i) with second joint long and thick, without any real
lobe; third and fourth joints somewhat small, transverse; fifth and sixth joints
rather long, very slender and the fifth nearly naked; the claw somewhat long
and strong. — The thoracic legs wanting excepting some exopods and a single
endopod; the latter (fig. 2k) is slender, with fourth joint a little shorter than
the fifth and a little longer than the sixth, which is divided by a transverse articu-
lation near its end ; only a few rather long setae on the endopod.

Uropods (fig. 21) slender, with both rami setose along both margins as in
the subfamily Mysinae; the otocyst well developed. — Telson (figs. 21 and 2m)
quite aberrant; it is somewhat short, tapering considerably from the broad
base to a little beyond the proximal two thirds of its length and then widening
again, the terminal part being much broader than long, with the terminal margin
nearly straight at the middle and broadly rounded at the sides; the whole
margin of the terminal transverse part of the telson and the distal part of the
lateral margins in front of that terminal part furnished with thick spines.

204 THE SCHIZOPODA.

Remarks. — This new genus belongs to the subfamily Mysinae and is easily
distinguished from all other genera by the shape of the telson. The male being
unknown, I am unable to decide with any certainty whether the genus ought
to be referred to the tribe Leptomysini or to the real Mysini. The shape of
the antennal squama, of the maxillae and their palp, and the absence of lobes on
the third and fovu-th joints of the maxillipeds seem to indicate relationship to
the Leptomysini, while the shape of the telson resembles feebly that in Anisomy-
sis laticauda H. J. H., which belongs to the tribe Mysini. The armature of
the second joint of the mandibular palps bears a superficial similarity to the
structure found in Lycomysis spinicauda H. J. H.

22. Cryptomysis lamellicauda, sp. no v.
Plate 3, figs. 2a-2m.
Fiji Islands. Off Vatu. Dec. 9, 1S97. Plankton, 30 fms. 1 adult female. A. Agassiz.

Description. — Frontal plate (fig. 2a) about twice as broad as long, with
the end very acute and distinctly acuminate. — Eyes very large, black. — An-
tennal squama (fig. 2b) between seven and eight times as long as broad, tapering
from the middle, with the narrow end transverse and with the suture from the
insertion of the penultimate lateral inner seta to the corresponding incision on
the outer margin; the terminal joint not fully twice as long as broad. — Second
joint of the mandibular palp (fig. 2e) with about thirteen teeth along the inner
margin, those near the middle much longer than the most proximal or the«most
distal.

Sixth abdominal segment considerably longer than the fifth. — The rami
of the uropods slender; the exopod almost seven times as long as broad, and
considerably longer than the endopod. — Telson scarcely half as long as the
endopod of the lu'opods, not fully half as long again as broad; the proximal part
about as long as broad, with four somewhat strong spines towards the end
of each margin; the distal portion a little more than half as broad again as long,
with twenty spines, the lateral ones smaller and regularly tapering to the acute
end, while the sj^incs along the transverse and nearly straight posterior margin
are longer, stronger, and taper only from beyond the middle to the acute end.

Length of the single specimen, a female with marsupium, 5.8 mm.

Rernarks. — The specimen is dark coloured, but being far from well pre-
served and somewhat shrivelled in front it is not impossible that the dark colour
may be due to the state of preservation.

DOXOMYSIS PELAGICA. 205

DOXOMYSIS, gon. nov.

Description (based on a nuitilated adult female). — Body moderately
slender. — Carapace anteriorly produced into a rather short, triangular, frontal
plate terminating in a rostrum, posteriori}' not covering the entire cephalothorax.

Eyes large, with short stalks. — Antennal squama (Plate 3, fig. 3a) scarcely
elongate, setose along both margins and with the end very obtuse. — Labrum
obtuse in front, without process. — Left mandible (figs. 3b and 3c) with the
incisive part, movable lobe, setae, and molar process well developed; the palp
about as in the genera allied to Mysis. — The maxillae (fig. 3d) shaped nearly as
in Michtheimysis Norm., with the terminal joint of the palp very large, much
expanded and broader than long, but the exopod with only a few short setae.
Maxillipeds (fig. 3e) with second joint long and terminating in a broad, well-
developed, setose lobe; thirtl and fourth joints very broad with broad, setose
lobes; fifth and sixth joints broad; seventh joint triangular with its claw shaped
as a thick seta.

(Gnathopods wanting). — The endopod of a single thoracic leg was pre-
served; it is very slender, its fifth joint somewhat longer than the fourth and a
little shorter than the sixth; sixth joint divided into three subjoints by two
transverse articulations, the first a little before, the second a little beyond the
middle.

Uropods slender, both rami-shaped and setose as in the Mysini; the endo-
pod below near the inner margin with a number of spiniform processes directed
'n wards and downwards. — Telson (figs. 3f and 3g) about half as long as the
uropods, distally deeply cleft with minute spines along the margins of the tri-
angular incision; the terminal lobes have the end broad and furnished with
some spines.

Remarks. — The shape of the maxillipeds and of the terminal joint of the
maxillae seems to prove that the genus belongs to the tribe Mysini, while the
telson differs somewhat from that in genera hitherto known.

23. Doxomysis pelagica, sp. nov.

r

Plate 3, figs. 3a-3g.
Sta. 4640. Nov. 6, 1904. Lat. 0° 39.4' S., long. SS° 11' W. Surface. 1 mutilated adult female.

Description. — Frontal plate a little more than twice as broad as long,
terminating in a slender rostrum unfortunately broken off at some distance from
its origin. — Ej'es large, but in very damaged condition. — Antennal squama

206 THE SCHIZOPODA.

(fig. 3a) between five and sL\ times as long as broad, with the outer margin a
Uttle concave and the inner convex, somewhat tapering from near the base
to the broad, almost transverse end; the terminal joint somewhat longer than
broad.

The abdominal segments furnished above and on the sides with a very large
number of quite minute, mostly very slender denticles. — The exopod of the
uropods nearly eleven times as long as broad. — Telson (figs. 3f and 3g) slightly
more than half as long as the exopod of the uropods, almost twice as long as
broad, with the outer margin somewhat concave; the terminal incision is deep,
one third as deep as the length of the telson, oblong-triangular, somewhat
rounded at the bottom and there with a couple of setae almost as long as the
incision, while each of its lateral margins is furnished with 13-14 very small
spines; slightly more than the distal half of each lateral margin of the telson
is spiniferous, the proximal spines widely separated from each other, the more
distal spines moderately close; the terminal lobes taper somewhat from the
base of the incision to near the end, where they are feebly widened inwards;
this end is broad and rounded, with four spines distinctly a little longer than
the more distal lateral spines.

Remarks. — This species is easilj- distinguished by the shape and armatiu-e
of the telson. The presence of a very large number of tiny denticles on the
abdominal segments is interesting.

II. The Order EUPHAUSIACEA.

The collection contains representatives of eight genera. Only three genera
hitherto known are wanting, viz. Meganyctiphanes Holt and Tatt., Thysanoessa
Kroyer (with Rhoda Sim or Boreophausia G. O. S.^), and Tessarabrachion
H. J. H., but these are exclusively confined to the temperate and cold seas.

BENTHEUPHAUSIA G. O. Sars (1885).

Only a single species is known.

1. Bentheuphausia amblyops (G. O. Sars).

1883. Thjsanopoda (?) amhlyops G. O. Sars, Forh. Vid. Selsk. Christiania for 1883, no. 7, p. 23.
1885. Bentheuphausia amblyops G. O. Sars, Challenger Rept., 13, p. 109, pi. 19; text-fig. 4.

' This topic has been dealt with in my paper on the genera and species of the order Euphausiacea
(Bull. Mus. Oeeap. Monaco, no. 210, 1911).

THYSANOPODA. 207

Sta. 4676. Dec. 5, 1904. Lat. 14° 28.0' S., long. 81° 24' W. .WO fms. to surface. 1 specimen.

Sta. 4679. Dec. 7, 1904. Lat. 17° 20.4' S., long. 86° 46..5' \V. :i()() fnis. to suifacc. 1 specimen.

Sta. 4681. Dec. 8,1904. Lat. 18° 47.1' S., long. 89° 26' W. ;i()() fms. to .surface. 2 specimens.

Sta. 4683. Dec. 9,1904. Lat. 20° 2.4' S., long. 91° 52.5' W. 300 fms. to surface. 2 specimens.

Sta. 4707. Dec. 29, 1904. Lat. 12° 33.2' S., long. 97° 42' W. 300 fms. to surface. 1 specimen.

Sta. 4722. Jan. 16, 1905. Lat. 9° 31' S., long. 106° 30.5' W. 300 fms. to surface. 1 specimen.

Sta. 4740. Feb. 11, 1905. Lat. 9° 2.1' S., long. 123° 20.1' W. 300 fms. to surface. 3 specimens.

Distribution. — According to the literature this species is known from the
Atlantic, where it extends northwards to Lat. 46° 15' N. and southwards to a
place off Tristan da Cunha; also from the Bay of Bengal, the Indian Archi-
pelago, and South of Australia.

It is a true bathypelagic species and this explains perhaps that among the
twelve specimens from seven Stations in the East Pacific only a single specimen
(from Sta. 4707) seems to be really adult.

THYSANOPODA H. Milne Edwards (1830).

The material of this large and somewhat difficult genus is very rich, com-
prising nine species; a young specimen, wliich is very far from adult though not
small, I have with some doubt referred to T. cornuta lUig, of which a much
larger specimen is at hand. Only two valid species of this genus are not found
in the collection, but both are known only from the North Atlantic'

The maxillulae differ much from each other in various species, affording
•excellent specific characters, especially characters for quite small groups of
species. In a couple of species the outer lamella from their first lobe, the
"pseudexopod," is somewhat small, at most shghtly overreaching the outer
margin of third joint, while in most species the pseudexopod is of moderate
size or ^'ery large, with its greater part reaching beyond the outer margin of
third joint; fm'thermore the fourth joint, the palp, differs extremely as to
length and breadth in various species. For these reasons I have given figures
of the maxillulae of most species. — The maxillae of various species differ
generally but little in shape, and therefore it has been deemed unnecessary to
figure more than the maxilla of a single species.

Group a. Carapace without any distinct cervical groove. Maxillulae with
the pseudexopod from moderately large to very large, with at least almost their half
situated beyond the outer margin of third Joint, and with the palp at most moder-
ately long and somewhat overreaching the third joint. Sixth abdominal segment
longer than the fifth.

' ThysanOpoda megaloips lUig as re-established by that author in .luly, 1911, on a specimen from
the Indian Ocean is certainly a young and most probablj- the young of T. egrerjUi H. J. H.

208 THE SCHIZOPODA. ^

a. Carapace in the adults imth a denticle on or near the lower margins near
their posterior end.

2. Thysanopoda tricuspidata H. Milne Edwards.

Plate 4, fig. 2a.

1830. Thysanopode tricuspide H. Milne Edwards, Ann. Sc. Nat., 19, p. 454, pi. 19.

18.37. Thysanopoda tricuspidata H. Milne Edwards, Hist. Nat. Crust., 2, p. 460, pi. 26, figs. 1-6.

1885. Thysanopoda tricuspidata G. O. Sars, Challenger Kept., 13, p. 98, pi. 17, p. 165, pi. 31, figs. 1-22

(larval stages).
1910. Thysanopoda tricuspidata H. J. Hansen, Siboga-Exp., 37, p. 82, pi. 12, figs. 3a-3b.

Sta. 4705. Dec. 28, 1904. Lat. 15° 5.3' S., long. 99° 19' W. 300 fms. to surface. 1 specimen.

Sta. 4721. Jan. 15, 1905. Lat. 8° 7.5' S., long. 104° 10.5' W. 300 fms. to surface. 2 specimens.

Sta. 4725. Jan. 17, 1905. Lat. 11° 38.3' S., long, 110° 5' W. Surface. 3 older larvae.

Sta. 4728. Jan. 19, 1905. Lat. 13° 47.5' S., long. 114° 21.6' W. 300 fms. to surface. 6 specimens.

Sta. 4729. Jan. 19, 1905. Lat. 14° 15' S., long. 11.5° 13' W. Surface. 1 very young specimen.

Sta. 4730. Jan. 20, 1905. Lat. 15° 7' S., long. 117° 1.2' W. 300 fms. to surface. 1 specimen.

Sta. 4734. Jan. 22, 1905. Lat. 17° 36' S., long. 122° 35.6' W. 300 fms. to surface. 2 specimens.

Sta. 4740. Feb. 11, 1905. Lat. 9° 2.1' S., long. 123° 20.1' W. 300 fms. to surface. 1 specimen.

To the description given by Sars and that in the "Siboga" Report some
remarks on the maxillulae may be added for comparison with the same organs
in the following forms. The lobe of first lobe, the proximal lobe (fig. 2a, 1 .)
is somewhat broad, with the end nearly regularly rounded; the lobe from third
joint (1 .) is moderately broad, not widened towards the end, about as broad as
the terminal part of the proximal lobe and considerably narrower than in the
following species; the fourth joint (4.), the palp, is comparatively large, somewhat
longer than the lobe of third joint, widening much from the base to beyond the
middle, more than half as broad as long, with the end almost cut obliquely,
setose both along the long and the little convex terminal margin, and on the
outer margin. The pseudexopod (px) is only moderately large, not larger than
the inner distal, transverse portion of the proximal lobe, very oblong, with
about its half situated outside the outer margin of the third joint and co\'ering
only a verj^ small part of the fourth joint.

Distrihulion. — According to the literature (Sars, Ortmann, Hansen) and
to the material at hand this characteristic species is common in the tropical
Atlantic, ranging northwards to the Sargasso Sea (Ortmann) ; it occm's also
in the Indian .Ai-chipelago and adjacent areas, and it has been taken at \-arious
places in the tropical Pacific and even more to the southwards in that Ocean
(Sars). The Copenhagen Museum possesses specimens from more than thirty
locaHties, the majority from the Atlantic between Lat. 28° 12' N. and 22° S.,
but eight among the Stations from the seas around Southeastern Asia, f. inst,
Lat. 13° S., long. 103° 20' E.; Lat. 16° 8' S., long. 111° 50' E.; Lat. 10° N.,

THYSAN'OPODA ( HISTATA. 209

long. 115° 20' E. Probably all the specimens in the Copenhagen INIusoum were
taken at the surface of the sea during night.

3. Tbysanopoda cristata G. O. Sars.

Plate 3, figs. 4a^c; Plate 4, figs, la-lh.

1883. Thysanopoda cristata G. O. Sars, Forh. Vid. Selsk. Christiania for 1883, no. 7, p. 22.

1885. Thysanopoda cristala, G. O. Sars, Challenger Rept., 13, p. 104, pi. 18, figs. 15-20.

1893. Thysanopoda biproducta Ortmann, Ergebn. der Plankton-Exped., 2, G. b. p. 8, taf. I, fig. 1.

Sta. 4699. Dec. 25, 1904. Lat. 21° 39.5' S., long. 104° 29.8' W. 300 fms. to surface. 1 young .speci-
men.

Sta. 4728. Jan. 19, 1905. Lat. 13° 47.5' S., long. 114° 21.6' VV. 300 fms. to surface. 1 adult male.

Sta. 4736. Jan. 23, 1905. Lat. 19° 0.4' S,, long. 125° 5.4' \V. 300 fms. to surface. 1 immature
specimen.

Description. — The frontal plate (Plate 3, fig. 4b) long, only a little broader
than long with the lateral margins considerably concave, strongly tapering
forwards and narrow in front, where it terminates in a moderately short, slender
rostrum which at its base is distinctly narrower than the end of the plate; in
the adult specimen (and in Sars's type) the rostrum seems to be articulated to
the end of the plate, but whether this is the normal state or is due to injury
I cannot decide. In the two much smaller specimens the rostrum is broader
at the base and not well-marked off. At the anterior end of the frontal plate
a very conspicuous, somewhat high, sharp dorsal keel is suddenly raised (Plate 3,
figs. 4a and 4c), the front end of which is even emarginate and terminates above
in a point; the keel goes backwards to near the iniddle of the carapace, and
about at the middle of its length, where the dorsal organ is found, it is rather
suddenly somewhat higher, while it is rounded downwards towards its posterior
end; in the smallest specimen the keel has no angle or incision at its front end,
and its anterior half decreases in height towards the rostrum where it disappears.
The carapace has no cer\'ical suture, but two obhque, moderately short impres-
sions on each side at a distance from the front lateral margin of about one third
of the length of the carapace ; the upper of these impressions is nearly horizontal,
the lower very oblique and below limited by a low narrow ridge. The lateral
part of the front margin of the carapace below the eye is produced in a triangular,
acute, somewhat small plate; at a considerable distance from the lower margin
a deep furrow is seen, beginning above the insertion of the maxilla and reaching
to near the hind margin of the carapace, where it bends upwards and terminates
at the middle of the side. A smaH tooth (omitted in fig. 4a by the engraver)
is found above the lateral margin — in the small specimen on the margin — of
the carapace somewhat before its posterior end; the tooth is acute, directed
outwards, forwards, and downwards.

210 THE SCHIZOPODA.

The eyes are of moderate size, with the eye-stalks short. — The antennular
peduncles are somewhat short and in adults very thick (Plate 4, figs, la and lb);
in a little more than half-grown specimen much more slender (fig. Ic). Seen
from the side (fig. la) the distal upper part of the first joint is raised as a high
and thick, vaulted, setose roof above the insertion of the second joint; seen
from above (fig. lb) the same distal part is produced forwards as a short triangle
with the inner angle acute, but without any process or armatm'e; on the outer
margin of the joint a somewhat small, oblong process is seen. The second
joint in the adult has, seen from the side (fig. la), its distal half considerably
vaulted above; seen from above (fig. lb) its breadth is as long as its inner margin,
while distally and a little nearer the outer than the inner margin it is produced
forwards in a triangular, acute lobe considerably broader than long and with
its end pointing outwards and especially forwards. Third joint in the adult
with the distal part of the upper margin considerably arched, rounded, but
the dorsal crest is not well defined. In considerably smaller specimens the
vaulting of the distal parts of the joints is much less developed (fig. Ic). — The
antennal squama reaches the middle of third antennular joint and has a distinct
triangular tooth at the outer distal angle; the spiniform process from the outer
end of the peduncle is scarcely one fourth as long as the squama.

The maxillulae (Plate 4, fig. Id) are in the main intermediate between those
in T. {ricuspidata and in the following forms. The proximal lobe is consider-
ably smaller than in T. tricuspidata and somewhat angular at the inner distal end;
the distal lobe is much broader than the proximal, a little widened towards the
terminal margin which is shghtly convex ; the palp is somewhat longer than the
distal lobe, narrow, between three and four times as long as broad and tapering
beyond the middle. The pseudexopod is a little broader and distinctly longer
than in T. tricuspidata, but not reaching much beyond the proximal angle of
the insertion of the palp.

The lateral plates of the five anterior abdominal segments are broad and
deep; those of second to fourth segments with the lower margin a little irregu-
larly emarginate; fourth and fifth segments each with a dorsal spiniform den-
ticle; sixth segment uncommonly short and deep. The inner ramus of the
uropods conspicuously shorter than the outer which reaches a little beyond
the tip of the telson. — Telson has in Sars's type seven pairs of dorsal spines
(it is mutilated in my adult specimen).

The copulatory organs (Plate 4, figs, le-lh) show some peculiarities. The
spine-shaped process (p^) is moderately curved. The terminal process (p'.)

THYSANOrODA CRIST ATA. 211

is medium sized, seen from behind (fig. If) considerably curved at the middle,
with the convex margin outwards and with the end compressed; seen from the
inner side (fig. Ig) the proximal lialf is besides a little curved, while a somewhat
short terminal part of the distal half is a little widened, very oblong, subacute
and bent to the left. The proximal process (p^.) overreaches considerably the
terminal; it is proportionately not thick at the base and tapers gradually towards
the other obtuse end; its distal third is very slender; it is curved somewhat
inwards at the end of its proximal fourth, while its distal half constitutes a
portion of a circle with the convex margin inwards. The median lobe (Im.)
is long and about its distal fourth is nearly lamellar; this lobe is produced dis-
tally with the tip rounded, and the lamellar part is bent inwards, covering,
seen from behind, the distal part of the lateral process. This process (p^.) is
very long, a little curved to the beginning of its terminal fifth, which is much
curved inwards and especially forwards and in reality considerably longer than
seen on the figures (figs, le and Ih) as the.se do not exhibit the process from the
inner side. The additional process (fig. Ih, which shows both the lateral and
the additional process seen from in front) is situated at the base of the lamellar
part mentioned; it is short, somewhat oblong, very thick to near the end which
is acuminate, acute, and somewhat curved. The auxihary lobe (lu.) is somewhat
short. The setiferous lobe (Is.) is nearly lanceolate with the end rounded and
with setae along both margins to their base.

Length of the adult male 38 mm., of the two other specimens respectively
23 mm. and 18 mm. Sars's type measures 48 mm. in length.

Remarks. — In 1907 I compared the largest specimen in the Agassiz col-
lection directly with Sars's type in the British Museum and found that they
agree perfectly with each other. Consequently Sars's figs. 15-16 are inaccurate
in various particulars of the carapace and the antennular peduncles. Sars
figured the rostrum bent downwards, but this is quite accidental, as the ros-
trimi is articulated to the frontal plate or broken at the base (see above).
Furthermore his fig. 15 exhibits a cervical groove and other furrows on the
anterior half of the carapace, but they do not exist, while he did not draw the
two short lateral impressions really existing and shown in my figures. He
figured the dorsal keel a little higher than in his specimen, and he overlooked
the denticle above the lateral margin somewhat from its posterior end. The
antennular peduncles are not well di-awn in his figures. Finally, his statement
on the length of his specimen (he states it to be 55 mm.) indicates that he here,
and probably elsewhere in his work, measured the animal from the end of the

212 THE SCHIZOPODA.

antennal squama instead of from the tip of the rostrum. — Ortmann's descrip-
tion is incomplete and his figure not very good, but I have no doubt that he
examined a young specimen of this species.

It may be added that the postero-lateral denticle on the carapace changes
its place. In the smallest specimen it protrudes from the lateral margin itself,
in the somewhat larger specimen a little above that margin, and in the adult
male still a little higher, but yet slightly nearer to the lower margin than to the
longitudinal furrow.

Distribution. This species has a very extensive distribution but seems to
be rare, only two specimens being mentioned in the hteratm-e. The type of
Sars was taken at Lat. 5° 47' N., long. 124° 1' E., South of Mindanao, Philippine
Islands; Ortmann's specimen was captured in the Sargasso Sea, North Atlantic.
For various reasons I think that adult specimens generally live in very consid-
erable depths.

4. Thysanopoda monacantha Ortmann.

Plate 4, figs. 3a-3c.

1S93. Thysanopoda monocanllia Ohtmann, Ergebn. du Plankton-Exped., 2, G. b. p. 9, taf. 1, fig. 2.

1894. Thysanopoda agassizii Ortmann, Bull. Mus. Comp. Zool., 25, p. 09, plate, tigs. 1-2.

190.5. Thysanopoda lateralis H. J. Han.sen, Bull. Mus. Ocean. Monaco, no. 30, p. 18.

1908. Thysanopoda ctenophora Illig, Zool. Anz., 23, p. 112.

1910. Thysanopoda agassizii H. J. Hansen, Siboga-Exp., 37, p. 87, pi. 13, figs. 3a-3g.

Sta. 4634. Nov. 4, 1904. Lat. 4° 35.4' N., long. 83° 32.3' W. 300 fms. to surface. 1 very young

specimen.

Sta. 4663. Nov. 16, 1904. Lat. 11° 20.3' S., long. 88° 5.5.2' W. 300 fms. to surface. 1 specimen.

Sta. 4679. Dec. 7, 1904. Lat. 17° 26.4' S., long. 86° 46.5' W. 300 fms. to surface. 18 specimens.

Sta. 4681. Dec. 8,1904. Lat. 18° 47.1' S., long. 89° 26' W. .300 fms. to surface. 17 specimens.

Sta. 46S3. Dec. 9,1904. Lat. 20° 2.4' S., long. 91° 52.5' W. 300 fms. to surface. 8 specimens.

Sta. 4685. Dec. 10, 1904. Lat. 21° 36.2' S., long. 94° 56' W. 300 fms. to surface. 1 specimen.

Sta. 4701. Dec. 26, 1904. Lat. 19° 11.5' S., long. 102° 24' W. 300 fms. to surface. 1 specimen.

Sta. 4705. Dec. 28, 1904. Lat. 15° 5.3' S., long. 99° 19' W. 300 fms. to surface. 16 specimens.

Sta. 4707. Dec. 29, 1904. Lat. 12° 33.2' 8., long. 97° 42' W. 300 fms. to surface. 1 specimen.

Sta. 4709. Dec. 30, 1904. Lat. 10° 15.2' S., long. 95° 40.8' \V. 300 fms to surf.ace. 13 specimens.

Sta. 4711. Dec. 31, 1904. Lat. 7° 47.5' S., long. 94° 5.5' W. 300 fms. to surface. 2 specimens.

Sta. 4719. Jan. 14, 1905. Lat. 6° 29.8' S., long. 101° 16.8' W. 300 fms. to surface. 3 specimens.

Sta. 4721. Jan. 15, 1905. Lat. 8° 7.5' S., long. 104° 10.5 ' W. 300 fms. to .surface. 2 specimens.

Sta. 4722. Jan. 16, 1905. Lat. 9° 31' S., long. 106° 30.5' W. 300 fms. to surface. 7 specimens.

(1 very small).

Sta. 4724. Jan. 17, 1905. Lat. 11° 13.4' S., long. 109° .39' W. 300 fms. to surface. 1 small specimen.

Sta. 4728. Jan. 19, 1905. Lat. 13° 47.5' S., long. 114° 21.6' W. 300 fms. to surface. 3 specimens,

very small.

Sta. 4730. Jan. 20, 1905. Lat. 15° 7' S., long. 117° 1.2' W. 300 fms. to surface. 1 specimen.

Sta. 4740. Feb. 11, 1905. Lat. 9° 2.1' S., long. 123° 20.1' W. 300 fms. to surface. 1 specimen.

Remarks. — Both subadult specimens, very young specimens, and older
larvae have been described and figured in the "Siboga" paper quoted. Here
a few remarks are sufficient.

THYSANOPODA MONACANTHA. 213

The maxilliilae (fig. 3a) are still more developed in the directions already
indicated in T. crislala. The proximal lobe (1 .) is a little larger than in that
species; the distal lobe (l .) expands considerably in breadth from the insertion
of the palp to the very broad end, the margin of which is feebly convex with
the angles rounded, and the lobe is more than half as broad again as the proxi-
mal and considerably broader than long, the length measured to the distal part
of the insertion of the palp. The palp (4.) is rather short, not reaching the end
of the distal lobe, slender and tapering to the transversely cut end. The pseu-
dexopod (px.) is extremely large, twice as long as broad and reaches even a
little beyond the end of the distal lobe.

Ortmann has seen a specimen 32 mm. long. The largest specimen in the
Agassiz collection is a female measuring 27 mm., but among the males, measur-
ing about 22-24 mm., not a single specimen seems to be adult, as may be judged
from the stage of development of the lobes and especially of the processes of the
copulatory organs. Fig. 3b and fig. 3c exliibit the two lobes of two males;
the spine-shaped process is, as usual in immature specimens, well developed,
but the terminal and the lateral processes are simple and slender conical, and
the proximal process is nearly similar, yet a little or somewhat curved at the
middle. The additional process on fig. 3b is also slender conical, while fig. 3c
exhibits a most interesting feature, viz. three additional processes (p .) of the
same undeveloped character. I suppose that the existence of three additional
processes is a casual anomaly, but the question ought to be studied by a future
investigator who has a number of adult males at his disposal.

Distribution. — This species was established on a specimen taken in the
Guinea current in the tropical Atlantic; the Monaco specimen described as T.
lateralis is from Lat. 27° 43' N., long. 18° 28' W.; T. denophora Illig from the
Gulf of Guinea. T. agassizii Ortm. which, according to my opinion, cannot be
separated from T. monacantha, was described from specimens taken in the
Gulf of Panama and between the Galapagos and Acapulco; a specimen was
captured in the waters of the Hawaiian Islands (Ortmann) and several speci-
mens were secured by the "Siboga" in the Indian Archipelago. In the area
explored in 1904-1905 the species was not taken in the two most southern dis-
tricts or in a broad belt along the coast of South America. I suppose that
adult specimens live in considerable depths, at least generally in more than
300 fms. from the surface.

214 THE SCHIZOPODA.

6. Thysanopoda aequalis H. J. Hansen.

Plate 4, fig. 4a.

1905. Thysanopoda aequalis H. J. Hansen, Bull. Mus. Ocean Mon., no. 42, p. 19.

1910. Thysanopoda aequalis H. J. Hansen, Siboga-Exp., 37, p. 84, pi. 12, figs. 4a-4c; pi. 13, fig. la.

Sta. 46S1. Dec. 8, 1904.' Lat. 18° 47.1' S., long. 89° 26' W. 300 fms. to surface. 1 specimen.

Sta. 4683. Dec. 9,1904. Lat. 20° 2.4' S., long. 91° 52.5' W. 300 fms. to surface. 9 specimens.

Sta. 4685. Dec. 10, 1904. Lat. 21° 36.2' S., long. 94° 56' W. 300 fms. to surface. 3 specimens.

.„„_ -r^ .. .^„. T ,,„ ,„.,r. , „-o .1., .,« ,,T ^ 300 fms. to surface. 8 .specimens.
Sta. 4687. Dec. 11, 1904. Lat. 22° 49.5' S., long. 97° 30.6' W. -^ „,,,, ^ , , .^ .

{ 2125 tms. to surface. 5 specimens.

Sta. 4689. Dec. 12, 1904. Lat. 24° 5' S., long. 100° 20' W. 300 fms. to surface. 1 specimen.

Sta. 4691. Dec. 13, 1904. Lat. 25° 27.3' S., long. 103° 29.3' W. 300 fms. to surface. 9 specimens.

Sta. 4695. Dec. 23, 1904. Lat. 25° 22.4' S., long. 107° 45' W. 300 fms. to surface. 1 specimen.

Sta. 4701. Dec. 26, 1904. Lat. 19° 11.5' S., long. 102° 24' W. 300 fms. to surface. 10 specimens.

Sta. 4703. Dec. 27, 1904. Lat. 17° 18.6' S., long. 100° 52.3' W. 300 fms. to surface. 3 specimens.

Sta. 4705. Dec. 28, 1904. Lat. 15° 5.3' S., long. 99° 19' W. 300 fms. to surface. 20 specimens.

Sta. 4722. Jan. 16, 1905. Lat. 9° 31' S., long. 106° 30.5' W. 300 fms. to surface. 2 specimens.

Sta. 4724. Jan. 17, 1905. Lat. 11° 13.4' S., long. 109° 39' VV. 300 fms. to surface. 4 specimens.

Sta. 4728. Jan. 19, 1905. Lat. 13° 47.5' S., long. 1 14° 21.6' W. 300 fms. to .surface. 4 specimens.

Sta. 4730. Jan. 20, 1905. Lat. 15° 7' S., long. 117° 1.2' W. 300 fms. to surface. 11 specimens.

Sta. 4732. Jan. 21, 1905. Lat. 16° 32.5' S., long. 119° 59' W. 300 fms. to surface. 10 specimens.

Sta. 4740. Feb. 11, 1905. Lat. 9° 2.1' S., long. 123° 20.1' W. 300 fms. to surface. 1 specimen.

Remarks. — To my earlier descriptions of this characteristic species some
notes on the maxilkilae (fig. 4a) may be added. They differ in some features
from those in T. monacanlha. The proximal lobe is medium sized, with the
terminal, somewhat convex margin rather oblique; the distal lobe expands
somewhat towards the feebly convex terminal margin, is somewhat broader than
long and more than half as broad again as the proximal; the palp is very oblong-
oval with the end very obtuse, besides nearly two and a half times as long as
broad and reaches the end of the distal lobe. The pseudexopod is large, yet a
good deal smaller than in T. monacantha, twice as long as broad and reaches con-
siderably beyond the insertion of the palp.

Length of one of the largest specimens, an adult male, 17.5 mm.

Young Specimens. — Specimens measuring 6.5-8 mm. differ in two imjDortant
particulars from subadults and adults. The frontal plate is proportionately
larger, flatter, and the rostrum is a minute, quite horizontal denticle. The eyes
are much higher than broad, with the upper half yellowish or light brownish
and marked off from the distinctly or much darker lower half. The lobe from
the first antennular joint has not acquired its full size, but its shape shows that
the specimens belong to this species. — Specimens measuring about 10 mm. are
intei-mediate between the adults and the young as to the organs mentioned.

Distribution. — The species is common in the eastern part of the Atlantic
from Lat. 30° 17' N. to Lat. 28° N. (Monaco collection), and it has been taken in
the Mediterranean (Tattersall). The Copenhagen Museum possesses speci-

THYSANOPODA OBTUSIFRONS. 215

mens from four localities in the Eastern Atlantic between Lat. 28° N. and Lat.
23° N., besides from the Central Atlantic at Lat. 5°-7° 15' N., long. 30° W., from
Southern Atlantic at Lat. 30^° S., long. 22?° W., finally from five Stations in an
area across the more southeastern part of the Indian Ocean, viz. between Lat.
22^° S. and 27^° S., long. 80° E. and 103° E. From the Hawaiian waters (the
label has Sta. 3808. From between Erben Bank to Kaiwi Channel) I have seen
nine specimens belonging to this species but referred by Ortmann (1905) to T.
ohtusifrons G. O. S. In the area explored in 1904-1905 this species is confined
to the southern part, not going North of Lat. 92° S. — The specimens in the
Copenhagen Museum have certainly all been taken at the surface during night.

6. Thysanopoda obtusifrons G. O. Sars.
Plate 4, figs. 5a-5f.

1883. Thysanopoda obtusifrons G. O. Sahs, Forh. Vid. Selsk. Christiania for 1883, no. 7, p. 21.

1885. Thysanopoda obtusifrons G. O. Sars, Challenger Rept., 13, p. 102, pi. 12, figs. 1-14.

1905. Thysanopoda vulgaris H. J. Hansen, Bull. Mus. Oc6an. Monaco, no. 30, p. 15.

1905. Thysanopoda vulgaris H. J. Hansen, Bull. Mus. Oc6an. Monaco, no. 42, p. 20.

1910. Thysanopoda obtusifrons H. J. Hansen, Siboga-Exp., 37, p. 81.

Sta. 4683. Dec. 9, 1904. Lat. 20° 2.4' S., long. 91° 52.5' W. 300 fms. to surface. 7 specimens.

Sta. 4685. Dec. 10, 1904. Lat. 21° 36.2' S., long. 94° 56' W. 300 fms. to surface. 11 specimens.

^ . .„„. T „„o .„ ,, o, , ^.to n/^ /./ TTT ^ 300 fms. to .surface. 6 specimens.
Sta. 4687. Dec. 11, 1904. Lat. 22° 49.5' S., long. 97° 30.6' W. ^ „,,,. , . , ., •

' • o ( 2125 fms. to surface. 3 specimens.

Sta. 4689. Dec. 12, 1904. Lat. 24° 5' S., long. 100° 20' W. 300 fms. to surface. 2 specimens.

Sta. 4691. Dec. 13, 1904. Lat. 25° 27.3' S., long. 103° 29.3' W. 300 fms. to surface. 4 specimens.

Sta. 4695. Dec. 23, 1904. Lat. 25° 22.4' S., long. 107° 45' W. 300 fms. to surface. 2 specimens.

Sta. 4701. Deo. 26, 1904. Lat. 19° 11.5' S., long. 102° 24' W. 300 fms. to surface. 2 specimens.

Sta. 4730. Jan. 20, 1905. Lat. 15° 7' S., long. 117° 1.2' W. 300 fms. to surface. 1 specimen.

Sta. 4732. Jan. 21, 1905. Lat. 16° 32.5' S., long. 119° 59' W. 300 fms. to surface. 2 specimens.

Sta. 4740. Feb. 11 , 1905. Lat. 9° 2.1' S., long. 123° 20' W. 300 fms. to surface. 1 specimen.

Description. — The frontal plate (figs. 5a-5b) is considerably produced,
about twice as broad as long, broadly obtuse, with the front margin rounded
or a little angular at the middle and somewhat shorter than one of its oblique
lateral margins; on its end is seen the rostrum transformed as a small, vertical,
conical tooth or at least a vestige of such a tooth; the plate is thick, longitudi-
nally concave at the middle, so that a pair of submedian obtuse keels, united
in front at the rostrum mentioned, is formed, and a little behind the rostrum
begins a rather low median keel which is highest considerably behind the end
of the submedian keels and occupies about two fifths of the length of the cara-
pace. The carapace has a minute, but distinct, denticle on the outer side of
the lateral margin somewhat before its posterior end, while the produced part
of the anterior margin above the antennae is only a minute tooth; a furrow
runs close to the lateral margin along its entire length and bends upwards along
a portion of the posterior margin, but the carapace has no other grooves.

216 THE SCHIZOPODA.

The eyes are somewhat small, dark brownish or nearly black. — The an-
tennulae have the first joint of the peduncle short and very broad, with a mod-
erately short, spiniform process from the distal outer angle; above the joint
is distally strongly raised as an obliquely transverse, vaulted part, from which
a subquadrangular lobe projects forwards, closely covering not quite the inner
half of the proximal part of second joint; this lobe is moderately thick, with
the outer margin nearly straight or a little convex, the distal margin not longer
than the base and the outer distal angle either simple or produced in a small
tooth; the upper surface of the lobe is set with somewhat short, stifT setae. The
second antennular joint is produced anteriorly above into a kind of short, broad,
distally rounded lobe, the front margin of which begins at a point somewhat
removed from the outer angle of the joint and goes inwards and considerably
forwards to the inner margin of third joint. Third joint with the dorsal keel
well defined, but low. — The antennal squama reaches at least to the distal end
of second antennular joint; it is broad, with the end nearly truncate and with-
out any outer distal tooth. The .spiniform process from the peduncle about one
third as long as the squama (fig. 5b) . — The maxillulae (fig. 5c) essentially as in
T. aequalis, but the proximal lobe has the end nearly obliquely cut off, the distal
lobe is considerable widened towards the end and much broader than long; the
palp is slender, about four times as long as broad, reaching the end of the distal
lobe; the pseudexopod is extremely large, twice as long as broad and reaches
about the end of the palp.

The abdominal segments are without any dorsal denticle; the side-plates
of second to fourth segment with the lower margin a little emarginate. The
preanal spine middle sized, simple, curved, and acute. — The uropods about
as long as the telson, with the endopod a little shorter than the exopod. — The
telson with six or seven pairs of dorsal saw-teeth.

The copulatory organs (figs. 5d-5f) show several distinguishing features.
The spine-shaped process (p'.) is well developed, placed at the inner margin of
the inner lobe not far from its end. The terminal process (p-.) of moderate length
and thickness, slightly curved, seen from behind (fig. 5d) with the distal third
tapering to the obtuse end; seen from the inner side (fig. 5e) the distal part
is compressed with the outer margin somewhat serrate, the other margin some-
what convex. The proximal process (p^.) with the basal portion very thick and
directed much outwards; then it bends abruptly forwards and at the bend a
kind of heel-shaped process is directed outwards; the major distal part is, seen
from behind (fig. 5d), feebly curved, seen from the inner side (figs. 5e and 5f)
considerably curved beyond the middle and somewhat expanded but tapering

TIIYSANOPODA OBTUSIFRONS. 217

again to the end, whicli is truncate and at the posterior margin produced into a
tooth. The median lobe has the basal part somewhat broad, and the lateral
process (p''.) is inserted a little before its middle; this process has the basal part
thickened and the distal fourth bent inwards and forwards; the additional
process (p^.) is long, only a little shorter than the lateral, moderately robust,
somewhat curved and overreaching the lol)e; the distal part of this lobe is an
oblong and obliquely triangular lamella which, seen from behind, is bent in-
wards, covering the proximal half of the additional process. The auxiliary
lobe is rather long and thick. The setiferous lobe is moderately broad, with
setae along the major part of both margins, there being a naked interval on tlie
subdistal part of the outer margin.

Length of the largest specimens of both sexes 20 mm.

Youug Specimens. — In specimens measuring only 8-10.5 mm. the rostrum
is a horizontal denticle and the eyes are oblong, yellowish brown, but at least
generally without any difference in colour between their upper and lower half;
the shape of the small lobe from the first antennular joint shows that such
specimens belong to this and not to the preceding species.

Re7narks. — This species is closely allied to T. aequalis H. J. H., but the lobe
from first joint of the antennular peduncle is quite different in the two species,
and the male copulatory organs are sharply distinguished especially by the
feature that the spine-shaped process is well developed in T. obtusifrons and
wanting in T. aequalis.

Errors and deficiencies in Sars's figures have been pointed out in the "Si-
boga ' ' Report ; besides Sars states that the lateral margins of the carapace have
no denticle, but a minute denticle is always present.

Distribution. — Sars's type was captured in the South Pacific at Lat. 32° 36'
S., long. 137° 43' W., l)ut the specimens from the Hawaiian Islands mentioned by
Ortmann (1905) belong to T. aequalis. A good many specimens were captured
by the Prince of Monaco in the Eastern Atlantic between Lat. 36° 46' N. and lat.
27° 43' N. The Copenhagen Museum possesses a specimen from Lat. 27° 30' S.,
long. 98°-99° 10' E.

The distribution in the area explored in 1904-1905 is nearly the same as that
of T. aequalis, but less common. Curiously enough, it has not been taken by
the "Siboga" and is not found among the rather rich Copenhagen material
from the Chinese and Japanese seas.

/8. Carapace in the adults without denticles on the lateral margins near their
posterior end.

218 THE SCHIZOPODA.

7. Thysanopoda pectinata Ortmann.

Plate 5, figs, la-lm.

1893. Thysanopoda pectinata Ortm.\nn, Ergebn. der Plankton-Exped., 2, G., b., p. 10, taf. 1, fig. 4.
1905. Thysanopoda pectinata H. J. Hansen, Bull. Mils. Ocean. Monaco, no. 42, p. 25.
1909. Parathysanopoda Joliijera Illig, ZooI. Anz., 35, p. 225 (young).

Sta. 4681. Dec. 8,1904. Lat. 18° 47.1' S., long. 89° 26' W. 300 fms. to surface. 1 specimen.

Sta. 4687. Dec. 11, 1904. Lat. 22° 49.5' S., long. 97° 30.6' W. 300 fms. to surface. 1 specimen.

Sta. 4?589. Dec. 12, 1904. Lat. 24° 5' S., long. 100° 20' W. 300 fms. to surface. 2 specimens.

Sta. 4701. Dec. 26, 1904. Lat. 19° 11.5' S., long. 102° 24' W. 300 fms. to surface. 2 specimens.

Sta. 4705. Dec. 28, 1904. Lat. 15° 5.3' S., long. 99° 19' W. 300 fms. to surface. 14 specimens.

Sta. 4719. Jan. 14, 1905. Lat. 6° 29.8' S., long. 101° 16.8' W. 300 fms. to surface. 1 specimen.

Sta. 4722. Jan. 16, 1905. Lat. 9° 31' S., long. 106° 30.5' W. 300 fms. to surface. 1 specimen.

Sta. 4730. Jan. 20, 1905. Lat. 15° 7' S., long. 117° 1.2' W. 300 fms. to surface. 5 specimens (1

among them very young).

Sta. 4732. Jan. 21, 1905. Lat. 16° 32.5' S., long. 119° 50' W. 300 fms. to surface. 7 specimens.

Sta. 4734. Jan. 22, 1905. Lat. 17° 36' S., long. 122° 35.6' W. 300 fms. to surface. 1 specimen, young.

Sta. 4740. Feb. 11, 1905. Lat. 9° 2.1' S., long. 123° 20.1' W. 300 fms. to surface. 1 specimen.

Description. — The frontal plate is produced, in the Pacific specimens fre-
quently nearly triangular, with the lateral margins feebly convex towards the
acute end (fig. la), but sometimes the margins are distally more convex and the
end broadly rounded, a little angular at the middle (fig. Ic); in specimens from
the North Atlantic the anterior part of the frontal plate is much broader with a
somewhat long and feebly curved transverse margin in front; on the end or
slightly behind the end of the frontal plate a minute vertical tooth — the re-
mainder of the rostrum in the young — is seen ; the plate is very thick and longi-
tudinally concave at the middle so that a pair of submedian keels are formed
uniting at the tooth mentioned, and a little or somewhat behind the tooth begins
in the bottom of the median excavation the median keel, which is rounded,
rather low, increases in height at the dorsal organ and disappears somewhat
before the place where the non-existent cervical groove is to be looked for; the
lateral edges of the frontal plate are bent a little upwards, so that the surface
becomes a little excavated along each margin. The carapace has a longitudinal
furrow close at the lateral margin almost from its anterior end, and posteriorly
this furrow is curved upwards along the lower half of the posterior margin;
the surface of the carapace without any other groove or impression; the pro-
duced part of the anterior margin above the antennae is a small, short, acute
triangle.

The eyes are somewhat small, black. — The antennulae (figs, la-lb) are
very characteristic. The basal joint is somewhat short and very broad, with a
moderately short, spiniform process at the distal outer angle; the joint is dis-
tally strongly raised as an obliquely transverse, vaulted part with a number

THYSANOrODA PECTIN AT A. 219

of strong, partly long setae, and from that part a quite peculiar lobe projects
forwards, closely covering the major part of the proximal half of the second
joint; the lobe is at its origin about half as broad as the base of second joint,
but it is rapidly strongly expanded outwards, thus furnished with a kind of
triangular lateral wing projecting outwards and somewhat downwards above
the upper lateral surface of second joint; the anterior margin of the lobe, the
wing included, is straight or a little concave, nearly transverse and produced
in a row of 8 to 13 thin, spiniforni processes which increase in length from the
inner to the outer, the inner being short and directed forwards, the outer rather
long and directed outwards to a great degree. The second joint is above and
inwards produced in a lobe which, seen from above, covers closely the proximal
thn-d or rather two fifths of the inner half of the upper surface and the inner
margin itself of third joint; seen from above the outer angle of this lobe is con-
vex, subangular, or rounded, while the front margin of the second joint is some-
what hollowed outside the base of the lobe. The third joint with the dorsal
keel well defined, scarcely half as long as the joint and rather low. — The anten-
nal squama reaches the middle of third antennular joint, it is broad, distally
subtruncate with the outer corner subrectangular and without denticle; the
spiniforni outer process from the subbasal joint is conspicuously or even consid-
erably shorter than the breadth of the squama. — The maxillulae (fig. Id) are
quite peculiar; the proximal lobe has the end nearly regularly rounded; the
distal lobe is extremely broad, distally strongly expanded, broader than long
and twice as broad as the proximal lobe; the palp (4.) is very small, ovate,
not one third as long as the distal lobe, completely covered by the pseudexopod,
which is very large, twice as long as broad.

The abdominal segments are without any trace of dorsal denticles. The
lateral plates of second to fourth segments with the lower margin a little
emarginate. The preanal spine well developed, simple in the male, more rarely
simple, but generally bifid in the female. — The uropods with the endopod
slightly or somewhat longer than the telson and somewhat shorter than the
exopod. — The telson with two pairs of dorsal denticles and no serration; the
subterminal spines extremely long.

The copulatory organs (figs, le-li) afford excellent characters. The spine-
shaped process (p'.) is rather long, thin, bent strongly inwards near the end of
its first third and with the distal part somewhat curved. The terminal process
(p-.) with its proximal third thick and subcylindrical ; then it is curved shghtly
inwards and gradually widened and flattened to the end, which is conspicu-

220 THE SCHIZOPODA.

ously broader or even nearly twice as broad as the basal part and very broadly
rounded with the terminal margin somewhat or feebly convex; besides the process
is a little excavated on the anterior surface along the terminal margin, which
consequently is a Uttle raised (fig. If). The proximal process (p^.) far from reach-
ing the end of the terminal; the basal part is thick, and then the process is
abruptly bent considerably inwards and its terminal third curved again in the
opposite direction; at the proximal bend a short or rather long "heel" projects
on the outer side; the distal third is somewhat compressed with a couple of
irregular teeth on the very oblique terminal margin (fig. Ig, which shows the
distal part seen from the outer side). The median lobe with the proximal half
broad; the lateral process (p^.), which is inserted at the middle of the inner mar-
gin of the lobe, is rather long, moderately slender, with the most distal part
bent strongly inwards and forwards. The additional process (p^. and fig. Ih)
is a strong hook, the major, proximal part being oblong, a little curved and
strongly vaulted on one side, and the distal part is somewhat slender, acute,
and curved strongly outwards; when the organ is seen from behind (fig. le)
the major part of the process is covered by the distal part of the lobe, the end
of which is broadly rounded. A little beyond the insertion of the lateral process
a secondary additional process (p".) is observed on the posterior surface of the
lobe; this process is quite small and shaped as a straight needle. The auxiliary
lobe of moderate size. The setiferous lobe is moderately broad, with setae along
nearly the whole inner margin, the oblique distal end and the proximal half of
the outer margin, while most of the distal part of this margin is naked.

Length of the largest female from the Pacific 29 mm., of adult males 24-
29.5 mm. Specimens from the Atlantic are much larger; the Monaco collec-
tion contains a female 40.5 mm. long and a male 40 mm. long, while Ortmann
stated that his single specimen measured 44 mm. in length.

Very young Specimens. — Figs. Ik-lm show parts of a young specimen
measuring 11 mm. in length. The frontal plate is long, much longer than in
the adult, somewhat shorter than broad, with the distal third of the lateral
margins somewhat convex, and terminating in a small, nearly spiniform, hori-
zontal rostrum ; the upper side of the plate longitudinally concave, without sub-
median keels, and the median keel begins somewhat behind the frontal end,
increasing conspicuously and regularly in height to the dorsal organ. The cara-
pace has a very distinct tooth on the lateral margins a little from their posterior
end. The eyes differ much from those in the adults; seen from above (fig. Ik)
the stalk is much thickened; seen from the side (fig. 11) the eye is much higher

THYSANOPODA PECTIN ATA. 221

than broad and distinctly divided by a constriction into an upper somewhat
small and a lower, conspicuously broader and much higher area; the colour is
dark brown. The antennulae have the process from the outer distal angle of
first joint proportionately longer than in the adults; the lobe from the same
joint is only a little expanded towards the end, with about six terminal teeth
which are shorter than in the adults; the lobe from second joint is also shorter
than in the adults. — Two such specimens are at hand.

Re7narks. — This species is easily distinguished from all other forms of the
genus by the terminal row of spiniform teeth on the lobe from first antennular
joint.

During a long time I considered the specimens from the Pacific as belong-
ing to a separate and new species, because the shape of their frontal plate differs
materially from that of my single female specimen of T. pectinata from the
Atlantic, and this specimen and that recorded by Ortmann are much larger
than any specimen in the rich Agassiz material. But in the winter 1910-1911
I obtained from Monaco several recently captured specimens of T. pectinata,
among them two adult males; the examination of the copulatory organs of
these specimens did not reveal any difference from those from the Pacific, and
I was unable to detect any other difference between the animals from the North
Atlantic and those from the Pacific than the anteriorly broader and much more
obtuse frontal plate in the former together with their much larger size. The
result of study was that I must consider the Pacific specimens as a smaller
local form or variety of T. pectinata. — Nemaioscelis microps G. 0. S. shows also
local variation in the shape of the rostrum in both sexes and especially in the
males, as is seen by comparison of specimens from the Atlantic, the Indian
Archipelago, and the East Pacific (comp. the "Siboga" Report and my notes
on N. microps in the present paper).

The young specimen just described is interesting. I have stages inter-
mediate in size and development between that small specimen and the adults,
and that it belongs to this species is easily seen from its lobe of first antennular
joint. The oblong, divided eye, the shape of the frontal plate and the existence
of a denticle on the lateral margins of the carapace agree completely with the
features found in very young specimens of T. orientalis H. J. H. belonging to
the same group of the genus. That Illig's Parathysanopoda foliifera has been
founded on a young specimen of T. pectinata is easily seen from his description
and figures; the specimen, which measured 15 mm., was captured in the Atlantic,
and as the adults from this Ocean are as a rule much larger than those from the

222 THE SCHIZOPODA.

East Pacific, I think it natural that young in the same stage of development
from the two Oceans differ also somewhat in size.

Distribution. — The Monaco specimens were captured in the Eastern Atlantic
more or less remote from Southern Spain; Ortmann's specimen was taken in
the Northern equatorial current, and Illig's young was from the Benguela cur-
rent, West of Angra Pequena. The list above shows that the distribution in
the East Pacific is similar to that of T. aequalis or T. obtusifrons.

8. Thysanopoda orientalis H. J. Hansen.
Plate 5, figs. 2a-2i.

1910. Thysanopoda orientalis H. J. Hansen, Siboga-Exp., 37, p. 85, pi. 13, figs. 2a-2i.

Sta. 4709. Dec. 30, 1904. Lat. 10° 15.2' S., long. 95° 40.8' W. 300 fms. to surface. 4 specimens.

Sta. 4717. Jan. 13, 1905. Lat. 5° 10' S., long. 98° 56' W. 300 fms. to surface. 1 specimen.

Sta. 4721. Jan. 15, 1905. Lat. 8° 7.5' S., long. 104° 10.5' W. 300 fms. to surface. 1 specimen.

Sta. 4722. Jan. 16, 1905. Lat. 9° 31' S., long. 106° 30.5' W. 300 fms. to surface. 5 specimens.

Sta. 4740. Feb. 11, 1905. Lat. 9° 2.1' S., long. 123° 20.1' VV. 300 fms. to surface. 1 specimen.

A description is found in the paper quoted, but notes on the maxillulae,
maxillae, and copulatory organs may be added here.

The maxillulae (figs. 2a-2b) are quite similar to those in T. obtusifrons
G. O. S., but differ in minor particulars. The proximal lobe is distally a little
more rounded; the distal lobe, though increasing strongly in breadth towards
the end, is almost as long as broad or a little broader than long; the palp is
somewhat or considerably shorter than the distal lobe, slender; the pseudexopod
is very large, yet smaller than in T. obtusifrons, rather far from reaching the end
of the distal lobe. — The maxillae (fig. 2c) are somewhat elongate, with the
terminal — the fourth — joint considerably longer than the third and more
than half as long again as broad. Fig. 2c shows besides the morphological
composition of a maxilla in the present order of Crustacea.

The copulatory organs (figs. 2d-2i) show various fine features. The spine-
shaped process is somewhat or considerably curved, of the normal shape. The
terminal process is somewhat long, moderately strong, feebly curved, tapering,
seen from behind (fig. 2d), from the base to rather near the end where it widens
feebly and has the end itself rounded, but seen in the main from in front (fig. 2e)
the terminal part is perceived to be somewhat widened and excavated, spoon
shaped. The proximal process is very long, much longer than the terminal;
its short proximal part is rather thick, then it is curved nearly abruptly inwards,
but no "heel" is developed, and the process forms now nearly half of a circle,
with the convex side turning inwards; from the proximal bend to a little from

THYSAXOPODA CORNUTA. 223

the end the process is slender and nearly equally thick, but the rather short
distal portion is conspicuously thickened and furnished with niinute teeth along
one margin and with 2-4 longer teeth from the margins just before the incurved,
tooth-shaped end. Fig. 2f gives the distal part of this process seen from behind
and fig. 2g the same part of the same specimen seen from in front ; fig. 2h repre-
sents the same part, seen from behind, of another specimen in oi-dcr to show
variation of the armature. The median lobe has its proximal part, from its
origin to the insertion of the lateral process (p''.), long and proportionately rather
narrow, longer than the distal part; the terminal portion beyond the insertion
of the usual additional process (p^.) is an oblong, distally produced, acuminate
and acute lobe (fig. 2d and fig. 2i). The lateral process (p^.) is slender, somewhat
long, curved, and with the short terminal, acute part bent inwards and forwards.
The additional process (p^.) is an oblong-oval, rather thick, yet somewhat
obliquely vaulted body with the distal end produced into a small, conical,
oblique, acute tooth. But a little beyond the lateral process there originates a
small, very slender secondary additional process (p".) shaped nearly as a spine
with the terminal portion bent inwards (overlooked by me in the "Siboga"
material) . The auxiliary lobe is of moderate size and the setiferous lobe moder-
ately broad; the latter is furnished with setae quite as in T. pedinata.

Length of adult males from 23 to 27.5 mm., of the largest female from the
East Pacific 24.5 mm., while a large female from the "Siboga" measured 38 mm.
in length.

Distribution. — Some specimens were taken at four localities in the Indian
Archipelago by the "Siboga." In 1910 the Prince of Monaco captured several
fine specimens at three localities in the North Atlantic West of Southern Spain.

Group b. Carapace with a well-developed cervical groove. Ma.xillulac with the
pseudexopod somewhat small, scarcely or not at all overreaching the outer margin
of third joint and with the palp very long. Sixth abdominal segment shorter than
the fifth.

9. Thysanopoda cornuta Illig.

1905, March 28. Thysanopoda cornuta Illig, Zool. Anz., 28, p. 663 (with three figures in the text).
1905, April 1. Thysanopoda insignis H. J. Hansen, Bull. Mus. Ocean. Monaco, no. 30, p. 19

(with three text-figures).

Sta. 4670. Nov. 20, 1904. Lat. 12° 8.7' S., long. 79° 2.4' W. Trawl, 3209 fnis. 1 specimen.

The single specimen is an extremely large female measuring 75 ram. in length,
but unfortunately considerably damaged. It agrees excellently with my pre-
liminary description and figures in the paper quoted.

224 THE SCHIZOPODA.

Distribution. — lUig's type was taken in the tropical Atlantic, in the Ben-
guela current off Angra Pequena, in a vertical haul from 4000 m. to surface.
The Monaco specimens were captured at Lat. 27° 43' N., long. 18° 28' W., 3000
to 0 m., and the depth of the Station was 3817 m. — This gigantic species is
certainly bathypelagic.

(?) Thysanopoda cornuta Illig. Juv.
Plate G, figs, la-le.
Sta. 4679. Dec. 7, 1904. Lat. 17° 26.4' S., long. 86° 46.5' W. 300 fms. to surface. 1 specimen.

The specimen measures 14.5 mm. in length. The thoracic legs, which are
well developed, shows that it belongs to the genus Thysanopoda; the shape or
rather the stage of development of the maxillulae (fig. Ic) and the maxillae
(fig. Id) together with the fact that the uropods are very short in comparison
with the telson (fig. le) proves with absolute certainty that the specimen is very
young. The sixth abdominal segment is shorter than the fifth, which shows
that the specimen belong to Group b of this genus. And with little doubt
I consider it to be a specimen of T. cornuta near the end of its larval life.

Description. — The frontal plate is very large (fig. la) with a considerable
portion of the lateral margin, subparallel, the distal outer angles rounded, the
front margin very long, in the main transverse, being a little produced at the
middle as a small very low triangle and the part of the margin outside this
triangle distinctly concave. The median keel between the cer\'ical groove and
the front end is well developed. The integument of the carapace is somewhat
thin, but the cervical groove and the lateral grooves connected with it seem to
agree with my figures of the adult, while the longitudinal lateral furrows cannot
be discerned; the lateral margins seem to have no real denticle.

The eyes are of moderate size, nearly black; the small process found in
the adul t on the outer distal angle of the eye-stalks has not yet been developed. —
The antennulae (fig. lb) show considerable similarity with those in the adult,
but the basal joint is still without its upper distal lobe, and the process fromtlie
outer distal angle is long, as might be expected. — The antennal squama with a
distinct tooth from the outer distal angle. — The maxillulae (fig. Ic) show larval
characters ; the small exopod (ex) is present, while a vestige of a pseudexopod is
rudimentary; the palp (4) has certainly not yet obtained its final length and
only very few of its setae. — The maxillae (fig. Id) show the aspect as in older
larvae.

THYSANOPODA EGREGIA. 225

The upper surface of the fourth and fiftli abdominal segments show quite,
as in the adults, feeble rudiments of three longitudinal keels, while the sixth
segment has not yet obtained the flat dorsal excavation limited by feeble lateral
carinae found in the adult. — The m-opods are much shorter than the telson, a
feature due to the young age of the specimen.

Remarks. — That the specimen is a young of one of the species of Group b
is certain. This group comprises hitherto only two species; judging from vari-
ous particulars I think the specimen studied belongs to T. cornuta, not to T.
egregia. It is, of course, possible, but in my opinion very improbable, that it
belongs to an otherwise liitherto unknown species.

10. Thysanopoda egregia H. J. Hansen.

1905. Thysanopoda egregia H. J. Hansen, Bull. Mus. Ocdan. Monaco, no. 30, p. 22 (with two figures
in the text).

Sta. 4722. Jan. 16, 1905. Lat. 9° 31' S., long. 106° 30.5' W. 300 fms. to surface. 1 specimen.

Remarks. — The single specimen measures 27 mm. in length; it is a female
and, judging from its size, probably immatm^e, as the single other specimen
hitherto known, the male in the Monaco collection, is 44 mm. long. It agrees
on the whole with the description in the Monaco paper, excepting that the third
antennular joint i.s slightly tapering in breadth towards the end and the lower
flagellum simple, while in the male figured that peduncular joint is slightly
thickened towards the end and the basal part of the lower flagellum much
thickened and furnished with a thick tuft of thin setae. Seen from the side,
the upper margin of the carapace between the dorsal organ and the front end
is more convex, being towards the front end curved more downwards, than in
the Monaco specimen.

Two other points may be mentioned. In the Monaco specimen a straight
furrow runs along the side of the carapace considerably above the margin from
the posterior margin to a little behind the cervical groove, and the upper margin
of that furrow is raised and thickened so much that it looks Uke as a keel; in
the smaller Agas.siz specimen the furrow is scarcely distinct but the keel very
conspicuous. In the description of the Monaco specimen I stated that the
fourth to sixth abdominal segments have a dorsal keel along the posterior part
of the median line of each, but there is no median keel on the sixth segment;
the passage alUided to is correct as to the other particulars.

Distribution. — The single specimen previously known was captured at
Lat. 30° 41' N., long. 17° 46' W., 2500 to 0 m.

226 THE SCHIZOPODA.

NYCTIPHANES G. O. Sars (1883).

As the endopod of the penultimate pair of thoracic legs is long, but only
two-jointed, this genus ought to find its place between Thysanopoda and Eu-
phausia, as already stated by Ortmann in 1894. G. O. Sars established the
genus on a species, N. ausiralis G. 0. S., from the Southeastern and Eastern coasts
of Australia, and referred Thysanopoda norvegica M. Sars to the same genus,
believing that T. couchi Bell possibly might be identical with the latter form.
In 1905 Holt and Tattersall estabhshed the genus Meganyctiphanes on T.
norvegica, pointing out that it differed from Nyctiphanes G. 0. S., comprising
N. couchi Bell and N. ausiralis G. O. S., in the following particulars: — fifth and
sixth pairs of thoracic legs with an endopod in both sexes, while an endopod
on these legs is present in the male and wanting in the female; furthermore, in
Nyctiphanes the antennular peduncle is "considerably stouter in the adult male
than in the female", but in Meganyctiphanes the same peduncle is "scarcely,
if at all" stouter in the male than in the other sex; finally, the females of Nycti-
phanes carry their eggs "in paired pyriform masses," but on Meganyctiphanes
ovisacs have never been found. I may add that the male copulatory organs
on the first pleopods afford excellent generic characters; in Meganyctiphanes
the organs are nearly as in Thysanopoda and the inner lobe short with its three
processes well developed as in that genus; in Nyctiphanes (Plate 6, fig. 2h and
fig. 3e) the inner lobe is quite peculiar, being extremely produced as an oblong,
more or less triangular plate with the outer margin sinuate and partly serrate,
and this lobe has the spine-shaped process well developed as in Meganyctiphanes,
while the terminal and the proximal processes are quite wanting.

The genus Nyctiphanes comprises four species. Two species, A'', ausiralis
G. O. S. and A'^. couchi Bell, were established in the earlier hterature; in 1911
I published preliminary descriptions of the two additional species, A'', simplex
H. J. H. and A'', capensis H. J. H. and besides I pointed out that A'', lalifrons
lUig (1908) taken West of Northern Africa was established on very young speci-
mens of A'", couchii Bell.

The Agassiz collection contains specimens of A'', simplex H. J. H., but for
various reasons, and especially as Ortmann has referred specimens taken by
Agassiz in the Pacific to A'^. ausiralis, I redescribe also this species for com-
parison with N. simplex. «

NYCTIPHANES SIMPLEX. 227

11. Nyctiphanes simplex IF. J. Hansen,
Plate 6, figs. 2a-2i (adult and subadult); Plate 7, figs, la-lb (Young).

1911. Nyctiphanes simplex H. J. Hansen, Bull. Mus. Oc6an. Monaco, no. 210, p. 20.

Sta. 4576. Oct. 8, 1904. Lat. 29° 52' N., long. 116° 56' W. Surface. 3 specimens.
Sta. 4644. Nov. 7, 1904. Lat. 2° 13.3' S., long. 89° 42.2' W. Surface. 1 ovigerous female and 1 young.

Surface. 7 innnature or young speci-

Sta. 4652. Nov. 11, 1904. Lat. 5° 44.7' S., long. 82° 39.5' \V. specimens.

100 fms. to surface. 2 innnature or
young specimens.
Sta. 4655. Nov. 12, 1904. Lat. 5° 57.5' S., long. 80° 50' W. Surface. 43 specimens (18 young).
Sta. 4715. Jan. 2, 1905. Lat. 2° 40.4' S., long. 90° 19.3' W. 300 fms. to surface. 2 adult specimens
{& Type, and 9).

Description. — The frontal plate moderately long, triangular, subacute,
with its margin considerably raised; and the median keel begins a little behind
the tip (fig. 2a) and reaches the distinct cervical groove; the median area be-
tween the frontal plate and that, groove is considerably vaulted. As in the other
forms of the genus, the carapace of the adult and subadult has no denticle or
angle on the lateral margin.

Eyes moderately large. — The antennular peduncles very characteristic; in
both sexes the first joint is, at the outer distal corner, produced in a very conspicu-
ous protuberance which, seen from above (figs. 2c and 2e) is directed forwards and
somewhat outwards, is subconical, very thick at the base and acuminate at the
end; the upper terminal leaflet is very large, directed somewhat or much back-
wards and considerably or a little upwards; considerably longer than broad
at the base; scarcely twice as broad at the base as at the end, which is broadly
rounded or nearly truncate with the terminal outer angle produced into a small
triangle and frequently curved considerably upwards and forwards (fig. 2d);
the upper surface of the leaflet is excavated, especially near the base; finally,
outwards below the base of the leaflet a transverse, vaulted part is seen. The
second joint in the female (figs. 2d and 2e) is very long, somewhat slender, with
an oblique, subacute tooth at the upper distal inner angle; in the male (fig. 2b
and 2c) this joint is a little shorter and conspicuously, even considerably thicker
than in the female, and the upper distal tooth is much broader, subvertical,
triangular, or somewhat bifid. Third joint in both sexes much shorter than
second, in the female slender, somewhat keeled above towards the end and the
keel terminating in a short, acute tooth (fig. 2d) ; in the male (figs. 2b and 2c)
this joint is much thicker, without any tooth, but, seen from above, conspicu-
ously curved, with the outer margin very convex, the inner somewhat concave
and near its middle adorned with a bundle of three short and very strong setae.

228 THE SCHIZOPODA.

In more than half-grown, but immature, specimens the leaflet of first joint is
more rapidly and evenly narrowed, not truncate, but with the terminal portion
produced ranch upwards and considerably outwards (fig. 2f), the inner margin
being very convex towards the acute tip and tlie outer considerably concave;
the tooth at the end of second joint is much longer and the acuminate part of
the outer distal protuberance of the first joint considerably longer than in the
adults. — The antennal squama does not reach the end of second antennular
joint (fig. 2a) ; its terminal margin is transverse or a little oblique, with the outer
denticle very distinct; the two distal joints of the stalk of the endopod are
similar in both sexes.

Sixth abdominal segment with a distinct dorsal spiniform tooth at the end.

The copulatory organs (figs. 2h-2i) afford some specific characters. The
distal half of the inner lobe (li.) is subtriangular, rounded at the end; the distal
two thirds of the free outer margin of this lobe is serrate, and its proximal half
shows two obtuse protuberances between which the margin is rather concave.
The median lobe (Im.) is extremely short, cut off transversely, and from the
inner part of the terminal margin the somewhat long lateral process (p^.) pro-
jects; this process is bent a little outwards at the acute end.

Length of the largest male 11.5 mm., of the largest female 14 mm. One of
Ortmann's males from the Gulf of Panama is 13.2 mm. long.

Very young Specimens^ (Plate 7, figs, la-lb). — The specimen figured
measures 7 mm. ; other somewhat smaller specimens are at hand. — The frontal
plate is at the base as broad as the carapace ; it is much produced, longitudinally
concave, its lateral margins are sinuate, being proximally convex and distally
concave, and the plate is distally truncate, even flatly emarginate, each angle
being produced in an acute tooth; at the end the plate is about one tliird as
broad as at the base. In the largest specimen the carapace has scarcely any
angle on the lateral margin somewhat before the hind margin, but in the other
specimens an angle or generally a small denticle is distinct. The eyes are
extremely large. The leaflet of first antennular joint in the largest specimen
directed upwards and somewhat backwards, somewhat excavated above beyond
the base, a little longer than broad, nearly oblong-triangular, with the inner
margin straight, the outer somewhat convex, and the distal part produced in
an acute tip bent upwards and somewhat forwards but not outwards; in some-
what smaller specimens the leaflet is proportionately smaller and less developed;
the process from the outer distal angle of fu-st joint very long. Second and
third antennular joints in the main as in the subadult.

' The larvae of this species are dealt with, p. 288-290.

NYCTIPHANES SIMPLEX. 229

Remarks. — Tliis species is allied to N. ausiralis G. 0. S., but differs in several
features. In order to point out and illustrate these differences I have given on
Plate 6 figures of the antennular peduncles of both sexes and of the copulatory
organs of N. australis; the figures were drawn from two cotypes of Sars.

The leaflet from first joint is much smaller than in N. simplex and consider-
ably broader than long (figs. 3a-3d), subtriangular, with the outer margin convex
and very oblique, and it terminates in a more or less acute tip bent upwards and,
in one of the specimens drawn, somewhat forwards and placed almost above the
inner margin of the joint, furthermore no transverse, vaulted part is seen at the
outer side below the base of the leaflet. The antennular peduncles in the male
are still somewhat tliicker, those of the female still more slender than in N. simplex.
In the male (fig. 3a and 3b) a high, compressed, keel-shaped protuberance is seen
near the end of second peduncular joint, and the third joint is .somewhat thicker
than in A'', simplex, with about six minute hairs, but no stiff setae, on the inner
side. The copulatory organs (fig. 3e) have the most distal part of the inner
lobe considerably broader than in N. simplex, the proximal half of the outer
margin of this lobe differs in the shape of the protuberances from that species,
but the most important difference is shown by the median lobe (Im.), which in
A'', australis has the lateral process placed as in N. simplex, but the lobe itself
projects along that process to its end; if this lobe had been cut off opposite
the insertion of the process we would have the structure found in N. simplex.
The female examined of N. ausiralis is 13.5 mm., the male 15 mm.

Distribution. — In 1894 Ortmann (Bull. Mus. Comp. Zool., 25, p. 100) enum-
erated nine localities ior Nyctiphanes australis: — Gulf of Panama, Galapagos,
Gulf of California, and some Stations in the Northern Pacific between San Fran-
cisco, and the Hawaiian Islands. From the U. S. National Museum I have
received specimens from these Stations and an examination gave the result,
that the two specimens from "Survey" Sta. 54 and "Sui'vey" Sta. 74, both
Stations in the North Pacific between San Francisco and the Hawaiian Islands,
are males of Euphausia recurva H. J. H., while the specimens from the seven
other Stations belong to N. simplex and not to N. australis. The latter species
is hitherto only known from the sea around the Southeastern part of Australia;
in 1911 I established A^. capensis on the specimens mentioned by Stebbing in
1905 and 1910 as taken off Cape St. Blaize, South coast of Africa, and by him
referred to A'', australis.

230 THE SCHIZOPODA.

EUPHAUSIA Dana (1852).

Some statements on thq copulatory organs of the male first pleopods in
this genus may be given here. The spine-shaped process is wanting (yet I
found this process developed in the normal way in one of the specimens exam-
ined of E. lucens H. J. H.); the terminal and the proximal processes are well
developed. The median lobe is, as in Thysanopoda, separated from the inner
lobe and has the lateral process strong and inserted at a considerable distance
from its base, but it has generally no additional process, though this process
is present as a small spine in E. mucronata G. O. S. and as a mere rudiment in
E. gibboides Ortm. The auxiliary lobe is well developed, oblong; the setiferous
lobe is normal, with the pouch on the posterior surface very conspicuous.

The genus comprises twenty-seven species, fourteen of which are represented
in the material from the East Pacific. These species belong to tliree of the four
groups into which I divide the genus.

Group a. Species with two pairs of lateral denticles on the carapace. No
dorsal process on third to fifth abdominal segment.

12. Euphausia eximia H. J. Hansen.
Plate 7, figs. 2a-2g.

1911. Euphausia eximia H. J. Hansen, Bull. Mus. Oc6an. Monaco, No. 210, p. 23.

Sta. 4580. Oct. 10, 1904. Lat. 24° 55' N., long. 112° 45' W. 300 fms. to surface. 5 specimens.

Sta. 4598. Oct. 15, 1904. Lat. 15°5S' N., long. 98° 13' W. 300 fms. to surface. 2 specimens.

Sta. 4605. Oct. 17, 1904. Lat. 12° 21' N., long. 92° 13' W. 300 fms. to surface. 2 young, specimens.

Sta. 4611. Oct. 18, 1904. Lat. 10° 33' N., long. 88° 30' W. Surface. 6 specimens.

Sta. 4615. Oct. 19, 1904. Lat.9°7'N.,long.85° ll'W. Surface. 5 specimens (1 large, 3 quite small).

Sta. 4619. Oct. 20, 1904. Lat. 7° 15' N., long. 82° 8' W. Surface. 9 specimens (1 large, S small).

Sta. 4644. Nov. 7, 1904. Lat. 2° 13.3' S., long. 89° 42.2' W. Surface. 29 specimens (several of

which adult).

Sta. 4649. Nov. 10, 1904. Lat. 5° 17' S., long. 85° 19.5' W. 300 fms. to surface. 2 specimens.

Sta. 4650. Nov. 10, 1904. Lat. 5° 22' S., long. 84° 39' W. 300 fms. to surface. 14 specimens.

f Surface. 74 specimens.

Sta. 4652. Nov. 11, 1904. Lat. 5° 44.7' S., long. 82° 39.5' W. J ^^^ ["^^- *" ^"'"f'^'^^- ^^ specimens.

200 fms. to surface. 45 specimens.

400 fms. to surface. 45 specimens.

Sta. 4655. Nov. 12, 1904. Lat. 5° 57.5' S., long. 80° 50' W. 400 fms. to surface. 18 specimens.

Sta. 4657. Nov. 13, 1904. Lat. 7° 12.5' S., long. 84° 9' W. ] ^^^'t"^' / ^P''^™^"-

( 300 fms. to surface. 42 specimens.

Sta. 4659. Nov. 14, 1904. Lat. 8° 54.5' S., long. 86° 5.5' W. \ ^^^T^' 7 «P««"««'''^-

( 300 fms. to surface. 80 specimens.

Sta. 4661. Nov. 15, 1904. Lat. 10° 17' S., long. 88° 2' W. 300 fms. to surface. 19 specimens.

Sta. 4663. Nov. 16, 1904. Lat. 11° 20.3' S., long. 88° 55.2' W. 300 fms. to surface. 5 specimens.

Sta. 4664. Nov. 17, 1904. Lat. 11° 30.3' S., long. 87° 19' W. 300 fms. to surface. 10 specimens.

Sta. 4665. Nov. 17, 1904. Lat. 11° 45' S., long. S6°5.2' W. \ '^"f^^''''- ^^ ^V<^f'^<^^^-

( 300 fms. to surface. 46 specimens.

EUPHAUSIA EXIMIA. 231

„,„,„ ,, ,,, (Surface. 1 specimen.
Sta. 4667. Nov. 18, 190-1. Lat. 11° 59,5' S., long. 83° 40.4' W. -j y^,^ ^^^^^ ,^ [^^^^^^ ^j specimens.

Sta. 4668. Nov. 19, 1904. Lat. 12° 9.3' S., long. 81° 45.2' W. Open part of Tanner net, 300 fnis. to
surface. 28 specimens. (Type, 1 cf).

Sta. 4669. Nov. 19, 1904. Lat. 12° 12.7' S., long, 80° 25.0' W. -J f^'f^^ //PjJ™^"' ,3 ^^^^..^^^^^

... , _„n,o.^,,,r (Surface. 1 specimen.
Sta. 4671. Nov. 20, 1904. Lat. 12° G.9' S., long. 78° 28.2' W. | ;^oO fms. to sirfaee. 46 specimens.

Sta. 4673. Nov. 21, 1904. Lat. 12° 30.5' S., long. 77° 49,4' W. 300 fms, to surface. 13 specimens.
Sta. 4676. Dec. 5,1904. Lat. 14° 28.9' S., long. 81° 24' W. 300 fms. to surface. 8 specimens.
Sta. 4711. Dec. 31, 1904. Lat. 7° 47.5' S., long. 94° 5.5' W. 300 fms. to surface. 1 specimen.
Sta. 4715. Jan. 2,1905. Lat. 2° 40.4' S., long. 90° 19.3' W. 300 fms. to surface. 11 specimens.

,„ , „„ ,„, (Surface. 2 specimens.

Sta. 4716. Jan. 2,1905. Lat. 2° 18,5' S„long.90°2.6'W. j coO fms. to surface. 6 specimens.

Sta. 4719. Jan. 14,1905. Lat. 6° 29.8' S., long. 101° 16.8' W. 300 fms. to surface. 1 specimen.
Sta. 4742. Feb. 15, 1905. Lat. 0° 3.4' N., long. 117° 15.8' W. 300 fms. to surface. 9 specimens.

Description. — The frontal plate (fig. 2a) is a very short triangle with the
margins somewhat sinuate; it terminates in a well-developed, slender rostrum
which is considerably or much longer than the breadth of second antennular
joint. The oblong dorsal area behind the frontal plate is considerably vaulted
and the keel along this area and forward to near the middle of the rostrum,
is high; seen from the side with its upper margin above the area mentioned it is
considerably curved and even sometimes feebly angular.

Eyes moderately large, black. — Antennular peduncles similar in both sexes,
moderately robust; first joint nearly as long as the sum of theitwo others, seen
from above (fig. 2a) a little more than twice as long as broad ; the terminal lobe
is a transverse plate directed forwards and upwards, at the base half as broad or
more than half as broad as the end of the joint, its outer margin is directed con-
siderably outwards, so that the terminal margin is longer than the base (fig. 2c)
and this margin bears a row of 9-10 spiniform processes, the inner short, from
there increasing in length outwards with those at the outer margin long and
directed forwards and outwards. The second joint shghtly longer than the
third, its upper distal margin distinctly oblique, from near the outer side directed
somewhat forwards, at a short distance from the outer margin with a rather long,
a httle curved, spiniform process directed essentially forwards; a little behind
the terminal margin and rather near the inner margin projects another process
as long as, or longer than, the first named, and it is either simple (fig. 2c) or
bifurcate (fig. 2d), in the latter case terminating in two spines. Tliird joint
with the dorsal keel occupying nearly two thirds of the upper margin; seen
from the side (fig. 2b) high and, if fully developed and preserved, with the upper-
most part projecting forwards as a small triangle, just below which the front
margin of the keel is considerably concave. — The antennal squama reaches the

232 THE SCHIZOPODA.

middle of the third joint of the antennular peduncles and is of very moderate
breadth; the spiniform outer process from the second peduncular joint is very
long, half, or more than half, as long as the squama.

The copulatory organs (figs. 2e-2g) afford good characters. The terminal
process (p%) is somewhat long, with the foot well developed and the heel short;
somewhat more than its proximal half moderately tliick and straight, while its
distal portion is evenly curved, gradually tapering to the acute end and curved
forwards, so that its curvature must be seen from the inner side (fig. 2f); a
slender, spiniform, nearly straight, acute, very thin-walled process originates
where the cm'vature begins and does not reach the end of the main process.
The proximal process (p^) is rather long, considerably bent somewhat from the
base and a little curved slightly beyond the middle; its basal part is somewhat
thickened on the outer side, the remainder moderately slender, the distal portion
much flattened, seen from behind (fig. 2e) very tlun towards the end; seen from
the inner side (fig. 2f) with the rather short distal part somewhat expanded,
forming a very oblique, distally rounded plate with the posterior margin concave,
and the anterior margin very convex with a small protuberance about where
the curvature begins. The median lobe with the proximal portion somewhat
less than twice as broad as the part beyond the insertion of the lateral process;
the most distal part of the lobe suddenly strongly expanded backwards, seen
from behind (fig. 2e) therefore this expansion mainly turns its posterior edge
towards the observer, while seen from the inner side (fig. 2g) the expanded part
shows its form to be a broad triangle; the lateral process (p''.) is moderately
large, with the base thick and the distal part slender and broadly curved, with-
out any dorsal tooth. The auxiliary lobe is long. The setiferous lobe has the
same breadth from before the insertion of the auxiliary lobe to rather near the
end which is partly truncate, partly somewhat triangularly produced, with about
seven setae, while the parallel lateral margins of the lobe are naked.

Length of one of the largest specimens 20 imn., but most adult specimens
are somewhat smaller, about 16-17 mm.

Remarks.— This species is allied to the two Atlantic species E. krohnii
Brandt and E. americana H. J. H., but it differs from both in some good char-
acters, derived from the antennulae and the shape of the two processes on the
inner lobe of the copulatory organs. In Bull. Mus. Ocean. Monaco, no. 210,
I have pointed out the main differences between these three species, with out-
lines of the two important processes on their copulatory organs.

Distribution. — The long list of locaUties with the number of specimens

EUPHAUSIA RECURVA. 233

enumerated above proves that E. eximia must be extremely common in the ma-
jor part of the area of tlie East Pacific investigated by Dr. Agassiz in 190-4-1905,
but yet not found South of Lat. 14?° S., in the whole southwestern part South of
the Une, towards Manga Reva, nor in the inner part of the Gulf of Panama;
and not a specimen has been taken near the Fiji Islands, nor, so far as I know
at present, in the tropical West Pacific.^ The list shows that the species was
rather frequently taken at the surface.

13. Euphausia recurva H. J. Hansen.

Plate 7, figs. 3a-3n.

1905. Euphausia recurva H. J. Hansen, Bull. Mus. Oc(^an. Monaco, no. 42, p. 13.

Sta. 4576. Oct. 8, 1904. Lat. 29° 52' N., long. 116° 56' \V. Surface. 24 cf , 1 d" juv., 1 9 •

Description. — The frontal plate (fig. 3a) very short and shaped as in E.
eximia; the rostrum is very acute, shaped as a rather narrow or very narrow
triangle, from a little to considerably longer than the breadth of second antennu-
lar joint; the keel from the basal part of the rostrum to the posterior end of the
oblong dorsal area nearly as in E. eximia.

The eyes are medium sized, a little smaller than in E. eximia. — The anten-
nular peduncles show interesting features. The basal joint is slightly more than
twice as long as broad, as long as the sum of the two other joints, and the upper
distal lobe differs extremely in the two sexes. In the male (figs. 3b and 3c)
it is a very oblong-triangular plate much longer than broad, longitudinally some-
what curved so that it is less or more hollowed, at the base from a little less to a
little more than half as broad as the end of the joint, at the end acute or even
acuminate, directed upwards and somewhat backwards. In the female the
lobe is vertical or a little recurved (figs. 3d and 3e), somewhat more than half
as broad as the end of the joint, with the lateral margins subparallel, while the
distal margin is deeply and more or less obliquely concave; the distal part of
the lobe is therefore shaped as two triangular, acute processes either nearly
equal in length or the inner somewhat or much longer than the outer, which
sometimes is short. The two distal antennular joints are thicker in the male
than in the female. Second joint increases somewhat in breadth from the base
to considerably beyond the middle; its terminal upper margin is somewhat
obUque; a little inside and beliind the distal outer angle a thick, angular pro-
tuberance or short, obliquely conical tubercle is seen, wliile a little inside and
behind the distal inner angle a slender, spiniform, acute process projects forwards

234 THE SCHIZOPODA.

and a little upwards, and this process is sometimes even proportionately long
and at least considerably longer than the outer dorsal tubercle. Third joint a
little shorter than the second; its dorsal keel is very high, shaped nearly as in
E. eximia, with the triangular, acute tooth beyond the middle and the rounded
incision below that tooth well developed.— The antennal squama shghtly broader
than in E. eximia, reaching the middle of third antennular joint; the spiniform
process from the antennal peduncle reaches the middle of the squama.

The copulatory organs (figs. 3f-3n) show some minor differences from those
in E. eximia. The terminal process (figs. 3f-3h) in the main as in that species,
being a little shorter and thicker, with the heel somewhat longer and the distal
secondary process shorter, thicker, and obtuse. The proximal process is shorter
and thicker than in E. eximia, with the basal third somewhat inflated on the
outer side; about at the beginning of the distal third it is bent somewhat inwards,
and its terminal part is, seen from behind, a flattened plate somewhat expanded
on the outer (distal) side, but the end of the plate varies much in shape, even
in specimens from the same locaUty, as is shown by four figures (figs. 3i-3n);
sometimes the end is nearly cut ofT obliquely with the inner angle acute and feebly
produced (figs. 3i and 3k), sometimes the end is deeply incised and the inner
corner produced into an acute (fig. 31) or obtuse (fig. 3n), narrow process much
longer than broad, while the most distal angle formed by the terminal and the
outer margin is always rounded, but sometimes nearly rectangular (figs. 3m and
3n), sometimes very obtuse (figs. 3k and 3i). The median lobe with its lateral
process and the setiferous lobe nearly as in E. eximia; the auxiliary lobe is very
long.

The specimens taken at Sta. 4576 are somewhat small, 11-12 mm., long,
but the species varies much in size, and a female from Lat. 34° 50' S., long. 25°
30' E. measures even 18 nun. in length.

Remarks. — The male of tliis species is easily distinguished from all other
forms of the genus by the shape and direction of the lobe from first antennular
joint. In the female the shape of this lobe is to some degree similar to that
in the three following species, l^ut the female of E. rccurva is easily separated
from the other forms by the acute, slender, and spiniform process above near
the distal inner angle of second antennular joint; in E. diomedeae Ortm. this
process is replaced by a triangular protuberance, while in E. mutica H. J. H.
and E. brevis H. J. H. there is no armature at the upper inner angle of second
joint; finally in E. diomedeae and E. mutica the lobe from first joint is directed
upwards and considerably forwards.

EliPHAUSIA DIOMKDEAE. 235

Distribidion. — Of this species the Copenhagen Museum possesses a large
mass of material from twenty-eight localities; eleven of these Stations are in
the Southern Atlantic between Lat. 18° S. and Lat. 3G° 10' S., sixteen Stations
are situated in a transverse belt across the southern part of the Indian Ocean
between Lat. 25° 40' S. and Lat. 40° 4' S., and from near the southern end of
Africa to about Long. 100° E. ; finally one Station near Japan, viz. Lat. 31° 20' N.,
long. 132° 29' E. — It has been stated above that the specimens from "Survey"
Sta. 54 (Lat. 35° 3.5' N., long. 129° 5' W.) and "Survey" Sta. 74 (Lat. 30° 4.5' N.,
long. 133° 56.5' W.) referred by Ortmann to Nyctiphanes australis are males
of E. recurra, finally it may be stated that Ortmann's Euphausia pellucida Dana
comprises specimens of several species, among which there are also specimens
of E. recurra, but a revision of this material is postponed for a future paper
on the Euphausiacea in the U. S. National Museum.

14. Euphausia diomedeae Ortmann.
Plate 7, fig. 4a.

1894. Euphausia diomedeae Ohtmann, Bull. Mus. Comp. Zool., 25, p. 102, plate, fig. 3.
1910. Euphausia diomedeae H. J. Hansen, Siboga-Exp., 37, p. 91, pi. 13, figs. 4a-4e.

Sta. 4574. Oct. 8,1904. Lat. 30° 35' N., long. 117° 15' W. 300 fms. to surface. 3 specimens.

Sta. 4587. Oct. 12, 1904. Lat. 20° 40' N., long. 107° 25' W. 300 fms. to surface. 3 specimens.

Sta. 4.588. Oct. 12, 1904. Lat. 19° 52' N., long. 106° 22' W. Surface. 74 specimens (includ. larvae).

Sta. 4594. Oct. 14, 1904. Lat. 17° 20' N., long. 101° 32' W. 300 fms. to surface. 1 specimen.

Sta. 4596. Oct. 14, 1904. Lat. 16° 47' N., long. 100° 27' W. Surface. 2 specimens.

Sta. 4598. Oct. 15, 1904. Lat. 15° 58' N., long. 98° 13' W. 300 fms. to surface. 2 specimens.

Sta. 4605. Oct. 17, 1904. Lat. 12° 21' N., long. 92° 13' W. 300 fms. to surface. 2 specimens.

Sta. 4607. Oct. 17, 1904. Lat. 12° 00' N., long. 91° 30' W. Surface. 32 specimens.

Sta. 4609. Oct. 18, 1904. Lat. 11° 05' N., long. 89° 35' W. 300 fms. to surface. 2 specimens.

Sta. 4611. Oct. 18, 1904. Lat. 10° 33' N., long. 88° 30' W. Surface. 5 specimens.

Sta. 4613. Oct. 19, 1904. Lat. 9° 45' N., long. 86° 20' W. 300 fms. to surface. 1 specimen.

Sta. 4615. Oct. 19, 1904. Lat. 9° 7' N., long. 85° 11' W. Surface. 1 specimen.

Sta. 4619. Oct. 20, 1904. Lat. 7° 15' N., long. 82° 8' W. Surface. Several hundred specimens.

Sta. 4634. Nov. 4, 1904. Lat. 4° 35.4' N., long. 83° 32.3' W. 300 fms. to surface. 20 specimens

(2 of which .are larvae).

Sta. 4635. Nov. 4, 1904. Lat. 3° 52.5' N., long. 84° 14.3' W. Surf.ace. 106 specimens plus 112 young

and larvae.

Sta. 4637. Nov. 5, 1904. Lat. 1° 31' N., long. 86° 32' W. 300 fms. to surface. 55specimens.

Sta. 4638. Nov. 6, 1904. Lat. 0° 27' N., long. 87° 13' W. 300 fms. to surface. 5 specimens.

Sta. 4640. Nov. 6, 1904. Lat. 0° 39.4' S., long. 88° U'W. Surface. More than a hundred specimens.

Sta. 4644. Nov. 7, 1904. Lat. 2° 13.3' S., long. 89° 42.2' W. Surface. 63 specimens.

f Surface. 2 specimens.

Sta. 4646. Nov. 8, 1904. Lat. 4° 1.0' S., long. 89° 16.3' W. \ 300 fms. to surface. 6 specimens (2 of

which are Larvae).

Sta. 4648. Nov. 9, 1904. Lat. 4° 43' S., long. 87° 7.5' W Surface. 3 specimens.

Sta. 4649. Nov. 10, 1904. Lat. 5° 17' S., long. 85° 19.5 'W. 300 fms. to surface. 2 specimens.

Sta. 4652. Nov. 11, 1904. Lat. 5° 44.7' S., long. 82° 39.5' W. 100 fms. to surface. 2 specimens.

Sta. 4659. Nov. 14, 1904. Lat. 8° 54.5' S., lat. 86° 5.5' W. | ^-^-^ ^^^P™' ^ ^^^^.^^^

Sta. 4665. Nov.l7, 1904. Lat. 11° 45' S., long. 80° 5.2' W. 300 fms. to surface. 1 specimen.

Sta.

470S.

Dec.

29, 1904,

Sta.

4709.

Dec.

30, 1904,

Sta.

4710.

Dec.

30, 1904,

are pulli or larvae).

Sta.

4712.

Dec.

31, 1904.

Sta.

4713.

Jan.

1, 1905.

Sta.

4714.

Jan.

1, 1905.

Sta.

4716.

Jan.

2, 1905.

Sta.

4717.

Jan.

13, 1905.

Sta.

4720.

Jan.

14, 1905.

Sta.

4721.

Jan.

15, 1905.

Sta.

4722.

Jan.

16, 1905.

Sta.

4732.

Jan.

21, 1905.

Sta.

4742.

Feb.

15, 1905.

Sta.

4743.

Feb.

15, 1905.

236 THE SCHIZOPODA.

Sta. 4706. Dec. 28, 1904. Lat. 14° 18.7' S., long. 98° 45.8' W. Surface. 4 specimens.

Sta. 4707. Dec. 29, 1904. Lat. 12° 33.2' S., long. 97° 42' W. 300 fms. to surface. 6 specimens.

Lat. 11° 40' S., long. 96° 55' W. Surface. 13 specimens.

Lat. 10° 15.2' S., long. 95° 40.8' W. 300 fms. to surface. 25 specimens.

Lat. 9° 30.5' S., long. 95° 8.3' W. Surface. 119 specimens (107 of which

Lat. 7° 5' S., long. 93° 35.5' W. Surface. 7 specimens.

Lat. 5° 35.3' S., long. 92° 21.6' W. 300 fms. to surface. 4 specimens.

Lat. 4° 19' S., long. 91° 28.5' W. Surface. 5 specimens.

Lat. 2° 18.5' S., long. 90° 2.6' W. Surface. 4 specimens.

Lat. 5° 10' S., long. 98° 56' \V. 300 fms. to surface. 5 specimens.

Lat. 7° 13.3' S., long. 102° 31.5' W. Surface. 1 specimen.

Lat. S° 7.5' S., long. 104° 10.5' W. 300 fms. to surface. 17 specimens.

Lat. 9° 31' S., long. 106° 30.5' W. 300 fms. to surface. 11 specimens.

Lat. 16° 32.5' S., long. 119° 59' W. 300 fms. to surface. 1 specimen.

Lat. 0° 3.4' N., long. 117° 15.8' W. 300 fms. to surface. 12 specimens.

Lat. 0° 21.3' N., long. 117° 2.6' W. Surface. 8 specimens.

Furthermore the species was taken by two earher expeditions.

Fiji Isl. Dec. 11, 1897. 6 m. South of Suva lightship. 3 specimens. A. Agassiz.

Fiji Isl. Dec. 11, 1897. 3 m. South of Suva lightship. 2 specimens. A. Agassiz.

Hyd. Sta. 3789. Sept. 9, 1899. Lat. 2° 38' N., long. 137° 22' W. Surface. 39 specimens.
"Albatross."

It may be added that specimens with the frontal plate more or less expanded,
thus the typical E. diomedeae sens. Ortmann, were found among the material
from the following Stations: — 4619, 4635, 4721, and 4742.

To the description given in the "Siboga" Report a few notes may be added.
The figure of the anterior part of an animal of the typical E. diomedeae Ortmann
exhibits the enormous expansion of the frontal plate with the reduced rostrum.
The great majority of the "Albatross" specimens agree completely with the
"Siboga" specimens in having the short frontal plate developed nearly as in
E. recurva, and the rostrimi slender and about as long as the distal joint of the
eye-stalks, but in some few specimens, most of them males, the frontal plate is
quite enormous, very long and extremely broad, covering almost totally the
eye-stalks ; while the rostrum is very short, the plate has the front margin semi-
circular, and its surface is somewhat vaulted above each eye-stalk. Some other
specimens show the frontal plate and the rostrum intermediate in size and shape
between the two kinds of specimens mentioned; among the large number of
specimens from Sta. 4619 I have found scarcely half a score showing every stage
between the common form with the short and small fiontal plate and a form
similar to that exhibited in fig. 4a. In all other features and in the structure of
the copulatory organs the specimens with the greatly expanded frontal plate
agree completely with the common form. Ortmann estabhshed his E. diomedeae
on a couple of specimens with the frontal plate exceedingly large, but according
to my experience I must consider this development as an anomaly, taking

EUPHAUSIA MTTTCA. 237

the oonnnon form as the nonuaL And a simihir instance in another species
may be mentioned for comparison. Among a good luinihrr of Euphausia
triacaniha Holt and Tattersall secured by the Swedish Antarctic Expedition I
have found a single specimen, an adult female, ha\'ing the frontal plate much
longer and very considerably broader and the rostrum muc h shorter than in the
other specimens, excepting one which shows in a feeble degree the development
mentioned.

The keel on the upper side of third antennular joint is moderately high,
rounded above on the highest point towards the distal end, and rarely with a
trace of the anterior incision found in the two preceding species.

A single specimen (from Sta. 4713) is somewhat larger than all others,

18 mm. long; many specimens measure 13-14 mm. in length, but the majority

of the adults only 10-12 mm.

*

Distribution. — The species is unknown from the Atlantic. The Copen-
hagen Museum possesses specimens from a dozen locahties, viz. : — The Red Sea,
from Lat. 8° 1' S., long. 83° 51' E.; West of Cape Comorin; the Bay of Bengal,
and in the South Chinese Sea eastwards and northwards to Lat. 19° 14' N.,
long. 116° IG' E.; it is common in the East Indian .Archipelago ("Siboga").
Ortmann's tjrpes were taken at the Bindloe Island, Galapagos. The list shows
that the species is very common in the area explored in 1904-1905 excepting in
the southeastern part (from Sta. 4666 to Sta. 4705) and the southwestern part
(from Sta. 4733 to Sta. 4741) where it was entirely absent.

The very long list of localities from the Agassiz Expedition shows that this
species has frequently been taken at the sm-face, sometimes even in large num-
bers. The Copenhagen material has certainly all been taken near the surface.

15. Euphausia mutica H. J. Hansen.

1905. Euphausia mulica H. J. Han.sen, Bull. Mus. Oc^an. Monaco, no. 42, p. 14 (partim).
1910. Euphausia mutica H. J. Hansen, Siboga-Exp., 37, p. 93, pi. 19, figs. la-Id.

Sta. 4678. Dec. 6, 1904. Lat. 16° 31.2' S., long. 85° 3.8' W. Surface. 1 specimen.

Sta. 4679. Dec. 7, 1904. Lat. 17° 26.4' S., long. 86° 46.5' W. 300 fms. to surface. 3 specimens.

Sta. 4681. Dec. 8,1904. Lat. 18° 47.1' S., long. 89° 26' W. 300 fms. to surface. 21 specimens.

Sta. 4682. Dec. 8,1904. Lat. 19° 7.6' S., long. 90° 10.6' W. Surface. 11 specimens.

Sta. 4683. Dec. 9, 1904. Lat. 20° 2.4' S., long. 91° 52.5' W. 300 fms. to surface. 5 specimens.

Sta. 4700. Dec. 25, 1904. Lat. 20° 28.8' S., long. 103° 26.3' W. Surface. 1 specimen.

Sta. 4701. Dec. 26, 1904. Lat. 19° 11.5' S., long. 102° 24' W. 300 fms. to surface. 1 specimen.

Sta. 4702. Dec. 26, 1904. Lat. 18° 39.5' S., long. 102° W. Surface. 2 specimens.

Sta. 4703. Dec. 27, 1904. Lat. 17° 18.6' S., long. 100° 52.3' W. 300 fms. to surface. 2 specimens.

Sta. 4704. Dec. 27, 1904. Lat. 16° 55.3' S., long. 100° 24.6' W. Surface. 28 specimens.

Sta. 4705. Dec. 28, 1904. Lat. 15° 5.3' S., long. 99° 19' W. 300 fms. to surface. 8 specimens.

Sta. 4706. Dec. 28, 1904. Lat. 14° 18.7' S., long. 98° 45.8' W. Surface. 13 specimens.

Sta. 4723. Jan. 16, 1905. Lat. 10° 14.3' S., long. 107° 45.5' W. Surface. 2 specimens.

Sta.

4724.

Jan.

IS,

1905.

Sta.

4725.

Jan.

17,

1905.

Sta.

4727.

Jan.

IS,

1905.

Sta.

4728.

Jan.

19,

1905.

Sta.

4729.

Jan.

19,

1905.

Sta.

4730.

Jan.

20,

1905.

Sta.

4731.

Jan.

20,

1905.

Sta.

4732.

Jan.

21,

1905.

Sta.

4733.

Jan.

21,

1905.

Sta.

4734.

Jan.

22

1905.

Sta.

4735.

Jan.

22

1905.

Sta.

4736.

Jan.

23,'

1905.

238 THE SCHIZOPODA.

Lat. 11° 13.4' S., long. 109° 39' W. 300 fms. to surface. 13 specimens.

Lat. 11° 38.3' S., long. 110° 5' W. Surface. 4 specimens.

Lat. 13° 3' S., long. 112° 44.9' W. Surface. 10 specimens.

Lat. 13° 47.5' S., long. 114° 21.6' W. 300 fms. to surface. 27 specimens.

Lat. 14° 15' S., long. 115° 13' W. Surface. 13 specimens.

Lat. 15° 7' S., long. 117° 1.2' W. 300 fms. to surface. 19 specimens.

Lat. 15° 47.2' S., long. 118° 22.5' W. Surface. 4 specimens.

Lat. 16° 32.5' S., long. 119° 59' W. 300 fms. to surface. 2 specimens.

Lat. 16° 57.4' S., long. 120° 48' W. Surface. 7 specimens.

Lat. 17° 36' S., long. 122° 35.6' W. 300 fms. to surface. 2 specimens.

Lat. 18° 16' S., long. 123° 34.4' W. Surface. 6 specimens.

Lat. 19° 0.4' S., long. 125° 5.4' W. 300 fms. to surface. 2 specimens.

Finally from the following Station : —

Hyd. Sta. 3998 (236). Jan. 28, 1900. Lat. 6° 34' N., long. 170° 59 E. Surface. Electric light. 6
specimens. " Albatross."

Remarks. — To the description in the "Siboga" paper may be added, that
the dorsal keel on the tliird antennular joint is inedium sized, with its feebly
rounded distal angle about 100° and the front margin subvertical or distinctly
oblique.

One of the largest specimens measm-es 13 mm. in length; most of the adults
are about 10-12 mm., sometimes even only S-9 mm.

Distribution. — This species is more widely distributed than the allied E.
diomedeae, but the number of specimens seen by me of E. mutica is yet much
smaller than the number of the other species. In the tropical East Pacific
the two species were seldom taken together or at localities near each other,
E. mutica being restricted to the southern part of the area explored, not being
found North of Lat. 10° 14' S., while in the major portion of this southern
part E. diomedeae was entirely wanting. — E. mutica has been taken by the
Prince of Monaco in the Sargasso Sea at Sta. 137 and Sta. 142 (West of Long.
40° W., South of Lat. 42° N.) and the Copenhagen Museum possesses speci-
mens from the following places in the Atlantic: — Lat. 39° 30' N., long. 50°
W.; Lat. 33° N., long. 47° W.; Lat. 24° N., long. 22° W.; the West Indies;
the Guinea current, finally Lat. 38° S., long. 12° E. Furthermore the Copenhagen
Museum possesses specimens from the Indian Ocean about at Lat. 23° S., long.
8l5° E., from the South Cliinese Sea: Lat. 19° 14' N., long. 116° 6' E., and from
Japan: Lat. 31° 20' N., long. 132° 29' E. The "Siboga" captured some speci-
mens at two Stations in the Indian Archipelago. — The species has very
freciuently been taken at the surface.

EUPHAUSIA BREVIS. 239

16. Euphausia brevis 11. J. H.\n.skn.
Plate 8, figs, lii-lfj.

1905. Euphausia brevis H. J. Hansen, IJull. Mus. Oc(5an. Monaco, no, 42, p. 15.

Sta. 4685. Dec. 10, 1004. Lat. 21° 36.2' S., long. 94° 56' W. 300 fms. to surface. 13 specimens.
Sta. 4686. Dec. 10, 1904. Lat. 22° 2' S., long. 95° 52' W. Surface. 31 specimens.

Sta. 4687. Dec. 11, 1904. Lat. 22° 49.5' S., long. 97° 30.6' W. \ 1'^JT}° """"^'T ^t 'P"''™™'-

( 2125 fms. to surface. 7 specimens.

Sta. 4688. Dec. 11, 1904. Lat. 23° 17.2' S., long. 98° 37.5' \V. Surface. 7 .specimens.

Sta. 4689. Dec. 12, 1904. Lat. 24° 5' S., long. 100° 20' W. 300 fms. to surface. 21 specimens.

Sta. 4690. Dec. 12, 1904. Lat. 24° 45' S., long. 101° 45' W. Surface. 11 spe('imens.

Sta. 4691. Dec. 13, 1904. Lat. 25° 27.3' S., long. 103° 29.3' \V. 300 fms. to surface. 17 specimens.

Sta. 4692. Dec. 13, 1904. Lat. 25° 40.4' S., long. 104° 1.3' VV. Surface. 1 specimen.

Sta. 4694. Dec. 22, 1904. Lat. 26° 34' S., long. 108° 57.3' W. Surface. 11 specimens.

Sta. 4695. Dec. 23, 1904. Lat. 25° 22.4' S., long. 107° 45' W. 300 fms. to surface. 4 specimens.

Sta. 4696. Dec. 23, 1904. Lat. 24° 40.3' S., long. 107° 5.3' W. Surface. 1 .specimen.

Sta. 4698. Dec. 24, 1904. Lat. 22° 50.4' S., long. 105° 31.7' W. Surface. 10 specimens.

Sta. 4699. Dec. 25, 1904. Lat. 21° 39.5' S., long. 104° 29.8' W. 300 fms. to surface. 2 specimens.

Sta. 4700. Dec. 25, 1904. Lat. 20° 28.8' S., long. 103° 26.3' W. Surface. 9 specimens.

Sta. 4701. Dec. 26, 1904. Lat. 19° 11.5' S., long. 102° 24' W. 300 fms. to surface. 1 specimen.

Sta. 4702. Dec. 26, 1904. Lat. 18° 39.5' S., long. 102° W. Sui'face. 11 specimens.

Sta. 4730. Jan. 20, 1905. Lat. 15° 7' S., long. 117° 1.2' W. 300 fms. to surface. 3 specimens.

Sta. 4734. Jan. 22, 1905. Lat. 17° 36' S., long. 122° 35.6' W. 300 fms. to surface. 1 specimen.

Sta. 4735. Jan. 22, 1905. Lat. 18° 16' S., long. 123° 34.4' W. Surface. 33 specimens.

Sta. 4736. Jan. 23, 1905. Lat. 19° 04' S., long. 125° 5.4' W. 300 fms. to surface. 10 specimens.

Sta. 4738. Jan. 24, 1905. Lat. 20° 26.5' S., long. 128° 30.2' W. Surface. 21 specimens.

Description. — The frontal plate is broad and moderately long (fig. la),
proportionately broader and conspicuously longer than in the four preceding
species, with the lateral margins nearly straight or feebly sinuate, terminating
in a small or very small, very oblong-triangular rostrum somewhat or much
shorter than the breadth of second antennular joint. The median area behind
the frontal plate is much vaulted; the keel from the basal part of the rostrum
to the hind margin of the area named is well developed.

Eyes very distinctly smaller than in E. eximia, brown or blackish brown,
thus lighter than in the four preceding species. — The antennular peduncles
comparatively thick, similar in* both sexes. The first joint distinctly less than
twice as long as broad ; its terminal lobe is directed vertically upwards or upwards
and somewhat forwards, it is about half as broad as the end of the joint, broader
than high, with the terminal margin more or less deeply and obliquely concave,
the distal inner part being triangular, somewhat produced and its angle terminat-
ing in an acute point or short, spiniform process, while its outer distal angle is
produced into a somewhat longer, subspiniform process (fig. Ic) ; frequently
the concave distal margin shows a tiny, angular projection usually terminating
in a short seta. Second peduncular joint with a proportionately rather long,
spiniform process originating above from the distal margin somewhat inside

240 THE SCHIZOPODA.

the outer margin and directed forwards and a little outwards (fig. Ic), wkile
there is no trace of any corresponding distal process or tubercle above near the
inner margin. Third joint slightly longer than second; its dorsal keel only
half as long as the joint, seen from above less sharp (fig. la) and seen from the
side only moderately high (fig. lb), very obliquely triangular, with the distal
upper angle obtuse. — The antennal squama reaches nearly or not fully the middle
of third antennular joint and is proportionately broader than in E. recurva or
E. eximia; the spiniform process from the subbasal joint reaches the middle
of the squama.

The copulatory organs (figs. Id-lg) are somewhat similar to those of E.
eximia, but all three processes are proportionately shorter and show besides
minor differences. The terminal process has its distal part shorter and much
less cur\-ed (fig. Ig), with its spiniform appendage rather short. The proximal
process is considerably shorter and proximally more inflated (fig. le) and beyond
the middle more curved than in E. eximia; its distal fourth is an oblong, at the
end, rounded plate (fig. If) bent considerably backwards, and at its base a nar-
rowly triangular protuberance projects forwards; the real length of this plate
is shown by fig. le, while fig. If exliibits the inner lobe with its two processes
seen from the inner side, and owing to the very oblique direction of the terminal
plate of the proximal process that plate looks in this figure much shorter than
in the lateral view. The lateral process has its curved part shorter than in
E. eximia, but as in this species without any dorsal teeth. The auxiliary lobe
is moderately long; the obliquely triangular terminal part of the setiferous lobe
is somewhat more produced than in E. eximia.

Length of adult specimens 8.5-10 mm.

Remarks. — E. brevis is easily distinguished from the other species of this
group by its longer frontal plate with the rostrum short, by the shape of the
lobe of first antennular joint and especially by having above on the second
antennular joint a most conspicuous, slender process near the distal outer angle
but no trace of any process or tubercle at the inner angle.

Distribution. — The distribution of E. brcms differs very little from that of
E. mutica. In the tropical East Pacific it is confined to a still smaller southern
area than E. mutica as it was not found North of Lat. 15° 7' S., and the majority
of the Stations are South of Lat. 20° S. — It is not known from near the Western
coast of Europe, but the Prince of Monaco has captured it in the Sargasso Sea
in Lat. 40|°— 4li° N., long. 40°-4lf° W., and several times in the triangle, the
"Banc de Goringe," the Azores, and the Canary Islands; besides in the Medi-

EUPHAUSIA PACIFIC A. 241

terranean. The Copenhagen Museum possesses specimens from four locahties
in the North Atlantic: — Lat. 37° N., long. 41° W.; Lat. 33° N., long. 47° W.;
Lat. 24° N., long. 22° W., and Lat. 23° 31' N., long. 22° 4' W.; furthermore
from one place in the South Atlantic: — Lat. 22^° S., long. 29^° W., from one in
the Southern part of the Indian Ocean about at Lat. 23° S., long. 81i°E.,
finally from a place at Japan: — Lat. 31° 20' S., long. 132° 29' E.— Most of the
specimens recorded have been taken at the surface.

Group b. Species ivith a single pair of lateral denticles on the carapace. No
dorsal process on third to fifth abdominal segment.

17. £uphausia pacifica H. J. Hansen.
Plate 7, figs. 5a-5b.

1911. Euphausia pacifica H. J. Hansen, Bull. Mus. Ocdan. Monaco, no. 210, p. 2S (with two figures
in the text).

4 fms., surface net. 1 immature speci-

Sta. 4571. Oct. 7, 1904. Lat. 33° 40' N., long. 119° 35' W. ■

men.
300 fms. to surface. 28 immature speci-
mens.

Description. — The frontal plate is extremely short, without any real rostral
process, but at the middle feebly produced as a triangle several times broader
than long, with the vertex in the adults generally rounded, rarely acute, in
immature specimens rounded or acute.

The eyes are extremely large; the distal joint of the stalks short. — The
antennular peduncles are somewhat long, more slender in immature specimens
(fig. 5a) than in adults; lobe of first joint is in the adults a small, oblong-triangu-
lar, acuminate, and acute process; in specimens a little more than half grown
it is somewhat shorter in proportion to breadth (fig. 5b). Second joint is dis-
tinctly longer than the third, with the inner distal angle on the upper surface a
little produced, acute.

The copulatory organs afford excellent specific characters, but as all speci-
mens in the Agassiz collection are far from adult I have not figured these organs ;
in the recently published description of this species, quoted above, 1 have given
a preUminary representation of the organs and may now refer to that paper.

One of the largest specimens in the Agassiz collection is only a little more
than half-grown and measures 11 mm. in length, while adults are generally
18-22 mm. long.

Remarks. — This species is closely allied and similar to E. luccns H. J. H.
( = E. splendens sens. G. 0. S.), but it is well distinguished by a few small char-

242 THE SCHIZOPODA.

acters and especially by the copulatory organs. The antennular peduncles
are a little longer and distinctly more slender than in E. lucens, with the second
joint longer than the third, while in E. lucens it is not longer than the third;
finally the lobe of first joint is a little less conspicuous than in E. lucens and differs
slightly in shape. The rostrmn, \'iz. the triangle at the middle of the front
margin of the carapace, is generally more pronounced and more produced in
E. lucens than in E. pacifica. And the copulatory organs afford excellent char-
acters, but here I will only refer to the brief descriptions with figures of the most
important parts of the copulatory organs of E. pacifica, E. lucens, and a third
closely allied species, E.frigida H. J. H., found in my above-mentioned paper.
Distribulion. — The species is distributed in the temperate and boreal
North Pacific; it is very common at Japan. The Copenhagen Museum possesses
considerable material from seven localities at Formosa and especially from near
Japan and Corea northwards to Lat. 39° N.; a future report on the fine material
belonging to the U. S. Nat. Museum will contain a fuller account of its distribu-
tion. But here it may be stated that the specimens from four localities in the
North Pacific — between Lat. 35° 19§' N. and Lat. 35° 36|' N., long. 125° 211' W.
and 124° 45V W. — referred by Ortmann (in his paper in 1894) to Euphausia
splendens Dana belong to E. pacifica.

18. Euphausia tenera II. J. Hansen.

1885. Euphausia gracilis G. O. Sars, Challenger Rept., 13, p. 89, pi. 15, figs. 12-23 (not E. gracilis Dana).
190.5. Euphausia tenera H. J. Hansen, Bull. Miis. Oc&in. Monaco, no. 42, p. 9.
1910. Euphausia tenera H. J. Hansen, Sibo'ga-Exp., 37, p. 9.5, pi. 14, figs. 3a-3e.

Sta. 4.587. Oct. 12,1904. Lat. 20° 42' N., long. 107° 25' W. 300 fms. to surface. 7 specimens.

Sta. 4588. Oct. 12, 1904. Lat. 19° 52' N., long. 106° 22' W. Surface. 59 specimens.

Sta. 4596. Oct. 14, 1904. Lat. 16° 47' N., long. 100° 27' W. Surface. 5 specimens.

Sta. 4598. Oct. 15, 1904. Lat. 15° 58' N., long. 98° 13' W. 300 fms. to surface. 1 specimen.

Sta. 4619. Oct. 20, 1904. Lat. 7° 15' N., long. 82° 8' W. Surface. 1 specimen.

Sta. 4634. Nov. 4,1904. Lat. 4° 35.4' N., long. 83° 32.3' W. 300 fms. to surface. 1 specimen.

Sta. 4635. Nov. 4, 1904. Lat. 3° 52.5' N., long. 84° 14.3' W. Surface. 5 specimens.

Sta. 4637. Nov. 5, 1904. Lat. 1° 31' N., long. 86° 32' W. 300 fms. to surface. 27 specimens.

Sta. 4638. Nov. 6, 1904. Lat. 0° 27' N., long. 87° 13' W. 300 fms. to surface. 21 specimens.

Sta. 4640. Nov. 6,1904. Lat. 0° 39.4' S., long. 88° 11' W. Surface. 134 specimens.

Sta. 4644. Nov. 7, 1904. Lat. 2° 13.3' S., long. 89° 42.2' W. Surface. 22 specimens.

Sta. 4646. Nov. 8, 1904. Lat. 4° 1.6' S., long. 89° 16.3' W. \ '^"^^f *"■ f specimens.

( 300 fms. to surface. 14 specimens.

Sta. 4648. Nov. 9,1904. Lat. 4° 43' S., long. 87° 7.5' W. Surface. 10 specimens.

Sta. 4649. Nov. 10, 1904. L.at. 5° 17' S., long. 85° 19.5' W. 300 fms. to surface. 1 specimen.

Sta. 4650. Nov. 10, 1904. Lat. 5° 22' S., long. 84° 39' W. 300 fms. to surface. 11 specimens.

Sta. 4652, Nov. 11, 1904. Lat. 5° 44.7' S., long. 82° 39.5' W. \ ^^^^f^' ^ ^^Pecimens

( 200 fms. to surface. 1 specimen.

Sta. 4657. Nov. 13, 1904. Lat. 7° 12.5' S., long. 84° 9' W. 300 fms. to surface. 4 specimens.

Sta. 46.59. Nov. 14, 1904. Lat. 8° 54.5' S., long. 86° 5.5' W. I '^"li^f ®- ^ specimens.

( 300 fms. to surface. 4 specimens.

ErrilAlSlA TEXKHA. 243

Sta. 4661. Nov. 15, 1904. Lat. 10° 17' S., long. SS° 2' W. \ ^.Z^'f'^' ' **''"■""''"■

( .JOO fnl^^. to surface. '■) specimens.

Sta. 4663. Nov. 16, 1904. Lat. 11° 20.3' S., long. SS° 55.2' \V. 300 fm.s. to .surface. 14 specimens.

Sta. 4664. Nov. 17, 1904. Lat. 11° 30.3' S., long. S7° 19' W. 300 fms. to surface. 1 specimen.

Sta. 4665. Nov. 17, 1904. Lat. 11° 45' S., long. 86° 5.2' W. 300 fms. to surface. 64 specimens.

Sta. 4667. Nov. IS, 1904. Lat. 11° 59.5' S., long. 83° 40.4' W. \ t^^'f^' , ^ ^P'^f'"^"-

( 300 fms. to surface. 3 specimens.

Sta. 4668. Nov. 19, 1904. Lat. 12° 9.3' S., long. 81° 45.2' W. Open part of Tanner net : 300 fms. to

surface. 10 specimens.

Sta. 4669. Nov. 19, 1904. Lat. 12° 12.7' S., long. 80° 25.6' W. \ ^'fJf"' } ^'"'"'"^"' o-

( 300 fms. to surface. 2o specimens.

Sta. 4671. Nov. 20, 1904. Lat. 12° 6.9' S., long. 78° 28.2' W. 300 fms. to surface. 6 specimens.

Sta. 4673. Nov. 21, 1904. Lat. 12° 30.5' S., long. 77° 49.4' W. 300 fms. to surface. 2 specimens.

Sta. 4676. Dec. 5,1904. Lat. 14° 28.9' S., long. 81° 24' W. 300 fms. to surface. 2 .specimens.

Sta. 4678. Dec. 6,1904. Lat. 16° 31.2' S., long. 85° 3.8' W. Surface. 20 specimens.

Sta. 4679. Dec. 7, 1904. Lat. 17° 26.4' S., long. 86° 46.5' W. 300 fms. to surface. 10 specimens.

Sta. 4680. Dec. 7, 1904. Lat. 17° 55' S., long. 87° 42' VV. Surface. 8 specimens.

Sta. 4081. Dec. 8,1904. Lat. 18° 47.1' S., long. 89° 26' W. 300 fms. to surface. 13 specimens.

Sta. 4683. Dec. 9,1904. Lat. 20° 2.4' S., long. 91° 52.5' W. 300 fms. to surface. 4 specimeas.

Sta. 4701. Dec. 26, 1904. Lat. 19° 11.5' S., long. 102° 24' W. 300 fms. to surface. 1 specimen.

Sta. 4702. Dec. 26, 1904. Lat. 18° 39.5' S., long. 102° W. Surface. 1 specimen.

Sta. 4705. Dec. 28, 1904. Lat. 15° 5.3' S., long. 99° 19' W. 300 fms. to surface. 2 specimens.

Sta. 4706. Deo. 28, 1904. Lat. 14° 18.7' S., long. 98° 45.8' W. Surface. 1 specimen.

Sta. 4707. Dec. 29, 1904. Lat. 12° 33.2' S., long. 97° 42' W. 300 fms. to surface. 2 specimens.

Sta. 4708. Dec. 29, 1904. Lat. 11° 40' S., long. 96° 55' W. Surface. 4 specimens.

Sta. 4709. Dec. 30, 1904. Lat. 10° 15.2' S., long. 95° 45.8' W. 300 fms. to surface. 4 specimens.

Sta. 4710. Dec. 30, 1904. Lat. 9° 30.5' S., long. 95° 8.3' W. Surface. 2 specimens.

Sta. 4712. Dec. 31, 1904. Lat. 7° 5' S., long. 93° 35.5' W. Surface. 1 specimen.

Sta. 4713. Jan. 1,1905. Lat. 5° 35.3' S., long. 92° 21.6' W. 300 fms. to surface. 4 specimens.

Sta. 4714. Jan. 1, 1905. Lat. 4° 19'S,, long. 91° 28.5' W. Surface. 23 specimens.

Sta. 4716. Jan. 2, 1905. Lat. 2° 18.5' S., long. 90° 2.6' W. Surface. 25 specimens.

Sta. 4717. Jan. 13, 1905. Lat. 5° 10' S., long. 98° 56' W. 300 fms. to surface. 1 specimen.

Sta. 4721. Jan. 15,1905. Lat. 8° 7.5' S., long. 104° 10.5' W. 300 fms. to surface. 1 specimen.

Sta. 4722. Jan. 16,1905. Lat. 9° 31' S., long. 106° 30.5' W. 300 fms. to surface. 3 specimens.

Sta. 4723. Jan. 16, 1905. Lat. 10° 14.3' S., long. 107° 45.5' W. Surface. 5 specimens.

Sta. 4724. Jan. 17, 1905. Lat. 11° 13.4' S., long. 109° 39' W. 300 fms. to surface. 103 specimens.

Sta. 4725. Jan. 17,1905. Lat. 11° 38.3' S., long. 110° 5' W. Surface. 1 specimen.

Sta. 4728. Jan. 19,1905. Lat. 13° 47.5' S., long. 114° 26.1' W. 300 fms. to surface. 11 specimens.

Sta. 4730. Jan. 20,1905. Lat. 15° 7' S., long. 117° 1.2' W. 300 fms. to surface. 7 specimens.

Sta. 4732. Jan. 21, 1905. Lat. 16° 32.5' S., long. 119° 59' W. 300 fms. to surface. 1 specimen.

Sta. 4733. Jan. 21,1905. Lat. 16° 57.4' S., long, 120° 48' W. Surface. 1 specimen.

Sta. 4734. Jan. 22,1905. Lat. 17° 36' S., long. 122° 35.6' W. 300 fms. to surface. 52 specimens.

Sta. 4735. Jan. 22, 1905. Lat. 18° 16' S., long. 123° 34.4' W. Surface. 4 specimens.

Sta. 4736. Jan. 23, 1905. Lat. 19° 0.4' S., long. 125° 5.4' VV. 300 fms. to surface. 20 specimens.

Sta. 4740. Feb. 11, 1905. Lat. 9° 2.1' S., long. 123° 20.1' W. 300 fms. to surface. 12 specimens

(7 of which are larvae).

Sta. 4741. Feb. 11,1905. Lat. 8° 29.7' S., long. 122° 56' W. Surface. 12 specimens.

Sta. 4743. Feb. 20, 1905. Lat. 8° 52.2' N., long. 108° 54' W. Surface. 2 specimens.

Furthermore the species was taken by an earher expedition at two places : —

Hyd. Sta. 3789. Sept. 9, 1899. Lat. 2° 38' N., long. 137° 22' W. Surface. 4 specimens. "Albatross."
Hyd. Sta. 3998 (236). Jan. 28, 1900. Lat. 6° 34' N., long. 170° 59' E. Surface. Electric light.
2 specimens. " Albatross."

The representation given by Sars together with the additional notes and
figures in the "Siboga" Report may convey a sufficient idea of this small and
very slender species.

244 THE SCHIZOPODA.

Distribution. — The long list of Stations shows that this species is extremely-
common in the major part of the area investigated, viz. in its most tropical belt,
being entirely wanting in the portions South of Lat. 20° S. and North of Lat.
20° 42' N. According to Sars it has once been taken rather southwards, viz.
off Port Jackson, about at Lat. 33h° S. It is common in the Indian Ai'chipelago
("Challenger," "Siboga") and the Copenhagen Museum possesses a specimen
from the Southern Chinese Sea at Lat. 19° 14' N., long. 116° 16' E. Finally
it is common in the tropical Atlantic, going northwards at least to Lat. 24° N.
(Ortmann, and specimens in the Copenhagen Museum from almost twenty
locahties).

The species has frequently been taken at the surface. But it may be men-
tioned that according to Ortmann the German Plankton-Expedition has captured
the species twice in the closing net from 1200 to 1000 m. and from 700 to 500 m.,
thus proving that at least sometimes it goes down to a very considerable depth.

Group c. Species with a single pair of lateral denticles on the carapace. A pro-
truding, acute dorsal process on third abdominal segment but without any
dorsal process — at most with a minute denticle {E. mucronata) — on fourth
and fifth abdominal segments.

19. Euphausia gibba G. O. Sars.

Plate 8, figs. 2a-2b.

1883. Euphausia gibba G. O. Sars, Forh. Vid. Selsk. Cliristiania for 1883, no. 7, p. 17.

1885. Euphausia gibba G. O. Sars, Challenger Rept., 13, p. 91, pi. 16, figs. 1-8.

1911. Euphausia gibba H. J. Hansen, Bull. Mus. Oc(San. Monaco, no. 210, p. 31. (With figure).

Lat. 20° 2.4' S., long. 91° 52..5' W. 300 fms. to surface. 7 specimens.
Lat. 21° 36.2' S., long. 94° 56' W. 300 fms. to surface. 2 specimens.
Lat. 22° 2.2' S., long. 95° 52' W. Surface. 1 specimen.

Lat. 22° 49.5' S., long. 97° 30.6' W. ■! ^^^ f">«- to surface. 6 specimens.

( 2125 fms. to surface. 1 specimen.
Lat. 25° 22.4' S., long. 107° 45' W. 300 fms. to surface. 1 specimen.
Lat. 24° 40.3' S., long. 107° 5.3' W. Surface. 5 specimens.
Lat. 22° 50.4' S., long. 105° 31.7' W. Surface. 14 specimens.
Lat. 20° 28.8' S., long. 103° 26.3' \Y. Surface. 1 specimen.
Lat. 19° 11.5' S., long. 102° 24' W. 300 fms. to surface. 12 specimens.
Lat. 18° 39.5' S., long. 102° W. Surface. 7 specimens.
Lat. 16° 55.3' S., long. 100° 24.6' W. 300 fms. to surface. 2 specimens.
Lat. 16° 32.5' S., long. 1 19° 59' W. 300 fms. to surface. 1 specimen.
Lat. 18° 16' S., long. 123° 34.4' W. Surface. 2 specimens.

Description. — Body slender. — Frontal plate very short, rostrum oblong-
triangular, somewhat acuminate and very acute, about as long as, or a little
longer than, the breadth of the second antennular joint and not quite or about

Sta.

4683.

Dec.

9,

1904.

Sta.

4685.

Dec.

10,

1904.

Sta.

4686.

Dec.

10,

1904.

Sta.

4687.

Dec.

11,

1904.

Sta.

4695.

Dec.

23,

1904.

Sta.

4696.

Dec.

23,

1904.

Sta.

4698.

Dec.

24,

1904.

Sta.

4700.

Dec.

25,

1904.

Sta.

4701.

Dec.

26,

1904.

Sta.

4702.

Dec.

26,

1904.

Sta.

4704.

Dec.

27,

1904.

Sta.

4732.

Jan.

21,

1905.

Sta.

4735.

Jan.

22,

1905.

EUPHAUSIA G1I3UA. 245

as long as tlio diamct(>r of the small oyes; the gastric area, seen from the side,
somewhat feebly vaulted, and the median keel is well developed.

Lobe from first antennular joint not half as broad as the end of the joint,
directed obliquely forwards, upwards, and somewhat outwards; not quite as
long as broad, somewhat obhque-triangular with the inner margin feebly convex;
the end very acute, and besides frequently with an extremely low tooth or
feebly produced, sharp angle near the base of the outer side. Second antennu-
lar joint abo\'e with the distal inner angle showing an extremely small, sharp
tooth; while at the outer side the lateral corner itself is rounded. Third joint,
seen from the outer side (fig. 2a), with the dorsal keel decreasing gradually in
height from the middle to its proximal end which is situated at some distance
from the end of second joint, thus nearly as in E. paragibba H. J. H., but the
distal part of the keel is a little higher than in the latter species.

Dorsal process of third abdominal segment, seen from above, shaped as an
oblong-triangular, distally acuminate and acute plate, very far from half as long
as the fourth segment. Sixth abdominal segment as in E. paragibba.

The copulatory organs (fig. 2b) differ extremely from those in all other
species of the genus. The terminal process (p'.) is unusually small, subcorneal,
thick at the base, and with the distal third slender, acute and suddenly bent
obliquely forwards and outwards; the heel is proportionately long and very
slender. The proximal process (p^) is very long and strong, thickened at the
base and then tapering nearly evenly to the acute end; somewhat before its
middle it is curved somewhat inwards; and somewhat beyond the middle it is
bent considerably outwards and besides forwards, its distal third being almost
straight. The lateral process (p''.) is bent strongly inwards a httle before the
middle; its proximal part is thick, its distal part slender, and it has no dorsal
tooth. The median lobe is very curious; its proximal third, to the insertion of
the lateral process, is extremely broad, its middle third is considerably narrower,
yet broader than long; the distal third originates from the outer distal angle of
the preceding part as a kind of thin-skinned, very slender finger with the proximal
half directed considerably outwards and the distal part bent conspicuously
inwards. The auxiliary lobe of moderate length ; the setiferous lobe as in allied
species, with seven setae along its triangularly produced terminal margin.

Length of adults of both sexes 11-15 mm., most frequently 12-13.5 mm.

Remarks. — E. gibba G. O. S. is closely allied and very similar to E. pseudo-
gibba Ortm., E. hemigibba H. J. H., and E. paragibba H. J. H. These four species
are in reality so similar in general aspect, in shape of rostrum, size of eyes, lobe

246 THE SCHIZOPODA.

of first antennular joint, etc., that a close examination is necessary in order to
separate them with certainty. As pointed out in the "Siboga" Report, the male
copulatory organs of first pleopods afford excellent specific characters, and it
may be added that these organs in E. gibba differ strongly from those in the three
species mentioned by the very short and curiously shaped terminal process,
the very long and strong proximal process and the finger-shaped, very slender
and feebly chitinized terminal part of the median lobe. The female is very
similar to that of E. paragibba, the only difference being that the distal part of
the keel on the third antennular joint is a little higher and less rounded than in
the latter species. Furthermore E. gibba is generally smaller than E. paragibba
and differs in all probability in the living state by the colour of the body; the
Agassiz collection contains specimens of both species from a good number of
locahties, and while the specimens of E. paragibba are whitish or a little yellow-
ish, those of E. gibba are less or more yellowish or sometimes light brownish or
even somewhat saffron coloured.

It is seen from the "Challenger" localities that Sars has confused at least
two species, because E. gibba does not occur in the Atlantic. He has marked a
specimen from the West Pacific, between Api and Cape York, as type, and his
fi^. 6 on PI. XVI shows that he has examined and figured a male of the species
described here as E. gibba.

Distribution. — The list of localities shows that E. gibba was taken only in
the southern parts of the area investigated, viz. only South of Lat. 16° 32' S.
The Copenhagen Museum possesses two specimens from the South Pacific at
Lat. 27° 11' S., long. 88° 52' W. ("Galathea" Exp.), and the type of Sars was, as
already stated, taken between Api and Cape York. Sars states that he has seen
specimens of E. gibba taken off Kandavu, Fiji Islands, and during my visit to
London in 1907, I separated three of his thirteen specimens as being E. tenera,
but not having at that time discovered the importance of the copulatory organs,
and that therefore new species ought to be separated from the original E. gibba
material, I cannot state anything concerning the remaining ten specimens.

But all statements in the literature as to the occurrence oi' E. gibba in the
Atlantic and the Indian Ocean are to be cancelled, as all the specimens re-exam-
ined by me belong to E. hemigibba H. J. H., E. pseudogibba Ortm., or E.
paragibba H. J. H.

20. Euphausia paragibba II. J. Hansen.
1910. Euphausia paragibba H. J. Hansen, Siboga-Exp., 37, p. 100, pi. 14, figs. 6a-6d.

Sta. 4679. Dee. 7, 1904. Lat. 17° 26.4' S., long. 86° 46.5' W. 300 fms. to surface. 5 specimens.
Sta. 4681. Dec. 8,1904. Lat. 18° 47.1' S., long. 89° 26' \V. 300 fms. to surface. 7 specimens.

Sta.

4705.

Doe.

2S,

1904.

St a.

4707.

Dec.

29,

1904.

Sta.

4709.

Dec.

30,

1904.

Sta.

4721.

Jan.

1.-),

1905.

Sta.

4722.

Jan.

16,

1905.

Sta.

4730.

Jan.

20,

1905.

Sta.

4740.

Feb.

11,

1905.

Sta.

4742.

Feb.

15,

1905.

ETTHAUSIA PSEUDOGIBRA. 247

Lat. 15° 5.3' S., long. 99° 19' W. 300 fms. to surface. 17 specimens.
Lat. 12° 32.2' S., long. 97° 42' W. 300 fms. to surface. 2 specimens.
I.at. 10° 15.2' S., long. 95° 40.8' W. 300 fms. to surface. 5 specimens.
Lat. 8° 7.5' S., long. 104° 10.5' W. 300 fms. to surface. 1 specimen.
Lat. 9° 31' S., long. 106° 30.5' W. 300 fms. to surface. 8 specimens.
Lat. 15° 7' S., long. 117° 1.2' W. 300 fms. to fiin-face. 1 specimen.
Lat. 9° 2.1' S., long. 123° 20.1' W. 300 fms. to surface. 2 specimens.
Lat. 0° 3.4' N., long. 117° 15.8' W. 300 fms. to surface. 1 specimen.

One of the largest specimens, a female, measures 17 mm., a very small
adult male is scarcely 12 mm. long, but the most common size is 15-15.5 mm.

Distribution. — This species has been established on a few specimens taken
in the Indian .Irchipelago, at Lat. 0° 17.6' S., long. 129° 14.5' E. The Copen-
hagen Museum possesses males from two localities, viz. Lat. 13° S., long. 103° 20'
E. (Capt. Andrea) and Lat. 34° 30' S., long. 27° 40' E. (Capt. Hartmann), the
latter being in the most western part of the Indian Ocean, East of Port Elizabeth.
The list above shows that the species has been taken ten times in a transverse
belt about between the line and Lat. 19° S. in the area explored by Agassiz
1904-1905, while it was not met with in the larger northern and smaller southern
part. Furthermore the list seems to show that the species at least as a rule does
not live at the surface, but the specimens in the Copenhagen Museum have
certainly been taken near the surface and probably during night.

21. Euphausia pseudogibba Ortmann.

1893. Euphausia pseudogibba Ortmann, Ergebn. der Plankton-Exped., 2, G., b., p. 12, taf. I, fig. 6.
1910. Euphausia pseudogibba H. J. Hansen, Siboga-Exp., 37, p. 97; pi. 14, figs. 4a-4e.

Sta. 4728. Jan. 19, 1905. Lat. 13° 47.5' S., long. 114° 21.6' W. 300 fms. to surface. 1 specimen.
Sta. 4732. Jan. 21, 1905. Lat. 16° 32.5' S., long. 119° 59' W. 300 fms. to surface. 1 specimen.

I have nothing to add to the description in the "Siboga" paper.

Distribution. — Only the two specimens recorded from the Pacific are known
hitherto; Ortmann's specimens from the Hawaiian Islands referred (1905) to
E. pseudogibba belong to E. hemigibba H. J. H. The Copenhagen Museum and
the Monaco collection contain numerous specimens from several localities from
the eastern warmer temperate and tropical Atlantic North of the line; further-
more I have seen specimens from the Bay of Bengal ("Galathea" Exp.) and
from Lat. 11° 16' S., long. 103° 50' E. (Capt. Andrea).— The specimens from
twelve locahties in all in the Copenhagen Museum are nearly all males and
have certainly been taken at the surface during the night.

(The fourth .species of the gibba-group sens, strict., E. hemigibba H. J. H.
(see the "Siboga" paper) is very common in the Atlantic from Lat. 42° N. to
southwest of the Cape of Good Hope, and in the Indian Ocean from Port Eliza-

248 THE SCHIZOPODA.

beth to Long. 103° E. (the Copenhagen Museum possesses specimens from no
less than forty-two localities in these Oceans), but it was taken only at a single
Station in the Indian Archipelago by the ''Siboga", and from the Pacific at the
Hawaiian Islands, viz. the above-mentioned specimens referred by Ortmann to
E. pseudogibba) .

22. Euphausia distinguenda H. J. Hansen.
Plate 8, figs. 3a-3f.

1911. Euphausia distinguenda H. J. Hansen, Bull. Mus. Oc&n. Monaco, no. 210, p. 32.

Sta. 4583. Oct. 11, 1904. Lat. 22° 45' N., long. 110° 5' W. 300 fms. to surface. 3 specimen.s.

Sta. 4587. Oct. 12, 1904. I.at. 20° 42' N., long. 107° 25' W. 300 fms. to surface. 2 specimens.

Sta. 4588. Oct. 12, 1904. Lat. 19° 52' N., long. 106° 22' W. Surface. 12 specimens, all immature,

the majority small or very small.

Sta. 4590. Oct. 12, 1904. Lat. 18° 50' N., long. 104° 50' W. 300 fms. to surface. 7 specimens.

Sta. 4592. Oct. 13, 1904. Lat. 18° 20' N., long. 103° 40' W. Surface. 1 small specimen.

Sta. 4594. Oct. 14, 1904. Lat. 17° 20' N., long. 101° 32' W. 300 fms. to surface. 10 specimens.

Sta. 4596. Oct. 14, 1904. Lat. 16° 47' N., long. 100° 27' W. Surface. 58 specimens, small.

Sta. 4598. Oct. 15, 1904. Lat. 15° 58' N., long. 98° 13' W. 300 fms. to surface. 19 specimens.

Sta. 4605. Oct. 17, 1904. Lat. 12° 21' N., long. 92° 13' W. 300 fms. to surface. 15 specimens.

Sta. 4613. Oct. 19, 1904. Lat. 9° 45' N., long. 86° 20' W. 300 fms. to surface. 1 specimen.

Sta. 4615. Oct. 19, 1904. Lat. 9° 7' N., long. 85° 11' W. Surface. 6 small specimens.

Sta. 4619. Oct. 20, 1904. Lat. 7° 15' N., long. 82° 8' W. Surface. 10 small specimens.

Sta. 4634. Nov. 4, 1904. Lat. 4° 35.4' N., long. 83° 32.3' W. 300 fms. to surface. 4 specimens.

Sta. 4637. Nov. 5, 1904. Lat. 1° 31' N., long. 86° 32' W. 300 fms. to surface. 20 specimens.

Sta. 4640. Nov. 6, 1904. Lat. 0° 39.4' S., long. 88° 11' W. Surface. 1 small specimen.

Sta. 4644. Nov. 7, 1904. Lat. 2° 13.3' S., long. 89° 42,2' W. Surface. 2 small specimens.

Sta. 4646. Nov. 8, 1904. Lat. 4° 1.6' S., long. 89° 16.3' W. 300 fms. to surface. 11 specimens.

Sta. 4649. Nov. 10, 1904. Lat. 5° 17' S,, long. 85° 19.5' W. 300 fms. to surface. 9 specimens.

Sta. 4650. Nov. 10, 1904. Lat. 5° 22' S., long. 84° 39' W. 300 fms. to surface. 35 specimens.

f 100 fms. to surface. 11 specimens.

Sta. 4652. Nov. 11, 1904. Lat. 5° 44.7' S., long. 82° 39.5' W. •} 200 fms. to surface. 5 specimens.

[ 400 fms. to surface. 5 specimens.

Sta. 4657. Nov, 13, 1904. Lat. 7° 12.5' S,, long. 84° 9' W, 300 fms, to surface. 1 .specimen.

Sta. 4659. Nov. 14, 1904. Lat. 8° 54.5' S., long. 86° 5.5' W. 300 fms. to surface. 11 specimen.?.

Sta. 4661. Nov. 15, 1904. Lat. 10° 17' S., long. 88° 2' W. 300 fms. to surface. 1 specimen.

Sta. 4663. Nov. 16, 1904. Lat. 11° 20.3' S., long. 88° 55.2' W. 300 fms. to surface. 18 specimens.

Sta. 4665. Nov. 17, 1904. Lat. 11° 45' S., long. 86° 5.2' W. -| ^"^'f^'^''- / ^"'f ^P~- .

( 300 fms. to surface. 24 specimens.

Sta. 4667. Nov. 18, 1904. Lat. 11° 59.5' S„ long. 83° 40.4' W ] ^^^Y^' ^ ' ^Peci^en scarcely adult.

. . ( 300 fms. to surface. 13 specnnens.

Sta. 4668. Nov. 19, 1904. Lat. 12° 9,3' S,, long, 81° 45,2' W, Bottom of Tanner net, 300 fms, 3

specimens,

Sta, 4669. Nov, 19, 1904, Lat, 12° 12,7' S,, long, 80° 25,6' W, 300 fms. to surface, 6 specimens.

Sta. 4671. Nov. 20, 1904. Lat. 12° 6.9' S., long. 78° 28.2' W. 300 fms. to surface. 5 specimens.

Sta. 4673. Nov. 21, 1904. Lat. 12° 30.5' S., long. 77° 49.4' W. 300 fms. to surface. 2 specimens.

Sta. 4709. Dec. 30, 1904. Lat. 10° 15.2' S., long. 95° 40.8' W, 300 fms. to surface. 2 specimens.

Sta. 4710, Dec, 30, 1904, Lat. 9° 30.5' S., long. 95° 8.3' W. Surface. 1 adult specimen.

Sta. 4713. Jan. 1,1905. Lat. 5° 35.2' S., long. 92° 21.6' W. 300 fms. to surface. 3 specimens.

Sta. 4715. Jan. 2, 1905. Lat. 2° 40.4' S., long. 90° 19,3' W. 300 fms. to surface. 3 specimens.

Sta. 4717. Jan. 2,1905. Lat. 5° 10' S., long. 98° 56' W. 300 fms. to surface. 3 specimens.

Description. — Body slender. — Frontal plate (fig. 3a) moderately short,
with a portion of each lateral margin somewhat convex, anteriorly produced

EUPHAUSIA DISTINGUENDA. 240

ill a small. or iicarlj* rudiineiUary, acute rostrum which is badly tlclincd, ijroader
or much broader than long, about half as long as the breadth of second antennu-
lar joint or even conspicuously smaller. The gastric area well developed, with
the median keel, seen from the side (fig. 3b), rather high and cvvn slightly angular.

Eyes rather small; eye-stalks a little longer in proportion to their distal
breadth than in allied species and in very young specimens somewhat conspicu-
ously long. — The antennular peduncles moderately strong; the proximal joint
distally somewhat raised (fig. 3c) above the base of second joint, but the lobe
may be termed rudimentary, as the terminal margin, seen from above (fig. 3d),
is somewhat convex and with a small incision rather near the middle. Second
joint at the upper outer distal angle with a rather short and high, oblique keel
(figs. 3c and 3d, p.) directed upwards and somewhat forwards, forming almost
an ear-like, rounded process; the distal upper margin of the joint from this
process to the inner margin is somewhat oblique (fig. 3d). Third peduncular
joint, seen from the outer side (fig. 3c), with its distal half occupied above by a
high keel, highest at the middle and, if well preserved, with the distal upper
angle rectangular and acute, the terminal margin a little concave and oblique. —
The antennal squama is somewhat broad, less than three times as long as broad,
tapering considerably towards the end so that the terminal transverse margin is
short and there is no tooth from the outer angle; the spine-shaped process
from the outer angle of the peduncle nearly one third as long as the squama.

First and second abdominal segments slightly produced above at the middle
of the posterior margin, but this produced part is rounded, scarcely angular.
Third segment posteriorly produced in a spiniform, compressed process, from
one third to nearly half as long as tlie following segment. Foiu'th and fifth
segments without any trace of a dorsal tooth. Sixth segment long, twice as long
as deep. Preanal spine simple in both sexes. — Endopod of the uropods slightly
longer than the exopod and as long as, or even a little longer than, the telson.

The copulatory organs (figs. 3e-3f) show some peculiar features. The
terminal process has a rather long foot and a very long, cur\ed heel ; the portion
beyond the foot is moderately short, thick at the base, tapering considerably
to beyond the middle where it is curved somewhat inwards, while its distal part
is slender with the end scarcely acute. The proximal process (fig. 3f, p\) has
somewhat less than the proximal half stout and almost straight, then it bends
abruptly considerably inwards and becomes rapidly thinner, being at the middle
much narrower or even only half as broad as its proximal part; a little beyond
the middle the inner side is almost abruptly considerably expanded, and this

250 THE SCHIZOPODA.

expansion decreases gradually to somewhat before the en d ; the terminal part is
curved inwards and tapers to the acute end. The median lobe is normal, termi-
nating in a somewhat flattened, rounded lobe; the lateral process (fig. 3e)
is rather robust at the base; considerably beyond the middle it is bent very
strongly, both inwards and considerably in the proximal direction, and at the
bending it has a very conspicuous, cur\'ed, acute dorsal (or outer) tooth and
sometimes still a smaller tooth or two small teeth (fig. 3f, p''.). The auxiliary
lobe is long. The setiferous lobe is broad, with five setae from the triangularly
produced terminal part and about four setae distributed along the outer margin.

Length of both sexes 10-14.5 mm.

Type.^A male from Sta. 4665; 300 fms. to surface.

Remarks. — E. distinguenda resembles E. paragibba and allied species by
its slender body and rather small eyes, but it is easily distinguished by having
no protruding, acute lobe from first antennular joint, by the somewhat ear-like
keel at the outer angle of the second joint, and l)y the copulatory organs; the
reduced rostrum, the high keel on the third antennular joint, and the dorsal
process on third abdominal segment being compressed afford other valid but
less conspicuous characters.

Distribution. — The long list of localities shows that this species is common
in a large part of the area explored, viz. from Lat. 22i° N. to Lat. 122° S., while
it is wanting south of the last-named latitude, and besides it was not taken
in the southwestern part of the area, west of Long. 100° and south of the line.
Many of the specimens referred by Ortmann (1894) to E. mucronata G. 0. S.
belong to E. distinguenda. But I have not seen a specimen of this species from
any other area or ocean. The list shows that the species was several times taken
at the surface, but that the specimens in question were nearly all immature and
generally small.

23. Euphausia lamelligera H. J. Hansen.

Plate S, figs. 4a-4e; Plate 9, fig. la.

1911. Euphuusia hniiclligera H. J. Han.sen, Bull. Mus. Oc^an. Monaco, no. 210, p. 32.

Sta. 4588. Oct. 12, 1904. Lat. 19° 52' N., long. 106° 22' W. Surface. 1 young specimen.

Sta. 4592. Oct. 13, 1904. Lat. 18° 20' N., long. 103° 40' W. Surface. 2 specimens.

Sta. 4605. Oct. 17, 1904. Lat. 12° 21' N., long. 92° 13' W. 300 fms. to surface. 4 specimens.

Sta. 4611. Oct. 18, 1904. Lat. 10° 33' N., long. 88° 30' W. Surface. 27 specimens.

Sta. 4613. Oct. 19, 1904. Lat. 9° 45' N., long. 86° 20' W. 300 fms. to surface. 1 specimen.

Sta. 4615. Oct. 19, 1904. Lat. 9° 7' N., long. 85° 11' W. Surface. 20 specimens.

Sta. 4619. Oct. 20, 1904. Lat. 7° 15' N., long. 82° 8' W. Surface. 30 specimens.

Sta. 4640. Nov. 6,1904. Lat. 0° 39.4' S., long. 88° 11' W. Surface. 1 specimen.

Sta. 4648. Nov. 9, 1904. Lat. 4° 43' S., long. 87° 7.5' W. Surface. 1 specimen.

Sta. 4652. Nov. 1 1, I'JOl. L:it. 5° 44.7' S., long. S2° 39.5' W

EUPHAUSIA LAMELLIGERA. 251

Sta. 41)50. Nov. 10, I'JOl. Lat. 5° 22' S., long. S4° 39' W. -j '^"^"^i.^""' ] ■'"""'"'■"•

' ( 300 fnis. to surface. 3 specimens.

Surface. 2 specimens.

100 fms. to surface. 31 specimens.

200 fms. to surface. 23 specimens.

400 fms. to surface. 15 specimens.

Sta. 4655. Nov. 12, 1904. Lat. 5° 57.5' S., long. SO" 50' W. -] '';,\''^f "• ,^ ^P''^""^"^-

' ( 400 fms. to surlace. 4 speeunens.

Sta. 4657. Nov. 12, 1904. Lat . 7° 12.5' S., long. 84" 9' W. ] '^"ff " ^" «P-™«"«- .

' ( 300 fms. to surface. 1 sjiocuncn.

Sta. 4659. Nov. 14, 1904. Lat. S° 54.5' S., long. 86° 5.5' W. 300 fms. to surface. 4 specimens.

Sta. 4661. Nov. 15, 1904. Lat. 10° 17' S., long. 88° 2' W. Surface. 1 specimen.

Description. — Body slender. — The frontal plate (fig. 4a) is very short,
but laterally somewhat produced with right angles, while the long front margin
is almost transverse, being only feebly produced at the middle with an extremely
obtuse angle, and consequently no rostrum is developed. The gastric area is
highly vaulted and, seen front the side, with the upper margin angular (fig. 4b),
but a real keel is not developed.

The eyes are large. — The antennular peduncles are somewhat robust;
the basal joint is much raised above towards the terminal margin (fig. 4c), which
is situated much above the base of second joint and produced in a moderately
small lobe projecting upwards, forwards, and outwards (fig. 4d); the end of the
lobe is more or less distinctly cleft. Second joint at the end furnished with a
very large, movable lamella which, seen from above (fig. 4d, 1.), is subtriangular,
reaching almost to the inner margin, and covering the outer proximal half or
still more of the upper surface of the third joint; while seen from the side (fig. 4c)
its lower margin runs almost along the middle of the side of the third joint, so
that the proximal upper fourth or still more of the whole outer surface of the
joint is covered; in immature specimens this lamella is smaller and in about
half-grown individuals quite small. The third joint, seen from the outer side
(fig. 4c) with the dorsal keel high, occupying the distal half of the joint, with the
front margin long and a little oblique, the angle between this margin and the
upper margin being about 100°. — The antennae nearly as in E. distinguenda.

Third abdominal segment with a dorsal, slender, spiniform, compressed
process' a little or scarcely more than one third as long as the next segment;
fourth and fifth segments without any vestige of dorsal denticles. Sixth seg-
ment long, even a little more than twice as long as deep. — Exopod of uropods
a little longer than the endopod and conspicuously shorter than the telson.

The copulatory organs (Plate 8, fig. 4e; Plate 9, fig. la) show some simi-
larity to those of E. distinguenda, but there are several differences. The termi-
nal process has a rather long foot, but its heel is somewhat short and curved.

252 THE SCHIZOPODA.

and the process beyond the foot is rather long, regularly tapering in breadth
from the robust base to the acute end; also a httle curved and towards the
acute end curved considerably inwards. The proximal process has the proximal
three fifths robust and somewhat curved, with the inner margin concave and the
outer more convex, as the part at the middle is thicker than at each end; the
distal two fifths are flattened, towards the end quite flat, with the proximal half
of its antero-interior margin somewhat convex, as this part, seen from behind
(fig. la), is considerably expanded; then it tapers in breadth towards the rounded
end and the most distal part is so flattened that, seen from the inner side (fig. 4e),
it looks quite thin with the end nearly acute. The median lobe has its terminal
part produced as a narrow but moderately short lobe which is rounded at the
end and directed obliquely forwards, it is therefore seen better from the inner
side (fig. 4e); the lateral process is of moderate size, curved inwards more or
less beyond the middle and with a sharp dorsal tooth slightly beyond the curva-
ture. The auxiliary lobe is long. The setiferous lobe is broad, with six setae
from the triangularly produced terminal part, but with no setae along the outer
margin.

Length of adult males 7.5-10 mm., of a large female 10.8 mm.

Type. — A male from Sta. 4652; 100 fms. to surface.

Remarks. — This small species is easily distinguished from all other forms
by the large, movable lamella projecting from the second antennular joint and
covering a large portion of the upper and outer portion of third joint. The
shape of the short frontal plate, of the lobe from the first antennular joint, etc.,
afford other valuable characters.

Distribution. — The list of localities shows that E. lamelligera is common

in the eastern part of the area explored in 1904-1905, but only between Lat. 20°

N. and Lat. 10^° S., furthermore it was frequently taken at the surface and at

times in considerable numbers. The species is unknown to me from any other

area or ocean.

24. Euphausia gibboides Ortmann.

Plate 9, figs. 2a-2h.

1893. Euphausia gibboides Ortmann, Ergebn. der Plankton-Exped., 2, G., b., p. 12, taf. 1, fig. 5.
1911. Euphausia gibboides H. J. Hansen, Bull. Mus. Ocean. Monaco, no. 210, p. 33.

Lat. 4° 35.4' N., long. 83° 32.3' W. 300 fms. to surface. 2 specimens.
Lat. 1° 31' N., long. 86° 32' W. 300 fms. to surface. 20 specimens.
Lat. 0° 27' N., long. 87° 13' W. 300 fms. to surface. 2 specimens.
Lat. 2° 40.4' S., long. 90° 19.3' W. 300 fms. to surface. 1 specimen.
Lat. 2° 18.5' S., long. 90° 2.6' W. 600 fms. to surface. 2 specimens.
Lat. 5° 10' S., long. 98° 56' W. 300 fms. to surface. 1 specimen.
Lat. 0° 3.4' N., long. 117° 15.8' W. 300 fms. to surface. 5 specimens.

Sta.

4634.

Nov.

4,

1904.

Sta.

4637.

Nov.

5,

1904.

Sta.

4638.

Nov.

6,

1904.

Sta.

4715.

.Tan.

2

1905.

Sta.

4716.

J. an.

2,

1905.

Sta.

4717.

Jan.

13,

1905.

Sta.

4742.

Feb.

15,

1905.

EUPHAUSIA GIBI50IDES. 253

Furthermore the species was taken twice in 1S97 by Dr. Agassiz, viz.: —

Fiji Islands. Dec. 11, 1897. 6 iii. South of Suva light.sliip. 1.50 fiiia. 4 specimens.
Fiji Islands. Dec. 11, 1897. 3 m. South of Suva lightship. 100 tms. 1 specimen.

Description. — Body rather stout. — Frontal plate (fig. 2a) is very short,
subangular at each side; anteriorly it is produced into a rather long rostrum,
the basal part of which is a comparatively somewhat large triangle a little broader
than long, while its distal portion is spiniform. The gastric area is, seen from
the side (fig. 2b), highly vaulted; the keel from the middle of the rostrum and
along that area is sharp.

The eyes are large. — The antennular peduncles moderately robust; the
first joint is raised considerably above towards the upper terminal margin (fig. 2c),
the major part of which is nearly transverse (fig. 2d), but the inner part is pro-
duced into a moderately long lobe projecting forwards and somewhat upwards,
tapering in breadth to beyond the middle where it abruptly bends much out-
wards, this terminal part forming an oblong, acute triangle directed more out-
wards than forwards. Second joint, seen from above (fig. 2d), is as usually
with the inner margin somewhat longer anteriorly than the outer, but the
terminal upper margin is not oblique, but transverse, even a little and some-
times considerably concave, extending to about the outer margin of third joint,
where it suddenly bends in the proximal direction parallel with the last-named
margin; in this way a kind of short, broad lobe is circumscribed, which covers
the proximal part of the upper surface of the third joint with the exception of
its outermost portion; and the outer part of tliis lobe is produced slightly or
conspicuously forwards, when the transverse terminal margin is considerably
concave. The third joint, beginning only a little from the lobe of second joint,
has the dorsal keel high; it rises in height to somewhat beyond the middle
and is there produced into a slender, porrected tooth; the front margin of the
keel is very oblique and deeply incised just below the upper end, the incision
limiting the tooth mentioned. — The antennal squama is moderately broad,
at most reaching the middle of third antennular joint and without any marginal
tooth at the somewhat broad end; the spiniform process from the outer side of
the peduncle is long, about half as long as the squama.

First and second abdominal segments at the middle of the dorsal posterior
margin are produced a little, but the protuberance is feebly rounded, not angular.
Third segment with a short dorsal process which at the base is a carinated plate
and distally slender and almost compressed, acute. Fourth and fifth segments
without vestige of any dorsal tooth. Sixth segment moderately long, with the

254 THE SCHIZOPODA.

proximal part somewhat deep; preanal spine simple in both sexes. — Exopod
of the uropods as long as the telson and as long as or a little shorter than the
endopod.

The copulatory organs (figs. 2e-2h) differ in some features from those of
above-described forms. The terminal process (p-.) has the foot of moderate
length, the heel rather short, thick, and straight; and the process beyond the foot
is moderately long, rather slender and tapering to the acute end ; seen from behind
straight (fig. 2e), seen from the inner side somewhat curved (fig. 2g). The proxi-
mal process (p^.) is, seen from behind (figs. 2e and 2f), long and nearly regularly
curved, constituting about one fourth of a circle; its basal part is very moder-
ately robust, somewhat convex on the outer side; it then tapers gradually to a
little before the end, where on the inner — the proximal — margin it has a kind
of oblong expansion with a slender tooth from the proximal angle (fig. 2f) ;
seen from the inner side (fig. 2h) this terminal part shows itself as an oblong,
rather broad, distally broadly rounded plate placed obliquely on the end of
the slender part of the process and possessing the long, slender tooth at its base;
a comparison of fig. 2f with fig. 2h, the latter figure showing the plate a good
deal shorter than it is in reality because its position is very oblique in proportion
to the direction of the view, will show further details not mentioned in the text
as to curvature, etc. The median lobe is produced in some degree from the base
on the inner side into a somewhat small, oblique, conical tubercle, (a in fig. 2e
and fig. 2g); the most distal i^art of the lobe is widened a little at the curvature
of the lateral process and then it taper.s to the acute tip (fig. 2g) ; the lateral
process is of moderate size, thick at the base, much bent inwards considerably
beyond the middle and without any tooth at the curvature; a minute tooth
insei'ted on the inner side of the lobe, off the curvature of the lateral process,
may be interpreted as a rudiment of an additional process. The auxiliary lobe
is thicker and a little shorter than in the two preceding species. The setiferous
lobe is moderately broad with a couple of setae on the distal part of the inner
margin; there are six setae on the triangularly produced terminal part and about
three setae (fig. 2g, but not visible in fig. 2e) on the proximal half of the outer
side near the outer margin.

Length of an adult male 22 mm., of a very large female 27 mm.

Remarks. — This large species is easily distinguished by the rather long
rostrum together with the shape of the lobes from first and second antennular
joints. The copulatory organs exhibit features useful as specific characters.

Distribution. — E. gibboides Ortm. was established on numerous specimens

EUPIIATTSIA MUCRONATA. 255

collected by the German Plankton-Expedition in \;irious areas of Ilu> \v;irni(>r
temperate and the tropical Atlantic, viz: — Sargasso Sea, Northern eciiiatoi'ial
current, Guinea current, and Southern equatorial current. The Prince of
Monaco secured it at various places in the Eastern Atlantic between Lat. 32^° N.
and Lat. 27|° N. It is not known from the Indian Ocean, but the Copenhagen
Museum possesses a specimen from the Southern Chinese Sea at Lat. 9° 40' N.,
long. 109° 20' E. According to the list of localities from the East Pacific the
species was taken only at a small number of Stations all situated in the transverse
area between Lat. 4° 35' N. and Lat. 5° 10' S. Ortmann enumerated three
Stations from the Eastern Pacific, two of which are near the line and not far
from the Galapagos, while the third is widely distant, viz. Lat. 35° 19.5' N.,
long. 125° 21.5' W. — The species has very rarely been taken at the surface.

25. Euphausia mucronata G. O. Sars.
Plate 9, figs. 3a-.3g.

1883. Euphausia rmicronala G. O. Sars, Forh. Vid. Selsk. Christiania for 1883, no. 7, p. 16.
1885. Euphausia mucronata G. O. Sars, Challenger Rept., 13, p. 87, pi. 15, figs. 9-11.
1911. Euphausia mucronata H. J. Hansen, Bull. Mus. Ocean. Monaco, no. 210, p. 33. (With one
text-figure).

Sta. 4652. Nov. 11, 1904. Lat. 5° 47.7' S., long. 82° 39.5' W. 100 fms. to surface. 1 specimen.

Sta. 4655. Nov. 12, 1904. Lat. 5° 57.5' S., long. 80° 50' W. \ ^^^f^' ,^ **Pe'^'°iens^

( 400 fms. to surface. 22 specnnens.

Sta. 4657. Nov. 13, 1904. Lat. 7° 12.5' S., long. 84° 9' W. 300 fms. to surface. 8 specimens.

Sta. 4667. Nov. 18, 1904. Lat. 11° 59.5' S., long, 83° 40.4' W. 300 fms. to surface. 2 specimens.

Sta. 4668. Nov. 19, 1904. Lat. 12° 9.3' S., long. 81° 45.2' W. Open part of Tanner net, 300 fms. to

surface. 3 specimens.

Sta. 4669. Nov. 19, 1904. Lat. 12° 12.7' S., long. 80° 25.6' W. 300 fms. to surface. 8 specimens.

Sta. 4671. Nov. 20, 1904. Lat. 12° 6.9' S., long. 78° 28.2' W. 300 fms. to surface. 31 specimens.

Sta. 4673. Nov. 21, 1904. Lat. 12° 30.5' S., long. 77° 49.4' W. -| |"j^^f ''■ , ^^ specimens.

( 300 ims. to surface. 30 specimens.

Sta. 4676. Deo. 5,1904. Lat. 14° 28.9' S., long. 81° 24' W. 300 fms. to surface. 69 specimens.

Sta. 4677. Dec. 5,1904. Lat. 14° 37.5' S., long. 81° 41' W. Surface. 4 specimens.

■Description. — Body moderately slender. — Frontal plate (fig. 3a) very
short, somewhat protruding but not angular at the sides, produced into a badly
defined, short rostrum about three times as broad as long with the end acute
or subacute. The gastric area, seen from the side (fig. 3b), highly vaulted with
the upper margin angular or subangular; the median keel along this area is
sharp but terminates anteriorly nearly at the base of the rostrum (fig. 3a).

The eyes are extremely large. — The antennular peduncles are moderately
robust; first joint, seen from the side (fig. 3c) elevated towards the end, wlicre
it is produced in a rather short, deeply l)ifid lobe (fig. 3d) with its two oblong,
acute teeth directed somewhat upwards and more outwards than forwards, the

256 , THE SCHIZOPODA.

lobe therefore overlapping a very small portion of the next joint; the inner tooth
of the lobe is generally longer and stouter than the outer. Second joint conspicu-
ously longer than third, with its dorsal wall produced feebly in front above the
base of third joint and the ujiper terminal margin near the outer side produced
in a low, acute angle (fig. 3d); third joint, seen from the side (fig. 3c), with the
dorsal keel occupying somewhat more than half of the upper margin, moderately
high and increasing in height to the end which in well-preserved specimens is
produced in an acute denticle, while the front margin is steep, not quite vertical. —
The antennal squama somewhat broad, with the terminal margin of iniddle
length, transverse, without tooth at the outer margin. The spiniform process
from the outer side of the peduncle short, less than one fourth or one fifth as
long as the squama.

First and second abdominal segments at the iniddle of the upper posterior
margin a little produced, but the protuberance is broadly rounded. Third seg-
ment a little expanded backwards at the middle of the hind margin and pro-
duced in a somewhat short, strong, conspicuously compressed, acute process,
which has the upper margin a little curved, the lower straight, and the process
is continued a little forwards as a keel. Fourth and fifth segments with the
hind margin distinctly produced in the median line, forming either a sharp
angle or a very short denticle. Sixth segment moderately long, somewhat
less than twice as long as deep. Preanal spine wanting in both sexes. — Uropods
with the rami subequal in length and as long as, or a httle shorter than, the
telson.

The copulatory organs (figs. 3e-3g) differ in several features from those in
allied forms. The terminal process (p^.) with the foot moderately long, the heel
rather short but considerably curved, the part beyond the foot moderately long,
somewhat slender, proximally straight, distally curved considerably inwards
and forwards and with the terminal part a little expanded and flattened, very
oblong-oval with the end blunt. The proximal process (p'^.) is of very moderate
length; almost all the proximal half is rather stout and a little bent before its
middle; the distal half is bent strongly inwards and tapers considerably to not
far from the end, while the terminal portion is abruptly very much expanded,
seen from the inner side (fig. 3g) forming a broad plate bent strongly backwards
(in the figure therefore to the right), and with a sharp, protruding angle on its
proximal part ; seen from behind (fig. 3f) this terminal plate is oblong, somewhat
expanded upwards, and this expanded part seemingly proximally produced
into a long tooth crossing the posterior surface of the process and projecting

PSEUDEUPHAUSIA LATIFJIONS. 257

on its proximal or inner side; that this terminal part is so extremely dilt'erent
in outline when seen from the inner side and from behind is due to its very
curious shape and the irregular fur\ature of the plate itself. The distal part of
the median lobe is produced in a rather long, tapering, terminally rounded lobe
projecting very nuich beyond the distal part of the lateral process; this process
(p^.) is somewhat small, beyond the middle strongly curved inwards and without
any tooth at the bend; the additional process (p^.) is shaped as a rather small
but strong spine inserted a little beyond the curvature of the lateral process.
The auxiliary lobe is long and slender. The setiferous lobe is broad, with setae
along the distal part of the inner margin, along both margins of the triangularly
produced terminal part and along almost the proximal two thirds of the outer
margin, leaving the distal shorter part naked.

Length of males 18.5-19.5 mm., of one of the largest females 22 mm.

Remarks. — According to my examination of Sars's type in the British
Museum his figures and description are incorrect in several particulars. It may
be pointed out that the type has the lobe of first antennular joint with two teeth,
the process on the third abdominal segment cannot be described as "mucronate ",
because its lower margin is straight but the upper margin convex, and the eye is
too small in the figure. These specimens were certainly not full grown. The
species is easily distinguished by having distinctly produced, acute angles or
real, small denticles on the upper posterior margin of fourth and fifth abdominal
segments, furthermore by its extremely large eyes, the bifid and very oblique
lobe from first antennular joint but with no ear-like process or lamella on second
joint, etc.

Distribution. — The ten Stations above named are all situated in a rather
small area along the coast of Peru; the Station most remote from that coast is
at a distance from it of about 120 geographical miles. Sars's specimens were
taken off the coast of Chile. This species is unknown from any other area in the
Pacific, as the specimens referred to it by Ortmann belong to the two preceding
species. And it was never found in the Indian Ocean or the Atlantic.

PSEUDEUPHAUSIA H. J. Hansen (1910).

Only a single species is known.

26. Pseudeuphausia latifrons G. O. Sars.

1883. Euphausia latifrons G. O. Sars, Forh. Vid. Sel.sk. Christiania for 1883, no. 7, p. 19.
1885. Euphausia latifrons G. O. Sars, Challenger Ropt., 13, p. 95, pi. 16, figs. 17-23.
1910. Pseudeuphausia latifrons H. J. Hansen, Siboga-Exp., 37, p. 103, pi. 15, figs. la-Id.

258 THE SCHIZOPODA.

Not a specimen of this species was found among the material secured in
1904-1905, but Dr. Agassiz has taken a number of specimens at several locali-
ties in the Fiji Islands in 1897.

Fiji Islands. Off Vatu. Dec. 9, 1897. 30 fms. 12 specimens.

Fiji Islands. 3 m. South of Nanuka. Dec. 10, 1897. 50 fms. 1 specimen.

Hji Islands. 6 m. South of Suva lightship. Dec. 10, 1897. 100 fms. 1 specimen.

Fiji Islands. 5 m. South of Suva lightship. Dec. 10, 1897. 100 fms. 4 specimens.

Fiji Islands. 3 m. South of Suva lightship. Dec. 11, 1897. 100 fms. 2 specimens, both adult males.

Fiji Islands. 5 ra. South of Suva lightship. Dec. 16, 1897. 100 fms. 1 specimen.

Fiji Islands. Eastern entrance of the Nibengha passage. Dec. 16, 1897. Surface. 14 specimens.

Fiji Islands. Eastern entrance of the Nibengha passage. Dec. 16, 1897. 100 fms. 2 specimens.

Remarks. — All the specimens, excepting two, are immature and many among
them less than half grown or merely larval stages. In the following chapter
on the larval stages such larvae are mentioned, especially with reference to their
differences from the larvae of Nyctiphanes simplex H. J. H.

Distribution. — Sars's specimens were from the Southeastern coast of Au-
stralia, from the Arafura Sea and off Mindanao, Philippine Islands. The
"Siboga" captured enormous multitudes at a large number of Stations in the
Indian Archipelago. The Copenhagen Museum possesses some specimens
taken at Lat. 24° 17' N., long. 118° 15' E., between Formosa and China (Capt.
Suenson) and many specimens from the Bay of Bengal ("Galathea" Exp.).
Stebbing mentioned it "as observed in great numbers N. 10° W. of Cape St.
Blaize, 33 miles (South coa.st of Africa).

This pecuhar form seems always to live not very far from land, and it has
most frequently been taken near the surface.

NEMATOSCELIS G. O. Sars (1883).

The account of this genus given by Sars in the "Challenger" Report is
somewhat deficient, because his material was very poor; he had in reality no
males and of only one species a sufficient numbers of females. In recent papers
I have pointed out interesting sexual differences and various characters in maxil-
lulae, thoracic legs, and copulatory organs. And it may be useful to reprint
here the addition to the generic description, etc. given in 1911.

In the female second and third peduncular joints of the antennulae are
slender and rather long; in adult males these joints are conspicuously thicker,
second joint somewhat and the third considerably shorter than in the other
sex; peculiar lobes or processses on the.se joints are always wanting. Sixth
pair of legs with the exopod well developed in both sexes, the endopod two-
jointed and longer than the exopod in the female, wanting in the male. The

NEMATOSCELIS MU'ROPS. 259

copulatory organs possess the throe processes on the inner lobe, hut lh(> spine-
shaped process is nearly straight and nearly p;irallel with tlie two others wiiich
are inserted on the end of the lobe; the lateral process is never hook-shaped
and an additional process is wanting. — The females carry their eggs.

It may be added that in the majority of the species the rostrum is rather
long or extremely so in the female, nnich smaller or quite rudimentary in the
adult male.

Six species are known. They may be divided into two groups separated
by some sharp and interesting characters.

A. Maxillulae with a pseudexopod well developed. First elongate pair of thoracic

legs with long spines both from the terminal joint and from the distal end of
the penultimate joint. Endopod of second to fifth pairs of thoracic legs
ivith the full number, viz. three, joints beyond the knee.

B. Maxillulae without pseudexopod. First elongate pair of thoracic legs ivith

long spines only from the terminal joint. Endopod of second and third
pairs of thoracic legs with but two joints beyond the knee; endopod of fourth
and fifth pairs with only one joint beyond the knee.

Group A comprises two species, but they are not represented in the
material received from Dr. Agassiz. Group B comprises four species which
can be separated by the key in the "Siboga" paper, p. 107; three of these
species are dealt with below.

27. Nematoscelis microps G. O. Sars.

Plate 9, figs. 4a-4d; Plate 10, figs, la-lb.

1883. Nematoscelis microps. G. O. Sar.s, Forh. Viil. Selsk. Christiania for 1883, no. 7, p. 28.
1885. Nematoscelis microps G. O. Sars, Challenger Rept., 13, p. 131, pi. 2.5, figs. 1-4.
1910. Nematoscelis microps H. J. Hansen, Siboga-Exp., 37, p. 107, pi. 15, figs. 2a-2k. (With full
synonymy).

Sta. 4679. Dec. 7, 1904. Lat. 17° 26.4' S., long. 86° 46.5' W. 300 fms. to surface. ' 1 specimen.

Sta. 4681. Dec. 8, 1904. Lat. 18° 47.1' S., long. 89° 26' W. 300 fms. to surface. 6 specimens.

Sta. 4683. Dec. 9, 1904. Lat. 20° 2.4' S., long. 91° 52.5' W. 300 fms. to .surface. 3 specimens.

Sta. 4685. Dec. 10, 1904. Lat. 21° 36.2' S., long. 94° 56' W. 300 fms. to surface. 11 specimens.

Sta.4687. Dec. 11, 1904. Lat. 22° 49.5' S., long. 97° 30.6' W. | gLts.'l^rS::. '^^^.

Sta. 4689. Dec. 12, 1904. Lat. 24° 5' S., long. 100° 20' W. 300 fms. to surface. 1 specimen.

Sta. 4691. Dec. 13, 1904. Lat. 25° 27.3' S., long. 103° 29.3' W. .300 fms. to surface. 5 specimens.

Sta. 4695. Dec. 23, 1904. Lat. 25° 22.4' S., long. 107° 45' W. 300 fms. to surface. 2 specimens.

Sta. 4701. Dec. 26, 1904. Lat. 19° 11.5' S., long. 102° 24' W. 300 fms. to surface. 4 specimens.

Sta. 4703. Dec. 27, 1904. Lat. 17° 18.6' S., long. 100° 52.3' W. 300 fms. to surf.ace. 1 specimen.

Sta. 4705. Dec. 28, 1904. Lat. 15° 5.3' S., long. 99° 19' W. 300 fms. to surface. 12 specimens.

Sta. 4707. Dec. 29, 1904. Lat. 12° 33.2' S., long. 97° 42' W. 300 fms. to surface. 2 specimens.

Sta. 4729. Jan. 19, 1905. Lat. 14° 15' S., long. 115° 13' W. Surface. 1 specimen.

260 THE SCHIZOPODA.

Sta. 4730. Jan. 20, 1905. Lat. 15° 7' S., long. 117° 1.2' W. 300 fms. to surface. 14 specimens.

Sta. 4732. Jan. 21, 1905. Lat. 16° 32.5' S., long. 119° 59' W. 300 fms. to surface. 9 specimens.

Sta. 4734. Jan. 22, 1905. Lat. 17° 36' S., long. 122° 35.6' W. 300 fms. to surface. 2 specimens.

Sta. 4742. Feb. 15, 1905. Lat. 0° 3.4' N., long. 117° 15.8' W. 300 fms. to surface. 2 specimens.

Finally from the following locality: —

Fiji Islands. 5 m. South of Suva lightship. Dec. 16, 1897. 100 fms. 1 small specimen. A. Agassiz.

To the description and remarks in the "Siboga" paper a few points may be
added.

The maxillae (fig. la) have the main part, viz. second and third joints with
their lobes, very large in proportion to the fom'th joint; the palp, which is much
smaller than in the two following species, scarcely half as long again as broad
and only a little more than half as long as the inner margin of the lobe of tliird
joint.

In most adult females the rostrum is long (fig. 4c) and only moderately
broad towards the base, but in two or three females the rostrum is very short
and broadly rounded (fig. 4d); whether this aberrant feature is an individual
anomaly or is due to damage days or weeks before the capture of the individuals
cannot be decided. The adult males from the East Pacific differ from those
from other oceans by having the very slender rostrum (fig. 4a) appreciably
longer, about as long as or a little longer than the breadth of the second antennu-
lar joint. Finally' immature males before the last moult may be mentioned.
As is seen from a comparison of fig. 4a, representing an adult male, with fig. 4b
representing an immature male — and both figures were drawn with the same
degree of enlargement — the two distal joints of the antennular peduncles are
proportionately more slender and especially the third joint conspicuously longer
in the immature than in the adult, furthermore the former has the rostrum
somewhat longer and broader at the base than is the case in the adult. — Finally
the copulatory organs, as the difference in the relati\'e length of the processes
in the adult and in the immature male is interesting and at first sight even be-
wildering.

In the adult N. microps the proximal process is, as shown in the "Siboga"
paper, considerably or much longer than the terminal process, while in the
immatures males the difference between the length of the two processes men-
tioned is slight (Plate 10, fig. lb), thus in this respect only it is but slightly dif-
ferent from the feature found in N. atlantica H. J. H. (In the latter species,
however, the terminal process overreaches considerably the spine-shaped process,
\\hich is not the case in the immature N. microps). And it is very interesting

NEMATOSCELIS GRACILIS. 201

that the pi'ofc't;.ses arc so luii;lil3' (IcNclopcil in males hclni-c llicir last iiioiill ;
that such specimens are immature can easily be seen by comparing the distal
joints of their antcnnular peduncles with those in adult specimens.

One of the largest females is 21 mm. long, an adult male l(j nun. and an
immature male 13 mm.; fig. 4c, fig. 4a, fig. 4b exhibit the front part of these
specimens.

Distribution. — The list above shows that all localities excepting one are
situated in a transverse southern belt of the area explored, between about Lat.
12° 33' S. and Lat. 25° 27' S., and that the belt is rather far from reaching the
West coast of South America; a single locality (Sta. 4742) is situated near the
line. — In the "Siboga" paper a good number of Stations in the Indian Archi-
pelago were enumerated, and besides it was stated that I have this species in
the Monaco material from the warmer temperate northeastern Atlantic. Sars's
type is from the "Pacific, North of the Sandwich Islands." But all the locali-
ties enumerated in the literature before the "Siboga" paper must be considered
valueless, because N. microps has been confounded with A'', atlantica H. J. H.,
N. gracilis H. J. H. — both species established in 1910 — and partly even with
N. tenella G. O. S. I have seen Ortmann's specimens from the first six of the
eight localities enumerated for N. microps in 1894, and all belong to the two
following species. N. microps is very rarely taken at the surface.

28. Nematoscelis gracilis H. J. Hansen.
Plate 10, fig. 2a.

1910. Nematoscelis gracilis H. J. Hansen, Siboga-Exp., 37, p. 109, pi. 15, figs. 3a-3g.

Lat. 15° 58' N., long. 98° 13' W. 300 fms. to surface. 3 specimens.
Lat. 12° 21' N., long. 92° 13' W. 300 fms. to surface. 1 small specimen.
Lat. 10° 33' N., long. 88° 30' W. Surface. 53 small specimens.
Lat. 9° 45' N., long. 86° 20' W. 300 fms. to surface. 10 small specimens.
Lat. 4° 35.4' N., long. 83° 32.3' W. 300 fms. to surface. 10 specimens.
Lat. 1° 31' N., long. 86° 32' W. 300 fms. to surface. 10 specimens.
Lat. 4° 1.6' S., long. 89° 16.3' W. 300 fms. to surface. 7 specimens.
Lat. 5° 17' S., long. 85° 19.5' W. 300 fms. to surface. 9 specimens.
Lat. 5° 22' S., long. 84° 39' W. 300 fms. to surface. 6 specimens.

[ 100 fms. to surface. 9 specimens.
Lat. 5° 44.7' S., long. 82° 39.5' W. \ 200 fms. to surface. 2 specimens.

[ 400 fms. to surface. 6 specimens.
Lat. 5° 57.5' S., long. 80° 50' W. 400 fms. to surface. 1 specimen.
Lat. 7° 12.5' S., long. 84° 9' W. .300 fms. to surface. 2 specimens.
Lat. 8° 54.5' S., long. 86° 5.5' W. 300 fms. to surface. 14 specimens.
Lat. 10° 17' S., long. 88° 2' W. 300 fms. to surface. 1 specimen.
Lat. 11° 20.3' S., long. 88° 55.2' W. 300 fms. to surface. 5 specimens.
Lat. 11° 30.3' S., long. 87° 19' W. 300 fms. to surface. 4 specimens.
Lat. 11° 45' S., long. 86° 5.2' W. 300 fms. to surface. 19 specimens.
Lat. 11° 59.5' S., long. 83° 40.4' W. 300 fms. to surface. 3 specimens.

Sta.

4598.

Oct.

15, 1904.

Sta.

4605.

Oct.

17, 1904.

Sta.

4611.

Oct.

18, 1904.

Sta.

4613.

Oct.

19, 1904.

Sta.

4634.

Nov.

4, 1904.

Sta.

4637.

Nov.

5, 1904.

Sta.

4646.

Nov.

8, 1904.

Sta.

4649.

Nov.

9, 1904.

Sta.

4650.

Nov.

10, 1904.

Sta.

4652.

Nov.

11, 1904.

Sta.

4655.

Nov.

12, 1904.

Sta.

4657.

Nov.

13, 1904.

Sta.

4659.

Nov.

14, 1904.

Sta.

4661.

Nov.

15, 1904.

Sta.

4663.

Nov.

16, 1904.

Sta.

4664.

Nov.

17, 1904.

Sta.

4665.

Nov.

17, 1904.

Sta.

4667.

Nov.

18, 1904.

262 THE SCHIZOPODA.

f Top of Tanner net, 300 fms. to sur-

Sta. 4668. Nov. 19, 1904. Lat. 12° 9.3' S., long. 81° 45.2' W. -I „ ^^'''^' 1 specimen.

^ I Bottom of Tanner net, 300 fms. 10

\_ specimens.

Sta. 4669. Nov. 19, 1904. Lat. 12° 12.7' S., long. 80° 25.6' W. 300 fms. to surface. 5 specimens.

Sta. 4671. Nov. 20, 1904. Lat. 12° 6.9' S., long. 78° 28.2' W. I il^^'f*^' ^ ^'"'^" ^^P'^"™™-.

( 300 fms. to surface. 2 specimens.

Sta. 4676. Dec. 5, 1904. Lat. 14° 28.9' S., long. 81° 24' W. 300 fms. to surface. 3 specimens.

Sta. 4679. Dee. 7, 1904. Lat. 17° 26.4' S., long. 86° 46.5' VV. 300 fms. to surface. 4 specimens.

Sta. 4681. Dec. 8, 1904. Lat. 18° 47.1' S., long. 89° 26' W. 300 fms. to surface. 1 specimen.

Sta. 4683. Dec. 9, 1904. Lat. 20° 2.4' S., long. 91° 52.5' W. 300 fms. to surface. 1 specimen.

Sta. 4701. Dec. 26, 1904. Lat. 19° 11.5' S., long. 102° 24' W. 300 fms. to surface. 4 .specimens.

Sta. 4703. Dec. 27, 1904. Lat. 17° 18.6' S., long. 100° 52.3' W. 300 fms. to surface. 2 specimens.

Sta. 4705. Dec. 28, 1904. Lat. 15° 5.3' 8., long. 99° 19' W. 300 fms. to surface. 33 specimens.

Sta. 4707. Dec. 29, 1904. Lat. 12° 32.2' S., long. 97° 42' W. 300 fms. to surface. 8 specimens.

Sta. 4709. Dec. 30, 1904. Lat. 10° 15.2' S., long. 95° 40.8' W. 300 fins, to surface. 40 specimens.

Sta. 4710. Dec. 30, 1904. Lat. 9° 30.5' S., long. 95° 8.3' W. Surface. 3 small specimens.

Sta. 4711. Dec. 31, 1904. Lat. 7° 45.7' S., 94° 5.5' W. 300 fms. to surface. 11 specimens.

Sta. 4712. Dec. 31, 1904. Lat. 7° 5' S., long. 93° 35.5' W. Surface. 4 specimens, 3 of which small,

and 1 not full-grown.

Sta. 4713. Jan. 1, 1905. Lat. 5° 35.3' S., long. 92° 21.6' W. 300 fms. to surface. 29 specimens.

Sta. 4715. Jan. 2; 1905. Lat. 2° 40.4' S., long. 90° 19.3' W. 300 fms. to surface. 4 specimens.

Sta. 4716. Jan. 2,1905. Lat. 2° 18.5' S., long. 90° 2.6' W. 600 fms. to surface. 1 .specimen.

Sta. 4717. Jan. 13, 1905. Lat. 5° 10' S., long. 98° 56' W. 300 fms. to surface. 19 specimens.

Sta. 4719. Jan. 14, 1905. Lat. 6° 29.8' S., long. 101° 16.8' W. 300 fms. to surface. 17 specimens.

Sta. 4721. Jan. 15, 1905. Lat. 8° 7.5' S., long. 104° 10.5' W. 300 fms. to surface. 17 specimens.

Sta. 4722. Jan. 16, 1905. Lat. 9° 31' S., long. 106° 30.5' W. 300 fms. to surface. 17 specimens.

Sta. 4724. Jan. 17, 1905. Lat. 11° 13.4' S., long. 109° 39' W. 300 fms. to surface. 1 specimen.

Sta. 4728. Jan. 19, 1905. Lat. 13° 47.5' S., long. 114° 21.6' W. 300 fms. to surface. 1 specimen.

Sta. 4730. Jan. 20, 1905. Lat. 15° 7' S., long. 117° 1.2' W. 300 fms. to surface. 5 specimens.

Sta. 4732. Jan. 21, 1905. Lat. 16° 32.5' S., long. 119° 59' W. 300 fms. to surface. 2 specimens.

The adult males from the Pacific have no denticle on the posterior part of
the lateral margin of the carapace.

The maxillae (fig. 2a) differ considerably as to the relative size of their
main part and the palp from those of A'^. niicrops, the palp being nearly as long as
the inner margin of the lobe of third joint and about half as long again as broad.

In immature specimens measuring 9-10 mm. in length the frontal plate
with the not defined rostrum is longer and anteriorly more produced than in
the adults, and the upper section of the eyes is considerably smaller than the
lower. In still smaller specimens, 6.5-7 mm. long, the frontal plate is propor-
tionately still longer, reaching bej'ond the eyes and with the distal third of the
lateral margin somewhat convex and the tip itself acuminate and acute; the
upper section of the eyes is much smaller than the lower, and the dorsal keel
on the carapace is very conspicuous, but its highest part with the anterior margin
more oblique than in the young of N. microps (comp. the "Siboga" paper).

One of the largest females is 18.5 mm. long; a good-sized male is 14.5 mm.,
but most adult specimens of both sexes are somewhat or sometimes considerably
smaller.

NEMATOSC'ELIS TENELLA. 26.3

Diatribution.- The long list of Stations shows that A', yruciliti was wanting
in the most southern part of the area explored, viz. South of Lat. 20° S., that it
was very connnon between Lat. 20° S. and the hne, and that it was taken six
times North of the line, northwards to near Lat. 16° N. The specimens from
the six first-named of Ortniann's Stations (1894) for N. microps all belong to
N. gracilis, excepting two specimens which belong to N. tenella G. O. S. and are
mentioned below; furthermore the specimens from a single Station (from Lat.
12° 34' N.) referred by Ortmann to N. tenella are also A'', graeilis; all Ortmann's
Stations in question are situated in the area where A". </ract7is was taken in 1904-
1905. Furthei^iore the species was taken at a number of Stations in the Indian
Archipelago by tlie "Siboga," but is hitherto unknown from any other place
and is certainly wanting in the Atlantic.

The list shows also that small specimens have been taken a few times at
the surface, but that larger or full-grown specimens, with a single exception,
were always taken in the vertical net from 300 fms. to the surface, and that
ten specimens were taken in the bottom of the Tanner net towed at 300 fms.

29. Nematoscelis tenella G. O. S.

Plate 10, figs. 3a-3c.

1883. Nematoscelis tenella G. O. S.\rs, Forh. Vid. Selsk. Christiania for 1883, no. 7, p. 28.
1885. Nematoscelis tenella G. O. Sars, Challenger Rept., 13, p. 133, pi. 2.5, figs. 5-7 (young).
1910. Nematoscelis tenella H. J. Hansen, Siboga-Exp., 37, p. 110, pi. 15, figs. 4a-4ra. (With full
synonymy).

Sta. 4637. Nov. 5,1904. Lat. 1° 31' N., long. 86° 32' VV. 300 fms. to surface. 3 specimens.

Sta. 4638. Nov. 6, 1904. Lat. 0° 27' N., long. 87° 13' W. 300 fms. to surface. 1 specimen.

Sta. 4646. Nov. 8,1904. Lat. 4° 1.6' S., long. 89° 16.3' W. 300 fms. to surface. 1 specimen.

Sta. 4679. Dec. 7, 1904. Lat. 17° 26.4' S., long. 86° 46.5' W. 300 fms. to surface. 1 specimen.

Sta. 4681. Dec. 8, 1904. Lat. 18° 47.1' S., long. 89° 26' W. 300 fms. to surface. 5 specimens.

Sta. 4685. Dec. 10, 1904. Lat. 21° 36.2' S., long. 94° 56' W. 300 fms. to surface. 3 specimens.

Sta. 4687. Dec. 11, 1904. Lat. 22° 49.5' S., long. 97° 30.6' W. 300 fms. to surface. 1 specimen.

Sta. 4689. Dec. 12, 1904. Lat. 24° 5' S., long. 100° 20' W. 300 fms. to surface. 5 specimens.

Sta. 4691. Dec. 13, 1904. Lat. 25° 27.3' S., long. 103° 29.3' W. 300 fms. to surface. 1 specimen.

Sta. 4699. Dec. 25, 1904. Lat. 21° 39.5' S., long. 104° 29.8' W. 300 fms. to surface. 1 specimen.

Sta. 4705. Dec. 28, 1904. Lat. 15° 15.3' S., long. 99° 19' W. 300 fms. to surface. 6 specimens.

Sta. 4707. Dec. 29, 1904. Lat. 12° 33.2' S., long. 97° 42' W. 300 fms. to surface. 7 specimens.

Sta. 4715: Jan. 2, 1905. Lat. 2° 40.4' S., long. 90° 19.3' W. 300 fms. to surface. 2 specimens.

Sta. 4716. Jan. 2, 1905. Lat. 2° 18.5' S., long. 90° 2.6' W. 600 fms. to surface. 1 specimen.

Sta. 4721. Jan. 15, 1905. Lat. 8° 7.5' S., long. 104° 10.5' W. 300 fms. to surface. 6 specimens.

Sta. 4722. Jan. 16,1905. Lat. 9° 31' S, long. 106° 30.5' W. 300 fms. to surface. 6 specimens.

Sta. 4730. Jan. 20, 1905. Lat. 15° 7' S., long. 117° 1.2' W. 300 fms. to surface. 1 specimen.

Sta. 4734. Jan. 22, 1905. Lat. 17° 36' S., long, 122° 35,6' W. 300 fms. to surface. 1 specimen.

Sta. 4742. Feb. 15,1905. Lat. 0° 3.4' N., long. 117° 15.8' W. 300 fms. to surface. 1 specimen.

The adult males from the East Pacific — and from the Indian Archipelago —
have no denticle posteriorly on the lateral margins of the carapace, while such
denticles are found in males from the North Atlantic.

264 THE SCHIZOPODA.

Fig. 3a represents the left maxillula, seen from behind; the palp is long,
somewhat slender, increasing a little in breadth from the base to the obliquely
truncate end, and the terminal margin has several slender setae and two stiff,
nearly spiniform ones, the most distal (fig. 3b) serrate beyond the middle. —
The maxillae (fig. 3c) have the palp still longer than in A'', gracilis, as long as
the inner margin of the lobe of third joint and nearly twice as long as broad.

A large female is 19.9 mm., a large male 17.8 mm. long.

Distribution. — The list of Stations shows that N. tenella was found in nearly
the whole part South of the Hne of the area explored, excepting in a broad longi-
tudinal belt along South America. As already stated, the specimens from Lat.
12° 34' N. referred in 1894 by Ortmann to N. tenella belong to A^. gracilis H. J. H. ;
on the other hand, one of the specimens from Hyd. Sta. 2627 (Lat. 0° 36' N.,
long. 82° 45' W.) and one of the specimens from Sta. 3414 (Lat. 10° 14' N., long.
96° 28' W.) referred by him to N. mtcrops belong to N. tenella. Furthermore
the species was taken in the Indian Archipelago by the "Siboga" at a number
of Stations; Sars's type was captured South of the Cape of Good Hope, and
finally it is known from the Eastern Atlantic between the Canary Islands and
Lat. 36° 46' N.

NEMATOBRACHION Calman. (1905).
(Nematodactylus Calm., 1896).

Description. — Carapace with a cervical suture and without any denticle
on its lateral margins. — Eyes divided into two sections, the upper broader than
the lower and with its upper surface somewhat flatly vaulted. — Antennulae
similar in both sexes; peduncles at least somewhat robust; flagella long, slender,
and multi articulate. — Antennae with the spiniform process from the outer
end of the subbasal joint short, about as long as the breadth of the squama;
last joint of the peduncle of the endopod as long as or longer than the penultimate
and not reaching the end of the squama. — Mandibles with a three-jointed
palp. — Maxillulae with or without pseudexopod; the palp slender and at least
rather long. — Maxillae with their main part, viz. second and third joints with
their lobes, very broad in proportion to the fourth joint, the palp, which is well-
marked off, and both lobes with the margin a little bifid.

First pair of thoracic legs only a little longer than the maxillipeds and of
the usual structure, slender, with the short last joint a little widened below
and furnished with peculiar, short setae. Second pair extremely elongate,
without setae or hairs; its third joint thick; fourth joint at most as long as the

NEMATOBRACHION. 265

third, rather abruptly bent upwards, at a little distance from its base; before
this curvature its upper edge is produced into a flat, vertical plate and at a short
distance from the curvature the joint is again somewhat bent, but in the opposite
direction and thus directed forwards; seventh joint two thirds to three fourths
as long as the sixth, at the end with six closely set, long, serrate, stifif but thin
spines, four of these projecting from the end, two from the side a little from
the end. Third to fifth pairs of legs with the shape and relative length of the
joints in the main as in Thysanopoda. Sixth pair of legs with the full number of
joints in the somewhat short endopod and the exopod is well developed. Seventh
pair with a normally developed, sometimes small exopod, while an endopod is
not developed, the exopod-bearing joint terminating in a .short, broad lobe with
some setae. — Branchiae nearly as in Nematoscelis. — Preanal spine simple
in the male, simple or bifid in the female. — Luminous organs as in Thysanopoda,
etc.

The copulatory organs of first pleopods in the main as in Thysanopoda,
with all lobes and fi\'e processes well developed. — No female with ovisacs has
been found.

Remarks. — This interesting genus was founded by Dr. Caiman on a single
specimen of a new species; he named it Nematodactylus boopis, and correctly
referred Stijlocheiron flexipes Ortm. to the same genus without having seen any
specimen. Later Caiman obtained a little more material, among which a muti-
lated male, of N. boopis and then he published additions and corrections to
his earlier statements and changed the name of the genus to Nematobrachion,
as the former name was preoccupied. Caiman's account of the genus and of his
single species is very good, but as he has examined only one species, while I
possess three species, and as the interesting sexual differences in antennulae
and the sixth pair of thoracic legs in the other genera with tlivided eyes were
then nearly unknown, I ha\'e thought it useful to give here a description of
the genus. I must add that in 1905 I referred Stijlocheiron flexipes Ortm. to the
present g?nus, having overlooked that this had already been done by Caiman
in 1896.

According to some remarks in 1905 Caiman has felt the difficulty as to the
relationships of Nematobrachion and the three other genera with divided eyes
and one pair of prehensile legs ; in mentioning the two posterior pairs of thoracic
legs he correctly pointed out their resemblance with Thysanopoda, and he states
that the copulatory organs of first pleopods are "much more complex" than in
Stj'locheiron or Nematoscelis. Nematobrachion occupies in reality a very

266 THE SCHIZOPODA.

isolated position between the genera with prehensile legs and divided eyes,
differing widely from these genera and agreeing with Thysanopoda in having
the antennulae similar in both sexes, the endopod of sixth pair of thoracic legs
fully developed, five-jointed in both sexes — while in Thysanoessa, Nemato-
scelis, and Stylocheiron this endopod is unjointed or two-jointed in the female
and wanting in the male — and in the structure and number of processes of the
copulatory organs; as to the shape of maxillulae and maxillae it is tolerably
intermediate between Thysanopoda and Nematoscelis.

Key to the Species.

a. Frontal plate obtuse, without rostral process. Eyes dark brownish with a
light stripe, divided by a groove and the upper section more than twice as
deep as the lower which is very small. Antennular peduncles without
any process from the distal outer angle of first joint, and with an at most
slightly produced acute angle above near the distal outer angle of second
joint. No dorsal denticles or processes on the abdominal segments.

A^. boopis Calm.

b. Frontal plate terminating in a slender rostrum. Eyes black, conspicuously
constricted, with the upper section only somewhat deeper than the lower.
Antennular peduncles with a long, spiniform process from the distal outer
angle of first joint and with a very c onspicuous process from tlie upper,
outer distal end of second joint. Conspicuous dorsal denticles on at least
two of the abdominal segments.

a. The process from second antennular joint with at most the proximal
half plate-shap ed while the distal part is spiniform. Maxillulae with-
out pseudexopod. Third to sixth abdominal segments each with a
single dorsal spiniform process from the hind margin, that of third
segment generally considerably longer than the others. Distal third
of the terminal process of the copulatory organs, seen from behind,
tapering to the narrow, obtuse end . . . N. flexipes Ortm.

/3. The process from second antennular joint is a large, oblong plate
slightly acuminate at the acute end. Maxillulae with pseudexopod.
Fourth and fifth al:)dominal segments each with a dorsal row of three
sharp teeth from the hind margin, but no denticle on the other seg-
ments. Distal third of the terminal process of the copulatory organs,
seen from behind, \-ery broad with the terminal margin long and incised.

N. sexspinosus H. J. H.

NEMATOBRACHION BOOPIS. 267

30. Nematobrachion boopis Calman.

Plate 10, figs. 4a-icl.

1896. Nemalodaclylus boopis Calman, Traii.s. Roy. Irish Acad., 31. p. 17, pi. 2, figs. 19-28.
1905. Ncmalobrachion boopis Calman, Kept. Sea and Inland Fisheries of Ireland, 1902-3, pt. 2, Apj). 4,
p. 153, pi. 26.

Sta. 4681. Dec. 8, 11104. Lat. 18° 47.1' S., long. 89° 20' W. 300 fms to surface. 2 specimens (1 cT,

1 immat.).

o. ^ro~ -n. 11 1 nr, 1 t i o.^o .r, -> o 1 n-onnrm- I 300 fms. to surfacc. 1 Specimen,
sta. 468 (. Dec. 11, 1904. Lat. 22 49.o S., long. 97 30.6 \\ . - ,, >. , . . ,

( 212:) fms. to surface. 1 specimen.

Sta. 4695. Dec. 23, 1904. Lat. 25° 22'.4 S., long. 107° 45' W. 300 fms. to surface. 1 specimen.

Sta. 4705. Dec. 28, 1904. Lat. 15° 5.3' S., long. 99° 19' W. 300 fms. to surface. 2 specimens.

Sta. 4707. Dec. 29, 1904. Lat. 12° 32.2' S., long. 97° 42' W. 300 fms. to surface. 1 specimen.

Sta. 4722. Jan. 16, 1905. Lat. 9° 31' S., long. 106° 30.5' W. 300 fms. to surface. 1 specimen.

Sta. 4724. Jan. 17, 1905. Lat. 11° 13.4' S., long. 109° 39' W. 300 fms. to surface. 1 specimen.

Sta. 4742. Feb. 15, 1905. Lat. 0° 3.4' N., long. 117° 15.8' W. 300 fms. to surface. 1 specimen.

Description. — Body somewhat clumsj'. — The frontal plate is a very short
triangle with the vertex obtuse and without any vestige of a rostrum; the
lateral margins are very conspicuously raised, nearly vertical; the keel between
the cervical groove and the tip of the frontal plate is rather high, with a short
portion slightly in front of the middle a Uttle more raised and feebly angular.

The eyes are extremely largej dark brownish or nearly blackish above on
the somewhat flatly vaulted upper surface; somewhat lighter on the outer side,
on which is seen a nearly horizontal or somewhat obliciue light groove, separating
the very large upper section from the lower small section which is developed only
on the outer side and less than twice as high as the upper. — The antennular
peduncles are short and robust, the proximal joint very considerably raised above
at the distal end about as a transverse, subvertical lobe which, seen from in
front, is subtriangular, much broader than high, with the ^•ertex broadly rounded
and very setose; the joint has no spiniform process at the outer distal angle.
Second joint somewhat vaulted above towards the end, slightly jiroduced above
the base of third joint, with the upper outer corner of this produced part either
angular or feebly projecting as a small, short tooth. Third joint with the dorsal
keel rather short and moderately low. — Antennal squama somewhat narrow,
tapering to the broadly rounded end and without outer distal tooth; terminal
joint of the peduncle of the endopod somewhat thickened.

The maxillulae (fig. 4a) with the proximal lobe scarcely as broad as the
distal, which is about as broad as long, while the palp is very slender and slightly
longer than the outer margin of the distal lobe ; a pseudexopod is not developed,
but the lobe of the fii'st joint is somewhat expanded in the distal direction. —
The maxillae (fig. 4b) witli the main part a little longer than broad; the palp

268 THE SCHIZOPODA.

somewhat shorter than the inner margin of the lobe from third joint and twice
as long as broad. — Second pair of thoracic legs with fifth joint considerably
longer than the sixth.

Abdomen without dorsal processes or teeth. Preanal spine simple in both
sexes. — Uropods slightly or scarcely overreaching the telson; the exopod
slightly longer than the endopod. — Telson has two longitudinal keels extremely
finely serrate along more than half of its length and with a very short and thin
seta at each saw-tooth.

The copulatory organs (figs. 4c-4d) show some peculiarities. The spine-
shaped process (p'.) is somewhat small, well curved. The terminal process
(p.^) has the basal portion very much tliickened and from the outer side of
this part the process projects forwards, having the inner margin straight and
at some distance from the end suddenly bent somewhat inwards, while the
outer margin is convex and the terminal margin in the Pacific specimen
obliquely and deeply emarginate^; the major part of the process has a flat
expansion on the outer side and at the end it is peculiarly shaped, being curved
somewhat backwards, as may be seen by a comparison of fig. 4c with fig. 4d.
The proximal process has its proximal part very thick and directed forwards
and outwards (fig. 4c, p'\); then it bends abruptly and strongly inwards, is very
slender, very long, and at the middle curved in the opposite direction, while
the terminal, very thin part is curved semicircularly. The lateral process (p"*.)
is rather slender, with the cur\-ed distal part short. The additional process
(p''.) as in the other species of the genus consisting of an oblong and feebly curved
basal part, from the end of which projects an extremely thin distal portion
directed outwards and forming with the tliick part an acute angle. The median
lobe long and moderately narrow; the auxiliary lobe somewhat short; the
setiferous long, somewhat narrow, with setae along the distal part of the
inner margin and the major part of the outer margin.

Length of the single adult male 21.5 mm., of a large female 21 mm.

Remarks. — For comparison with the two following species the above
description may be useful. Caiman has given (in 1905) an excellent figure (jf
the animal; the only point with wliich I disagree is the position of the eye,
as I never found the groove dividing it into two so vertical areas, but at most
somewhat oblique and most frequently nearly horizontal.

Distribution. — A^. boopis goes very far northwards in the Atlantic, as it

' In a male from the Monaco collection the terminal margin is very oblique, badly defined from
the other margin and slightly incised.

NEMATOBRACIIION FLEXIPES.

269

has been taken West of Iceland: Lat. 05° 0' N., long. 28° 10' \\., furtlienuore
South of Iceland and West of the Faeroes; it was captured at a {^ood number of
Stations in the eastern i)urt of tlu> temperate Atlantic, as West of Ireland, West
of France and southwards to the Canary Islands (several authors). Some few
specimens were taken by the "Siboga" in the Indian Archipelago, and Ortmann
mentions it from the waters near Hawaii. According to the foregoing list it was
secured at only eight Stations in the East Pacific, sporadically in a large i)art of
the area South of the line. It is not contained in the older rich collection of
Euphausiacea in the Copenhagen Museum, taken between 1845 and 1884 by
the "Galathea" Expedition and especially by Captains in the merchant marine,
and judging from this fact and from the labels of the material at hand I think
that N. boopis never occurs at the surface, but according to "Thors" catches
in the North Atlantic it must sometimes occur in depths between ca. 75 and 25
fms.

31. Nematobrachion flexipes (Ortmann).
Plate 10, figs. 5a-5m.

1893. Slylocheiron flexipes Ortmann, Ergebn. der Plankton-Exped., 2, G., b., p. 18, taf. 1, fig. 7.

9° 45' N., long. 86° 20' W. 300 fms. to surface. 1 specimen.
4°35.4N., long. 83" 32.3' W. 300 fms. to surface. 2 specimens.
1° 31' N., long. 86° 32' W. 300 fms. to surface. 3 specimens.
5° 17' S., long. 85° 19.5' W. 300 fms. to surf.ace. 1 specimen.
5° 22' S., long. 84° 39' W. 300 fms. to surface. 1 specimen.

1 QO" ■?Q c;' w ' ~^^ '^™^' *'° ^"'■^^''6. 2 specimens.

Sta. 4613.

Oct.

19

1904.

Lat

Sta. 4634.

Nov

4

1904.

Lat

Sta. 4637.

Nov

5

1904.

Lat

Sta. 4649.

Nov

10

1904.

Lat.

Sta. 46.50.

Nov

10

1904.

Lat.

Sta. 4652.

Nov

11,

1904.

Lat.

Sta. 4655.

Nov

12

1904.

Lat.

Sta. 4663.

Nov

13,

1904.

Lat.

Sta. 4676.

Dec.

5,

1904.

Lat.

Sta. 4679.

Dec.

7,

1904.

Lat.

Sta. 4683.

Dec.

9,

1904.

Lat.

Sta. 4685.

Dec.

10,

1904.

Lat.

Sta. 4687.

Dec.

11,

1904.

Lat.

Sta. 4689.

Dec.

12,

1904.

Lat.

Sta. 4691.

Dec.

13,

1904.

Lat.

Sta. 4699.

Dec.

25,

1904.

Lat.

Sta. 4701.

Dec.

26,

1904.

Lat.

Sta. 4707.

Dec.

29,

1904.

Lat.

Sta. 4709.

Dec.

30,

1904.

Lat.

Sta. 4713.

Jan.

1,

1905.

Lat.

Sta. 4715.

Jan.

9

1905.

Lat.

Sta. 4717.

Jan.

13,

1905.

Lat.

Sta. 4719.

Jan.

1-1,

1905.

Lat.

Sta. 4721.

Jan.

15,

1905.

Lat.

Sta. 4730.

Jan.

20,

1905.

Lat.

Sta. 4732.

Jan.

21,

1905.

Lat.

Sta. 4736.

Jan.

23,

1905.

Lat.

Sta. 4742.

Feb.

15,

1905.

Lat.

5° 44.7' S.,

( 400 fms. to surface
5° 57.5' S., long. 80° 50' W. 400 fms. to surface.
11° 20.3' S., long. 88° 55.2' W. 300 fms. to surface
14° 28.9' S., long. 81° 24' W.
17° 26.4' S., long. 86° 46.5' W.
20°2.4'S., long. 91° 52.5' W.
21°36.2'S., long. 94°.56'W.
22° 49.5' S., long. 97° 30.6' W

1 specimen.
1 specimen.

4 specimens.

1 specimeen.

1 specimns.
2 specimen.
1 specimen.

300 fms. to surface.
300 fms. to .surface.
300 fms. to surface.
300 fms. to surface.
2125 fms. to surface. 3 specimens.
24° 5' S., long. 100° 20' W. 300 fms. to surface. 1 specimen.
25° 27.3' S., long. 103° 29.3' W. 300 fms. to surface. 1 specimen.
21° 39.5' S., long. 104° 29.8' W. 300 fms. to surface. 1 specimen.
10° 11.5' S., long. 102° 24' W. 300 fm.s. to surface. 2 specimens.

300 fms. to surface. 1 specimen.

300 fms. to surface. 1 specimen.
300 fms. to surface. 2 specimens.
300 fms. to surface. 3 specimens.
300 fms. to surface. 4 specimens.
W. 300 fms. to surface. 3 specimens.

12° 32.2' S., long. 97° 42' W.
10° 15.2' S., long. 95° 40.8' W
5° 35.3' S., long. 92° 21.6' W.
2° 40.4' S., long. 90° 19.3' W.
5° 10' S., long. 98° 56' W.
6° 29.8' S., long. 101° 16.8

8° 7.5' S., long. 104° 10.5' W.
15° 7' S., long. 117° 1.2' W.
16° 32.5' S., long. 119° 59' W.
19° 0.4' S., long. 125° 5.4' W.
0° 3.4' N., long. 117° 15.8' W.

300 fms. to surface.
300 fms. to surface.
300 fms. to surface.
300 fms. to surface.
300 fms. to sin face.

1 specimen.
I specimens.
1 specimen.
1 specimen.
1 specimen.

270 THE SCHIZOPODA.

Description. — Body scarcely robust, being conspicuously more slender
than in A^. boopis. — The frontal plate is a short triangle (fig. 5a) terminating
in a spiniform, long, or moderately long, horizontal rostrum which is very slender
from the base and somewhat compressed. The keel between the rostrum and
the cervical groove well developed.

Eyes moderately large, black, constricted somewhat below the middle,
with the upper section somewhat deeper and very conspicuously thicker than
the lower (fig. 5b). — The antennular peduncles longer and conspicuously thinner
than in N. boopis; first joint with the outer margin very concave (fig. 5a), as
the joint widens considerably at the outer side towards the end, and from the
outer distal angle a long, spiniform process projects forwards, reaching beyond
the middle of the second joint, but somewhat distant from its lateral margin;
at the distal end the joint is above raised as a kind of low, subvertical, transverse,
setiferous lobe. The second joint is considerably longer than broad, and above
at the outer distal angle produced into a process which is lamellar at the base,
tapering considerably and with the distal half or nearly two thirds spiniform
(fig. 5d); the process is long, directed forwards and somewhat outwards and
upwards (figs. 5c and 5d). Third joint with the dorsal keel short and rather
low. — The antennal squama reaches nearly the middle of the third antennular
joint, is somewhat narrow and tapers considerably to the oblique or nearly ter-
minal margin; a distal outer tooth is very distinct; the terminal joint of the
peduncle of the endopod is slender (fig. 5b).

The maxillulae (fig. 5e) with the distal lobe not broader than the proximal
and conspicuously longer than broad; the palp considerably longer and broader
than in A'^. boopis, overreaching considerably the distal lobe; a pseudexopod
is not developed but the middle part of the lobe is somewhat expanded forwards .
— The maxillae (fig. 5f ) with the main part conspicuously longer than broad ;
the palp even a little longer than the inner margin of the distal lobe and almost
twice as long as broad. Second pair of thoracic legs with fifth joint slightly
or scarcely longer than the sixtli.

Abdomen with a dorsal spiniform process from the hind margin of tliird
to sixth segments; the process from third segment generally compressed and
longer than any of the others, but yet varying very much in length, being some-
times moderately short, sometimes about half as long as the fourth segment; in
three adult specimens this spine is rudimentary or wanting, but seems to have
been broken off or damaged before the animal was captured; the three other
spiniform processes vary also considerably in length ; the hind margin of first and

NEMATOBRACHION FLEXIPES. 271

second segments a little angular or conspicuously angular above in the middle
line (fig. 5g). The lateral plates of second to fifth segments with the postero-
lateral angle acute, and the plate of fifth segment besides somewhat produced
(fig. 5g). Preanal spine simple in the male and with an accessory tooth in the
female. — Uropods about as long as the telson; the exopod slightly or scarcely
longer than the endopod. — The telson with two pairs of small dorsal spines.

The copulatory organs (figs. 5h-5m) differ from those in N. boopi.'^ by the
shape of the terminal and the proximal processes. The terminal process is
somewhat less thickened at the base, tapering to the narrow middle and then
flattened and almost abruptly and strongly expanded on the outer side and
feebly expanded on the iimer side; the distal half is, seen from behind (fig. 5i),
shaped nearly as an oblique triangle with the inner margin somewhat sinuate,
the outer proximal angle very broadly rounded and the vertex narrowly rounded;
a little from the distal end the posterior side shows a peculiarly raised part, the
shape of which is better understood when looked at from the outer side (p-.
on fig. 5k). The proximal process is somewhat broader than in A'^. boopis and
more evenly curved, its distal half is somewhat depressed, and thus broader
than deep; the terminal part is much flattened and considerably expanded,
forming, seen from the base of the organ, an oblong-oval plate (fig. 5m) with
nearly the whole margin finely serrate. The median lobe long and slender
(fig. 5h) with its two processes nearly as in N. boopis; the two remaining lobes
nearly as in that species.

Length of a large male 21.5 mm., of a female 22.5 mm.

Remarks. — N. flexipes differs in general aspect much from N. boopis,
but it would be a mistake to establish a new genus for its reception, because both
species agree with each other in all characters of real generic value. It may
be mentioned here that even in less than half-grown specimens the carapace
has no vestige of any tooth on the lateral margins.

Distribution. — This species was estabhshed on two specimens from the
Southern equatorial current in the Atlantic. The Copenhagen Museum possesses
specimens from two places in the North Atlantic, viz. Lat. 31° 30' N., long. 21°
10' W., and Lat. 24° 3' N., long. 25° 0' W. It is unknown from the Indian
Ocean and the Western Pacific, but according to the long list of Stations it is
common in the major part of the area explored in 1904-5 in the East Pacific,
viz. between Lat. 9° 45' N., and Lat. 25° 27' S. Ortmann has recorded it from
two Stations in the same area, viz. off Panama at Lat. 0° 21' N., and at Lat.
0° 36' N., long. 82° 45' W. The specimens in the Copenhagen Museum were

272 THE SCHIZOPODA.

taken at the surface, but the occurrence there must certainly be rare, as all
specimens secured in the Pacific are marked "300 fms. to surface" or, in some
instances, the instrument employed had been sunk to greater depths.

32. Nematobrachion sexspinosus H. J. Hansen.

Plate 10, fig. 6a; Plate 11, figs, la-li.

1911. Nematuhrachion sexspinosus H. J. Hansen, Bull. Mus. Oc^an. Mouaco, no. 210, p. 51.

Sta. 4699. Dec. 25, 1904. Lat. 21° 39.5' S., long. 104° 29.8' W. 300 fms. to surface. 2 adult males.

Description. — Body somewhat more clumsy than in N. flexipes, otherwise
rather similar in general aspect. — Frontal plate nearly as in N. flexipes, produced
in a compressed, proximally somewhat deep (fig. la), thin, acute, moderately
long rostrum; the dorsal keel about as in the two other species.

Eyes black, conspicuously larger and especially proportionately longer
than in N. flexipes, otherwise as in that species. The antennulae essentially
as in the last-named species, excepting that the process at the outer distal angle
of second joint (figs, lb and Ic) is shaped as a large, oblong, subtriangular plate
with the end acute and a little acuminate. — The antennae with the squama and
the distal peduncular joint of the endopod as in A'', flexipes.

The maxillulae (Plate 10, fig. 6a) have the distal lobe somewhat broader
than the proximal and scarcely longer at the upper margin than broad; the palp
is very long, considerably longer than the lobe of third joint and moderately
slender; a pseudexopod (pex) is present as an oblong-oval, somewhat small
plate which ne\-ertheless reaches a little beyond the outer margin of third joint. —
The maxillae (fig. Id) with the main part only very little longer than broad;
the palp is conspicuously smaller than in the two preceding species, distinctly
shorter than the breadth of the lobe from third joint and somewhat less than
twice as long as broad. — Second pair of thoracic legs with fifth joint scarcely
longer than the sixth.

The abdominal segments without dorsal spines excepting the fourth and fifth
segments, each of which has three sharp teeth projecting from the hind margin
at some distance from each other (figs, le and If), and the median tooth or
process is conspicuously larger than the sublateral teeth. The lateral plates
of the five anterior segments with tlie postero-lateral angle acute and those of
fifth segment produced considerably backwards (fig. le). — The uropods as in
N. flexipes, but the telson with 6-8 pairs of dorsal saw-like teeth.

The copulatory organs (figs. Ig-li) are rather similar to those of N. boopis,

STYLOCHEIHON. 273

but the three large processes show some differences. The terminal process is
thickened at the base, but this thicker part does not, as in N. hoopia, constitute
a nearly right angle with the following more slender portion; furthermore the
distal, expanded part is only half of the entire process, thus proportionately
shorter but broader, more expanded, than in N. boopis, with the inner margin
nearly straight and the long terminal margin somewhat incised at the middle
and raised on the posterior side (fig. Ih); from the outer side (fig. li) this raised
part is seen to be the terminal portion bent strongly backwards and forming
a right angle with the p6sterior surface. The proximal process has its distal
half regularly and semicircularly curved with the very short terminal part a
little expanded and bent considerably forwards as a minute triangle (fig. Ih).
The lateral process is slender and unusuallj^ long (fig. Ig), somewhat sinuate
and with the incurved distal part short.

Length of the largest male 23 mm.

Remarks. — This species is interesting. In general aspect it is somewhat
similar to A^. flexipes, though conspicuously more clumsy, but by the structure
of the copulatory organs and the serration on the dorsal side of the telson it is
more nearly related to TV. boopis; it differs from both species by the maxillulae
which possess a real pseudexopod.

Distribuiion. — N. sexspinosus seems to be rare but widely distributed.
In the enormous amount of material studied from many sources and all oceans
I have found but three specimens, all males, viz. two from the East Pacific
and the third from the northern temperate Atlantic (Monaco, Sta. 2105).

STYLOCHEIEON G. O. Sars (1883).

To Sars's diagnosis of this aberrant genus some additions and corrections
may be made.

The carapace is always without denticles on the lateral margin.

The antennulae have in the females the second and especially the third
peduncular joint slender and long, frequently even extremely long, while in the
males these joints, and especially the third, are conspicuously shorter and much
or very much thicker; the upper flagellum is shorter than the lower and both
flagella consist of 6-10 joints, most of them proportionately long; in the females
the joints are slender and round, but in the males the major distal part of each
flagellum is in most species conspicuously flattened and frequently expanded,
in the upper flagellum depressed, in the lower compressed; the basal joint of

274 THE SCHIZOPODA.

the lower flagellum is long, in the male oblong-triangular, being much thickened
towards the base. The peduncle of the endopod of the antennae reaches con-
siderably beyond the end of the squama — a feature not found in any other
genus — and its penultimate joint is very elongate, much longer than the termi-
nal. The maxillae have the fourth joint either very small or badly defined,
and the inner margin of both lobes is without the usual incision.

In the females the endopod of fifth pair of thoracic legs is moderately long,
three-jointed, the endopod of sixth pair much larger than the small exopod and
two-jointed; in the males the endopod of sixth pair is always wanting, while in
fifth pair it seems to be wanting (f. inst. in S. longicorne) or developed as in the
female (in S. maximum).

The copulatory organs of first pleopods have the median lobe coalesced
with the inner lobe to near the end of the latter, while the former is oblong, simple,
and distally rounded; the processes are .small in proportion to the size of the
whole organ; the spine-shaped process is curved and shaped as in several other
genera, while the two other processes are at most a little cur\'ed; the lateral
process is placed rather near or very near the base of the inner margin of the
lobe, and an additional process is always wanting. The auxiliary lobe is placed
on the inner side of the setiferous lobe and sometimes very reduced.

The genus comprises nine species, eight of which are represented in the
"Albatross" collection; the only species not present is S. insulare H. J. H.,
hitherto known only from the Indian Archipelago. As to the geographical •
distribution numerous statements in the literature are discarded as untrust-
worthy, because >S. affine H. J. H. and 6'. jnicrophthahna H. J. H. were not .sepa-
rated from tS'. suhmii and this last-named species sometimes was not distinguished
from S. longicorne. In a similar way S. maximum H. J. H. (1908) was not dis-
tinguished from .5. ahhrevialuyn .

a. Species only with lateral setae on the penultimate joint of the elongate pair of legs.

33. Stylocheiron carinatum G. O. Sars.

Plate 11, figs. 2a-2b.

1883. Slylocheiron carinatum G. O. Sar.s, Forh. Vid. Sel.sk. Cliristiania for 1883, no. 7, p. 31.

1885. Stylocheiron carinatum G. O. Sars, Challenger Rept., 13, p. 137; pi. 26.

1910. Stylocheiron carinatum H. J. Hansen, Siboga-Exp., 37, p. 113, pi. 16, figs, la-lh.

Sta. 4611. Oct. 18,1904. Lat. 10° 33' N., long. 88° 30' W. Surface. 69 specimens.

Sta. 4613. Oct. 19, 1904. Lat. 9° 45' N., long. 86° 20' W. 300 fms. to surface. 1 specimen.

Sta. 4634. Nov. 4, 1904. Lat. 4° 35.4' N., long. 83° 32.3' W. 300 fms. to surface. 27 specimens.

Sta. 4635. Nov. 4, 1904. Lat. 3° 52.5' N., long. 84° 14.3' W. Surface. 274 specimens.

Sta. 4640. Nov. 6,1904. Lat. 0° 39.4' S., long. 88° 11' W. Surface. 6 specimens.

STYLOCHEIRON CARINATUM.

275

Sta. 4644.
Sta. 4646.
Sta. 4661.
Sta. 4663.
Sta. 4665.
Sta. 4679.
Sta. 4681.
Sta. 4682.

Nov.
Nov.
Nov.
Nov.
Nov.
Dec.
Dec.
Dec.

7, 1904.

8, 1904.

15, 1904.

16, 1904.

17, 1904.

7, 1904.

8, 1904.
8, 1904.

Sta. 4689.
Sta. 4699.
Sta. 4701.
Sta. 4702.
Sta. 4705.
Sta. 4707.
Sta. 4709.
Sta. 4710.
Sta. 4713.
Sta. 4715.
Sta. 4716.
Sta. 4718.
Sta. 4719.
Sta. 4721.
Sta. 4722.
Sta. 4724.
Sta. 4727.
Sta. 4728.
Sta. 4730.
Sta. 4734.
Sta. 4740.

Dec. 12, 1904.
Dec. 25, 1904.
Dec. 26, 1904.
Dec. 26, 1904.
Dec. 28, 1904.
Dec. 29, 1904.
Dec. 30, 1904.
Dec. 30, 1904.
Jan. 1, 1905.
Jan. 2, 1905.
Jan. 2, 1905.
Jan. 13, 1905.
Jan. 14, 1905.
Jan. 15, 1905.
Jan. 16, 1905.
Jan. 17, 1905.
Jan. 18, 1905.
Jan. 19, 1905.
Jan. 20, 1905.
Jan. 22, 1905.
Feb. 11, 1905.

Lat,
Lat.
Lat.
Lat
Lat.
Lat.
Lat.
Lat.

Sta. 4687. Dec. 11, 1904. Lat

\V.
11°
11=
17°
18°
19° 7.6' S., long. 90° 10.6' W.

22° 49.5' S., long. 97° 30.6

jSOOh
(2125 1

Lat.
Lat.
Lat.
Lat.
Lat.
Lat.
Lat.
Lat.
Lat.
Lat.
Lat.
Lat.
Lat.
Lat.
Lat.
Lat.
Lat.
Lat.
Lat.
Lat.
Lat.

2° 13.3' S., long. S9° 42.2' W. Surface. 5 .specimens.
4° 1.6' S., long. 89° 16.3' W. 300 fins, to surface. 3 specimens.
10° 17' S., long. 88° 2' \V. 300 fms. to surface. 1 specimen.
20.3' S., long. 88° 55.2' W. Surface. 1 specimen.
45' S., long. 86° 5.2' \V. 300 fms. to surface. 3 specimens.
26.4' S., long. 86° 46.5' W. 300 fms. to surface. 4 specimens.
47.1'S., long. 89°26' W. 300 fms. to surface. 3 specimens.
Surface. 1 specimen.

fms. to surface. 1 .specimen.
5 fms. to surface. 1 specimen.
24° 5' S., long. 100° 20' W. 300 fms. to surface. 1 specimen.
21° 39.5' S., long. 104° 29.8' VV. 300 fms. to surface. 2 .specimens.
19° 11.5' S., long. 102° 24' W. 300 fms. to surface. 3 specimens.
18° 39.5' S., long. 102° W. Surface. 1 specimen.
15° 5.3' S., long. 99° 19' W. 300 fms. to surface. 5 specimens.
12° 33.2' S., long. 97° 42' W. 300 fms. to surface. 2 specimens.

300 fms. to surface. 2 specimens.
Surface. 2 specimens.
300 fms. to surface. 2 specimens.
300 fms. to surface. 2 specimens.
600 fms. to surface. 2 specimens.
Surface. 1 specimen.
300 fms. to surface. 12 specimens.

10° 15.2' S., long. 95° 40.8' W.
9° 30.5' S., long. 95° 8.3' W.

35.3' S., long. 92° 21.6' W.

40.4' S., long. 90° 19.3' W.

18.5' S., long. 90° 2.6' W.

32.4' S., long. 99° 32.2' W.

29.8' S., long. 101° 16.8' W.

5

2

2'

5'

6'

8° 7.5' S., long. 104° 10.5' W. 300 fms. to surface. 1 specimen.

9° 31' S., long. 106° 30.5' W. 300 fms. to surface. 10 specimens.

11° 13.4' S., long. 109° 39' W. 300 fms. to surface. 4 specimens.

13° 03' S., long. 112° 44.9' W. Surface. 1 specimen.

13°47.5'S., long. 114° 21.6' W. 300 fms. to .surface. 6specimens.

15°7'S., long. 117° 1.2' W. 300 fms. to surface. 1 specimen.

17° 36' S., long. 122° 35.6' W. 300 fms. to surface. 1 specimen.

9° 2.1' S., long, 123° 20.1' W. 300 fms. to surface. 4 specimens.

Furthermore this species was taken by the "Albatross" at two Stations
in 1899 and 1900, and Dr. Agassiz took it several times in 1897 at the Fiji Is-
lands.

Sta. 3681. Aug. 27, 1899. Lat. 28° 23' N., long. 126° 57' W. 100 fms. 1 specimen
Hyd. Sta. 3998 (236). Jan. 28, 1900. Lat. 6° 34' N., long. 170° 59' W. Surface;

specimen. " Albatross."
Fiji Islands. Ringold Channel, lee side, Nukusemanu Reef. Nov. 23, 1897. 50 fms.
Fiji Islands. Kimbombo, Nov. 25, 1897. 40 fms. 9 specimens.
Fiji Islands. 3 m. South of Naniuka. Dec. 10, 1897. 50 fms. 9 specimens.
Fiji Islands. 6 m. South of Suva. Dec. 10, 1897. 100 fms. 6 specimens.
Fiji Islands. 5 m. South of Suva lightship.
Fiji Islands. 3 m. South of Suva lightship.
Fiji Lslands. 3 m. South of Suva lightship.
Fiji Islands. 5 m. South of Suva lightship.
Fiji Islands. 5 m. South of Suva
Fiji Islands. 5 m. South of Suva

" Albatross."
electric light.

11 specimens.

Dec. 10, 1897.

Dec. 11, 1897.

Dec. 16, 1897,

Dec. 16, 1897.
100-25 fms. 9 specimens.
25 fms. 3 specimens.

100 fms.
100 fms.
75 fms.
100 fms.

200 specimens.

20 specimens.
1 specimen.

8 specimens.

For comparison with the maxillulae and maxillae in species of the two other
groups of this genus I have given new figures of these appendages. The maxil-
lulae (fig. 2a) have the palp about twice as long as broad and among its terminal
setae a few are soUd. The maxillae (fig. 2b) are characteristic; their basal part,
the first joint, is unusually long; the proximal lobe has its terminal margin very

276 THE SCHIZOPODA.

short as compared with that of the distal lobe which is somewhat convex; the
fourth joint is well defined but very small and nearly more than twice as broad
as long; the exopod is badly defined and distally without any produced, free part.

The largest specimen, a female, measures 12 mm. in length, but adult speci-
mens of both sexes are generally only 8-10 mm. long.

Remarks. — More than half-grown to full-grown specimens of this small
species are easily distinguished from very young specimens of S. ahhreviatum
of similar size by the antennal squama, which in S. carinatum is moderately
broad to the end and never reaches the middle of third joint of the antennular
peduncle, while in S. abbreviaium the squama tapers conspicuously towards the
end and reaches to near the distal end of third antennular joint. This difference
is useful when the elongate second pair of legs, which differs extremely in the
two species, has been lost.

It may be mentioned that a specimen from Sta. 4719 has an Epicarid fixed
between the eyes, and that a male from Sta. 4724 has an Epicarid on the carapace
a little from its front margin.

Distribution. — The long hst of Stations in the East Pacific shows that S.
carinatu?n is common in the major part of the area explored, but is wanting in a
broad longitudinal belt along the coast of America from the line southwards.
It is widely distributed in the Pacific according to the facts given above as to
its capture in 1899 and 1900 by the "Albatross," in 1897 at the Fiji Islands by
Dr. Agassiz, and Ortmann has recorded it from Lat. 28° 31' N., long. 141° 47' W.,
the Hawaiian Islands. Sars has recorded it from off Kandavu, Fiji Islands, and
from off Mindanao, Philippine Islands. The "Siboga" captured it at a large
number of Stations in the Indian Archipelago. It is also widely distributed
in the Atlantic; Sars recorded it from "South Atlantic," Ortmann from the
Sargasso Sea, the Southern equatorial current and the Brazil current; finally
the Copenhagen Museum possesses it from Lat. 7° N., long. 30° W., from Lat.
17° 46' N., long. 51° 12' W., and from Lat. 20° 24' N., long. 83° W. (West
Indies). It has not infrequently been taken at the surface, and more than once
in large numbers.

b. Species with the elongate pair of legs terminating in false chelae having no real
immovable finger but a very long and strong terminal, distally curved spine
{and near this two shorter spines) on the penultimate joint.

STYLOCHEIRON SUHMII. 277

34. Stylocheiron microphthalma 11. ,J. Hansen.

1910. Slylochrinni iiiicrnplilhdliiiii 11. .1. H.vNSEN, Sihoga-lOxp., 37, j), 117. pi. ICi, fi^.s. 3!i-3d.

Sta. 4722. Jan. 16, 1905. Lat. 9° 31' S., long. 106° 3(),r,' \V. 31)0 fins, to surface. 1 specimen.
Sta. 4740. Feb. 11, 1905. Lat. 9° 2.1' S., long. 123° 20.1' \V. 300 fnis. (o siiiface. 1 specimen.

Besides it has been captured two times by Dr. Agassiz in 1897: —

Fiji Islands. 5 m. South of Suva. Dec. 10, 1897. 1 specimen.

Fiji Islands. 3 m. South of Suva. Dec. 11, 1897. 100 fms. 2 specimens, cf and 9.

The largest female (from Sta. 4722) is 6.7 mm. long; the male is 5.8 mm.
Distribution. — This small species was hitherto known only from five of
the "Siboga" Stations in the Indian .\i-chipelago.

35. stylocheiron suhmii G. O. Sars.

Plate 11, figs. 3a-3b.

1883. Stylocheiron suhmii G. O. Saes, Forh. Vid. Selsk. Christiania for 1883, no. 7, p. 31.
18S5. Stylocheiron suhmii G. O. Sars, Challenger Rept., 13, p. 142, pi. 27, figs. 1-4.

Sta. 4687. Dec. 1 1, 1904. Lat. 22° 49.5' S., long. 97° 30.6' W. 300 fms. to surface. 3 specimens.

Sta. 4691. Dec. 13, 1904. Lat. 25° 27.3' S., long. 103° 29.3' W. 300 fms. to surface. 1 specimen.

Sta. 4732. Jan. 21, 1905. Lat. 16° 32.5' S., long. 119° 59' W. 300 fms. to surface. 1 specimen..

Sta. 4734. Jan. 22, 1905. Lat. 17° 36' S., long. 122° 35.6' W. 300 fms. to surface. 1 specimen.

Besides it has been captm-ed nine times by Dr. Agas.siz in 1897: —

Fiji Islands. Ringold Channel, lee side, Nukusimanu Reef. Kov. 23, 1897. 50 fms. 4 specimens.

Fiji Islands. 3 m. South of Nanuka. Dec. 10, 1897. 50 fms. 1 specimen.

Fiji Islands. 6 m. South of Suva. Dec. 10, 1897. 100 fms. 6 specimens.

Fiji Islands. 5 m. South of Suva. Dec. 10, 1897. 100 fms. 16 specimens.

Fiji Islands. 3 m. South of Suva hghtship. Doc. 11, 1897. 100 fms. 1 specimen.

Fiji Islands. 3 m. South of Suva hghtship. Dec. 16, 1897. 75 fms. 1 specimen.

Fiji Lslands. 5 m. South of Suva. Dec. ?, 1897. 25 fms. 1 specimen.

Fiji Islands. 5 m. South of Suva. Dec. ?, 1897. 100-25 fms. 1 specimen.

Fiji Islands. Dec. 16, 100 fms. 12 specimens.

Description. — Frontal plate rather long, in the adult females terminating
in a long, distally very slender rostrum, while in adult males the rostrum is \'ery
short or scarcely developed. The dorsal keel on the gastric area moderately
high, anteriorly very sloping.

The eyes are high, at least twice as high as broad (fig. 3a), somewhat pyri-
form, with the lower section from more than half as broad again to a little less
than twice as broad as the upper; the upper section projects much above the
upper end of the stalk and, seen from the side, has only three crystal cones in a
transverse row. — The antennulae in the female nearly as in S. longicorne ; the
peduncle is longer than the carapace, with the two distal joints very slender
and the third about one third as long again as the second ; the upper flagellum is
slightly shorter than the lower and about as long as the peduncle; both flagella

278 THE SCHIZOPODA.

are extremely thin. In the male antennulae the two distal peduncular joints
are somewhat shorter and much thicker than in the female; the upper flagellum
is slightly longer than the peduncle and conspicuously shorter than the lower;
both flagella distinctly thicker than in the female, but any expansion or flatten-
ing is not distinct, and the joints, probably eight, are difficult to count. — The
antennal squama is very long and narrow, 13-14 times as long as broad a little
behind the base of the marginal tooth ; in the female it scarcely reaches to the mid-
dle of third joint of the antennular peduncle, in the male scarcely to the end of the
same joint. — The false chelae of second pair of legs in the main as in S. affinc.

Sixth abdoininal segment (fig. 3b) a little less than twice as long as deep,
with the lower margin curved moderately strongly upwards towards the end. —
The rami of the uropods nearly equal in length, reaching scarcely the end of
telson.

Length of the males 5-5.5 mm., of the females 5-5.8 mm.

Remarks. — It may be seen from the description that this species is very
closely allied to S. affine H. J. H. and S. longicorne G. O. S. But it is easily
distinguished from both by tlie eyes which, seen from the side, are slender,
extend very much beyond the upper end of the stalk and show only three crystal
cones in the transverse row.

Distribution. — The type of Sars, preserved in the British Museum, is from
the Pacific, North of New Guinea. His specimen from "off Luzon, China Sea,"
is damaged, but seems to belong to this species. Whether the specimen from
his third locality, "Samboangan to Ho-Ho, Philippines" in reality belonged to
this species cannot be decided, as it seems to be lost. I discard all other state-
ments in the literature before 1910 as uncertain, because several and perhaps
many among them belong to other species; it may only be stated here that the
Monaco material from the temperate North Atlantic comprises a number of
specimens.

36. Stylocheiron affine H. J. Hansen.

1910. Stylocheiron affinc H. J. Hansen, Siboga-Exp., 37, p. 118, pi. 16, figs. 4a-4d.

Sta. 4609. Oct. 18,1904. Lat. 11° 05' N., long. 89°35' W. 300 fms. to surface. 1 specimen.

Sta. 4613. Oct. 19, 1904. Lat. 9° 4.5' N., long. 86° 20' W. 300 fms. to surface. 2 specimens.

Sta. 46.34. Nov. 4,1904. Lat. 4° 35.4' N., long. 83° 32.3' \V. 300 fms. to .surface. 16 specimens.

Sta. 4637. Nov. 5,1904. Lat. 1° 31' N., long. 87° 32' W. 300 fms. to surface. 9 specimens.

Sta. 4638. Nov. 6, 1904. Lat. 0° 27' N., long. 87° 13' W. 300 fms. to surface. 4 specimens.

Sta. 4646. Nov. 8,1904. Lat. 4° 1.6' S., long. 89° 13.3' W. 300 fms. to surface. 3 specimens.

Surface. 1 specimen.

Sta. 4652. Nov. 11, 1904. Lat. 5° 44.7' S., long. 82° 39.5' W.

100 fms. to surface. 2 specimens.
200 fms. to surface. 1 specimen.
400 fms. to surface. 1 specimen.

STYLOCIIEIRON LOxNGICORNE. 279

Sta. 4663. Nov. 16, 1904. Lat. 11° 20.3' S., long. 88° 55.2' W. 300 fms. to surfarc. 2 specimens.

Sta. 4709. Dec. 30, 1904. Lat. 10° 15.2' S., long. 95° 40.8' W. ;>()() fms. to .surface. 2 si.ccimens.

Sta. 4717. Jan. 13,1905. Lat. 5° 10' S., long. 98° 56' W. 300 fms. to surface. 1 specimen.

Sta. 4722. Jan. 16, 1905. Lat. 9° 31' S., long. 106° 30.5' W. 300 fms. to .surface. 1 specimen.

Sta. 4728. Jan. 19, 1905. Lat. 13° 47,5' S., long, 114° 21.6' W. 300 fms. to surface. 1 specimen.

Sta. 4740. Feb. 11, 1905. Lat. 9° 2.1' S., long. 123° 20.1' W. 300 fms. to surface. 2 specimens.

Besides it was taken by Dr. Agassiz in 1897 : —

Fiji Islands. 5 m. South of Suva. Dec. 10, 1897. 100 fms. 1 specimen.

Distribution. — S. affine was captured by the "Siboga" at a number of
Stations in the Indian Archipelago.

37. Stylocheiron longicorne G. 0. Sars.

Plate 11, figs. 4a-4b.

1883. Slylocheiron longicorne G. O. Sars, Forh. Vid. Selsk. Christiania for 1883, no. 7, p. 32.
1885. Slylocheiron longicorne G. O. Sars, Challenger Kept., 13, p. 144, pi. 27, fig. 5.
1910. Stylocheiron longicorne H. J. Han.sen, Siboga-Exp., 37, p. 120, pi. 16, figs. 5a-5b.

Sta. 4605. Oct. 17,1904. Lat. 12° 21' N., long. 92° 13' W. 300 fms. to surface. 1 specimen.

Sta. 4637. Nov. 5, 1904. Lat. 1° 31' N., long. 86° 32' W. 300 fms. to surface. 5 specimens.

Sta. 4679. Dec. 7, 1904. Lat. 17° 26.4' S., long. 86° 46.5' W. 300 fms. to surface. 1 specimen.

Sta. 4685. Dec. 10, 1904. Lat. 21° 36.2' S., long. 94° 56' W. 300 fms. to surface. 1 specimen.

Sta. 4687. Dec. 11, 1904. Lat. 22° 49.5' S., long. 97° 30.6' W. -j ^?V^'- *° ""'"ff*^' 2^Pe"«iens.

( 2125 fms. to surface. 1 specimen.

Sta. 4689. Dec. 12, 1904. Lat. 24° 5' S., long. 100° 20' W. 300 fms. to surface. 1 specimen.

Sta. 4691. Dec. 13, 1904. Lat. 25° 27.3' S., long. 103° 29.3' W. 300 fms. to surface. 5 specimens.

Sta. 4695. Dec. 23, 1904. Lat. 25° 22.4' S., long. 107° 45' W. 300 fms. to surface. 3 specimens.

Sta. 4699. Dec. 25, 1904. Lat. 21° 39.5' S., long. 104° 29.8' W. 300 fms. to surface. 4 specimens.

Sta. 4701. Dec. 26, 1904. Lat. 19° 11.5' S., long. 102° 24' W. 300 fms. to surface. 2 specimens.

Sta. 4705. Dec. 28, 1904. Lat. 15° 5.3' S., long, 99° 19' W. 300 fms. to surface. 1 specimen.

Sta. 4709. Dec. 30, 1904. Lat. 10° 15.2' S., long, 95° 40,8' W. 300 fms. to surface. 1 specimen.

Sta. 4721. Jan. 15,1905. Lat. 8° 7.5' S., long. 104° 10.5' W. 300 fms. to surface. 1 specimen.

Sta. 4724. Jan. 17,1905. Lat. 11° 13.4' S., long. 109° 39' W. 300 fms. to surface. 3 specimens.

Sta. 4728. Jan. 19, 1905. Lat. 13° 47.5' S., long. 114° 21.6' W. 300 fms. to surface. 5 specimens.

Sta. 47.30. Jan. 20, 1905. Lat. 15° 7' S., long. 117° 1.2' W. 300 fms. to surface. 5 specimens.

Sta. 4734. Jan. 22, 1905. Lat. 17° 36' S., long. 122° 35.6' W. 300 fms. to surface. 1 specimen.

Sta. 4736. Jan. 23, 1905. Lat. 19° 0.4' S., long. 125° 5.4' W. 300 fms. to surface. 1 specimen.

Figs. 4a -4b represent the left maxillula and left maxilla, giving an idea of
these appendages in a species of this group of the genus. The maxillulae differ
from those in *S^. carinatum only in minor particulars; thus the third joint is
comparatively broader and the palp is broader with a much larger number of
setae. The maxillae (fig. 4b) are more interesting; the fourth joint is not at
all marked off, not even at the inner margin, from the third joint with its lobe,
but judging from the place of the distal end of the insertion of the exopod the
fourth joint is moderately long; the exopod is well-marked off and distally pro-
duced with a free lobe beyond the end of the articulation.

This species varies much in size; the largest female (from Sta. 4699) is
13 mm. long.

2S0 THE SCHIZOPODA.

Remarks. — It may be mentioned that one of the specimens from Sta.
4637 has an Epicarid on the lower side of the thorax between the posterior legs.

Distribution. — The list of Stations shows that S. longicorne is rather com-
mon in some parts of the area explored in 1904-1905, but seems to be wanting in
other parts, for instance near the Galapagos, in a rather large field Southwest
and South of these Islands, and in a broad longitudinal belt along the coast of
South America; The specimen from the Hawaiian Islands referred (1905)
by Ortmann to S. suhmii belongs to S. longicorne. This species was gathered
by the "Siboga" at nine Stations in the Indian Archipelago. Sars's type was
taken South of the Cape of Good Hope, and Sars states that he had some speci-
mens from the Mediterranean. In the Atlantic it is evidently not uncommon
and has been captured as far northwards as South of Iceland, Lat. 63° 08' N.,
long. 21° 30° W. ("Ingolf " Exp.). — It has very rarely been taken at the surface.

38. Stylocheiron elongatum G. O. Sars.

1S83. Slylocheiron elongalum G. O. Sars, Forh. Vid. Selsk. Christiania for 1883, no. 7, p. 32.
1885. Stylocheiron elongalum G. O. Sars, Challenger Rept ., 13, p. 146, pi. 27, figs. 6-10.

Sta. 4689. Dec. 12, 1904. Lat. 24° 5' S., long. 100° 20' W. 300 fms. to surface. 1 specimen.

This .slender .species is ea.sily recognized by its extremely long sixth abdomi-
nal segment. Sars's description and figures are imperfect as to some particulars,
but a new representation based on good material must be postponed for the
report on the Monaco material.

Distribution. — Only the single abo\'e-named specimen is hitherto known
from the Pacific, and it is unknown from the Indian Ocean. Sars's two speci-
mens were from the South Atlantic. Ortmann had it from several areas in
the Atlantic, viz. : — the Florida current. Sargasso Sea, Northern equatorial cur-
rent, Guinea current and Southern equatorial current. In 1905 I enumerated
a number of localities in the Eastern Atlantic between Lat. 36° 17' N. and Lat.
27° 43' N.

c. Species with the elongated pair of legs terminating in real chelae with a well-
developed imynovable finger from the penultimate joint.

39. Stylocheiron abbreviatum G. O. Sars.

Plate 11, figs. 5a-5f.

1883. Sti/lochciron ahbrcvialum G. O. Sars, Forh. Vid. Selsk. Christiania for 1883, no. 7, p. 33.

1885. Stylocheiron abbreviatum G. O. Sars, Challenger Rept., 13, p. 147, pi. 27, tigs. 12-13.

1896. Stylocheiron chelifer Chun, Bibl. Zool., 7, heft. 19, p. 162, taf. 1, figs. 1-8.

1910. Stylocheiron abhreviatuiii 11. J. Hansen, Siboga-Exp., 37, p. 122.

STYLOCHEIRON ABBREVTATT IVr. 281

Sta. 4679. Dec. 7, I'.JOl. Lat. 17° 20.4' S., lonp;. Sli° 4ti.r)' \V. :iO() fms. to surface. 3 .specimens.

Sta. 4081. Dec. 8,1904. Lat. 18° 47.1' S., long. 89° 20' W. ;iOO fm.s. to surface. 2 .specimens.

Sta. 4085. Dec. 10, 1904. Lat. 21° 30.2' S., long. 94° 50' \V. 300 fms. to surface. 4 specimens.

Sta. 40S7. Dec. 11, 1904. Lat. 22° 49.5' S., long. 97° 30.0' W. 300 fms. to .surface. 1 specimen.

Sta. 4089. Dec. 12, 1904. Lat. 24° 5' S., long. 100° 20' \V. 300 fms. to surface. 1 specimen.

Sta. 4091. Dec. 13, 1904. Lat. 25° 27.3' S., long. 103° 29.3' W. 300 fms. to surface. 3 specimens.

Sta. 4695. Dec. 23, 1904. Lat. 25° 22.4' S., long. 107° 45' W. 300 fms. to .surface. 1 specimen.

Sta. 4099. Dec. 25, 1904. Lat. 21° 39.5' S., long. 104° 29.8' W. 300 fms. to surface. 1 specimen.

Sta. 4705. Dec. 28, 1904. Lat. 15° 5.3' S., long. 99° 19' W. 300 fms. to surface. 2 sjK'cimens.

Sta. 4707. Dec. 29, 1904. Lat. 12° 33.2' S., long. 97° 42' W. 300 fms. to surface. 5 specimens.

Sta. 4709. Dec. 30, 1904. Lat, 10° 15.2' S., long. 95° 40.8' W. 300 fms. to surface. 1 specimen.

Sta. 4719. .Jan. 14, 1905. Lat. 0° 29.8' S., long. 101° 16.8' W 300 fms. to .surface. 1 specimen.

Sta. 4724. ,Jan. 17, 1905. Lat. 11° 13.4' S., long. 109° 39' W. 300 fms. to surface. 1 specimen.

Sta. 4730. Jan. 20, 1905. Lat. 1.5° 7' S, long. 117° 1.2 W. 300 fms. to surface. 1 specimen.

Sta. 4734. Jan. 22, 1905. Lat. 17° 36' S., long. 122° 35.0' W. 300 fms. to surface. 1 specimen.

Besides I have it from the following localities: —

Sta. 3681. .^ug. 27, 1899. Lat. 28° 23' N., long. 126° 57' W. 100 fms. 2 specimens. " Albatross."
Fiji Islands. 6 m. South of Suva lightship. Dec. 11, 1897. 1.50 fms. 1 specimen. A. Agassiz.
Fiji Islands. 3 m. South of Suva lightship. Dec. 11, 1897. 100 fms. 1 specimen. A. Agassiz.
Fiji Islands. 3 m. South of Suva lightship. Dec. 11, 1897. 1.50 fms. 1 specimen. A. Agassiz.

In the ''Siboga" paper I pointed out the main differences between this
species and S. maximum H. J. H. But as no adult male was found in the "Si-
boga" material, as the copulatory organs have never been figured, and the inter-
esting antennulae in adult males are unknown I give some figures of these
and other parts with the necessary description; the preservation of the females
in the collection does not allow corresponding figures of the antennular flagella
in this sex.

Fig. 5a exhibits the anterior part of a male. The eye has the shape char-
acteristic in this species; it is nearly pyriform, the lower area being somewhat
or a little less than twice as broatl, but more than twice as deep as the upper. —
In the female the antennulae have the two distal peduncular joints slender as
in the other species of the genus, and the third joint is conspicuously, though
not much, longer than the second; the flagella are slender with round joints.
In the male the second and especially the third joint of the antennular peduncles
is much thickened, the second slightly shorter than in the female, but the third
slightly shorter than the second and gradually more thickened towards the end.
The male antennular flagella are very characteristic (figs. 5b and 5c) ; the upper
flagellum is somewhat shorter than the peduncle (fig. 5a), 6-jointed; the four
proximal joints rather slender, but the first a little expanded towards the base,
the second extremely short, and the fourth is distinctly depressed and begins to
be a little expanded; the two distal joints together considerably longer than the
sum of the four proximal joints, flattened, the fifth distally much expanded
inwards with the inner margin of the broadest part finely serrate, the sixth

282 THE SCHIZOPODA.

joint oblong-triangular, a little longer than the fifth and finely serrate along the
inner margin. The lower flagellum is not fully half as long again as the upper,
9-jointed, the basal joint long and extremely thickened towards the base, with a
large tuft of innumerable, thin sensory setae; the second joint is extremely
short, the third long and slender, the fourth much shorter, compressed, and
distinctly widened towards the end, while the five distal joints increase in length
to the last, all being besides strongly compressed, with the upper margin finely
serrate.

The antennal squama is long, rather narrow, tapers towards the end, with
an outer tooth reaching beyond the short, oblique or transverse terminal margin;
it reaches in the male to or a little beyond the end of third joint of the antennular
peduncle (fig. 5a), in the female beyond the middle of that joint but never to its
end; the two distal joints of the special peduncle of the endopod (a') are very
thin and taken together extremely long, reaching far behind the end of the
squama.

The maxillulae (fig. 5d) difTer only in minor details from those of S. longi-
corne (fig. 4a) and the same is the case with the maxillae (fig. 5e), the latter
being, however, proximally somewhat broader in proportion to the length and
have the fourth joint marked off at the inner margin from the lobe of third
joint.

Fig. 5f, representing the inner and the median lobe of the copulatory organ,
illustrates especially the great difference in thickness between the terminal and
the proximal process (p-. and p^) which, as pointed out in the"Siboga" paper,
is the best specific character in this organ for S. abbrematum in contradistinction
to S. jnaximum. (The copulatory organ of the latter species has been figured
in the paper named).

Length of a good-sized male 15 mm., of a female 16 mm.

Distribution. — Most of the localities enumerated in the literature are not
trustworthy, because the next species has frequently been confounded with S.
abbrematum. Sars's type is from the tropical Atlantic, and the Copenhagen
Museum possesses two specimens from the same area, viz. Lat. 2.3° 31' N.,
long. 22° 41' W., and Lat. 18° S., long. 2° W.; a number of specimens are at
hand from the area in the northern temperate Atlantic explored by the Prince
of Monaco. Furthermore it has been captured at some .Stations in the Inchan
Archipelago by the "Siboga." It is widely distributed in the Pacific; according
to the list of Stations, Expedition of 1904-1905, it is rather common in the
southern part in the area explored, going northwards to about Lat. 65° S. ; but

EUPHAUSIACEA. 2S3

furthermore it was taken at the Fiji Lslaiuls aiul in the North Pacific; Ort-
mann's specimen from tlic H awaiian Islands belongs to this species, while his
specimen from off Galera Point is too poor for determination. — The species has
very rarely been taken at the surface.

40. Stylocheiron maximum II. J. H.\nsen.

1908. Stylocheiron maximum H. J. H.^nsen, The Danish Ingolf-ExpecL, 3, 2, p. 92.
1910. Stylocheiron ma.rimum H. J. Hansen, Siboga-Exp., 37, p. 121, pi. 16, figs. 6a-6d.

Sta. 41346. Nov. S, 1904. Lat. 4° 1.6' S., long. 89° 16.3' W. 300 fnis. to surface. 1 spedmen.

St.a. 4679. Dec. 7, 1904. Lat. 17° 26.4' S., long. 86° 46.5' W. 300 fms. to surface. 1 specimen.

Sta. 4707. Dec. 29, 1904. Lat. 12° 32.2' S., long. 97° 42' W. 300 fms. to surface. 1 specimen.

Sta. 4713. Jan. 1,190.5. Lat. 5° 35.3' S., long. 92° 21.6' W. .300 fms. to surface. 1 specimen.

Sta. 4716. Jan. 2,1905. Lat. 2° 18.5' S., long. 90° 2.6' W. 600 fms. to .surface. 1 specimen.

Sta. 4724. Jan. 17, 1905. Lat. 11° 13.4' S., long. 109° 39' W. 300 fms. to surface. 2 specimens.

Sta. 4742. Feb. 15, 1905. Lat. 0° 3.4' N., long. 117° 15.8' W. 300 fms. to surface. 1 specimen.

Remarks. — The material is somewhat poor in quality, most of the speci-
mens being not well preserved and only two, both females, are adult. For this
reason a representation of this large and fine species must be postponed.

Distribution. — In the Atlantic S. maximum extends northwards to Lat.
61° 49' N., long. 14° 11' W., West of the Fseroes (" Ingolf " Exp.), and it is not
uncommon in the area explored by the Prince of Monaco. Finally it was taken
at some few localities in the Indian Archipelago by the "Siboga."

LARVAL STAGES OF EUPHAUSIACEA.

Plate 12.

The collection contains a large number of larvae in various stages of develop-
ment. But more than two thirds belong to the genus Euphausia and are not
very interesting; a smaller number in the later stages of development can be
named with certainty, but it is impossible to refer most of them to the forms to
which they belong. Sars has given a very detailed account of the metamorphosis
of his Euphausia pellucida, and though this species — according to his list of
synonymy, his figures, and many of his specimens examined by me — comprises
at least three allied species, and though it is impossible to decide whether the
larvae described and figured by him as stages of E. pellucida in reality belong
to a single or to two or three closely allied species, his figures and descriptions do
give an excellent account of the development of animals of the krohnii- group.
The time is still remote when it may be possible to give a full account of the
metamorphosis of at least several species of the rich genus Euphausia, a task

284 THE SCHIZOPODA.

which, for the others, must always be very difficult, as frequently it will be next
to impossible to find specific characters for every stage of every species. As the
number of species of the genus Euphausia collected by the Agassiz expedition
1904-1905 is fourteen, and it may be expected that larvae of the majority of these
species exist in the material, it will instantly be seen that to solve the difficulties
connected with the endeavour to refer the older larval stages to their proper
form and then in a similar way to proceed from older to younger stages would
have been in most cases at least very great and sometimes or frequently impos-
sible. Under such circumstances I thought it better not to make a hazardous
attempt to work out the material of these larvae, with the exception of some few
presenting a somewhat peculiar aspect and belonging to a single species. But
I thought it useful and safer to describe a number of larvae of five other genera,
hoping thereby to give an addition of some little importance to our knowledge
of the larvae of this order, especially as I am able to refer most of these larvae
to the species in question.

THYSANOPODA sp. (T. monacantha aff).
Plate 12, figs, la-lg.

A. Fir&l Furcilia-Stage (figs. la-Id). — The frontal plate (fig. lb) very
long, nearly as long as broad at the base; its lateral margins proximally concave,
more distally convex and then almost straight to the slightly acuminate, acute
tip; the upper surface a little concave longitudinally. — The carapace has a
fine denticle on the lower margin somewhat before its posterior end (fig. la);
seen from the side a short, but somewhat high keel, including the dorsal organ, is
seen on the upper margin considerably nearer to the posterior margin than to
base of the frontal plate. — The eyes are large, yellow with the central part black,
but they do not reach beyond the sides of the carapace (fig. lb), as their stalks
are short. — The antennular peduncles short and very robust; first joint ex-
tremely broad, with its distal outer process reaching the end of third joint and
furnished with fine spines on the inner margin; second joint broader than long
with two very long, plumose setae on the inner margin; third joint nearly half
as long again as the second and a little longer than broad, with terminal setae
and three very long, plumose setae on the inner margin; botli flagella are one-
jointed, the upper much shoi-ter and thinner than the lower which is a little
shorter than the third peduncular joint. — The antennae (figs, la and lb) with
both rami one-jointed and terminating in a bundle of extremely long, plumose

THYSANOPODA SP. 285

setae; outer ramus much shorter than the inner. — The maxillipeds (fig. la,
mxp.) with the exopod longer than the endopod. — First pair of tlioracic legs
are only short, simple protuberances, and no distinct vestige of following pairs
is observed.

The abdomen (fig. la) with the upper part of second segment distinctly-
elongate and dorsally a little protruding towards the hind margin ; sixth segment
as long as the sum of the two preceding segments and somewhat longer than
deep. — First pair of pleopods shaped as a very oblong, naked joint; the follow-
ing pleopods visible only as low knots covered by the "epimera." — The uro-
pods (fig. Ic) reach conspicuously beyond the middle of the telson.— Telson
almost two and a half times as long as sixth segment, scarcely three and a half
times as long as broad and narrower somewhat from the end than at the base;
its end (fig. Id) with seven moderately short, distally very slender spines, and at
each side near the end three spines, the distal long and very strong with fine
spines along more than the proximal half of its inner margin, the intermediate
spine a little less strong but still somewhat longer than the distal and showing
similar armature; the proximal spine strong but only one third as long as the
next.

Length 3.7 mm.

The two specimens described are from "Albatross" Sta. 46.35, November 4,
1904; surface. A third specimen from the same Station is intermediate between
the first and the last Fm-cilia-stage.

B. Last Furcilia-Stage (figs, le-lg).— The frontal plate (fig. If) a little
shorter and somewhat broader than in the first Furcilia-stage; the dorsal keel
is smaller and situated nearer to the base of the frontal plate than to the pos-
terior margin of the carapace (fig. le). — The antennulae are somewhat longer
(fig. If); the process from first joint reaches the middle of the third joint; the
second joint nearly longer than broad; the lower flagellum as long as the third
peduncular joint and somewhat longer than the upper flagellum. The antennae
and the maxillipeds essentially as in the preceding stage.^The first pair of
thoracic legs not longer than the maxillipeds, with the endopod divided mto
some joints, the exopod very short and two branchial filaments; second pair
nearly rudimentary with a four-branched gill; third pair rudimentary with a
small three-branched gill.

Second abdominal segment protrudes as in the preceding stage; sixth
segment more than half as long again as deep.^ First pair of pleopods with both
rami present and setiferous but the endopod is very short; second pair a little

286 THE SCHIZOPODA.

shorter with the exopod setiferous but no endopod. Third to fifth pair nearly
rudimentary, oblong, with a transverse suture but without setae. — The uropods
reach nearly the proximal pair of spines on the terminal part of the telson.
This terininal part (fig. Ig) is very different from that of first Furcilia-stage ;
the terminal margin is convex with only five spines and the median spine longer
and stronger than the others, which are a httle shorter than in the earlier stage;
of the distal lateral spines the intermediate pair are nearly as in the preceding
stage (in the single specimen the left spine is normal, the right shorter and without
fine marginal spines), the proximal pair are short and slender, while the distal
pair are longer and stronger than the intermediate, straight, with only two or
three fine spines on the inner margin.

Length of the single specimen 5 nrmi.

The specimen is from "Albatross" Sta. 4710; December 30, 1904. Surface.

Remarks. — That the two stages described belong to the same species is
easily seen from the shape of the frontal plate, the antennulae, the eyes, and the
second abdominal segment. It is closely allied to T. monacantha Ortm. {T.
agassizii Ortm.) but can scarcely be that species. The "Siboga" material
contained specimens of tlie last Furcilia-stage, furthermore a young animal in
which the process from the two proximal antennular joints had begun to develop
^ so that this specimen could with absolute certainty be referred to T. mona-
cantha — and besides two stages intermediate between the last-named speci-
men and the last Furcilia-stage, and it is quite sure that all these specimens
belong to the same species. But the specimens in the last Furcilia-stage from
the "Siboga" differ from the specimen in the Agassiz collection just described
by having the body a httle shorter and somewhat more clumsy, the eyes some-
what larger, the frontal plate a little different in shape, tlie second abdoininal
segment less protruding above and besides showing an interesting difference in
the telson. Though the thoracic and abdominal appendages show the same
degree of development in the specimens in last Furcilia-stage from both col-
lections, the Agassiz specimen, which is a little longer than those from the
"Siboga," has the distal part of the telson less developed than the "Siboga"
specimens, as the long postero-lateral spines of the intermediate pair found in
the Agassiz specimen are lost in the "Siboga" specimens (Siboga-Exp., 37,
pi. 13, fig. 3g).

It is, I think, very improbable that the differences pointed out between
specimens in the last Furcilia-stage from the Indian Archipelago and the tropical
East Pacific can be found in lar^■ae of the same species from two distant areas.

EUPHAUSIA DISTINGITENDA. 287

And after a renewed examination of tlie "kSiboga" material I consider my inter-
pretation or reference of these animals as quite certain. The above-described
larvae must therefore belong to a species alUed to T. monacantha {T. agassizii)
and according to my knowledge of young animals of T. pedinala, T. orienlalis,
T. aequalis, and T. obtusifrons they cannot belong to any of these forms, but
most probably to T. cristaia G. O. S., which is larger than T. monacantha and
agrees with it in having a lateral furrow somewhat above the lower margin of
the carapace.

Euphausia distinguenda H. J. Hansen.

Plate 12, figs. 2a-2c.

Last Furcilia-Stage. — Slender. — The frontal plate (fig. 2b) is large, scarcely
twice as broad as long, anteriorly very broadly rounded but with a quite minute
acute tooth representing the rostrum. The dorsal keel of the carapace situated
nearly equally distant from the rostrum and from the posterior margin; it is
high, subtriangular, with the front margin rather steep; the tooth situated far
behind on the lateral margins of the carapace is large.

The eye-stalks are uncommonly long, almost longer than broad (fig. 2b)
and conspicuously longer than deep (fig. 2a) . — The antennulae are half devel-
oped; the distal process from the first peduncular joint reaches not fully to the
end of third joint; the flagella are equal in length, somewhat longer than the
sum of the two distal peduncular joints, three-jointed. — The antennae have
the exopod somewhat shorter than the endopod and not yet developed as
squama. — The maxillipeds with both rami equal in length and the exopod one-
jointed. — First pair of thoracic legs twice as long as the maxiUipeds; endopod
with the full number of joints with only a few short setae at the end; the exopod
not quite half as long as the endopod; a minute bipartite branchia is visible.
Second pair of legs nearly rudimentary, with a minute branchial rudiment;
third pah" scarcely visible.

The four anterior pairs of pleopods with both rami setiferous; the exopod
as long as the stalk, while the endopod is minute. Fifth pair of pleopods small,
naked, with a transverse suture. — Distal part of telson (fig. 2c) with three
terminal spines, the intermediate spine somewhat longer than the others, and
with three pairs of lateral spines, the distal pair a little longer than and twice as
broad as the intermediate, while the proximal pair are minute.

Length of the specimen described and figured 2.8 mm.

The specimen is from the "Albatross" Sta. 4588; October 12, 1904.
Surface.

288 THE SCHIZOPODA.

Remarks. — The reference of this larva to E. distinguenda H. J. H. is certain,
because I have a nearly complete series of the following stages of development
and growth up to the adult specimens. The larvae of the stage described are
distinguished from those of other species by the combination of possessing a
slender body, a high and anteriorly steep dorsal keel and somewhat long eye-
stalks. A comparison between the larvae just described with the corresponding
stage described and figured by Sars as belonging to E. pellucida (" Challenger "
Rept., pi. 29, fig. 7 and pi. 30, fig. 40) is not without interest. In certain respects
Sars's larva is more, in other features less, developed than the larva of E. dis-
tinguenda; E. pellucida has the second pair of thoracic legs considerably longer
than E. distinguenda, and the last j^air of pleopods with both rami setiferous,
while the telson has still seven terminal spines and the antennular flagella are a
little less developed than in E. distinguenda. — Similar cases of differences in
the development between various species of the genus Euphausia have been
pointed out in my paper on the Schizopoda of the Belgian Antarctic Expedition.

Nyctiphanes simplex H. J. Hansen.
Plate 12, figs. 3a-3f.

A. Intermediate F urcilia-Stage (figs. 3a-3d). — The frontal plate (fig. 3b)
very large, somewhat less than twice as broad as long, longitudinally concave
and anteriorly cut off, with the front margin about half as long as the basal
breadth of the plate and conspicuously concave but not angular at the middle;
the antero-lateral angles feebly produced, acute. — The carapace has a well-
developed tooth on the lateral margin, while the usual dorsal keel is very short
and low, placed a little farther from the end of the frontal plate than from the
posterior margin.

The eyes are extremely large with moderately long stalks. — The antennulae
are very thick; the process from first peduncular joint reaches beyond the middle
of the third; second and third joints slightly longer than broad; the upper
flagellum thick, nearly conical, unjointed and a little longer than the lower. —
Antennae with the rami subsimilar in shape, but the exopod a little shorter than
the endopod. — Maxillipeds (mxp.) with the exopod a Uttle shorter than the
endopod. — First pair of thoracic legs scarcely as long as the maxillipeds, with a
rudimentary exopod and a small two-branched gill; the endopod has one dis-
tinct and two indistinct articulations. Second pair half as long as the first,
with a rudimentary ])ranchia; third pair quite rudimentary.

First and second pairs of pleopods with the exopod well developed, seti-

NYCTIPHANES SIMPLEX. 289

ferous, while the endopod is minute and naked. The three posterior jiairs
somewhat shorter than the second pair; the exopod well defined, as long as the
stalk and without terminal setae. — Sixth abdominal segment somewhat longer
than the fifth and rather thick. — The uropods reach a little beyond the middle
of telson. — The telson (fig. 3c) is a httle broader near the end than at the base.
The terminal margin (fig. 3d) transverse, straight, with seven spines, which
increase somewhat in length from the median spine outwards and have the
proximal major part at each side furnished with minute denticles; the inter-
mediate pair of postero-lateral spines slightly longer and a little less thick than
the inner pair, which is more than twice as long as the outer terminal spine;
the outer postero-lateral spine less than half as long as the intermediate pair.

Length of the specimen described 3.2 mm.

Last Furdlia-Stage (figs. 3e-3f). — Carapace with frontal plate almost
as in the preceding stage. — Antennulae considerably longer, but the process
from the first joint is still as long as in the stage described, while the flagella
are about as long as the sum of the two distal peduncular joints, setiferous at
the end but with articulations very indistinct; the lower flagellum is a little
longer and considerably thicker than the upper. — Antennae still as in the
intermediate stage. — The endopod of the maxillipeds somewhat longer and
thicker than the exopod, with a few feeble articulations. — First pair of thoracic
legs considerably developed; the endopod reaches the base of the antennae,
is distally setiferous and with the final number of joints; the exopod still un-
join ted and without setae; the gill with two long branches and one very short
branch. — Second pair somewhat less developed than the first, as the endopod
is somewhat shorter, but yet with the end setose and the full number of joints,
while the gill-branches are a little shorter than in first legs. — Third pair of legs
less than half cis long as second pair but with the gill quite similar; the two next
pairs of legs are small rudiments.

The three anterior pairs of pleopods have the endopod almost half as long
as the exopod and distally setiferous; in the two posterior pairs the exopod is
well developed, setiferous, while the endopod is small and naked. — Sixth ab-
dominal segment as usually conspicuously longer than in the intermediate stage ;
its uropods reach somewhat beyond the middle of the telson (fig. 3e). — The
telson (figs. 3e and 3f) is a little more than four times as long as broad and
slightly broader at the base than somewhat before the end; the terminal margin
is a good deal shorter than in the preceding stage, but still with the seven spines,
which are even somewhat smaller than before; among the postero-lateral spines

290 PSEUDEUPHAUSIA LATIFRONS.

the two outer pairs are nearly as in the preceding stage, but the inner pair are
almost twice as broad.

Length of the specimen described 3.7 nun.

Remarks. — By the distally broad and emarginate frontal plate the larvae
of Nyctiphanes and Pseudeuphausia differ strongly from those of all other
Euphausiacea. The above-described larvae were chosen among a good number
of larvae and young and adult specimens from Sta. 4655, Nov. 12, 1904, Surface.
Young specimens with the frontal plate distally emarginate and the character-
istic lobe of first antennular joint high but not yet fully developed have been
described on p. 228. This lobe begins to protrude conspicuously in a specimen
measuring about 4.5 mm., and in this specimen the telson has nearly acquired
its final shape. Specimens measuring 4.5-5 mm. are therefore easy to determine
by aid of the lobe mentioned as Nyctiphanes, for Pseudeuphausia latifrons
G. O. S. does not possess such a high protuberance; the differences between
larvae of Nyctiphanes simplex still without the antennular lobe and stages of
Pseudeuphausia of the same size are pointed out below.

The larvae described show that they acquire a rather considerable size before
the appendages are half developed and before the end of the telson begins to
lose its larval armature, though adult specimens are rather small. The distal
process of first antennular joint remains very long until the specimens are con-
siderably more than half grown, and the dorsal carina of the carapace is very
small even in the youngest larva described.

Pseudeuphausia latifrons G. O. Saks.
Plate 12, figs. 4a-4b.

As stated above. Dr. Agassiz collected at the Fiji Islands a number of speci-
mens, among which are a few larval forms; and from the "Siboga" I have
several larvae in the Furcilia- and Calyp topis-stages. And they are mentioned
chiefly for comparison with those of Nyctiphanes simplex.

The larvae of Pseudeuphausia differ from those of Nyctiphanes simplex
especially in three features, viz. they are, when chosen in the same stage, con-
siderably smaller, their antennular peduncles are more slender and the frontal
plate is not only more deeply emarginate, but the emargination is not rounded,
but angular at the middle. The anterior and the posterior parts of the youngest
Agassiz specimen are rendered in figs. 4a and 4b, and a view on these figures
shows that the antennular flagella and the telson are considerably more devel-
oped than in the above-described specimen in last Furciha-stage of Nyctiphanes,

NEMATOSCELIS MICROPS. 291

though the specimen is only 3.2 mm., thus as long as the intermediate Furcilia-
stage of Nyctiphanes; it may be added that the thoracic legs are also somewhat
more developed than in the last Furcilia-stage of Nyctiphanes measuring 3.7
mm. Fig. 4b shows that the telson tapers gradually to the insertion of the outer
pair of postero-lateral spines, that the intermediate pair of these spines are very
slender, the inner pair somewhat strong with the fine denticles along their inner
margin, while the telson itself is produced in an acute spine and the terminal
spines are wanting.

A specimen in the intermediate Furcilia-stage (from the "Siboga") is
2.7 mm. long; its pleopods are developed about as in the same stage of Nycti-
phanes, while its antennular flagella and two anterior pairs of thoracic legs are
a little more developed than in the latter form. But the telson is quite different,
as to shape of itself and relative size of the three pairs of postero-lateral pairs
similar not to the first but to the last Furcilia-stage of Nyctiphanes, while the
terminal transverse margin of telson is short with only thi*ee small spines.

Nematoscelis microps G. O. Sars.
Plate 12, figs. 5a-5c.

Last Furcilia-Stage. — The frontal plate is very long, linguiform, longitudi-
nally somewhat excavated, anteriorly broadly rounded at the sides and at the
middle produced in a very small, tooth-shaped rostrum (fig. 5b); the dor.sal
keel of the carapace is long and high, oblong-triangular, with the upper angle
rounded and the front margin rather steep, situated a little nearer to the posterior
margin than to the rostrum; the tooth on the lateral margins of the carapace
is very large, du-ected much downwards and originating at the posterior margin
(fig. 5a).

The eyes have the lower section rather well developed, but the upper section
is very small. — The antennular peduncles are rather slender; the process from
the first joint does not reach the end of second joint, which is a little more than
twice as long as thick and conspicuously shorter and thicker than the third; the
flagella are very short, unjointed; the lower with a single terminal seta (omitted
in the figures) . — Antennae and maxillipeds completely larval in shape and
tegumental surface; the exopod of the maxillipeds a little longer than the endo-
pod. — First thoracic legs somewhat developed; the endopod reaches slightly in
front of the end of rostrum, has the full number of joints with last joint termi-
nating in a few spines; a branchial lobe is visible. — Second thoracic legs rather
small, with the endopod scarcely twice as long as the exopod and the branchia

292 THE SCHIZOPODA.

lobes somewhat short and broad; of third pair of legs only the branchia is
discernible.

The four anterior pairs of pleopods with the exopod well developed, seti-
ferous, while the endopod is very small with a single seta. Fifth pair of
pleopods small, with the naked exopod marked off. — The uropods reach con-
siderably beyond the middle of telson; the endopod is longer than the exopod. — ■
Telson tapers in breadth from the base to a little before the outer postero-lateral
spines ; the distal part is intermediate as to shape and spines between the earlier
larval stages and the fully developed specimens; in the earlier stages three pairs
of postero-lateral spines and seven terminal spines are found, while in the adult
the intermediate pair of lateral spines and all terminal spines are wanting; in
the specimen mentioned here the terminal margin is short with three spines,
the middle spine much shorter than the submedian spines, each of which has a
strong spiniform denticle on each side before the middle; furthermore, the
intermediate pair of postero-lateral spines are lost, while the inner pair are
extremely broad, \'ery long and furnished with a number of fine spines on the
major proximal part of the inner margin.

The specimen described is 3.5 mm. long.

Remarks. — The shape and tegument with spines of the first pair of thoracic
legs proves that the specimen — taken at Hyd. Sta. 3789, Lat. 2° 38' N., long.
137° 22' W., September 9, 1899, Surface — belongs to the genus Nematoscelis;
furthermore among the species of this genus it must, according to the shape of
the eyes and the strong development of the dorsal keel, belong to either N.
microps G. 0. S. or N. gracilis H. J. H. And judging from the very high and
anteriorly steep dorsal keel I have referred it to N. microps.

Whether the specimen described shall be referred to the last Furcilia-stage
or the first Cyrtopia-stage is almost a matter of free choice. But it may be of
some interest to compare it with the above-described larva of Euphausia dis-
tinguenda. In both larvae the four anterior pairs of pleopods are setiferous,
the thoracic legs are nearly equ ally developed and the end of the telson has only
three marginal spines, but in E. distinguenda the intermediate postero-lateral
pair of spines which have been lost in Nematoscelis, are still preserved, while,
on the other hand, the antennular flagella are very short and unjointed in the
latter, but somewhat elongate and three-jointed in the former species. This is
a new instance of the above-mentioned fact that as to the consecutive order
of the development of appendages and telson considerable differences are found
in this order.

STYLOCHEIRON CARINATUM. 293

Stylocheiron carinatuzn G. O. Sars.
Plate 12, figs, Ga-Gd.

Intermediate Furcilia-Stage (figs. 6a-6c). — The frontal plate with rostrum
constitutes a rather large triangle almost as long as broad and with the lateral
margins somewhat concave and the end very acute; the dorsal keel of the cara-
pace is low and placed much behind its middle; the lateral margins of the
carapace are without any tooth.

The eyes have the lower section well developed, while the upper is small. —
The antennular peduncles are rather slender; the process from first joint reaches
a little beyond the end of next joint; second joint almost twice as long as broad,
somewhat shorter than the third; fiagella unjointed, upper flagellum much
shorter and thinner than the lower which is about half as long as third peduncular
joint. — Antennae and maxillipeds showing the usual larval development;
two anterior pairs of thoracic legs rudimentary.

First pair of pleopods with the exopod setiferous; the two following pairs
are very oblong, undivided; the posterior pairs rudimentary, scarcely visible
below the margin of the lateral plates. — Sixth abdominal segment as long as
the sum of the two preceding segments. — The uropods reach much beyond the
middle of the telson. — Telson is four and a half times as long as broad, with the
distal part somewhat narrower than the proximal; the terminal margin (fig. 6c)
is long, with seven rather long, naked spines, increasing in length from the
median spine to the subangular pair; the intermediate pair of postero-lateral
spines are very long and strong, a little longer than the inner pair and both pairs
with about five or six fine spines along a good part of their inner margin; the
proximal third pair of the postero-lateral spines are rather small.

The specimen is 2.8 mm. long; it is somewhat poorly preserved so that I
may have committed some inaccuracy in the appendages on fig. 6a. — The
specimen is from Sta. 4611, October 18, 1904, Surface.

Last Furcilia-Stage (fig. 6d). — The triangle formed by the frontal plate
and rostrum in the main as in the preceding stage, but the lateral margins are
nearly straight; the dorsal keel of the carapace is placed a little more forwards
but still considerably behind the middle. — Eyes a little more developed. —
Antennulae with the process from first peduncular joint a little shorter and the
still undivided lower flagellum conspicuously longer than in the former stage. —
Endopods of first and second pairs of thoracic legs more than half developed,
with the full number of joints, and the relative size, shape, and tegumental

294 THE SCHIZOPODA.

surface with setae of the two distal joints of second pair in the main as in fully
developed specimens; third pair of legs almost rudimentary; branchiae rudi-
mentary.

The three anterior pairs of pleopods with the endopod very small though
terminating in a seta and the exopods well developed; the two posterior pairs
are smaller, with the exopod setiferous while the endopod is rudimentary, with-
out any seta. — Telson more slender than in the preceding stage; its terminal
part between the inner postero-Iateral spines considerably produced, the terminal
margin transverse but shorter and with only five spines proportionately smaller
than in the preceding stage; the inner pair of postero-Iateral spines with the
proximal half a little broader than in the preceding stage and considerably broader
than the intermediate pair, which are more slender than in preceding stage.

Length of the specimen described 3 mm. — It was taken at Sta. 4588,
October 12, 1904, Surface.

Remarks. — The shape and setae of the two distal joints of the second
elongate pair of legs prove beyond doubt that the last-named specimen belongs
to Stylocheiron carinatum G. O. S. And a comparison between this specimen
and the specimen in the intermediate Furcilia-stage gives the result, that both
belong to the same species. And as nothing was known on the larval stages
of any species of the aberrant genus Stylocheiron I find it useful to give here what
I can, though the younger specimen is not well preserved. The larvae of S.
carinatum differ from those of Nyctiphanes, Thysanopoda, Euphausia, Pseud-
euphausia, and Nematoscelis by having no denticle on the lower margin of
the carapace; I think that this feature affords a good generic character; yet
it may be very possible that the hitherto unknown larvae of the genus Nemato-
brachion agree with Stylocheiron in possessing no marginal denticles. The
larvae of Stylocheiron agree, as might be expected, with those of Nematoscelis
(and probably of Thysanoessa) in having the two distal peduncular joints of
the antennulae more slender than in those of the other genera mentioned, but
they differ from the larvae of Nematoscelis by the shape of the frontal plate
and by having the dorsal keel of the carapace smaller and remarkably far behind
the middle. But judging from the two above-described larval stages of S.
carinatum the development and structure of the larvae of the genus Stylocheiron
seems to deviate but little from other genera of the order.

EUPHAUSIACEA. 295

THE DISTRIBUTION OF THE EUPHAUSIACEA.

As already stated, the Agassiz Expedition 1904-1905 in the tropical and
subtropical East Pacific secured thirty-nine species of the order Euphausiacea,
thus a Uttle more than half of the species known from all Oceans together.
Among these thirty-nine species nineteen are at present known both from the
Atlantic and from the Indian Ocean, eight from the Atlantic, but not from the
Indian Ocean, five from the Indian Ocean (in the main from the Indian Archi-
pelago) but not from the Atlantic; thus thirty-two of the thirty-nine of the
species enumerated here from the East Pacific are known from at least one of
the two other great Oceans. And I think that in no other order of Invertebrates
82 p. c. of the species known from the warm area of the East Pacific are also
known either from one of the two other Oceans or from both! Seven species
remain; among these one, viz. Euphausia gibba G. O. S., is also known from
the West Pacific (between Api and Cape York), and a second, E. pacifica H. J. H.
is widely distributed in the North Pacific and has been taken several times
near Japan and Corea. Deducting these forms the following five species: —
Nydiphanes simplex H. J. H., Euphausia eximia H. J. H., E. distinguenda
H. J. H., E. lamelligera H. J. H., and E. mucronata G. O. S. are known only
from the East Pacific, but one among them E. mucronata has also been captured
off Chile, thus more southwards, and a second, Nydiphanes simplex, is known
from the Gulf of California and another location at Lat. 351° N. Three species
remain hitherto not known to me from any Station outside the area explored
in 1904-1905!

As to the distribution within the area explored in 1904-1905 of the species
taken at nurnerous localities I do not venture to say a great deal; an investi-
gation of thic kind must be connected with a detailed study of currents and tem-
peratures. For the majority of the species in question I have in the passage on
distribution pointed out the limits of the occurrence within the area explored,
but I do not venture to attempt a more general treatment. Only one interest-
ing detail I may call attention to. When two closely allied species, as Euphausia
diomedeae Ortm. and E. mutica H. J. H., Nematoscelis microps G. 0. S. and N.
gracilis H. J. H., were both taken at numerous Stations, they were only taken
together at some few Stations, and in one part of the area one of such two alUed
species was very common but quite wanting in another part, while the second
species, which was absent in the first part, was common in the other.

Our knowledge of the bathymetrical occurrence and distribution is rather

296 THE SCHIZOPODA. »

imperfect, but some points may be mentioned. No species is a surface form to
any degree comparable with Siriella thompsonii M. Edw. or S. gracilis Dana
(comp. the statements on p. 193 and p. 194). The great majority of the species
were taken only in "300 fms. to surface," but the material in the Copenhagen
Museum proves that three such species, viz. Thysanopoda tricuspidata M. Edw.,
T. aequalis H. J. H., and Euphausia pseudogibba Ortm. have not infrequently
been taken at the surface. The lists of Stations from the Agassiz Expedition
together with the Copenhagen material shows that Euphausia tenera H. J. H.,
E. lameUigera H. J. H., the members of the A;ro /inii-group, viz. Euphausia
eximia H. J. H., E. diomedeae Ortm., E. mutica H. J. H., E. brevis H. J. H., (and
E. recurva H. J. H.), and Stylochciron carinatum G. 0. S., were frequently taken
at the surface. The Agassiz Stations show that full-grown specimens of Nema-
toscelis gracilis H. J. H. were never taken at the surface and generally in "300
fms. to surface," but that immature or generally even small specimens were
taken at the surface at a few Stations. With the above-named exceptions the
species of the genera Thysanopoda, Nematoscelis, Nematobrachion, and Sty-
locheiron have very rarely or never been taken at the surface. Specimens of
Bentheuphausia amblyops G. O. S. have been captured at seven Stations in
"300 fms. to surface," but all specimens with a single exception seem to be im-
mature, and judging from the Monaco material the adults live generally in
greater depths. Finally the adults of the two gigantic species Thysanopoda
cornuta Illig. and T. egregia probably live always in great depths, and adult
males of T. monacantha Ortm. are probably unknown; though Dr. Agassiz
secured specimens of the last-named species at eighteen Stations in "300 fms.
to surface" the males at hand seem to be immature.

It may still be mentioned that specimens of two species, Euphausia dis-
tinguenda H. J. H. and Nematoscelis gracilis H. J. H., were found in the bottom
of the Tanner net from 300 fms. Of the first-named species both adult and
especially immature or small specimens were also taken at the surface, while of
N. gracilis only young specimens were taken a few times at the surface, numerous
adult specimens from many Stations generally in "300 fms. to surface."

Pseudeuphausia latifrons G. O. S., which was taken at the Fiji Islands but
not in 1904-5, may be mentioned separately. According to our knowledge,
especially from the "Siboga," this species seems to hve rather near the coasts,
frequently in shallow water, and has, for instance, been captured at a number
of anchorages.

EXPLANATION OF THE PLATES.

PLATE 1.

Fig.

la.

Fig.

lb

Fig.

Ic.

Fig.

Id,

Fig.

le.

PLATE 1.

Fig. 1. Chalaraspis alata Willemoes-Sdhm.

Anterior part of the body of an adult male from Sta. 4719, from above; X v-
Anterior part of the body of the same male, from the left side; X ^. o. eye.
Right antcnnal squama of an immature specimen from Sta. 4672, from above; X 13.
Left mandible of the same immature specimen, from below; X V-

Left maxillula of the same immature specimen, from below; X -r- 1- first joint; 1'.
lobe from first joint; 2. second joint; 3. third joint.

Fig. If. Left ma.xilla of the same immature specimen, from below; X 17. 1. first joint; 1'. lobe
from second joint; 1^. lobe from third joint; p. palp.

Fig. Ig. Left maxilliped of the same immature specimen, from below; X 13. The epipod
omitted.

Fig. Ih. First left thoracic leg (the appendage behind the gnathopods) of the same immature
specimen, from behind; X V-

Fig. li. Last (sixth) left thoracic leg of the same specimen, from behind; X ^.
Fig. Ik. Posterior half of abdomen, with the distal parts of the uropods and telson omitted, of
the adult male from Sta. 4719, from the left side; X ~f.

Fig. 11. Fifth and sixth abdominal segments with telson and the right uropod of the same adult
male, from above, X -j--

Fig. 2. Boreomysis media, sp. nov.

Fig. 2a. Anterior part of an adult female from Sta. 4652, from above; 12.

Fig. 2b. Telson and left uropod of the same specimen, from above; X 16. a. a portion of the
right lateral margin of the telson more highly magnified, viz. X 64, in order to show the arrangement
and relative size of the lateral spines.

Fig. 3. Boreomysis fragilis, sp. nov.
Fig. 3a. Anterior part of a male from Sta. 4679, from above; X 16.

'AlbatTXJSs" Kx

Schizopoda Plate 1.

If

1. Cltalaras-pix (iltita^ Will - Suhm ? florratm/si s mctlut ntrp. .? Ji rin,/i/is n. rp
K.J.IIaiuscTV <iW.. rX.VoUvr ao-.

PLATE 2.

PLATE 2.

Fig. 1. Boreomysis fragilis, sp. nov.
Fig. la. Telson and left uropod of the same male, from above; X 22.

Fig. 2. Hemisiriella abbreviata, sp. nov.

Fig. 2a. Anterior part of an adult female, from above; X 33.

Fig. 2b. Po,sterior part of sixth aljdominal segment with left uropod and telson of tlie same
female, from above; X 33.

Fig. 2c. Telson of the same specimen, from above; X 51.

Fig. 3. Gastrosaccus pacificus, sp. nov.

Fig. 3a. Anterior part of an adult female, from above, X 34.

Fig. 3b. First right pleopod of an adult male, from behind; X 45.

Fig. 3c. Second right pleopod of the same male, from behind; X 45.

Fig. 3d. Third right pleopod of the same male, from behind; X 45. The distal part of the
e,\'opod wanting.

Fig. 3e. Fourth right [ileopod of the same male, from behind; X 45.

Fig. 3f. Fifth right pleopod of tlie same male, from behind; X 45.

Fig. 3g. Telson and right uropod of an adult female, from above; X 46.

Fig. 4. Anchialina obtusifrons, sp. nov.

Fig. 4a. Anterior part of an adult male, from above; X 20.

Fig. 4b. Left gnathopod of the same male, from behind; X 33.

Fig. 4c. Distal part of the exopod of third right male pleopod, from in front; X 186. a. tlie
lamellar process; b. joint bearing the terminal processes; c. outer very long process, with its secondary
branch c'.; d. median ramified terminal process; e. inner terminal process.

Fig. 5. Euchaetomera typica G. O. Sars.

Fig. 5a. Median and left part of the anterior margin of the carapace of an ovigerous female,

from above; X 48.

Fig. 5b. Right eye of the same female, from above; X 52.

Fig. 5c. Proximal part of right antenna with the squama of the same female, from above; X 23.

Fig. 5d. Distal part of fourth left leg of the same female, from in front; X 35.

Fig. 5e. End of sixth abdominal segment with telson and left uropod of the same female, from
above; X 22.

Schizopoda Plate 'Z.

1 Borcomysis rra.ji Us ns„. 2 UemisirUUa. uhhrrviat-u, n.sp^ J (Xasltosaccii.^- fcicirioiLS nsp.
4.. Aii.ctii,i tiiKi ,il'l it.^i lifn.y II. sy. J Kucluet,>tr,,-i;i ti/pioti ti.O.S

[CJ.IiXTUS-i^'t Uj-i .

I.N.NMUf s-c

PLATE 3.

PLATE 3.

Fig. 1. Euchaetomera plebeja, sp. nov.

Fig. la. .interior part of a male from Sta. 4070, from above; X 3.3.

Fig. ll:i. End of sixth abdominal segment with telson and left uropod of the same specimen, from
above; X 25.

Fig.

2a.

shrivelled.

Fig.

2b.

Fig.

2c.

Fig.

2d.

Fig.

2e.

Fig.

2f.

Fig.

2g.

Fig.

2h.

Fig.

2i.

Fig.

2k.

Fig.

21.

above; :

X 32

Fig.

2m.

Fig.

3a.

Fig.

3b.

Fig.

3c.

Fig.

3d.

Fig.

3e.

Fig.

3f.

Fig.

3g.

Fig. 2. Cryptomysis latnellicauda, gen. et. sp. nov.
Anterior part of an adult female, from above; X 32. The specimen is somewhat

Left antenna of the same female, from above; X 40.

Left mandible of the same female, from below; X 47.

Distal part of the same mandible, from below; X 48.

Second joint of the palp of the same mandible, from below; X 78.

Left maxillula of the same female, from below; X SO.

Left maxilla of the same female, from below; X SO.

Left maxilliped of the same female, from below; X 4.5.

Left gnathopod of the same female, from below; X 4.5.

Major distal part of the endopod of a thoracic leg of the same specimen; X 45.

End of sixth abdominal segment with telson and left uropod of the same specimen, from

Telson shown in the preceding figure, from above; X 74.

Fig. 3. Doxomysis pelagica, gen. et. sp. nov.

Left antenna of the adult female, from below; X 40.
Left mandible of the same female, from below; X 56.
Distal part of the same mandible, from below; X 88.
Left maxilla of the same female, from below ; X 90.
Left maxilliped of the same female, from below; X 88.
Telson of the same female, from above; X 47.
Distal part of telson, from above; X 80.

Exopod and epipod omitted.

Fig. 4. Thysanopoda cristata G. O. Sars.

Fig. 4a. Carapace of an immature specimen from Sta. 4736, from the left side; X 2 ■
tide at the lateral margin omitted.

Fig. 4b. Front part of the carapace of an adult male, from above; X 5.

Fig. 4c. Front part of the carapace of the adult male, from the left side; X 8.

A den-

Ailtatixss- " Kx.

.S';lii^'i|"'il-'i . I'lalo ■').

-\ 40^

]. y. lull, <l<- III c-ra phhcja n.sp. Z fri/i>l,nnt/iis I,imiili<<iiulu nfi^n.tnf .i l)«x<-nij/.its /K/tU/ica »y<«..^v

4 Tlii/stiiiopocia fti .\f<il<i lies.

It J 11.111 -s:n .Ul.

rx M.'ii,!- .<.■

PLATE 4.

Fig.

la.

Fig.

lb

Fig.

Ic.

Fig.

Id

Fig.

le.

PLATE 4.

Fig. 1. Thysanopoda cristata G. O. Sars.

Left antennular peduncle of the adult male, from the outer side; X 8.
Right antennular peduncle of the adult male, from above; X 8.

Left antennular peduncle of the young specimen from Sta. 4699, from the left side; X 14.
Left maxillula of the immature specimen from Sta. 4736, from below; X 31.
Male copulatory organ of left first pleopod, unrolled and seen from behind; X 25. h.
inner lobe; Im. median lobe; Is. setiferous lobe — the setae along both margins omitted; lu. auxihary
lobe; p'. spine-shaped process; p''. terminal process; p'. proximal process; p''. lateral process.
Fig. If. Terminal process of the organ shown in fig. le, from behind; X 45.
Fig. Ig. Terminal process of the organ shown in fig. le, from the inner side; X 50.
Fig. Ih. Distal part of the median lobe of the organ shown in fig. le, seen from in front and ex-
hibiting the lateral process and the additional process; X 45.

Fig. 2. Thysanopoda tricuspidata H. Milne Edwards.

Fig. 2a. Left maxillula of an adult specimen, from below; X 32. 1. first joint; 1'. lobe from first
joint; 2. second joint; 3. third joint; IMobe from third joint; 4. fourth joint or palp; px. pseudexopod.

Fig. 3. Thysanopoda monacantha Ortmann.

Fig. 3a. Left maxiUula of a probably immature male, from below; X 34. The lettering as in
fig. 2a.

Fig. 3b. Inner and median lobes of left copulatory organ of aprobably immature male, from behind;
X 85. The median lobe has the lateral process and only one additional process.

Fig. 3c. Inner and median lobes of left copulatory organ of another probably immature male,
from behind; X 85. p'. lateral process; p^ three additional processes.

Fig. 4. Thysanopoda aequalis H. J. Hansen.
Fig. 4a. Left maxillula of an adult female, from behind; X 35.

Fig. 5. Thysanopoda obtusifrons G. O. Sars.

Fig. 5a. Anterior part of the body of a female, from above; X 15. The setae on left antennula
omitted.

Fig. 5b, Anterior part of a female, from the left side; X 14.

Fig. 5c. Left maxillula of an adult male, from below; X 30.

Fig. 5d. Left copulatory organ, unrolled and seen from behind; X 48. p'. lateral process; p'.
additional process.

Fig. 5e. Inner and median lobes of left copulatory organ, from the inner side; X 60. p'. spine-
shaped process; p'. terminal process; p^ proximal process; p'. lateral process; p*. additional process;
lu. margin of the auxihary lobe with its minute couphng hooks.

Fig. 5f. Distal part of the proximal process of the organ shown in fig. 5e, from the inner side; X
130.

.Vlljulruss " Kx .

SchUopiMJa. l'lal<' 4 .

JU-JHunscn del .

I Thtjsaitopodti rrl.stntti &OS ^ . T IrivusjndaiiL MKdv .1. T. iii,iu<ir,i nlh.i I'rlm
4. T. ii-tjHtillx ll.i II i T. •'/■Iii.'i tii-iis atix.

T.A: Miliar sc.

PLATE 5.

PLATE 6.

Fig. 1. Thysanopoda pectinata Ortmann.

Fig. la. Anterior part of a female from Sta. 47 19, from above ; X 13. The setae on right antennula
omitted.

Fig. lb. Anterior part of a female from Sta. 4705, from the left side; X 12.

Fig. Ic. Front end of the carapace of a male from Sta. 4705, from above; X 12.

Fig. Id. Left maxillula of a male, from below; X 24. 4. fourth joint or palp, very small and seen
through the large pseudexopod.

Fig. le. Left copulatory organ, unrolled and seen from behind; X 34. p'. spine-shaped process;
p'. terminal process; p'. pro>dmal process; p*. lateral process; p^ additional process; p^. secondary
additional process.

Fig. If. Distal part of the inner and median lobes of left copulatory organ, seen from the inner
side and showing aU processes excepting the secondary additional process; X 48.

Fig. Ig. Distal part of the proximal process, seen from the outer side; X 50.

Fig. Ih. The additional process, seen from in front; X 90.

Fig. li. Inner lobe with its three processes of left copulatory organ of a small male from Sta. 4705,
from behind; X 68.

Fig. Ik. Anterior part of a young specimen, 11 mm. long, from Sta. 4730, from above; X 23.
Setae omitted.

Fig. 11. Anterior part of the young specimen shown in the preceding figure and seen from the
right; X 14.

Fig. Im. Right antennula of the same young specimen, from the right side; X 25.

Fig. 2. Thysanopoda orientalis H. J. Hansen.

Fig. 2a. Left maxillula of an adult male, from below; X 32. The palp is seen through the large
pseudexopod.

Fig. 2b. Outline of left maxiUula of another male, from below; X 20. The figure is given for
comparison with fig. 2a in order to show difference in the palp.

Fig. 2c. Left maxilla of an adult male, from below; X 20. 1. first joint; 2. second joint; 1^. lobe
from second joint; 3. third joint; P. lobe of third joint; ex. exopod.

Fig. 2d. Left copulatory organ, unrolled and seen from behind; X 33. p*. lateral process; p*.
additional process; p^. secondary additional process.

Fig. 2e. Terminalprocessof the same organ, from in front; X 53.

Fig. 2f. Distal part of the proximal process of the same organ, from behind; X 86.

Fig. 2g. Distal part of the proximal process of the same organ, from in front; X 127.

Fig. 2h. Distal part of the proximal process of left organ of another specimen, from behind; X 86.

Fig. 2i. Distal half of the median lobe of the organ shown in fig. 2d, seen from the inner side; X 50.
The lettering as in fig. 2d.

■• All),itross" Ex.

.S(lii;:opuila. I'ialc 5.

IL'J^ Han.se.-n, d^t- .

i. Thifsanitpodci. pectinata Ortin . 2. T nritritalis H.l.H.

tIf.MolUr so-.

PLATE 6.

PLATE 6.

Fig. 1. (?) Thysanopoda cornuta Illig. Young.

Fig. la. Anterior part of the single young specimen, 14.5 mm. long, from above; X 15.
Fig. lb. Peduncle of right antennula, from above; X 31.

Fig. le. Left maxillula, from below; X 34. 1. first joint; 1'. lobe from first joint; 2. second
joint; 3. third joint; P. lobe of third joint; 4. fourth joint or palp; ex. exopod.
Fig. Id. Left maxilla, from below; X 34. 1. first joint; ex. exopod.
Fig. le. Posterior part of abdomen, from above; X ^.

Fig. 2. Nyctiphanes simplex H. J. Hansen.

Fig. 2a. Anterior part of an adult male, from above; X 16.

Fig. 2b. Left antennula of a male, from the outer side; X 27.

Fig. 2c. Right antennula of a male, from above; X 26.

Fig. 2d. Left antennula of an adult female, from the outer side; X 28.

Fig. 2e. Right antennula of an adult female, from above; X 27.

Fig. 2f. Left antennula of an immature .specimen, from the outer side; X 28.

Fig. 2g. Left maxiUula of a female, from below; X 58.

Fig. 2h. Left copulatory organ, unrolled and seen from behind; X SO. li. inner lobe; Im. median
lobe; p^ spine-shaped process; p"". lateral process.

Fig. 2i. Major distal part of the inner lobe of the same organ, from behind; X 143.

Fig. 3. Nyctiphanes australis G. O. Sahs.

Left antennula of the adult male, from the outer side; X 22.

Right antennula of the same male, from above; X 22.

Left antennula of the adult female, from the outer side; X 27.

Right antennula of the same female, from above; X 24.

Left copulatory organ, mirolled and seen from behind; X 58. Im. median lobe; p*.

Fig.

3a.

Fig.

3b.

Fig.

3c.

Fig.

3d.

Fig.

3e.

lateral process,

•Albatross" K.\ .

.S< lii^cilMiiJa. I'liitL- (i.

Jl.J.lIansi:ii dcJ

l.Tlti/tantj/K/dtz corntitu Jlh\,/ i.i.mi,,./ '. V. .\'i/,tiplmiies ^implecc lUM.

c>. X. auxtiiilCy H.o.s.

ZX.MoOti- sc.

PLATE 7.

PLATE 7.

Fig. 1. Nyctiphanes simplex H. J. Hansen. Young.

Fig. la. Anteriorpart of a young specimen measuring 7 mm. in lengtli, from above; X 33. The
setae of left antennula omitted.

Fig. lb. Left antennula of the specimen shown in the preceding figure, from the outer side; X 48.

Fig. 2. Euphausia eximia H. J. Hansen.

Fig. 2a. Anterior part of the body of an adult male, from above; X 14. The setae on left an-
tennula omitted.

Fig. 2b. Peduncle of left aptennula of an adult male, from the outer side; X 25.

Fig. 2c. Major part of the peduncle of right antennula of a male, from above; X 25.

Fig. 2d. Distal part of second joint of the peduncle of right antennula of another specimen, a
female, from above; X 27.

Fig. 2e. Left copulatory organ, unrolled and seen from behind; X 47. p-. terminal process; p'.
proximal process; p*. lateral process.

Fig. 2f. Inner lobe of left copulatory organ of another specimen, from the inner side; X 50.
Lettering as in fig. 2e.

Fig. 2g. Median lobe of left copulatory organ of a large specimen, from the inner side; X 42. p*.
lateral process.

Fig. 3. Euphausia recurva H. J. Hansen.

Fig. 3a. Anterior part of the body of an adult male, from above; X 23. The setae on left an-
tennula omitted.

Fig. 3b. Left antennular peduncle of an adult male, from the left; X 39.

Fig. 3c. Major part of the peduncle of right antennula of an adult male, from above; X 36.

Fig. 3d. Left antennular peduncle of an adult female from Lat. 34° 50' S., long. 25° 30' E., from
the outer side; X 25.

Fig. 3e. Major part of the peduncle of right antennula of the adult female from Lat. 34° 50' S.,
long. 25° 30' E., from above; X 22.

Fig. 3f. Left copulatory organ, unrolled and seen from behind; X 77.

Fig. 3g. Distal part of the terminal process of the organ shown in fig. 3f, from behind; X 140.

Fig. 3h. Terminal process of left organ of another male, from the inner side; X 130.

Fig. 3i. Terminal part of the proximal process of the organ shown in fig. 3f, from behind; X 150.

Fig. 3k. Terminal part of the proximal process of the left organ of another male from Sta. 4576,
from behind; X 150.

Fig. 31. Proximal process of left copulatory organ of a male from Lat. 34° 50' S., long. 25° 30' E.,
from behind; X 80.

Fig. 3m. Terminal part of the proximal process .shown in fig. 31, from behind; X 150.

Fig. 3n. Terminal part of the proximal process of left copulatory organ of another male from Lat.
34° 50' S., long. 25° 30' E., from behind; X 150.

Fig. 4. Euphausia diomedeae Ortmann.

Fig. 4a. Anterior part of the body of a male from Sta. 4721, having the rostral plate strongly
expanded and the rostrum short; from above; X 15.

Fig. 5. Euphausia pacifica H. J. Hansen.

Fig. 5a. Anterior part of a slightly more than half-grown specimen, from above; X 19.
Fig. 5b. Terminal part of the proximal joint with the basal part of second joint of right antennular
peduncle of the specimen shown in fig. 5a, from above; X 50.

' Allwlross " Kx.

Schi-'iipoilii. I'l.ili' "

H.J. Ilan sen. d^U. .

I Ni/ctlphanes sinvplex HJH.fl/Kuni/) V Eii/'liiiusia ejcimia H.JH.

J i' veourva HJ.H. 4 K liiomrdea Ortm. S E. pacificii H.JH.

TXift^Uer sc.

PLATE 8.

PLATE 8.

Fig. 1. Euphausia brevis H. J. Hansen.

Fig. la. Anterior part of the body of a male, from above; X 32.

Fig. lb. Left antennular peduncle of a male, from the outer side; X 47.

Fig. Ic. Major part of right antennular peduncle of a male, showing the terminal part of first
joint with its lobe, and the whole second joint, from above; X 47.

Fig. Id. Left copulatory organ, unrolled and seen from behind; X 87.

Fig. le. Proximal process of the organ shown in the preceding figure, from behind; X 150.

Fig. If. Inner lobe of left copulatory organ of another male, seen from the inner side; X 141.

Fig. Ig. Distal part of the terminal process of the lobe exhibited in fig. If, seen from the inner
Bide and a little from in front; X 141.

Fig. 2. Euphausia gibba G. O. Sars.

Fig. 2a. Left antennular peduncle of a male, from tlie outer side; X 25.

Fig. 2b. Left copulatory organ, unrolled and seen from behind; X 52. p^. terminal process; p'.
proximal process; p^ lateral process; hn. median lobe, with its finger-like distal part.

Fig. 3. Euphausia distinguenda H. J. Hansen.

Fig. 3a. Anterior part of the body of a male, from above; X 20. The setae on left antennula
omitted.

Fig. 3b. Anterior part of the body of a male, from the left side; X 17.

Fig. 3c. Left autenimlar peduncle of the same male, from the left side; X 35. p. ear-hke process
at the distal outer upper angle of second joint.

Fig. 3d. Major part of right antennular peduncle of a male, showing the distal part of first joint
and the whole second joint, from above; X 35. p. ear-like process at the distal outer upper angle of
second joint.

Fig. 3e. Left copulatory organ, unrolled and seen from behind; X 77.

Fig. 3f. Proximal process, p'., and median lobe with the lateral process; p'., of left copulatory
organ of another specimen, seen from the inner side ; X 90.

Fig. 4. Euphausia lamelligera II. J. Hansen.

Fig. 4a. Anterior part of the body of a male, from above; X 23. 1. movable lamella from second
joint.

Fig. 4b. Anterior part of the body of a male, from the left side; X IS.

Fig. 4c. Left antennular peduncle of a male, from the outer side; X 38.

Fig. 4d. Right antennular peduncle of a male, from above; X 36. 1. movable lamella from the
end of second joint. The setae omitted.

Fig. 4e. Inner and median lobes of left copulatory organ, seen from the inner side; X 84. p'.
terminal process; p^ proximal process; p"". lateral process.

"Allvilross" K.N.

Si.-lii»(ipo(la. I'lali' K.

h ^

4<i^

. 1. Kupliiiuxia fir.-ni.K H..I.H. i. K . ./Ihba <:.H.\: .i. E. disliiu/u.iuUt lU ii
ILJIfans.;, del. * ''' '•>"••■"{'/'■'" "'"'■

Z.V.milcr s,-.

PLATE 9.

PLATE 9.

Fig. 1. Euphausia lamelligera H. J. Hansen.
Fig. la. Left copulatory organ, unrolled and seen from behind; X 84.

Fig. 2. Euphausia gibboides Ortmann.

Fig. 2a. Anterior part of the body of a male, from above; X 12. The setae on left antennular
peduncle omitted.

Fig. 2b. Anterior part of the body of a male, from the left side; X 10. Setae on the antennula
omitted.

Fig. 2c. Left antennular peduncle of same male, from the outer side; X 21.

Fig. 2d. Right antennular peduncle, excepting the major part of third joint, of a male, from above;
X20.

Fig. 2e. Left copulatory organ, unrolled and seen from behind; X 34. a. protruding, triangular,
acute tubercle from the median lobe; p^. terminal process; p'. proximal process; p*. lateral process.

Fig. 2f. Distal part of the proximal process of the same organ, from behind; X 95.

Fig. 2g. Left copulatory organ almost in the natural position of another male, from the inner

side; X 34. Lettering as in fig. 2e.

Fig. 2h. Distalpart of the proximal process of the organ shown in fig. 2g, from the inner side; X95.

Fig. 3. Euphausia mucronata G. O. Sars.

Fig. 3a. Anterior part of the body of a male, from above; X 13. The setae on left antennula
omitted.

Fig. 3b. Anterior part of the body of a male, from the left side; X ^. Setae on the left an-
tennula omitted. The frontal plate too obtuse.

Fig. 3c. Left antennular peduncle of the specimen shown in fig. 3b, from the outer side; X 23.

Fig. 3d. Right antennular peduncle of a male, from above; X 22. Most of the setae omitted.

Fig. 3e. Left copulatory organ, unrolled and seen from behind; X 46. p-. terminal process; p^
proximal process; p*. lateral process; p^. additional process.

Fig. 3f. Pro.ximal process of the organ shown in fig. 3e, from behind; X 80.

Fig. 3g. Inner and median lobes of left organ of another male, seen from the inner side; X 57.
Lettering as in fig. 3e.

Fig. 4. Nematoscelis microps G. O. Sars.

Fig. 4a. Anterior part of an adult male, from above; X 9.
Fig. 4b. Anterior part of an immature male, from above; X 9.
Fig. 4c. Anterior part of an adult female, from above; X 9.

Fig. 4d. Anterior part — the majority of the antennular peduncles omitted — of another adult
female in order to show the anomalous rostrum, from above; X 9.

' .\ Ilia I loss " \]x .

S.;lii,-o|.<i.Ja I'lal.' 'J

1 Fiifjliausia lamelli^era, lUH 2 E^ihboiJcs Orim .V E nutcfoiitild COS.

^ Xernatoxcfl IS niicr-ofix U.O.S.

KJKanscn d^l. TXMolUr so.

PLATE 10.

PLATE 10.

Fig. 1. Nematoscelis microps G. O. Sars.

Fig. la. Left maxiUa of a female, from below; X 33. All setae omitted.

Fig. lb. Inner and median lobes of left copulatory organ of an immature male, from behind ; X 83.

Fig. 2. Nematoscelis gracilis H. J. Hansen.
Fig. 2a. Left maxiUa of a female, from below; X 33. All setae omitted.

Fig. 3. Nematoscelis tenella G. O. Saes.

Fig. 3a. Left maxillula of a female, from below; X 40.

Fig. 3b. The distal nearly spiniform seta from the end of the palp of the ma.\illula shown in fig.
3a, from below; X 160.

Fig. 3c. Left maxilla of the same female, from below; X 40.

Fig. 4. Nematobrachion boopis Calman.

Fig. 4a. Left maxiUula of a female, from below; X 26.

Fig. 4b. Left maxilla of the same female, from below; X 26.

Fig. 4c. The inner, the median and the auxiliary lobes of left copulatory organ, unrolled and seen
from behind; X 44. p^ spine-shaped process; p'. terminal process; p\ proximal process; p'. lateral
process; p'. additional process.

Fig. 4d. The inner lobe of the same copulatory organ, seen from the outer side; X 80. The
lettering as in fig. 4c.

Fig. 5. Nematobrachion flexipes (Obtmann).

Fig. 5a. Anterior part of the body of a male, from above; X 12. The setae on left antennula
omitted.

Fig. 5b. Anterior part of the body of the same male, from the left side; X 10.

Fig. 5c. Left antennular peduncle of the same male, from the outer side; X 20.

Fig. 5d. Distal part of second peduncular joint, with the basal portion of third joint of left an-
tennula of a female, from above; X 24.

Fig. 5e. Left maxillula of a female, from below; X 32.

Fig. 5f. Left maxilla of the same female, from below; X 32.

Fig. 5g. The abdominal segments of a female, from the left side; X — ■

Fig. 5h. Left copulatory organ, unrolled and seen from behind; X 45.

Fig. 5i. The inner lobe with its thi-ee processes of left copulatory organ of another male, from
behind ; X 90.

Fig. 5k. The inner lobe shown in fig. 5i, seen from the outer side; X 90. The lettering as on fig.
4c and fig. 4d.

Fig. 51. The distal portion of the proximal process of the lobe shown in fig. 5i, from behind ; X 220.

Fig. 5m. The distal portion of the proximal process of left copulatory organ of a third male, seen
as from the end of the inner lobe; X 220.

Fig. 6. Nematobrachion sexspinosus H. J. Hansen.
Fig. 6a. Left maxillula of a male, from below; X 25. pex. pseudexopod.

Albatross " I'.z.

S<liJi<)|)oila riuli' lO.

/. Kfin<it<>s<-rJix inicrxps s.o.s. 2. N. i/i-<i c-i lix 11.111. .'*. .V t*-rirlltt o.o.s.
4. 2^'ernuU>brcuhton Ooopis CaJnv. J. A', flexipcs Urluv. 0'. S'. j,-ej:si>i iioa-ux JLdll.
ll.J.II,tnsr,i dfl T.y.MolUr J,-

PLATE 11.

Fig.

la.

Fig.

lb.

Fig.

Ic.

of the same r

Fig.

Id.

Fig.

le.

Fig.

If.

Fig.

Ig-

from behind;

Fig.

Ih.

Fig.

li.

Fig.

2a.

Fig.

2b.

PLATE 11.

Fig. 1. Nematobrachion sexspinosus H. J. Hansen.

Anterior part of the body of a male, from the left side; X -r-
Left antennular peduncle of the same male, from the outer side; X 13.
Distal part of second peduncular joint with the basal part of third joint of left antennula
lale, from above; X 20.
Left maxilla of a male, from below; X 25.

The four posterior abdominal segments of a male, from the left side; X |.
Major part of the same segments as shown in fig. le, from above; X 7.
The inner, the median, and the auxihary lobes of left copulatory organ, unrolled and seen
X40.

Inner lobe with its processes of the same copulatory organ, from behind; X 78.
Distal half of the terminal process of the same organ, seen from the outer side; X 80.

Fig. 2. Stylocheiron carinatum G. O. Sars.

Left maxiDula of a female, from below; X 58.

Left maxilla of the same female, from below; X 58.

Fig. 3. Stylocheiron suhmii G. O. Sars.

Fig. 3a. Left eye with stalk of a male, seen with the Ught transmitted and the lower half somewhat
diagrammatic, from the outer side; X 46.

Fig. 3b. Sixth abdominal segment of a male, from the outer side; X 46.

Fig. 4. Stylocheiron longicorne G. O. Sars.

Fig. 4a. Left maxillula of a female, from below; X 42.

Fig. 4b. Left maxilla of the same female, from below; X 42.

Fig. 5. Stylocheiron abbreviatum G. O. Sars.

Fig. 5a. Anterior part of an adult male (from Sta. 4734), from the left side; X scarcely 9. a?.
last peduncular joint of the endopod of the left antenna; V. second left thoracic leg — the distal half
with the chela omitted; mxp. left maxiUiped.

Fig. 5b. Third peduncular joint with both flagella of left antennula of the same male, from the
outer side; X 15.

Fig. 5c. Third peduncular joint with the whole upper flageUum and the major part of the lower
flageUum of the male left antennula shown in fig. a, from above; X 15.

Fig. 5d. Left maxillula of a female from below; X 38. s. the distal spine on the end of the palp
more highly magnified, viz. X 128.

Fig. 5e. Left maxilla of the same female, from below; X 38.

Fig. 5f. The inner and the median lobes of left copulatory organ, unrolled and seen from behind;
X 185. p'. spine-shaped process; p^ terminal process; p'. proximal process; p<. lateral process.

Allwli'o.ss " Kx.

Splilroji.il I.I I'l.ilc II

1. Nenuttobrachion^ sexsptnosus II.iH :,' Sliihuhnron .■.iriii.itinii ,io.s:
J.i.Suhmii a.as 4 S lon^it^rne uCiy ,5 S ,ilil>i-efuiluin a.OS.

H.J. Hansen, d^l .

T.A' Moll^;- .t,-

PLATE 12.

PLATE 12.

Larval Stages of Euphatjsiacea.
Fig. 1. Thysanopoda sp. {T. mnnacanlha Ortmann. aff.).

Fig. La. First Furoilia-stage; length 3.7 mm. The animal, from the left; X 2L mxp. raaxilliped.

Fig. lb. Anterior part of the same larva, from above; X 37. Setae and antenna on the right
side omitted.

Fig. Ic. Posterior part of abdomen with right uropod of the same larva, from above; X 30.

Fig. Id. Posterior part of telson of the same larva, from above; X 80.

Fig. le. Last Furcilia-stage; length 5.0 mm. The animal, from the left side; X 21. mxp.
maxilliped.

Fig. If. Anterior part of the specimen shown in fig. le, from above; X 28. The distal part of
left antennula, right antenna, and most setae omitted.

Fig. Ig. Distal part of telson of the specimen shown in fig. le, from above; X 87.

Fig. 2. Euphausia distinguenda H. J. Hansen.

Fig. 2a. Anterior half of a larva in the last Furciha-stage; from the left; X 35. The animal is
2.8 mm. long.

Fig. 2b. Anterior part of the same specimen, from above; X 49. The setae on right antennula
omitted.

Fig. 2c. Distal part of telson of the same specimen, from above; X 82.

Fig. 3. Nyctiphanes simplex H. J. Hansen.

Fig. 3a. Cephalothorax and the three anterior abdominal segments of a larva in the intermediate
Furciha-stage, from the left; X 26. mxp. maxilliped. The animal is 3.2 mm. long.

Fig. 3b. Anterior part of the same specimen, from above; X 30.

Fig. 3c. Posterior part of abdomen of the same specimen, from above; X 30. Right uropod
omitted.

Fig. 3d. Distal part of telson of the same specimen, from above; X 83.

Fig. 3e. Posterior part of abdomen with left uropod of a larva in last Furcilia-stage, from above;
X 29. The animal is 3.7 mm. long.

Fig. 3f. Distal part of the telson shown in fig. 3e, from above; X 83.

Fig. 4. Pseudeuphausia latifrons G. O. Sars.

Fig. 4a. Anterior part of a larva in a Cyrtopia-stago, from above; X 32. The animal is 3.2 mm.
long.

Fig. 4b. Posterior part of abdomen with right uropod of the same larva, from above; X 32.

Fig. 5. Nematoscelis microps G. O. Sars.

Fig. 5a. Larva in the first Cyrtopia-stage, from the right; X 25. The animal is 3.5 mm. long.
Fig. 5b. Head with eyes and antennulae of the same specimen, from above; X 39.
Fig. 5c. End of telson of the same specimen, from above; X 93.

Fig. 6. Stylocheiron carinatum G. O. Sars.

Fig. 6a. Larva in the intermediate Furciha-stage, from the right; X 30. The animal is 2.8 mm.
(On possible inaccuracies in the figure see page 293).

Fig. 6b. Head with eyes and antennulae of the same specimen, from above; X 46. The setae
omitted.

Fig. 6c. Posterior part of telson of the same specimen, from above; X 140.

Fig. 6d. Cephalothorax and first abdominal segment of a larva in the last Furcilia-stage, from the

right; X 30. The animal is 3 mm. long.

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Date Due

OCT 'i i 1994