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Eocene ostracodes from Hahajima Island of the Ogasawara (Bonin) Islands, northwestern Pacific, and their paleobiogeographic significance in the West Pacific

Published online by Cambridge University Press:  14 July 2015

Tatsuhiko Yamaguchi
Affiliation:
Department of Earth and Environmental Sciences, Graduate School of Environmental Studies, Nagoya University, Furoutyo, Chikusa-Ku, Nagoya City, 464-8601, Japan,
Takahiro Kamiya
Affiliation:
Graduate School of Natural Science and Technology, Kanazawa University, Kakumamachi, Kanazawa City, 920-1192, Japan,

Abstract

During the Eocene, Hahajima Island of the Ogasawara (Bonin) Islands of the Izu-Mariana Arc in the North Pacific was located near the present-day position of western Pacific Micronesia. We identified 17 Eocene ostracode species from the island, of which are new species and likely endemic to this island or to the West Pacific. These new species are systematically described herein and include: Costa matsumarui n. sp., Cytherelloidea ogasawaraensis n. sp., Havanardia ujiiei n. sp., Jugosocythereis nishii n. sp., Neonesidea boninensis n. sp., Schizocythere antiquimicronesiana n. sp., and Uroleberis hahajimaensis n. sp. The Eocene ostracode fauna has a higher rate of endemism than does the modern Micronesian fauna and contains Tethyan genera. These findings contradict a hypothesis that the Pacific fauna had a higher endemism rate after the Paleogene. The findings support another hypothesis that some genera invaded the Pacific from Tethys during the Paleogene. They suggest that West Pacific species did not disperse to the periphery of the Indo-West Pacific region during the Middle–Late Eocene. The “center of origin” hypothesis cannot be applied to Middle–Late Eocene marine ostracode biogeography.

Type
Research Article
Copyright
Copyright © The Paleontological Society

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References

Ahmad, M., Neale, J. W., and Siddiqui, Q. A. 1991. Tertiary Ostracoda from the Lindi area, Tanzania. Bulletin of the British Museum of Natural History (Geology), 46(2): 175270.Google Scholar
Alexander, C. I. 1929. Ostracoda of the Cretaceous of north Texas. University of Texas bulletin, Bureau of Economic Geology, 2907:7114.Google Scholar
Athersuch, J., Horne, D. J., and Whittaker, J. E. 1989. Marine and Brackish Water Ostracods. The Linnean Society of London and the Estuarine and Brackish-Water Sciences Association, U.K., London. 343 p.Google Scholar
Ayress, M. A. 1995. Late Eocene Ostracoda (Crustacea) from the Waihao District, south Canterbury, New Zealand. Journal of Paleontology, 69(5): 897921.CrossRefGoogle Scholar
Baird, W. 1850. The Natural History of the British Entomostraca, Ray Society, London. 364 p.CrossRefGoogle Scholar
Bassiouni, M. A. A. and Luger, P. 1996. Middle Eocene Ostracoda from northern Somalia. Courier Forschungsinstitut Senkenberg, 192:1139.Google Scholar
Bassiouni, M. A. and Morsi, A.-M. M. 2000. Paleocene-lower Eocene ostracodes from El Quss Abu Said Plateau (Farafra Oasis), western desert, Egypt. Palaeontographica, Abteilung A, 257:2784.Google Scholar
Blow, B. W. 1979. The Cainozoic Globigerinida, 3 vols. Leiden: E. J. Brill, 1413 p.Google Scholar
Boomer, I. and Whatley, R. C. 1995. Cainozoic Ostracoda from guyots in the Western Pacific: Leg. 143, Hole 865B and 866B. Proceedings of Ocean Drilling Program Scientific results, 143:7586.Google Scholar
Brady, G. S. 1869. Les entomostraces de Hong Kong. In De Folin, L. and Perier, L. (eds.), Les Fonds de la Mer, 1(1): 155159.Google Scholar
Briggs, J. C. 1995. Global biogeography. Elsevier, Amsterdam. 452 p.Google Scholar
Briggs, J. C. 1999. Coincident Biogeographic Patterns: Indo-West Pacific Ocean. Evolution, 53(2):326355.CrossRefGoogle ScholarPubMed
Briggs, J. C. 2000. Centrifugal speciation and centres of origin. Journal of Biogeography, 27(5): 11831188.CrossRefGoogle Scholar
Carbonnel, G. 1988. Ostracodes Paléogènes et Néogènes du Sondage offshore de Cape Timiris: Mauritanie. Revue de Micropaléontologie, 31(3): 147155.Google Scholar
Carreño, A. L. and Cronin, T. M. 1993. Middle Eocene Ostracoda from the Baja California Sur, Mexico. Journal of Micropalaeontolgy, 12(2): 141153.CrossRefGoogle Scholar
Chapman, F. 1926. The Cretaceous and Tertiary Foraminifera of New Zealand with an appendix on the Ostracoda. Palaeontological Bulletin, New Zealand Department of Mines, Geological Survey Branch, 11:1119.Google Scholar
Coryell, H. N., Sample, C. H., and Jennings, P. H. 1935. Bairdoppilata, a new genus of Ostracoda, with two new species. American Museum Novitiates, 777:15.Google Scholar
Cronin, T. M. and Khalifa, H. 1979. Middle and Late Eocene Ostracoda from Gebel El Mereir, Nile Valley, Egypt. Micropaleontology, 25(4):397411.CrossRefGoogle Scholar
Dingle, R. V. 1976. Palaeogene ostracods from the continental shelf off Natal, South Africa. Transactions of the Royal Society of South Africa, 42(1):3579.CrossRefGoogle Scholar
Donze, P., Colin, J.-P., Damotte, R., Oertli, H. J., Peypouquet, J.-P., and Said, R. 1982. Les ostracodes du Campanien terminal à l'ÉAocène inferieure de la coupe du kef, Tunisie nord-occidentale. Bulletin Centre Researches Exploration et Production, Elf-Aquitaine, 6:273335.Google Scholar
Ducasse, O., Guernet, C., and Tambareau, Y. 1985. Paléogène, p. 257312. In Oertli, H. J., (ed.), Atlas des Ostracodes de France, Bulletin Centre Researches Exploration et Production, Elf-Aquitaine, Mémoires 9.Google Scholar
Frenzel, P. and Viehberg, F. 2005. Recent brackish and fresh water ostracods from the Baltic Sea (sampling cruise) and inland lakes, and Upper Cretaceous chalk ostracods of the Isle of Ruegen, p. 332. In Mischke, S., Pint, A., and Zobel, K. (eds.), 15th International Symposium on Ostracoda, Berlin, September 12–15, 2005. Guidebook of Excursion, Berliner Paläobiogische abhandlungen, band 6 supplement.Google Scholar
Geological Society of Japan. 2000. Stratigraphic Guide of the Geological Society of Japan. News of the Geological Society of Japan, 3(10): 1415. (in Japanese)Google Scholar
Gramann, F. 1975. Ostracoda from Tertiary sediments of Burma with reference to living species. Geologisches Jahrbuch, Reihe B, 14:146.Google Scholar
Guernet, C. 1984. Ostracodes de L'Auversien du Bassin de Paris: Description et signification. Revue de Micropaléontologie, 27(2): 118137.Google Scholar
Hall, R. 2002. Cenozoic geological and plate tectonic evolution of SE Asia and the SW Pacific: Computer-based reconstructions, model and animations. Journal of Asian Earth Science, 20(4):353431.CrossRefGoogle Scholar
Hartmann, G. 1964. Zum Kenntis der Ostracoda des Roten Meeres. Keeler Meeresforschungen, 20:35127.Google Scholar
Hartmann, G. and Puri, H. S. 1974. Summary of neontological and paleontological classification of Ostracoda. Mitteilungen aus dem Hamburgischen Zoologischen Museum und Institut, 70:773.Google Scholar
Hazel, J. E. and Holden, J. C. 1971. Ostracoda of Late Eocene Age from Eua, Tonga. U.S. Geological Survey Professional Paper, 640D, 31 p.CrossRefGoogle Scholar
Holden, J. C. 1964. Upper Cretaceous ostracods from California. Palaeontology, 7:393429.Google Scholar
Holden, J. C. 1976. Late Cenozoic Ostracoda from Midway Island drill holes. U. S. Geological Survey Professional Paper 680-F, 34 p.CrossRefGoogle Scholar
Honigstein, A., Rosenfeld, A., and Benjamini, C. 2002. Eocene ostracode faunas from the Negev, southern Israel: Taxonomy, stratigraphy and paleobiogeography. Micropaleontology, 48(4):365389.CrossRefGoogle Scholar
Honza, E. and Fujioka, K. 2004. Formation of arc and backarc basins inferred from the tectonic evolution of Southeast Asia since the Late Cretaceous. Tectonophysics, 384:2353.CrossRefGoogle Scholar
Horne, D. J., Cohen, A., and Martens, K. 2002. Taxonomy, morphology and biology of Quaternary and living Ostracoda, p. 536. In Holmes, J. A. and Chivas, A. R. (eds.), The Ostracoda: Applications in Quaternary research (Geophysical Monograph 131). American Geophysical Union, Washington D.C.CrossRefGoogle Scholar
Hornibrook, N. de B. 1953. Tertiary and Recent marine Ostracoda of New Zealand: Their origin, affinities and distribution. Paleontological Bulletins, New Zealand Geological Survey, 18, 82 p.Google Scholar
Howe, H. V. 1951. New Tertiary Ostracode fauna from Levy County, Florida. Geological Bulletin, State of Florida, State Board of Conservation, Florida Geological Survey, 34:143.Google Scholar
Howe, H. V. and Chambers, J. 1935. Louisiana Jackson Eocene Ostracoda. Geological Bulletin, State of Louisiana Department of Conversation, Louisiana Geological Survey, 35:165.Google Scholar
Huang, B. 1975. Late Cretaceous and Early Tertiary Ostracoda from Mount Qomolangma Region. A report on the Tibetian Scientific Expedition in the Mount Qomolangma Region from 1966–1968. Academia Sinica, Paleontology, 1:317390. (In Chinese)Google Scholar
Huff, W. J. 1970. The Jackson Eocene Ostracoda of Mississippi. Bulletin, Mississippi Geological, Economical and Topographical Survey, 114:1289.Google Scholar
Jones, T. R. and Sherborn, C. D. 1887. Further notes on the Tertiary Entomostraca of England, with special reference to those from the London Clay. Geological Magazine, 4:450460.CrossRefGoogle Scholar
Kaneoka, I., Isshiki, N., and Zashu, S. 1970. K-Ar age of the Izu-Bonin Islands. Geochemical Journal, 4:5360.CrossRefGoogle Scholar
Keen, M. 1978. The Tertiary—Palaeogene, p. 385450. In Bate, R. and Robinson, E. (eds.), A stratigraphical Index of British Ostracoda. Geological Journal Special Issue 4, Seel House Press, U.K.Google Scholar
Keij, A. J. 1957. Eocene and Oligocene Ostracoda of Belgium. Institut Royal des Sciences Naturelles de Belgique. Mémoire, 136:1210.Google Scholar
Khalifa, H. and Cronin, T. M. 1979. Ostracodes de l'Éocéne Moyen de El Sheikh Fadl, Est de Beni Mazar, Haute-Éygpte. Revue de Micropaléontologie, 22(3):172185.Google Scholar
Khosla, S. C. 1972. Ostracodes from the Eocene beds of Rajasthan, India. Micropaleontology, 18(4):476507.CrossRefGoogle Scholar
Kondo, Y. 1995. Paleocurrent reconstruction, using imbricated tests of nummulite in the Eocene of Hahajima, Ogasawara Islands. Journal of Geological Society of Japan, 101(3):228234.CrossRefGoogle Scholar
Krutak, P. R. 1961. Jackson Eocene Ostracoda from the Cocoa Sand of Alabama. Journal of Paleontology, 35(4):769788.Google Scholar
Krutak, P. R. 1982. Modern Ostracodes of the Veracruz-Anton Lizardo Reefs, Mexico. Micropaleontology, 28(3):258288.CrossRefGoogle Scholar
Lamarck, J. B. 1801. Systeme des animaux sans vertebras. Paris, 432 p.Google Scholar
Latham, M. H. 1938. Some Eocene Ostracoda from North-West India. Proceedings of the Royal Society of Edinburgh, 59:3848.CrossRefGoogle Scholar
Liu, Z. 1989. Ostracoda, p. 136163. In Research Party of Marine Geology, Ministry of Geology and Mineral Resources Institute of Geology Chinese Academy of Geological Science (ed.), Cenozoic Paleobiota of the Continental Shelf of the East China Sea (Donghai). Geological Publishing House, Beijing. (In Chinese)Google Scholar
Luger, P. 1999. A taxonomical note on genera and species related to Uroleberis Triebel 1958 with Uroleberis (Somalileberis) n. subg. and Saudileberis n.g. Neues Jahrbuch für Geologie und Paläontologie Abhandlungen, 211(1/2):151170.CrossRefGoogle Scholar
Luterbacher, H. P., Ali, J. R., Brinkhuish, H., Gradstein, F. M., Hooker, J. J., Monechi, S., Ogg, J. G., Powell, J., Röhl, U., Sanfilippo, A., and Schmitz, B. 2004. The Paleogene Period, p. 384408. In Gradstein, F. M., Ogg, J. G., and Smith, A. (eds.), A Geologic Time Scale 2004, Cambridge University Press, UK.Google Scholar
Maddocks, R. 1969. Revision of Recent Bairdiidae (Ostracoda). U. S. National Museum, Bulletin, 295:1126.Google Scholar
Majoran, S. 1996. Palaeobathymetry of ostracod associations before and after the Chinaman Gully regression (‘Eocene/Oligocene boundary’) in South Australia. Alcheringa 20:245267.CrossRefGoogle Scholar
Marianos, A. W. and Valentine, J. W. 1958. Eocene ostracode fauna from Marysville Buttes, California. Micropaleontology, 4(4):363372.CrossRefGoogle Scholar
Matsumaru, K. 1996. Tertiary larger Forminifera (Foraminiferida) from the Ogasawara Islands, Japan. Palaeontological Society of Japan, Special Paper 36, 239 p.Google Scholar
McKenzie, K. G. 1967. The distribution of Caenozoic marine Ostracoda from the Gulf of Mexico to Australasia. p. 219238, In Adams, C. G. and Ager, D. V. (eds.), Aspects of Tethyan Biogeography, Systematics Association Publication 7.Google Scholar
McKenzie, K. G. 1983. Shallow marine and Freshwater Tethyan Ostracoda: Their usefulness for petroleum exploration, p. 3550. In Maddocks, R. F. (ed.), Application of Ostracoda, University of Houston Geoscience.Google Scholar
McKenzie, K. G., Reyment, R. A., and Reyment, E. R. 1991. Eocene–Oligocene Ostracoda from South Australia and Victoria, Australia. Revista Española de Paleontologia, 6(2): 135175.Google Scholar
McKenzie, K. G., Reyment, R. A., and Reyment, E. R. 1993. Eocene Ostracoda from the Browns Creek Clays at Browns Creek and Castle Cove, Victoria, Australia. Revista Española de Paleontologia, 8(1):75116.Google Scholar
Monostori, M. 1996. Eocene ostracods of Hungary: Systematical part I. (Cytheracea I). Annales Universitatis Scientiarum Budapestinensis, sectio geologica, 31:2734.Google Scholar
Neale, J. W. and Singh, P. 1985. Ostracoda from the Middle Eocene of Assam. Palaeontology, 28:355385.Google Scholar
Neale, J. W. and Huang, B. 1993. The development and distribution of the genus Uroleberis , p. 189205. In McKenzie, K. G. and Jones, J. P. (eds.), Ostracoda in Earth and Life Sciences, Aa Balkema.Google Scholar
Neufville, E. M. H. 1979. Upper Cretaceous–Paleogene marine ostracods from the Sergipe-Alagooas, Basin, northeastern Brazil. Bulletin Geological Institute, University of Uppsala, n. s., 4:135172.Google Scholar
Neviani, A. 1928. Ostracodi fossili d'Italia. I: Vallebiaja (Calabriano). Memorie Pontificia Accademia Scienze nuovi Lincei Rome (2), 11:1120.Google Scholar
Niitsuma, N. 2006. The expansion events of marginal seas before the expansion of the Sea of Japan, p. 6672. In the Geological Society of Japan (ed.), Japanese Regional Geohistory 4 , Asakura-shoten, Tokyo. (In Japanese, title translated)Google Scholar
Pokorný, V. 1968. Havanardia g. nov., a new genus of the Bairdiiae. Věstnik Ústržedního ústavu geologického, 43:6164.Google Scholar
Puri, H. S. 1953. The ostracode genus Hemicythere and its allies. Journal of the Washington Academy of Sciences, 43(6): 169179.Google Scholar
Puri, H. S. 1957. Stratigraphy and zonation of the Ocala Group. Florida Geological Survey, Bulletin, (38): 1248 p.Google Scholar
Sars, G. O. 1866. Oversigt af Norges marine Ostracoder: Forhandlinger I. Videnskabs-Selskabet I Christiania, 8:1130.Google Scholar
Sars, G. O. 1888. Nye bidrag til kundskaben om middlehavets invertebratfauna, 4. Ostracoda Mediterranea. Archiv for Mathematik og Naturvidenskab. 12:173324.Google Scholar
Sars, G. O. 1928. Ostracoda. Parts 15, 16 Cytheridae (continued), p. 241277. An Account of the Crustacea of Norway, 9. Bergen Museum, Oslo.Google Scholar
Scotese, C. R. 2003. PALEOMAP Project. http://www.scotese.com/newpage9.htmGoogle Scholar
Seno, T. and Maruyama, S. 1984. Paleogeographic reconstruction and origin of the Philippine Sea. Tectonophysics, 102:5384.CrossRefGoogle Scholar
Siddiqui, Q. A. 1971. Early Tertiary Ostracoda of the family Trachyleberididae from west Pakistan. Bulletin of the British Museum (Natural History), Geology, Supplements, 9,143p.Google Scholar
Stephenson, M. B. 1944. Ostracoda from the Reklaw Eocene of Bastrop County, Texas. Journal of Paleontology, 18(5):448454.Google Scholar
Stephenson, M. B. 1946. Weches Eocene Ostracoda from Smithville, Texas. Journal of Paleontology, 20(4):297344.Google Scholar
Sylvester-Bradley, P. C. 1948. The ostracode genus Cythereis . Journal of Paleontology, 22(6):792797.Google Scholar
Szczechura, J. 1977. Ostracods from the Upper Eocene of East Poland. Acta Palaeontologica Polonica, 22(1):5592.Google Scholar
Szczechura, J. 2001. Ostracods from the Eocene of Seymour Island, Antarctic Peninsula. Palaeontologia Polonica, 60:157181.Google Scholar
Tarsilli, A. and Warne, M. T. 1997. An improved technique for extracting calcareous microfossils from Palaeozoic limestones. Alcheringa, 21:5764.CrossRefGoogle Scholar
Titterton, R. and Whatley, R. C. 1988a. The provincial distribution of shallow-water Indo-Pacific marine Ostracoda: Origins, antiquity, dispersal routes and mechanisms, p. 759786. In Hanai, T., Ikeya, N., and Ishizaki, K. (eds.), Evolutionary biology of Ostracoda: Its fundamentals and applications, Elsevier and Kodansha, Tokyo.Google Scholar
Titterton, R. and Whatley, R. C. 1988b. Recent Bairdiinae (Crustacea, Ostracoda) from the Solomon Islands. Journal of Micropalaeontology, 7(2): 111142.CrossRefGoogle Scholar
Triebel, E. 1950. Homöomorphe Ostracoden-Gattungen. Senkenbergiana Lethaea, 31(5–6):313330.Google Scholar
Triebel, E. 1958. Zwei neue Ostracoden-Gattungen aus dem Lutet des Pariser Beckens. Senckenbergiana lethaea, 39:105117.Google Scholar
Tsukagoshi, A. 2004. Heterochrony of Ostracoda, p. 7784. In Hayamii, I., Ozawa, T., and Setoguchi, R. (eds.), Evolutionary Paleobiology, Paleobiology 4, Asakura-shoten, Tokyo. (In Japanese, title translated)Google Scholar
Ujiié, H. and Matsumaru, K. 1977. Stratigraphic outline of Haha-jima (Hillsborough Island), Bonin Islands. Memoirs of the National Science Museum (Tokyo), 10:518. (in Japanese with English abstract)Google Scholar
Umino, S. and Ishiwatari, A. 2006. Geology of the Ogasawara Islands, p. 292301. In the Geological Society of Japan (ed.), Japanese Regional Geohistory 4, Asakura-shoten, Tokyo. (In Japanese, title translated)Google Scholar
van den Bold, W. A. 1946. Contribution to the study of Ostracoda with special reference to the Cretaceous and Tertiary microfauna of the Caribbean region. 167 p. J. H. de Bussy, Amsterdam.Google Scholar
van den Bold, W. A. 1960. Eocene and Oligocene Ostracoda of Trinidad. Micropaleontology, 6(2): 145196.CrossRefGoogle Scholar
Wang, S., Qi, Y., Yang, H., Zhou, W., Zhu, Q., and Li, Z. 2004. Discovery of the Paleogene ostracods from Kashan Block in Iran. Acta Micropalaeontologica Sinica, 21(2):209215. (In Chinese with English abstract)Google Scholar
Warne, M. T. 1986. Paranesidea and Papillatabairdia (Ostracoda, Crustacea) from the Miocene of the Port Phillip and Western Port Basins, Victoria, Australia. Proceedings of the Royal Society of Victoria, 98:4148.Google Scholar
Weissleader, L. S., Gilinsky, N. L., Ross, R. M., and Cronin, T. M. 1989. Biogeography of marine podocopid ostracodes in Micronesia. Journal of Biogeography, 16:103114.CrossRefGoogle Scholar
Wilson, M. E. J. Y. and Rosen, B. R. 1998. Implications of Paucity of Corals in the Paleogene of SE Asia: Plate Tectonics or Centre of Origin? p. 165195. In Hall, R. and Holloway, J. D. (eds.), Biogeography and Geological Evolution of SE Asia. Leiden: Backhuys Publishers.Google Scholar
Yamaguchi, T. 2006. Eocene ostracodes from the Iojima Group, Nagasaki Prefecture, southwestern Japan. Journal of Paleontology, 80(5):902918.CrossRefGoogle Scholar
Yamaguchi, T., Matsubara, T., and Kamiya, T. 2005. Eocene ostracodes from the Iwaya Formation on Awajishima Island, southwestern Japan. Paleontological Research, 9(4):305318.CrossRefGoogle Scholar
Yang, H., Chen, D., and Wang, J. 1990. Eocene Ostracoda from the southwestern Continental Shelf of the East China Sea. Acta Micropalaeontologica Sinica, 7(4):367388. (In Chinese)Google Scholar
Accepted 10 November 2008.Google Scholar