Hostname: page-component-cd9895bd7-gvvz8 Total loading time: 0 Render date: 2024-12-26T20:09:51.845Z Has data issue: false hasContentIssue false

Early Miocene marine ostracodes from southwestern India: implications for their biogeography and the closure of the Tethyan Seaway

Published online by Cambridge University Press:  28 September 2020

Moriaki Yasuhara*
Affiliation:
School of Biological Sciences and Swire Institute of Marine Science, The University of Hong Kong, Kadoorie Biological Sciences Building, Pokfulam Road, Hong Kong SAR, China
Yuanyuan Hong*
Affiliation:
School of Biological Sciences and Swire Institute of Marine Science, The University of Hong Kong, Kadoorie Biological Sciences Building, Pokfulam Road, Hong Kong SAR, China
Skye Yunshu Tian*
Affiliation:
School of Biological Sciences and Swire Institute of Marine Science, The University of Hong Kong, Kadoorie Biological Sciences Building, Pokfulam Road, Hong Kong SAR, China
Wing Ki Chong
Affiliation:
School of Biological Sciences and Swire Institute of Marine Science, The University of Hong Kong, Kadoorie Biological Sciences Building, Pokfulam Road, Hong Kong SAR, China
Rachel Wai Ching Chu
Affiliation:
School of Biological Sciences and Swire Institute of Marine Science, The University of Hong Kong, Kadoorie Biological Sciences Building, Pokfulam Road, Hong Kong SAR, China
Hisayo Okahashi
Affiliation:
School of Biological Sciences and Swire Institute of Marine Science, The University of Hong Kong, Kadoorie Biological Sciences Building, Pokfulam Road, Hong Kong SAR, China
Markus Reuter
Affiliation:
Institute of Geophysics and Geology, Leipzig University, Talstraße 35, 04103Leipzig, Germany
Werner E. Piller
Affiliation:
Institute of Earth Sciences, University of Graz, NAWI Graz Geocenter, Heinrichstrasse 26, 8010Graz, Austria
Mathias Harzhauser
Affiliation:
Department of Geology and Palaeontology, Natural History Museum Vienna, Burgring 7, 1010Vienna, Austria
*
*Corresponding authors.
*Corresponding authors.
*Corresponding authors.

Abstract

Twenty-six genera and 34 species of early Miocene Indian shallow-marine ostracodes were examined for taxonomy and paleobiogeography. A new genus Paractinocythereis and new species Costa ponticulocarinata were described. Early Miocene Indian ostracode fauna shows strong affinity to Eocene–Miocene Eastern and Western Tethyan ostracode faunas and Miocene–Recent Indo-Pacific ostracode fauna, supporting the Hopping Hotspot Hypothesis that the Tethyan biodiversity hotspot has shifted eastward through Arabia to Indo-Australian Archipelago (IAA) together with concomitant biogeographic shifts of the Tethyan elements. The result also indicated an inverse westward distributional shift in a genus. It is important to note that Paleogene and Miocene shallow marine ostracodes from the IAA region remain poorly investigated, and more fossil ostracode data are needed to better test the Hopping Hotspot Hypothesis.

UUID: http://zoobank.org/d1e29249-8c5b-49bf-a47a-5f18e1fc4426

Type
Memoir
Copyright
Copyright © 2020, The Paleontological Society

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Ahmad, M., 1977, On Paracytheridea anapetes Ahmad sp. nov.: Stereo-Atlas of Ostracod Shells, v. 4, p. 4144.Google Scholar
Ahmad, M., Neale, J.W., and Siddiqui, Q.A., 1991, Tertiary Ostracoda from the Lindi area, Tanzania: Bulletin of The British Museum (Natural History), Geology, v. 46, p. 175270.Google Scholar
Aiello, G., and Szczechura, J., 2004, Middle Miocene ostracods of the Fore-Carpathian Depression (Central Paratethys, southwestern Poland): Bollettino della Societá Paleontologica Italiana, v. 43, p. 1170.Google Scholar
Al-Furaih, A.A.F., 1980, Upper Cretaceous and Lower Tertiary Ostracoda (Superfamily Cytheracea) from Saudi Arabia: University Libraries; Riyadh, University of Riyadh, 211 p.Google Scholar
Alexander, C.I., 1929, Ostracoda of the Cretaceous of north Texas: University of Texas Bulletin, Bureau of Economic Geology, v. 2907, p. 7114.Google Scholar
Apostolescu, V., 1956, Contribution á l'étude des ostracodes de l'Eocéne inférieur (s.l.) du Bassin de Paris: Revue de l'Institut Français du Pétrole et Annales des Combustibles Liquides, v. 11, p. 13271352.Google Scholar
Apostolescu, V., 1961, Contribution à l´étude paléontologique (Ostracodes) et stratigraphique des bassins Crétacés et tertiaires de l´Afrique occidentale: Revue de l'Institut Francais du Petrole et Annales des Combustibles Liquides, v. 16, p. 779867.Google Scholar
Athersuch, J., and Horne, D.J., 1984, A review of some European genera of the family Loxoconchidae (Crustacea: Ostracoda): Zoological Journal of the Linnean Society, v. 81, p. 122.CrossRefGoogle Scholar
Aziz, N.M., and Al-Shumam, H.M., 2013, On some species of the superfamily Cytheracea (Ostracoda) from Euphrates Formation and Serikagni/Euphrates Intertonguing In Hamrin Well No.12 and Ajille Well No.6, N. Iraq: Tikrit Journal of Pure Science, v. 18, p. 164171.Google Scholar
Backman, J., Raffi, I., Rio, D., Fornaciari, E., and Pälike, H., 2012, Biozonation and biochronology of Miocene through Pleistocene calcareous nannofossils from low and middle latitudes: Newsletters on Stratigraphy, v. 45, p. 221244.CrossRefGoogle Scholar
Baird, W., 1845, Arrangement of the British Entomostraca, with a list of species, particularly noticing those which have as yet been discovered within the bounds of the club: Transactions of the Berwickshire Naturalist's Club, v. 2, p. 145158.Google Scholar
Baird, W., 1850a, Description of several new species of Entomostraca: Proceedings of the Zoological Society of London, v. 18, p. 254257.Google Scholar
Baird, W., 1850b, The Natural History of the British Entomostraca: London, Ray Society, 364 p.Google Scholar
Baker, J.H., and Hulings, N.C., 1966, Recent marine ostracod assemblages of Puerto Rico: Publications of the Institute of Marine Science, Texas, v. 11, p. 108125.Google Scholar
Bassiouni, M.A.A., and Luger, P., 1996, Middle Eocene Ostracoda from Northern Somalia: Courier Forschungsinstitut Senckenberg, v. 192, p. 1139.Google Scholar
Bate, R.H., and Sheppard, L.M., 1980, On Quadraleberis exquisita Bate & Sheppard gen. et sp. nov: Stereo-Atlas of Ostracod Shells, v. 7, p. 107112.Google Scholar
Bhandari, A., 1996, Atlas of Paleogene ostracodes of Rajasthan Basins: Paleontographica Indica, v. 4, p. 1157.Google Scholar
Bhandari, A., 2004, Evolutionary trends and biostratigraphic significance of the ostracode genus Stigmatocythere in the Cenozoic succession of India: Paleontological Research, v. 8, p. 181197.CrossRefGoogle Scholar
Bhandari, A., Khosla, S.C., and Nagori, M.L., 2001, Atlas of Early and Middle Miocene ostracodes from west coast of India: Paleontographica Indica, v. 6, p. 1173.Google Scholar
Bhatia, S.B., and Kumar, S., 1979, Recent Ostracoda from off Karwar, west coast of India, in Krstic, N., ed., Proceedings of the VII International Symposium on Ostracodes. Taxonomy, Biostratigraphy and Distribution of Ostracodes: Belgrade, Serbian Geological Society, p. 173178.Google Scholar
Bonaduce, G., Masoli, M., and Pugliese, N., 1976, Ostracoda from the Gulf of Aqaba (Red Sea): Pubblicazioni della Stazione Zoologica di Napoli, v. 40, p. 372428.Google Scholar
Bonaduce, G., Ruggieri, G., and Russo, A., 1984, The genus Tenedocythere (Ostracoda, Podocopida) of the Mediterranean Miocene to Recent especially from Italy: Bollettino della Società Paleontologica Italiana, v. 23, p. 515543.Google Scholar
Bosquet, J., 1852, Description des Entomostracés fossiles des terrains Tertiaires de la France et de la Belgique: Memoires Couronnes et Memoires des Savants Etrangers Publies par L'academie Royale des Sciences, des Lettres et des Beaux-arts de Belgique, v. 24, p. 1142.Google Scholar
Bosquet, J., 1854, Monographie des Crustacés fossiles du terrain crétacé du duché du Limbourg: Commission pour la description et la carte géologique de la Hollande, Mémoire, v. 2, p. 1139.Google Scholar
Bossio, A., Dall'Antonia, B., Da Prato, S., Foresi, L.M., and Oggiano, G., 2006, Premilinary [sic.] stratigraphical investigations on the Miocene successions of the Porto Torres Basin (Northern Sardinia, Italy): Atti della Società toscana di scienze naturali, Memorie, Serie A v. 111, p. 6774.Google Scholar
Brady, G.S., 1868, Ostracoda, in De Folin, L., and Perier, L., eds., Les Fonds de la Mer, Volume 1: Paris, Savy, p. 1176.Google Scholar
Brady, G.S., 1880, Report on the Ostracoda dredged by H.M.S. Challenger, during the years 1873–1876: Report on the Scientific Results of the Exploring Voyage of H.M.S. Challenger, Zoology, v. 1, p. 1184.Google Scholar
Brady, G.S., 1886, Notes on Entomostraca collected by Mr. A. Haly in Ceylon: Journal of the Linnean Society, Zoology, v. 19, p. 293317.CrossRefGoogle Scholar
Brady, G.S., 1890, On Ostracoda collected by H. B. Brady, Esq., L.L.D., F.R.S., in the South Sea Islands: Transactions of the Royal Society of Edinburgh, v. 35, p. 489525.CrossRefGoogle Scholar
Brady, G.S., Crosskey, H.W., and Robertson, D., 1874, A monograph of the post-Tertiary Entomostraca of Scotland including species from England and Ireland: Annual Volumes (Monographs) of the Palaeontographical Society, London, v. 28, p. 1232.Google Scholar
Bramlette, M.N., and Wilcoxon, J.A., 1967, Middle Tertiary calcareous nannoplankton of the Cipero section, Trinidad, W.I.: Tulane Studies in Geology and Paleontology, v. 5, p. 93131.Google Scholar
Brandão, S.N., Angel, M.V., Karanovic, I., Perrier, V., and Meidla, T., 2019, World Ostracoda Database. Accessed at http://www.marinespecies.org/ostracoda on 27 March 2019.Google Scholar
Brigulio, A., and Rögl, F., 2018, The Miocene (Burdigalian) operculinids of Channa Kodi, Padappakkara, southern India: Palaeontographica Abteilung A, v. 312, p. 1739.CrossRefGoogle Scholar
Brigulio, A., Ćorić, S., and Rögl, F., 2018, Micropalaeontological investigations of the Quilon Formation at the Channa Kodi section of Padappakkara, Kerala, India: Palaeontographica Abteilung A, v. 213, p. 4146.CrossRefGoogle Scholar
Brouwers, E., and Fatmi, S.F., 1992a, Biostratigraphic and paleoecologic analysis of ostracode assemblages from late Paleocene and early Eocene sedimentary rocks, Core UAK-5, Ganjo Takkar Inlier, Sindh Province, Pakistan: U. S. Geological Survey Open-File Report, v. 92–517, p. 182.Google Scholar
Brouwers, E., and Fatmi, S.F., 1992b, Late Paleocene–Early Eocene ostracode assemblages from Core UAJ-1, Meting-Jhimpir coal field, Sindh Province, Pakistan: U. S. Geological Survey Open-File Report, v. 92–221, p. 146.Google Scholar
Bubikyan, S.A., 1958, Ostracoda from Paleogene deposits of the Erevan Basin: Izvestiya Akademii Nuak Armyanskoy SSR, Seriya Geologicheskii i Geograficheskii Nauk, v. 11, p. 316. [in Russian]Google Scholar
Campanile, D., Nambiar, C.G., Bishop, P., Widdowson, M., and Brown, R., 2008, Sedimentation record in the Konkan-Kerala Basin: implications for the evolution of the Western Ghats and the Western Indian passive margin: Basin Research, v. 20, p. 322.Google Scholar
Coles, G.P., Whatley, R.C., and Moguilevsky, A., 1994, The ostracod genus Krithe from the Tertiary and Quaternary of the North Atlantic: Palaeontology, v. 37, p. 71120.Google Scholar
Ćorić, S., 2019, Lower Miocene calcareous nannofossils and didemnid ascidian spicules (Tunicata) from the Channa Kodi Section at Padappakkara, Kerala, India: Palaeontographica Abteilung A, v. 313, p. 151157.CrossRefGoogle Scholar
Deflandre, G., 1953, Hétérogénéité intrinsèque et pluralité des éleménts dans les coccolithes actuels et fossils: Comptes Rendus Hebdomadaires des Séances de l'Académie des Sciences, Paris, v. 237, p. 17851787.Google Scholar
Dewi, K.T., 1997, Ostracoda from the Java Sea, west of Bawean Island, Indonesia: Marine Geological Institute Special Publication, v. 4, p. 1115.Google Scholar
Doruk, N., 1973, On Costa edwardsii (Roemer): Stereo-Atlas of Ostracod Shells, v. 1, p. 245248.Google Scholar
Ducasse, O., and Cahuzac, B., 1997, Les ostracodes indicateurs des paléoenvironnements au miocène moyen (serravallien) en aquitaine (sud-ouest de la France): Revue de Micropaléontologie, v. 40, p. 141166.CrossRefGoogle Scholar
Ducasse, O., and Coustillas, F., 1981, Les Ostracodes du genre Pokornyella dans le Paleogène Aquitain. Partie I—Etude systématique par analyse structurale des espèces en populations: Bulletin de l'Institut de géologie du Bassin d'Aquitaine, Bordeaux, v. 29, p. 530.Google Scholar
Ducasse, O., Guernet, C., and Tambareau, Y., 1985, Paléogène, in Oertli, O.H., ed., Atlas des Ostracodes de France. Bulletin des Centres de Recherches Exploration-Production Elf-Aquitaine, Mémoire 9: Pau, Société Nationale Elf Aquitaine, p. 259311.Google Scholar
El Sogher, A., 1996, Late Cretaceous and Palaeocene ostracods from the Waha Limestone and Hagfa Shale formations of the Sirt Basin, Libya, in Salim, M.J., MouzughI, A.J., and Hammuda, O.S., eds., The Geology of Sirte, Libya, vol. 1: Amsterdam, Elsevier, p. 287382.Google Scholar
El-Waer, A., 1988, Late Miocene Ostracoda from NW Libya: Journal of Micropalaeontology, v. 7, p. 4552.CrossRefGoogle Scholar
Faranda, C., Cipollari, P., Cosentino, D., Gliozzi, E., and Pipponzi, G., 2008, Late Miocene ostracod assemblages from eastern Mediterranean coral reef complexes (central Crete, Greece): Revue de Micropaléontologie, v. 51, p. 287308.CrossRefGoogle Scholar
Fischer, S., 1855, Beitrag zur Kenntniss der Ostracoden: Abhandlungen der Bayerischen Akademie der Wissenschaften, v. 7, p. 635665.Google Scholar
Gou, Y., Chen, T., Guan, S., Jian, Y., Liu, Z., Lai, X., Wu, Q., and Chen, C., 1981, Ostracoda, in Hou, Y., ed., Tertiary paleontology of north continental shelf of South China Sea: Guangzhou, Guangdong Science and Technology Press, p. 138187, 255–267.Google Scholar
Gross, M., and Piller, W.E., 2006, Mittelmiozäne Ostracoden aus dem Wiener Becken (Badenium/Sarmatium, Österreich): Schriftenreihe der Erdwissenschaftlichen Kommission, v. Sonderband 1, p. 1224.Google Scholar
Gründel, J., 1967, Zur Grossgliederung der Ordnung Podocopida G. W. Müller, 1894 (Ostracoda): Neues Jahrbuch für Geologie und Paläontologie, Monatshefte, v. 6, p. 321332.Google Scholar
Guernet, C., 2005, Ostracodes et stratigraphie du néogène et du quaternaire méditerranéens: Revue de micropaléontologie, v. 48, p. 83121.CrossRefGoogle Scholar
Guernet, C., Bourdillon De Grissac, C., and Roger, J., 1991, Ostracodes Paleogenes du Dhofar (Oman). Interet stratigraphique et paleogeographique: Revue de Micropaléontologie, v. 34, p. 297311.Google Scholar
Guernet, C., Huyghe, D., Lartaud, F., Merle, D., Emmanuel, L., Gély, J.P., Michel, F., and Pilet, O., 2012, Les Ostracodes de la falunière de Grignon (Lutétien du Bassin de Paris): implications stratigraphiques: Geodiversitas, v. 34, p. 909959.CrossRefGoogle Scholar
Guha, D.K., 1961, A note on the ostracodes from Lower Miocene of Chaasra, Kutch: Bulletin of the Geological, Mining & Metallurgical Society of India, v. 24, p. 16.Google Scholar
Guha, D.K., 1968, Young Cenozoic marine Ostracoda from subcrops of South India: Memoirs of the Geological Society of India, v. 2, p. 208217.Google Scholar
Guha, D.K., 1974, Marine Ostracoda from Tertiary of Kutch and Cambay: Publications, Centre of Advanced Study in Geology, Panjab University, v. 10, p. 156176.Google Scholar
Guha, D.K., and Rao, V.K., 1976, Young Cenozoic Ostracoda from west coast of India: Proceedings of the VI Indian Colloquium on Micropaleontology and Stratigraphy, Varanasi, p. 91–98.Google Scholar
Hajek-Tadesse, V., and Prtoljan, B., 2011, Badenian Ostracoda from the Pokupsko area (Banovina, Croatia): Geologica Carpathica, v. 62, p. 447461.CrossRefGoogle Scholar
Harrison, D., Maybury, C., and Whatley, R., 2000, The ostracod genus Aurila from the Pliocene of north west France: Revista Española de Micropaleontología, v. 32, p. 2160.Google Scholar
Harzhauser, M., 2014, A seagrass-associated Early Miocene Indo-Pacific gastropod fauna from South West India (Kerala): Palaeontographica Abteilung A, v. 302, p. 73178.CrossRefGoogle Scholar
Hawramy, O.A., and Khalaf, S.K., 2013, Ostracoda of Fat'ha Formation (Middle Miocene) from (Darbandikhan and Aghjalar) sections, Sulaimani-Kurdistan Region/Northeastern Iraq: Journal of Zankoy Sulaimani, Part A, v. 15, p. 4976.CrossRefGoogle Scholar
Hedley, J.D., McMahon, K., and Fearns, P., 2014, Seagrass canopy photosynthetic response is a function of canopy density and light environment: a model for Amphibolis griffithii: PLoS ONE 9(10): e111454. doi:111410.111371/journal.pone.0111454.CrossRefGoogle Scholar
Holden, J.C., 1976, Late Cenozoic Ostracoda from Midway Island drill holes: U. S. Geological Survey Professional Paper, v. 680-F, p. F1F43.Google Scholar
Hong, Y., Yasuhara, M., Iwatani, H., and Mamo, M., 2019, Baseline for ostracod-based northwestern Pacific and Indo-Pacific shallow-marine paleoenvironmental reconstructions: ecological modeling of species distributions: Biogeosciences, v. 16, p. 585604. doi:510.5194/bg-5116-5585-2019.Google Scholar
Horne, D.J., Cohen, A., and Martens, K., 2002, Taxonomy, morphology and biology of Quaternary and living Ostracoda, in Holmes, J.A., and Chivas, A.R., eds., The Ostracoda: Applications in Quaternary Research. Volume 131: Washington, DC, American Geophysical Union, p. 536.CrossRefGoogle Scholar
Hornibrook, N.B., 1952, Tertiary and recent marine Ostracoda of New Zealand—their origin, affinities and distribution: New Zealand Geological Survey, Paleontological Bulletin, v. 18, p. 582.Google Scholar
Howe, H.V., 1951, New Tertiary ostracode fauna from Levy County, Florida: Florida Geological Survey, Geological Bulletin, v. 34, p. 143.Google Scholar
Howe, H.V., 1955, Handbook of Ostracod Taxonomy: Louisiana State University Studies, Physical Science Series, v. 1, p. 1386.Google Scholar
Howe, R.C., 1963, Type Saline Bayou Ostracoda of Louisiana: Louisiana Geological Survey, Geological Bulletin, v. 40, p. 162.Google Scholar
Huang, H.H.M., Yasuhara, M., Iwatani, H., Alvarez Zarikian, C.A., Bassetti, M.A., and Sagawa, T., 2018, Benthic biotic response to climate changes over the last 700,000 years in a deep marginal sea: impacts of deoxygenation and the Mid-Brunhes Event: Paleoceanography and Paleoclimatology, v. 33, p. 766777. doi:710.1029/2018PA003343.Google Scholar
Huff, W.J., 1970, The Jackson Eocene Ostracoda of Mississippi: Mississippi Geological, Economic and Topographical Survey, Bulletin, v. 114, p. 1289.Google Scholar
Ied, I.M., and Ismail, A.S.A., 2016, Middle Miocene ostracods from Wadi Sudr, westcentral Sinai, Egypt: systematic, biostratigraphy and palaeobiogeographic affinity with the Mediterranean realm: Arabian Journal of Geosciences, v. 9, p. 121. doi:10.1007/s12517-12016-12416-12518.CrossRefGoogle Scholar
Ishizaki, K., 1971, Ostracodes from Aomori Bay, Aomori Prefecture, northeast Honshu, Japan: Science Reports of the Tohoku University, 2nd Series (Geology), v. 43, p. 5997.Google Scholar
Iwatani, H., Yasuhara, M., Rosenthal, Y., and Linsley, B.K., 2018, Intermediate-water dynamics and ocean ventilation effects on the Indonesian Throughflow during the past 15,000 years: ostracod evidence : Geology, v. 46, p. 567570.CrossRefGoogle Scholar
Jain, S.P., 1981, Checklist of Ostracoda from India-1. Cenozoic Ostracoda (Marine): Journal of the Palaeontological Society of India, v. 25, p. 85105.Google Scholar
Jellinek, T., 1993, Zur Ökologie und Systmatik rezenter Ostracoden aus dem Bereich des kenianischen Barriere-Riffs: Senckenbergiana lethaea, v. 73, p. 83225.Google Scholar
Jones, T.R., 1849, A monograph of the Entomostraca of the Cretaceous formation of England: Annual Volumes (Monographs) of the Palaeontographical Society, London, v. 3, p. 140.Google Scholar
Jones, T.R., 1901, On some Carboniferous shale from Siberia: Geological Magazine (Decade 4), v. 8, p. 433436.CrossRefGoogle Scholar
Jyothibabu, R., Balachandran, K.K., Jagadeesan, L., Karnan, C., Arunpandi, N., Naqvi, S.W.A., and Pandiyarajan, R.S., 2018, Mud Banks along the southwest coast of India are not too muddy for plankton: Scientific Reports, v. 8, p. 2544. doi:2510.1038/s41598-41018-20667-41599.CrossRefGoogle Scholar
Kamiya, T., 1988, Morphological and ethological adaptions of Ostracoda to microhabitats in Zostera beds, in Hanai, N., Ikeya, N., and Ishizaki, K., eds., Evolutionary Biology of Ostracoda: Its Fundamentals and Applications: Tokyo, Kodansha, p. 303318.Google Scholar
Kaufmann, A., 1900, Zur Systermatik der Cypriden: Mitteilungen der Naturforschenden Gesellschaft Bern, v. 1899, p. 103109.Google Scholar
Keen, M.C., and Racey, A., 1991, Lower Eocene ostracods from the Rusayl Shale Formation of Oman: Journal of Micropalaeontology, v. 10, p. 227233.CrossRefGoogle Scholar
Keij, A.J., 1954, Some recent ostracods of Manila (Philippines): Proceedings of the Koninklijke Nederlandse Akademie van Wetenschappen, Series B, v. 57, p. 351363.Google Scholar
Keij, A.J., 1957, Eocene and Oligocene Ostracoda of Belgium: Institut Royal des Sciences Naturelles de Belgique, Mémoires, v. 136, p. 1210.Google Scholar
Kern, A.K., Harzhauser, M., Reuter, M., Kroh, A., and Piller, W.E., 2013, The Miocene coastal vegetation of southwestern India and its climatic significance: Palaeoworld, v. 22, p. 119132.CrossRefGoogle Scholar
Keyser, D., and Schöning, C., 2000, Holocene Ostracoda (Crustacea) from Bermuda: Senckenbergiana lethaea, v. 80, p. 567591.CrossRefGoogle Scholar
Khalaf, S.K., 1981, On Actinocythereis iraqensis sp. nov.: Stereo-Atlas of Ostracod Shells, v. 9, p. 5154.Google Scholar
Khalaf, S.K., 1989, The ostracod genus Actinocythereis from the Middle Miocene of northern Iraq: Journal of Micropalaeontology, v. 8, p. 135142.CrossRefGoogle Scholar
Khosla, S.C., 1976, The Ostracoda genus Stigmatocythere Siddiqui in the Miocene (Burdigalian) beds of District Jamnagar, Gujarat: Proceedings of the VI Indian Colloquium on Micropaleontology and Stratigraphy, Varanasi, p. 135–139.Google Scholar
Khosla, S.C., 1978, Lower Miocene Ostracoda from Jamnagar and Porbandar Districts, Gujarat, India: Micropaleontology, v. 24, p. 251290.CrossRefGoogle Scholar
Khosla, S.C., 1988, Tertiary and Recent species of Miocyprideis from India, in Hanai, T., Ikeya, N., and Ishizaki, K., eds., Evolutionary Biology of Ostracoda: Its Fundamentals and Applications: Tokyo, Kodansha, p. 93103.Google Scholar
Khosla, S.C., and Haskins, C.W., 1980, Dentokrithe, a new genus of Ostracoda: Micropaleontology, v. 26, p. 211215.CrossRefGoogle Scholar
Khosla, S.C., and Nagori, M.L., 1988, The genus Stigmatocythere from the Quilon beds (Lower Miocene) of Kerala, India, in Hanai, T., Ikeya, N., and Ishizaki, K., eds., Evolutionary Biology of Ostracoda, Its Fundamentals and Applications: Tokyo, Kodansha, p. 105120.Google Scholar
Khosla, S.C., and Nagori, M.L., 1989, Ostracoda from the Quilon beds (Lower Miocene) of Kerala: Memoirs Geological Society of India, v. 14, p. 157.Google Scholar
Khosla, S.C., and Nagori, M.L., 1990a, New names for Loxoconcha and Semicytherura species from the Quilon beds of Kerala: Journal of Geological Society of India, v. 35, p. 314.Google Scholar
Khosla, S.C., and Nagori, M.L., 1990b, On the ostracode fauna and age of the Quilon beds of Kerala, in Kalia, P., ed., Micropalaeontology of the Shelf Sequences of India, Proceedings, XII Indian Colloquium on Micropalaeontology and Stratigraphy: New Delhi, Papyrus Publishing House, p. 8797.Google Scholar
Khosla, S.C., and Pant, P.C., 1988, Ostracoda from the Eocene and Oligocene beds of Kachchh, Gujarat. Part 1—Families Cytherellidae, Bairdiidae and Trachyleberididae: Indian Journal of Earth Science, v. 15, p. 325346.Google Scholar
Kingma, J.T., 1948, Contributions to the knowledge of the young Caenozoic Ostracoda from the Malayan region [Ph.D. Thesis]: Utrecht, University of Utrecht, 119 p.Google Scholar
Kollmann, K., 1960, Cytherideinae und Schulerideinae n. subfam. (Ostracoda) aus dem Neogen des östl. Oesterreich: Mitteilungen der Geologischen Gesellschaft in Wien, v. 51, p. 89195.Google Scholar
Kornicker, L.S., 1963, Ecology and classification of Bahamian Cytherellidae (Ostracoda): Micropaleontology, v. 9, p. 6170.CrossRefGoogle Scholar
Latreille, P.A., 1802, Genera Crustaceorum et Insectorum, Tomus I: Paris, Amand Koenig, 303 p.Google Scholar
Leprieur, F., Descombes, P., Gaboriau, T., Cowman, P.F., Parravicini, V., Kulbicki, M., Melián, C.J., de Santana, C.N., Heine, C., Mouillot, D., Bellwood, D.R., and Pellissier, L., 2016, Plate tectonics drive tropical reef biodiversity dynamics: Nature Communications, v. 7, p. 11461. doi:11410.11038/ncomms11461.CrossRefGoogle ScholarPubMed
Liebau, A., 1975, Comment on suprageneric taxa of the Trachyleberididae s. n. (Ostracoda, Cytheracea): Neues Jahrbuch für Geologie und Paläontologie Abhandlungen, v. 148, p. 353379.Google Scholar
Lord, A.R., Whittaker, J.E., and King, C., 2009, Paleogene, in Whittaker, J.E., and Hart, M. B., eds., Ostracods in British Stratigraphy. The Micropalaeontological Society, Special Publications: London, The Geological Society, p. 373409.CrossRefGoogle Scholar
Lubimova, P.S., Guha, D.K., and Mohan, M., 1960, On Ostracoda of Jurassic and Tertiary deposits from Kutch and Rajasthan (Jaisalmer), India: Bulletin of the Geological, Mining & Metallurgical Society of India, v. 22, p. 161.Google Scholar
Maddocks, R.F., 1969, Revision of recent Bairdiidae (Ostracoda): United States National Museum Bulletin, v. 295, p. 1126.CrossRefGoogle Scholar
Malz, H., and Triebel, E., 1970, Ostracoden aus dem Sannois und jüngeren Schichten des Mainzer Beckens, 2): Hemicyprideis n. g.: Senckenbergiana lethaea, v. 51, p. 147.Google Scholar
Mandelstam, M.I., Schneider, G.F., Kuznetsova, Z.V., and Katz, F.I., 1957, Novye rody ostrakod v semeystvakh Cypridae i Cytheridae [New genera of Ostracoda in the families Cypridae and Cytheridae]: Ezhegodnik Vsesoyuznogo Paleontologicheskogo Obshestva [All-Union Paleontological Society, Annual], v. 16, p. 166193.Google Scholar
Martini, E., 1971, Standard Tertiary and Quaternary calcareous nannoplankton zonation, in Farinacci, A., ed., Proceedings of the 2nd International Conference on Planktonic Microfossils 2: Rome, Technoscienza, p. 739–785.Google Scholar
Mazzini, I., 2005, Taxonomy, biogeography and ecology of Quaternary benthic Ostracoda (Crustacea) from circumpolar deep water of the Emerald Basin (Southern Ocean) and the S Tasman Rise (Tasman Sea): Senckenbergiana maritima, v. 35, p. 1119.CrossRefGoogle Scholar
Menon, K.K., 1967, The lithology and sequence of the Quilon Beds: Proceedings of the Indian Academy of Sciences, v. 65, p. 2025.Google Scholar
Monostori, M., 2004, Lower Oligocene (Kiscellian) ostracods in Hungary—Systematic description: Annales Universitatis Scientiarum Budapestinensis, Sectio Geologica, v. 34, p. 27141.Google Scholar
Moore, R.C., ed., 1961, Treatise on Invertebrate Paleontology, Part Q, Arthropoda 3: Boulder, Colorado and Lawrence, Kansas, Geological Society of America and University of Kansas Press, 442 p.Google Scholar
Mostafawi, N., 1992, Rezente Ostracoden aus dem mittleren Sunda-Schelf, zwischen der Malaiischen Halbinsel und Borneo: Senckenbergiana lethaea, v. 72, p. 129168.Google Scholar
Mostafawi, N., 2003, Recent Ostracods from the Persian Gulf: Senckenbergiana maritima, v. 32, p. 5175.CrossRefGoogle Scholar
Müller, G.W., 1894, Die Ostracoden des Golfes von Neapel und der angrenzenden Meeres-Abschnitte: Fauna und Flora des Golfes von Neapel, v. 21, p. 1404.Google Scholar
Münster, G.G. von, 1830, Über einige fossile Arten Cypris (Müller, Lamk.) und Cythere (Müller, Latreille, Desmarest): Jahrbuch für Mineralogie, Geognosie, Geologie und Petrefaktenkunde, v. 1, p. 6067.Google Scholar
Neviani, A., 1928, Ostracodi fossili d'Italia. I. Vallebiaja (Calabriano): Memorie della Pontificia Accademia' delle Scienze, Nuovi Lincei, Ser. 2, v. 11, p. 1120.Google Scholar
Oertli, H.J., 1956, Ostrakoden aus der oligozänen und miozänen Molasse der Schweiz: Schweizerischen Paläontologischen Abhandlungen, v. 74, p. 1119.Google Scholar
Okada, H., and Bukry, D., 1980, Supplementary modification and introduction of code numbers to the low-latitude coccolith biostratigraphic zonation (Bukry, 1973; 1975): Marine Micropaleontology, v. 5, p. 321325.CrossRefGoogle Scholar
Okosun, E.A., 1987, Ostracod biostratigraphy of the eastern Dahomey basin, Niger Delta and the Benue trough of Nigeria: Bulletin of the Geological Survey of Nigeria, v. 41, p. 1151.Google Scholar
Pokorný, V., 1955, Contribution to the morphology and taxionomy of the subfamily Hemicytherinae Puri 1953 (Crust., Ostracoda): Acta Universitatis Carolinae, Geologica, v. 3, p. 135.Google Scholar
Puri, H.S., 1953, The ostracode genus Hemicythere and its allies: Journal of the Washington Academy of Sciences, v. 43, p. 169179.Google Scholar
Puri, H.S., 1957, Stratigraphy and zonation of the Ocala Group: Florida Geological Survey, Geological Bulletin, v. 38, p. 1248.Google Scholar
Ramanujan, C.G.K., 1987, Palynology of the Neogene Warkalli Beds of Kerala State in South India: Journal of the Palaeontological Society of India, v. 32, p. 2646.Google Scholar
Rao, K.P., and Ramanujam, C.G.K., 1975, A palynological approach to the study of Quilon Beds of Kerala State in South India: Current Science, v. 44, p. 730732.Google Scholar
Reich, S., Di Martino, E., Todd, J.A., Wesselingh, F.P., and Renema, W., 2015, Indirect paleo-seagrass indicators (IPSIs): a review: Earth-Science Reviews, v. 143, p. 161186.Google Scholar
Renema, W., Bellwood, D.R., Braga, J.C., Bromfield, K., Hall, R., Johnson, K.G., Lunt, P., Meyer, C.P., McMonagle, L.B., Morley, R.J., O'Dea, A., Todd, J.A., Wesselingh, F.P., Wilson, M.E.J., and Pandolfi, J.M., 2008, Hopping hotspots: global shifts in marine biodiversity: Science, v. 321, p. 654657.Google ScholarPubMed
Reuss, A.E., 1850, Die fossilen Entomostraceen des österreichischen Tertiärbeckens: Naturwissenschaftliche Abhandlungen, v. 3, p. 4192.Google Scholar
Reuter, M., Piller, W.E., Harzhauser, M., Kroh, A., Rögl, F., and Ćorić, S., 2011, The Quilon Limestone, Kerala Basin, India: an archive for Miocene Indo-Pacific seagrass beds: Lethaia, v. 44, p. 7686.Google Scholar
Reuter, M., Kern, A.K., Harzhauser, M., Kroh, A., and Piller, W.E., 2013, Global warming and South Indian monsoon rainfall—lessons from the Mid-Miocene: Gondwana Research, v. 23, p. 11721177.CrossRefGoogle ScholarPubMed
Reyment, R.A., 1963, Studies on Nigerian Upper Cretaceous and lower Tertiary Ostracoda, Part 2: Danian, Paleocene and Eocene Ostracoda: Stockholm Contributions in Geology, v. 10, p. 1286.Google Scholar
Rodriguez-Lazaro, J., and Cronin, T.M., 1999, Quaternary glacial and deglacial Ostracoda in the thermocline of the Little Bahama Bank (NW Atlantic): palaeoceanographic implications: Palaeogeography, Palaeoclimatology, Palaeoecology, v. 152, p. 339364.CrossRefGoogle Scholar
Roemer, F.A., 1838, Die Cytherinen des Molasse-Gebirges: Neues Jahrbuch für Mineralogie, Geognosie, Geologie und Petrefaktenkunde, v. 1838, p. 514519.Google Scholar
Roemer, F.A., 1841, Die Versteinerungen des norddeutschen Kreidegebirges: Hannover, Hahn'schen Hofbuchhandlung, 145 p.Google Scholar
Rögl, F., and Brigulio, A., 2018, The foraminiferal fauna of the Channa Kodi section at Padappakkara, Kerala, India: Palaeontographica Abteilung A, v. 312, p. 47101.Google Scholar
Ruggieri, G., 1961, Alcuni Ostracodi quaternari e recenti pertinenti al genere Costa Neviani: Bollettino della Società Paleontologica Italiana, v. 1, p. 39.Google Scholar
Ruggieri, G., 1962, Gli Ostracodi marini del Tortoniano (Miocene medio-superiore) de Enna nella Sicilia orientale: Palaeontographia Italica, v. 56, p. 168.Google Scholar
Ruggieri, G., 1975, Contributo alla conoscenza del genere Aurila (Ostracoda, Podocopa) con particolare riguardo ai suoi rappresentanti nel Pleistocene Italiano: Bollettino della Societá Paleontologica Italiana, v. 14, p. 2746.Google Scholar
Sars, G.O., 1866 [Preprint, 1865], Oversigt af Norges marine Ostracoder: Förhandlinger i Videnskabs-Selskabet i Christiania, v. 7, p. 1130.Google Scholar
Sars, G.O., 1925, An Account of the Crustacea of Norway with Short Descriptions and Figures of All the Species, Ostracoda: Bergen, Bergen Museum, v. 9, pt. 5–12, p. 73208.Google Scholar
Seko, M., Pipík, R., and Doláková, N., 2012, Early Badenian ostracod assemblage of the Židlochovice stratotype (Carpathian Foredeep, Czech Republic): Central European Journal of Geosciences, v. 4, p. 111125.Google Scholar
Shin, C.P., Yasuhara, M., Iwatani, H., Kase, T., Fernando, A.G.S., Hayashi, H., Kurihara, Y., and Pandita, H., 2019, Neogene marine ostracod diversity and faunal composition in Java, Indonesia: Indo-Australian Archipelago biodiversity hotspot and the Pliocene diversity jump: Journal of Crustacean Biology, v. 39, p. 244252.CrossRefGoogle Scholar
Siddiqui, Q.A., 1971, Early Tertiary Ostracoda of the family Trachyleberididae from West Pakistan: Bulletin of The British Museum (Natural History), Geology, v. Supplement 9, p. 198.Google Scholar
Siddiqui, Q.A., 1983, The biostratigraphic significance of four ostracode genera (Alocopocythere, Gyrocythere, Phalcocythere, and Stigmatocythere) in the early Tertiary of Pakistan, with a note on their paleozoogeography, in Maddocks, R.F., ed., Applications of Ostracoda: Houston, The Department of Geosciences, University of Houston-University Park, p. 417428.Google Scholar
Siddiqui, Q.A., 2000, Some species of the genus Neocyprideis in the early Tertiary of Pakistan: Journal of Micropalaeontology, v. 19, p. 17.CrossRefGoogle Scholar
Siddiqui, Q.A., 2006, The ostracod genus Paijenborchella and some of its species in the Early Tertiary of Pakistan: Journal of Micropalaeontology, v. 25, p. 6572.CrossRefGoogle Scholar
Sissingh, W., 1972, Late Cenozoic Ostracoda of the South Agean Island Arc: Utrecht Micropaleontological Bulletins, v. 7, p. 1187.Google Scholar
Sönmez, N., 1963, Deux nouveaux genres d'Ostracodes du Paléogène de Thrace (Turquie): Revue de Micropaléontologie, v. 2, p. 7684.Google Scholar
Stadnichenko, M.M., 1927, The Foraminifera and Ostracoda of the Marine Yegua of the Type Sections: Journal of Paleontology, v. 1, p. 221243.Google Scholar
Swain, F.M., 1946, Ostracoda from the Tertiary of Florida: Journal of Paleontology, v. 20, p. 374383.Google Scholar
Sylvester-Bradley, P.C., 1947, Some ostracod genotypes: Annals and Magazine of Natural History, Series 11, v. 13, p. 192199.CrossRefGoogle Scholar
Sylvester-Bradley, P.C., 1948, The ostracode genus Cythereis: Journal of Paleontology, v. 22, p. 792797.Google Scholar
Szczechura, J., 1980, “Paijenborchellinalibyca sp. n. from the Upper Miocene of Libya: Acta Palaeontologica Polonica, v. 25, p. 225232.Google Scholar
Szczechura, J., 2006, Middle Miocene (Badenian) ostracods and green algae (Chlorophyta) from Kamienica Nawojowska, Nowy Sacz Basin (Western Carpathians, Poland): Geologica Carpathica, v. 57, p. 103122.Google Scholar
Tewari, B.S., and Tandon, K.K., 1960, Kutch microfauna: Lower Tertiary Ostracoda: Proceedings of the National Institute of Sciences of India, Series B, v. 26, p. 148167.Google Scholar
Titterton, R., and Whatley, R.C., 1988, The provincial distribution of shallow water Indo-Pacific marine Ostracoda: origins, antiquity, dispersal routes and mechanisms, in Hanai, T., Ikeya, N., and Ishizaki, K., eds., Evolutionary Biology of Ostracoda: Its Fundamentals and Applications: Tokyo, Kodansha, p. 759786.Google Scholar
Titterton, R., and Whatley, R.C., 2006, Recent marine Ostracoda from the Solomon Islands. Part 3. Cytheroidea: Bythocytheridae, Cytherideidae, Krithidae, Neocytherideidae, Cytheruridae: Revista Española de Micropaleontología, v. 38, p. 169189.Google Scholar
Titterton, R., and Whatley, R.C., 2008, Recent marine Ostracoda from the Solomon Islands. Part 4: Cytheroidea; Hemicytheridae, Thaerocytheridae: Journal of Micropalaeontology, v. 27, p. 1333.CrossRefGoogle Scholar
Titterton, R., Whatley, R.C., and Whittaker, J.E., 2001, A review of some key species of mainly Indo-Pacific Ostracoda from the collections of G. S. Brady: Journal of Micropalaeontology, v. 20, p. 3144.CrossRefGoogle Scholar
Tóth, E., 2008, Sarmatian (Middle Miocene) ostracod fauna from the Zsámbék Basin, Hungary: Geologica Pannonica, v. 36, p. 101151.Google Scholar
Triebel, E., 1952, Ostracoden der Gattung Cytheretta aus dem Tertiär des Mainzer Beckens: Notizblatt des Hessischen Landesamtes fuer Bodenforschung, Serie 6, v. 3, p. 1530.Google Scholar
Ulrich, E.O., 1894, The Lower Silurian Ostracoda of Minnesota, The Geology of Minnesota (Volume 3, Part 2): Geological and Natural History Survey of Minnesota, p. 629693.Google Scholar
Vaidyanadhan, R., and Ramakrishnan, M., 2008, Geology of India: Bangalore, Geological Society of India, 994 p.Google Scholar
van den Bold, W.A., 1966, Ostracoda from Colon Harbour, Panama: Caribbean Journal of Science, v. 6, p. 4353.Google Scholar
van Morkhoven, F.P.C.M., 1963, Post-Palaeozoic Ostracoda: Their Morphology, Taxonomy and Economic Use, Volume 2: Amsterdam, Elsevier, 478 p.Google Scholar
Weiss, R.H., 1983, On Cytheretta (Flexus) plicata (V. Münster): Stereo-Atlas of Ostracod Shells, v. 10, p. 7582.Google Scholar
Whatley, R.C., and Jones, R., 1999, The marine podocopid Ostracoda of Easter Island: a paradox in zoogeography and evolution: Marine Micropaleontology, v. 37, p. 327343.Google Scholar
Whatley, R.C., and Zhao, Q., 1987, Recent Ostracoda of the Malacca Straits, Part I: Revista Española de Micropaleontología, v. 19, p. 327366.Google Scholar
Whatley, R.C., and Zhao, Q., 1988, Recent Ostracoda of the Malacca Straits. Part II Revista Española de Micropaleontología, v. 20, p. 537.Google Scholar
Whatley, R.C., and Zhao, Q., 1993, The Krithe problem: a case history of the distribution of Krithe and Parakrithe (Crustacea, Ostracoda) in the South China Sea: Palaeogeography, Palaeoclimatology, Palaeoecology, v. 103, p. 281297.CrossRefGoogle Scholar
Whatley, R.C., Siveter, D.J., and Boomer, I.D., 1993, Arthropoda (Crustacea: Ostracoda), in Benton, M.J., ed., The Fossil Record 2: London, Chapman & Hall, p. 343356.Google Scholar
Whatley, R.C., Jones, R., and Roberts, R., 2004, The Marine Ostracoda of Pitcairn, Oeno and Henderson islands, southern Pacific: Revista Española de Micropaleontología, v. 36, p. 493528.Google Scholar
Wood, A.M., and Whatley, R.C., 1994, Northeastern Atlantic and Arctic faunal provinces based on the distribution of Recent ostracod genera: Holocene, v. 4, p. 174192.CrossRefGoogle Scholar
Wood, A.M., Wilkinson, I.P., Maybury, C.A., and Whatley, R.C., 2009, Neogene, in Whittaker, J.E., and Hart, M.B., eds., Ostracods in British Stratigraphy. The Micropalaeontological Society, Special Publications: London, The Geological Society, p. 411446.CrossRefGoogle Scholar
Wouters, K., 1999, Two new species of the genus Phlyctenophora Brady, 1880 (Crustacea, Ostracoda) from the Indo-Pacific realm: Bulletin de l'Institut Royal des Sciences Naturelles de Belgique, Biologie, v. 69, p. 8392.Google Scholar
Yamaguchi, T., 2006, Eocene ostracodes from the Iojima Group, Nagasaki Prefecture, southwestern Japan: Journal of Paleontology, v. 80, p. 902918.CrossRefGoogle Scholar
Yamaguchi, T., and Kamiya, T., 2007a, Oligocene–Miocene ostracode assemblages with the genus Palmoconcha from Japan: Journal of Paleontology, v. 81, p. 632642.CrossRefGoogle Scholar
Yamaguchi, T., and Kamiya, T., 2007b, Shallow-marine ostracode faunas around the Eocene/Oligocene boundary in the northwestern Kyushu, southwestern Japan: Lethaia, v. 40, p. 293303.CrossRefGoogle Scholar
Yamaguchi, T., and Kamiya, T., 2009, Eocene ostracodes from Hahajima Island of the Ogasawara (Bonin) Islands, northwestern Pacific, and their paleobiogeographic significance in the West Pacific: Journal of Paleontology, v. 83, p. 219237.CrossRefGoogle Scholar
Yasuhara, M., and Seto, K., 2006, Holocene relative sea-level change in Hiroshima Bay, Japan: a semi-quantitative reconstruction based on ostracodes: Paleontological Research, v. 10, p. 99116.CrossRefGoogle Scholar
Yasuhara, M., Irizuki, T., Yoshikawa, S., and Nanayama, F., 2002a, Changes in Holocene ostracode faunas and depositional environments in the Kitan Strait, southwestern Japan: Paleontological Research, v. 6, p. 8599.Google Scholar
Yasuhara, M., Irizuki, T., Yoshikawa, S., and Nanayama, F., 2002b, Holocene sea-level changes in Osaka Bay, western Japan: ostracode evidence in a drilling core from the southern Osaka Plain: The Journal of the Geological Society of Japan, v. 108, p. 633643.CrossRefGoogle Scholar
Yasuhara, M., Yoshikawa, S., and Nanayama, F., 2005, Reconstruction of the Holocene seismic history of a seabed fault using relative sea-level curves reconstructed by ostracode assemblages: case study on the Median Tectonic Line in Iyo-nada Bay, western Japan: Palaeogeography, Palaeoclimatology, Palaeoecology, v. 222, p. 285312.CrossRefGoogle Scholar
Yasuhara, M., Hunt, G., Okahashi, H., and Brandão, S.N., 2015, Taxonomy of deep-sea trachyleberidid, thaerocytherid, and hemicytherid genera (Ostracoda): Smithsonian Contributions to Paleobiology, v. 96, p. 1216.Google Scholar
Yasuhara, M., Iwatani, H., Hunt, G., Okahashi, H., Kase, T., Hayashi, H., Irizuki, T., Aguilar, Y.M., Fernando, A.G.S., and Renema, W., 2017, Cenozoic dynamics of shallow-marine biodiversity in the Western Pacific: Journal of Biogeography, v. 44, p. 567578.CrossRefGoogle Scholar
Yasuhara, M., Hong, Y., Tian, S.T., Chong, W.K., Okahashi, H., Littler, K., and Cotton, L., 2018, Eocene shallow-marine ostracods from Madagascar: southern end of the Tethys?: Journal of Systematic Palaeontology, v. 17, p. 705757. doi:10.1080/14772019.14772018.11453555.CrossRefGoogle Scholar
Zhao, Q., and Whatley, R., 1988, The genus Neomonoceratina (Crustacea: Ostracoda) from the Cainozoic of the West Pacific margins: Acta Oceanologica Sinica, v. 7, p. 562577.Google Scholar
Zhao, Q., and Whatley, R., 1997, Distribution of the ostracod genera Krithe and Parakrithe in bottom sediments of the East China and Yellow seas: Marine Micropaleontology, v. 32, p. 195207.CrossRefGoogle Scholar
Zhou, B., and Ikeya, N., 1992, Three species of Krithe (Crustacea: Ostracoda) from Suruga Bay, central Japan: Transactions and proceedings of the Paleontological Society of Japan, New Series, v. 166, p. 10971115.Google Scholar
Zorn, I., 2003, Ostracoda from the Gaindorf Formation (Middle Miocene, Lower Badenian) of Mühlbach (Molasse Basin, Lower Austria): Annalen des Naturhistorischen Museums in Wien, v. 104A, p. 7784.Google Scholar
Zorn, I., 2010, Ostracodal type specimens stored in the paleontological collection of the Geological Survey of Austria: Jahrbuch der Geologischen Bundesanstalt, v. 150, p. 263299.Google Scholar