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Oligocene-Miocene ostracode assemblages with the genus Palmoconcha from Japan

Published online by Cambridge University Press:  14 July 2015

Tatsuhiko Yamaguchi
Affiliation:
1Department of Geology, Niigata University, 8050 Ikarash-2nocho, Niigata City 950-2181, Japan,
Takahiro Kamiya
Affiliation:
2Graduate School of Natural Science and Technology, Kanazawa University, Kakumamachi, Ishikawa Prefecture 920-1192, Japan,

Abstract

The genus Palmoconcha in the family Loxoconchidae of Ostracoda is found in Cenozoic sediments from the North Pacific. the genus Palmoconcha from the North Pacific is divided into two morphological groups: One is the P. parapontica characterized by having a prominent murus along a posterodorsal margin. Another is the P. laevimarginata group characterized by the nonprominent murus. Both the P. parapontica and P. laevimarginata groups contain six species including a new species and six species, respectively. the P. parapontica group is distributed in only northwestern Pacific, whereas the P. laevimarginata group occurs in both the western and eastern sides of the North Pacific. the assemblages occupied by the P. parapontica group, together with Acanthocythereis, Falsobuntonia, and Robertsonites occur from deposits of Japan during the middle Miocene and the early Oligocene climatic cooling. They associate with temperate molluscan faunas, and are considered to have appeared in shelf environments under temperate realms around the Japanese Islands during the Oligocene and Miocene climatic cooling.

Four species including three new species from the Oligocene Waita Formation are also described.

Type
Research Article
Copyright
Copyright © The Paleontological Society 

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References

Apostolescu, V. 1961. Contribution à l'etude paléontologique (Ostracodes) et stratigraphique des bassins cretacées et tertiares de l'Afrique Occidentale. Révue de l'Institut Français du Pétrole et Annales des Combustibles Liquides, 16(7-8):779867.Google Scholar
Athersuch, J. 1976. On Sagmatocythere napoliana (Puri). Stereo-Atlas of Ostracod Shells, 3:117124.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 Science Association, London, U.K., 343 p.CrossRefGoogle Scholar
Bassiouni, M. A. A. 1962. Ostracoden aus dem Mittelmiozän in NW-Deutschland. Roemeriana, 3:199.Google Scholar
Berggren, W. A., and Miller, K. G. 1988. Paleogene tropical planktonic foraminiferal biostratigraphy and magnetobiochronology. Micropaleontology, 34(4):362380.CrossRefGoogle Scholar
Brouwers, E. M. 1990. Systematic paleontology of Quaternary Ostracode assemblages from the Gulf of Alaska, part 1: Families Cytherellidae, Bairdiidae, Cytheridae, Leptocytheridae, Limnocytheridae, Eucytheridae, Krithidae, Cushmanideidae. U.S. Geological Survey Professional Paper 1510:143.Google Scholar
Brouwers, E. M. 1993. Systematic paleontology of Quaternary Ostracode assemblages from the Gulf of Alaska, part 2: Families Trachyleberididae, Hemicytheridae, Loxoconchidae, Paracytherideidae. U.S. Geological Survey Professional Paper 1531:147.Google Scholar
Cronin, T. M., Kitamura, A., Ikeya, N., Watanabe, M., and Kamiya, T. 1994. Late Pliocene climate change 3.4-2.3 Ma: paleoceanographic record from the Yabuta Formation, Sea of Japan. Palaeogeography, Palaeoclimatology, Palaeoecology, 108:437455.CrossRefGoogle Scholar
Finger, K. L. 1983. Ostracoda from the lower Rincon Formation (Oligo-Miocene) of southern California. Micropaleontology, 29(1):78109.CrossRefGoogle Scholar
Gladenkov, Y. B., Barinov, K. B., Basilian, A. E., and Cronin, T. M. 1991. Stratigraphy and paleoceanography of Pliocene deposits of Karaginsky Island, eastern Kamchatka, U.S.S.R. Quaternary Science Reviews, 10:239245.CrossRefGoogle Scholar
Hirschmann, N. 1916. Ostracods collected by N. M. Knipovitsch and S. A. Pavlovitsch in the Baltic Sea, Summer 1908. Ezhegodnik Zoologicheskogo Muzeya Imperatorskog Akademii Nauk, 20:567597. (In Russian)Google Scholar
Hanai, T., Ikeya, N., and Yajima, M. 1980. Checklist of Ostracoda from Southeast Asia. The University of Museum, University of Tokyo, Bulletin 17:1242.Google Scholar
Honda, Y. 1991. Paleogene molluscan biogeography of Japan, p. 489506. In Kotaka, T., Dickins, J. M., McKenzie, K. G., Mori, K., Ogasawara, K., and Stanley, G. D. Jr. (eds.), Proceedings International Symposium of Shallow Tethys 3. Saito Ho-on Kai Spec. Publication, 3, Sendai.Google Scholar
Honda, Y. 1994. History of the Paleogene molluscan fauna of Japan: a paleobiogeographic approach. Palaeogeography, Palaeoclimatology, Palaeoecology, 108:295310.CrossRefGoogle Scholar
Horne, D. J., and Kilenyi, T. I. 1981. On Lindisfarnia laevata (Norman). Stereo-Atlas of Ostracod Shells, 8:107116.Google 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
Howe, H. V., and Chambers, J. 1935. Louisiana Jackson Eocene Ostracoda. Geological Bulletin, State of Louisiana Department of Conservation, 5:161.Google Scholar
Howe, R. C. 1963. Type Saline Bayou Ostracoda of Louisiana. Louisiana Geological Survey, Geological Bulletin, 40:162.Google Scholar
Hu, C.-H. 1983. Ostracods from the Maanshan Mudstone of Hengchun Peninsula, Southern Taiwan. Petroleum Geology of Taiwan, 19:149178.Google Scholar
Huh, M., and Paik, K.-H. 1992. Miocene Ostracoda from the Pohang Basin, Korea, p. 101119. In Choi, D. K., Lee, J. D., and Yun, H. (eds.), Biostratigraphy, Bioprovincialism and Bioevents in the Far East. Journal of Paleontological Society of Korea, Special Publication, no. 1.Google Scholar
Huh, M., and Whatley, R. 1997. New species of Miocene cytheracean Ostracoda from the Pohang Basin, SE Korea. Journal of Micropalaeontology, 16(1):3140.CrossRefGoogle Scholar
Ibaraki, M. 1994. Ages and paleoenvironments of the Tertiary in northwestern Kyushu on the basis of planktonic foraminifers. Monthly Chikyu, 16(3):150153. (In Japanese)Google Scholar
Ikeya, N., and Suzuki, C. 1992. Distributional patterns of modern ostracodes off Shimane Peninsula, southwestern Japan Sea. Reports of the Faculty of Science, Shizuoka University, 26:91137.Google Scholar
Irizuki, T. 1994. Late Miocene ostracods from the Fujikotogawa Formation, northern Japan—with reference to cold water species involved with trans-Arctic interchange. Journal of Micropalaeontology, 13(1):315.CrossRefGoogle Scholar
Irizuki, T. 1996. Lithology and Ostracoda from the Pliocene Tentokuji Formation along the southern marginal area of Mt. Taiheizan, Akita Prefecture, Northeast Japan. The Bulletin of Aichi University of Education, XLV (Natural Science):2332.Google Scholar
Irizuki, T., and Matsubara, T. 1994. Vertical changes of depositional environments of the lower to middle Miocene Kadonosawa Formation based on analyses of fossil ostracode faunas. The Journal of the Geological Society of Japan, 100(2):136149. (In Japanese)CrossRefGoogle Scholar
Irizuki, T., and Matsubara, T. 1995. Early Middle Miocene ostracodes from the Suenomatsuyama Formation, Ninohe City, Northeast Japan and their paleoenvironmental significance. Transactions and Proceedings of the Palaeontological Society of Japan, New Series, 177:6578.Google Scholar
Irizuki, T., Ishizaki, K., Takahashi, M., and Usami, M. 1998. Ostracode faunal changes after the mid-Neogene climatic optimum elucidated in the Middle Miocene Kobana Formation, central Japan. Paleontological Research, 2(1):3046.Google Scholar
Irizuki, T., Yamada, K., Maruyama, T., and Ito, H. 2004. Paleoecology and taxonomy of Early Miocene Ostracoda and paleoenvironments of the eastern Setouchi Province, central Japan. Micropaleontology, 50(2):105147.CrossRefGoogle Scholar
Irizuki, T., Yamaguchi, T., Takahashi, M., and Yanagisawa, Y. 2001. Miocene temperate Ostracoda from the Tochigi and Fukushima districts, central to northeastern Japan, p. 4572. In Ikeya, N. (ed.), ISO 2001 Field Excursion Guidebook, the Organizing Committee of ISO 2001, Shizuoka, Japan.Google Scholar
Ishizaki, K. 1963. Japanese Miocene Ostracodes from the Sunakosaka Member of the Yatsuo Formation, East of Kanazawa City, Ishikawa Prefecture. The Japanese Journal of Geology and Geography, 34(2-4): 161175.Google Scholar
Ishizaki, K. 1966. Miocene and Pliocene ostracodes from the Sendai Area, Japan. The Science Reports of the Tohoku University, Sendai, Second Series (Geology), 37(2):131164.Google Scholar
Ishizaki, K. 1981. Ostracoda from the East China Sea. The Science Reports of the Tohoku University, Sendai, Second Series (Geology), 51(1-2):3765.Google Scholar
Ishizaki, K., and Matoba, Y. 1985. Early Pleistocene cold, shallow water Ostracoda. Guidebook of Excursions Exc.5: Akita, International Symposium on Ostracoda, 12 p.Google Scholar
Ishizaki, K., Fujiwara, O., and Irizuki, T. 1996. Ostracod faunas from the Upper Miocene Tsunaki Formation near the southern border of Sendai City, Northeastern Japan. Proceedings of the 2nd European ostracodologists meeting: 113120.Google Scholar
Ishizaki, K., and Irizuki, T. 1990. Distribution of bathyal ostracodes in sediments of Toyama Bay, central Japan. Courier Forschungsinstitut Senkenberg, 123:5367.Google Scholar
Kamiya, T., Ozawa, H., and Obata, M. 2001. Quaternary and Recent marine Ostracoda in Hokuriku district, the Japan Sea coast, p. 73106. In Ikeya, N. (ed.), ISO 2001 Field Excursion Guidebook. The Organizing Committee of ISO 2001, Shizuoka, Japan.Google Scholar
Kingma, J. T. 1948. Contributions to the knowledge of the younger Caenozoic Ostracoda from the Malayan Region. Proefschrift, Rijks- Universiteit Utrecht:1118.Google 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
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., Ogg, J., and Smith, A. (eds.), A Geologic Time Scale 2004, Cambridge University Press, U.K.Google Scholar
Malz, H. 1982. Plio-/Pleistozäne Buntoniini von SW-Taiwan (Ostracoda). Senckenberg Lethaea, 63:377411.Google Scholar
Miller, K. G., Wright, J. D., and Fairbanks, R. G. 1991. Unlocking the Ice House: Oligocene–Miocene oxygen isotopes, eustacy and margin erosion. Journal of Geophysical Research, 96(B4):68296848.CrossRefGoogle Scholar
Mizuno, A. 1964. Paleogene and early Neogene molluscan faunae in west Japan. Report of Geological Survey of Japan, 204:172.Google Scholar
Nakao, Y., Tanaka, G., and Yamada, S. 2001. Pleistocene and living marine Ostracoda in Shizuoka district, Japan, p. 127147. In Ikeya, N. (ed.), ISO 2001 Field Excursion Guidebook, the Organizing Committee of ISO 2001, Shizuoka, Japan.Google Scholar
Neale, J. W. 1967. An Ostracod fauna from Halley Bay, Coasts Land, British Antarctic Territory. Scientific Reports British Antarctic Survey, 58:150.Google Scholar
Norman, A. M. 1865. Deepsea dredging on the coasts of Northumberland and Durham, in 1864. British Assoiciation for the Advancement of Science Report, 34th Meeting: 189193.Google Scholar
Ogasawara, K. 1994. Neogene paleogeography and marine climate of the Japanese Islands based on shallow-marine molluscs. Palaeogeography, Palaeoclimatology, Palaeoecology, 108:335351.CrossRefGoogle Scholar
Ogasawara, K. 2002. Responses of Japanese Cenozoic molluscs to Pacific gateway events. Revista Mexicana de Cienicas Geologicas, 19:19.Google Scholar
Okada, H. 1992. Calcareous nannofossils and biostratigraphy of the Paleogene sequences of the northern Kyushu, Japan. The Journal of Geological Society of Japan, 98(6):509528.Google Scholar
Okada, H., and Bukry, D. 1980. Supplementary modification and introduction of code numbers to the low-latitude cocolith biostratigraphic zonation (Bukry, 1973 1975). Marine Micropaleontology, 5:321325.CrossRefGoogle Scholar
Otuka, Y. 1939. Tertiary crustal deformation in Japan (with short remarks on Tertiary palaeogeography). Jubilee Publication Commemoration of Professor H. Yabe, M.I.A. 60th Birthday, 1:481519.Google Scholar
Ozaki, M., Hamasaki, S., and Yoshii, M. 1993. Geology of the Orio district. With Geological Sheet Map at 1: 50, 000, Geological Survey of Japan, 121 p. (In Japanese)Google Scholar
Ozawa, H. 1996. Ostracode fossils from the late Pliocene to early Pleistocene Omma Formation in the Hokuriku district, central Japan. Science reports of Kanazawa University, 41(2):77115.Google Scholar
Ozawa, H., Kamaya, T., Kato, M., and Tsukawaki, S. 2004. A preliminary report on the Recent ostracodes in sediment samples from the R.V. Tanseimaru Cruise KT04-14 in the southwestern Okhotsk Sea and the northeastern Japan Sea off Hokkaido. Bulletin of the Japan Sea Research Institute, Kanazawa University, 35:3346.Google Scholar
Pokorný, V. S. 1955. Contribution to the morphology and taxonomy of the subfamily Hemicytherinae Puri, 1953 (Crustacea, Osracoda). Acta Universtatis Carolinae Geologica, 3:135.Google Scholar
Puri, H. S. 1963. Preliminary notes on the Ostracoda of the Gulf of Naples. Experientia, 19:368373.CrossRefGoogle Scholar
Ruan, P., and Hao, Y. 1988. II. Description of ostracode genera and species, p. 227395. In Research Party of Marine Geology, Ministry of Geology and Mineral Resourse and Chinese University Geoscience (ed.), Quaternary Microbiotas in the Okinawa Trough and Their Geological Significance. Geological Publishing House, Beijing. (In Chinese)Google Scholar
Sakakura, N. 2002. Taphonomy of the bivalve assemblages in the upper part of the Paleogene Ashiya Group, southwestern Japan. Paleontological Research, 6(1):101120.Google Scholar
Sars, G. O. 1926. Ostracoda. Parts 13, 14 Cytheridae (continued), p. 97112. An account of the Crustacea of Norway, 9, Bergen Museum, Oslo.Google Scholar
Shuto, T. 1991. Origin of the Oligocene Ashiya fauna, p. 269281. In Kotaka, T., Dickins, J. M., McKenzie, K. G., Mori, K., Ogasawara, K., and Stanley, G. D. Jr. (eds.), Proceedings International Symposium of Shallow Tethys 3. Saito Ho-on Kai Spec. Publication, 3, Sendai.Google Scholar
Swain, F. M. 1963. Pleistocene Ostracoda from the Gubik Formation, Arctic coastal plain, Alaska. Journal of Paleontology, 37(4):798834.Google Scholar
Swain, F. M., and Gilby, J. M. 1974. Marine Holocene Ostracoda from the Pacific coast of North and Central America. Micropaleontology, 20(2):257352.CrossRefGoogle Scholar
Sylvester-Bradley, P. C. 1948. The ostracod genus Cythereis. Journal of Paleontology, 22(6):792797.Google Scholar
Tabuki, R. 1986. Plio–Pleisticene Ostracoda from the Tsugaru Basin, North Honshu, Japan. Bulletin of College of Education, University of Ryukyus, 29:27160.Google Scholar
Tanaka, G. 2003. Middle Miocene ostracods from the Omori Formation, Izumo City, Southwest Japan—Its implications for palaeoenvironment of the Proto-Japan Sea. Earth Science (Chikyu Kagaku), 57:111127.Google Scholar
Tanaka, G., Tsukawaki, S., and Ooji, A. 2004. Preliminary Report on Ostracods from the Miocene Sunagozaka Formation, Southern Part of Kanazawa City, Ishikawa Prefecture, Central Japan. Bulletin of the Japan Sea Research Institute, Kanazawa University, 35:5364. (In Japanese)Google Scholar
Tanaka, G., Seto, K., Mukuda, T., and Nakano, Y. 2002. Middle Miocene ostracods from the Fujina Formation, Shimane Prefecture, Southwest Japan and their paleoenvironmental significance. Paleontological Research, 6(1):122.Google Scholar
Tsukawaki, S., Ozawa, H., Domitsu, H., Kamiya, T., Kato, M., and Oda, M. 2000. Preliminary results from the R.V. Tansei-maru Cruise KT98-17 in the southwestern marginal part of the Japan Sea—Sediments, benthic and planktonic foraminifers and Ostracodes. Bulletin of the Japan Sea Research Institute, Kanazawa University, 31:89119.Google Scholar
Tsukawaki, S., Ozawa, H., Domitsu, H., Tanaka, Y., Kamiya, T., Kato, M., and Oda, M. 1999. Preliminary results from the R.V. Tansei-maru Cruise KT97-15 in the eastern marginal part of the Japan Sea off Tsugaru Peninsula, Northeast Japan—Sediments, benthic and planktonic foraminifers and Ostracodes. Bulletin of the Japan Sea Research Institute, Kanazawa University, 30:99140.Google Scholar
Valentine, P. C. 1976. Zoogeography of Holocene Ostracoda off Western North America and paleoclimatic implications. U.S. Geological Survey Professional Paper, 916:147.Google Scholar
Wakamatsu, H. 1992. Preliminary report on ostracodes from muddy sediments of the Plio–Pleistocene Kakegawa Group, Central Japan. Bulletin of the Mizunami Fossil Museum, 19:509513. (In Japanese)Google Scholar
Yajima, M. 1988. Preliminary notes on the Japanese Miocene Ostracoda, p. 10731085. In Hanai, T., Ikeya, N., and Ishizaki, K. (eds.), Evolutionary Biology on Ostracoda. Kodansha, Ltd., Tokyo.Google Scholar
Yajima, M. 1992. Early Miocene Ostracoda from Mizunami, central Japan. Bulletin of the Mizunami Fossil Museum, 19:247268.Google Scholar
Yamada, K., Irizuki, T., and Nakajima, S. 2001. Spatial and temporal distribution of fossil ostracode assemblages and sedimentary facies in the Lower Miocene Arakida Formation, Tomikusa Group, Nagano Prefecture, central Japan. The Journal of the Geological Society of Japan, 107(1):113. (In Japanese)CrossRefGoogle Scholar
Yamaguchi, T. 2004. Oligocene ostracode assemblages from the Itanoura Formation, Nishisonogi Group, Nagasaki Prefecture, southwestern Japan. Paleontological Research, 8(1):5670.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., and Hayashi, H. 2001. Late Miocene ostracodes from the Kubota Formation, Higashi-Tanagura Group, Northeast Japan, and their implications for bottom environments. Paleontological Research, 5(4):241257.Google Scholar
Yamaguchi, T., and Kamiya, T. 2004. Eocene–Oligocene ostracode faunas in the northeastern Kyushu region, southwestern Japan. Abstracts of the 2004 Annual Meeting of the Palaeontological Society of Japan: 51. (In Japanese)Google 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
Zachos, J., Pagani, M., Sloan, L., Thomas, E., and Billups, K. 2001. Trends, rhythms, and aberrations in global climate 65 Ma to Present. Science, 292:686693.CrossRefGoogle ScholarPubMed
Zhou, B.-C. 1995. Recent ostracode fauna in the Pacific off southwest Japan. The Memoirs of the Faculty of Science, Kyoto University, Series of Geology and Mineralogy, 57(2):2198.Google Scholar