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First report of Oniscidia Mörch, 1852 (Neogastropoda, Harpidae) in the northeast Pacific fossil record and paleobiogeographic review of the genus

Published online by Cambridge University Press:  30 April 2018

Richard L. Squires*
Affiliation:
Department of Geological Sciences, California State University Northridge, California, 91330-8266, USA; and Research Associate, Invertebrate Paleontology, Natural History Museum of Los Angeles County, 900 Exposition Boulevard, Los Angeles, California, 90007, USA 〈[email protected]

Abstract

The harpid neogastropod genus Oniscidia Mörch, 1852, which has not been recognized before in the northeast Pacific fossil record, is represented there by rare specimens of Oniscidia plectata (Waring, 1917) n. comb., of late early Paleocene age, in a region extending from southern California, USA to Baja California, Mexico. This species is the earliest unequivocal record of Oniscidia and its only known Paleocene record. It apparently lived in silty, inner- to middle-shelf depths, which were inherently cooler than adjacent shallower marine depths. Its habitat was subject to the influx of shallow-marine shells, especially turritellas, contained in turbidity currents emanating from nearshore depths.

The global paleogeography of Oniscidia, which is presented here for the first time, has been overlooked previously because this genus has a long and complicated history of taxonomic confusion with the harpid genus Morum Röding, 1798. Oniscidia questionably originated during the Late Cretaceous (Campanian) in southern India and apparently dispersed westward through the Tethys Seaway into the New World. Paleocene and early Eocene occurrences of this genus are rare, and middle Eocene occurrences are uncommon. During the cool times of the Oligocene and into the early Miocene, it was most widespread. Its range became restricted during the middle Miocene and continued to be so during the Pliocene, Pleistocene, and modern day, with occurrences only in the Caribbean Sea region, Florida, and the western Pacific. Its distribution through warm and cool times was most likely controlled by its habitat preference for relatively deep cool waters.

Type
Articles
Copyright
Copyright © 2018, The Paleontological Society 

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References

Adegoke, O.S., 1977, Stratigraphy and paleontology of the Ewekoro Formation (Paleocene) of southwestern Nigeria: Bulletins of American Paleontology, v. 71, p. 1379.Google Scholar
Anderson, F.M., 1928, Notes on lower Tertiary deposits of Colombia and their molluscan and foraminiferal fauna: Proceedings of the California Academy of Sciences, ser. 4, v. 17, p. 129.Google Scholar
Anderson, F.M., and Hanna, G.D., 1935, Cretaceous geology of Lower California: Proceedings of the California Academy of Sciences, ser. 4, v. 23, p. 134.Google Scholar
Bayan, F., 1870, Études Faites dans la Collection de l’Ecole des Mines sur des Fossils Nouveaux ou mal connus. Pt. 1. Mollusques Tertiaries: Paris, Savyo, 80 p.Google Scholar
Beu, A.G., 1976, Revision of the southwest Pacific species of Morum (Oniscidia) (Gastropod: Cassidae): Journal of the Malacological Society of Australia, v. 3, p. 223231.Google Scholar
Beu, A.G., 2001, Gradual Miocene to Pleistocene uplift of the Central American Isthmus: evidence from tropical American tonnoidean gastropods: Journal of Paleontology, v. 75, p. 706720.Google Scholar
Beu, A.G., and Maxwell, P.A, 1990, Cenozoic Mollusca of New Zealand: New Zealand Geological Survey Paleontological Bulletin, v. 58, 518 p.Google Scholar
Boettger, O., 1875, Die Fossilen Mollusken der Eocänformation auf der Insel Borneo: Palaeontographica, Supplement 3, 59 p.Google Scholar
Bouchet, P., 2002, Protoconchs, dispersal, and tectonic plates biogeography: new Pacific species of Morum (Gastropoda: Harpidae): Journal of Conchology, v. 37, p. 533549.Google Scholar
Bouchet, P., 2014, World register of marine species: <http://www.marinespecies.org> (accessed September, 2017).+(accessed+September,+2017).>Google Scholar
Brocchi, G.B., 1814, Conchiologia Fossile Subappennina con Osservazioni Geologiche sugli Appennini e sul suolo Adiacente: Milano, Dalla Stamperia Reale, v. 2, p. 241712.Google Scholar
Bronn, H.G., 1849, Index Palaeontologicus oder Übersicht der bis jetzt bekannten fossilen Organismen. Abtheilung 2. B, Enumerator Palaeontologicus: Stuttgart, Schweizerbart, 972 p.Google Scholar
Chabaglian, J., 1959, Le Paléocene dans l’Ouest du Sénégal. Étude paléontologique: Annales de la Faculté des Sciences de l’Université de Dakar, v. 4, p. 133187.Google Scholar
Clark, B.L., and Durham, J.W., 1946, Eocene faunas from Bolivar, Colombia: Geological Society of America Memoir, v. 16, 126 p.Google Scholar
Conrad, T.A., 1848, Observations on the Eocene formation, and descriptions of one hundred and five new fossils of that period, from the vicinity of Vicksburg, Mississippi, with an Appendix: Journal of the Academy of Natural Sciences of Philadelphia, ser. 2, v. 1 (pt. 2), p 111134.Google Scholar
Cossmann, A.E.M., and Pissarro, G., 1927, The Mollusca of the Ranikot Series. Part 1. Cephalopoda and Gastropoda: Memoirs of the Geological Society of India, Palaeontologica Indica, n. ser., v. 3, Memoir 1, p 182.Google Scholar
Cox, L.R., 1960, General characteristics of Gastropoda, in Moore, R.C., ed., Treatise on Invertebrate Paleontolgy, Pt. I, Mollusca 1: Boulder, Colorado and Lawrence, Kansas, Geological Society of America and University of Kansas Press, p. I84I169.Google Scholar
Cuvier, G. L. C., 1797, Tableau Élementaire de l’Histoire Nautrelle des Animaux [des Mollusques]: Paris, Baudonin, 710 p.Google Scholar
Dall, W.H., 1909, The Miocene of Astoria and Coos Bay, Oregon: U.S, Geological Survey Professional Paper 59, 216 p.Google Scholar
Dance, S.P., and Emerson, W.K., 1967, Notes on Morum dennisoni (Reeve) and related species (Gastropoda: Tonnacea): The Veliger, v. 10, p. 9198.Google Scholar
Dance, S.P., and Poppe, G.T., 1999, The family Harpidae, in Poppe, G.T., ed., A Conchological Iconography: Hackenheim, Germany, ConchBooks, 69 p.Google Scholar
D’Archiac, A., and Haime, J., 1854, Description des Animaux Fossiles du Groupe Nummulitique de l’Indie: Paris, Gide et J. Baudry, 418 p.Google Scholar
Dey, A.K., 1961, The Miocene Mollusca from Quilon, Kerala (India): Memoirs of the Geological Survey of India, Palaeontologica Indica, n. ser., v. 36, 120 p.Google Scholar
Dodge, H., 1956, A historical review of the mollusks of Linnaeus: Bulletin of the American Museum of Natural History, v. 111, p. 157311.Google Scholar
Emerson, W.K., 1967, A new species of Morum from Brazil, with remarks on related species (Gastropoda: Tonnacea): The Veliger, v. 9, p. 289292.Google Scholar
Emerson, W.K., 1968, A new species of the gastropod Morum from the eastern Pacific: Journal de Conchyliologie, v. 107, p. 5357.Google Scholar
Emerson, W.K., 1981, Two new Indo-Pacific species of Morum (Gastropoda: Tonnacea): The Nautilus, v. 95, p. 101105.Google Scholar
Emerson, W.K., 1990, New records for western Pacific Morum (Gastropoda: Harpidae) with biogeographic implications: The Veliger, v. 33, p. 145154.Google Scholar
Finlay, H.J., 1931, On Austrosassia, Austroharpa, and Austrolithes, new genera; with some remarks on the gasteropod protoconch: Transactions of the New Zealand Institute, v. 62, p. 719.Google Scholar
Fischer, P., 1883, Manuel de Conchyliologie et de Paléontologie Conchyliologique, ou Histoire Naturelle des Mollusques Vivants et Fossiles: Paris, Savy, v. 6, p. 513608.Google Scholar
Furon, R., and Kouriatchy, N., 1948, La faune éocène du Togo: Mémories du Muséum National d’Histoire Naturelle, n. sér., v. 27, p. 95114.Google Scholar
Garvie, C.L., 2013, New Eocene Mollusca from the collections of the Texas Natural Science Center: Bulletins of American Paleontology, v. 386, p. 163215.Google Scholar
Glass, C., and Foster, R., 1987, A pictorial review of the genus Morum : American Conchologists Bulletin, v. 14, p. 6769.Google Scholar
Gradstein, F.M., Ogg, J., Schmitz, M.D., and Ogg, G.M., 2012, The Geologic Time Scale 2012: Amsterdam, Elsevier, 1144 p.Google Scholar
Grateloup, J.-P.S., 1827, Description de plusieurs espèces de coquilles fossils des environs de Dax (Landes): Bulletin d’Histoire Naturelle de la Société linnéenne de Bordeaux, v. 2, p. 326.Google Scholar
Grateloup, J.-P.S., 1834, Tableau (suite du) des coquilles fossilles qu’on recontre dans les terrains tertiarires grossiers (falcuns) du Bassin géologie de l’Adour (Landes): Actes de la Société de Bordeaux, v. 6, p. 270320.Google Scholar
Hanna, G.D., 1924, Rectifications of nomenclature: Proceedings of the California Academy of Sciences, v. 13, p. 151186.Google Scholar
Harzhauser, M., Mandic, O., Pillar, W.E., Reuter, M., and Kroh, A., 2008, Tracing back the origin of the Indo-Pacific Mollusca fauna: basal Tridacnine from the Oligocene and Miocene of the Sultanate of Oman: Palaeontology, v. 51, p. 199213.Google Scholar
Hughes, R.N., 1968, Anatomy of the foregut of Morum Röding, 1798 (Gastopoda, Tonnoidea) and the taxonomic misplacement of the genus: The Veliger, v. 29, p. 91100.Google Scholar
Hughes, R.N., and Emerson, W.K., 1987, Anatomical and taxonomic characteristics of Harpa and Morum (Neogastropoda: Harpaidae): The Veliger, v. 29, p. 349358.Google Scholar
ICZN, 1975, International Commission on Zoological Nomenclature, 1975, Opinion 1040. Oniscidia Mörch, 1852 (Mollusca): placed on the official list: Bulletins of Zoological Nomenclature, v. 32, p. 139140.Google Scholar
ICZN, 1999, International Code of Zoological Nomenclature, 4th ed., London, The International Trust for Zoological Nomenclature, 306 p.Google Scholar
Keen, A.M., 1971, Sea Shells of Tropical West America. Marine Mollusks from Baja California to Peru, 2nd ed.: Palo Alto, California, Stanford University Press, 1064 p.Google Scholar
Landau, B.M., 1996, A new species of Morum (Gastropoda: Harpidae) from the lower Miocene Cantaure Formation of Venezuela: Tulane Studies in Geology and Paleontology, v. 29, p. 5356.Google Scholar
Laws, C.R., 1932, New Tertiary Mollusca from New Zealand, no. 2: Transactions of the New Zealand Institute, v. 62, p. 183202.Google Scholar
Leigh, E.G., O’Dea, A., and Vermeij, G.J., 2013, Historical biogeography of the Isthmus of Panama: Biological Reviews of the Cambridge Philosophical Society, v. 89, p. 148172.Google Scholar
Linnaeus, C., 1767, Systema Naturae per Regna tria Natura. Editio duodecima, reformata: Stockholm, Laurentii Salvii, v. 1, 1327 p.Google Scholar
MacNeil, F.S., and Dockery, D.T. III, 1984, Lower Oligocene Gastropoda, Scaphopoda, and Cephalopoda of the Vicksburg Group in Mississippi: Mississippi Department of Natural Resources Bureau of Geology Bulletin, v. 124, 415 p.Google Scholar
Mansfield, W.C., 1937, Mollusks of the Tampa and Suwannee limestones of Florida: Florida Geological Survey Bulletin, v. 15, 334 p.Google Scholar
Martin, K., 1914, Die Fauna des Obereocäns von Naggulan auf Java. A. Gastropoda: Sammlungen des Geologischen Reichs–Museums in Leiden, neue Folge, v. 2, p 107178.Google Scholar
Maury, C.J., 1925, Fósseis Terciários do Brasil com descripção de novas formas Cretáceas: Serviço Geológico y Mineralógico do Brasil, Monographia, v. 4, p 1711. [Opposing pages with Portuguese and English text]Google Scholar
Merle, D., and Pacaud, J.-M., 2004, New species of Eocithara Fischer, 1883 (Mollusca, Gastropoda, Harpidae) from the early Paleogene with phylogenetic analysis: Geodiversitas, v. 26, p. 6187.Google Scholar
Merle, D., Pacaud, J.-M., Métais, F., and Welcomme, J.-L., 2014, Volutidae (Mollusca: Gastropoda) of the Lakhra Formation (earliest Eocene, Sindh, Pakistan): systematics, biostratigraphy and paleobiogeography: Zootaxa, v. 3826, p. 101138.Google Scholar
Michelotti, G., 1861, Étude sur le Miocène inférieur de l’Italie Septentrionale: Mémoire Publié par la Société Hollandaise des Sciences à Halem, v. 15, p. 1183.Google Scholar
Mörch., O.A.L., 1852, Catalogus conchyliorum quae reliquit D. Alphonso D’Aguirra et Gadea, Comes Regis Daniae: Copenhagen, v. pt. 1, 170 p.Google Scholar
Nomland, J.O., 1917, The Etchegoin Pliocene of middle California: University of California Publications, Bulletin of the Department of Geology, v. 10, p. 191254.Google Scholar
Olsson, A.A., 1928, Contributions to the Tertiary paleontology of northern Peru. Part 1, Eocene Mollusca and Brachiopoda: Bulletins of American Paleontology, v. 14, 154 p.Google Scholar
Olsson, A.A., 1931, Contributions to the Tertiary paleontology of northern Peru: Pt. 4, the Peruvian Oligocene: Bulletins of American Paleontology, v. 17, p. 100261.Google Scholar
Olsson, A.A., and Petit, R.E., 1964, Some Neogene Mollusca from Florida and the Carolinas: Bulletins of American Paleontology, v. 47, p. 509574.Google Scholar
Paredes-Mejia, L.M., 1989, Late Cretaceous–Early Cenozoic stratigraphy and paleontology (Mollusca: Gastropoda) of the Sepultura Formation, Mesa San Carlos, Baja California Norte, Mexico [M.S. thesis]: Lafayette, Indiana, Purdue University, 527 p.Google Scholar
Powell, A.W.B., 1958, Mollusca of the Kermadec Islands. Pt. 1: Records Auckland Institute and Museum, v. 5, p. 6585.Google Scholar
Powell, A.W.B., and Bartrum, J.A., 1929, The Tertiary (Waitematan) Mollusca fauna of Oneroa, Waiheke Island: Transactions of the Royal Society of New Zealand, v. 60, p. 395447.Google Scholar
Rafinesque, C.S., 1815, Analyse de la Nature, ou Tableau de l’Univers et des Corps Organiseés: Palermo, Barravecchia, 224 p.Google Scholar
Raymond, T.C., 1997, Two new gastropods from the Pliocene Pinecrest Beds of Florida: Tulane Studies in Geology and Paleontology, v. 29, p. 141144.Google Scholar
Rehder, H.A., 1973, The family Harpidae of the world: Indo-Pacific Mollusca, v. 3, p. 207272.Google Scholar
Röding, P.F., 1798, Museum Boltenianum: Hamburg, Johan Christi Trappii, 199 p.Google Scholar
Saul, L.R., 1983, Turritella zonation across the Cretaceous-Tertiary boundary, California: University of California Publications Geological Sciences, v. 125, p. 1165.Google Scholar
Smith, M., 1937, Further notes upon Tertiary and recent mollusks from Florida together with descriptions of new species: The Nautilus, v. 51, p. 6568.Google Scholar
Smith, A.G., Smith, D.G., and Funnel, B.M., 1994, Atlas of Mesozoic and Cenozoic Coastlines: Cambridge, United Kingdom, Cambridge University Press, 99 p.Google Scholar
Sowerby, G.B. I, 1825, The genera of recent and fossil shells, for the use of students in conchology and geology: London, self published, issue 24, two unnumbered p., pl. 233.Google Scholar
Sowerby, G.B. III, 1850, Descriptions of some new species of fossil shells found by J.S. Heniker, Esq. in some Tertiary beds in the Island of San Domingo: Quarterly Journal of the Geological Society of London, v. 6, p. 3953.Google Scholar
Sowerby, G.B. III, 1889, Descriptions of fourteen new species of shells from China: Japan, and the Andaman Islands: Proceedings of the Zoological Society of London for 1888, p. 565570.Google Scholar
Speyer, O.W.C., 1862, Die Conchylien der Casseler Tertiar-Bildungen: Palaeontographica, v. 9, p. 91141, 153–198.Google Scholar
Squires, R.L., 1981, Geologic map of the Simi Valley area, southern California, in Squires, R.L., and Filewicz, M.V., eds., Cenozoic Geology of the Simi Valley Area, southern California: Pacific Section, Society of Economic Paleontologists and Mineralogists, insert.Google Scholar
Squires, R.L., 1984, Megapaleontology of the Eocene Llajas Formation, Simi Valley, California: Contributions in Science, v. 350, 76 p.Google Scholar
Squires, R.L., 1987, Eocene molluscan paleontology of the Whitaker Peak area, Los Angeles and Ventura counties: Contributions in Science, v. 388, 93 p.Google Scholar
Squires, R.L., 2003, Turnovers in marine gastropod faunas during the Eocene–Oligocene transition, west coast of the United States, in Prothero, D.R., Ivany, L.C., and Nesbitt, E.A., eds., From Greenhouse to Icehouse, the Marine Eocene-Oligocene Transition: New York, Columbia University Press, p. 1435.Google Scholar
Squires, R.L., and Demetrion, R., 1992, Paleontology of the Eocene Bateque Formation, Baja California Sur, Mexico: Contributions in Science, v. 434, 55 p.Google Scholar
Squires, R.L., Lipman, P.J., and Nyborg, T., 2017, A rare glimpse of early Paleocene (late Danian) northeast Pacific mollusks and arthropods: a new locality, north side of Simi Valley, Ventura County, southern California: Western Society of Malacologists Annual Report. [Abstract, p. 14, posted at: https://nhm.org/site/sites/default/files/WSM-2017-all-talk-abstracts.pdf].Google Scholar
Stoliczka, F., 1867–1868, Cretaceous fauna of south India. The Gastropoda: Memoirs of the Geological Survey of India, Paleontologica Indica, ser. 5, v. 2, p. 1497.Google Scholar
Sundaram, R., Henderson, R.A., Ayyasami, K., and Stilwell, J.D., 2001, A lithostratigraphic revision and palaeoenvironmental assessment of the Cretaceous System exposed in the onshore Cauvery Basin, southern India: Cretaceous Research, v. 22, p. 743762.Google Scholar
Swainson, W., 1840, A Treatise on Malacology; or the Natural Classification of Shells and Shell-fish: London, Longman, Brown, Green, and Longmans, 419 p.Google Scholar
Tate, R., 1889, The gastropods of the older Tertiary of Australia, Part 2: Transactions of the Royal Society of South Australia, v. 11, p. 116174.Google Scholar
Trechmann, C.T., 1925, The Scotland Beds of Barbados: The Geological Magazine, v. 42, p. 481503.Google Scholar
Trechmann, C.T., 1935, The geology and fossils of Carriacou, West Indies: The Geological Magazine, v. 72, p. 528555.Google Scholar
Vokes, H.E., 1937, The gastropod genus Harpa in the Eocene of the western United States: Journal of Paleontology, v. 11, p. 1012.Google Scholar
Vokes, E.H., 1998, Neogene paleontology in the northern Dominican Republic 18. The superfamily Volutacea (in part) (Mollusc: Gastropoda): Bulletins of American Paleontology, v. 113, p. 154.Google Scholar
Waring, C.A., 1917, Stratigraphic and faunal relations of the Martinez to the Chico and Tejon of southern California: Proceedings of the California Academy of Sciences, ser. 4, v. 7, p. 41124.Google Scholar
Weaver, C.E., and Palmer, K.V.W., 1922, Fauna from the Eocene of Washington: University of Washington Publications in Geology, v. 1, p. 156.Google Scholar
Wenz, W., 1938–1943, Gastropoda, in Schindewolf, O.H., ed., Handbuch der Paläozoologie, Band 6: Berlin, Gebrüder Borntraeger, 1639 p.Google Scholar
Woodring, W.P., 1959, Geology and paleontology of Canal Zone and adjoining parts of Panama. Description of Tertiary mollusks (gastropods: Vermetidae to Thaididae): U.S. Geological Survey Professional Paper 306-B, p. 147239.Google Scholar
Woodring, W.P., 1970, Geology and paleontology of Canal Zone and adjoining parts of Panama. Description of Tertiary mollusks (gastropods: Eulimidae, Marginellidae to Helminthoglyptidae): U.S. Geological Survey Professional Paper 306-D, p. 299452.Google Scholar
Zinsmeister, W.J., 1974, Paleocene biostratigraphy of the Simi Hills, Ventura County, California [Ph.D. dissertation]: Riverside, University of California, Riverside. 236 p.Google Scholar
Zinsmeister, W.J., 1983, Late Paleocene (“Martinez Provincial Stage”) molluscan fauna from the Simi Hills, Ventura County, California, in Squires, R.L., and Filewicz, M.V., eds., Cenozoic Geology of the Simi Valley Area, Southern California: Pacific Section, Society of Economic Paleontologists and Mineralogists, Fall Field Trip and Guidebook, v. 35, p. 6170.Google Scholar
Zinsmeister, W.J., and Paredes-Mejia, L.M., 1988, Paleocene biogeography of the west coast of North America: a look at the molluscan fauna from Sepultura Formation, Mesa San Carlos, Baja California Norte, in Filewicz, M.V., and Squires, R.L., eds., Paleogene Stratigraphy, West Coast of North America: Pacific Section, Society of Economic Paleontologists and Mineralogists, West Coast Paleogene Symposium, 58, p. 9–22.Google Scholar