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Nuculidae (Bivalvia) in the Cape Melville Formation, King George Island, Antarctica, with an overview of the bivalve fauna

Published online by Cambridge University Press:  30 July 2012

Rowan J. Whittle*
Affiliation:
British Antarctic Survey, NERC, High Cross, Madingley Road, Cambridge CB3 0ET, UK
Fernanda Quaglio
Affiliation:
Instituto de Geociências, Universidade de São Paulo, Rua do Lago, 562, 05508-080, São Paulo, Brazil
J. Alistair Crame
Affiliation:
British Antarctic Survey, NERC, High Cross, Madingley Road, Cambridge CB3 0ET, UK
Katrin Linse
Affiliation:
British Antarctic Survey, NERC, High Cross, Madingley Road, Cambridge CB3 0ET, UK

Abstract

Nuculid bivalves of the Cape Melville Formation (Early Miocene, King George Island) are reviewed. Ten bivalve taxa are listed from the formation in the families Nuculidae (two species), Sareptidae, Malletiidae, Limopsidae (two species), Limidae, Pectinidae, Hiatellidae, and Periplomatidae. The Nuculidae consist of two species of Leionucula Quenstedt, 1930. One of these, L. melvilleana n. sp., is described and the other consists of the two species named previously by Anelli et al. (2006), which are demonstrated to be synonymous and are assigned to the species Leionucula frigida (Anelli, Rocha-Campos, Santos, Perinotto & Quaglio 2006). This assemblage, dominated by protobranchs (89% of specimens), is a typical fauna of offshore soft substrates, with a few specimens transported from hard substrates nearby. The diversity of Nuculidae has decreased in the Antarctic region through the Cenozoic.

Type
Earth Sciences
Copyright
Copyright © Antarctic Science Ltd 2012

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References

Allen, J.A. 1978. Evolution of the deep sea protobranch bivalves. Philosophical Transactions of the Royal Society of London, B284, 387401.Google Scholar
Anelli, L.E., Rocha-Campos, A.C., Dos Santos, P.R., Perinotto, J.D.Quaglio, F. 2006. Early Miocene bivalves from the Cape Melville Formation, King George Island, West Antarctica. Alcheringa, 30, 111132.CrossRefGoogle Scholar
Beu, A.G. 2006. Marine Mollusca of oxygen isotope stages of the last 2 million years in New Zealand. Part 2. Biostratigraphically useful and new Pliocene to Recent bivalves. Journal of the Royal Society of New Zealand, 36, 151338.CrossRefGoogle Scholar
Beu, A.G. 2009. Before the ice: biogeography of Antarctic Paleogene molluscan faunas. Palaeogeography, Palaeoclimatology, Palaeoecology, 284, 191226.CrossRefGoogle Scholar
Beu, A.G.Maxwell, P.A. 1990. Cenozoic Mollusca of New Zealand. New Zealand Geological Survey Paleontological Bulletin, 58, 1518.Google Scholar
Birkenmajer, K., Gaździcki, A.Wrona, R. 1983. Cretaceous and Tertiary fossils in glacio-marine strata at Cape Melville, Antarctica. Nature, 303, 5659.CrossRefGoogle Scholar
Bitner, M.A.Crame, J.A. 2002. Brachiopods from the Lower Miocene of King George Island, West Antarctica. Polish Polar Research, 23, 7584.Google Scholar
Bouchet, P. 2012. Nuculidae. In De Broyer, C., Clarke, A., Koubbi, P., Pakhomov, E., Scott, F., Vanden Berghe, E. & Danis, B.,eds. The SCAR-MarBIN Register of Antarctic Marine Species (RAMS). http://www.scarmarbin.be/rams.php?p=taxdetails&id=204.Google Scholar
Dell, R.K. 1990. Antarctic Mollusca: with special reference to the fauna of the Ross Sea. Bulletin of the Royal Society of New Zealand, 27, 1311.Google Scholar
Dell, R.K.Fleming, C.A. 1975. Oligocene–Miocene bivalve Mollusca and other macrofossils from sites 270 and 272 (Ross Sea), DSDP, Leg 28. Initial Reports of the Deep Sea Drilling Project, 28, 693703.Google Scholar
Del Río, C.J.Camacho, H.H. 1996. Iheringinucula, a new genus of the family Nuculidae (Mollusca: Bivalvia) from the Tertiary of Patagonia (Argentina). Journal of Paleontology, 70, 935940.CrossRefGoogle Scholar
Del Río, C.J.Chiappara, S.A.M. 1998. Moluscos marinos Miocenos de la Argentina y del Uruguay. Monografías de la Academia Nacional de Ciencias Exactas, Físicas y Naturales, 15, 1151.Google Scholar
Dingle, R.V.Lavelle, M. 1998. Antarctic Peninsular cryosphere: early Oligocene (c. 30 Ma) initiation and a revised glacial chronology. Journal of the Geological Society, 155, 433437.CrossRefGoogle Scholar
Doumani, G.A., Boardman, R.S., Rowell, A.L., Boucot, A.J., Johnson, J.G., McAlester, A.L., Saul, J., Fisher, D.W.Miles, R.S. 1965. Lower Devonian fauna of the Horlick Formation, Ohio Range, Antarctica. Antarctic Research Series, 6, 241281.Google Scholar
Feldmann, R.M.Crame, J.A. 1998. The significance of a new nephroid lobster from the Miocene of Antarctica. Palaeontology, 41, 807814.Google Scholar
Förster, R., Gaździcki, A.Wrona, R. 1987. Homolodromiid crabs from the Cape Melville Formation (Lower Miocene) of King George Island, West Antarctica. Palaeontologica Polonica, 49, 147161.Google Scholar
Gaździcki, A.Pugaczewska, H. 1984. Biota of the ‘Pecten conglomerate’ (Polonez Cove Formation, Pliocene) of King George Island (South Shetland Islands, Antarctica). Studia Geologica Polonica, 79, 59120.Google Scholar
Hara, U.Crame, J.A. 2004. A new aspidostomatid bryozoans from the Cape Melville Formation (Lower Miocene) of King George Island, West Antarctica. Antarctic Science, 16, 319327.CrossRefGoogle Scholar
Ihering, H. Von. 1897. Os Molluscos dos terrenos terciarios da Patagonia. Revista do Museo Paulista, 2, 217382.Google Scholar
Ihering, H. Von 1907. Les mollusques fossils du Tertiare et du Crétacé superieur de l'Argentine. Anales del Museo Nacional de Buenos Aires, 3 (VII), 611 pp.Google Scholar
Ivany, L.C., Lohmann, K.C., Hasiuk, F., Blake, D.B., Glass, A., Aronson, R.B.Moody, R.M. 2008. Eocene climate record of a high southern latitude continental shelf: Seymour Island, Antarctica. Geological Society of America Bulletin, 120, 659678.CrossRefGoogle Scholar
Jesionek-Szymańska, W. 1987. Echinoids from the Cape Melville Formation (Lower Miocene) of King George Island, West Antarctica. Palaeontologica Polonica, 49, 163168.Google Scholar
Jonkers, H.A. 2003. Late Cenozoic–Recent Pectinidae (Mollusca: Bivalvia) of the Southern Ocean and neighbouring regions. Monographs of Marine Mollusca, 5, 1125.Google Scholar
Karczewski, L. 1987. Gastropods from the Cape Melville Formation (Lower Miocene) of King George Island, West Antarctica. Palaeontologica Polonica, 49, 127145.Google Scholar
Keen, A.M. 1969. Family Nuculidae Gray, 1824. In Moore, R.C.,ed. Treatise on invertebrate paleontology. Part N, Vol. 1, Mollusca 6, Bivalvia. Lawrence, KS: The Geological Society of America & The University of Kansas, N230N231.Google Scholar
Linse, K., Griffiths, H.J., Barnes, D.K.A.Clarke, A. 2006. Biodiversity and biogeography of Antarctica and sub-Antarctic mollusca. Deep-Sea Research II, 53, 9851008.CrossRefGoogle Scholar
Malumian, N., Camacho, H.H.Gorroño, R. 1978. Moluscos del Terciario Inferior (“Magallanense”) de la Isla Grande de Tierra del Fuego (Republica Argentina). Ameghiniana, 15, 265284.Google Scholar
McAlester, A.L. 1964. Preliminary suggestions for a classification of nuculoid bivalves. Journal of Paleontology, 38, 397426.Google Scholar
Pickard, J., Adamson, D.A., Harwood, D.M., Miller, G.H., Quilty, P.G.Dell, R.K. 1988. Early Pliocene sediments, coastline and climate of East Antarctica. Geology, 16, 158161.2.3.CO;2>CrossRefGoogle Scholar
Quaglio, F., Whittle, R.J., Gaździcki, A.Simões, M.G. 2010. A new fossil Adamussium (Bivalvia: Pectinidae) from Antarctica. Polish Polar Research, 31, 291302.CrossRefGoogle Scholar
Rhind, P.M.Allen, J.A. 1992. Studies on the deep-sea Protobranchia (Bivalvia): the family Nuculidae. Bulletin of the British Museum (Natural History), Zoology, 58, 6193.Google Scholar
Roniewicz, E.Morycowa, E. 1985. Fossil Flabellum (Scleractinia) of Antarctica. Acta Palaeontologica Polonica, 30, 99106.Google Scholar
Stilwell, J.D. 2000. Eocene Mollusca (Bivalvia, Gastropoda and Scaphopoda) from the McMurdo Sound, systematics and paleoecological significance. Antarctic Research Series, 76, 261320.CrossRefGoogle Scholar
Stilwell, J.D. 2003. Patterns of biodiversity and faunal rebound following the K–T boundary extinction event in austral Palaeocene molluscan faunas. Palaeogeography, Palaeoclimatology, Palaeoecology, 195, 319356.CrossRefGoogle Scholar
Stilwell, J.D.Zinsmeister, W.J. 1987. Late Cretaceous fossils from Cockburn Island collected during the 1986–1987 expedition to the Antarctic Peninsula. Antarctic Journal of the United States, 22(5), 56.Google Scholar
Stilwell, J.D.Zinsmeister, W.J. 1992. Molluscan systematics and biostratigraphy: Lower Tertiary La Meseta Formation, Seymour Island, Antarctic Peninsula. Antarctic Research Series, 55, 1192.Google Scholar
Stilwell, J.D., Zinsmeister, W.J.Oleinik, A.E. 2004. Early Paleocene mollusks of Antarctica: systematics, paleoecology and paleobiogeographic significance. Bulletins of American Paleontology, 367, 189.Google Scholar
Szaniawski, H.Wrona, R. 1987. Polychaete jaws from the Cape Melville Formation (Lower Miocene) of King George Island, West Antarctica. Palaeontologica Polonica, 49, 105125.Google Scholar
Taviani, M.Beu, A.G. 2001. Paleogene macrofossils from CRP-3 Drillhole, Victoria Land Basin, Antarctica. Terra Antartica, 8, 423434.Google Scholar
Taviani, M., Beu, A.G.Jonkers, H.A. 2000. Macrofossils from CRP-2/2A, Victoria Land Basin, Antarctica. Terra Antartica, 7, 513526.Google Scholar
Troedson, A.L.Riding, J.B. 2002. Upper Oligocene to lowermost Miocene strata of King George Island, South Shetland Islands, Antarctica: stratigraphy, facies analysis, and implications for the glacial history of the Antarctic Peninsula. Journal of Sedimentary Research, 72, 510523.CrossRefGoogle Scholar
Whittle, R.J., Linse, K.Griffiths, H.J. 2011. The fossil record of Limopsis (Bivalvia: Limopsidae) in Antarctica and the southern high latitudes. Palaeontology, 54, 935952.CrossRefGoogle Scholar
Wilckens, O. 1910. Die Anneliden, Bivalven und Gastropoden der antarktischen Kreideformation. Wissenschaftliche Ergebnisse der Schwedische Südpolar-Expedition 1901–1903, 3, 1132.Google Scholar
Zachos, J.C., Breza, J.R.Wise, S.W. 1992. Early Oligocene ice sheet expansion on Antarctica: stable isotope and sedimentological evidence from Kerguelen Plateau, southern Indian Ocean. Geology, 20, 569573.2.3.CO;2>CrossRefGoogle Scholar
Zinsmeister, W.J. 1984. Late Eocene bivalves (Mollusca) from the La Meseta Formation, collected during the 197475 joint Argentine-American expedition to Seymour Island, Antarctic Peninsula. Journal of Paleontology, 58, 14971527.Google Scholar
Zinsmeister, W.J.Macellari, C.E. 1988. Bivalvia (Mollusca) from Seymour Island, Antarctic Peninsula. In Feldmann, R.M.&Woodburne, M.O.,eds. Geology and paleontology of Seymour Island, Antarctic Peninsula, No. 169, Geological Society of America Memoir, 253284.CrossRefGoogle Scholar