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New Brachiopoda
from the

Indian Ocean

G. ARTHUR COOPER

SMITHSONIAN CONTRIBUTIONS TO PALEOBIOLOGY • NUMBER 16

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SMITHSONIAN CONTRIBUTIONS TO PALEOBIOLOGY

New Brachiopoda
from the
Indian Ocean

G. Arthur Cooper

FM 14 1973

SMITHSONIAN INSTITUTION PRESS

NUMBER 16

City of Washington
1973

ABSTRACT

G. Arthur Cooper. New Brachiopoda from the Indian Ocean. Smithsonian Con¬
tributions to Paleobiology, number 16, 45 pages, 1 figure, 8 plates. 1973.—The
collections described in this paper add significantly to the brachiopod fauna.
Most of the specimens were collected on the following cruises of the Woods
Hole Oceanographic research vessel Anton Bruun while participating in the
biological program of the International Indian Ocean Expedition: Cruise 1,
east side of the Indian Ocean and Andaman Sea; Cruise 4B, off the Gulf of Cutch
in the Arabian Sea; Cruises 7 and 8, in the Mozambique Channel and off the
east coast of Africa; and Cruise 9, off the east coast of the Somali Republic. Of
the fifteen species in the Anton Bruun collection, nine are described as new.
Three of the new species represent new genera. In addition to these a fourth
new genus is based on Rhynchonella valdiviae Helmcke from the southern Indian
Ocean, and a rare new species of Argyrotheca is described from the Red Sea.
Species described but poorly figured by W. H. Dali also are discussed and il¬
lustrated in this paper. Available pertinent geographical and ecological data
are recorded and discussed. Although Mediterranean and Atlantic brachiopod
elements have been known from the Indian Ocean, the Anton Bruun collections
produced two genera hitherto found only in Pacific waters.

Official publication date is handstamped in a limited number of initial copies and is recorded
in the Institution’s annual report, Smithsonian Year. SI Press number 4788. Series cover
design: The trilobite Phacops rana Green.

Library of Congress Cataloging in Publication Data.

Cooper, Gustav Arthur, 1902—

New Brachiopoda from the Indian Ocean.

(Smithsonian contributions to paleobiology no. 16)

Bibliography: p.

1. Brachiopoda—Indian Ocean. I. Title. II. Series: Smithsonian Institution. Smithsonian
contributions to paleobiology, no. 16.

QE701.S56 no. 16 [QL395] 591'.08s [595'.32'09165] 72-8960

For sale by the Superintendent of Documents, U.S. Government Printing Office
Washington, D.C. 20402 Price SI.00 (paper cover)

New Brachiopoda
from the
Indian Ocean

G. Arthur Cooper

The current intensified interest in the modern
oceans is leading to a greater knowledge of modern
brachiopods. These have been hitherto regarded as
a rare and insignificant part of the present inverte¬
brate fauna of the oceans. They are abundant in
places in the Arctic seas (Foster 1968) and out¬
number other members of the mega fauna. The
result of these dredgings and studies will greatly
extend our list of recent brachiopod species and
genera.

Although 41 species and 25 genera of brachio¬
pods have been described from the Indian Ocean,
most of these were taken from a few areas. The
collection described herein, mostly collected on
cruises of the Anton Bruun, adds significantly to
the brachiopod fauna. The collection also supplies
information on the little known brachiopods from
the Mozambique Channel and the waters on the
north side of Madagascar. The new discoveries
tend to strengthen the ties of the Indian Ocean
brachiopod fauna to that of the Mediterranean and
parts of the Atlantic, but also indicate some unsus¬
pected connections to the Pacific realm.

Brachiopod localities are widely scattered in the
Indian Ocean. In the northern part the waters
around the Maidive Islands have yielded four gen¬
era and species, but the largest number of brachio¬
pods has been taken from the waters around sev¬
eral islands in the extreme southern part of the

G. Arthur Cooper, Department of Paleobiology, Smithsonian
Institution, Washington, D. C. 20560.

ocean: Prince Edward, Marion, Kerguelen (the
most prolific area), St. Paul, and Heard Islands.
These combined have produced 10 genera and 14
species.

Acknowledgments.— I acknowledge with thanks
the help of Drs. R. E. Grant and M. W. Foster,
who read the manuscript and offered helpful sug¬
gestions.

Places in the Indian Ocean from which brachio¬
pods have been taken and their species are:

KARACHI-ARABIAN SEA

Lingula murphiana Reeve
*L. translucida Dali

BOMBAY

Lingula hians Swainson

CEYLON

Lingula murphiana Reeve
*Discinisca indica Dali

OFF SOUTHWEST TIP OF INDIA

Frenulina ( — Compsoria) alcocki (Joubin)

MALDIVE ISLANDS

Cryptopora maldivensis Muir-Wood
Chlidonophora chuni (Blochmann)

Dyscolia johannis-davisi (Alcock)

Dallithyris murrayi Muir-Wood

SAYA DE MALHA BANK

Rhytirhynchia sladeni (Dali)

Dallithyris murrayi Muir-Wood
* Kraussina gar diner i Dali

1

CjMrMSUNiAF.

INSTITUTION

FEB 14 1973

2

SMITHSONIAN CONTRIBUTIONS TO PALEOBIOLOGY

20° 30° 40° 50° 60° 70° 80° 90° 100“ 110°

Figure 1.—Outline map of the Indian Ocean showing locations of cruises
and their dredging stations that produced brachiopods.

REUNION ISLAND

***Pantellaria gigantia (Deshayes) — Megerlia echinata
Fischer and Oehlert

MAURITIUS ISLAND

*Lacazella mauritiana (Dali)

Dallithyris (?) cernica Crosse
Megerlina pisum (Lamarck)

Megerlia truncata (Linnaeus)

OFF ZANZIBAR

Lingula unguis (Linnaeus)

Leptothyrella ignota Muir-Wood

CHRISTMAS ISLAND

*Thecidellina blochmanni Dali

EAST COAST OF AFRICA

Lingula murphiana Reeve
L. aff. L. exusta Reeve

Cryptopora boettgeri Helmke
Agulhasia davidsoni W. King
Terebratulina abyssicola (Adams and Reeve)
Kraussina natalensis (Krauss)

Megerlina pisum (Lamarck)

K. rubra (Pallas)

south coast of Africa (east of Cape Agulhas)

Agulhasia davidsoni W. King
Terebratulina abyssicola (Adams and Reeve)

T. meridionalis Jackson
Gryphus capensis Jackson
Liothyrella agulhasensis (Helmcke)

Megerlia echinata (Fischer and Oehlert)

Megerlina capensis (Adams and Reeve)

M. striata Jackson
Kraussina cognat a (Sowerby)

K. crassicosta Jackson
K. rubra (Pallas)

*Terebratella rubiginosa Dali

NUMBER 16

3

PRINCE EDWARD ISLAND

Platidia anornioides (Scacchi and Philippi)

MARION ISLAND

Terebratulina meridionalis Jackson

ST. PAUL ISLAND

Crania valdiviae Helmcke
Valdiviathyris quenstedti Helmcke
Megerlina davidsoni (Wlain)

Lioihyrella winteri (Blochmann)

AMSTERDAM ISLAND

Rhynchonella ( z=Striarina) valdiviae Helmcke

KERGUELEN ISLAND

Eucalathis murrayi (Davidson)

Liothyrella winteri (Blochmann)

L. moseleyi (Davidson)

Terebratella enzenspergeri Blochmann
Magellania kerguelensis (Davidson)

HEARD ISLAND

Notosaria pyxidata (Davidson)

OFF NIAS ISLAND, SUMATRA

Terebratulina valdiviae Blochmann

PERSIAN GULF

Terebratulina caputserpentis abbreviata Jackson
Megerlia truncata paucistriata Jackson

♦Described or figured herein.

••Southwest of the Cape of Good Hope, latitude 36°
43' 5", longitude 13° 36' E in Atlantic waters.

***See discussion of this species.

The new material from the Indian Ocean col¬
lected by the Anton Bruun was taken from 31 sta¬
tions in widely scattered groups. Three are from
the Andaman Sea; one from the Arabian Sea; seven
from the Gulf of Arabia near its junction with the
Indian Ocean south and southwest of Cape Guarda-
fui, Somali Republic; twenty from the east coast
of Africa off Natal, Mozambique and the Mozam¬
bique Channel; and two from the Red Sea. Most
of the lots are small and only fifteen species and
genera are represented. Although the entire collec¬
tion is small it includes one genus, Argyrotheca,
hitherto not represented in the Indian Ocean
brachiopod fauna and three new genera. Nine new
species are described from the Anton Bruun ma¬
terial.

In addition to the Anton Bruun material a num¬
ber of species already described from the Indian
Ocean are discussed and figured. These are mostly
species described, but never illustrated by Dali
(1920) and a species described by Joubin but never
illustrated by photographs. New specimens from
the Red Sea are also included.

The species and genera collected by the Anton
Bruun are listed as follows:

CRUISE 1

Station 18A, latitude 07° 34' N, longitude 98° 00' E, at
77 meters in the Andaman Sea off Thailand.

Thaumatosia anomala, new species
Terebratulina species 1
Compsoria species

Station 28A, latitude 11° 52' N, longitude 92° 49' E, at 66
meters off the Andaman Islands, Andaman Sea.

Cryptopora curiosa, new species.

Station 29, latitude 11° 23' N, longitude 93° 31' E, 40-55
meters off the Andaman Islands, Andaman Sea.

Thaumatosia anomala, new species

CRUISE 4B

Station 221A, latitude 22° 32' N, longitude 67° 07' E to
22° 31' N, 68° 05' E, at 57 meters, off the Gulf of Cutch,
east side Arabian Sea.

Discinisca species

CRUISE 7

Station 357B, latitude 29° 11' S, longitude 32° 02' E, 86
meters (37-38 fms) off north Natal, vicinity of Durban,
South Africa.

Terebratulina species

Station 358A, latitude 29° 19' S, longitude 32° 00' E, at
366 meters (200 fms) Durban Bay, South Africa.

Cryptopora boettgeri Helmcke
Agulhasia davidsoni W. King
Gryphus ajricanus, new species
Terebratulina species
Kraussina species

Station 363J, latitude 23° 36' S, longitude 43° 24' E, at
1280 meters, southeastern Mozambique Channel, Tulear,
Malagasy Republic.

Clilidonophora chuni Blochmann

Station 363K, latitude 23° 34' S, longitude 43° 25' E, at
1080-1280 meters, southeastern Mozambique Channel, Tu¬
lear, Malagasy Republic.

Eucalathis fasciculata, new species

Station 371E, latitude 24° 46' S, longitude 35° 20' E, at
132 meters off Mozambique, northeast of Lourenco Marques.

4

SMITHSONIAN CONTRIBUTIONS TO PALEOBIOLOGY

Megerlina species
Compsoria suffusa, new species

Station 371F, latitude 24° 46' S, longitude 35° 18' E, off
Mozambique at 110 meters, northeast of Lourenco Marques.
Terebratulina species
Frenulina cruenta, new species
Compsoria suffusa, new species

Station 371G, latitude 24° 49' S, longitude 35° 13' E, at
73 meters, off Mozambique, northeast of Lourenco Marques.

Cryptopora curiosa, new species

Station 372B, latitude 24° 48' S, longitude 35° 59' E, at
42 meters, off Mozambique, northeast of Lourenco Marques.

Terebratulina abyssicola (Adams and Reeve)

Station 373B, latitude 26° 00' S, longitude 33° 05' E, at
135 meters off Mozambique, at Lourenco Marques.

Compsoria suffusa, new species

Station 390S, latitude 29° 35' S, longitude 31° 42' E, at
138 meters off Durban, South Africa.

Fragment?

Station 391H, latitude 29° 21' S, longitude 31° 35' E, at
57 meters, off Durban, South Africa.

Agulhasia davidsoni King

Station 391J, latitude 29° 21' S, longitude 31° 35' E, at 57
meters, Durban, South Africa.

Agulhasia davidsoni W. King

CRUISE 8

Station 398B, latitude 22° 25' S, longitude 35° 54' E at
740 meters, off Mozambique, off Cabo Sao Sebastiao.

Nipponithyris afra, new species

Station 399B, latitude 22° 30' S, longitude 36° 07' E at 851—
960 meters, off Mozambique, off Cabo Sao Sebastiao, Mozam¬
bique.

Nipponithyris afra, new species

Station 399C, latitude 21° 18' S, longitude 36° 18' E, at
1510-1600 meters off Mozambique, north of Cabo Sao Se¬
bastiao, Mozambique.

Chlidonophora chuni Blochpiann

Station 400C, latitude 20° 30' S, longitude 35° 43' E, at
62 meters, off Mozambique, off Beira.

Terebratulina meridionalis Jackson

Station 401C, latitude 19° 51' S, longitude 36° 21' E, at
62 meters, off Beira, Mozambique.

Compsoria suffusa, new species (?)

Station 403C, latitude 19° 09’ S, longitude 36° 55’ E, at
88 meters, in the Mozambique Channel, off Beira, Mo¬
zambique.

Compsoria species?

Station 403E, latitude 19° 09' S, longitude 36° 55' E, at
88 meters, in the Mozambique Channel, off Beira, Mo¬
zambique.

Compsoria suffusa, new species

CRUISE 9

Station 442, latitude 09° 33' N to 09° 36' N, longitude
50° 09' E to 51° 01' E, at 79 meters at the northeast end of
the Somali Republic.

Frenulina cruenta, new species

Station 444, latitude 09° 36' N to 09° 40' N, longitude
51° 01' E to 51° 03' E, at 80 meters, at the northeast end
of the Somali Republic.

Cryptopora curiosa, new species
Terebratulina species 2
Argyrotheca somaliensis, new species
Frenulina cruenta Cooper, new species

Station 445, latitude 09° 41' N to 09° 43' N, longitude
51° 03' E to 51° 04' E at 65 meters, off the northeast end
of the Somali Republic.

Terebratulina species 2
Cryphus indianensis, new species
Argyrotheca somaliensis, new species
Frenulina cruenta, new species

Station 447, latitude 10° 00' N to 10° 03' N, longitude
51° 15' E to 51° 15' E, at 59-61 meters, off the northeast
end of the Somali Republic.

Cryptopora curiosa, new species
Argyrotheca somaliensis, new species
Frenulina cruenta, new species

Station 453, latitude 11° 11' N to 11° 15' N, longitude
51° 14' E to 51° 12' E at 47-49 meters off northeast end
of the Somali Republic.

Discinisca, new species

Station 463, latitude 11° 24' N to 11° 29' N, longitude
51° 35' E to 51° 36' E, at 75-175 meters (mostly 150 meters)
off northeast end of the Somali Republic.

Terebratulina species
Compsoria species

Station 465, latitude 11° 37' N, longitude 51° 27', at 67-72
meters southeast of Cape Guardafui, Somali Republic.

Cryptopora curiosa, new species
Cryphus indianensis, new species
Frenulina cruenta, new species

RED SEA

From a reef cave, reef Ras Muhammad, southernmost
Sinai Peninsula from a depth of less than 10 meters.

Argyrotheca jacksoni Cooper, new species
Megerlia echinata (Fischer and Oehlert)

NUMBER 16

5

Class INARTICULATA Huxley, 1869
Order LINGULIDA Waagen, 1885
Superfamily LINGULACEA Menke, 1828
Family LINGULIDAE Menke, 1828

Genus Lingula Bruguiere, 1797

Several species of Lingula have been identified
from the Indian Ocean (Muir-Wood 1959:288),
some of uncertain identity but others better known.
Lingula translucida Dali from Java, part unknown,
is identified from Karachi. There are only four
specimens from Karachi and all are larger than
Dali’s types, one of them fully twice as large. Ex¬
cept for the lustrous exterior, the shapes of the
Karachi specimens are not in accordance with those
from Java. The latter are rounded anteriorly
whereas the Pakistan specimens are truncated.
Larger collections from both places will be neces¬
sary in order to settle the true identity of the spe¬
cies. Dali also described a Discinisca from the
vicinity of Bombay. Still another species was taken
by the Anton Bruun (Cruise 9) from off the north¬
east coast of the Somali Republic. An abundance
of specimens was taken and they will be described
by Dr. S. H. Chuang, University of Singapore. Pe-
lagodiscus larvae were reported from the Indian
Ocean (Muir-Wood 1959:287; Helmcke 1940:230).
Geographically this genus is said to be the most
widely spread brachiopod known in the oceans to¬
day (Zezina, 1965). Dali’s species are figured for
the first time herein.

Lingula translucida Dali

Plate 1: figures 10-13; Plate 4: figures 15, 16
Ungula translucida Dali, 1920:264.

Of the two specimens marked as types by Dali,
the larger one, USNM 174003a, is chosen as lecto-
type. The specimens from Karachi, Pakistan, re¬
ferred to this species are shaped differently and do
not appear conspecific. The type is from Java and
that is the only locality information given.

Types.— Lectotype: USNM 174003a; paratype:
USNM 174003b.

Order ACROTRETIDA Kuhn, 1949
Superfamily DISCINACEA Gray, 1840

Family ORBICULOIDEIDAE Schuchert and
Levene, 1929

Subfamily DISCINISCINAE Schuchert and
Levene, 1929

Genus Discinisca Dali, 1871

Discinisca indica Dali
Plate 1: figures 18-25
Discinisca indica Dali, 1920:279.

The collection consists of eleven specimens, four
with parts of the ventral valve in position, the
others consisting of dorsal valves only. Of the four
with ventral valves, one is about twice as large as
the other three and is chosen as lectotype.

The locality is given as Bombay, India.

Types.— Lectotype: USNM 90305b; figured para-
types: USNM 90305a, c, d; unfigured paratypes:
USNM 90305e-k.

Class ARTICULATA Huxley, 1869
Order RHYNCHONELLIDA Kuhn, 1949

Super family RHYNCHONELLACEA Gray, 1848

Rhynchonellida are rare in the Indian Ocean.
Only four genera have been found: Cryptopora,
Notosaria, Rhytirhynchia, and Striarina. The first
is known from two species and a third is added
herein. The second occurs at Kerguelen Island and
was described by Davidson as a variety of Rhyn-
chonella nigricans Sowerby [— Notosaria]. The
third is known from two specimens only and was
originally described as a species of Hemithiris. The
fourth occurs at St. Paul Island where it is known
from several specimens. It was originally described
by Helmcke as Rhyn.chonella valdiviae. The rarity
of Rhynchonellida in the Indian Ocean reflects the
general decline of this group of brachiopods from
the Tertiary into the Recent.

Most of these rhynchonellids occur in water
deeper than 200 meters but Cryptopora has a wide
depth tolerance. One of its species, C. gnomon
(Jeffreys) of the North Atlantic, occurs in very deep

6

water of 3257 meters. Of the two Indian Ocean
species reported herein, C. boettgeri Helmcke is
usually in deep waters but C. curiosa, new species,
lives in water less than 200 meters deep. The other
Indian Ocean species, C. mnldivensis Muir-Wood,
occurs in 933 meters. The deep-sea forms usually
do not have the elaborate deltidial structures seen
on the shallow-water species, C. curiosa and C.
rectimarginata Cooper.

Family CRYPTOPORIDAE Muir-Wood, 1955
Genus Cryptopora Jeffreys, 1869

Cryptopora boettgeri Helmcke

Cryptopora boettgeri Helmcke, 1939:245, fig. 251; 1940:286,

fig. 35.—Muir-Wood, 1959:292.

This species is readily distinguished from C. cu¬
riosa, new species, in its general shape, lack of
capillae on the exterior, and the nodes on the beak
ridges in young specimens. Internally the median
septum is shorter and narrow^at its extremity. Del¬
tidial plates are long and narrow but are set at a
high angle, while the apical plate is very short.
This extends the range of the species considerably
east of its original discovery on the Agulhas Bank.

Locality.— Anton Bruun Cruise 7, station 358A.

Types.— Mentioned specimens: USNM 550350.

Cryptopora curiosa, new species

Plat i: 1: figures 4-6; Plate 2: figures 1-25
Cryptopora sp.— Muir-Wood, 1959:294, pi. 5: fig. 11.

Small, roundly triangular in outline; sides and
anterior margin well rounded; posterolateral mar¬
gins forming an angle of about 90°; lenticular in
profile with the two valves of about equal depth;
anterior commissure rectimarginate or with a very
slight dorsad wave; beak long, nearly straight to
suberect; foramen small, hypothyridid (?); deltidial
plates disjunct but obscure, flared laterally into
thick, rounded wings; apical plate long and thin.
Surface finely and minutely capillate, the capillae
often cancellated by numerous fairly strong con¬
centric growth lines. Shell thin and transparent.
Pedicle thin and moderately long.

Ventral valve unevenly convex in lateral profile,

SMITHSONIAN CONTRIBUTIONS TO PALEOBIOLOGY

the posterior third having the greater convexity and
the anterior third somewhat flattened. Anterior
profile a low, broad, flattened dome with short,
steep sides. Umbonal region narrowly convex, the
convexity dissipating toward midvalve; anterior
slope flat or with a broad, faint sulcus; sides con¬
vex and with gentle slopes.

Dorsal valve evenly and gently convex in lateral
and anterior profiles; umbonal and median regions
moderately swollen; anterior slope slightly inflated;
lateral slopes convex, gently sloping.

Ventral valve interior with strong, vertical den¬
tal plates supporting small, sharp teeth; myo-
phragm poorly developed, low and thick.

Dorsal valve interior with apical margin thick¬
ened and roughened to serve as a cardinal process;
ridges thin and upright, located on the posteroven-
tral edge of the crura; crura moderately long,
slightly outwardly bowed, maniculifer in form but
with flattened tips not strongly serrate. Median
septum short, not reaching the apex, rising at a
steep angle to about midvalve; crest narrow, trun¬
cated; anterior edge forming an elongate S.

Lophophore circinate with long cirri extending
to the shell margin. Setae numerous, very fine.

Measurements in millimeters:

USNM

specimen

Length

Dorsal

valve

length

Maximum

width

Thickness

Apical

angle

550364

3.8

3.0

2.9

1.1

85°

550362

3.0

2.4

2.4

0.7?

o

oo

00

550363a

2.4

1.9

2.0

0.6

o

OO

00

Diagnosis.— Cryptopora with elaborate growths
on the delthyrial margin.

Types.—H olotype: USNM 550364. Figured para-
types: USNM 550360; 550361a, b; 550362; 550363a,
b; 550364,

Localities.— Anton Bruun Cruise 1, station 28A;
Anton Bruun Cruise 7, station 371G; Anton, Bruun
Cruise 9, stations 444, 447, 465.

Comparison.— This species differs from all de¬
scribed Cryptoporas in the elaborate development
of the deltidial region. In outline it is similar to
C. maldivcnsis Muir-Wood (1959) but does not
have a cardinal process like that described by Muir-
Wood, nor does it have the axe-shaped septum fig¬
ured by her. It does not have the strongly serrate
distal end of the crura as noted in C. maldivensis.
Furthermore C. maldivensis has narrow deltidial

NUMBER 16

7

plates and no apical plate if one can judge by the
length of the pedicle and its emergence at the
apex.

Cryptopora curiosa differs from C. boettgeri
Helmcke not only in the aforesaid beak characters
but also in having smooth posterolateral margins.
Helmcke’s species is characterized by a row of nodes
along these margins.

Cryptopora rectimarginata Cooper has elaborate
winglike plates on the delthyrial margins, but they
are much less complicated than those from the
Indian Ocean. The Florida species also has an
apical plate that restricts the pedicle opening.

Family HEMITHYRIDIDAE Rzhonsnitzkaya,

1956

Genus Notosaria Cooper, 1959

Notosaria pyxidata (Davidson)

Rhynchonella nigricans var. pyxidata Davidson, 1880:59, pi.

4: fig. 14; 1887:170, pi. 24: fig. 20.

The illustration of this species in Davidson
(1880) is of a fairly coarsely ribbed shell with low
beak, but the illustrations in 1887 are sufficiently
different to be of a different specimen or species.
The latter illustrations suggest a shell much more
finely ornamented and with a more elongated and
erect beak with larger and more open foramen.
Figure 14c of the first publication showing the lines
that produce an “imbricating appearance” is not
repeated in the second publication.

Through the kindness of Dr. C. H. Brunton and
The British Museum (Natural History) a specimen
was loaned for study. Although the interior details
were not available, the exterior characters of this
specimen were those of Notosaria.

Family BASILIOLIDAE Cooper, 1959
Subfamily BASILIOLINAE Cooper, 1959
Genus Rhytirhynchia Cooper, 1959

Rhytirhynchia sladeni (Dali)

Plate 3: figures 1-4

Henrithyris sladeni Dali, 1910:440, pi. 26: figs. 7-12.

This is a small, smooth rhynchonellid with an¬
terior plication, known from two specimens only

taken by the SeaJark Expedition, 1905. Lectotype
USNM 111086. Cooper (1959:8) made this species
the type of Rhytirhychia.

Striarina, new genus

Plate 2: figures 26-38

Small, transversely triangular to pentagonal; in-
ecjuivalve, the dorsal valve having the greater
depth; anterior commissure broadly uniplicate.
Beak small, nearly straight, with foramen readily
visible; foramen fairly large, hypothyridid; deltid-
ial plates fairly large, disjunct. Surface finely
costellate.

Ventral valve interior with strong, triangular
teeth supported by strong, flaring dental plates;
pedicle collar short. Muscle field slightly thick¬
ened, lying anterior to the delthyrial cavity. Indi¬
vidual muscles not resolvable.

Dorsal valve with broad, deep, corrugated sockets
bounded by moderately strong socket ridges; outer
hinge plates narrow and concave; crural bases mod¬
erately elevated and bounding the outer hinge
plates. Crura short, of the falcifer type, and with
rounded distal extremities. No median septum but
a slender median ridge.

Type-species.— Rhynchonella valdiviae Helmcke,
1940:290, figures 37-39.

Diagnosis.— Finely costellate rhynchonellid with¬
out median septum.

Types.— Holotype: Zoological Museum Berlin
1283. Figured paratypes: USNM 549729a, b.

Locality.— Valdivia station 165, southwest of St.
Paul Island at 672 meters.

Comparison.— In form and ornamentation this
genus is most like Compsothyris but its ornamenta¬
tion is stronger, the crura are of the flacifer type,
whereas those of Compsothyris are of the spinulifer
type. Striarina is not provided with a strong
median septum like that of Compsothyris. The
septum of the latter genus enlarges and thickens
with age and creates a secondary septalium-like
chamber under the cardinalia. This does not take
place in Striarina.

Etymology.— The generic name Striarina is de¬
rived from the Latin “stria,” meaning furrow.

8

SMITHSONIAN CONTRIBUTIONS TO PALEOBIOLOGY

Order Uncertain

Suborder THECIDEIDINA Elliott, 1958

Superfamily THECIDEACEA Gray, 1840

This suborder and superfamily comprise small
cemented forms that are difficult to find. Neverthe¬
less a fair number of them are known. Of modern
genera two are found in the Indian Ocean: La-
cazella and ThecideUina. The former is best known
in modern seas from the Mediterranean, but it is
also known from Atlantic waters off Jamaica and
the Dominican Republic. ThecideUina is much
more widely distributed, as it occurs in the Pacific
Ocean as well as in the Atlantic around the West
Indies. Both genera are rare in the Indian Ocean.
These two genera are commonly found in water
less than 200 meters in depth.

Family THECIDELLINIDAE Elliott, 1958
Genus ThecideUina Thomson, 1915

ThecideUina blochmanni Dali

Plate 8: figures 27-30

ThecideUina blochmanni Dali, 1920:283.—Elliott, in Williams,

1965:589, figs. 742, 743.

This species was listed by Helmcke (1939:216)
in faunas from the Pacific, but the type specimen is
definitely from the Indian Ocean. The type speci¬
men was sent to Dali by Blochmann, who states in
a letter dated September 6, 1911, that it came from
Christmas Island south of Java at 84 meters.

ThecideUina is common about the West Indies
and fairly abundant around a number of islands in
the Pacific: Bikini, Guam, and Eniwetok. It is also
known as a fossil as early as Eocene in the West
Indies and in sediments of the same age in the
Pacific (island of Eua).

Types.— Holotype: USNM 227822.

Family THECIDEIDAE Gray, 1840
Genus Lacazella Munier-Chalmas, 1881

Lacazella mauritiana Dali

Plate 1: figures 7-9
Lacazella mauritiana Dali, 1920:282.

A single specimen from the island of Mauritius
bears the catalog number USNM 173593. The

genus is very rare in the Indian Ocean, and sug¬
gests derivation from the Mediterranean along with
Argyrotheca, Dallithyris, and Pantellaria. No depth
data given.

Order TEREBRATULIDA Waagen, 1883
Superfamily TEREBRATULACEA Gray, 1840
Family TEREBRATULIDAE Gray, 1840

Subfamily TEREBRATULINAE Gray, 1840

Genus Gryphus Megerle von Miihlfeldt, 1811

Gryphus ajricanus, new species
Plate 4: figures 31-38

Small, elongate oval in outline, with the sides
broadly rounded and the anterior margin narrowly
rounded; posterolateral margins forming an angle
of about 74°. Anterior commissure rectimarginate;
beak small, erect; foramen mesothyridid; deltidial
plates conjunct, forming a completely visible sym-
phytium. Surface smooth; shell substance thin and
translucent. Valves unequal in depth, the ventral
valve deeper than the dorsal one.

Ventral valve fairly strongly convex in lateral
profile; narrowly domed in anterior profile with
swollen midregion and short, steep sides; umbonal
and median region swollen; anterior slope moder¬
ately steep.

Dorsal valve fairly evenly and gently convex in
lateral profile; broadly and gently convex in an¬
terior profile with short, steep flanks. Umbonal
region narrowly swollen, the swelling extending to
the inflated median region; anterior slope gentle.

Ventral interior with strong teeth not strutted by
thickening of the subjacent wall; musculature not
impressed strongly enough to differentiate its parts.
Dorsal valve interior with high, thin, somewhat
alate socket ridges and deep sockets; outer hinge
plates deeply concave and very narrow; crura long,
rounded, supporting a thin rounded loop with con¬
cave transverse ribbon, with its rounded apex point¬
ing anteroventrally. Loop in anterior view thin and
concave and having the form of Eucalathis.

Measurements in millimeters:

USNM

.•specimen

Length

Dorsal

valve

length

Maximum

width

Thickness

Apical

angle

550375a

6.5

5.5

4.7

3.7

74°

550375b

6.4

5.0

4.6

?

74°

NUMBER 16

9

Locality.— An ton Bruun Cruise 7, locality 358A.

Diagnosis.—S mall size and conspicuous symphy-
tium with large foramen.

Types.— Holotype: USNM 550375a; figured para-
type: USNM 550375b.

Comparison.— The nearest species in the Indian
Ocean to this one is Gryphus indianensis, new spe¬
cies, which is compared under that species.

This species is assigned to Gryphus because of
the similarity of its cardinalia to those of the com¬
mon Mediterranean genus. The cardinalia of
Gryphus have flallish outer hinge plates that are
not bounded by a marginal ridge along the edge
facing midvalve. This is exactly like the cardinalia
of G. africanus and G. indianensis, new species. Al¬
though the cardinalia of G. africanus are like those
of Gryphus, the beak region is not quite the same.
The beak is sharper and more elongated than usual
in Gryphus. The loop of G. africanus is different
from that of Gryphus in having the transverse rib¬
bon directed dorsally, but otherwise the loops are
essentially the same. The dorsal direction of the
transverse ribbon may be retention of a juvenile
character in the case of G. africanus.

Gryphus indianensis, new species
Plate 4: ficures 17-30

Small, elongate oval in outline, with rounded
sides and maximum width at midvalve; postero¬
lateral margins forming an angle of 60°-75°. An¬
terior margin subtruncate to gently rounded. Valves
unequally deep, the ventral valve deeper. Lateral
commissure with a sigmoidal curve; anterior com¬
missure rectimarginate to very faintly uniplicate.
Beak erect, foramen moderately large, labiate, and
permesothyridid; symphytium partly concealed.
Color white to yellowish white.

Ventral valve moderately convex in lateral pro¬
file, with the most convexity in the umbonal region;
anterior profile a low dome with moderately slop¬
ing sides. Umbonal region narrowly swollen, the
swelling passing into the general convexity at mid¬
valve. Anterior slope gently convex.

Dorsal valve gently convex in lateral profile, with
the maximum convexity just posterior to midvalve;
anterior profile moderately strongly domed, appear¬
ing more so than the ventral valve; umbonal and
median regions moderately swollen; anterior slope
moderately steep and gently convex.

Ventral valve interior with small teeth, rein¬
forced by thickening along the valve wall only in
old shells; muscle scars not impressed even in old
specimens. Dorsal valve interior with small cardi¬
nal process in the young, but thick and wide in old
specimens; socket ridges strong, outer hinge plates
rudimentary. Loop short, descending branch solid
and rounded in section; crural processes bluntly
pointed, the points almost overhanging the trans¬
verse ribbon, which is narrow and without a
median fold. Transverse ribbon directed dorsally.

Measurements in millimeters:

USNM

specimen

Length

Dorsal

valve Maximum
length width

Thickness

Apical

angle

550366a

11.3

9.6

8.7

6.5

72 o

550366b

11.1

9.7

8.4

7.3

72°

550366c

11.0

9.6

7.8

6.4

68°

550366c!

9.8

8.5

7.0

5.6

64°

550366c

9.0

7.5

6.6

5.0

73°

Locality

.—Anton

Bruun

Cruise

9, stations 445,

-165.

Diagnosis.— Small, elongate oval Gryphus, with
short loop and narrow transverse band in the loop.

Types.— Holotype: USNM 550366a. Figured
paratypes: USNM 550366b, c. Unfigured para-
types: USNM 550366d, e.

Comparison.— Gryphus indianensis is much larger
than G. africanus, although it is a rather small shell
for the genus. The beaks are quite similar, but
that of G. indianensis is more incurved. Details of
the interior more readily separate the two, because
G. indianensis has a fairly large cardinal process,
and the inner hinge plates are poorly developed.
Moreover, although the loop is directed dorsally,
it has a small and very narrow median fold that is
directed ventrally.

In the main part of the Indian Ocean no small
terebratuloid is known. Muir-Wood (1959:288)
records Dallithyris murrayi and D.? cernica (Crosse)
and Liothyrella moselyi (Davidson) and L. winteri
Blochmann. Each of these is a very large brachio-
pod and totally unlike G. indianensis externally.
Dallithyris, however, has cardinalia similar to those
of Gryphus. The nearest species for comparison
with G. indianensis is G. capensis Jackson taken
from off Capes St. Francis and St. Blaize in 75-125
fathoms (137-229 meters) at the south end of Af¬
rica. Gryphus capensis is an elongate form, nar¬
rower than G. indianensis, somewhat larger with a

10

SMITHSONIAN CONTRIBUTIONS TO PALEOBIOLOGY

narrower loop, with more elongated outer hinge
plates, nearly parallel sides, and with a very nar¬
row transverse ribbon in the loop which is “arched
ventrally” (Jackson, 1952:16). Gryphus capensis is
also provided with a thin, dorsal median ridge
which is not present in G. indianensis and rare in
this group of brachiopods.

Davidson (1880:29, pi. 2: figs. 5, 6) describes and
figures under the name of Terebratula vitrea minor
(not Philippi 1836) two specimens of a small tere-
bratulicl, possibly referable to Gryphus. These
specimens are compared with G. capensis by Jack-
son (1952:17), who rejects them from that species
because they are broader than his species. David¬
son’s specimens are considerably larger (15 mm
long by 13 mm wide) and much rounder than G.
indianensis. Although Davidson’s figures do not
give precise detail, the loop also appears different,
not having so broad outer hinge plates as G. in¬
dianensis. Davidson’s specimens are assigned by
Helmcke (1940:258) to his species, Liothyrina agul-
hasensis. The narrow form of the loop and the flat-
tish outer hinge plates suggest Gryphus rather than
LiothyreUa [ —Liothyrina ] as the genus of
Helmcke’s species.

Family CANCELLOTHYRIDIDAE Thomson,

1926

Subfamily CANCELLOTHYRIDINAE Thomson,

1926

Genus Terebratulina D’Orbigny, 1847

Terebratulina abyssicola (Adams and Reeve)

Terebmtula abyssicola Adams and Reeve, 1850:72, pi. 21:

fig. 5.—Reeve, 1860: pi. 4: fig. 14.

T radiota Reeve, I860: pi. 3: figs. la-b.

Terebratulina caput-serpentis Lin. septentrionalis Couthouy
Davidson, 1880:33.

Terebratulina abyssicola (Adams and Reeve).—Davidson,
1886:37, pi. 5: fig. 54,-Dall, 1920:307.-Jackson, 1952: pi.
11; pi. 1: figs. 5-7.—Helmcke, 1938:239; 1940: (29) 243.

T radiata Reeve.—Davidson, 1886:34, pi. 6: figs, 9-14.—Dali,
1873:180.

T africana Turton, 1932:260, pi. 70: fig. 1842.

All of the specimens of this species are fragmen¬
tary, none showing any important details of the
interior. Several of the fragments have the dark
color bands so distinctive of the species. The An¬

ton Bruun specimens extend the range of the
species far to the north. The depth at which speci¬
mens described by Helmcke ranged was from 80
meters to 106 meters, but those collected by the
Anton Bruun are from only 42 meters.

Locality.— Cruise 7, station 372B.

Terebratulina meridionalis Jackson
Plate 3: figures 43-45

Terebratulina meridionalis Jackson, 1952:13, pi. 1: fig. 8.

Specimen small, rather widely oval in outline,
with well-rounded sides and somewhat truncated
anterior margin; maximum width at midvalve;
posterolateral margins forming an angle of 82°.
Beak nearly straight, truncated; foramen small for
the genus, submesothyridid; deltidial plates small,
disjunct. Anterior commissure rectimarginate. Sur¬
face costellate, costellae strong on the umbones and
lateral shoulders, but becoming weak and unclear
on the more anterior parts of the shell.

Ventral valve slightly deeper than the dorsal
valve, fairly strongly convex in lateral profile, with
maximum convexity posterior to midvalve; anterior
profile gently but somewhat narrowly convex with
rather long, gently sloping sides. Umbonal and
median regions swollen; anterior somewhat flat¬
tened.

Dorsal valve gently convex in lateral profile and
most convex posteriorly; anterior profile similar to
that of the ventral valve, but not quite so deep.
Umbonal and median regions swollen, but anterior
somewhat flattened.

Interior with a stout loop, having a very broad
transverse band and stout, anteriorly pointed de¬
scending element. Crura rounded and rather thin.

Measurements in millimeters:

USNM

specimen

Length

Dorsal

valve

length

Maximum

width Thickness

Apical

angle

550367

10.2

9.9

8.2 4.7

82°

Diagnosis.— Terebratulina with evanescent costel¬
lae.

Types.— Figured hypotype: USNM 550367.

Locality.— Anton Bruun. Cruise 8, locality 400C.

Discussion.— The identification of this specimen
with T. meridionalis Jackson is based on the fact
that the costellae are evanescent, a point empha-

NUMBER 16

11

sized by Jackson, and that the proportions of the
Anton Bruun specimen are almost identical to those
of T. meridionalis. It is suggested that the speci¬
men here described is a young individual of Jack-
son’s species. If this be true, the range of T.
meridionalis is extended a considerable distance to
the north and east.

Terebratulina species 1

Plate 3: figures 32-35

Small, oval in outline, with rounded sides and
narrowly rounded anterior margin; posterolateral
margins forming an angle of 72°. Beak obliquely
truncated; foramen large. Surface multicostellate,
costellae appearing in four generations, closely
crowded, subangular posteriorly, but flattening and
crowding anteriorly, three costellae in 1 mm at the
anterior margin. Posterior costellae beaded, the
beads appearing as nodes on the posterior lateral
margins and slopes. Anterior commissure gently
uniplicate.

Ventral valve moderately convex in lateral pro¬
file, but flatly convex in anterior profile; antero¬
median half flattened to form an ill-defined sulcus.
Dorsal valve with about the same depth as the ven¬
tral valve, flatly convex in lateral profile, but with
anterior profile similar to that of the opposite valve.
Umbonal region moderately swollen, the swelling
continuing to the anterior margin to form a low
fold.

Dorsal valve interior with high, stout socket
ridges, median roughened area serving as a cardinal
process and slight ridgelike outer ridges that inter¬
lock with the troughs in the ventral teeth. Crura
stout, rounded in section; loop very stout with a
broad, thick ring, protuberant strongly on its an-
terodorsal side.

Measurements in millimeters:

USNM

Dorsal

valve

Maximum

Apical

specimen

Length

length

width Thickness

angle

550370a

6.7

5.7

5.2 3.0

72°

Locality.— An.ton Bruun Cruise 1, station 18A.
Diagnosis.— Small T erebratulina with closely
crowded costellae.

Types.— Figured specimens: USNM 550370a, b.
Discussion.— The size of the specimens here dis¬

cussed suggests that they are immature, but the
stout, thick character of the loop and the adult ap¬
pearance of the ornament indicate a mature speci¬
men. Nevertheless, it has not been possible to iden¬
tify the species with any established Indian Ocean
terebratulinas or any described East Indian species.
Inasmuch as the species is represented by so few
specimens (about 9 very small individuals), besides
the figured ones, it seems best not to name this
T erebratulina.

Terebratulina valdiviae Blochmann was taken
from 366 fathoms on the west side of Sumatra about
7 degrees north of the above Anton Bruun, locality.
Terebratulina species 1 is from shallow water (77
meters) but appears not to be related to Bloch-
mann’s species. I have compared closely young
stages of T. valdiviae with T. species 1, but the
former is a very wide and rounded species, so that
its outline at a stage comparable to that of the
Anton Bruun specimens is much more rounded and
the ornament more beaded.

Terebratulina species 2

Plate 3: figures 5-8

Small, elongate oval in outline, with the maxi¬
mum width slightly below the midline; anterior
margin narrowly rounded; posterolateral extremi¬
ties forming an angle of 65°—70°. Beak straight,
foramen large; deltidial plates vestigial. Anterior
commissure fairly strongly uniplicate. Surface cos-
tellate, costellae narrowly rounded, widening an¬
teriorly, but remaining strong and elevated
throughout their length; three costellae to the mil¬
limeter at the anterior margin.

Ventral valve moderately convex in lateral pro¬
file, with the maximum convexity in the posterior
half and the anterior half flattened; anterior pro¬
file flatly convex, with the median region slightly
sulcate; umbonal and postlateral regions convex;
sulcus originating on the umbonal region, widen¬
ing and deepening anteriorly to become moderately
deep.

Dorsal valve of about equal depth to the ventral
valve, moderately convex in lateral profile, with
the maximum convexity in the posterior half; an¬
terior profile moderately domed. Umbonal region
moderately swollen, the swelling extending to the
anterior margin to form a broad fold.

12

SMITHSONIAN CONTRIBUTIONS TO PALEOBIOLOGY

Ventral valve with elongated teeth, having nar¬
row slits between the tooth and shell wall; pedicle
collar short and thick. Dorsal valve with strongly
elevated socket ridges; cardinal process a rough¬
ened surface on the posterior margin; crura short,
stout, flattened; loop squat and wide, with the
crural process thin and delicate and not quite com¬
pleting the ring. Anterior band fairly thick.

Measurements in millimeters:

USNM

specimen

Length

Dorsal

valve

length

Maximum

width

Thickness

Apical

angle

550369a

7.2

6.6

5.5

3.2

67°

550369b

6.7

5.9

5.2

2.7

67°

Locality.— Anton Bruun Cruise 9, stations 444,
445.

Types.— Figured specimens: USNM 550369a, b.

Discussion.— Compared with Terebratulina val-
diviae Blochmann of the same size as Terebratulina
species 2, the former species is a much more
rounded shell with strongly rounded sides and
front. Terebratulina species 2 is strongly triangu¬
lar. Terebratulina abyssicola (Adams and Reeve)
has a similar outline to that of Terebratulina val-
diviae and is quite unlike Terebratulina species 2.
The sculpture of Terebratulina species 2 is com¬
pletely unlike that of Terebratulina meridionalis
Jackson, the costellae of which become obsolescent
anteriorly.

Terebratulina caputserpentis emarginata Risso is
similar in shape to Terebratulina species 2, but
somewhat more convex in its lateral margins and
much more strongly costate in the younger parts,
which correspond in size to the Indian Ocean speci¬
men. Inasmuch as these Indian Ocean specimens
are clearly young, they are not named.

Subfamily EUCALATHINAE Muir-Wood, 1965

Genus Eucalathis Fischer and Oehlert, 1890

Eucalathis fasciculata, new species

Plate I: figures 26-28

Very small, elongate oval in outline, with a nar¬
row hinge and expanding anterior; sides divergent
to the anterolateral extremities; anterior margin
broadly rounded; posterolateral angles obtuse;
maximum width in the anterior third; lateral

commissure straight; anterior commissure faintly
uniplicate. Interarea very narrow; foramen wide,
triangular, no trace of deltidial plates. Surface
fascicostate, primary costae about 18, broad and
subangular with a median elevation, flanked by
one or two subsidiary costae on the anterior and
anterolateral margins. Posterior and median por¬
tions of shell nearly smooth, but costae showing
faintly. Costae faintly beaded where intercepted
by growth varices. Posterolateral margin with a
few low, spinelike projections.

Ventral valve gently and unevenly convex in lat¬
eral profile, the posterior moderately convex, the
median region flattened, and the anterior region
sloping gently to the anterior margin; anterior
profile forming a broad gently convex dome, with
long, gently sloping sides. Umbonal region nar¬
rowly convex, the convexity not extending beyond
midvalve; sulcus originating near midvalve, shallow
throughout and widening anteriorly; sulcus occu¬
pied by two major costae.

Ventral interior with small teeth but other de¬
tails obscure.

Dorsal valve evenly and gently convex, with the
maximum convexity at midvalve; anterior profile
a gently convex, well-rounded dome; umbonal re¬
gion narrowly convex, the convexity emphasized by
two small, flattened ears; fold low and inconspicu¬
ous, originating near midvalve and continuing the
umbonal convexity anteriorly as it widens in that
direction; fold defined by three median costae.
Flanks somewhat swollen and moderately steep.
Dorsal valve interior with stout socket ridges
welded to the posterior wall; notothyrial area thick¬
ened, its posterior roughened to form a wide cardi¬
nal process; crura short, with blunt crural
processes. Loop short, bluntly triangular, with de¬
scending processes wide and stout, meeting medi¬
ally in a small angular ribbon. Other details not
clearly visible.

Measurements in millimeters:

Dorsal

USNM

valve

Maximum

Apical

specimen

Length length

width Thickness

angle

550371

2.9 2.6

2.6 1.1

85°

Locality.— Anton Bruun Cruise 7, station 363k.
Diagnosis.— Small Eucalathis with shallow me¬
dian sulcus and low fold and with broadly fasci¬
costate ornament.

NUMBER 16

13

Types.— Holotype: USNM 550371.

Comparison.— Eucalathis is rare in the Pacific or
Indian Ocean. It is better known from the north¬
ern and central areas of the Atlantic, where sev¬
eral species have been named. Two new species,
much larger and differently ornamented than the
one from the Indian Ocean, have been found in
the Antarctic. Eucalathis murrayi Davidson found
between Fiji and Kermadec Islands is the one de¬
scribed species from the Pacific. It differs from E.
sulcata in larger si/c and stronger and less nu¬
merous costae.

The Atlantic species are: E. tuberata (Jeffreys)
from off Gibralter, E. crgastica Fischer and Oehlert
off Spain, and E. trigona (Jeffreys) from off the Por¬
tugal Coast. Dali (1920:323) identified E. murrayi
from off Havana, Cuba, but it is clearly not this
species. Eucalathis tuberata is a small species, but
still larger than E. fasciculata. It is not so widely
triangular and is more numerously costate than the
Indian Ocean species. Another species larger and
more closely costate than E. fasciculata is E. er-
gastica. This species does not have the obsolescence
of the costae on the umbonal regions as is so con¬
spicuous in the Indian Ocean specimen. Eucalathis
trigona is a small, thin-shelled species, more dis¬
tantly costate than E. fasciculata and having a loop
more rounded anteriorly than usual in the genus.
Dali (1920:324) questions the generic affinities of
E. trigona.

All of the species of Eucalathis so far described
come from water having a depth greater than 1000
leet and some are from very deep water. Eucala¬
this tuberata has been taken from 2738 meters.
Eucalathis fasciculata is no exception, as it comes
from more than 1280 meters.

Subfamily CHLIDONOPHORINAE Muir-Wood,

1959

Genus Chlidonophora Dali, 1903

Chlidonophora chuni Blochmann

Plate 8: figures 17-26

Tercbratula sp.-Alcock, 1894:139; 1902:283.

Terebrotulina Chun, 1900:404, 405, 2 figs.

Chlidonophora chuni Blochmann in Chun, 1903:435, 436, 2

figs.-Blochmann, 1906:695, 696,-Dall, 1920:323.-Thomson,

1927:182.—Helmcke, 1938:234, figs. 169, 233; 1940:239, fig.

6.—Muir-Wood, 1959:296, pi. 4: figs. 5-7.—Licharew, 1960:

118, fig. 3.—Muir-Wood in Williams, 1965:H8I0, figs.

686g, h.

This interesting little brachiopocl has been well
described by Helmcke (1940:239) and Muir-Wood
(1959:296); consequently there is little to add ex¬
cept a description of the loop and cardinalia which
have hitherto not been figured. Muir-Wood de¬
scribed the lophophore, but did not figure the
cardinalia and loop. One of the most interesting
features of this species is its pedicle. This has been
figured several times (Helmcke 1940:241; and Muir-
Wood, pi. 4). The pedicle is very long and frays
distally into long strands that penetrate the shells
of Globigerina and other foraminifers of the ooze
on which it lives. This contrasts strongly to the
pedicle of Chlidonophora incerta (Davidson), the
only other known species, the pedicle of which
frays immediately on emergence from the foramen,
to produce a radiating effect.

The loop of C. chuni contrasts strongly to that
of C. incerta. The former has stout, convergent
descending branches and a fairly long, tapering
region anterior to the crural processes, which are
low and blunt. The band anterior to the crural
processes is narrowly pointed, whereas that of C.
incerta is rounded. The lophophore which is
strongly and densely spicular is described by Muir-
Wood as subplectolophus. The numerous spicules
account for the fact that the loop when dried main¬
tains its shape and does not shrivel. Muir-Wood’s
figures (1959, pi. 4: figs. 6, 7) of the lophophore
show this to perfection.

The specimens taken by the An.ton Bruun ex¬
tend the range of this species from the Maidive
Islands near which it had hitherto been confined
to about 20 degrees of latitude to the south and
over 30 degrees of longitude to the west.

Chlidonophora incerta (Davidson) occurs in the
Atlantic at or near the equator, in the Carribean
reoion, off the West Indies, and in the Gulf of
Mexico. Like its relative in the Indian Ocean it
inhabits deep water.

Types.— Hypotypes USNM 550439; 550440; para-
type USNM 110436a.

Locality.— An ton Bruun Cruise 7, station 363j;
Cruise 8, station 399C.

14

Subfamily AGULHASIINAE Muir-Wood, 1965
Genus Agulhasia W. King, 1871

Agulhasia davidsoni W. King

Plate 4: figures 1-14

Agulhasia davidsoni W. King, 1871:111, pi. 11: figs. 1—7.—

Thomson, 1927:182.—Helmcke, 1940:242, fig. 7.—Jackson

1952:9.

Terebratulina ( Agulhasia ) davidsoni W. King.—Davidson,

1886:36, pi. 7: figs. 1-5.

Since it was first described, the shell anatomy of
this interesting little brachiopod has not been ex¬
amined in detail. The Anton Bruun dredged two
lots of specimens from the vicinity of Durban,
which extends the range of the species farther to the
north and east than hitherto reported. Although
specimens are numerous in one of the lots ( Anton
Bruun Cruise 7, station 391H), not one of them
was alive when collected and none preserves the
loop intact. Most of the specimens are thick shelled
and water worn, so that details of the exterior orna¬
ment are not well preserved. The thickness of the
test on the other hand emphasizes some of the in¬
terior characters.

Description of the exterior need not be repeated
as this has been adequately described. The most
interesting features of the genus are elongation and
consequent complication of the beak and the loop,
which seem to have been inaccurately described
and figured. These characters separate the genus at
once from Terebratulina, which was at one time
thought to be its adult expression.

The beak is greatly elongated and attenuated.
The deltidial plates margin each side of the delthy-
rium and are so broad and convex as mistakenly to
suggest that they are the interareas of a palintrope
(Jackson, 1952:10). Between the deltidial plates
and extending from the apex almost to the umbo
of the dorsal valve is an apical plate, called a pedi¬
cle collar by Thomson (1927:182). This evidently
grew pari passu with the development of the elon¬
gated beak, and restricted the pedicle opening. It
also formed a pedicle tube or groove for a probable
long, thin pedicle. This plate does not seem to be
the same sort of pedicle collar that occurs in many
terebratulids. It is akin to the apical plate seen in
Cryptopora (see before) and in Hemithiris (Cooper,
1959:46, pi. 3: fig. 16). It restricts the hypothyridid
foramen to a small opening for a thin pedicle.

SMITHSONIAN CONTRIBUTIONS TO PALEOBIOLOGY

The dorsal valve of Agulhasia is like that of
Terebratulina except for the cardinal process,
which is narrow and has a long shaft and lobate
myophore. The cardinalia are not buttressed by a
stout median septum as stated by Thomson (1927:
182). The supposed septum is the shaft of the
cardinal process, which does not extend anterior
to the notothyrial cavity. The myophore consists
of a thick median lobe with median crest and two
thin lateral lobes separated by narrow, slitlike de¬
pressions, which are the places of insertion of some
of the muscles, probably the diductors. The socket
ridges are very thick and are built up as walls paral¬
lel to the shaft of the cardinal process. In very old
shells a thickening runs for a short distance an¬
terior to the socket ridge just under the crural
base. The crura are short and the loop very slen¬
der and delicate for an otherwise rather obese shell.
The crural processes are short, sharply pointed,
and slender. The slim descending branches of the
loop converge anterodorsally and are united in a
slender transverse loop, the point of which is di¬
rected ventrally. The loop is thus quite like that
of Chlidonophora or Eucalathis, except that the
loop of the latter two is generally more triangular
anteriorly. The loop of Agulhasia is more elon¬
gate oval than triangular. The loop does not flare
laterally, with a medially folded transverse ribbon,
as given in King’s drawing which has been repeated
in many publications (Muir-Wood in Williams,

1965:H812; Thomson 1927:183).

Agulhasia is mostly a shallow-water brachiopod.
Davidson (1886:36) reports it from 45—60 fathoms
from the Agulhas Bank, South Africa. The Na¬
tional Museum has specimens from the same place
and depth (USNM 549456). The Anton Bruun
material from Cruise 7, Station 358A, at 366 meters,
Durban Bay, is an exception. The specimens from
this locality are all dead shells and may not have
lived at this greater depth. Specimens from Sta¬
tions 391J, at 57 meters, are in much shallower
water than the above occurrences.

Types.— Figured hypotypes: USNM 549456,
550408a-d.

Superfamily TEREBRATELLACEA W. King,

1850

Family THAUMATOSIIDAE, new family

Terebratellacea with amphithyrid foramen and

NUMBER 16

15

schizolophus lophophore but no loop, septum, or
other calcareous support.

Thaumatosia, new genus

Minute to small, quadrate to subcircular in out¬
line; hinge wide; anterior commissure rectimargi-
nate to broadly and slightly sulcate; foramen large,
amphithyridid; interareas fairly broad; ornament
consisting of broad, poorly defined costae; color
yellowish to pinkish white, with salmon to crim¬
son stripes marking the costae. Shell substance
coarsely punctate.

Ventral valve interior with small, curved, hook¬
like teeth without supports, underlying the small
palintropes; pedicle attachment occupying the apex
and marked by a median groove; median septum
low, extending to beyond midvalve; adductor scars
small, located between proximal end of septum and
callosity; diductors flabellate, inserted in median
groove at apex.

Dorsal valve interior without loop or other
brachial supports; sockets broad and deep, formed
by broad fulcral plates; socket ridges erect, short,
and thick and buttressed by short, thick supporting
plates, continued anteriorly as low ridges for a short
distance.

Type-species.— Thaumatosia anomala, new spe¬
cies.

Diagnosis.— Small punctate Orthis- like shells
without any calcified lophophore support.

Comparison.— The form and articulation of this
genus are reminiscent of some of the Orthacea. The
nearest modern relatives appear to be Ampithyris
and Plcitidia, which have an amphithyridid fora¬
men. Thaumatosia differs from Amphithyris in its
outer form, costation, ventral median septum and
character of the articulation. Amphithyris is not
provided with the tooth and socket arrangement
characteristic of Thaumatosia. The latter does not
have a median septum in the dorsal valve like that
of Amphithyris. Platidia resembles Amphithyris
more closely than it does Thaumatosia because it is
not costate but internally it is unlike either genus.
The dorsal valve of Platidia has a small loop and
is thus completely unlike that of Thaumatosia.

Gruynia is a minute and little known brachiopod
which suggests relationship to Thaumatosia but it
is not amphithyrid and some specimens show a loop
condition signifying relationship to Argyrotheca.

Etymology.— The generic name Thaumatosia is
derived from the Greek word “thaumatos,” mean¬
ing a marvel.

Thaumatosia anomala, new species

Plate 5: figures 20-37; Plate 8: figure 31

Minute to small, quadrate to subcircular in out¬
line, with a straight hinge not quite equal in width
to the maximum valve width that is near midvalve;
sides gently rounded; anterior margin variable,
truncated in the young but slightly to moderately
einarginate in the adult. Interarea short, orthocline
to faintly anacline. Surface marked by broad, low
costae numbering about 12 in the adult. Costae
variable, indistinct in some young and old shells.
Color banding ranging from salmon to crimson,
the bands corresponding to the costae.

Ventral valve gently convex in lateral profile,
with the maximum curvature near midvalve; an¬
terior profile a broad, low dome with flattened and
gently sloping sides. Beak broad and ill defined.
Anterior half to third forming a broad sulcus or
flattened area.

Dorsal valve gently convex in lateral profile and
broadly but flatly convex in anterior profile; an¬
terior half with a broad sulcus, deeper than that of
the pedicle valve and forming the anterior emar-
gination of some specimens. Pedicle opening large,
triangular; umbonal region somewhat narrowly
swollen but losing the swelling in the sulcus. Flanks
flatly convex.

Interior as defined for the genus.

Measurements in millimeters;

USNM

specimen

Length

Dorsal

valve

length

Hinge

width

Maximum

width

Thickness

550347a

2.6

2.1

2.6

3.3

1.5

550347b

2.1

1.5

1.8

2.4

0.9

550347c

2.0

1.9

2.1

2.5

0.8

Diagnosis.— Small costate Thaumatosia.

Types.— Holotype: USNM 550347c. Figured para-
types; USNM 550347a, b, d-f; 550376.

Locality.— Anton Bruun Cruise 1, stations 18A,
29.

Comparison.— This is the only known species of
this genus. The radial costation of Thaumatosia
separates it from smooth or capillate Platidia and
smooth Amphithyris.

16

Suborder TEREBRATELLINIDAE Muir-Wood,

1955

Superfamily TEREBRATELLACEA W. King,

1850

Family MEGATHYRIDIDAE Dali, 1870
Genus Argyrotheca Dali, 1900

Argyrotheca somaliensis, new species

Plate 5: figures 1-19

Small, grayish yellow in color, hemipyramidal in
profile, and transversely subrectangular in outline.
Hinge less than, equal to, or forming the widest
part. Sides gently rounded and anterior broadly
rounded, with the anterior margin strongly to mod¬
erately scalloped. Anterior commissure with a
slight wave toward the ventral valve; foramen large,
fairly regular with deltidial plates absent or rudi¬
mentary. Surface costate, costae thick and rounded,
appearing in three generations with six primary
costae at the beak of the ventral valve. First in¬
tercalation appearing near the beak (1 mm), but
the second intercalated generation appearing near
the anterior margin. Costae numbering 11 on the
pedicle valve.

Ventral valve hemipyramidal in lateral profile,
but moderately convex in anterior profile and
forming a broad, blunt V. Fold indistinct, formed
by the median three costae; flanks moderately steep.
Interarea strongly apsacline.

Dorsal valve flatly convex in anterior and lateral
profiles; sulcus narrow and shallow, occupied by a
median costa of the first intercalated generation for
about half its length. Flanks gently swollen; pos¬
terolateral extremities flattened. Primary costae
four.

Ventral interior with long, narrow teeth; apical
plate small and posteriorly confined; median sep¬
tum slender, low and extending from apical plate
nearly to the anterior margin. Dorsal valve with a
small, roughened cardinal process at the apex;
notothyrial region thickened and forming a broad
trough leading to the median septum; crura broad
and flat, stout; crural process horizontal, long and
pointed; loop a slender ribbon free of the valve
floor only at the posterolateral portion and the part
immediately adjacent to the septum. Medium sep¬
tum thick, rising to a crest at about one-thircl the

SMITHSONIAN CONTRIBUTIONS TO PALEOBIOLOGY

length from the anterior margin; anterior slope of
septum steep and marked by three serrations.
Measurements in millimeters:

USNM

.specimens

Length

Dorsal

valve

length

Hinge

width

Mid¬

width

Thickness

550344

3.9

3.0

3.1

3.0

?

550345a

4.0

3.0

3.8

4.5

2.3

550346a

3.5

2.9

4.0

4.0

2.1

Localities.— Anton Bmun Cruise 9, station 444,
445, and 447.

Diagnosis.— Small coarsely costate Argyrotheca,
rectangular in outline with well-formed delthyrium
and scalloped anterior margin.

T ypes. —Holotype: USNM 550346a. Figured para-
types: USNM 550344, 550345a, 550372. Unfigured
paratypes: USNM 550345b, 550346b.

Comparison.— Of Mediterranean species this one
is most like Argyrotheca cordata (Risso), but nu¬
merous differences are at once apparent. The Medi¬
terranean species is generally a smaller one than
that from the Indian Ocean and the costation is
stronger, the costae being strong, broad, and only
gently swollen and forming a strongly scalloped
anterior. The scalloping is much broader and the
individual lobes less numerous than those of Argy¬
rotheca somaliensis. Furthermore the Mediter¬
ranean species is often rose colored, especially at
Lhe anterior part, while A. somaliensis is pale yel¬
low.

All of the Caribbean species are larger, differ¬
ently ornamented or gaily colored and thus in
strong contrast to A. somaliensis. One Caribbean
species, A. schrammi (Crosse), is similar in size but
is generally red, wide-hinged with angular lateral
extremities, large apical plate, a short, high median
septum in the ventral valve, and a more strongly
crested and more numerously serrated median sep¬
tum in the dorsal valve.

The Mediterranean and Caribbean are the two
regions in which Argyrotheca is most abundant.
The genus is not well known in the Pacific but has
been taken from the waters of Australia: A. austra¬
lis (Blochmann); and off Tasmania: A. ?nayi
(Blochmann). Argyrotheca in a diminutive form
is found around Bikini and Eniwetok. Argyrotheca
somaliensis is completely different from both of the
austral species and those from Bikini and Eni¬
wetok, as it is much larger and strongly costate.
Argyrotheca lowei Hertlein and Grant, from the

NUMBER 16

17

Gulf of California, is another Pacific species. It is
about the same size as A. somaliensis, but has
broader and less costae, a wider and very irregular
delthyrium, a different loop, and the median sep¬
tum of the ventral valve is shorter.

Argyrotheca jacksoni, new species

Plate 3: figures 9-13

Small, pentagonal in outline, length and width
nearly equal; sides nearly straight; anterior margin
slightly concave medially; anterolateral angles nar¬
rowly rounded; beak elongated; interareas well de¬
veloped; apical angle 93°, deltidial plates narrow,
margining the delthyrial edge; surface costate,
costae numbering five on a side, with an obscure
median one. Anterior margin scalloped; punctae
coarse.

Ventral valve moderately convex in lateral pro¬
file and broadly and moderately convex in anterior
profile; most convex in the umbonal region. Sul¬
cus shallow and narrow, extending from the beak
to the anterior margin; flanks moderately convex,
but with steep slopes to the posterolateral extremi¬
ties.

Dorsal valve flatly convex in lateral profile,
broadly and flatly convex in anterior profile, with
the median region slightly carinate and with long,
gentle lateral slopes. Median sulcus originating an¬
terior to the umbo, shallow, widening anteriorly to
occupy about one-fourth the valve width. Median
costa occupying sulcus low and obscure. Median
septum present; lophophore schizolophous.

Measurements in millimeters:

USNM

specimen

Length

Dorsal

valve

length

Width

Hinge

width

Thickness

">50432

3.3

2.9

4.5

4.4

2.2

Locality.— Red Sea, reef Ras Muhammad, south¬
ernmost Sinai Peninsula.

Diagnosis.— Small yellow-gray Argyrotheca, with
rectangular dorsal valves with about 11 costae.

Types.— Holotype: USNM 550432.

Comparison.— This species does not compare fav¬
orably with any of those described from the Medi¬
terranean. It is more strongly costate than A. cistel-
lula (Searles Wood) and less emarginate anteriorly.
It is most like A. cuneata (Risso) in size, but its
ornament is more subdued, its beak more elon¬

gated, and with narrower interareas on each side of
the delthyrium; the anterior margin is not con¬
spicuously scalloped like that of A. cuneata, and
finally it does not have the delicate pink or red
wash between the costae as in A. cuneata. It is
unlike any of the argyrothecas described from the
West Indian region, where members of the genus
are plentiful. Finally it is entirely unlike the Argy¬
rotheca somaliensis from the Indian Ocean de¬
scribed herein. That species is much larger and is
much more coarsely sculptured than the Red Sea
form.

The species is named for Dr. Jeremy Jackson,
who presented the specimens.

Family KRAUSSINIDAE Dali, 1870
Genus Kraussina Davidson, 1859

Kraussina gardineri Dali
Plate 3: figures 36-42

Kraussina gardineri Dali, 1910:440, pi. 26: figs. 3-6.

Large for the genus, outline roundly elliptical to
crudely rhombic; widest at midvalve; sides some¬
what narrowly rounded; anterior very narrowly
rounded; posterolateral margins forming an angle
of 98°. Valves unequally deep, the ventral valve
having the greater depth; beak broad and trun¬
cated; foramen large, semicircular; hinge wide, but
narrower than the maximum valve width; inter¬
areas very narrow; deltidial plates lacking. An¬
terior commissure slightly uniplicate. Surface
multicostate, costae narrowly rounded to subangu-
lar, numbering on the ventral valve 18 at the pos¬
terior margin, 35 to 40 at the anterior margin, but
very unclear at the posterolateral extremities;
costae increasing by bifurcation and intercalation
in three or four generations and forming fascicles
at the margin. Growth varices about eight in num¬
ber with four concentrated at the anterior margin.

Ventral valve moderately convex in lateral pro¬
file and moderately domed in anterior profile, be¬
ing somewhat narrowly convex medially but with
flattened, fairly steeply sloping sides. Umbonal re¬
gion swollen, the swelling continuing anteriorly to
the front margin to form a narrow but poorly
defined fold. Flanks gently convex and with steep
slopes.

18

SMITHSONIAN CONTRIBUTIONS TO PALEOBIOLOGY

Dorsal valve gently convex with the maximum
curvature near midvalve and the anterior part
flattened; anterior profile broadly and gently con¬
vex, with a slight median sulcation. Umbonal
region flatly convex; median region slightly swollen;
sulcus originating anterior to midvalve, shallow
and poorly defined, but producing a slight nasuti-
form. Flanks gently convex, posterolateral ex¬
tremities flattened.

Ventral valve interior with small teeth, not
buttressed by thickening on the shell wall. Pedicle
collar short. Dorsal valve interior with thick socket
ridges and broad, open hinge trough containing
impressions of the muscles; cardinal process broad;
median ridge low, not extending to the hinge
trough; brachidium consisting of a Y-shaped process,
with a thin proximal blade bearing an expanded
plate directed anteriorly.

Measurements in millimeters:

Dorsal

USNM

x'alve

Maximum

Apical

specimen

Length

length

width

Thickness angle

111085

23.9

21.8

23.0

12.3

o

00

Oi

Locality

.-Haul

C 1,

153 to

123

fathoms

[=280-225 meters] south of Saya de Malha Banks,
Indian Ocean.

Diagnosis.— Large grayish multicostate Kraussina.

Types.— Holotype: USNM 111085.

Comparison.— As pointed out by Dali, this species
differs from Kraussina rubra (Pallas) in its dull
gray color, in different sculpture, and in the bra¬
chial apophyses, which are more slender and deli¬
cate than those of K. rubra. Dali’s figure (1910:
pi. 26. fig. 3) of the interior of K. gardineri suggests
a somewhat old shell obesely thickened. The draw¬
ing is misleading when compared with the photo¬
graphic illustration. Kraussina usually occurs in
water less than 200 meters deep, but K. gardineri
is an exception.

Kraussina species
Plate 1: FIGURES 14-17

Very small, pedicle valve measuring 4 mm long
by 3 mm wide and oval in outline. Sides broadly
rounded but anterior narrowly rounded. Anterior
commissure rectimarginate. Foramen corresponding
to delthyrium, margined by rudimentary deltidial
plates. Surface partially costellate, the costellae

strongest on the flanks, but indistinct on midvalve
from umbo to anterior margin.

Ventral valve gently convex in both profiles.
Dorsal valve gently convex, less so than the ventral
valve, and with the anterior half flattened to form
an ill-defined sulcus.

Ventral valve interior with small teeth, but a
broad and long pedicle collar which is anteriorly
excavated. Dorsal valve with small socket ridges and
a wide, unthickened hinge trough, median septum
not extending to the hinge trough, low and bearing
two plates forming a Y with the septum. Anterior
end of septum bearing a small conical node, a sec¬
ond node appearing anterior to the median septum.

Locality.— Anton Bruun station 358A.

Types.— Figured specimen: USNM 550377.

Discussion.— The cardinalia of this little speci¬
men are most like those of Kraussma rather than
Mergerlina in not having the median septum meet¬
ing the hinge trough and in the form of the
brachidium. This structure in this specimen is
probably a remnant in a worn specimen because
of the shortness of the prongs of the Y and the
lack of any points. The specimen is somewhat
suggestive of the young of K. rubra (Pallas) in its
subdued ornament, but the interior is not well
enough preserved for a good comparison.

Genus Megerlia W. King, 1850

Megerlia echinata (Fischer and Oehlert)

Plate 1: figures 1-3; Plate 3: figures 27-31

Muhlfeldtia echinata Fischer and Oehlert, 1890:73; 1891:90,

pi. 7: figs. 13a-g.

?Morrisia gigantea Deshayes, 1863:37, pi. 5: figs. 9-11.
Pantellaria echinata (Fischer and Oehlert).—Dali, 1920:336.—

Jackson 1921:48.

Megerlia echinata (Fischer and Oehlert) .-Atkins, 1961:89-94.

Although not strictly from the Indian Ocean the
specimen figured on Plate 1 herein occurs southwest
of the Cape of Good Hope. Morrisia Deshayes
[=MegerIia echinata (Fischer and Oehlert)], was
reported from Reunion Island in the Indian Ocean.
This is another Mediterranean and Atlantic type
found in the Indian Ocean. As presently identified
this species enjoys an ususually wide range. It is
known Irom off Cape Bojador, West Africa, off the
Barbados, off Sand Key, Florida, and off New South
Wales, Australia.

NUMBER 16

19

Dali (1920:336) refers the Morrisia gigantea
Deshayes to Pantellaria echinata but Jackson (1921:
48) believes that it belongs to his new variety of
Muehlfeldtia (=Megerlia) truncata paucistriata
found in the Persian Gulf. The specimen referred
by Dali to Pantellaria echinata, which comes from
New South Wales, is a more strongly ornamented
shell than the specimen from off the Cape of Good
Hope. Atkins (1961) gives convincing arguments
for the assignment of Dali’s Pantellaria to Megerlia
because of similarity of shell form and pedicle
opening to those of Megerlia.

Specimens referred to this species from the Red
Sea were presented by Dr. Jeremy Jackson. They
appear to be young, as indicated by the incom¬
pletely developed loop of one of them. This has no
ring and the descending branches have not yet
developed. Both specimens are distorted from an
inhospitable growth position. One of them is de¬
veloped laterally while the other is greatly elon¬
gated. The former specimen exhibits obscure radial
costellae, but the other has its ventral valve com¬
pletely covered by encrusting algae, and the
opposite valve gives no indication of radial
ornament.

Measurements in millimeters:

USNM

specimens

Length

Width

Thickness

550431a

3.8

5.5

2.5

550431b

5.4

3.8

2.9

Locality.— The specimens were taken from the
Reef Ras Muhammad, southernmost Sinai Penin¬
sula, Red Sea, a piece of coral from the roof of a
cave in the reef. They were associated with
Argyrotheca jacksoni, new species.

The Red Sea specimen is referred to Mergerlia
echinata because of its strong, linearly arranged
granules on the exterior, the distorted form, and
the large foramina in both valves.

Types.— Figured hypotypes: USNM 173834,

550431a.

Genus Megerlina Deslongchamps, 1884

Megerlina species
Plate 8: figure 11

A single but broken specimen is referred to this
genus. The ventral valve is nearly complete and

measures 7 mm in length and 8 mm wide. The
surface is faintly and distantly costellate. The
foramen is large and distorted, and bounded later¬
ally by narrow interarea. The deltidial plates are
vestigial. The teeth are small, and the pedicle collar
is broad and slightly elevated anteriorly. Radial
rows of low, rounded nodes mark the anterior
third of the ventral interior.

The dorsal valve is badly broken, but the cardi-
nalia and a part of the brachidium remain. The
socket ridges are thick and bear a small triangular
projection near their distal extremity. This inter¬
locks with the trough behind the tooth. The outer
hinge plates are concave, thick, and unite with the
median ridge, which is thick and extends to about
midvalve. The outer hinge plates are excavated
anteriorly. The brachidium consists of two thick,
inclined plates forming a V on the anterior ex¬
tremity of the median ridge. Attached on the side
of each branch of the V is a short ribbon extending
posteriorly and bearing an inward facing hook at
its distal end. The hook is now broken from the
specimen, but was visible before the crushed flesh
was cleaned away.

Locality.— Anton Brnun Cruise 7, station 37IE.

Types.— Described specimen: USNM 550378.

Discussion.— This specimen was compared with
an example of M. natalensis (Krauss) (USNM
64336) from South Africa (detailed locality not
known). The two specimens agree in ornamenta¬
tion, but the identified specimen is more strongly
sulcate. The beak characters agree, but details of
the interior vary considerably. The identified speci¬
men has a much more highly developed brachidium
than the Anton Brnun specimen, the prongs of the
V being long and the lateral projections extending
from their sides much shorter and directed pos-
teromedially. The difference of the interiors makes
it impossible to identify these as the same species.

Jackson (1952:30-33) places M. natalensis
(Krauss) in the synonymy of M. pisum (Lamarck)
on the grounds of external similarity, but confesses
that the interior of M. pisum is not known and
might be different from that of M. natalensis.
Inasmuch as this information is lacking, it is im¬
possible to tell the relationship of the Anton Bruun
specimen to M. pisum.

20

SMITHSONIAN CONTRIBUTIONS TO PALEOBIOLOGY

Family DALLINIDAE Beecher, 1893
Subfamily NIPPONITHYRIDINAE Hatai, 1938

Nipponithyris Yabe and Hatai, 1934

Plate 3: figures 14-20

Nipponithyris Yabe and Hatai, 1934:588.—Hatai, 1940:334;

in Williams, et al., 1965:H842.

Small, rounded pentagonal in outline; valves
unequal in depth, pedicle valve deeper than the
dorsal valve; anterior commissure varying from
slightly sulcate to fairly strongly sulcate; beak
elongated, suberect to erect; foramen small, meso-
thyridid; deltidial plates conjunct, large, and thick.
Surface smooth, except for concentric growth incre¬
ments. Densely and minutely punctate.

Ventral valve with thick teeth but no dental
plates, the delthyrial cavity often thickened by
adventitious shell; muscles partly lodged in the
delthyrial cavity, partially anterior to it; vascula
media strong posteriorly.

Dorsal valve with ponderous and thick socket
ridges and deep, wide sockets. Cardinal process
small, semielliptical to triangular, confined to the
apex. Outer hinge plates obscured by adventitious
tissue; crural bases narrow; inner hinge plates
forming a V-shaped chamber united with the
median septum; loop in late campagiform to early
terebrataliiform stage, with slender descending
branches and thickened hood. Median septum thick,
and elevated to point of attachment with cross¬
pieces of loop, low to almost obsolete anteriorly.
Muscle scars moderately strongly impressed.

Type —Nipponithyris nipponensis Yabe and
Hatai, 1934:588.

DiAGNosis.-Small sulcate brachiopods with elon¬
gate beak, loop in early to medial terebrataliiform
stage.

Comparison.— Externally Nipponithyris suggests
Magadina or FrenuHna but the loops of both of
these are quite different. The loop of Magadina is
in an earlier developmental stage compared to Nip¬
ponithyris and has an incomplete ring. FrenuHna
on the other hand in its final or frenuliniform stage
has the hood so resorbed as to produce a window in
the ascending elements, which is a trend toward
the Laqueus loop (see below). In Nipponithyris
the campagiform loop is resorbed anteriorly along
the junction of the ascending and descending

branches, thus trending toward the terebrataliiform
loop stage which is its adult aspect.

Nipponithyris off the coasts of Japan has a fairly
broad toleration of depth as it is found in waters
ranging from 86 meters to 454 meters (Hatai,
1940:336, 337).

Nipponithyris afra, new species
Plate 7: figures 1-21

Small; outline pentagonal; biconvex, sides
rounded; anterior margin truncated; shell thick
and solid; posterolateral margins forming an angle
of 90° to 100°. Anterolateral extremities narrowly
rounded; lateral commissure straight; anterior com¬
missure strongly sulcate. Beak erect; foramen small,
mesothyridid; deltidial plates large, conjunct, ex¬
posed. Surface smooth; periostracum pale yellowish
brown; shell white.

Ventral valve unevenly convex, the maximum
convexity in the umbonal region; anterior profile
moderately domed and with gently sloping sides;
umbonal region somewhat narrowly swollen, the
swelling extending to the anterior margin and
forming a poorly defined fold; lateral slopes gently
flattened.

Dorsal valve evenly and gently convex in lateral
profile; anterior profile broadly and flatly domed,
with the median region slightly depressed and the
sides sloping gently. Umbonal region gently swol¬
len; sulcus originating on the umbonal region,
widening and deepening anteriorly but never very
deep; sulcus at anterior shallow, but forming a
short, broad tongue. Flanks gently swollen.

Ventral valve interior with thick teeth buttressed
by a thickening that restricts the delthyrial cavity;
muscle field deeply impressed; diductors long and
narrow; pallial marks moderately impressed, pri¬
mary trunk leading from the diductor scars strong;
lateral trunk weak.

Dorsal valve with cardinalia so thickened that
differentiation of plates is difficult; hinge trough
very narrow and occupied posteriorly by a long,
narrow cardinal process; socket ridges thick; crural
bases buried; crura short, with small, pointed
crural processes; loop campagiform; descending
branches slender, but broadening anteriorly to sup¬
port a thick rounded hood, with a posterior-facing
reentrant on the transverse band. Attachments of

NUMBER 16

21

the loop to the septum short, converging posteri¬
orly; septum rising to a crest at midvalve, where
the loop is attached but descending anteriorly to
extend almost to the anterior margin; posterior
segment of loop stout, high. Pallial trunks fairly
strongly impressed.

Measurements in millimeters:

Dorsal

USNM

valve

Maximum

Apical

specimens

Length

length

width

Thickness

angle

550342a

10.7

9.4

10.0

5.7

93°

550342b

10.6

9.0

9.6

5.5

93°

550343a

12.0

10.3

11.4

6.2

99°

550343b

11.6

10.2

10.7

5.5

99°

Locality.— Anton Briiun Cruise 8, stations 398B
and 399B.

Diagnosis.— Small pentagonal Nipponithyris, with
fairly strong anterior sulcation.

Types.— Holotype: USNM 550343a. Figured para-
types: LTSNM 550342a-d, 550343b, c. Unfigured
paratypes: 5500342, 550343.

Comparison.— The nearest relative of this species
occurs in Japanese waters. Nipponithyris afra differs
from N. nipponensis Yabe and Hatai in being
rounder in the adult form, in having a more
strongly sulcate anterior commissure and a more
compact loop, with stouter adult attachments of
the loop to the septum.

Family LAQUEIDAE Thomson, 1927*

Subfamily FRENULININAE Hatai, 1938

Following the lead of Thomson (1927:242),
Frenulina and its related genera as described below
are placed in the Laquaeidae because of the laquae-
iform development of their loops. In a discussion
of “Kingena” alcocki Joubin, Thomson showed that
the loop figured by Joubin was of Laqeues type,
but he hesitated to transfer the species to Laqueus
because of its disjunct deltidial plates. He states,
“If it proves to belong to the Frenulina stock,
representing a more advanced loop stage in that
stock, then it will be necessary to transfer Frenulina
to the Laqueinae, since its further development of
loop is to the Laqueus and not to the TereUratalia
type.”

Frenulina cruenta and Compsoria suffusa as well

•Translated name, from Thomson (1927:256) .

as “Kingena” alcocki have a laquaeiform loop and
are clearly related to Frenulina, representing an
advanced condition of the latter genus. Actually the
largest specimens of Frenulina sanguinolenta
(Gmelin) in the national collection have a loop in
about the same stage of development as specimens
of Compsoria. Furthermore, the condition of the
deltidial plates in Frenulina sanguinolenta is vari¬
able, some specimens having conjunct deltidial
plates (USNM 337580), but others with the plates
disjunct. This is also true of specimens of Comp¬
soria. Consequently, the condition of the deltidial
plates offers no hindrance to the transfer of Frenu¬
lina and allies from the Dallinidae to the Laquei-
dae.

The form of the loop of Frenulina usually called
the frenuliniform stage is actually not the final
stage of the loop of Frenulina. Large specimens of
Frenulina have the loop in the condition of that
of F cruenta, in which the descending branches
are attached to the septum by rather long lamellae
and the descending and ascending branches are
attached by a fairly thin ribbon. In the loop usually
figured as the frenuliniform stage there are no
transverse attachments of the loop to the septum,
the ascending branches being approximate and at¬
tached directly to the loop. This stage might rather
be called preterebrataliiform stage than frenulini¬
form, which would eliminate any confusion caused
by using a member with laqueiform loop ten¬
dencies. In other words the so-called frenuliniform
stage in the development of the clallinid loop
should be dropped from the sequence which then
would be: precampagiform, early campagiform,
campagiform, early terebrataliiform, terebratali-
iform, early dalliniform, and finally dalliniform.

Genus Frenulina Dali, 1894

Frenulina sanguinolenta (Gmelin)*

Plate 6: figures 1-3; plate 8: figures 12-16

Figures of Frenulina sanguinolenta (Gmelin)
have been introduced for comparison with the loop
of Compsoria and the color pattern of Frenulina
cruenta Cooper. A growth series of the Frenulina
is figured to show that the frenulina stage could

♦For complete synonymy, see Davidson, 1886—1888:108 (un¬
der Megerlea sanguined) and Hatai (1940:327) .

22

SMITHSONIAN CONTRIBUTIONS TO PALEOBIOLOGY

not have produced the terebratliiform loop which
is supposed to follow. The laquaeiform character
of the loops of Compsoria and Frenulina become
clear.

Types.— Figured specimens: USNM 292546a, b,
d, f and g; 337539a; 342205.

Frenulina cruenta, new species

Plate 6: figures 4-45

Small to medium, longitudinally subelliptical in
outline, with rounded sides; maximum width at
midvalve; posterolateral margins forming an angle
of 75°-82°; anterior margin somewhat narrowly
rounded. Lateral commissure straight; anterior com¬
missure rectimarginate. Beak truncated, erect to
slightly incurved; foramen large, slightly labiate,
mesothyridicl; deltidial plates small, conjunct in the
adult. Surface smooth; color bands consisting of a
median and two lateral bands of elongate, red
dashes or cuneiform-like markings, those of the
median band tending to become solid red at the
anterior.

Ventral valve greater in depth than dorsal valve,
moderately convex in lateral profile with maximum
convexity near midvalve; anterior profile somewhat
narrowly domed and with steeply sloping sides.
Beak short, umbonal region narrowly convex, con¬
vexity continuing to midvalve; anterior slope some¬
what flattened.

Dorsal valve gently and moderately convex in
lateral profile, broadly and moderately convex in
lateral profile with moderately sloping flanks.
Median region swollen; anterior slope moderately
steep. Umbonal region slightly swollen and under¬
lying the deltidium of the opposite valve.

Ventral valve interior with small, thick teeth
buttressed by short, thick, receding dental plates
separated from the valve wall by moderately deep
cavities. Floor of delthyrial cavity thickened.
Muscle field anterior to delthyrial cavity, deeply
impressed in old shells; diductor scars elongate.

Dorsal valve interior with strong socket ridges
and deep sockets; outer hinge plates narrow; crural
bases narrow; inner hinge plates not developed or
vestigial in adults. Septum thin, elevated, strong,
joining two recumbent plates at the posterior that
unite with and buttress the crural base, well marked
in the young but somewhat obscured in old adults,

but usually defined by more or less distinct cavities.
Cardinal process small, transverse. Adult loop in
an advanced frenuliform condition: the descend¬
ing and ascending lamellae thin and delicate; the
ascending lamellae uniting with a moderately broad
hood which is attached to the junction of the
descending branches with lateral attachments to
the septum by moderately broad lamellae. Crura
short, crural processes bluntly pointed.

Measurement in millimeters:

USNM

specimens

Length

Dorsal

valve

length

Maximum

width

Thickness

Apical

angle

550339a

17.8

15.3

15.4

11.8

00

o

550339b

16.0

13.9

14.0

10.0

81°

550339c

15.4

13.5

12.6

9.6

82°

550339d

13.5

12.0

11.7

8.2

81°

550339c

8.0

7.2

7.5

3.9

o

OO

Locality —Anton Bruun Cruise 9, stations 444,
445, 447, 465.

Diagnosis.— Large Frenulina with advanced loop
and three blood red bands of irregular color
blotches on a mat of cream white.

Types— Holotype: USNM 550339a. Figured para-
types: USNM 550339b, d, g-j; 550340a. Unfigured
paratypes: USNM 550339 c, e, f.

Comparison.— The only species of this genus
available for comparison are Frenulina sanguino¬
lenta (Gmelin) and “Frenulina” alcocki (Joubin).
Frenulina cruenta is much larger than the former,
usually paler in its yellowish parts, the color band¬
ing is more intense, and the bands are better de¬
fined. In addition slight differences occur at the
beak and in the cardinalia as well as the loop. The
deltidial plates of F. cruenta are conjunct, whereas
those of F. sanguinolenta are usually disjunct. The
cardinalia of F. sanguinolenta are usually charact¬
erized by a fairly strong development of inner hinge
plates in the adult, which are lacking from the
Indian Ocean species. The latter also has sessile
plates in the apex of the dorsal valve, which are
lacking or very slightly developed in F. sanguino¬
lenta. The loop of F. cruenta is more advanced
than that of F. sanguinolenta, as evidenced by the
length and open character of the distal parts of the
descending and ascending branches and also by the
rather slender attachment of the hood to the septal
attachments.

Although the loops of “F.” alcocki and F. cruenta
are nearly at the same stage of development, many

NUMBER 16

23

differences between the two species are apparent.
The former is pale brownish yellow and completely
without any red color. The deltidial plates are
disjunct and the sessile plates at the posterior of the
dorsal valve are more strongly developed than in
F. cruenta. Furthermore “F.” alcocki is larger,
rounded, and less deep than F cruenta. It is also
here assigned to a new genus because of its more
advanced loop.

Discussion.— A complete series of the growth
stages of this species was not obtained. The smallest
specimen is 4.5 mm long (USNM 550339i, Plate 6:
figure 9); and the loop consists of an oblique hood
mounting a pillar-like septum, and the broad
descending lamellae attached along the side of the
pillar-like septum and distally to the anterior end
of the hood. The latter is shallow, with its lower
sides forming a wide angle, and open for most of
its length. The cover that is at the proximal end
of the structure is narrow and forms a small ring.
The hood has a narrow opening at the posterior
end.

A specimen 7 mm in length (USNM 550339j,
Plate 6: figures 10—13) has the loop in the frenuli-
niform stage. The hood has now been largely
resorbed and the ascending branches are united
with the descending and separated by wide lacunae.
The remnant of the hood is still a ring and still
attached to the remnant of the septal pillar. A
specimen 8 mm long (USNM 550339k) is longer,
but still retains the proximal ring, and the ring is
attached to the septum. A specimen 10 mm long
(USNM 550339m) has the proximal ring, but the
attachment to the septum is smaller and resorption
longitudinally is taking place. The next stage is
shown by a specimen 12 mm long (USNM
550339n). In this the lower part of the ring is no
longer joined directly to the septum, but has been
spread laterally and joined to the septum by
straight bars. The loop is now essentially that of
adult Frenulina.

In the largest adult loop (specimen USNM
550339b, Plate 6: figures 4—8) the attachments be¬
tween the septum and the descending branches are
long and very slender. At the junction of the
descending branch and the crosspiece is the at¬
tachment that fastens the crosspiece and ascending
elements which were a part of the early ring. These
attachments are now narrow ribbons, but the
transverse band of the loop is broad at the angles

where lamellae attaching the loop to the crosspieces
are given off. The transverse ribbon is slender in
the middle between the two lateral expansions.
This is quite unlike the adult loop of Frenulina,
in which the lateral attachments between descend¬
ing and ascending loop branches are very broad.
Furthermore the crosspieces attaching the descend¬
ing branches to the septum are broad. The adult
loop is thus strongly laqueiform.

Compsoria, new genus

Shell attaining a length slightly less than an
inch, rounded oval to subpentagonal in outline;
inequivalve, the ventral valve having the greater
depth; lateral commissure nearly straight; anterior
commissure rectimarginate, but with faint sulcation
in some specimens. Beak erect, short; foramen large,
submesothyridid; deltidial plates conjunct, readily
visible. Surface smooth; punctae closely crowded;
color white to faint pink.

Ventral valve with strong teeth supported by
thick dental plates. Muscle field bilobed; diductor
scars elongated and divergent, bounded by a ridge
extending anteriorly from the dental plate. Pedicle
collar minute or absent; pallial sinuses not im¬
pressed.

Dorsal valve with strong socket ridges, but nar¬
row and slightly concave; crural bases flat but
stout; crural process short, acute, located about
halfway between hinge plate and hood; descending
lamellae long; ascending branches expanding to
form a short hood which is attached to the descend¬
ing branches by a moderately wide ribbon. Descend¬
ing branches attached to the median septum by
slender bands. Lophophore plectolophus.

Type-species.— Compsoria suffusa, new species.

Diagnosis.— This genus is closest to Frenulina and
Laqueus, perhaps intermediate between the two in
the development of its loop. It differs from Frenu¬
lina in a number of small characters: it has con¬
junct deltidial plates, whereas those of Frenulina
may or may not be disjunct; it is without the char¬
acteristic color bands; the septum of the dorsal
valve extends nearly to the apex, without any
marked thickening or junction with the crural
bases; the loop is more advanced than that of
largest Frenulina ; the anterior margin is recti¬
marginate, whereas that of Frenulina is gently and
narrowly sulcate or rectimarginate.

24

SMITHSONIAN CONTRIBUTIONS TO PALEOBIOLOGY

Compsoria differs from Laqueus in having a
stronger hoodlike transverse band of the loop,
suggesting a slightly less advanced stage of develop¬
ment than usual in Laqueus. The bands connecting
the ascending and descending branches of the loop
are wider than usual in Laqueus. The median
septum of Laqueus in adult shells meets and sup¬
ports the plates forming the floor of the notothyrial
cavity. In the very young Laqueus, the median
septum approaches the notothyrial cavity, but the
flooring plates of the adult are a secondary develop¬
ment. The same is true in Compsoria, but flooring
plates are only infrequently developed so that the
cardinalia are intermediate between Frenulina and
Laqueus. The flooring plates of Compsoria are
usually in the form of a callus which may or may
not be laterally excavated.

Discussion.— The collection contains only a few
specimens of C. sufjusa, but they are sufficient to
give a clear idea of the development of the loop and
other anatomical details. To this genus must be
added Frenulina alcocki (Joubin 1906), originally
described as belonging to the genus Kingena but
later placed in Frenulina by (Dali). This is a yel¬
lowish white shell having a laqueiform loop and
coming from the Indian Ocean just southwest of
the south apex of India.

Etymology.— The generic name Compsoria is
derived from the Greek word “kompsos,” meaning
elegant.

Compsoria alcocki (Joubin)

Plate 7: figures 22-25

Kingena alcocki Joubin, 1906:529.—Dali, 1920:337.

This species was not figured by Joubin except
for the loop, which is illustrated by a large drawing
indicating a sjjecimen with somewhat more ad¬
vanced loop stage than the two specimens in the
national collection. The exterior of this species is
somewhat suggestive of Compsoria sufjusa, new
species, but is much rounder. The foramen is large
and the deltidial plates disjunct. The anterior
commissure is rectimarginate.

As pointed out by Jackson (1921:46, first foot¬
note) and Thomson (1927:242), the loop is laquaei-
form. The diagram furnished by Joubin indicates
a loop farther toward that of Laqueus than illus¬
trated by specimens in the national collection. An

example from the type locality has a remnantal
hood, having a narrowed opening posteriorly, and
broad descending branches. The loop, because of
the well-marked hood, is less advanced than that
seen in adult Laqueus, but more advanced than the
loop of old adult Frenulina. The anterior lacunae
are large but have not obliterated the hood (see
Plate 7: figures 24, 25).

Dali (1920:337) lists “Kingena” alcocki from the
Sulu Sea and the Indian Ocean. Two specimens
are in the national collection, both received from
Blochmann: USNM 111056 from the Sulu Sea and
USNM 227823 from the Indian Ocean, latitude
8°23' N, longitude 76°28' E, southwest of the
southernmost point of India. Regarding the first
specimen, Helmcke (1940:278) points out that the
Valdivia did not operate in the Sulu Sea and that
the specimen must have been collected by the Si¬
boga Expedition. It is not, however, listed by
Jackson and Stiasny (1937) in their report on the
brachiopods of the Siboga Expedition. Further, in
connection with this specimen, Helmcke (1940:278)
quotes from a letter to Dali dated December 11,
1906: “Vor kurzem erhielt ich eine ganz besondere
Form . . .[?] aus dem Indischen Ozean, eine rezente
Kingenia [sic], allerdings nur trokene schalen. Auch
von diesen werde ich ihnen in einiger Zeit ein
Examplar schicken.” Specimen 111056 was cata¬
loged by the Museum on October 24, 1908, and
must certainly be the sjaecimen that Blochmann
was sending to Dali. But in his letter Blochmann
definitely says the specimen is from the Indian
Ocean.

The second specimen (USNM 227823) that bears
the label Kingena alcocki Joubin was received from
Blochmann and was recorded on October 9, 1911.
A letter from Blochmann to Dali dated September
6, 1911, informs Dali: “Nun sende ich Ihnen ein
Examplar Kingena alcocki Joub. Fundort: 8°23' N,
76°28' Ost 187 m. Ich habe diese Art nun auch
in dem material der Siboga von 6°5' N, 121 ° 19'
Ost 275 m gesehen. Leider habe ich sich zur zeit
kein besseres Examplar.” This specimen is from the
same locality as Joubin’s material. Blochman does
not say that he is sending a specimen from the
Siboga material, only that he has seen such a speci¬
men in the Siboga collections. The fact that Jackson
and Stiasny do not report K. alcocki in their lists
suggests that Blochmann mistook another species,
such as Jolonica hedleyi, for the Indian Ocean form.

NUMBER 16

25

Blochmann also tells Dali in another letter that he
has Dallina floridana in the Siboga collections,
but Jackson and Stiasny identified it as Campages
asthenia Dali.

Comparison of the two National Museum speci¬
mens shows them to be alike. They are white in
color and the one labeled from the Indian Ocean
is partially covered by an agglutinated worm tube.
Joubin (1906:529) remarks 7 on the abundance of
worm tubes covering the specimens in his collection.
Specimen 111056 (attributed to the Sulu Sea by
Dali bears on its dorsal valve remnants of a worm
tube that compare exactly with the specimen from
the Indian Ocean. Joubin (1906:530) also states
that he sent several specimens of his species to
Blochmann at Tubingen. In all probability Bloch¬
mann shared these with Dali. It seems unlikely
from the above that Kingena alcocki comes from
the Sulu Sea, and it should be regarded as a mistake
in labeling.

Compsoria suffusa, new species

Plate 7: figures 26-44; Plate 8: figures 1-10

Large for the genus, longer than wide, elongate
oval in outline; shell thin and delicate; sides
rounded; ventral valve the deeper of the two;
maximum width at midvalve; anterior narrowed
and somewhat truncated; posterolateral extrem¬
ities forming an angle between 80° and 90°. An¬
terior commissure rectimarginate. Beak ridges
strong; foramen large, mesothyridid; deltidial plates
conjunct. Surface smooth except for strong con¬
centric lines of growth. Color pale pink.

Ventral valve evenly and moderately convex in
lateral profile; anterior profile strongly domed and
with steeply sloping sides. Umbonal region narrow¬
ly swollen, the swelling continued to midvalve,
after which the anterior slope is flattened. An¬
terolateral extremities defining short, narrow,
swollen but poorly defined anterior ridges. Lateral
slopes convex, moderately steep.

Dorsal valve gently convex in lateral profile and
with the anterior profile broadly and gently convex.
Median region moderately swollen but anterior
flattened; umbonal region moderately swollen.

Ventral interior with short but well developed
dental plates. Dorsal valve with a large cardinal
process and advanced frenuliniform loop.

Measurements in millimeters:

Dorsal

USNM

valve

Maximu

m

Apical

specimens

Length

length

width

Thickness

angle

550348a

19.5

17.0

17.0

10.7

89°

550349a

20.6

18.6

16.8

12.0

83°

Localities.-^ nton Bruun Cruise 7, stations
371E, 37IF, 373B.

Diagnosis.— Large Compsoria with suffused, deli¬
cate pink anterior coloration and elongate oval
outline.

Types.—H olotype: USNM 550348a. Figured para-
types; USNM 550348b, 550349a-d; 550441.

Comparison.— The only species of this genus to
which comparison can be made is C. alcocki
(Joubin). From this species it differs in being more
elongated, in having more convex valves, in having
conjunct rather than disjunct deltidial plates, and
in having the anterior end truncated rather than
broadly rounded as in C. alcocki.

Discussion.— Two immature specimens give an
idea of the development of the loop. Specimen
USNM 550349c (Plate 8: figures 3, 4) is 6 mm long
and has an obliquely elongated hood with a broad
posterior band. Anteriorly the anterolateral ele¬
ments of the loop are just beginning to form the
lacunae characteristic of the frenuliniform loop
stage. A second specimen (USNM 550349d, Plate
8: figures 5-8) is 8 mm long and still preserves the
elongated compagiform hood, but the anterolateral
elements are widely open. The posterior ring
formed by the hood and the attachments to the
septum are very narrow. Specimen USNM 550349b
(Plate 8: figures 9, 10) is 11 mm long, and the loop
is an elongated frenuliform stage with the ascend¬
ing and descending branches long and thin, the
hood is still retained, and the attachments to the
descending branches are wide and stout. The loop
is tending toward the laquaeiform stage.

Family TEREBRATELLIDAE W. King, 1850
Genus Terebratella D’Orbigny, 1847

Terebratella rubiginosa Dali

Plate 3: ficures 21-26

Terebratella sp.—Dali, 1870:122, pi. 6: fig. 4.

Terebratella suffusa Dali [not Reeve] 1871:65.

26

SMITHSONIAN CONTRIBUTIONS TO PALEOBIOLOGY

T. rnbigitwsa Dali, 1873:135.—Davidson, 1886-1888:91, pi. 16:

fig. 19.—Dali, 1895:727.—Thomson, 1927:293.-Jackson,

1952:35.

Considerable doubt has been expressed as to the
geographic occurrence of this specimen (Davidson,
1887:91) at the Cape of Good Hope in Simmons
Bay as claimed by Dali. It is the only Terebratella
thus far reported from the African realm. Compari¬
son with other species of the genus shows it to be
closest to T. enzenspergeri Blochmann, also noted
by Jackson (1952:35). Reference is made by Bloch¬
mann to “T. dorsata” from Kerguelen Islands, fig¬
ured by Davidson (1880) in the Challenger report
(Plate 4: fig. 4), which he regards as a specimen of
his species T. enzenspergeri. This figure is of a
specimen almost identical in size and form to T.
rubiginosa. It is possible that T. rubiginosa may
have come from Kerguelen Island and that T.
enzenspergeri should be a synonym of it.

Types.— Holotype: USNM 5110.

Literature Cited

Adams, A., and A. L. Reeve

1850. Mollusca. Part I in Zoology of the Voyage of
H. M. S. Samarang. Page 72, plate 21: figure 5.
London.

Alcock, A.

1894. A New brachiopod. In Natural History Notes from
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1902. A Naturalist in Indian Seas, or Four Years with
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Atkins, D.

1961 The Generic Position of the Brachiopod Megerlia
echinata (Fischer and Oehlert). Journal Marine
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Beecher, C. E.

1893. Revision of the Families of Loop-bearing Brachio-
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Blochmann, F.

1906. Neuc Brachiopoden dcr Valdivia und Gausscxpedi-
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Ghun, C.

1900-1903. Brachiopoda. In Aus den Tiefen des Welt-
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C ooper, G. A.

1959. Genera of Tertiary and Recent Rhynchonelloid
Brachiopods. Smithsonian Miscellaneous Collec¬
tions, 139(5) : 90 pages, 22 plates.

Dali, W. H.

1870. A Revision of the Tcrebratulidae and Lingulidae,
with Remarks on the Description of Some Recent

Forms. American Journal of Conchology, 6 (2) :88—
168, plates 6-8.

1871. Report on the Brachiopods Obtained by the United
States Coast Survey Expedition, in Charge of L. F.
Pourtales, with a Revision of the Craniidae and
Discinidae. Bulletin of the Museum of Compara¬
tive Zoology, Harvard, 3 (1): 45 pages, 2 plates.

1895. Report of Mollusca and Brachiopoda Dredged in
Deep Water, Chiefly near the Hawaiian Islands,
with Illustrations of Hitherto Unfigured Species
from Northwest America. Proceedings of the
United States National Museum, 17 (1032) [brachi¬
opods, pages 713-729, plates 30-32].

1910. Report on the Brachiopods Obtained from the In¬
dian Ocean by the Sealark Expedition, 1905, No.
XVII. The Transactions of the Linnaean Society
of London, 13 (3) :439-441, plate 26.

1920. Annotated List of the Recent Brachiopoda in the
Collection of the United States National Museum,
with Descriptions of Thirty-three New Forms. Pro¬
ceedings of the United States National Museum,
57 (2314):26I—377.

Davidson, T.

1880. Report on the Brachiopoda Dredged by H. M. S.
Challenger During the Years 1873-1878. In Report
. . . Challenger Expedition. Zoology, 1:1-67, 4
plates.

1886-1888. A Monograph of Recent Brachiopods. Trans¬
actions of the Linnaean Society of London, 4, Zool¬
ogy, I-III: 248 pages, 30 plates.

Deshaycs, G. P.

1863. Catalogue des Mollusques de File de la Reunion
{Bourbon). 44 pages, 14 plates. Paris.

Fischer, P., and D. P. Oehlert

1891. Brachiopodcs. In Expeditions scientipques du Tra-
vailleur et du Talisman pendant les annees 1880-
1883. 140 pages, 8 plates. Paris.

Hatai; K.

1938. The Cenozoic Brachiopods of Northeast Honsyu,
Japan. Saito Ho-on Kai Museum Research Bulle¬
tin 16:89-246, 5 plates.

1940. Cenozoic Brachiopoda from Japan. Science Re¬
ports of the Tdhoku Imperial University, second
series (Geology) 20: 413 pages, 12 plates.

Helmcke, J. G.

1938. Die Brachiopoden des zoologischen Museums zu
Berlin. In Sitzungsberichte der Gesellschaft natur-
forschender Freunde zu Berlin fiir 7945:221-268.

1939. Brachiopoda. In W. Kiikenthal and T. Krumbach,
Handbuch der Zoologie, Berlin, 3(2) : 139-258, fig¬
ures 152-271.

1910. Die Brachiopoden der Deutschen Tiefsee Expedi¬
tion. In Wissenschaftliche Ergebnisse der deut¬
schen Tiefsce-Expedition auf dem Dampfer “Val¬
divia” 1S98—1899, 24 (3) :217-316, 43 figures.

Jackson, J. W.

1921. On the Occurrence of Lusitanian Brachiopods in
the Persian Gulf. Annals and Magazine of Natural
History, series 9, 7:40-49.

NUMBER 16

27

1952. A Revision of Some South African Brachiopoda,
with Descriptions of New Species. Annals of the
South African Museum, 41 (1) : 40 pages, 3 plates.

Jackson, J. W., and G. Stiasny

1937. The Brachiopoda of the Siboga Expedition. In
Siboga Expeditie, 27: 20 pages, 2 plates. Leiden.

Joubin, M. L.

1906. Note sur un brachiopode nouveau de l’Oc£an
Indien, Kingena Alcocki. Bulletin du Museum
d’Histoire Naturelle, 12:529-532.

King, W.

1871. On Agulhasia Davidsonii, a New Palliobranchiate
Genus and Species. Annals and Magazine of Natural
History, series 4, 7:109-112, plate 11.

Licharev, B. K.

1960. Brakhiopody. Introduction in Osnovy Paleontologii.
Pages 115-171.

Muir-Wood, H. M.

1959. Report on the Brachiopoda of the John Murray
Expedition. In The John Murray Expedition 1933-
34 Science Reports 10(6) :283—317, 5 plates.

1965. Mesozoic and Cenozoic Terebratulidina. In Wil¬
liams, et al., 1965, pages H762-816.

Philippi, R. A.

1836. Ennumeratio Molluscorum Siciliae cum Viventium
turn in Tellure Tertiaria Fossilium quae in Itinere
suo Observatit, 1: 97 pages, plate 6, figures 15a-g.

Reeve, L. A.

I860. Brachiopoda. Volume 13 in Conchologia Iccmica,
or Figures and Descriptions of Molluscous Animals,
23 volumes. London.

Thomson, J. A.

1926. A Revision of the Subfamilies of the Terebratulidae
(Brachiopods). Annals and Magazine of Natural
History, series 9, 18:523-530.

1927. Brachiopod Morphology and Genera (Recent and
Tertiary) . New Zealand Board of Science and Art,
Manual 7: 338 pages, 2 plates.

Turton, W. H.

1932. Brachiopoda. In The Marine Shells of Port Alfred,
S. Africa. Pages 259-260, plate 70.

Williams, A., et al.

1965. Brachiopoda. In R. C. Moore, editor, Treatise on
Invertebrate Paleontology. Part H, 927 pages, 746
figures.

Yabe, H, and K. Hatai

1934. The Recent Brachiopod Fauna of Japan (1), New
Genera and Subgenera. Proceedings of the Imperial
Academy of Tokyo, 10 (9) :586-589.

Zezina, O. N.

1965. The Distribution of the Deep Water Brachiopod
Species, Pelagodiscus atlanticus (King) . Okeano-
logiya, 5 (2) :345-358.

28

SMITHSONIAN CONTRIBUTIONS TO PALEOBIOLOGY

PLATE 1

Megertia echinata (Fischer and Ochlert) : 1, Ventral view of the exterior, showing the amphi-
thyrid foramen, xb figured specimen USNM 173834; 2, 3, dorsal and ventral views of the same
specimen, showing the granulations and radial costellae on the dorsal exterior, [latitude
36°43' S, longitude 13°36' F., southwest of the Cape of Good Hope, South Africa].

Cryplopora curiosa, new species. 4, Ventral view of a specimen attached to a coralline en¬
crusted ventral valve of Frenulina cruenta, x4, paratype USNM 550360 [Anton Bruun 9
station 465]; 5, 6, dorsal views of two complete specimens, showing the winglike deltidial plates,
median septum, muscles, genital glands, and circinate lophore, all seen through the shell in
alcohol, XlO. paratypes USNM 550363b, a [Anton Brnnn 9, station 444].

Lacazella mauritiana Dali: 7, Exterior in dorsal view, showing both valves in contact, X^,
holotype USNM 173593; 8, 9, interior of the ventral and dorsal valves, X^ of the holotype [off
Mauritius Island, Indian Ocean].

Lingula translucida Dali: 10, Ventral view of a complete specimen, xb hypotype USNM
150706a; II, interior of the dorsal valve, xb hypotype USNM 150706b; 12, ventral view of a
specimen preserving the long pedicle, xb hypotype USNM 332782a; 13, dorsal view of a very
large specimen with its anterior setae, xb hypotype USNM 332782b [Karachi, Pakistan].

Kraussina species: 14, 15, Exterior of the ventral and dorsal valves, showing obscure radial
lines, x8, figured specimen USNM 550377; 16, 17, interior of the ventral and dorsal valves of
the same specimen, showing the long pedicle collar and small teeth in the ventral valve and the
short septum with its two prongs in the dorsal valve, x8 [Anton Bruun Cruise 7, station 358A],

Discinisca indica Dali: 18, Ventral view of a specimen with part of the pedicle valve preserved
and showing some muscle marks on the dorsal valve interior, x4, paralectotype USNM 90305a;
19, 20, ventral view of another specimen with both valves preserved, xb X4, lectotype USNM
90305b; 21, exterior view of the lectotype, x4; 22, 23, exterior of another specimen, xb
X4, paratype USNM 90305c; 24, 25, exterior of a large dorsal valve showing ornament, x4,
paratype USNM 90305d [Bombay, India],

Eucalathis fasciculala, new species: 26-28, Interior, dorsal, and ventral views, X^0> of the
holotype, USNM 550371, showing the smooth umbonal regions and fasciculate ornament [Anton
Bruun Cruise 7, station 363k].

NUMBER 16

29

30

SMITHSONIAN CONTRIBUTIONS TO PALEOBIOLOGY

PLATE 2

Cryptopora curiosa, new species: 1-3, Dorsal, posterior, and side views, showing winged deltidial
plates, xlO, paratype USNM 550361a; 4-8, side, dorsal, anterior, ventral, and posterior views,
XlO, of another paratype, USNM 550361b [Anton Bruun Cruise 7, station 371G]; 9-12, ventral,
side, dorsal, and anterior views, x^O, of a paratype, USNM 550363a, showing fine radial lines;
13-15, ventral, dorsal, and side views of a paratype, showing winged deltidial plates, X^O,
USNM 550363b [Anton Bruun Cruise 9, station 444]; 16-20, ventral, anterior, dorsal, posterior,
and side views of a large individual, xlO, holotype, USNM 550364 [Anton Bruun Cruise 9,
station 447]; 21, 22, interior of the dorsal valve, in ventral and laterally tilted views, Xl0»
paratype USNM 550362; 23, posterior part of the preceding, enlarged to show crura and median
septum, x20; 24, 25, interior of the ventral valve counterpart of the preceding, showing the
teeth and elaborate winged deltidial plates, x!0> X20.

Striarina valdiviae (Helmcke) : 26, 27, Exterior of the dorsal and ventral valves, showing fine

radial costellae or capillae, x2, hypotype USNM 549729a; 28, 29, interior of the preceding
ventral valve, x4, X2, showing small disjunct deltidial plates and strong teeth; 30, 31, interior
of the preceding dorsal valve, x2, X^, showing short falcifer crura; 32-36, posterior, side,
anterior, dorsal, and ventral views of a complete specimen, x2, hypotype USNM 549729b; 37,
same as the preceding in dorsal view, x^I 38, same specimen, x4, showing the fine costellae
[Valdivia expedition, station 165].

NUMBER 16

31

32

SMITHSONIAN CONTRIBUTIONS TO PALEOBIOLOGY

Plate 3

Rhytirhynchia sladeni (Dali): 1-3, Side, anterior, and dorsal views, xl> of the holotype show¬
ing anterior plication, USNM 111086; 4, interior of the dorsal valve of the holotype, showing
cardinalia, x3, [Saya de Malha Banks, Indian Ocean].

Terebratulina species 2: 5-7, Ventral, side, and dorsal views of a complete specimen x3,
figured specimen 550369a; 8, interior of the dorsal valve, showing characteristic loop, x$>
figured specimen 550369b [ Anton Bruun Cruise 9, station 444].

Argyrotheca jacksoni, new species: 9-13, Posterior, anterior, ventral, side, and dorsal views of a
complete specimen, x 10, USNM 550432 [Reef Ras Muhammad, southernmost Sinai Peninsula,
Red Sea].

Nipponithyris nipponensis Yabe and Hatai: 14, Dorsal view of a complete specimen, xl>
hypotype USNM 334769a; 15-17, side, dorsal, and anterior views, x2, of the preceding hypotype,
showing sulcate anterior commissure; 18-20, laterally tilted, ventral, and posteriorly tilted views
of the dorsal interior, showing the early terebrataliiform loop stage, the final stage for the genus,
X2, paratype USNM 334769b [Hakodate, Hokkaido, Japan],

Terebratella rubiginosa Dali: 21-24, Dorsal, anterior, ventral, and side views of the holotype,
Xl, USNM 5110; 25, 26, interior of the dorsal and ventral valves, xl> showing loop and disjunct
deltidial plates of the holotype [Simmons Bay, Cape of Good Hope, South Africa? (see text) ].

Mergerlia echinata (Fischer and Oehlert): 27-30, Posterior, anterior, dorsal, and ventral
views of a small, misshapen specimen, x 10, hypotype USNM 550431a, showing pustules on
costellae (compare plate 1: figure 2); 31, the preceding specimen opened to show the immature
stage of the loop and the anterior row of tubercles, x^0 [Reef Ras Muhammad, southernmost
Sinai Peninsula, Red Sea, less than 10 meters depth],

Terebratulina species 1: 32-34, Side, ventral, and dorsal views of a small complete individual,
X3, figured specimen 550370a; 35, interior of the dorsal valve, x3, showing the complete ring
of the loop, figured specimen USNM 550370b [Anton Bruun Cruise 1, station 18A].

Kraussina gardineri Dali: 36-40, Posterior, anterior, ventral, side, and dorsal views of the
holotype, xl. USNM 111085; 41, interior of the ventral valve of the holotype, xl. showing
short pedicle collar; 42, interior of the dorsal valve of the holotype, x2, showing cardinalia
and slender prongs on the median septum [Saya de Malha Banks, Indian Ocean].

Terebratulina meridionalis Jackson: 43^15, Anterior, side, and dorsal views of a complete speci¬
men, x 3, showing the costellate umbonal region, but most of valves anterior to umbones nearly
smooth, hypotype USNM 550367 [ Anton Bruun Cruise 8, locality 400C].

NUMBER 16

33

34

SMITHSONIAN CONTRIBUTIONS TO PALEOBIOLOGY

PLATE 4

Agulhasia davidsoni W. King: 1-4, Ventral, side, anterior, and dorsal views of a complete
individual, x4, hypotype USNM 550408a; 5, the preceding enlarged, to show elongate
deltidial plates and apical plate; 6-9, anterior, ventral, side, and dorsal views of a specimen
smaller than the preceding, x4, hypotype USNM 550408b; 10, dorsal view of the preceding
specimen, x®» showing deltidial plates and apical plate; 11, interior of the dorsal valve, x^,
showing cardinal process and enormous socket ridges, hypotype USNM 550408c; 12, interior of
the ventral valve, x^. showing deltidial plates, and ponderous teeth, hypotype USNM 550408d
[Anton Bruun Cruise 7, station 391H]; 13, 14, interior of the pedicle and dorsal valves of the
same individual, xlO, showing deltidial plates and apical plate, cardinal process, and complete
loop (compare with Thomson 1927: 183, figure 52c), hypotype USNM 549456 [Agulhas Bank,
South Africa, at 82-110 meters].

Lingula translucida Dali: 15, 16, Ventral views of the paratype and lectotype, x 1> selected from
Dali’s cotypes, USNM 174003b, a [Java (the only locality information known)].

Gryphus indianensis, new species: 17-19, Anterior, dorsal, and side views, x2, a rather slender
specimen, paratype USNM 550366c; 20, interior of the dorsal valve of the preceding paratype, x^,
showing the loop; 21, dorsal view of the holotype, xl> USNM 550366a; 22-26, dorsal, anterior,
side, posterior, and ventral views, x2, of the holotype; 27-29, side, anterior, and dorsal views,
X2, of an obese specimen, paratype USNM 550366b; 30, interior of the dorsal valve of the
preceding specimen, x3, showing loop and cardinalia [Anton Brunn Cruise 9, station 465],

Gryphus africanus, new species: 31-34, Ventral, dorsal, anterior, and side views, x4, of the
holotype, USNM 550375a; 35, 36, interior of the ventral and dorsal valves of the holotype, x®,
showing the narrow beak region and loop, with dorsally directed transverse ribbon; 37, 38,
interior of the dorsal and ventral valves of another individual, x&, paratype USNM 550375b
[Anton Bruun Cruise 7, station 358A],

NUMBER 16

35

'^TTTJJjr

36

SMITHSONIAN CONTRIBUTIONS TO PALEOBIOLOGY

PLATE 5

Argyrotheca somaliensis, new species: 1-5, Ventral, dorsal, posterior, side, and anterior views.
X5, of the holotype USNM 550346a; 6, the holotype agape, x5, showing interior [Anton Bruun
Cruise 9, station 447]; 7-9, anterior side, and posterior views of a dorsal interior, paratype,
USNM 550372; 10, ventral view of the interior of the preceding dorsal valve, Xl0> showing the
loop (partially broken on the right side) ; 11, interior of the ventral valve, counterpart to the
preceding, x^O- showing the wide teeth and the pits in the medium septum. 12-16, side, an¬
terior, dorsal, posterior, and ventral views of a young specimen, x^, paratype USNM 550345a;

17, interior of the dorsal valve, x8, showing the loop and cardinalia of the preceding paratype;

18, interior of the ventral valve of the preceding, x®, showing deltidial plates, teeth and anterior
pits in septum [Anton Bruun Cruise 9, station 445]; 19, interior of another dorsal valve, xlO,
showing the loop, paratype USNM 550344 [Anton Bruun Cruise 9, station 444].

Thaumatosia anomala, new species: 20-24, Posterior, anterior, dorsal, side, and ventral views
of a young specimen, showing the amphithyrid foramen, xlO, paratype USNM 550347a; 25-29,
ventral, dorsal, posterior, side, and anterior views of another paratype, x!0> USNM 550347b;
30-34, ventral, posterior, anterior, side, and dorsal views of the holotype, X^O, USNM 550347c,
showing amphithyrid foramen; 35, interior of the ventral valve, showing median ridge and teeth,
X20, paratype USNM 550347d; 36, small specimen, showing the schizolophous lophophore
through the shell, x20, paratype USNM 550347f; 37, interior of the dorsal valve, showing
sockets and socket ridges, x20, paratype USNM 550347e [Anton Bruun Cruise 1, station 18A],

NUMBER 16

37

SMITHSONIAN CONTRIBUTIONS TO PALEOBIOLOGY

PLATE 6

Frenulina sanguinolenta (Gmelin) : 1, Dorsal view of a complete specimen, showing dis¬
junct deltidial plates and characteristic color pattern, x^, figured specimen USNM 337539a
[Kaneohe Bay, Oahu, Hawaii]; 2, 3, ventral and laterally tilted views of the dorsal interior,
showing the loop, note lacunae in anterior part of hood, the final or frenulina stage of loop
development, x3, figured specimen USNM 342205 [Ryukyu Islands, Pacific Ocean],

Frenulina cruenta, new species: 4-7, Posteriorly tilted, laterally tilted, posterior and ventral
views of the dorsal valve interior, showing the loop with its remnantal hood and attachment to
the descending lamellae, an advanced fernuliniform loop, x2, paratype USNM 550339b; 8, in¬
terior of the ventral valve, showing conjunct deltidial plates, x2, counterpart to preceding
specimen; 9, interior of an immature dorsal valve, showing the hood of the campagiform stage
of the loop, x6, paratype USNM 550339i; 10-13, immature specimen anteriorly tilted, ventral,
laterally tilted, and posteriorly tilted views of another immature dorsal valve, showing the loop
in an early frenuliniform stage, x3, paratype USNM 550339j; 14, 15 rubber impression of the
interior of a dorsal valve and the specimen from which it was prepared, showing the muscle
scars and median septum, x2, paratype USNM 550339h; 16, rubber impression taken from the
interior of a ventral valve, showing the muscle scars, x2, taken from paratype USNM 550339g;
17, 18, side and ventral views of a complete specimen, x^> paratype USNM 550339d; 19, 20,
anterior and dorsal views of the preceding specimen, x2, showing the color pattern; 21-23,
dorsal, anterior, and ventral views of a paratype, showing the color pattern, x2. USNM 550339b,
same specimen figured above in figures 4-8; 24-27, dorsal, anterior, posterior, and side views
of a complete specimen, coated with ammonium chloride dust, x^> holotype USNM 550339a;
28-32, dorsal, posterior, side, anterior, and ventral views of the holotype, x2. uncoated and
showing the color pattern of cream white with blood red splotches [Anton Bruun Cruise 9,
station 465]; 33-35, ventral, posterior, and side views of the dorsal valve interior, showing an
adult late frenuliniform loop, x2, paratype USNM 550340a; 36, posterior of the ventral valve,
showing the conjunct deltidial plates, x3, counterpart of the preceding paratype; 37-41, ventral,
anterior, side, posterior, and dorsal views, xl> of the preceding paratype, coated with ammonium
chloride dust; 42, dorsal view, xl> of the same specimen without coating and showing the color
pattern; 43-45, the same specimen, x2, in side, dorsal, and anterior views, showing conjunct
deltidial plates and nearly rectimarginate anterior commissure [Anton Bruun Cruise 9, station

NUMBER 16

39

40

SMITHSONIAN CONTRIBUTIONS TO PALEOBIOLOGY

PLATE 7

Nipponithyris afra, new species: 1-5, side, ventral, dorsal, posterior, and interior views,
X2, holotype USNM 550343a; 6, dorsal view, xl> of the holotype; 7, dorsal view, x2. of
another complete specimen, paratype USNM 550343b; 8, 9, interior of a dorsal and ventral
valve of the same specimen, showing small cardinal process, median septum, and conjunct
deltidial plates, x3, paratype USNM 550343c; 10, 11, rubber impressions prepared from the
preceding ventral and dorsal valves, x2, showing the muscle scars and pallial impressions
[Anton Bruun Cruise 8, station 399B]; 12-16, anteiior, side, posterior, dorsal, and ventral views
of another complete specimen, x2, paratype USNM 550342a; 17, dorsal view of the preceding,
Xl; 18, 19, posteriorly tilted and ventral views of a dorsal valve, showing a complete loop in
early terebrataliiform stage, x3, paratype USNM 550342b; 20, 21, two immature loops tilted
slightly laterally and in a late campagiform stage, x4, paratypes USNM 550342c, d [ Anton
Bruun Cruise 8, station 398B],

Compsoria alcocki (Joubin) : 22, 23, Ventral and dorsal views of a complete specimen, partially
covered by an agglutinated worm-tube, xl. hypotype USNM 227823; 24, 25, interior of the
dorsal valve of the same specimen, showing the loop with hood and struts to the descending
lamellae, a loop in early laquaeiform condition, x2 [southwest of the southern point of India].

Compsoria suffusa, new species: 26-30, Ventral, side, dorsal, posterior, and anterior views of
the holotype, xl. USNM 550348a; 31-33, anterior, side, and dorsal views of the holotype, x2,
showing nearly rectimarginate commissure; 34-38, posterior, ventral, posteriorly tilted, laterally
tilted, and side views of the loop of the holotype, x2, an early laquaeiform loop; 39, interior
of the ventral valve of the holotype, x2, showing conjunct deltidial plates and large foramen
[Anton Bruun Cruise 7, station 371F]; 40-44, posterior, dorsal, side, ventral, and anterior
views of another complete individual, xl. paratype USNM 550349a [Anton Bruun Cruise 7,
station 37IE],

NUMBER 16

41

42

SMITHSONIAN CONTRIBUTIONS TO PALEOBIOLOGY

PLATE 8

Compsoria suffusa, new species: 1, Dorsal view of a very young specimen, x2, paratype USNM
550348b [Anton Bruun Cruise 7, station 371F]; 2, dorsal view of a larger but young individual,
X2, paratype USNM 550441 [Anton Bruun Cruise 7, station 373B]; 3, 4, ventral and laterally
tilted views of a young specimen with early campagiform loop, and showing the elongated hood,
X4, paratype USNM 550349c; 5-8, posterior, tilted laterally anterior, and ventral views of
another paratype, showing hood but with window in the anterolateral parts of the hood,
X4, USNM 550349d; 9, 10, ventral and laterally tilted views of a young adult, showing remnants
of the hood, open anterolateral windows in hood, but thick posterior strut attaching hood to
descending lamellae, x4, paratype USNM 550349b [Anton Bruun Cruise 7, station 371E].

Megerlina species: 11, Exterior of the ventral valve showing the ornament, x^> figured speci¬
men USNM 550378 [Anton Bruun Cruise 7, station 371E].

Frenulina sanguinolenta (Gmelin) : 12-16, Series showing growth of loop from precampagiform
(figures 12, 13 = X10) to campagiform (figure 14 = X^). early frenuliniform (figure 15
= X6) to adult frenuliniform (figure 16 — x^) stages for comparison with the similar loop
of Compsoria above, hypotypes USNM 292546a, b, d, f, and g [off Siran Island, Tawi-Tawi
Island, Philippines].

Chlidonophora chuni Blochmann: 17, 18, Interior and exterior of a pedicle valve, x4, hypo-
type USNM 550439; 19, 20, interior and exterior of the dorsal valve, counterpart to the pre¬
ceding specimen, x4, showing delicate socket ridges and slender descending lamellae of the
loop [Anton Bruun Cruise 7, station 363j]; 21-25, posterior, side, ventral, anterior, and dorsal
views of a complete specimen, x4. hypotype USNM 550440 [Anton Bruun Cruise 8, station 399c];
26, a paratype of Blochmann’s opened to show the anteriorly narrowed loop, with its sharp
median wrinkle, x4, USNM 110436a [off the Maidive Islands, southwest of India],

Thecidellina blochmanni Dali: 27-29, Side, ventral, and dorsal views of the holotype, x^,
USNM 227822; 30, interior of the dorsal valve of the holotype, x® [Christmas Island, southwest
of Java, Indian Ocean],

Thaumatosia anomala, new species: 31, Interior of the ventral valve, showing the teeth and
median ridge, figured specimen, x20, USNM 550376 [Anton Bruun Cruise, station 29],

NUMBER 16

43

☆ U. S. GOVERNMENT PRINTING OFFICE: 1973-484-322/39

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Underscore (for italics) book and journal titles. Use the colon-parentheses system for volume,
number, and page citations: “10(2) :5-9.” Spell out such words as “figures,” “plates,” “pages.”

For free copies of his own paper, a Smithsonian author should indicate his requirements
on “Form 36” (submitted to the Press with the manuscript). A non-Smithsonian author will
receive 50 free copies; order forms for quantities above this amount with instructions for
payment will be supplied when page proof is forwarded,