Brachiopoda from the Gulf of Gascogne, France (Recent) K 2 G. ARTHUR COOPER ' ,,.?j.y.:,\. ? IAN CONTRIBUTIONS TO PALEOBIOLOGY ? NUMBER'44 SERIES PUBLICATIONS OF THE SMITHSONIAN INSTITUTION Emphasis upon publication as a means of "diffusing knowledge" was expressed by the first Secretary of the Smithsonian. In his formal plan for the Institution, Joseph Henry outlined a program that included the following statement: " I t is proposed to publish a series of reports, giving an account of the new discoveries in science, and of the changes made from year to year in all branches of knowledge." This theme of basic research has been adhered to through the years by thousands of titles issued in series publications under the Smithsonian imprint, commencing with Smithsonian Contributions to Knowledge in 1848 and continuing with the following active series: Smithsonian Contributions to Anthropology Smithsonian Contributions to Astrophysics Smithsonian Contributions to Botany Smithsonian Contributions to the Earth Sciences Smithsonian Contributions to the Marine Sciences Smithsonian Contributions to Paleobiology Smithsonian Contributions to Zoology Smithsonian Studies in Air and Space Smithsonian Studies in History and Technology In these series, the Institution publishes small papers and full-scale monographs that report the research and collections of its various museums and bureaux or of professional colleagues in the world of science and scholarship. The publications are distributed by mailing lists to libraries, universities, and similar institutions throughout the world. Papers or monographs submitted for series publication are received by the Smithsonian Institution Press, subject to its own review for format and style, only through departments of the various Smithsonian museums or bureaux, where the manuscripts are given substantive review. Press requirements for manuscript and art preparation are outlined on the inside back cover. S. Dillon Ripley Secretary Smithsonian Institution S M I T H S O N I A N C O N T R I B U T I O N S T O P A L E O B I O L O G Y N U M B E R 44 Brachiopoda from the Gulf of Gascogne, France (Recent) G. Arthur Cooper SMITHSONIAN INSTITUTION PRESS City of Washington 1981 A B S T R A C T Cooper, G. Arthur. Brachiopoda from the Gulf of Gascogne, France (Recent). Smithsonian Contributions to Paleobiology, number 44, 35 pages, 5 figures, 3 plates, 1981.?Brachiopods collected during the operations of Biogas and Polygas Gulf of Gascogne Abyssal Survey, and Thalassa, Gulf of Gascogne Bathyal Survey of the Centre Oceanologique de Bretagne, are recorded and data concerning them noted. Most of the specimens taken in Biogas and Polygas are from depths ranging from 1010 meters to 4459 meters. The specimens taken by Thalassa are mostly from waters less than 1000 meters in depth. Twenty-one species in 14 genera are recognized, six of them, including a new species, hitherto not recorded from the Gulf of Gascogne, are starred: * Pela? godiscus atlanticus (King), Crania anomala (Muller), C. anomala turbinata (Poll), * Cryptopora gnomon Jeffreys, Hispanuhynchia cornea (Fischer), Eucalathis ergastica Fischer and Oehlert, E. tuberata (Jeffreys), Terebratulina retusa (Linne), T retusa emarginata (Risso), Gryphus vitreus (Born), *G.P cooperi d'Hondt, Dallithyris? aff. D.? sphenoidea (Jeffreys), Platidia anomioides (Scacchi and Philippi), Megerlia truncata (Linne), M. echinata (Fischer and Oehlert), Pantellaria monstruosa (Scac? chi), Macandrevia cranium (Muller), *M. novangliae Dall, * Fallax dallimformis Atkins, Dallina septigera (Loven), and *D. parva, new species. Five described species not previously recorded from the Gulf of Gascogne are: Pelagodiscus atlanticus (King), a world-wide abyssal form; Cryptopora gnomon (Jeffreys), widespread in the northern Atlantic; Macandrevia novangliae Dall, hitherto only known from deep water off the coast of New England, United States; Fallax dallimformis Atkins, newly discovered in the approaches to the English Channel; and Gryphus? cooperi d'Hondt recently described. The first four were taken in deep water in the Biogas operations; the fifth was taken by Thalassa. Speci? mens taken by Thalassa are mostly small or immature forms that are usually difficult to identify generically. Specimens of the rare genus Eucalathis ap? peared in several lots taken by Thalassa as well as the new species, Dallina parva. Not included in the above lists is a fossil brachiopod, dredged by Thalassa, that is assigned with a query to the Cretaceous genus Meonia. OFFICIAL PUBLICATION DATE is handstamped in a limited number of initial copies and is recorded in the Institution's annual report, Smithsonian Year. SERIES COVER DESIGN: The trilobite Phacops rana Green. Library of Congress Cataloging in Publication Data Cooper, G. Arthur Brachiopoda from the Gulf of Gascogne, France (Recent) (Smithsonian contributions to paleobiology ; no. 44) Bibliography: p. 1. Brachiopoda?Biscay, Bay of (France and Spain) I. Title. II. Series. QE701.S56 no. 44 [QL395.3.B58] 560s 81-607040 [595.3'20944] AACR2 Contents Page Introduction 1 Acknowledgments 1 Previous Work in the Gulf of Gascogne 2 Species Collected 3 Brachiopods and Station Records, Biogas Cruises 3 Brachiopods and Station Records, Polygas Cruise 5 Brachiopods and Station Records, Thalassa Cruises 5 Systematics (hierarchy from class through genus) 7 Genus Pelagodiscus Dall, 1908 8 Pelagodiscus atlanticus (King) 8 Genus Crania Retzius, 1781 8 Crania anomala turbinata (Poli) 8 Crania anomala (Muller) 9 Genus Cryptopora Jeffreys, 1869 9 Cryptopora gnomon Jeffreys 9 Genus Hispanirhynchia Thomson, 1927 10 Hispanirhynchia cornea (Fischer) 10 Genus Terebratulina d'Orbigny, 1847 11 Terebratulina retusa emarginata (Risso) 11 Terebratulina retusa (Linne) 12 Genus Eucalathis Fischer and Oehlert, 1890 12 Eucalathis ergastica Fischer and Oehlert 12 Eucalathis tuberata (Jeffreys) 12 Genus Meonia Steinich, 1963 13 Meoma? species 13 Genus Gryphus Megerle von Miihlfeldt, 1811 13 Gryphus vitreus (Born) 13 Gryphus? cooperi d'Hondt 14 Genus Dallithyris Muir-Wood, 1959 15 Dallithyris? aff. D.? sphenoidea (Jeffreys) not Philippi 15 Genus Platidia Costa, 1852 16 Platidia anomioides (Scacchi and Philippi) 16 Genus Megerlia King, 1850 16 Megerlia truncata (Linne) 16 Megerlia echinata (Fischer and Oehlert) 17 Genus Pantellaria Dall, 1919 17 Pantellaria monstruosa (Scacchi) 17 Genus Macandrevia King, 1859 17 Macandrevia cranium (Muller) 17 Macandrevia novangliae Dall 18 iii IV SMITHSONIAN CONTRIBUTIONS TO P A L E O B I O L O G Y Genus Fallax Atkins, 1960 22 Fallax dallimformis Atkins 22 Genus Dallina Beecher, 1893 23 Dallina septigera (Loven) 23 Dallina parva, new species 24 Dallina species 24 Literature Cited 25 Plates 29 Brachiopods from the Gulf of Gascogne, France (Recent) G Arthur Cooper Introduction In late 1975 I was invited to examine and report on collections of modern brachiopods from the Gulf of Gascogne in the southern part of the Bay of Biscay. The specimens, consisting of 98 lots, were collected by vessels of the Centre Oceanologique de Bretagne, Dr. M. Segonzac, Chief, in three programs: Biogas, which made seasonal studies of the deeps near Brest and near the northern coast of Spain; Polygas, which op? erated in the same areas; and Thalassa, which operated in shallower waters. The Biogas project extended from 1972 to 1974 and was devoted to a study of the deep sea, its fauna, flora, and sediments. Seven cruises were conducted at different times of the year to eval? uate the diversity and density of the inhabitants of the deeps and to study biological rhythms at each of several stations. Six stations were located on soft bottoms between 1800 and 4700 meters in the northwest and southeast parts of the Gulf (Figure 1). Each station was sampled several times at 3 to 5 month intervals with various types of oceanographic gear, each taking a different size category of the total fauna: the epibenthic sled, trawl, Reineck box corer, and baited trap. G. Arthur Cooper, Department of Paleobiology, National Museum of Natural History, Smithsonian Institution, Washington, D. C. 20560. Forty-six lots, including 4 from Polygas, were examined. The Thalassa program was organized by the Biological Laboratory of Roscoff to study the faunas and conditions on the slope of the conti? nental shelf of the Gulf of Gascogne. Most of this material, 50 lots, consist of young and very small brachiopods often difficult to identify because of the generalized interior details of the minute forms with just deposited shell. The specimens studied were sorted by Centob, the Centre Na? tional de Tri d'Oceanographie Biologique located in Brest. Like the Sorting Center of the Smithson? ian Institution, Centob distributes specimens for study to specialists all over the world (Laubier and Sibujet, 1977) Figured and described specimens, deposited in the Museum National d'Histoire Naturelle, Paris, are labelled MNHN-BRA-78, plus number. ACKNOWLEDGMENTS.?I acknowledge with pleasure my obligation to Dr. Michel Segonzac, Chief of the Center, for making this study possi? ble. I am also grateful to all those unseen and unknown-to-me skillful sorters who prepared the brachiopod samples. Those often included the tiniest, easily overlooked of young forms and ob? scure ones attached to pebbles. Drs. J. Thomas Dutro, Jr. and Robert B. Neu? man read the manuscript and offered good sug? gestions for its improvement. I am grateful to them for this help. SMITHSONIAN CONTRIBUTIONS TO P A L E O B I O L O G Y FIGURE 1.?Map of Gulf of Gascogne showing stations of Biogas I-VI. Previous Work in the Gulf of Gascogne During the "golden age" of oceanographic ex? ploration in the latter half of the 19th century, the Gulf of Gascogne was subjected to intensive study. Several research ships, I'Hirondell belonging to Prince Albert of Monaco (list recorded by d'Hondt 1976:11) and the Talisman and Travailleur explored extensively in the Gulf. Considerable interest was taken in the brachiopods resulting from dredging operations of their cruises because of the geological and biological implications that would result from their study. The French scien? tists Paul Fischer and D. P. Oehlert (1892) pre? pared a large, handsome monograph summariz? ing the information on the Gulf of Gascogne brachiopods and those of adjacent Atlantic wa? ters. These authors state: "At present [1892] the Gulf of Gascogne is, among all the seas of the globe, one of the richest in brachiopods." They list 16 species as follows: Crania anomala turbinata (Poli), Rhynchonella [Hispanirhynchia] cornea (Fischer), Dyscolia wyvillei (Davidson), Eucalathis tuberata (Jeffreys), E. ergastica Fischer and Oehlert, NUMBER 44 Terebratulina caput-serpentis [=retusa emarginata (Risso)] Linne, Terebratula [Gryphus] vitreus (Born), T. [Dallithyris?] sphenoidea (Philippi), Magellania [Dallina] septigera (Loven), Macandrevia cranium (Muller), Muhlfeldtia [Megerlia] truncata (Linne), M. [P.] monstruosa Scacchi, Platidia anomioides (Scacchi and Philippi), P. davidsoni Deslong? champs, Megathyns decollata (Chemnitz), and Cis- tella [now Argyrotheca] cistellula (S. Wood). Speci? mens from the Gulf have recently been described by d'Hondt (1976). Of the 21 species identified in the Biogas and Thalassa collections five do not appear in the above list and the last three of Fischer and Oeh? lert's list were not found during these modern dredging operations. Fischer and Oehlert (1892: 4) mention two other species of doubtful occur? rence, the one Dyscolia subquadrata (Jeffreys) is the possible young of Dyscolia wyvillei (Davidson). The other is a single valve of Thecidea [now Lacazella] mediterranea (Risso). The latter is a common Med? iterranean brachiopod and might be expected in the Gulf of Gascogne attached to coralline bodies as it is in the Mediterranean. The six species not present in Fischer and Oehlert's list are: Pelagodiscus atlanticus (King), a nearly ubiquitous deep sea brachiopod; Cryptopora gnomon Jeffreys, Macandrevia novangliae Dall, Gry? phus? cooperi d 'Hondt, Fallax dallimformis Atkins, and Dallina parva, new species. Macandrevia novangliae, hitherto only known from the waters off New England, is reported from European waters for the first time. The species of Fallax was only recently described (At? kins 1960a) from the approaches to the English Channel and is thus a likely occurrence in the Gulf of Gascogne. As mentioned below, some of the figures of Dallina septigera in Fischer and Oeh? lert (1891) belong to Fallax. The two genera are very closely related, Fallax being an arrested stage of Dallina. Gryphus? cooperi is an interesting small species with internal shell structures suggestive of relationship to Dyscolia. Another Gulf of Gascogne species recorded by d'Hondt and not identified in the present work is Dyscolia wyvillei (Davidson), first found in the Caribbean Sea, a very large brachiopod occurring in deep water. D'Hondt records Terebratulina sep? tentrionalis (Couthouy) along with T retusa (Linne). The former is common in eastern and north Atlantic waters and distinction between the two species is often difficult. Explorations in the Bay of Biscay and Gulf of Gascogne are also reported by Fischer and Oeh? lert (1890b), Jeffreys (1880), and Joubin (1907). SPECIES COLLECTED (* Biogas, #Polygas, IThalassa) Argyrotheca cistellula (S. Wood) ! Crania anomala (Muller) *! C. anomala turbinala (Poli) #*! Cryptopora gnomon Jeffrey ! Dallina parva, new species *! D. septigera (Loven) * Dallithyris? sphenoides (Jeffreys) not Philippi Dyscolia wyvillei (Davidson) *! Eucalathis ergastica Fischer and Oehlert *! E. luberata (Jeffreys) * Fallax dallimformis Atkins ! Gryphus? cooperi (d'Hondt) * G. vitreus (Born) *! Hispanirhynchia cornea (Fischer) *! Macandrevia cranium (Muller) # * M. novangliae Dall Megathiris decollata (Gmelin) ! Megerlia echinata (Fischer and Oehlert) ! M. truncata (Linne) ! Pantellaria monstruosa (Scacchi) # * Pelagodiscus atlanticus (King) *! Platidia anomioides (Scacchi and Philippi) P. davidsoni Deslongchamps ! Terebratulina retusa (Linne) *! T. retusa emarginata (Risso) Brachiopods and Station Records, Biogas Cruises BIOGAS I DS01 Latitude 47?55.8' N, longitude 07?40' W at 310 meters Crania anomala lurbinata (Poli), 1 Terebratulina retusa emarginata (Risso), 15 Gryphus vitreus (Born), 55 Macandrevia cranium (Muller), 44 SMITHSONIAN CONTRIBUTIONS TO P A L E O B I O L O G Y C M 01 Latitude 47?44.3' N, longitude 08?51' W at 1010 meters Macandrevia cranium (Muller), 3 Dallina septigera (Loven), 10 C W 0 1 Latitude 47?58.8' N, longitude 07?40' W at 280 meters Gryphus vitreus (Born), 19 Macandrevia cranium (Muller), 1 BIOGAS II DS 33 Latitude 47?39.7' N, longitude 08?05.5' W at 2338 meters Hispanirhynchia cornea (Fischer), 6 Macandrevia novangliae Dall, 1 ?Dalhna septigera (Loven), 2 DS 34 Latitude 47?42.4' N. longitude 08?03.4' W at 1031 meters Dallina septigera (Loven), 1 CV 21 Latitude 47?42.5' N, longitude 08?03.2' W at 994 meters Hispanirhynchia cornea (Fischer), 2 Macandrevia cranium (Muller), 2 Dallina septigera (Loven), 16 BIOGAS III DS 42 Latitude 47?32.1' N, longitude 09?35.6' W at 4104 meters Pelagodiscus atlanticus (King), 1 C V 2 2 Latitude 47?41.8 'N, longitude 08? 18 .7 'Wat 1331 meters Hispanirhynchia cornea (Fischer), 12 Dallithyris? aff. D.? sphenoidea (Jeffreys), not Phi? lippi, 1 Fallax dallimformis Atkins, 2 ?Macandrevia novangliae Dall, 1 CV 23 Latitude 42?32.7' N, longitude 08?34.2' W at 2034 meters Macandrevia novangliae Dall, 1 CV 24 Latitude 47?33.7' N, longitude 08?34.3' W at 2025 meters Macandrevia novangliae Dall, 1 CV 32 Latitude 44?07.6' N, longitude 04? 15.8' W at 1895 meters ?Macandrevia novangliae Dall, 2 B I O G A S I V DS 52 Latitude 44?06.3' N, longitude 04?22.4' W at 2006 meters Pelagodiscus atlanticus (King), 1 Dallina species, probably young of Dallina septig? era (Loven), 3 DS 53 Latitude 44?30.4'N, longitude 04? 56.3' W at 4425 meters Pelagodiscus atlanticus (King), 1 DS 55 Latitude 47?34.9' N, longitude 09?40.9' W at 4125 meters Pelagodiscus atlanticus (King), 1 DS 57 Latitude 47?30.8' N, longitude 09?07.6' W at 2906 meters Pelagodiscus atlanticus (King), 47 DS 58 Latitude 47?34.1' N, longitude 09?08.2' W at 2775 meters Pelagodiscus atlanticus (King), 1 DS 62 Latitude 47?32.8' N, longitude 08?40' W at 2175 meters Dallina species, young of D. septigera (Loven) DS 63 Latitude 47?32.8' N, longitude 08?35' W at 2126 meters Pelagodiscus atlanticus (King), 2 DS 64 Latitude 47?29.2' N, longitude 08?30.7' W at 2156 meters Pelagodiscus atlanticus (King), 2 CV 36 Latitude 47?34.1' N, longitude 09?38.5' W at 4209 meters Pelagodiscus atlanticus (King), 1 CV 37 Latitude 47?33.5' N, longitude 09? 14' W at 3000 meters Pelagodiscus atlanticus (King), 7 CV 38 Latitude 47?30.9' N, longitude 08?59.5' W at 2695 meters Pelagodiscus atlanticus (King), 2 CP 01 Latitude 47?34.6' N, longitude 08?38.8' W at 2245 meters Pelagodiscus atlanticus (King), 1 CP 03 Latitude 47?32.7' N, longitude 08?34' W at 2119 meters Macandrevia novangliae Dall, 1 B I O G A S V CP 07 Latitude 44?09.8' N, longitude 04? 16.4' W at 2170 meters ? Gryphus vitreus (Born) fragment, 1 Macandrevia novangliae Dall, 85 KR 45 Latitude 47?33.5' N, longitude 09?05.5' W at 2864 meters Cryptopora gnomon Jeffreys, 1 BIOGAS VI DS 71 Latitude 47?34.3' N, longitude 08?33.8' W at 2194 meters Pelagodiscus atlanticus (King), 1 DS 72 Latitude 47?38.6' N, longitude 08?36.1' W at 2250 meters Pelagodiscus atlanticus (King), 2 NUMBER 44 DS 74 Latitude 47?33' N, longitude 09?07.8' W at 2777 meters Pelagodiscus atlanticus (King), 2 Cryptopora gnomon Jeffrey, 1 DS 87 Latitude 44?05.2' N, longitude 04? 19.4' W at 1913 meters Cryptopora gnomon Jeffreys, 1 CP 08 Lati tude 44?33.2' N, longitude 08?38.5' W at 2177 meters Pelagodiscus atlanticus (King), 1 CP 09 Latitude 47?33' N, longitude 08?44.1' W at 2171 meters Macandrevia novangliae Dall, 1 C P 10 Latitude 47?29.6' N, longitude 09?04.5' W at 2878 meters Pelagodiscus atlanticus (King), 44 CP 11 Latitude 47?30' N, longitude 09?07.4' W at 3056 meters Pelagodiscus atlanticus (King), 17 CP 13 Latitude 47?34.4' N, longitude 09?38' W at 4134 meters Pelagodiscus atlanticus (King), 7 C P 14 Latitude 47?32' N, longitude 09?35.9' W at 4237 meters Pelagodiscus atlanticus (King), 92 CP 16 Latitude 46?27.3' N, longitude 10?25.8' W at 4825 meters Pelagodiscus atlanticus (King), 2 CP 17 Latitude 46?30.8' N, longitude 10? 19.5' W at 4706 meters Pelagodiscus atlanticus (King), 22 C P 19 Latitude 44?24.9' N, longitude 04?51.3' W at 4434 meters Pelagodiscus atlanticus (King), 1 C P 20 Latitude 44?23.2' N, longitude 04? 51.4' W at 4459 meters Pelagodiscus atlanticus (King), 1 CP 23 Latitude 44?04.6' N, longitude 04?21.4' W at 1980 meters Pelagodiscus atlanticus (King), 1 Macandrevia novangliae Dall, 1 Brachiopods and Station Records, Polygas Cruises DS 26 Latitude 44?08.2' N, longitude 04? 15' W at 2076 meters Cryptopora gnomon Jeffreys, 1 CV 10 Latitude 47?30.7' N, longitude 08?40.6' W at 2108 meters Macandrevia novangliae Dall, 1 C P 11 Latitude 47?29.1 'N, longitude 0 8 ? 1 6 . 1 ' W a t 2141 meters Macandrevia novangliae Dall, 1 CV 13 Latitude 47?31.8 'N, longitude 09?34.2' W a t 4252 meters Pelagodiscus atlanticus (King), 1 Brachiopods and Station Records, Thalassa Cruises THALASSA '70 W353 Latitude 43?39.2' N, longitude 01?56.4' W at 380 meters Crushed, unidentifiable, 1 W355 Latitude 43?42.1' N, longitude 01?35.6' W to 43?42.2' N, 01?36.0' W at 1000 meters Terebratulina retusa (Linne), young, 1 Megerlia echinata (Fischer and Oehlert), 1 W368 Latitude 43?36.9' N, longitude 03?36.4' W at 400- 137 meters Crania anomala (Muller), 2 Terebratulina retusa (Linne), 3 Megerlia truncata (Linne), 2 W369 Latitude 43?37.0' N, longitude 03?34.9' W at 1040- 580 meters Eucalathis ergaslica Fischer and Oehlert, 1 T H A L A S S A ' 7 1 X305 Latitude 44?05.0' N, longitude 05?00.6' W to 05?00.3' W at 463 m Macandrevia cranium (Muller), 1 plus 3? X312 Latitude 44?04.8' N, longitude 04?55' W to 44?04.7 N, 04?55.0' W at 490-478 meters Terebratulina retusa (Linne), 1 Dallina species, very young, 1 X334 Latitude 44? 10.4' N, longitude 04?51.0' W to 44? 10' N, 04? 53.7' W at 1940-1870 meters Cryptopora gnomon Jeffreys, 1 X340 Latitude 44?07.0' N, longitude 04?29.8' W to 44?06.9' N, 04?29.6' W at 860-910 meters Eucalathis tuberata (Jeffreys), 1 Terebratulina retusa (Linne), 1 Macandrevia cranium (Muller), 1 Dallina parva, new species, 58 X341 Latitude 44?07.2' N, longitude 4?30.0' W to 44?07.3' N, 04?30.7' W at 840-800 meters Gryphus species, young (crushed), 1 Dallina septigera (Loven), 3 PUnidentifiable young, 1 X342 Latitude 44?07.5' N, longitude 04?36.2' W to 44?0.7.7' N, 04?36.8' W at 700 meters Platidia anomioides (Scacchi and Philippi), 1 Dallina species, young, 3 X343 Latitude 44?07.0' N, longitude 04?38.8' W to 44?07.8' N, 04?38.9' W at 600-655 meters SMITHSONIAN CONTRIBUTIONS TO P A L E O B I O L O G Y Dallina species, very young, 2 X345 Latitude 44?06.2' N, longitude 04?41.0' W to 44?06.7' N, 04?41.1' W at 525-550 meters Dallina species, very young, 2 X347 Latitude 44?07.3' N, longitude 04?44.0' W to 44?07.4' N, 04?44.0' W at 640-910 meters Platidia anomioides (Scacchi and Philippi), 2 Dallina species, young, 4 X348 Latitude 44?07.5' N, longitude 04?43.6' W to 44?07.4' N, 04?43.6' W at 900-600 meters Terebratulina retusa (Linne), 1 Eucalathis tuberata (Jeffreys), 3 Dallina species, young, 3 X352 Latitude 44?06.5' N, longitude 04?45.2' to 44?06.6' N, 04?45.0' W at 580-545 meters Crania anomala (Muller), young, 1 Terebratulina retusa (Linne), 1 Gryphus? cooperi d 'Hondt, 1 Platidia anomioides (Scacchi and Philippi), 3 Pantellaria monstruosa (Scacchi), 5 Dallina species, young X353 Latitude 44?06.8' N, longitude 04?45.1' W at 655- 635 meters Eucalathis tuberata (Jeffreys), 1 Dallina species, young, 3 X360 Latitude 44?05.4' N, longitude 04?49.6' W to 44?05.5' N, 04?49.7' W at 595-580 meters Terebratulina retusa (Linne), very young, 1 T H A L A S S A ' 7 2 Y393 Latitude 41?20.6' N, longitude 09? 10.8' W at 820 meters Small, unidentifiable ventral valve, 1 Y395 Latitude 41? 19.4' N, longitude 09? 14.4' W at 810 meters Platidia species, crushed, 1 Dallina? species, 1 Y396 Latitude 41? 17.4' N, longitude 09? 15.7' W at 900 meters Terebratulina retusa (Linne), 1 Y401 Latitude 40?36.8' N, longitude 09?21.5' W, no depth given Dallina? species, very young, 1 Y407 Latitude 40?33.5' N, longitude 09?24.0' W at 740 meters Meoma? species, a fossil specimen, 1 T H A L A S S A ' 7 3 Z392 Latitude 47?34.9' N, longitude 07?01.3' W at 390 meters Terebratulina retusa emarginata (Risso), 3 Macandrevia species, young, 1 Dallina species, young, 7 Z393 Latitude 47?33.0' N, longitude 07?04.7' W at 750 meters Eucalathis ergastica Fischer and Oehlert, 1 Z394 Latitude 47?32.4' N, longitude 07?06.8' W at 900 meters Eucalathis tuberata (Jeffreys), 4 Macandrevia species young, 1 Z397 Latitude 47?33.8' N, longitude 07? 12.6' W at 511 meters Terebratulina retusa emarginata (Risso), 3 Macandrevia species, young, 4 Z398 Latitude 47?36.0' N, longitude 07? 16.8' W at 830 meters Crania anomala turbinata (Poli), young, 3 Terebratulina retusa emarginata (Risso), 9 Gryphus vitreus (Born), young, 1 Macandrevia species, young, 1 Z399 Latitude 47?34.8' N, longitude 07? 18.1' W at 825 meters Gryphus vitreus (Born), young, 3 Platidia anomioides (Scacchi and Philippi), 2 Macandrevia species, young, 2 Z402 Latitude 47?39.5' N, longitude 07?28.5' W at 450 meters Terebratulina retusa emarginata (Risso), 2 Gryphus vitreus (Born), young, 1 Platidia anomioides (Scacchi and Philippi), 1 Z406 Latitude 47?44.4' N, longitude 08?04.2' W at 1055 meters Dallina species, young, 1 Z407 Latitude 47?43.6' N, longitude 08?07.5' W to 47?45.2' N, 08?06.7' W at 1085-1115 meters Macandrevia species, young, 2 Z409 Latitude 47?43.1' N, longitude 08?04.0' W to 47?42.9' N, 08?00.9' W at 1035-1080 meters Eucalathis ergastica Fischer and Oehlert, 2 Macandrevia cranium (Muller), 9 Dallina septigera (Loven), 12 Z410 Latitude 47?50.7' N, longitude 08?09.3' W at 1180 meters Hispanirhynchia cornea (Fischer), young, 3 Eucalathis tuberata (Jeffreys), 2 Macandrevia species, young, 1 Dallina septigera (Loven), 1 Z413 Latitude 48?03.1' N, longitude 08?29.4' W at 805 meters Crania anomala turbinata (Poli), young, 1 Hispanirhynchia cornea (Fischer), 2 Eucalathis species, young, cf. E. ergastica Fischer and Oehlert, 4 Platidia anomioides (Scacchi and Philippi), 15 Macandrevia species, young, 1 Dallina species, young, 78 NUMBER 44 Z414 Latitude 48?05.0' N, longitude 08?29.8' W at 650 meters Platidia anomioides (Scacchi and Philippi), 1 Gryphus vitreus (Born), young, 1 Eucalathis species, young, cf. E. ergastica Fischer and Oehlert, 1 Dallina species, young, 35 Z415 Latitude 48?07.2' N, longitude 08?26.2' W at 380 meters Platidia anomioides (Scacchi and Philippi), 1 Dallina species, young, 1 Z416 Latitude 48? 13.5' N, longitude 09?07.5' W at 480 meters Macandrevia species, young, 1 Z417 Latitude 48?12.0' N, longitude 09?09.5' W at 865 meters Platidia anomioides (Scacchi and Philippi), 1 Macandrevia species, young, 14 Dallina species, young, 1 Z421 Latitude 48?22.5' N, longitude 09?33.5' W at 950 meters Macandrevia species, young, 3 Dallina species, young, 4 Z424 Latitude 48?27.9' N, longitude 09?44.3' W at 475 meters Terebratulina retusa emarginata (Risso), young, 1 Z425 Latitude 48?27.9' N, longitude 09?44.0' W at 700 meters Dallina species, young, 1 Z427 Latitude 48?27.0' N, longitude 09?48.4' W at 330 meters Terebratulina retusa emarginata (Risso), young, 1 Macandrevia species, young, 1 Z430 Latitude 48?37.0' N, longitude 09?52.2' W at 1080 meters Hispanirhynchia cornea (Fischer), young, 1 Macandrevia species, young, 1 Z431 Latitude 48?38.2' N, longitude 09?47.3' W at 800 meters Platidia anomioides (Scacchi and Philippi), young, 1 Macandrevia species, young, 4 Z435 Latitude 48?39.7' N, longitude 09?53.2 W at 1050 meters Hispanirhynchia cornea (Fischer), young, 5 Eucalathis ergastica Fischer and Oehlert, 38 Platidia anomioides (Scacchi and Philippi), 2 Dallina septigera (Loven), young and adult, 44 Z436 Latitude 48?39.8, longitude 09?56.4' W at 1210 meters Terebratulina retusa emarginata (Risso), 1 Macandrevia species, young, 1 Z437 Latitude 48?35.0' N, longitude 10?23.7' W at 610 meters Macandrevia cranium (Muller), 3 Z447 Latitude 48?47.3' N, longitude 11? 12.0' W to 48?47.4' N, 11? 14.3' W at 1430-1550 meters Hispanirhynchia cornea (Fischer), young, 2 Z450 Latitude 48?40.0' N, longitude 10?36.1' W at 1170 meters Specimens too small to identify accurately, may be young of Hispanirhynchia cornea (Fischer), 2 Z459 Latitude 48?37.3' N, longitude 09?53.0' W at 1180 meters Hispanirhynchia cornea (Fischer), young, 1 Macandrevia species, young, 3 Systematics (hierarchy from class through genus) Class INARTICULATA Huxley, 1869 Order ACROTRETIDA Kuhn, 1949 Suborder ACROTRETIDINA Kuhn, 1949 Superfamily DISCINACEA Gray, 1840 Family DISCINIDAE Gray, 1840 Subfamily DISCINISCINAE Schuchert and Levene, 1929 Genus Pelagodiscus Dall, 1908 Suborder CRANIIDINA Waagen, 1885 Superfamily CRANIACEA Menke, 1828 Family CRANIIDAE Menke, 1828 Genus Crania Retzius, 1781 Class ARTICULATA Huxley, 1869 Order RHYNCHONELLIDA Kuhn, 1949 Superfamily RHYNCHONELLACEA Gray, 1848 Family CRYPTOPORIDAE Muir-Wood, 1955 Genus Cryptopora Jeffreys, 1869 Family FRIELEIIDAE Cooper, 1959 Genus Hispanirhynchia Thomson, 1927 Order TEREBRATULIDA Waagen, 1883 Suborder TEREBRATULIDINA Waagen, 1883 Superfamily CANCELLOTHYRIDACEA Thomson, 1926 Family CANCELLOTHYRIDIDAE Thomson, 1926 Subfamily CANCELLOTHYRIDINAE Thomson, 1926 Genus Terebratulina d'Orbigny, 1847 Family CHLIDONOPHORIDAE Muir-Wood, 1959 Subfamily EUCALATHINAE Muir-Wood, 1959 Genus Eucalathis Fischer and Oehlert, 1890 Genus Meoma Steinich, 1963 Superfamily TEREBRATULACEA Gray, 1840 Family TEREBRATULIDAE Gray, 1840 Genus Gryphus Megerle von Miihlfeldt, 1811 Genus Dallithyris Muir-Wood, 1959 Suborder TEREBRATELLIDINA Muir-Wood, 1955 Superfamily TEREBRATELLACEA King, 1850 Family PLATIDIIDAE Thomson, 1927 Genus Platidia Costa, 1852 SMITHSONIAN CONTRIBUTIONS TO P A L E O B I O L O G Y Family KRAUSSINIDAE Dall, 1870 Genus Megerlia King, 1850 Genus Pantellaria Dall, 1919 Superfamily DALLINACEA Beecher, 1893 Family MACANDREVIIDAE Cooper, 1973 Genus Macandrevia King, 1859 Family DALLINIDAE Beecher, 1893 Genus Fallax Atkins, 1960 Genus Dallina Beecher, 1893 Genus Pelagodiscus Dall, 1908 Pelagodiscus atlanticus (King) PLATE 2: FIGURES 39, 40 Discina atlantica King, 1868:170-173.?Dall, 1871:42.?Jef? freys, 1876:252; 1878:415.?Davidson, 1880:62. Discinisca atlantica (King).?Dall, 1873:177.?Davidson, 1888:200, pl. 26: figs. 18-22.?Fischer and Oehlert, 1891: 120. Pelagodiscus atlanticus (King).?Dall, 1908:440.?Thomson, 1918:38, 40, 50.?Dall, 1920:280.?Thomson, 1927:130, fig. 37.?Helmcke, 1940:313.?Hertlein and Grant, 1944: 21, pl. 2: figs. 1-5 [extensive reference list].?Zezina, 1965: 254-258.?Cooper, 1973b: 10, pl. 5: fig. 36.?Foster, 1974: 39, fig. 13.?Cooper, 1977:52, pl. 1: figs. 8-13. DESCRIPTION.?This is an easily recognized spe? cies because of its yellow to brown chitinous shell and marginal aureole of long, barbed setae. Its dorsal valve is conical in profile with the apex slightly posterior of the middle. The ventral valve is flat or concave and hidden from view. The outline is nearly circular or transversely elliptical and the shell is marked by irregular concentric lines of growth. The anterior slope is longer and less steep than that of the posterior. Setae are numerous and of different sizes, many of those of the dorsal valve equal or exceed the length of the shell. These long setae are confined to the sides and anterior of the shell, and are interspersed with shorter ones. The ventral valve is flat or concave and marked posteriorly by a slit for the pedicle that is ex? panded into a circular form and is externally attached in a circular depression. The pedicle is short and the brachiopod adheres closely to hard objects, usually pebbles. TYPES.?Hypotypes: MNHN-BRA-78-54, -55. STATIONS.?Biogas III, DS 42; Biogas IV, DS 52, DS 53, DS 55, DS 57, DS 58, DS 63, DS 64, CV 36, CV 37, CV 38, CP 01; Biogas VI, DS 71, DS 72, DS 74, CP 08, CP 10, CP 11, CP 13, CP 14, CP 16, CP 17, CP 19, CP 20, CP 23; Polygas, CV 13. DISCUSSION.?According to Dall (1920:280), this is the most cosmopolitan brachiopod known because it is found in all the deep seas of the world except the Arctic, throughout the Atlantic and Pacific oceans, the Antarctic, the Indian Ocean, the Caribbean Sea, and the Gulf of Mex? ico. In all these vast areas it is generally in the abyss. The shallowest record is off Fernandina, Florida, at 538 meters (Dall, 1920:280). Generally the depths are far greater than 1000 meters. The deepest record is 6100 meters (Zezina, 1970: 5). In the Gulf of Gascogne it was dredged from 2006 to 4825 meters. Genus Crania Retzius, 1781 Crania anomala turbinata (Poli) PLATE 1: FIGURE 26 Anomia turbinata Poli, 1795:189, pl. 30; fig. 15. Crania anomala var. turbinata (Poli).?Dall, 1871:34.?Fischer and Oehlert, 1891:7, pl. 1: figs. la -c . Crania turbinata (Poli).?Davidson, 1888:188, pl. 27: figs. 14- 23. DESCRIPTION.?Three specimens only are re? ferred to Crania anomala turbinata in the collections from the Gulf of Gascogne. Two of them (Thal? assa 73: Z398, and Z413) are immature but the third from Biogas I, DS 01, which is figured here, is a young adult. This specimen is roundly ellip? tical, yellowish brown, and has a conical profile. Only the dorsal valve is available for examina? tion. It is swollen and convex with the apex at 1.5 mm anterior to the posterior margin. The anterior and lateral slopes are steep, the posterior slope nearly vertical. The specimen is attached to a small pebble that also is host to a specimen of Macandrevia cranium (Muller) and a small barnacle. The specimen from Thalassa Z413 is a very immature individual slightly less than 2 mm in NUMBER 44 diameter and with transparent shell. It is ob? viously in an early stage of development and represents only the apical part. The other specimen, a dorsal valve, is also immature but larger than the preceding, and measures in mm: length 3, width 3, and about 0.8 thick. The shell is yellowish brown, squarish with rounded angles. The apex is slightly less than a third the valve length from the posterior margin. On the ventral side the fleshy parts are visible showing the adductor muscles. MEASUREMENTS (mm).?Length 6.5, width 7.5, height or thickness 3.5 TYPE.?Hypotype MNHN-BRA-78-44. DISCUSSION.?It has been difficult to decide what name to use for these specimens because the specific characters of the many names available for living Crania are as yet not firmly established. I therefore decided to use C. anomala turbinata (Poli), the name used by Fischer and Oehlert in their fine monograph on the collections made by the research vessels Talisman and Travailleur. The synonymy is skeletonized but will make it possible for an interested person to find available litera? ture. Davidson recognized the Mediterranean Crania as C. turbinata (Poli) but ignored the earlier name for the Mediterranean species Patella kermes Costa and Humphrey, which is the one Dall (1920) used for the Mediterranean form. Dall (1920) does not mention Poli's name, probably regarding it as non-binomial, a problem discussed by Fischer and Oehlert (1891:12). D'Hondt (1976:3) refers specimens from the Gulf of Gascogne to C. kermes Costa and Humphrey. A satisfactory study of the Mediterranean and Atlantic Cranias will require more extensive collections than those available at the National Museum of Natural History or the few found by Biogas and Thalassa. Fischer and Oehlert (1891:10) record a speci? men from the Gulf of Gascogne taken at 1068 meters. The specimens mentioned and figured herein ranged in depth from 310 to 1080 meters. The specimens identified by D'Hondt ranged in depth from 511 to 825 meters. Crania anomala (Muller) PLATE 3: FIGURES 12-14 Patella anomala Muller, 1776:237.?Davidson, 1888:183, pl. 27: figs. 1-9b.?Dall, 1920:269-271 [synonymy]. DESCRIPTION.?Three specimens are placed un? der this name. Two of them have flattish valves and round outline. The third specimen is imma? ture. The apex of the two adults is low, about 4 mm high and located almost on the posterior margin. The posterior slope is short and steep. The anterior slope is broad and flatly concave. The color is pale brown. These specimens are flatter and with the apex farther posterior than those referred to C. a. tur? binata (Poli). The shape of Crania is often deter? mined by the shape of its host and is not a dependable specific character. Larger collections than those available are needed for more accurate identification of these Cranias. TYPE.?Hypotype: MNHN-BRA-78-60. STATIONS.?Thalassa 70, W 368; Thalassa 71, X352. Genus Cryptopora Jeffreys, 1869 Cryptopora gnomon Jeffreys PLATE 1: FIGURES 22-25 Cryptopora gnomon Jeffreys, 1869:136.?Thomson, 1927:146, fig. 44.?Helmcke, 1939:253.?Muir-Wood, 1959:292.? Cooper, 1959:22, pl. 5: fig. 16; 1973:11, pl. 8: figs. 14-16. Atretia gnomon Jeffreys, 1869:421.?Davidson, 1887:173, pl. 25: figs. 6-13.?Dall, 1920:293. Neatretia gnomon (Jeffreys).?Fischer and Oehlert, 1891:123, fig. 11. DESCRIPTION.?This is a small smooth rhyncho? nellid having a length of about 3 mm, rounded triangular in outline, narrowly lenticular in pro? file with the valves nearly equal in depth. The beak is pointed, the foramen large and triangular, and margined by narrow lateral (deltidial ?) plates. The shell when fresh is usually transparent but on death or decay becomes opaque white. The shell is impunctate but the calcite prisms 10 SMITHSONIAN CONTRIBUTIONS TO P A L E O B I O L O G Y composing it form a coarse mosaic that may be mistaken for punctae. Inside the ventral valve there are prominent dental plates. Inside the dorsal valve a short but strongly elevated median septum with crest at midvalve is conspicuous and diagnostic. The crura are long, distally expanded to form an arm- and-hand like structure, a type of crus known as mamculifer (Cooper, 1959:9). Cryptopora gnomon is generally an abyssal bra? chiopod as suggested by its transparent, thin, delicate shell. Its range is from 1190 meters to 4060 meters. In the Gulf of Gascogne its depth range is from 1913 to 2864 meters. The shallower water ranges off Florida given by Dall, (1920: 293) are for C. rectimarginata Cooper, a species with marked differences from C. gnomon. Cryptopora gnomon is most commonly found in the North Atlantic off Greenland, Norway, Ire? land, off the shores of New England and Mary? land, off the Atlantic coast of Morocco, and in the Azores. Cooper (1973b: 11) reports it from off the north coast of Panama in the Caribbean, its southernmost occurrence. MEASUREMENTS (mm).?Length 3.5, dorsal valve length 3.0, width 2.8, thickness 0.8, apical angle 65?. TYPE.?Hypotype: MNHN-BRA-78-41. STATIONS.?Biogas V, KR 45; Biogas VI, DS 74, DS 87; Polygas DS 26; Thalassa 71, X334. Genus Hispanirhynchia Thomson, 1927 Hispanirhynchia cornea (Fischer) PLATE 1: FIGURES 31-38 Rhynchonella cornea (Fischer).?Davidson, 1887:171, pl. 25: figs. 2-4. Rhynchonella (Hemilhyns) cornea (Fischer).?Fischer and Oeh? lert, 1891:13, pl. 1: figs. 2a-u. Hispanirhynchia cornea (Fischer).?Thomson, 1927:159, fig. 49.?Helmcke, 1939:256.?Cooper, 1959:59, pl. 10: figs. 1-21. DESCRIPTION.?This rhynchonellid is pale brown in color, triangular in outline, and very finely capillate on the exterior. The shell sub? stance is impunctate, a fact by itself which distin? guishes this species from other brachiopods from the Gulf of Gascogne except Cryptopora, which is also a rhynchonellid but is minute and its shell usually colorless. Internally Hispanirhynchia cornea is readily sep? arable from terebratulid brachiopods of the Gulf of Gascogne by its spiral lophophore which is coiled in a dorsal direction. This is a characteristic feature of all rhynchonellids. MEASUREMENTS (mm).?Length 23.7, dorsal valve length 21.5, width 24.4, thickness 13.8, apical angle 72? (specimen MNHN-BRA-78- 47a). TYPES.?Hypotypes: MNHN-BRA-78-46a, -47a. STATIONS.?Biogas II, DS 33, CV 21; Biogas III, CV 22; immature specimens from Thalassa 73, Z410, Z413, Z430, Z4435, Z447, and Z459. DISCUSSION.?Most of the specimens from the Gulf of Gascogne are attached to small pebbles by a short, slender pedicle. Unfortunately all of the specimens opened either in transit or when preserved, to spill their long slender lophophore outside the shell. Fischer and Oehlert (1891:15) measured its length at 6 cms when fully extended. Immature specimens were taken by Thalassa at several localities. These can be distinguished from Cryptopora by their rounder outline, less acute beak, poorly developed median septum, and pale yellow color. They can be distinguished from young Macandrevia, Fallax, and Dallina by the lack of punctae, which are usually very coarse in young terebratulids. Fischer and Oehlert report the species from depths ranging from 822 meters off the Sudan to 2018 meters off Cape Finistere. In the Gulf of Gascogne the range is from 994 to 3645 meters. Fischer and Oehlert (1891:15) note its range as similar to that of Dallina septigera (Loven) and Macandrevia cranium (Muller) but more restricted, and state that it often occurs with these two species. At Biogas II, CV 21 it occurs with the two species mentioned by Fischer and Oehlert but at the two other localities in the Gulf of NUMBER 44 11 Gascogne it occurs with Dallina septigera but Ma? candrevia novangliae is substituted for M. cranium. Genus Terebratulina d'Orbigny, 1847 Terebratulina retusa emarginata (Risso) PLATE 1: FIGURES 13-21 Terebratula emarginata Risso, 1826:388, fig. 175. Terebratula quadrata Risso, 1826:389, fig. 176. Terebratula caputserpentis Philippi, 1836:94, pl. 6: figs. 5a, b. Terebratula caputserpentis mediterranea Jeffreys, 1878:401. Terebratulina caputserpentis Fischer and Oehlert [not Linne], 1891:37. Terebratulina retusa emarginata (Risso).?Dall, 1920:296. DISTRIBUTION.?Terebratulina is perhaps the commonest living brachiopod. Except for the Antarctic, where it is rare, it is worldwide in distribution and is especially common in the North Atlantic, North Pacific, and Mediterra? nean, as well as off the east coast of North Amer? ica and in the Caribbean. In the Atlantic two species are recognized, T septentrionalis (Couth- ouy) and T retusa (Linne). The former is generally found in the western Atlantic and the latter in the eastern Atlantic and Mediterranean. The few adult specimens from the Gulf of Gascogne avail? able in this study are regarded as representing the subspecies emarginata of T retusa that is best de? veloped in the Mediterranean, although not con? fined there. DESCRIPTION.?Adult T. r. emarginata from the Gulf of Gascogne is a medium-sized shell readily recognized by its almond shape and costellate exterior, large foramen, minute deltidial plates, and the loop of the dorsal valve in the form of a ring. The cardinalia are also different from other terebratulaceans discussed herein in not having the hinge plates in the form of a platform or forming a chamber. They are marginal at the posterior and thus affect the musculature. The dorsal pedicle muscles are attached to the valve floor rather than to outer hinge plates as in most other terebratulid genera. The immature specimens from the Gulf of Gascogne, which have prominent beading on the costellae of the posterolateral flanks, yield some information on the development of the loop in the dorsal valve. The specimens are all in the collections of Thalassa, which include the young of several other genera. A specimen of 3 mm length of the dorsal valve shows descending branches only of the crura. A specimen with dorsal valve of 4 mm shows the crura lengthened and anteriorly bowed to face each other. A spec? imen with dorsal valve of 5.5 mm shows the anterolateral bands complete and uniting the two descending branches but the crural processes ap? pear only as triangular points. In the adult the crural processes are joined to form a ring that is a generic character of most species of Terebratulina. MEASUREMENTS (mm).?Length 16.4, dorsal valve length 14.5, width 12.5, thickness 7.7, apical angle 68? (specimen MNHN-BRA-78-38a). An interesting feature of Terebratulina is its ped? icle, which may be long or short but is usually frayed at its distal extremity into numerous fibers that have the ability to penetrate limy objects to which the shell may attach itself. On less soluble pebbles they make a circle of fibers on the attach? ment surface. The young of this subspecies, and of other terebratulinas as well, have a few strong costellae. The costellae on the posterolateral flanks are usually strongly beaded. This beading is lost or reduced in the adults (see Plate 1: figures 13-20). The lophophore of Terebratulina (Plate 1: figure 21) is heavily spiculated so that on removal of fleshy tissue or drying, the lophophore maintains its original shape. So strong is the spiculation that some fossil terebratulinoids have been found with lophophore well preserved (Steinich, 1965:79; Rowell and Rundle, 1967). Terebratulina retusa emarginata is recognized by having a median linear depression on the ventral valve and a flattening of the longtudinal median of the dorsal valve, thus producing a modest dorsad wave of the anterior commissure and a gentle emargination of the anterior margin. TYPES.?Hypotypes: MNHN-BRa-78-38a,b, 39a-d, -40, -43. STATIONS.?Biogas I, DS 01; Thalassa 70, 12 SMITHSONIAN CONTRIBUTIONS TO P A L E O B I O L O G Y W368; Thalassa 71, X312, X340, X348, X352, X360; Thalassa 73, Z392, Z397, Z398, Z399, Z402, Z424, Z427, Z436. Terebratulina retusa (Linne) Anomia retusa Linne, 1758: 701.?Dall 1920:294 [for synon? ymy]. Several immature specimens placed under this heading are too small for certain identification as the subspecies T r. emarginata (Risso). STATIONS.?Thalassa 70, W355; Thalassa 71, X340, X348, X352, X360; Thalassa 72, Y396. Genus Eucalathis Fischer and Oehlert, 1890 Eucalathis ergastica Fischer and Oehlert PLATE 1: FIGURES 1-8 Eucalathis ergastica Fischer and Oehlert, 1890a:73; 1891a:48, 132, pl. 3: figs. 6a-g.?Dall, 1920:324. DESCRIPTION.?Small, suggesting an immature Terebratulina, subpentagonal to rounded triangu? lar in outline; longer than wide, maximum width anterior to midvalve. Biconvex, subequivalve. Lateral commissure straight; anterior commissure rectimarginate. Beak short, straight, bearing a triangular foramen bounded by narrow intera? reas. Deltidial plates lacking. Surface marked by 24 costae that expand anteriorly, each costa tend? ing to split anteriorly to produce short fascicles around the anterior and lateral margins. Color white to yellowish white. Ventral valve moderately convex in anterior and lateral profiles. Median part somewhat flat? tened; lateral slopes moderately steep. Interior with strong, thick, teeth elongated parallel to shell margin and bounding narrow fossettes. Ped? icle collar thick. Dorsal valve swollen in the posterior half, with strongly convex umbonal region. Anteromedian portion flattened to form a sulcus. Interior with erect socket plates; short, stout crura leading to small but pointed crural processes. Loop anterior to crural processes forming a semicircle drawn slightly into a median point at its anterior. Crural processes never uniting as in Terebratulina. MEASUREMENTS (mm).? Specimen MNHN-BRA-78-35 MNHN-BRA-78-42 Dorsal valve Thick- Apical Length length Width ness angle 4.7 3.9 4.4 2.3 90? 4.8 4.0 4.4 ? 90? DISCUSSION.?Eucalathis ergastica has been taken off the Atlantic coasts of Spain, Morocco, and Azores in addition to the Gulf of Gascogne. It occurs from 460 meters to 1226 meters in the waters cited above. In the Gulf of Gascogne the depths are 750-1080 meters. Although usually rare and inconspicuous, Eucalathis is widely dis? tributed. It occurs in the Atlantic, Caribbean, Indian, south Pacific, and Antarctic oceans. TYPES.?Hypotypes: MNHN-BRA-78-35, -36, -42. STATIONS.?Thalassa 70, W369; Thalassa 73, Z393, Z409, Z435. Eucalathis tuberata (Jeffreys) PLATE 1: FIGURES 9-12 Terebratula tuberata Jeffreys, 1878:401, pl. 22: fig. 2. Terebratulina tuberata (Jeffreys).?Davidson, 1870:400, pl. 19: figs. 20, 20a; 1880:13; 1886:39, 132, pl. 6: figs. 18-20. Eucalathis tuberata (Jeffreys).?Fischer and Oehlert, 1891:43, pl. 2: figs. 5a-f. DESCRIPTION.?Small, rounded triangular to subpentagonal in outline with greatest width an? terior to middle. Inequivalve, ventral valve hav? ing greater depth. Lateral commissures straight; anterior commissure rectimarginate. Beak short, straight; foramen triangular; deltidial plates min? ute. Pedicle short or long, numerously frayed distally. Color yellowish white. Surface finely cos? tellate, costellae numbering about 40-44, with a median costa on the dorsal valve stronger than the others and a corresponding gap on the ventral side. Costellae strongly and minutely beaded. MEASUREMENT (mm).?Length 3.1, dorsal valve length 2.5, width 3.1, thickness 1.5, apical angle 90? (specimen MNHN-BRA-78-37). TYPES.?Hypotypes: MNHN-BRA-78-37, -61. NUMBER 44 13 STATIONS.?Thalassa 71, X340, X348, X353; Thalassa 73, Z394, Z410. DISCUSSION.?This species differs from E. ergas? tica Fischer and Oehlert in its shape and more numerous, beaded, radial costellae. This rare and little-known species is generally abyssal in its occurrence. Fischer and Oehlert (1891:45) record it from 896 to 2018 meters. Dall (1920:324) rec? ords it from 616 to 2995 meters. In the Gulf of Gascogne its depth range is 900 to 1080 meters. It has been found off the Atlantic coast of Mo? rocco, the Azores, and in the Mediterranean. Genus Meonia Steinich, 1963 Meonia? species A remarkable brachiopod, taken by Thalassa 72 at locality Y407 at 740 meters, appears to be a form unknown in any Tertiary or Recent assem? blage. The specimen evidently came from a fine gravel as indicated by a sample of the bottom in the specimen phial. The specimen appears to have relationship according to its exterior details to the Cretaceous genera Meonia Steinich (1963) and Orthothyris Cooper (1955), the former from the Maastrichtian of Denmark, the latter from the Cretaceous of Cuba. The specimen is small, white, and measures nearly 3 mm in width and slightly more than 3 mm in length. It is concavo-convex with a hinge- line nearly equal to the shell width. The ventral valve is strongly convex in anterior and lateral profiles. The dorsal valve is marked medianly by an anteriorly widening but shallow sulcus. Both valves are ornamented by about 20 subangular costae. The external appearance is similar to that of a small specimen of the Ordovician genus Orthambonites. The two genera resembling that from Y407 also are orthoid in external appearance but both are known to belong to the Cancellothyridacea and are thus related to Terebratulina and Eucalathis. The loop of Meonia is known (Steinich 1963:733) and resembles that of Eucalathis. The loop of the Cuban genus Orthothyris is not known but the cardinalia are clearly those of the Cancellothyri? dacea (Cooper 1973a:389). The exterior of the specimen from Y407 is more like that of Orthothyris but that genus is not known from Europe. The exterior of European Meonia is sufficiently like that of the Y407 specimen to warrant tentative assignment to that genus. The specimen may be from submerged Cretaceous rocks or may have been transported from Cretaceous beds that crop out above sea-level to the east. Genus Gryphus Megerle von Miihlfeldt, 1811 Gryphus vitreus (Born) PLATE 1: FIGURES 27-30 Anomia vitrea Born, 1778:106.?Gmelin, 1792:3347. Terebratula vitrea (Born).?Lamarck, 1801:139; 1819:245.? Sowerby, 1846:353, pl. 70: figs. 56-59.?Philippi, 1836: 95, pl. 6: fig. 6.?Costa, 1851-52:33, pl. 1: figs. 1-3.? Reeve, 1860, pl. 3: fig. 8.? Davidson, 1870:8, pl. 117: fig. 11. Terebratula {Liothyris) vitrea (Born).?Deslongchamps, 1884: 106, pl. 20: figs. 7-11. Liothyris vitrea (Born).?Douville, 1879:265, fig. 6.?David? son, 1886:6, pl. 1: figs. 1-12. Terebratula (Liothyrina) vitrea (Born).?Fischer and Oehlert, 1891:51, pl. 3: figs. 7a-h. Liothyrina vitrea (Born).?Oehlert, 1887:1316, fig. 1104. Gryphus vitreus (Born).?Megerle von Miihlfeldt, 1811:64.? Dall, 1920:311.?Thomson, 1927:193, fig. 58.?Cox, 1934:226, figs. 1-4.?Hertlein and Grant, 1944:91.? Muir-Wood, 1965:H780, figs. 643, 644a-d. DESCRIPTION.?This is a large, white, widely oval, elongate terebratulid having subequally convex valves and usually a very small foramen in an incurved labiate beak. The shells are usually thin, translucent to transparent, but opaque in old or dead shells. The lateral commissure is straight and the anterior commissure rectimargin? ate. The partially visible symphytium is concave. Punctae number about 214 per square mm. The muscles of the interior of the shell have been described by Fischer and Oehlert (1891) and Cox (1934). The arrangement of these is similar to that of most other terebratulacean bra? chiopods that have their dorsal pedicle muscles attached to hinge plates. The cardinal process is 14 SMITHSONIAN CONTRIBUTIONS TO P A L E O B I O L O G Y a variable structure but is usually transversely elliptical, shelf-like, with roughened posterior face. In old shells its margins curl and a median ridge is formed producing two pits. The loop is of considerable interest because it is unusual, not in its general aspect but in its details. The socket ridges are strong but thin plates, slightly inclined and distally expanded, bounding a narrow socket floored by a stout fulcral plate. The outer hinge plates are flat or gently concave, tapering anteriorly, and joining the very narrow crural base to form a narrow shaft (crus) that bears the scoop-shaped anterior half of the loop. The crural base is difficult to identify along the inner margin of the outer hinge plate. In some specimens it forms a slight ridge but in others it appears to be flush with the edge of the hinge plate. The crural processes are short, triangular, delicate, slightly approximate sharp points that arise abruptly from the distal end of the narrow crus slightly anterior to midloop. An? teriorly the crural processes descend to the ante? rior end of the loop where they form almost a right angle with the transverse band. The latter is broad, slightly arched, and with a low median crest. The anterior margin of the loop is gently convex in some specimens but in very well-pre? served ones it is notched at the anterolateral extremities, giving the transverse band a tongue? like distal extremity. The posterior margin of the transverse band is more or less strongly concave toward the anterior. The loop is variable in re? spect to many of its features. It may be narrower in some specimens, wider in others. It is usually equal to about Vz the dorsal valve length and varies from 20% to 25% of the valve width. The mantle cavity is well filled by a plectolo- phous lophophore with large median coil and widely extended lateral lobes. This species is variable in many of its parts. Its shape is often modified by the accidents of its position on the sea floor, whether crowded or free. Its pedicle foramen is variable in size, being min? ute in some forms?so minute in fact, that it is questionable if the pedicle was actually func? tional. The incurvature and labiation of the beak are variable. Deslongchamps (1884, pl. 20: figs. 7-11) describes an aberrant specimen with a large median septum in both valves. Dall (1920:312) mentions two aberrations in the Jeffreys collection that were referred to by Jeffreys as G. v. elongatus and G. v. dilatatus. Ac? cording to Dall there are 4 specimens of the former that are almost cylindrical, a fact that led Dall to state that the condition "can hardly be called a deformity." The other is subcircular and not so swollen as normal. Both aberrations are from off Sardinia. Gryphus vitreus has a wide range of depths from 392 to 2661 meters according to Fischer and Oehlert (1891:53). Dall (1920:311) records it from depths of 73 to 1819 meters. Blochman (1908: 619) reports its depth range as 10-2700 meters. Specimens taken by Biogas and Thalassa from the Gulf of Gascogne are from 280-1980 meters. A shell fragment referred to this species from Biogas V, CP 07 was taken at 2170 meters. MEASUREMENTS (mm).?Length 35.2, dorsal valve length 31.4, width 31.2, thickness 18.0, apical angle 83? (specimen MNHN-BRA-78- 45a). Gryphus vitreus is common in the Mediterranean and off the coasts of France, Portugal, and Spain. TYPES.?Hypotypes: MNHN-BRA-78-45a,b. STATIONS.?Biogas I, DS 01; Biogas V, CP 07; Thalassa 71, X341; Thalassa 73, Z398, Z399, Z402 (all immature). Gryphus? cooperi d'Hondt PLATE 3: FIGURES 1, 2 Gryphus cooperi d 'Hondt, 1976:6, fig. 2. DESCRIPTION.?One specimen of this species re? cently discovered in the Gulf of Gascogne was taken by Thalassa 71, station X352, at 580-545 meters. The specimen is unfortunately damaged by crushing but the loop of the dorsal valve is well preserved. The specimen is 8 mm long by about 6 mm wide. The valves have been sepa? rated so that thickness cannot be measured. The exterior is marked by strong concentric undula- NUMBER 44 15 tions of growth over which are superimposed obscure radial lines. Both valves are moderately convex. The anterior commissure appears to have been rectimarginate. The interior of the ventral valve has a short pedicle collar, small oblique teeth, and no dental plates. The loop and cardinalia of the dorsal valve are well preserved. The form of the loop is suggestive of that of Eucalathis. It has short crura that bear small crural processes located just anterior to the sockets. The outer hinge plates are small, trian? gular, flattish, and without a marginal elevation of the crural base. The descending lamellae are directed anteromedially and unite in a narrowly rounded medial point. The socket ridges are short, thin, and inclined laterally to bound short, nar? row sockets. DISCUSSION.?The dimensions of this specimen do not conform with those of the types of G.? cooperi as it is more slender and elongate. It is also much smaller than the types illustrated by D'Hondt and may be rather a young form of G.? cooperi. However, the loop conforms well to that of the type specimens. This species does not belong to the genus Gry? phus because of the major differences in the loops of the two genera. The loop of G? cooperi is more closely related to that of Dyscolia than to Gryphus. This is seen in the lack of crural bases along the inside margin of the outer hinge plate and in the nature of the transverse band. Dyscolia, which also occurs in the Gulf of Gascogne, has modified outer hinge plates like those of G? cooperi and lacks marginal crural bases. D'Hondt (1976) gives the depth range of his species as 452-850 meters. TYPE.?Hypotype: MNHN-BRA-78-11. Genus Dallithyris Muir-Wood, 1959 Dallithyris? aff. D.? sphenoidea (Jeffreys) not Philippi PLATE 2: FIGURES 36-38 Terebratula vitrea var. sphenoidea Jeffreys [not Philippi 1844], 1878:404, pl. 22: fig. 6. Liothyris sphenoidea (Jeffreys) [not Philippi].?Davidson, 1886: 12, pl. 2: figs. 17, 18 only. Terebratula (Liothyrina) sphenoidea (Jeffreys) [not Philippi].? Fischer and Oehlert, 1891:58, pl. 3: figs. 8a -m. Liothyrina sphenoidea (Jeffreys) [not Philippi].?Blochmann, 1908:619, pl. 37: fig. 11; pl. 38: figs. 19a-c; pl. 39: figs. 23a,b. Dallithyris sphenoidea (Jeffreys) [not Philippi].?Muir-Wood, 1959:304. DESCRIPTION.?A single specimen of this species was taken by Biogas III (CV 22); it displays well the characters of this disputed brachiopod. The shell is white, thin, and translucent. It is elongate oval to pentagonal in outline; the sides are slightly rounded, diverging slightly to just beyond mid? valve but then converging slightly toward the anterior margin, which is gently rounded. The ventral valve is much more convex than the dorsal one, which is shallow and gently convex in profile. The lateral commissure has a strong dor? sal bend near midvalve; the anterior commissure is rectimarginate. The beak is short, suberect, moderately labiate, and truncated by a large, round, permesothyridid foramen. The pedicle valve is narrowly swollen from umbo to anterior margin, the swelling widening slightly anteriorly. The flanks of this valve are very steep. Inside the dorsal valve the loop is very narrow, tapers anteriorly, and occupies about a third of the dorsal valve length. The outer hinge plates are concave, narrow, the crura short and narrow, attached to a spatuloid loop having obtusely angular crural processes and a very broad, nar? rowly arched, transverse band. MEASUREMENTS (mm).?Length 22.6, dorsal valve length 20.2, width 16.3, thickness 13.2, apical angle 70? TYPE.?Hypotype: MNHN-BRA-78-57. STATION.?Biogas III, CV 22. DISCUSSION.?This species, which appears to be confined to the eastern Atlantic, was originally identified by Jeffreys with the fossil form de? scribed by Philippi (1844:67, pl. 18: fig. 6) from Pliocene beds in Sicily. Comparison of the speci? men from the Gulf of Gascogne with examples of the fossil from Sicily indicates that the two species are not the same. The fossil form is larger, with 16 SMITHSONIAN CONTRIBUTIONS TO P A L E O B I O L O G Y maximum width near midvalve, and has a much more convex dorsal valve. Dall (1920:316) and Muir-Wood (1959:304) regarded the Sicilian form and the modern one as distinct. The above synonymy is designed to indicate references to the modern form only. Although creation of a new species is in order, it cannot be done here because of insufficient material. The generic assignment of this species is also difficult to establish at the present time. The loop and hinge plates are quite different from those of Gryphus. The valves have different proportions. Although the species in question externally resem? ble Dallithyris murrayi Muir-Wood (1959:302), there are important differences in the loops. Ter? ebratula sphenoidea Jeffreys (not Philippi) is here assigned to Dallithyris with a query. The modern species occurs outside the Gulf of Gascogne and Bay of Biscay off the Atlantic coasts of Spain, Morocco, and Portugal to the Azores and Canaries. It is found in the Mediter? ranean. It is commonly a deep-water species dwelling at depths of 400 to 2000 meters (Bloch? mann 1908:620). The specimen described herein was taken at 1331 meters. Genus Platidia Costa, 1852 Platidia anomioides (Scacchi and Philippi) PLATE 2: FIGURE 18 Orthis anomioides Scacchi and Philippi, 1844:69, pl. 18: fig. 9. Terebratula appressa Forbes, 1844:193. Platidia anomioides (Scacchi and Philippi).?Costa, 1852:48, pl. 3; fig. 4, pl. 3bis: fig. 6.?Dall, 1870:14, figs. 20, 21.? Davidson, 1880:55, pl. 4: figs. 10, 11.?Deslongchamps, 1884:160, pl. 13: fig. 19.?Fischer and Oehlert, 1891:92, pl. 8: figs. 14a-g.?Thomson, 1927:217, fig. 65.?Atkins, 1959a: 103-132.?Cooper, 1973:21. Platydia anomioides Davidson, 1887:152, pl. 21: figs. 15-19. DESCRIPTION.?Eleven lots of this species were taken by Thalassa but only one of them contained an adult specimen. The genus is readily re- ocgnized by its nearly circular outline, the gently concave dorsal valve, and the nature of the ped? icle region. The beak of the pedicle valve has a triangular pedical opening opposite a fairly wide, V-shaped aperture that takes up much of the umbonal region of the dorsal valve. These open? ings are covered by an integument that includes the short pedicle. Inside the valves there is a great development of the ventral pedicle muscles and a reduction of the diductors. The dorsal valve has a short loop consisting of descending branches united to an anteriorly elevated median septum. The immature specimens range in size from slightly more than a millimeter to about three millimeters. The small specimens show no devel? opment of the septum and thus suggest the genus Amphithyris. The beginning of the median septum can be seen in an individual 2 mm wide (Thalassa 73, Z435). MEASUREMENTS (mm).?(Z435) length 3.5, dor? sal valve length 3.0, width 3.8, thickness 1.0.? TYPE.?Hypotype: MNHN-BRA-78-49. STATIONS.?Thalassa 71, X342, X347, X352; Thalassa 72, ?X395; Thalassa 73, Z399, X402, Z413, Z415, Z417, Z431, Z435. The specimens from the Gulf of Gascogne were dredged by Thalassa from depths varying from 380 to 1050 meters. The species is known from many parts of the world: Mediterranean, Atlantic off Spain, Portugal, and Morocco, in the Carib? bean, Gulf of Mexico, off South Africa, and off Marion Island in the South Pacific. Genus Megerlia King, 1850 Megerlia truncata (Linne) PLATE 3: FIGURES 5-11 Anomia truncata Linne, 1767:1152. Megerlia truncata (Linne).?Davidson, 1887:103-108, pl. 19: figs. 11-20.?Atkins 1961b:95-104. Miihtfeldtia truncata (Linne).?Fischer and Oehlert, 1891:80- 87, pl. 7; figs, l l a - t ? Thomson, 1927:226. M. disculus (Pallas).?Dall, 1920:333. DESCRIPTION.?This is a common brachiopod in the Mediterranean, less so elsewhere. It is pale yellow or pale brown in color, wider than long, and subquadrate in outline. The valves are very variable and unequal in convexity, the dorsal valve being less convex than the ventral valve. The ventral valve is marked medially by a nar- NUMBER 44 17 row, rounded carination and the dorsal valve has a corresponding narrow sulcus. The surface is marked by fine radial lines. Inside the dorsal valve is a long narrow loop with broad transverse band attached to the me? dian septum. The adjustor muscles are greatly expanded in the ventral valve, the diductors are reduced in size and located posterior of the ad? ductors. In addition to the Mediterranean and Gulf of Gascogne, this species is known from the eastern Atlantic from Cape Breton to the Azores. It was found in the Gulf of Gascogne by Fischer and Oehlert at 411-550 meters. The specimen from Thalassa 70, W368 came from 137-400 meters. In the Mediterranean and Atlantic it usually occupies moderate deeps from 16-555 meters in the Mediterranean, and 64-550 meters in the Atlantic, according to Fischer and Oehlert (1891: 85). This species is known also from Pliocene rocks in the Mediterranean margins. TYPES.?Hypotypes: MNHN-BRA-78-59a,b. STATION.?Thalassa 70, W368. Megerlia echinata (Fischer and Oehlert) PLATE 3: FIGURES 3, 4 Muhlfeldtia echinata Fischer and Oehlert, 1890a:73; 1891:90, pl. 7: figs. 13a-g.?Cooper, 1977:125, pl. 17: figs. 14-22. Pantellaria echinata (Fischer and Oehlert).?Dall, 1920:336. Megerlia echinata (Fischer and Oehlert).?Atkins, 1961a: 89- 94. DESCRIPTION.?This species is represented by a single young specimen. It differs from M. truncata (Linne) in having somewhat stronger radial markings and in having pronounced rows of short spines on the ventral valve. The ventral valve is less carinate than that of M. truncata. This species is usually not deformed and has a normal deltidial area in comparison to Pantellaria monstruosa (Scac? chi). The interior of the dorsal valve of the Thal? assa specimen reveals the initial pair of oblique plates near midvalve that are the beginning of the loop, which in adult form is the same as M. truncata. The specimen was taken at 1000 meters. TYPE.?Hypotype: MNHN-BRA-78-58. STATION.?Thalassa 70, W355 Genus Pantellaria Dall, 1919 Pantellaria monstruosa (Scacchi) PLATE 3: FIGURES 16-18 Terebratula monstruosa Scacchi, 1838:17.?Costa, 1851-52:43, pl. 9: figs. 4, 5. Megerlia truncata var. monstruosa (Scacchi).?Davidson, 1887: 108, pl. 19: figs 21, 22. Miihlfedltia monstruosa (Scacchi).?Fischer and Oehlert, 1891: 87, pl. 7: figs. 12a-c. Pantellaria monstruosa (Scacchi).?Dall, 1920:335.?Thomson, 1927:228. DESCRIPTION.?This species is characterized by irregularity and distortion because it lives closely appressed to the substrate. This close appression causes abrasion of the dorsal umbo and dorsal ornament. The result is that the foramen is en? larged to include the umbonal region of the dorsal valve, a condition like that of Platidia. Because of its close appression the dorsal valve is smooth but the ventral valve has fine radial sculpture like that of Megerlia. The loop of the dorsal valve is exactly the same as that of Megerlia but may be distorted because of close attachment to the sub? strate. In the Mediterranean, the species is often as? sociated with M. truncata (Linne) leading to the suspicion that it might not be a good species. However, Fischer and Oehlert found it in isolated situations as seems the case with the specimen taken by Thalassa 71 (W352). In the Mediterra? nean, its depth range is 36-553 meters. In the Gulf of Gascogne its range is 411 (Fischer and Oehlert) to 580 meters (Thalassa 71). The Tra- vailleur dredged P. monstruosa at depths from 411- 1068 meters. The species has been taken as a fossil from the Pleistocene of Sicily (Fischer and Oeh? lert, 1891:89). TYPE.?Hypotype: MNHN-BRA-78-62. STATION.?Thalassa 71, X352. Genus Macandrevia King, 1859 Macandrevia cranium (Muller) Figures 2, 3; PLATE 2: FIGURES 19-30 Terebratula cranium Muller, 1776:249.?Sowerby, 1847:354, pl. 70: figs. 60-62.?Davidson, 1855:10, fig. 8. 18 SMITHSONIAN CONTRIBUTIONS TO P A L E O B I O L O G Y Waldheimia cranium (Muller).?Gray, 1853:58.?Hancock, 1858, pl. 53: figs. 3, 4, 9; pl. 54: figs 2-7.?Dall, 1870: 110.?Friele, 1877:380, pl. 1-3: figs. 1-4, 7a, 8-11.?Sars, 1878:10, pl. 1: figs. 3a-c. Waldheimia (Macandrevia) cranium (Muller).?Davidson, 1887: 61, pl. 12: figs. 11-23; pl. 13: figs. 1, 2. Magellania (Macandrevia) cranium (Muller).?Fischer and Oehlert, 1891:72-79, pl. 5: figs. lOa-s. Terebratula glabra Leach 1852:359, pl. 13: figs. 3-5. Macandrevia cranium (Muller).?King, 1859:261.?Dall, 1877: 45.?Helmcke, 1939:243.?Elliott, 1958:3-6.?Atkins, 1959b:335-350.?Cooper, 1973b:24. DISTRIBUTION.?Macandrevia cranium (Muller) is one of the commoner and better known brachio? pods. It is widely distributed and occurs along the shores of well populated northern countries so that it has been frequently collected. Its anatomy was described and beautifully illustrated by Han? cock (1858). The species is widely distributed in the North Atlantic where it is found off Norway, Scotland, Greenland, Iceland, Ireland, Spain, Sic? ily, and France. It was taken from off Nova Scotia by the R / V Vema (Cooper, 1973b:24). It enjoys a considerable bathymetric range from one fathom (1.83 meters) to 1000 meters. It is the only species ot Macandrevia inhabiting relatively shallow water except for one report of M. americana Dall in 122 fathoms off the coast of Chile. DESCRIPTION.?Four lots of adults of this species taken by Biogas display some variation, the lot from Biogas 1, DS 01 consists of 44 specimens ranging in size from 12 mm to almost 24 mm. The specimens (Plate 2: figures 19-24) are cream colored, elongate oval in outline with a tendency for the anterior margin to be truncated. The shells range in thickness from 6 mm to 13 mm. The L / W index is 1.22 and that of the T / W is 0.66. Inside the dorsal valve the loop varies in width with the width of the shell but its length is usually between 70% and 80% of the dorsal valve length and its width. These figures are in strong contrast to those of the smaller Macandrevia novan? gliae Dall, reported herein from the Gulf of Gas? cogne for the first time. Adult Macandrevia cranium is identified in three other localities: the Biogas I, CM 01, CW 01, and Biogas II, CV 21. In each of these localities the specimens are somewhat larger than those de? scribed above and are a pale brown color, rather than cream color. Their dimensions are in accord? ance with those of Biogas I, DS 01, and their outlines, which are variable, are in accordance with the variations of outline and thickness ex? hibited by the first (DS 01) lot. The depth range of these four lots is from 280 meters to 994 meters, a wide diversity of depths. Although all of the specimens from DS 01 clearly belong to M. cranium, all are slightly smaller than the length attained by this species in more noth- ern waters where a robust form from Norway will measure slightly more than 25 mm in length. A single dorsal valve from off the Shetlands mea? sures 26 mm in length, indicating a complete specimen of at least 28 mm long. TYPES.?Hypotypes: MNHN-BRA-78-50a-d, -51,-52. STATIONS.?Biogas I, DS 01, CM 01, CW 01; Biogas II, CV 21, Thalassa 73, Z409. Specimens reported as Macandrevia species are all young forms, probably belonging here because of the relatively shallower depth at which they were dredged: Thalassa 73, Z394, Z397, Z407, Z410, Z413, Z416, Z417, Z421, Z427, Z430, Z431, Z436, Z437, Z459; Thalassa 71, X304, X340; D'Hondt records this species from the Gulf of Gascogne at a depth of 2070 meters. This is deeper than the record of any specimen of M. cranium found by Fischer and Oehlert or by Dall (1920:354, 355) and by Biogas and Thalassa from the Gulf of Gascogne. Macandrevia novangliae com? monly occurs in deeper water than M. cranium and could be confused with that better known species. Macandrevia novangliae Dall FIGURES 4, 5; PLATE 2: FIGURES 1-17 Macandrevia cranium, new var. novangliae Dall, 1920:355. Macandrevia novangliae Cooper, 1977:127, pl. 26: figs. 1-11. DESCRIPTION.?Small for genus, widely oval in outline, longer than wide with length equal to or up to 35% more than width. Biconvex with thick- NUMBER 44 19 20 18 16 14 12 ? * 12 14 16 18 L E N G T H 20 22 24 FIGURE 2.?Scattergram showing relationship of length and width of Macandrevia cranium (Muller) (small dot = Biogas I, DS 01; dark star = Biogas I, CW 01; large dot = Biogas I, C M 01; open star = Biogas II, CV 21). ness equal to about 66% of width. Sides rounded; anterior margin gently rounded to flattened; pos? terolateral margins forming angle of 70?-100? Lateral commissure straight; anterior commissure rectimarginate with tendency to faint sulcation in some specimens. Beak short, truncated, erect; beak ridges prominent and marking narrow in? terarea; foramen round, anteriorly truncated; no deltidial plates. Pedicle long and slender or short and frayed distally so that it barely protrudes from the foramen. Shell white when weathered or worn, usually covered by a thin, light brown periostracum. Surface marked by incremental lines of growth only. Punctae about 170/mm2. Ventral valve evenly and moderately convex in lateral profile, curvature increasing slightly in umbonal region. Anterior profile somewhat nar? rowly swollen, with steep sides. Umbonal region swollen; anterior slope moderately steep. Dorsal valve less convex than ventral one; gently convex in lateral profile, anterior abrupt and steep. Anterior profile gently convex with sides abrupt, steep. Umbonal region moderately swollen. 20 SMITHSONIAN CONTRIBUTIONS TO P A L E O B I O L O G Y 14 co 12 CO LU z * o X 1- 10 8 6 it ? 10 12 14 W l D T H 16 18 20 FIGURE 3.?Scattergram showing relationship of thickness to width of Macandrevia cranium (Muller) (small dot = Biogas I, DS 01; dark star = Biogas I, CW 01; large dot = Biogas I, C M 01; open star = Biogas II, CV 21). Ventral valve with small cyrtomatodont teeth buttressed by strong, short dental plates. Delthy? rial cavity strongly thickened. No pedicle collar. Muscle field lightly impressed; vascula media well developed posteriorly. Dorsal valve with short, stout, slightly inclined socket ridges and thick fulcral plates. Outer hinge plates narrow, flattened, tapering into short and narrow crus. Inner hinge plates thin, inclined inward, and meeting floor to bound a narrow notothyrial cavity; inner hinge plates tapering anteriorly and extending for about 1/3 valve length. Diductor muscle attachments in pit at apex, not forming boss. Delthyrial cavity marked medially by low ridge or myophragm separating elongate attachments of dorsal pedical muscles. Loop long; crural processes small, sharply pointed, located about VA length of loop anterior to apex; descending lamellae of loop narrow ribbons inclined slightly medially; ascending la? mellae broad, widening posteriorly where they join broad, flattened, transverse band with apical median reentrant bounded by blunt points. MEASUREMENTS (mm).? Dorsal Specimen MNHN-BRA-78-48a MNHN-BRA-78-48b MNHN-BRA-78-48c MNHN-BRA-78-48d MNHN-BRA-78-48e MNHN-BRA-78-48f Length 13.2 14.3 14.2 14.6 13.3 13.8 valve length 11.5 12.8 12.3 13.2 11.6 11.9 Width 10.9 12.6 10.4 11.9 11.2 11.2 Thick? ness 7.8 7.9 8.3 8.2 7.5 8.5 Apical angle 100? 95? 62? 95? 84? 78? MNHN-BRA-78-48g 16.5 14.6 12.4 9.3 71' DIAGNOSIS.?Small, roundly pentagonal Macan? drevia with length approximately 20% greater than the width. TYPES.?Holotype: USNM 78069; paratypes: USNM, 49068, 50668, 78340. Figured hypotypes: MNHN-BRA-78-48a,b,d,f,h. NUMBER 44 21 16 14 12 10 8 6 ? o ?? : o O . ? ? . ? ? ? ? ? ? ? * ? 6 8 10 12 14 L E N G T H 16 18 20 FIGURE 4.?Scattergram showing relationship of length and width of Macandrevia novangliae Dall (small dot = Biogas V, CP 07; open circle = specimen from off New Jersey, U.S.A.; dark star = Biogas VI, CP 23; large dot = Biogas IV, CP 03; open star = Biogas II, DS 33; dark square = Biogas VI, C P 09). STATIONS.?Biogas II, DS 33?; Biogas III, CV 22?, CV 23, CV 24, CV 32; Biogas IV, CP 03; Biogas V, CP 07; Biogas VI, CP 09, CP 23; Polygas CV 10, CV 11. COMPARISON.?This species need be compared only to the smaller members of the genus: Macan? drevia craniella Dall, M. tenera Jeffreys, and the fossil M. euthyra (Philippi). Macandrevia craniella is a larger and relatively narrower species than M. novangliae. From M. tenera, which is similar in size, it differs in being a more compact form and more strongly pentagonal. It is wider than M. tenera, which is somewhat elongate. The loop of M. tenera is about 70% of the dorsal valve length and it is about 31% of the dorsal valve width. The loop of M. tenera has width/length relationship of 0.36. These dimensions of the loop of M. tenera are quite different from those of M. novangliae. The width/ length relationship of the loop of M. novangliae is 0.65 and it occupies about half the length and 36% of the width of the dorsal valve. Macandrevia novangliae is similar in shape to M. euthrya from the Pliocene of the Mediterranean but the fossil form is much larger. 22 SMITHSONIAN CONTRIBUTIONS TO P A L E O B I O L O G Y S 1 0 LLl z * 8 o 6 ? . ? ? ? * O 6 10 12 W l D T H 14 16 FIGURE 5.?Scattergram showing relationship of thickness and width of Macandrevia novangliae Dall (small dot = Biogas V, CP 07; open circle = specimen from off New Jersey, U.S.A.; dark star = Biogas VI, CP 23; large dot = Biogas IV, CP 03; open star = Biogas II, DS 33; dark square = Biogas VI, CP 09). Macandrevia novangliae externally resembles Dal? lina parva, new species, in size and color but the two are readily distinguished by lack of deltidial plates and dorsal median septum and presence of dental plates; in Dallina parva dental plates are lacking and a median septum and deltidial plates are present. A specimen from Biogas II, DS 33 and one from Biogas III, CV 22 are wider and larger than usual for M. novangliae. They are placed here with a query as they occur in fairly deep water. DISCUSSION.?Macandrevia novangliae is not a well known species as it occurs in very deep water off the New England coast of the United States ranging in depth from 1837 to 2174 meters. The report that the type specimen was taken at 137 meters (Dall 1920:355) is an error; the specimen actually comes from 1837 meters. The bathyme- tric range of the specimens from Gulf of Gascogne is similar to that of the New England ones, the range being 1895 to 2338 meters. Macandrevia novangliae inhabits much deeper water than M. cranium (Muller). The record by d'Hondt (1976: 2) of M. cranium from 2070 meters suggests M. novangliae rather than M. cranium. Genus Fallax Atkins, 1960 Fallax Atkins, 1960a: 72. DESCRIPTION.?This genus is a homeomorph of Dallina but differs in its adult condition from that genus in the possession of dental plates in the ventral valve and in having its adult loop in the campagiform stage, that is, the descending la? mellae of the loop are still attached to the median septum. The genus was first seen in the western approaches of the English Channel, where it was dredged in waters at depths ranging from 915 to 1190 meters. Fallax dalliniformis Atkins PLATE 2: FIGURES 31-35 Dallina septigera Fischer and Oehlert [not Loven], 1891, pl. 4: figs 9aa,ab, 9r-u; pl 5: figs 9a-c [= Fallax dallimformis Atkins]. Fallax dallimformis Atkins, 1960a:71-89, pl. 1: figs. 1-5. DESCRIPTION.?About medium size, pentag? onal in outline, wider than long; inequivalve, ventral valve having greater depth. Sides nearly NUMBER 44 23 straight, forming shoulders with posterolateral margins. Beak forming angle of 80?, small, short, erect, and truncated by small, round, mesothyri? did foramen, breached on its ventral side. Sym? phytium visible. Lateral commissure strongly curved toward dorsal valve; anterior commissure broadly sulcate but incipiently intraplicate. Color white, with traces of thin, light brown perios- tracum. Ventral valve strongly convex in lateral profile with maximum curvature in umbonal region. Anterior profile forming steep-sided arch. Anter? omedian region flattened and slightly depressed to form broad, shallow sulcus. Flanks nearly ver? tical. Dorsal valve strongly convex in lateral profile, with abrupt ventrad curvature near front. Ante? rior profile broadly and very gently convex, with only slight development of narrow flanks. Median third swollen into gentle fold that opposes faint sulcus of ventral valve. INTERIOR.?Ventral valve with short dental plates and loop attached to median septum. MEASUREMENTS (mm).?Length 20.6; dorsal valve length 17.0; midwidth 15.5; maximum width at anterior 16.2; thickness 13.2; apical an? gle 80? TYPE.?Hypotype: MNHN-BRA-78-53. STATION.?Biogas III, CV 22. COMPARISON.?Fallax is an external homeo- morph of Dallina septigera (Loven) with which it has been found. It is a narrower shell with more nearly straight sides when compared to Dallina. The more striking differences are on the interior of both valves. The ventral valve of Fallax has dental plates but these are not present in adult Dallina septigera. The major difference is in the loop of the dorsal valve, that of Dallina is com? pletely free of the median septum with all attach? ments resorbed, whereas the loop oi Fallax has the descending lamellae tied to the median septum by lateral branches. Actually the loop of Dallina passes through a fallax-stage (campagiform) in its development. In Fallax on the other hand adult? hood is reached before freeing the loop and the arrested stage is typical of the genus. DISCUSSION.?Fallax occurs in the Pliocene of Sicily. Fallax is probably more widespread than now recognized in both fossil and Recent occur? rences. Foster (1974:88) records a modern species from the Antarctic. Genus Dallina Beecher, 1893 Dallina septigera (Loven) PLATE 2: FIGURES 41-43 Terebratula septigera Loven, 1846:29. Waldheimia septigera (Loven).?Gray, 1852:59.?Davidson, 1855:441, pl. 10: fig. 1.?Dall, 1871:13, pl. 1: fig. 4; pl. 2: fig. 9.?Friele, 1877:380, pl. 3: figs. 5, 6; pl. 4: figs. 12- 14.?Davidson, 1886:56, pl. 11: figs. 1-10. Dallina septigera (Loven).?Dall, 1920:357.?Helmcke, 1939: 247, fig. 258.?Atkins, 1960b:91-99, pl. 1. DESCRIPTION.?This species is homeomorphous with Fallax dallimformis Atkins but usually can be distinguished by its more triangular shell, with the greatest width at the anterior. The interior details, however, are the final recourse in deter? mining the generic character. Adult D. septigera is without dental plates and the loop is unsupported except by crura. The species occurs fairly com? monly in the northeastern and eastern Atlantic, off Norway, Scotland, Ireland, Spain, Portugal, and Morocco. It ranges in depth from 108 to 2338 meters. The latter depth recorded from two spec? imens from Biogas II DS, 33 is the deepest record for the species. Except for the fact that D. septigera and Fallax dallimformis are often confused, the anatomy of the former is very well known. After her discovery of Fallax, Atkins (1960b) redescribed Dallina in considerable detail. MEASUREMENTS (mm).?Length 28.8, dorsal valve length 25.0, width 25.2, thickness 18.4, apical angle 70?, (Biogas I, CM 01). TYPE.?Hypotype: MNHN-BRA-78-56. STATIONS.?Biogas I, CM 01; Biogas II, DS 33, CV 21; Biogas IV, DS 52, DS 62: Thalassa 71, X341, Thalassa 73, Z410, Z414, Z417, Z421, Z425, Z435. All but Z410 and the last of the Thalassa localities yielded only immature speci? mens impossible to identify generically, whether Fallax or Dallina, because the immature forms of 24 SMITHSONIAN CONTRIBUTIONS TO P A L E O B I O L O G Y the two are nearly identical. For convenience these tiny specimens are recorded as D. septigera because it is the more common species of Dallina. Dallina parva, new species PLATE 3: FIGURES 19-36 DESCRIPTION.?Small, wider than long, sub- triangular in outline with maximum width at bounded by steep inner hinge plates. Loop long, occupying about 2/3 valve interior, with delicate and slender descending lamellae supporting an expanded and ascending element and transverse band. Loop in young attached to crest of median septum but free in adult. Loop freed from septum after dorsal valve attains seven millimeters of length. MEASUREMENTS (mm).? Specimen MNHN-BRA-78-63a MNHN-BRA-78-63b MNHN-BRA78-63c Length 11.0 10.2 8.3 Dorsal valve length 9.7 9.0 7.1 Mid- width 8.3 7.1 6.4 Maximum width 8.8 8.5 6.9 Thick? ness 6.5 6.5 4.6 Apical angle 72? 72? 74? anterior; sides gently rounded and forming angle of about 70?. Anterolateral extremities somewhat narrowly rounded; anterior margin gently rounded. Lateral commissure slightly concave to? ward ventral side; anterior commissure broadly and gently sulcate. Beak narrow, suberect; fora? men small, round, mesothyridid; symphytium concave, almost wholly visible. Surface marked by concentric lines of growth only, often crowded anteriorly. Color yellow to pale brown. Ventral valve interior without pedicle collar; hinge teeth small; no dental plates seen in young or adult specimens. Diductor scars large widely separated, deeply incised. Dorsal valve interior with median septum long, reaching for three fourths valve length, rising to sharply pointed crest at 1/4 valve length, then tapering to disappearance anteriorly. Notothyrial chamber small, about 1/5 to 1/6 valve length, TYPES.?Holotype: MNHN-BRA-78-63b; fig? ured paratypes: MNHN-BRA-78-63a, d-i; unfi? gured paratype: MNHN-BRA-78-63c. STATION.?Thalassa 71, X340. DIAGNOSIS.?The smallest known Dallina char? acterized by gentle sulcation of the anterior com? missure and lack of dental plates in the young. DISCUSSION.?The small size of these specimens made their assignment to Dallina suspect, but the absence of dental plates and the free loop in the adult makes identification with Dallina correct. Dallina species Under this name are recorded specimens of immature Dallina that cannot be placed specifi? cally. Thalassa 71, X312, X342, X343, X345, X347, X348, X352, X353; Thalassa 72, Y395, Y401. Literature Cited Atkins, D. 1959a. The Growth Stages of the Lophophore of the Brachiopods Platidia davidsoni (Eudes Deslong? champs) and Platidia anomioides (Philippi), with Notes on the Feeding Mechanism. Journal of the Marine Biological Association of the United Kingdom, 38:103-132. 1959b. The Early Growth Stages and Adult Structure of the Lophophore of Macandrevia cranium (Muller) (Brachiopoda, Dallinidae). Journal of the Marine Biological Association of the United Kingdom, 38:335- 350. 1960a. A New Species and Genus of Brachiopoda from the Western Approaches, and the Growth Stages of the Lophophore. Journal of the Marine Biological Association of the United Kingdom, 39:71-89. 1960b. A Note on Dallina septigera (Loven) (Brachiopoda, Dallinidae). Journal of the Marine Biological Associa? tion of the United Kingdom, 39:91-99, plate 1. 1961a. The Generic Position of the Brachiopod Megerlia echinata (Fischer and Oehlert). Journal of the Marine Biological Association of the United Kingdom, 41:89- 94. 1961b. 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Volume 2, 303 pages, plates 13-28. Schuchert, C , and C. M. LeVene 1929. Fossilium Catalogus, 1: Animalia, part 42: Brachiopoda. 140 pages. Berlin: W. Junk. Sowerby, G. B. 1846, 1847. The Recent Brachiopoda. In Thesaurus Con? chy liorum, parts 6, 7:221-406, plates 67-73. Lon? don. 28 SMITHSONIAN CONTRIBUTIONS TO P A L E O B I O L O G Y Steinich, G. 1963. Drei neue Brachiopoden-gattungen der Subfami- lie Cancellothyrinae Thomson. Geologie, 12(6): 732-740. 1965. Die Artikulaten Brachiopoden der Riigener Schreibkreide (Unter-Maastricht). Paldontologische Abhandlungen, Palaozoologie, 2(1): 220 pages, 21 plates. Thomson, J. A. 1918. Brachiopoda. In Australasian Antarctic Expedition, 1911-1914, Scientific Reports (Zoology and Botany), 4(3): 76 pages, plates 15-18, map. 1926. A Revision of the Subfamilies of the Terebratuli? dae (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, 103 figures, 2 plates. Waagen, W. H. 1882 [ 1885]. Salt Range Fossils, part 4 (2): Brachiopoda. Palaeontologia Indica, Memoir, series 13, 1(2): 391- 770, plates 25-86 [(2):391-546, plates 29-49, Au? gust 1883; (5):729-770, plates 82-86, July 1885]. Williams, A., et al. 1965. Brachiopoda. In R. C. Moore, editor, Treatise on Invertebrate Paleontology, part H, 927 pages, 746 figures. Lawrence, Kansas: University of Kansas Press. Zezina, O. N. 1965. The Distribution of the Deep Water Brachiopod Species, Pelagodiscus atlanticus (King). Okeanologiya, 5(2):345-358. 1970. On the Distribution of Brachiopods in the Recent Ocean with Some Reference to the Problem of Zoogeographical Zonation. Palaentological Zhurnal, 2:3-17. Plates 29 3 0 SMITHSONIAN CONTRIBUTIONS TO P A L E O B I O L O G Y PLATE 1 FIGURES 1-8.?Eucalathis ergastica Fischer and Oehlert: 1-4, Anterior, dorsal, side, and ventral views of adult, X 5, hypotype MNHN-BRA-78-35 (Thalassa 73, Z409, at 1035-1080 meters). 5, Interior of old dorsal valve, X 5, showing much thickened loop, hypotype MNHN-BRA- 78-36; 6, spicular loop from preceding, X 5 (Thalassa 73, Z393, at 750 meters). 7, 8, Interior of ventral and dorsal valves of specimen younger than preceding, X 5, showing characteristic loop, hypotype MNHN-BRA-78-42 (Thalassa 73, Z435, at 1050 meters). FIGURES 9-12.?Eucalathis tuberata (Jeffreys): Side, anterior, ventral, and dorsal views of specimen showing frayed pedicle and fine ornament, hypotype MNHN-BRA-78-37; 9, 12, at X 6; 10, 11, at X 5 (Thalassa 73, Z410, at 1180 meters). FIGURES 13-21.? Terebratulina retusa emarginata (Risso): 13, Dorsal view of complete adult specimen, X 2, showing frayed pedicle, hypotype MNHN-BRA-78-38a; 20, interior of dorsal valve of another specimen, X 2 showing adult loop in form of a ring, hypotype M N H N - BRA-78-38b; 21, spicular skeleton of lophophore of preceding dorsal valve, X 3 (all from Biogas I, DS 01, at 310 meters). 14, 15, Dorsal views of two immature individuals, X 5, showing strongly beaded costellae and wide foramen of young, hypotypes MNHN-BRA-78-39a,b; 18, 19, interior of two immature dorsal valves showing loop with transverse band incomplete and just completed at anterior, X 5, hypotypes MNHN-BRA-78-39c,d (all from Thalassa 73, Z398, at 330 meters). 16, A very young specimen, X 5, showing elongate outline, hypotype MNHN-BRA-78-40 (Thalassa 73, Z393 at 390 meters). 17, Interior of very young dorsal valve, showing descending lamellae of loop just forming, X 5, hypotype MNHN-BRA-78-43 (Thalassa 73, Z397, at 511 meters). FIGURES 22-25.?Cryptopora gnomon Jeffreys 22-24, Dorsal, side, and ventral views of complete specimen, X 5, hypotype MNHN-BRA-78-41; 25, preceding specimen opened to show dental plates and median septum, X 5 (Biogas V, KR 45, at 2864 meters). FIGURE 26.?Crania anomala turbinata (Poli): Dorsal view of young specimen attached to same pebble as specimen of Macandrevia cranium (Muller), X 1.5, hypotype MNHN-BRA-78-44 (Biogas I DS 01, at 310 meters). FIGURE 27-30.?Gryphus vitreus (Born): 27-29, Anterior, side, and dorsal views, of typical specimen, X 1, showing small foramen, and rectimarginate anterior commissure, hypotype MNHN-BRA-78-45a; 30, posterior of interior of dorsal valve, X 2, showing short loop with flattened hinge plates and slender crura, hypotype MNHN-BRA-78-45b (all from Biogas I, DS 01, at 310 meters). FIGURE 31-38.?Hispanirhynchia cornea (Fisher): 31-33, Anterior, side, and dorsal views, X 1, of large and wide specimen, hypotype MNHN-BRA-78-46a; 34, posterior of preceding, X 3, showing beak, foramen, and deltidial plates; 35, exterior of part of dorsal valve, X 5, showing capillate surface (all from Biogas III, CV 22, at 1331 meters). 36, 37, Ventral and side views of interior of dorsal valve, X 2, showing short, median septum and spinulifer crura, hypotype MNHN-BRA-78-47a; 38, posterior of preceding enlarged, X 3, to show details of hinge plates and crura (Biogas II, CV 21, at 994 meters). NUMBER 44 31 32 SMITHSONIAN CONTRIBUTIONS TO P A L E O B I O L O G Y PLATE 2 FIGURES 1-17.?Macandrevia novangliae Dall: 1, Dorsal view of holotype, U S N M 78069, X 2, (latitude 39?38' N, longitude 70?22' W, off New Jersey, United States, at 1837 meters). 2-4, Anterior and dorsal views, X 1, of oval specimen, hypotype MNHN-BRA-48f; 5-7, side, anterior, and dorsal views, X 1, of another specimen rounder than preceding, hypotype MNHN-BRA-78-48d; 8-10, anterior, side, and dorsal views, of round individual, X 1, hypotype MNHN-BRA-78-48a; 11, dorsal view of preceding, X 2, showing unmodified foramen; 12-14, anterior, side, and dorsal views, X 1, of more posteriorly acute specimen, hypotype MNHN-BRA-78-48b; 15, dorsal view of preceding, X 2; 16, 17, ventral and side views of interior of hypotype MNHN-BRA-78-48h, showing loop, X 2 (all from Biogas V, C P 0 7 , at 2170 meters). FIGURE 18.?Platidia anomioides (Scacchi and Philippi): Dorsal view of exterior of largest specimen, X 5, hypotype MNHN-BRA-78-49 (Thalassa 73, Z435, at 1050 meters). FIGURES 19-30.?Macandrevia cranium (Muller): 19-21, Anterior, side, and dorsal views, X 1, of fairly round specimen, hypotype MNHN-BRA-78-50a; 22, 23, anterior and dorsal views, X 1, of specimen more slender than preceding, hypotype MNHN-BRA- 78-50b; 24, preceding specimen, X 2, showing unmodified foramen; 28, side view of interior of dorsal valve showing the loop, X 2, hypotype MNHN-BRA-78-50c; 30, ventral view of interior of another dorsal valve, X 2, showing free loop and sloping hinge plates, hypotype MNHN-BRA-78-50d (all from Biogas I, DS 01, at 310 meters). 25-27, Side, anterior, and dorsal views, X 1, of specimen larger than preceding ones, hypotype MNHN-BRA-78-51 (Biogas II, CV 21, at 994 meters). 29, Interior of immature specimen showing loop in early campagiform stage, X 9, hypotype MNHN-BRA-78-52 (Thalassa 73, Z409, at 1080 meters). FIGURES 31-35.?Fallax dallimformis Atkins: 31-34, Side, dorsal, ventral, and anterior views, X 1, of characteristic specimen, hypotype MNHN-BRA-78-53; 35, preceding specimen, X 1.5 showing round foramen (Biogas III, CV 22, at 1331 meters). FIGURES 36-38.?Dallithyris? aff. D.? sphenoidea (Jeffreys): Anterior, dorsal, and side views, X 1, of complete specimen, hypotype MNHN-BRA-78-57. FIGURES 39, 40.?Pelagodiscus atlanticus (King): Dorsal views of two specimens X 5, showing long setae, hypotypes MNHN-BRA-78-54, -55 (respectively from Biogas IV, DS 57, at 2906 meters, and Biogas VI, CP 17 at, 4706 meters). FIGURES 41-43.?Dallina septigera (Loven): Side, anterior, and dorsal views of large specimen, X 1, hypotype MNHN-BRA-78-56, showing triangular outline, anterior folding, and large foramen (Biogas I, C M 01, at 1010 meters). NUMBER 44 33 3 4 SMITHSONIAN CONTRIBUTIONS TO P A L E O B I O L O G Y PLATE 3 FIGURES 1, 2.?Gryphus? cooperi d 'Hondt: 1, Interior of dorsal valve, X 5, showing loop with its anterodorsally projecting transverse band, hypotype MNHN-BRA-78-11; 2, exterior of ventral valve of preceding specimen, X 5, showing strong concentric growth undulations and faint radii (Thalassa 71, X352, at 580-545m). FIGURES 3, 4.?Megerlia echinata (Fischer and Oehlert): Dorsal and ventral views, X 5, of young individual, hypotype MNHN-BRA-78-58 (Thalassa 70, W355, at 1000 m). FIGURES 5-11.?Megerlia truncata (Linne): 5, Dorsal view of average specimen, X 1, hypotype MNHN-BRA-78-59a; 6-9, dorsal, anterior, side, and ventral views, X 2, of preceding specimen, showing sulcate anterior commissure; 11, exterior of part of preceding specimen showing costellae and small spines, X 3; 10, interior of dorsal valve, X 2, showing cardinalia and median septum, hypotype MNHN-BRA-78-59b (Thalassa 70, W368, at 400-137 m). FIGURES 12-14.?Crania anomala (Muller): 12, Exterior of a dorsal valve, X 1, hypotype M N H N - BRA-78-60; 13, 14, side and dorsal views, X 2, of preceding specimen (Thalassa 70, W368, at 400-137 m). FIGURE 15.?Eucalathis tuberata (Jeffreys): Interior of dorsal valve, X 4, showing cardinalia and damaged loop, hypotype MNHN-BRA-78-61 (Thalassa 71, X348, at 900-600 m). FIGURES 16-18.?Pantellaria monstruosa (Scacchi): Anterior, dorsal, and ventral views X 2, of characteristically distorted specimen, hypotype MNHN-BRA-78-62 (Thalassa 71, X352, at 580-545 m). FICURES 19-36.?Dallina parva, new species: 19, Dorsal view of complete specimen, X 1, holotype MNHN-BRA-78-63b; 20-23, dorsal, ventral, anterior, and side views, X 3, of holotype; 24, dorsal view, X 1, of another complete specimen, paratype MNHN-BRA-78-63a; 25-28, ventral, side, dorsal, and anterior views, X 3 of preceding paratype; 29-31, side, partial side, and ventral views of specimen with complete but young loop attached to median septum, paratype MNHN-BRA-78-63d; 32, 33, ventral views of two dorsal valve interiors, X 4, second showing loop with attachment to median septum partially resorbed and first with loop still attached to the median septum, paratypes MNHN-BRA-78-63g,h; 34, interior of the ventral valve without dental plates, X 4, paratype MNHN-BRA-78-63e; 35, ventral view of young specimen, X 3, showing descending branches of loop attached to median septum, paratype MNHN-BRA-78-63f; 36, side view, X 5, of specimen showing complete loop freed from median septum by resorption of lateral bands, paratype MNHN-BRA-78-63i (Thalassa 71, X352, at 580-545 m). 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