Hostname: page-component-76fb5796d-qxdb6 Total loading time: 0 Render date: 2024-04-26T23:58:57.338Z Has data issue: false hasContentIssue false
  • English
  • Français

Quaternary equatorial Atlantic deep-sea ostracodes: evidence for a distinct tropical fauna in the deep sea

Published online by Cambridge University Press:  11 August 2021

Moriaki Yasuhara Open the ORCID record for Moriaki Yasuhara [Opens in a new window] ,
Hisayo Okahashi ,
Huai-Hsuan May Huang ,
Yuanyuan Hong ,
Hokuto Iwatani ,
Rachel Wai Ching Chu  and
Gene Hunt
Moriaki Yasuhara*
Affiliation:
School of Biological Sciences, Division for Ecology and Biodiversity, Swire Institute of Marine Science, and State Key Laboratory of Marine Pollution, The University of Hong Kong, Kadoorie Biological Sciences Building, Pokfulam Road, Hong Kong SAR, China
Hisayo Okahashi
Affiliation:
School of Biological Sciences, Division for Ecology and Biodiversity, Swire Institute of Marine Science, and State Key Laboratory of Marine Pollution, The University of Hong Kong, Kadoorie Biological Sciences Building, Pokfulam Road, Hong Kong SAR, China
Huai-Hsuan May Huang
Affiliation:
School of Biological Sciences, Division for Ecology and Biodiversity, Swire Institute of Marine Science, and State Key Laboratory of Marine Pollution, The University of Hong Kong, Kadoorie Biological Sciences Building, Pokfulam Road, Hong Kong SAR, China Department of Paleobiology, National Museum of Natural History, Smithsonian Institution, Washington, DC 20013-7012, USA
Yuanyuan Hong
Affiliation:
School of Biological Sciences, Division for Ecology and Biodiversity, Swire Institute of Marine Science, and State Key Laboratory of Marine Pollution, The University of Hong Kong, Kadoorie Biological Sciences Building, Pokfulam Road, Hong Kong SAR, China
Hokuto Iwatani
Affiliation:
School of Biological Sciences, Division for Ecology and Biodiversity, Swire Institute of Marine Science, and State Key Laboratory of Marine Pollution, The University of Hong Kong, Kadoorie Biological Sciences Building, Pokfulam Road, Hong Kong SAR, China Division of Earth Science, The Graduate School of Sciences and Technology for Innovation, Yamaguchi University, Yoshida 1677-1, Yamaguchi 753-8511, Japan
Rachel Wai Ching Chu
Affiliation:
School of Biological Sciences, Division for Ecology and Biodiversity, Swire Institute of Marine Science, and State Key Laboratory of Marine Pollution, The University of Hong Kong, Kadoorie Biological Sciences Building, Pokfulam Road, Hong Kong SAR, China
Gene Hunt
Affiliation:
Department of Paleobiology, National Museum of Natural History, Smithsonian Institution, Washington, DC 20013-7012, USA
*
*Corresponding author
Get access Rights & Permissions [Opens in a new window]

Abstract

Low-latitude, deep-sea faunas remain poorly understood and described. Here, we systematically describe Quaternary deep-sea ostracodes from the Ocean Drilling Program (ODP) Site 925 (Ceara Rise; 4°12.2'N, 43°29.3′W; 3040 m water depth) in the equatorial Atlantic Ocean. Twenty-six genera and 52 species were examined and illustrated with high-resolution scanning electron microscopy images. Six new species are described herein: Pseudocythere spinae, Hemiparacytheridea zarikiani, Pedicythere canis, Xylocythere denticulata, Paracytherois obtusa, and Poseidonamicus sculptus. The results show that deep-sea ostracodes have a tropical faunal element that is distinctive from higher latitude ostracodes, and that is globally distributed in low latitudes. This tropical faunal component is possibly a Tethyan legacy of a fauna that was widely distributed in tropical and extratropical latitudes in deep waters during greenhouse conditions in the Cretaceous and early Cenozoic. Global cooling thereafter shrank its distribution, limiting it to tropical latitudes, perhaps with the relatively warm uppermost bathyal area acting as the source or refuge of this faunal component. Because similar present-day biogeographic patterns (i.e., presence and wide distribution of tropical deep-sea fauna) are known in other deep-sea benthic groups, this scenario might be applicable to the deep-sea benthos more broadly.

UUID: http://zoobank.org/552d4cb2-c0db-463a-ae3f-b2efcc0985df.

Type
Memoir
Information
Journal of Paleontology , Volume 95 , Supplement S86 , December 2021 , pp. 1 - 41
Copyright
Copyright © The Author(s), 2022. Published by Cambridge University Press on behalf of 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

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
Aiello, G., Barra, D., and Bonaduce, G., 1996, The genus Cytheropteron Sars, 1866 (Crustacea: Ostracoda) in the Pliocene–Early Pleistocene of the Mount San Nicola Section (Gela, Sicily): Micropaleontology, v. 42, p. 167178.CrossRefGoogle Scholar
Aiello, G., Barra, D., and Bonaduce, G., 2000, Systematics and biostratigraphy of the Ostracoda of the Plio-Pleistocene Monte S. Nicola section (Gela, Sicily): Bollettino della Societá Paleontologica Italiana, v. 39, p. 83112.Google Scholar
Alexander, C.I., 1936, Ostracoda of the Genera Eucythere, Cytherura, Eucytherura, and Loxoconcha from the Cretaceous of Texas: Journal of Paleontology, v. 10, p. 689694.Google Scholar
Alvarez Zarikian, C.A., 2009, Data report: late Quaternary ostracodes at IODP Site U1314 (North Atlantic Ocean): Proceedings of the Integrated Ocean Drilling Program, v. 303/306, p. 122.Google Scholar
Alvarez Zarikian, C.A., 2015, Cenozoic bathyal and abyssal ostracods beneath the oligotrophic South Pacific Gyre (IODP Expedition 329 Sites U1367, U1368 and U1370): Palaeogeography, Palaeoclimatology, Palaeoecology, v. 419, p. 115142.CrossRefGoogle Scholar
Alvarez Zarikian, C.A., 2016, Pleistocene deep sea ostracods from the Bering Sea (IODP expedition 323): Deep-Sea Research II, v. 125–126, p. 96106.CrossRefGoogle Scholar
Athersuch, J., and Gooday, A., 1979, On Zabythocypris redunca Athersuch & Gooday sp. nov.: Stereo-Atlas of Ostracod Shells, v. 6, p. 2126.Google Scholar
Athersuch, J., and Whittaker, J.E., 1982, On Propontocypris trigonella (Sars): Stereo-Atlas of Ostracod Shells, v. 9, p. 6368.Google Scholar
Athersuch, J., Horne, D.J., and Whittaker, J.E., 1989, Marine and Brackish Water Ostracods: Leiden, E.J. Brill for The Linnean Society of London and the Estuarine and Brackish-Water Science Association, London, v. 43, 343 p.Google Scholar
Ayress, M.A., 1995, Late Eocene Ostracoda (Crustacea) from the Waihao District, south Canterbury, New Zealand: Journal of Paleontology, v. 69, p. 897921.CrossRefGoogle Scholar
Ayress, M.A., 1996, New species and biostratigraphy of late Eocene cytherurid Ostracoda from New Zealand: Revista Española de Micropaleontología, v. 28, p. 1136.Google Scholar
Ayress, M.A., and Correge, T., 1992, On Semicytherura pulchra (Coles & Whatley): Stereo-Atlas of Ostracod Shells, v. 19, p. 5760.Google Scholar
Ayress, M., and Dorn, A., 2012, A new record of Aratrocypris Whatley et al., 1985, Ostracoda, from the Lower Cretaceous of the North Sea: a range extension for the genus: Journal of Micropalaeontology, v. 31, p. 187188.CrossRefGoogle Scholar
Ayress, M.A., Whatley, R.C., Downing, S.E., and Millson, K.J., 1995, Cainozoic and recent deep sea Cytherurid Ostracoda from the south western Pacific and eastern Indian Oceans, part I: Cytherurinae: Records of the Australian Museum, v. 47, p. 203223.CrossRefGoogle Scholar
Ayress, M.A., De Deckker, P., and Coles, G.P., 2004, A taxonomic and distributional survey of marine benthonic Ostracoda off Kerguelen and Heard Islands, South Indian Ocean: Journal of Micropalaeontology, v. 23, p. 1538.CrossRefGoogle Scholar
Baird, W., 1838, The natural history of the British Entomostraca. Part N: Magazine of Zoology and Botany, v. 2, p. 132144.Google Scholar
Baird, W., 1850, The Natural History of the British Entomostraca: London, Ray Society, 364 p.CrossRefGoogle Scholar
Barra, D., and Bonaduce, G., 2001, Some new and poorly known middle Miocene ostracods of Malta Isle: Bollettino della Societá Paleontologica Italiana, v. 40, p. 5574.Google Scholar
Benson, R.H., 1971, A new Cenozoic deep-sea genus, Abyssocythere (Crustacea: Ostracoda: Trachyleberididae), with descriptions of five new species: Smithsonian Contributions to Paleobiology, v. 7, p. 125.CrossRefGoogle Scholar
Benson, R.H., 1972, The Bradleya problem, with descriptions of two new psychrospheric ostracode genera, Agrenocythere and Poseidonamicus (Ostracoda: Crustacea): Smithsonian Contributions to Paleobiology, v. 12, p. 1138.CrossRefGoogle Scholar
Benson, R.H., 1977, The Cenozoic ostracode faunas of the Sao Paulo Plateau and the Rio Grande Rise (DSDP Leg 39, sites 356 and 357): Initial Reports of the Deep Sea Drilling Project, v. 39, p. 869883.Google Scholar
Benson, R.H., 1978, The paleoecology of the ostracodes of DSDP Leg 42A: Initial Reports of the Deep Sea Drilling Project, v. 42, p. 777787.Google Scholar
Benson, R.H., and Peypouquet, J.P., 1983, The upper and mid-bathyal Cenozoic ostracode faunas of the Rio Grande Rise found on Leg 172 Deep Sea Drilling Project: Initial Reports of the Deep Sea Drilling Project, v. 72, p. 805818.Google Scholar
Benson, R.H., DelGrosso, R.M., and Steineck, P.L., 1983, Ostracode distribution and biofacies, Newfoundland continental slope and rise: Micropaleontology, v. 29, p. 430453.CrossRefGoogle Scholar
Berggren, W.A., Benson, R.H., Haq, B.U., Riedel, W.R., Sanfilippo, A., Schrader, H.J., and Tjalsma, R.C., 1976, El Cuervo Section (Andalusia, Spain): micropaleontologic anatomy of an early late Miocene lower bathyal deposit: Marine Micropaleontology, v. 1, p. 195247.CrossRefGoogle Scholar
Bergue, C.T., and Coimbra, J.C., 2008, Late Pleistocene and Holocene bathyal ostracodes from the Santos Basin, southeastern Brazil: Palaeontographica Abteilung A, v. 285, p. 101144.CrossRefGoogle Scholar
Bergue, C.T., and Govindan, A., 2010, Eocene–Pliocene deep sea ostracodes from ODP site 744A, southern Indian Ocean: Anais da Academia Brasileira de Ciências, v. 82, p. 747760.CrossRefGoogle ScholarPubMed
Bergue, C.T., Costa, K.B., Dwyer, G., and Moura, C.A.V., 2006, Bathyal ostracode diversity in the Santos Basin, Brazilian southeast margin: response to late Quaternary climate changes: Revista Brasileira de Paleontologia, v. 9, p. 201210.CrossRefGoogle Scholar
Bergue, C.T., Coimbra, J.C., Pivel, M.A.G., Petró, S.M., and Mizusakia, A.M.P., 2017, Taxonomy and climatic zonation of the late Quaternary bathyal ostracods from the Campos Basin, Brazil: Revue de Micropaléontologie, v. 60, p. 493509.CrossRefGoogle Scholar
Bergue, C.T., Brandão, S.N., and Anjos-Zerfass, G.S., 2019, Palaeoceanographical events from the late Miocene to Pleistocene of the Rio Grande Rise (south-western Atlantic) as indicated by Ostracoda: Journal of Systematic Palaeontology, v. 17, p. 14971518.CrossRefGoogle Scholar
Bonaduce, G., Ciampo, G., and Masoli, M., 1976, Distribution of Ostracoda in the Adriatic Sea: Pubblicazioni della Stazione Zoologica di Napoli, v. 40, p. 1154.Google Scholar
Bonaduce, G., Masoli, M., Pugliese, N., and McKenzie, K.G., 1980, The genus Pseudocythere Sars (Crustacea: Ostracoda) in the Bay of Naples: Bollettino della Societá Paleontologica Italiana, v. 19, p. 136142.Google Scholar
Bonaduce, G., Barra, D., and Aiello, G., 1999, The genus Henryhowella Puri, 1957 (Crustacea, Ostracoda) in the Atlantic and Mediterranean from Miocene to recent: Bollettino della Societá Paleontologica Italiana, v. 38, p. 5972.Google Scholar
Boomer, I., 1999, Late Cretaceous and Cainozoic bathyal Ostracoda from the Central Pacific (DSDP Site 463): Marine Micropaleontology, v. 37, p. 131147.CrossRefGoogle Scholar
Bosquet, J., 1847, Description des Entomostracés fossiles de la craie de Maestricht: Mémoires de la Société Royale des Sciences de Liège, v. 4, p. 353378.Google Scholar
Brady, G.S., 1867, Report on the Ostracoda dredged amongst the Hebrides: Reports of the British Association for the Advancement of Science, v. 36, p. 208211.Google Scholar
Brady, G.S., 1868a, A monograph of the Recent British Ostracoda: Transactions of the Linnean Society of London, v. 26, p. 353495.CrossRefGoogle Scholar
Brady, G.S., 1868b, A synopsis of the Recent British Ostracoda: Intellectual Observer, v. 12, p. 110130.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., and Norman, A.M., 1889, A monograph of the marine and fresh-water Ostracoda of the North Atlantic and of northwestern Europe. Section I: Podocopa: Scientific Transactions of the Royal Dublin Society, v. 4, p. 63270.Google 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
Brandão, S.N., 2008, New species of Bairdioidea (Crustacea, Ostracoda) from the Southern Ocean and discussions on Bairdoppilata simplex (Brady, 1880), ?Bairdoppilata labiata (Müller, 1908) and Bythopussella aculeata (Müller, 1908): Zootaxa, v. 1866, p. 373452.CrossRefGoogle Scholar
Brandão, S.N., 2013, Challenging cosmopolitanism in the deep sea: the case of “Cythere acanthoderma Brady, 1880” (Crustacea, Ostracoda): Revue de Micropaléontologie, v. 56, p. 219.CrossRefGoogle Scholar
Brandão, S.N., and Karanovic, I., 2019, World Ostracoda Database. http://www.marinespecies.org/ostracoda [accessed on 6 November 2020]. https://doi.org/10.14284/364.CrossRefGoogle Scholar
Breman, E., 1975, Ostracodes in a bottom core from the deep southeastern basin of the Adriatic sea: Proceedings of the Koninklijke Nederlandse Akademie van Wetenschappen, Series B, v. 78, p. 197218.Google Scholar
Breman, E., 1976, Five ostracode species from Adriatic deep-sea sediments: Proceedings of the Koninklijke Nederlandse Akademie van Wetenschappen, Series B, v. 79, p. 917.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.Google Scholar
Chapman, F., 1910, On the Foraminifera and Ostracoda from soundings (chiefly deep-water) collected round the Funafuti by H. M. S. Penguin: Journal of the Linnean Society, Zoology, v. 30, p. 388444.CrossRefGoogle Scholar
Ciampo, G., 1980, Ostracodi miocenici (Tortoniano-Messiniano) della regione di Ragusa (Sicilia): Bollettino della Societá Paleontologica Italiana, v. 19, p. 520.Google Scholar
Ciampo, G., 1986, Ostracodi del limite Tortoniano/Messiniano in alcune sezioni italiane: Bollettino della Societá Paleontologica Italiana, v. 24, p. 29110.Google Scholar
Colalongo, M.L., and Pasini, G., 1980, La ostracofauna Plio-Pleistocenica della Sezione Vrica in Calabria (con considerazioni sul limite Neogene/Quaternario): Bollettino della Societá Paleontologica Italiana, v. 19, p. 44126.Google Scholar
Coles, G.P., and Whatley, R.C., 1989, New Palaeocene to Miocene genera and species of Ostracoda from DSDP sites in the North Atlantic: Revista Española de Micropaleontología, v. 21, p. 81124.Google Scholar
Coles, G.P., Ayress, M.A., and Whatley, R.C., 1990, A comparison of North Atlantic and Pacific deep-sea Ostracoda, in Whatley, R.C., and Maybury, C., eds., Ostracoda and Global Events: London, Chapman & Hall, p. 287305.CrossRefGoogle 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
Coles, G.P., Ainsworth, N.R., Whatley, R.C., and Jones, R.W., 1996, Foraminifera and Ostracoda from Quaternary carbonate mounds associated with gas seepage in the Porcupine Basin, offshore western Ireland: Revista Española de Micropaleontología, v. 28, p. 113151.Google Scholar
Corrége, T., 1993, The relationship between water masses and benthic ostracod assemblages in the western Coral Sea, Southwest Pacific: Palaeogeography, Palaeoclimatology, Palaeoecology, v. 105, p. 245266.CrossRefGoogle Scholar
Costa, O.G., 1853, Ostracodi: Paleontologia del Regno di Napoli, v. 3, p. 161196.Google Scholar
Costello, M.J., Tsai, P., Wong, P.S., Cheung, A.K.L., Basher, Z., and Chaudhary, C., 2017, Marine biogeographic realms and species endemicity: Nature Communications, v. 8, 1057. https://doi.org/10.1038/s41467-017-01121-2.CrossRefGoogle ScholarPubMed
Cronin, T.M., 1983, Bathyal ostracodes from the Florida-Hatteras slope, the Straits of Florida, and the Blake Plateau: Marine Micropaleontology, v. 8, p. 89119.CrossRefGoogle Scholar
Cronin, T.M., 1996, Distribution of deep-sea Ostracoda in the Arctic Ocean: Berichte zur Polarforschung, v. 212, p. 269284.Google Scholar
Cronin, T.M., and Compton-Gooding, E.E., 1987, Cenozoic Ostracoda from Deep Sea Drilling Project Leg 95 off New Jersey (Sites 612 and 613): Initial Reports of the Deep Sea Drilling Project, v. 95, p. 439451.Google Scholar
Culver, S.J., and Buzas, M.A., 2000, Global latitudinal species diversity gradient in deep-sea benthic foraminifera: Deep-Sea Research I, v. 47, p. 259275.CrossRefGoogle Scholar
Dall'Antonia, B., and Bossio, A., 2001, Middle Miocene ostracods from the Salentine Peninsula: Rivista Italiana di Paleontologia e Stratigrafia, v. 107, p. 395424.Google Scholar
Dana, J.D., 1853, Tribe III: Cyproidea = Ostracoda: Crustacea, in United States Exploring Expedition during the Years 1838, 1839, 1840, 1841, 1842, under the Command of Charles Wilkes, U.S.N., with Atlas of 96 plates: Philadelphia, C. Sherman, v. 13, p. 1277–1304.Google Scholar
DeNinno, L.H., Cronin, T.M., Rodriguez-Lazaro, J., and Brenner, A., 2015, An early to mid-Pleistocene deep Arctic Ocean ostracode fauna with North Atlantic affinities: Palaeogeography, Palaeoclimatology, Palaeoecology, v. 419, p. 9099.CrossRefGoogle Scholar
Didié, C., and Bauch, H.A., 2000, Species composition and glacial-interglacial variations in the ostracode fauna of the northeast Atlantic during the past 200,000 years: Marine Micropaleontology, v. 40, p. 105129.CrossRefGoogle Scholar
Didié, C., and Bauch, H.A., 2001, Erratum to “Species composition and glacial-interglacial variations in the ostracode fauna of the northeast Atlantic during the past 200,000 years” [Marine Micropaleontology 40 (2000) 105–129]: Marine Micropaleontology, v. 41, p. 103108.CrossRefGoogle Scholar
Dingle, R.V., and Lord, A.R., 1990, Benthic ostracods and deep water-masses in the Atlantic Ocean: Palaeogeography, Palaeoclimatology, Palaeoecology, v. 80, p. 213235.CrossRefGoogle Scholar
Dingle, R.V., Lord, A.R., and Boomer, I.D., 1990, Deep-water Quaternary Ostracoda from the continental margin off south-western Africa (SE Atlantic Ocean): Annals of the South African Museum, v. 99, p. 245366.Google Scholar
Ducasse, O., and Peypouquet, J.P., 1979, Cenozoic ostracodes: their Importance for bathymetry, hydrology, and biogeography: Initial Reports of the Deep Sea Drilling Project, v. 48, p. 343363.Google Scholar
Eagar, S.H., 1965, Ostracoda of the London Clay (Ypresian) in the London Basin, 1. Reading District: Revue de Micropaléontologie, v. 8, p. 1532.Google Scholar
Eme, D., Anderson, M.J., Myers, E.M.V., Roberts, C.D., and Liggins, L., 2020, Phylogenetic measures reveal eco-evolutionary drivers of biodiversity along a depth gradient: Ecography, v. 43, p. 689702.CrossRefGoogle Scholar
Freiwald, A., and Mostafawi, N., 1998, Ostracods in a cold-temperate coastal environment, western Troms, northern Norway: sedimentary aspects and assemblages: Facies, v. 38, p. 255274.Google Scholar
Gemery, L., Cronin, T.M., Briggs, W.M. Jr., Brouwers, E.M., Schornikov, E.I., Stepanova, A., Wood, A.M., and Yasuhara, M., 2017, An Arctic and Subarctic ostracode database: biogeographic and paleoceanographic applications: Hydrobiologia, v. 786, p. 5995.CrossRefGoogle 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
Gründel, J., 1989, Trends der Grobskulpturentwicklung und der Ausbildung des Seitenumrisses bei nachjurassischen Trachyleberididae (Cytherocopina, Ostracoda): Zeitschrift für geologische Wissenschaften, v. 17, p. 603617.Google Scholar
Guernet, C., 1998, Neogene and Pleistocene ostracodes, sites 959 and 960, Gulf of Guinea: Proceedings of the Ocean Drilling Program, Scientific Results, v. 159, p. 525531.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., and Bellier, J.-P., 2000, Ostracodes Paléocènes et Éocènes du Blake Nose (Leg ODP 171B) et évolution des environnements bathyaux au large de la Floride: Revue de Micropaléontologie, v. 43, p. 249279.CrossRefGoogle Scholar
Guernet, C., and Fourcade, E., 1988, Cenozoic ostracodes from Hole 628A, ODP Leg 101, Bahamas: Proceedings of the Ocean Drilling Program, Scientific Results, v. 101, p. 139151.Google Scholar
Guernet, C., and Moullade, M., 1994, Ostracodes en milieu océanique profond (Atlantique central) au passage Miocéne–Pliocéne: Revue de Micropaléontologie, v. 37, p. 257274.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
Hazel, J.E., 1967, Classification and distribution of the recent Hemicytheridae and Trachyleberididae (Ostracoda) off northeastern North America: U.S. Geological Survey Professional Paper, v. 564, p. 149.Google Scholar
Herrig, E., 1963, Neue Ostracoden-Arten aus der Weißen Schreibkreide der Insel Rügen (Unter-Maastricht): Wissenschaftliche zeitschrift der Ernst-Moritz-Arndt-Universität Greifswald, Mathematisch-Naturwissenschaftliche Reihe, v. 12, p. 289325.Google Scholar
Hill, B.L., 1954, Reclassification of winged Cythereis and winged Brachycythere: Journal of Paleolimnology, v. 28, p. 804826.Google Scholar
Horne, D.J., 1986, Two new species of Pseudocythere Sars (Crustacea, Ostracoda) from Britain and Norway: Hydrobiologia, v. 139, p. 119122.CrossRefGoogle Scholar
Horne, D.J., and Whittaker, J.E., 1985, On Eucythere declivis (Norman): Stereo-Atlas of Ostracod Shells, v. 12, p. 16.Google Scholar
Horne, D.J., and Whittaker, J.E., 1988, On Cytheropteron latissimum (Norman): Stereo-Atlas of Ostracod Shells, v. 15, p. 127132.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: American Geophysical Union, Washington, DC, 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
Hou, Y., and Gou, Y., 2007, Fossil Ostracoda of China. Volume 2: Cytheracea and Cytherellidae: Beijing, Science Publishing House, 798 p. [in Chinese]Google Scholar
Howe, H.V., 1955, Handbook of Ostracod Taxonomy: Louisiana State University Studies, Physical Science Series: Baton Rouge, Louisiana State University Press, v. 1, p. 1–386.Google Scholar
Hunt, G., 2007, Morphology, ontogeny, and phylogenetics of the genus Poseidonamicus (Ostracoda: Thaerocytherinae): Journal of Paleontology, v. 81, p. 607631.CrossRefGoogle Scholar
Hunt, G., and Yasuhara, M., 2010, A fossil record of developmental events: variation and evolution in epidermal cell divisions in ostracodes: Evolution & Development, v. 12, p. 635646.CrossRefGoogle ScholarPubMed
Hunt, G., Martins, M.J.F., Puckett, T.M., Lockwood, R., Swaddle, J.P., Hall, C.M., and Stedman, J., 2017, Sexual dimorphism and sexual selection in cytheroidean ostracodes from the Late Cretaceous of the US Coastal Plain: Paleobiology, v. 43, p. 620641.CrossRefGoogle Scholar
Ingels, J., Amon, D., Bernardino, A.F., Bhadury, P., Bik, H., Clark, M.R., Dahlgren, T., Jones, D.O.B., McClain, C., Nunnally, C., Snelgrove, P., Tuhumwire, J.T., Yasuhara, M., 2021, Chapter 7M Abyssal plains, in The Second World Ocean Assessment: New York, United Nations, p. 453–476.CrossRefGoogle Scholar
Ishizaki, K., 1981, Ostracoda from the East China Sea: Science Reports of the Tohoku University, 2nd Series (Geology), v. 51, p. 3765.Google Scholar
Jellinek, T., and Swanson, K.M., 2003, Report on the taxonomy, biogeography and phylogeny of mostly living benthic Ostracoda (Crustacea) from deep-sea samples (Intermediate Water depths) from the Challenger Plateau (Tasman Sea) and Campbell Plateau (Southern Ocean), New Zealand: Abhandlungen der Senckenbergischen Naturforschenden Gesellschaft, v. 558, p. 1329.Google Scholar
Jellinek, T., Swanson, K., and Mazzini, I., 2006, Is the cosmopolitan model still valid for deep-sea podocopid ostracods? With the discussion of two new species of the genus Pseudobosquetina Guernet & Moullade 1994 and Cytheropteron testudo (Ostracoda) as case studies: Senckenbergiana Maritima, v. 36, p. 2950.CrossRefGoogle Scholar
Jones, T.R., 1901, On some Carboniferous shale from Siberia: Geological Magazine (Decade 4), v. 8, p. 433436.CrossRefGoogle Scholar
Jöst, A.B., Yasuhara, M., Okahashi, H., Ostmann, A., Martínez Arbizu, P., and Brix, S., 2017, Vertical distribution of living ostracods in deep-sea sediments, North Atlantic Ocean: Deep Sea Research I, v. 122, p. 113121.CrossRefGoogle Scholar
Jöst, A.B., Yasuhara, M., Okahashi, H., Brix, S., Martínez Arbizu, P., and Ostmann, A., 2018, Biogeographic distributions of Cytheropteron species (Ostracoda) in Icelandic waters (sub-polar North Atlantic): Marine Biodiversity, v. 48, p. 763782.CrossRefGoogle Scholar
Jöst, A.B., Yasuhara, M., Wei, C.L., Okahashi, H., Ostmann, A., Martínez Arbizu, P., Mamo, B., Svavarsson, J., and Brix, S., 2019, North Atlantic gateway: test bed of deep-sea macroecological patterns: Journal of Biogeography, v. 46, p. 20562066.CrossRefGoogle Scholar
Joy, J.A., and Clark, D.L., 1977, The distribution, ecology and systematics of the benthic Ostracoda of the central Arctic Ocean: Micropaleontology, v. 23, p. 129154.CrossRefGoogle Scholar
Kempf, E.K., and Nink, C., 1993, Henryhowella asperrima (Ostracoda) aus der Typusregion (Miozän: Badenian; Wiener Becken): Geologisches Institut der Universität zu Köln, Sonderveröffentlichungen, v. 70, p. 95114.Google Scholar
Latreille, P.A., 1802, Genera Crustaceorum et Insectorum, Tomus I: Paris, Amand Koenig, 303 p.Google Scholar
Laughton, A.S., Berggren, W.A., Benson, R.N., Davies, T.A., Franz, U., Musich, L.F., Perch-Nielsen, K., Ruffman, A.S., van Hinte, J.E., and Whitmarsh, R.B., 1972, Sites 116 and 117: Initial Reports of the Deep Sea Drilling Project, v. 12, p. 395–671.CrossRefGoogle Scholar
Levin, L.A., Auster, P., Clark, M.R., Hall-Spencer, J.M., Hopcroft, R., Ingels, J., Metaxas, A., Narayanaswamy, B.E., Tuhumwire, J.T., and Yasuhara, M., 2021, Chapter 7J Continental slopes and submarine canyons, in The Second World Ocean Assessment: New York, United Nations, p. 395–420.CrossRefGoogle Scholar
Lilljeborg, W., 1853, De Crustaceis ex Ordinibus Tribus: Cladocera, Ostracoda et Copepoda, in Scania Occurentibus, Om de inom Skåne förekommande crustaceer af ordningarne Cladocera, Ostracoda och Copepoda: Lund, Berlingska Boktryckeriet, 222 p.CrossRefGoogle Scholar
Maddocks, R.F., 1969, Revision of recent Bairdiidae (Ostracoda): United States National Museum Bulletin, v. 295, p. 1126.CrossRefGoogle Scholar
Maddocks, R.F., 1990, Living and fossil Macrocyprididae (Ostracoda): The University of Kansas Paleontological Contributions, Monograph, v. 2, p. 1404.Google Scholar
Maddocks, R.F., and Steineck, P.L., 1987, Ostracoda from experimental wood-island habitats in the deep sea: Micropaleontology, v. 33, p. 318355.CrossRefGoogle Scholar
Malz, H., 1987, Tiefsee-Ostracoden aus dem Golf von Aden: Natur und Museum, v. 117, p. 397399.Google Scholar
Malz, H., 1990, Tiefseearten leben länger: Natur und Museum, v. 120, p. 139152.Google Scholar
Malz, H., and Jellinek, T., 1984, Marine Plio-/Pleistozän-Ostracoden von SE-Lakonien (Peloponnes, Griechenland): Senckenbergiana Biologica, v. 65, p. 113167.Google Scholar
Malz, H., and Jellinek, T., 1994, Podocopide Tiefsee-Ostracoden aus Kastengreifer-Proben im östlichen Mittelmeer (“Meteor”-Fahrt 25/leg 1: Ionisches bis Levantinisches Becken): Senckenbergiana Lethaea, v. 74, p. 932.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
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 Paleontología, v. 8, p. 75116.Google Scholar
Moore, R.C., 1961, Treatise on Invertebrate Paleontology, Part Q, Arthropoda 3: Lawrence, Kansas and Boulder, Colorado, Geological Society of America and University of Kansas Press, 442 p.Google 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
Müller, G.W., 1912, Ostracoda: Das Tierreich, v. 31, p. 1434.Google Scholar
Nachite, D., and Bekkali, R., 2010, Upper Neogene ostracodes of the NW Moroccan coastal area between Tangier and Asilah: Revue de Micropaléontologie, v. 53, p. 5368.CrossRefGoogle Scholar
Neale, J.W., 1967, An ostracod fauna from Halley Bay, Coats Land, British Antarctic Territory: British Antarctic Survey Scientific Reports, v. 58, p. 150.Google Scholar
Nohara, T., 1987, Cenozoic Ostracodes of Okinawa-Jima: Bulletin of College of Education, University of Ryukyus, v. 30, p. 1105.Google Scholar
Norman, A.M., 1865, Report on the Crustacea of the deep-sea dredging off the coast of Northumberland and Durham: Transactions of the Natural History Society of Northumberland, Durham and Newcastle-upon-Tyne, v. 1, p. 1229.Google Scholar
Norman, A.M., 1867, Report on the Crustacea, in Brady, G.S., ed., Reports of deep-sea dredging on the coasts of Northumberland and Durham, 1862–4: Natural History Transactions of Northumberland and Durham, v. 1, p. 12–29.Google Scholar
O'Hara, T.D., Rowden, A.A., and Bax, N.J., 2011, A southern hemisphere bathyal fauna is distributed in latitudinal bands: Current Biology, v. 21, p. 226230.CrossRefGoogle ScholarPubMed
Oertli, H.J., 1961, Ostracodes du Langhien-type: Rivista Italiana di Paleontologia e Stratigrafia, v. 67, p. 1744.Google Scholar
Pante, E., and Simon-Bouhet, B., 2013, marmap: a package for importing, plotting and analyzing bathymetric and topographic data in R: PLoS ONE, v. 8, e73051. https://doi.org/10.1371/journal.pone.0073051.CrossRefGoogle ScholarPubMed
Pirkenseer, C., and Berger, J.P., 2011, Paleogene Ostracoda from the southern Upper Rhine Graben: taxonomy, palaeoecology and palaeobiogeography: Palaeontographica Abteilung A, v. 295, p. 1152.CrossRefGoogle Scholar
Puri, H.S., 1954, Contribution to the study of the Miocene of the Florida panhandle: Part 3 Ostracoda: Florida Geological Survey, Geological Bulletin, v. 36, p. 215345.Google Scholar
Puri, H.S., 1957, Henryhowella, new name for Howella Puri, 1956: Journal of Paleontology, v. 31, p. 982.Google Scholar
Puri, H.S., 1974, Normal pores and the phylogeny of Ostracoda: Geoscience and Man, v. 6, p. 137151.Google Scholar
Puri, H.S., and Hulings, N.C., 1976, Designation of lectotypes of some ostracods from the Challenger Expedition: Bulletin of the British Museum (Natural History), Zoology, v. 29, p. 251315.CrossRefGoogle Scholar
Reuss, A.E., 1850, Die fossilen Entomostraceen des österreichischen Tertiärbeckens: Naturwissenschaftliche Abhandlungen, v. 3, p. 4192.Google Scholar
Rex, M.A., and Etter, R.J., 2010, Deep-Sea Biodiversity: Pattern and Scale: Cambridge, Massachusetts, Harvard University Press, 368 p.Google Scholar
Rex, M.A., Stuart, C.T., and Coyne, G., 2000, Latitudinal gradients of species richness in the deep-sea benthos of the North Atlantic: Proceedings of the National Academy of Sciences of the United States of America, v. 97, p. 40824085.CrossRefGoogle ScholarPubMed
Rex, M.A., McClain, C.R., Johnson, N.A., Etter, R.J., Allen, J.A., Bouchet, P., and Waren, A., 2005, A source-sink hypothesis for abyssal biodiversity: American Naturalist, v. 165, p. 163178.CrossRefGoogle ScholarPubMed
Rosenfeld, A., and Bein, A., 1978, A preliminary note on recent ostracodes from shelf to rise sediments off Northwest Africa: “Meteor” Forschungsergebnisse, Reihe C, Geologie und Geophysik, v. 29, p. 1420.Google Scholar
Ruan, P., 1989, Ostracoda, in Hao, Y., ed., Quaternary Microbiotas and their Geological Significance from Northern Xisha Trench of South China Sea: Wuhan, China University of Geosciences Press, p. 116132. [in Chinese]Google Scholar
Ruan, P., and Hao, Y. 1988. Systematic description of microfossils. 2. Ostracoda, in Rong, L., and Shu, Z., eds., Quaternary Microbiotas in the Okinawa Trough and Their Geological Significance: Beijing, Geological Publishing House, p. 227395. [in Chinese]Google Scholar
Russo, A., Pugliese, N., and Serventi, P., 2012, Miocene ostracodes of cold seep settings from northern Apennines (Italy): Revue de Micropaléontologie, v. 55, p. 2938.CrossRefGoogle 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., 1923, Ostracoda, parts 3 and 4: An Account of the Crustacea of Norway with Short Description and Figures of All the Species, Bergen, Bergen Museum, v. 9, p. 3372.Google Scholar
Sars, G.O., 1926, Ostracoda, parts 13 and 14: An Account of the Crustacea of Norway with Short Description and Figures of All the Species, Bergen, Bergen Museum, v. 9, p. 209240.Google Scholar
Sars, G.O., 1928, Ostracoda, parts 15 and 16: An Account of the Crustacea of Norway with Short Description and Figures of All the Species, Bergen, Bergen Museum, v. 9, p. 241277.Google Scholar
Schornikov, E.I., 1980, A review of the genus Zabythocypris (Ostracoda, Bairdiacea): Zoologichesky Zhurnal, v. 59, p. 186198.Google Scholar
Schornikov, E.I., 2005, The question of cosmopolitanism in the deep-sea ostracod fauna: the example of the genus Pedicythere: Hydrobiologia, v. 538, p. 193215.CrossRefGoogle Scholar
Sciuto, F., 2014, Ostracods of the Upper Pliocene–Pleistocene Punta Mazza succession (NE Sicily) with special focus on the Family Trachyleberididae Sylvester-Bradley, 1948, and description of a new species: Carnets de Géologie (Notebooks on Geology), v. 14, p. 113.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
Sissingh, W., 1972, Late Cenozoic Ostracoda of the South Aegean Island Arc: Utrecht Micropaleontological Bulletins, v. 7, p. 1187.Google Scholar
Spalding, M.D., Fox, H.E., Allen, G.R., Davidson, N., Ferdaña, Z.A., Finlayson, M., Halpern, B.S., Jorge, M.A., Lombana, A., Lourie, S.A., Martin, K.D., McManus, E., Molnar, J., Recchia, C.A., and Robertson, J., 2007, Marine ecoregions of the world: a bioregionalization of coastal and shelf areas: BioScience, v. 57, p. 573583.CrossRefGoogle Scholar
Steineck, P.L., 1981, Upper Eocene to middle Miocene ostracode faunas and paleo-oceanography of the North Coastal Belt, Jamaica, West Indies: Marine Micropaleontology, v. 6, p. 339366.CrossRefGoogle Scholar
Steineck, P.L., Dehler, D., Hoose, E.M., and McCalla, D., 1988, Oligocene to Quaternary ostracods of the central equatorial Pacific (Leg 85, DSDP-IPOD), in Hanai, T., Ikeya, N., and Ishizaki, K., eds., Evolutionary Biology of Ostracoda: Its Fundamentals and Applications: Tokyo, Kodansha, p. 597617.Google Scholar
Steineck, P.L., Maddocks, R.F., Turner, R.D., Coles, G.P., and Whatley, R.C., 1990, Xylophile Ostracoda in the deep sea, in Whatley, R.C., and Maybury, C., eds., Ostracoda and Global Events: London, Chapman and Hall, p. 307319.CrossRefGoogle Scholar
Stepanova, A., Taldenkova, E., and Bauch, H.A., 2003, Recent Ostracoda from the Laptev Sea (Arctic Siberia): species assemblages and some environmental relationships: Marine Micropaleontology, v. 48, p. 2348.CrossRefGoogle Scholar
Sweetman, A.K., Thurber, A.R., Smith, C.R., Levin, L.A., Mora, C., Wei, C.L., Gooday, A.J., Jones, D.O.B., Rex, M., M., Y., Ingels, J., Ruhl, H.A., Frieder, C.A., Danovaro, R., Würzberg, L., Baco, A., Grupe, B.M., Pasulka, A., Meyer, K.S., Dunlop, K.M., Henry, L.A., and Roberts, J.M., 2017, Major impacts of climate change on deep-sea benthic ecosystems: Elementa, v. 5, 4. https://doi.org/10.1525/elementa.203.Google Scholar
Sylvester-Bradley, P.C., 1947, Some ostracod genotypes: Annals and Magazine of Natural History, ser. 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
Tanaka, H., Lelièvre, Y., and Yasuhara, M., 2019, Xylocythere sarrazinae, a new cytherurid ostracod (Crustacea) from a hydrothermal vent field on the Juan de Fuca Ridge, northeast Pacific Ocean, and its phylogenetic position within Cytheroidea: Marine Biodiversity, v. 49. p. 25712586.CrossRefGoogle Scholar
Thomas, E., and Gooday, A.J., 1996, Cenozoic deep-sea benthic foraminifers: tracers for changes in oceanic productivity?: Geology, v. 24, p. 355358.2.3.CO;2>CrossRefGoogle Scholar
Tittensor, D.P., Rex, M.A., Stuart, C.T., McClain, C.R., and Smith, C.R., 2011, Species-energy relationships in deep-sea molluscs: Biology Letters, v. 7, p. 718722..CrossRefGoogle ScholarPubMed
Tressler, W.L., 1941, Geology and biology of North Atlantic deep-sea cores between Newfoundland and Ireland: Part 4. Ostracoda: U.S. Geological Survey Professional Paper, v. 196C, p. 95105.Google Scholar
Uffenorde, H., 1981, Ostracoden aus dem Oberoligozän und Miozän des Unteren Elbe-Gebietes (Niedersachsen und Hamburg, NW-deutsches Tertiärbecken): Palaeontographica Abteilung A, v. 172, p. 103198.Google Scholar
Ulrich, E.O., and Bassler, R.S. 1904. Ostracoda, Miocene: Baltimore, The Johns Hopkins Press, p. 98130.Google Scholar
UNESCO, 2009, Global Open Oceans and Deep Seabed (GOODS)—Biogeographic Classification, IOC Technical Series No. 84: Paris, IOC-UNESCO, 87 p.Google Scholar
van den Bold, W.A., 1958, Ostracoda of the Brasso Formation of Trinidad: Micropaleontology, v. 4, p. 391418.CrossRefGoogle Scholar
van den Bold, W.A., 1960, Eocene and Oligocene Ostracoda of Trinidad: Micropaleontology, v. 6, p. 145196.CrossRefGoogle Scholar
Wagner, C.W., 1957, Sur les Ostracodes du Quaternaire récent des Pays-Bas et leur utilisation dans l’étude géologique des dépots holocenes: Amsterdam, Mouton, 259 p.Google Scholar
Wang, P., Zhang, J., Zhao, Q., Min, Q., Bian, Y., Zheng, L., Cheng, X., and Chen, R., 1988, Foraminifera and Ostracoda in Bottom Sediments of the East China Sea: Beijing, Ocean Press, 438 p. [in Chinese]Google Scholar
Watling, L., Guinotte, J., Clark, M.R., and Smith, C.R., 2013, A proposed biogeography of the deep ocean floor: Progress in Oceanography, v. 111, p. 91112.CrossRefGoogle Scholar
Wei, C.-L., Chen, M., Wicksten, M., and Rowe, G.T., 2020, Macrofauna bivalve diversity from the deep northern Gulf of Mexico: Ecological Research, v. 35, p. 343361.CrossRefGoogle Scholar
Whatley, R.C., and Ayress, M.A., 1988, Pandemic and endemic distribution patterns in Quaternary deep-sea Ostracoda, in Hanai, T., Ikeya, N., and Ishizaki, K., eds., Evolutionary Biology of Ostracoda: Its Fundamentals and Applications: Tokyo, Kodansha, p. 739755.Google Scholar
Whatley, R.C., and Coles, G.P., 1987, The late Miocene to Quaternary Ostracoda of Leg 94, Deep Sea Drilling Project: Revista Española de Micropaleontología, v. 19, p. 3397.Google Scholar
Whatley, R.C., and Coles, G.P., 1991, Global change and the biostratigraphy of North Atlantic Cainozoic deep water Ostracoda: Journal of Micropalaeontology, v. 9, p. 119132.CrossRefGoogle Scholar
Whatley, R.C., and Downing, S., 1983, Middle Miocene Ostracoda from Victoria, Australia: Revista Española de Micropaleontología, v. 15, p. 347407.Google Scholar
Whatley, R.C., Ayress, M., Downing, S., Harlow, C., and Kesler, K., 1985, Aratrocypris, an enigmatic new cyprid ostracod from the Tertiary of D.S.D.P. sites in the S.W. Pacific Journal of Micropalaeontology, v. 4, p. 69–79.CrossRefGoogle Scholar
Whatley, R.C., Witte, L., and Coles, G.P., 1989, New data on the ostracod genus Aratrocypris Whatley et al. 1985, with descriptions of species from the Upper Cretaceous of Europe and the Cainozoic of the North Atlantic: Journal of Micropalaeontology, v. 8, p. 207214.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., Eynon, M., and Moguilevsky, A., 1996a, Recent Ostracoda of the Scoresby Sund fjord system, East Greenland: Revista Española de Micropaleontología, v. 28, p. 523.Google Scholar
Whatley, R.C., Staunton, M., Kaesler, R.L., and Moguilevsky, A., 1996b, The taxonomy of recent Ostracoda from the southern part of the Strait of Magellan: Revista Española de Micropaleontología, v. 28, p. 5176.Google Scholar
Whatley, R.C., Eynon, M., and Moguilevsky, A., 1998a, The depth distribution of Ostracoda from the Greenland Sea: Journal of Micropalaeontology, v. 17, p. 1532.CrossRefGoogle Scholar
Whatley, R.C., Moguilevsky, A., Ramos, M.I.F., and Coxill, D.J., 1998b, Recent deep and shallow water Ostracoda from the Antarctic Peninsula and the Scotia Sea: Revista Española de Micropaleontologia, v. 30, p. 111135.Google Scholar
Woolley, S.N., Tittensor, D.P., Dunstan, P.K., Guillera-Arroita, G., Lahoz-Monfort, J.J., Wintle, B.A., Worm, B., and O'Hara, T.D., 2016, Deep-sea diversity patterns are shaped by energy availability: Nature, v. 533, p. 393396.CrossRefGoogle ScholarPubMed
Yasuhara, M., and Cronin, T.M., 2008, Climatic influences on deep-sea ostracode (Crustacea) diversity for the last three million years: Ecology, v. 89, p. S52S65.CrossRefGoogle ScholarPubMed
Yasuhara, M., and Danovaro, R., 2016, Temperature impacts on deep-sea biodiversity: Biological Reviews, v. 91, p. 275287.CrossRefGoogle ScholarPubMed
Yasuhara, M., and Okahashi, H., 2014, Quaternary deep-sea ostracode taxonomy of Ocean Drilling Program Site 980, eastern North Atlantic Ocean: Journal of Paleontology, v. 88, p. 770785.CrossRefGoogle Scholar
Yasuhara, M., and Okahashi, H., 2015, Late Quaternary deep-sea ostracod taxonomy of the eastern North Atlantic Ocean: Journal of Micropalaeontology, v. 34, p. 2149.CrossRefGoogle Scholar
Yasuhara, M., Cronin, T.M., Hunt, G., and Hodell, D.A., 2009a, Deep-sea ostracods from the South Atlantic sector of the Southern ocean during the Last 370,000 years: Journal of Paleontology, v. 83, p. 914930.CrossRefGoogle Scholar
Yasuhara, M., Hunt, G., Cronin, T.M., and Okahashi, H., 2009b, Temporal latitudinal-gradient dynamics and tropical instability of deep-sea species diversity: Proceedings of the National Academy of Sciences of the United States of America, v. 106, p. 2171721720.CrossRefGoogle Scholar
Yasuhara, M., Okahashi, H., and Cronin, T.M., 2009c, Taxonomy of Quaternary deep-sea ostracods from the western North Atlantic Ocean: Palaeontology, v. 52, p. 879931.CrossRefGoogle Scholar
Yasuhara, M., Hunt, G., van Dijken, G., Arrigo, K.R., Cronin, T.M., and Wollenburg, J.E., 2012, Patterns and controlling factors of species diversity in the Arctic Ocean: Journal of Biogeography, v. 39, p. 20812088.CrossRefGoogle Scholar
Yasuhara, M., Grimm, M., Brandão, S.N., Jöst, A., Okahashi, H., Iwatani, H., Ostman, A., and Martínez Arbizu, P., 2014a, Deep-sea benthic ostracodes from multiple core and epibenthic sledge samples in Icelandic waters: Polish Polar Research, v. 35, p. 341360.CrossRefGoogle Scholar
Yasuhara, M., Okahashi, H., Cronin, T.M., Rasmussen, T.L., and Hunt, G., 2014b, Deep-sea biodiversity response to deglacial and Holocene abrupt climate changes in the North Atlantic Ocean: Global Ecology and Biogeography, v. 23, p. 957967.CrossRefGoogle Scholar
Yasuhara, M., Stepanova, A., Okahashi, H., Cronin, T.M., and Brouwers, E.M., 2014c, Taxonomic revision of deep-sea Ostracoda from the Arctic Ocean: Micropaleontology, v. 60, p. 399444.Google 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., Tittensor, D.P., Hillebrand, H., and Worm, B., 2017, Combining marine macroecology and palaeoecology in understanding biodiversity: microfossils as a model: Biological Reviews, v. 92, p. 199215.CrossRefGoogle ScholarPubMed
Yasuhara, M., Hunt, G., and Okahashi, H., 2019, Quaternary deep-sea ostracods from the north-western Pacific Ocean: global biogeography and Drake-Passage, Tethyan, Central American and Arctic pathways: Journal of Systematic Palaeontology, v. 17, p. 91110.CrossRefGoogle Scholar
Yasuhara, M., Huang, H.-H.M., Hull, P., Rillo, M.C., Condamine, F.L., Tittensor, D.P., Kučera, M., Costello, M.J., Finnegan, S., O'Dea, A., Hong, Y., Bonebrake, T.C., McKenzie, N.R., Doi, H., Wei, C.-L., Kubota, Y., and Saupe, E.E., 2020, Time machine biology: Cross-timescale integration of ecology, evolution, and oceanography: Oceanography, v. 33, p. 1628.CrossRefGoogle Scholar
Zezina, O.N., 1997, Biogeography of the bathyal zone: Advances in Marine Biology, v. 32, p. 389426.CrossRefGoogle Scholar
Zhao, Q.H., 2005, Late Cainozoic Ostracod faunas and paleoenvironmental changes at ODP Site 1148 South China Sea: Marine Micropaleontology, v. 54, p. 2747.CrossRefGoogle Scholar
Zhao, Q., and Zheng, L., 1996, Distribution of deep-sea Ostracoda in bottom sediments of the South China Sea: Acta Oceanologica Sinica, v. 18, p. 6172. [in Chinese]Google Scholar
Zhao, Q., Whatley, R., and Zhou, B., 2000, The taxonomy and distribution of recent species of the ostracod genus Cytheropteron in the South China Sea: Revista Española de Micropaleontología, v. 32, p. 259281.Google Scholar