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Biogeographic and faunistic division of the Eurasian Polar Ocean based on distributions of Hydrozoa (Cnidaria)

Published online by Cambridge University Press:  13 March 2015

Alexander E. Antsulevich*
Affiliation:
Saint Petersburg State University, Universitetskaya nab., 7/9; Scientific Research Center for Ecological Safety, Russian Academy of Sciences, Corpusnaya str., 18, Saint Petersburg, Russia
*
Correspondence should be addressed to: A.E. Antsulevich, Saint Petersburg State University, Universitetskaya nab., 7/9; Scientific Research Center for Ecological Safety, Russian Academy of Sciences, Corpusnaya str., 18, Saint Petersburg, Russia email: [email protected]

Abstract

The hydroid and hydromedusa fauna of Russian Arctic seas, totalling 161 species, has been revised taxonomically and biogeographically. Diversity is highest in the Barents Sea, where 133 species are known to occur. Species composition of Hydrozoa throughout Russian Eurasia is decidedly uniform, with marked similarity among all regional faunistic lists. An assemblage of Arctic ubiquitists, a majority of them boreal-Arctic species, comprise the main element of hydrozoans in all Arctic seas. This faunistic main element is responsible for the faunal uniformity observed from one sea to the next across thousands of kilometres along the northern Eurasian coast. Exceptions occur in marginal regions including western parts of the Barents Sea and south-eastern parts of the Chukchi Sea, where species distribution area contours (named as ‘synperates’) come close together. Based on a biogeographic analysis of faunistic data and species distributions of Hydrozoa, all temperate and cold waters of the Eurasian seas and the Central Polar Basin were referred to a single Arctatlantic biogeographic realm. Biogeographic subdivisions within this realm have rather low hierarchical rank, the result of low endemism, high faunal similarity across the northern seas, and predominance of a North Atlantic fauna in Russian northern seas as far as the easternmost Chukchi Sea.

Type
Research Article
Copyright
Copyright © Marine Biological Association of the United Kingdom 2015 

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References

REFERENCES

Altuna, A., Murillo, F.J. and Calder, D.R. (2013) Aglaopheniid hydroids (Cnidaria: Hydrozoa: Aglaopheniidae) from bathyal waters of the Flemish Cap, Flemish Pass, and Grand Banks of Newfoundland (NW Atlantic). Zootaxa 3737, 501537.CrossRefGoogle ScholarPubMed
Antsulevich, A.E. (1987) Hydroids from the Shelf Waters of Kurile Islands. Leningrad: USSR Academy of Sciences, Zoological Institute [in Russian].Google Scholar
Antsulevich, A.E. (1991) On the White Sea hydrozoan fauna endemismus: White and Barents seas faunas connection. In Naumov, A.D. and Fedjakov, V.V. (eds) Benthos of the White Sea. Populations, communities, fauna. USSR Academy of Sciences. Proceedings of the Zoological Institute, Volume 233, pp. 543 [in Russian].Google Scholar
Antsulevich, A.E. (2006) Fauna of hydroids of the White Sea and its place in the fauna of hydroids of the Russian Arctic. Vestnik Sanct-Peterburgskogo Universiteta Ser. 3, 1016 [in Russian].Google Scholar
Antsulevich, A.E. (2008) Hydroids (Hydrozoa, Hydroidea) of the Chukchi Sea. Chapter II. In Sirenko B.I. and Vassilenko S.V. (eds) Fauna and zoogeography of benthos of the Chukchi Sea. Explorations of the fauna of the seas 61, 4484 [in Russian.].Google Scholar
Antsulevich, A.E. (2009) On examination of Bering Sea hydroid fauna. Vestnik Sanct-Peterburgskogo Universiteta Ser. 3, 1430 [in Russian].Google Scholar
Antsulevich, A.E. and Vervoort, W. (1993) Some little-known species of hydroids (Cnidaria: Hydrozoa) and description of Papilionella pterophora gen. nov., spec. nov. (Sertulariidae). Zoologische Mededelingen, Leiden 67, 431443.Google Scholar
Bonnevie, K. (1899) Hydroida. Den Norske Nordhavs-Expedition 1876–1878, Zoologi 7, 1103.Google Scholar
Bouillon, J., Medel, M.D., Pages, F., Gili, J.M., Boero, F. and Gravili, C. (2004) Fauna of the Mediterranean Hydrozoa. Scientia Marina (Barcelona) 68, 5438.CrossRefGoogle Scholar
Broch, H. (1910) Die Hydroiden der arktischen Meere. Fauna Arctica 5, 127248.Google Scholar
Еkman, S. (1953) Zoogeography of the sea. London: Sidgwick and Jackson.Google Scholar
Calder, D.R. (1970) Thecate hydroids from the shelf waters of northern Canada. Journal of the Fisheries Research Board of Canada 27, 15011547.CrossRefGoogle Scholar
Calder, D.R. (1972) Some athecate hydroids from the shelf waters of northern Canada. Journal of the Fisheries Research Board of Canada 29, 217228.CrossRefGoogle Scholar
Calder, D.R. (2012) On a collection of hydroids (Cnidaria, Hydrozoa, Hydroidolina) from the west coast of Sweden, with a checklist of species from the region. Zootaxa 3171, 177.CrossRefGoogle Scholar
Cornelius, P.F.S. (1979) A revision of the species of Sertulariidae (Coelenterata: Hydroida) recorded from Britain and nearby seas. Bulletin of the British Museum (Natural History), Zoology Series 36, 243321.Google Scholar
Cornelius, P.F.S. (1995) North-West European Thecate Hydroids and their Medusae. Synopses of the British fauna (New Series), No. 50. London: Linnean Society of London and Estuarine Coastal Sciences Association. Part 1, 347 pp.; Part 2, 386 pp.Google Scholar
Fraser, C. McL. (1937) Hydroids of the Pacific coast of Canada and the United States. Toronto: University of Toronto Press.CrossRefGoogle Scholar
Hirohito, The Showa Emperor (1995) The hydroids of Sagami Bay. Part II. Thecata. Tokyo: Biological Laboratory, Imperial Household, 355 pp.Google Scholar
Naumov, D.V. (1960) Hydroids and Hydromedusae of the USSR. Translated from the Russian edition. Jerusalem: Israel Program for Scientific Translation (1969).Google Scholar
Scarlato, O.A. (1981) Dvustvorchatye molluski umerennykh shirot zapadnoi chasti Tikhogo okeana. Nauka: Opredeliteli po faune SSSR, izdavaemye Zoologicheskim institutom AN SSSR. [in Russian].Google Scholar
Schuchert, P. (2001) Hydroids of Greenland and Iceland (Cnidaria, Hydrozoa). Meddelelser om Grønland, Bioscience 53, 1184.CrossRefGoogle Scholar
Schuchert, P. (2012) North-West European Athecate Hydroids and their Medusae. In Crothers, J.H. and Hayward, P.J. (eds) Synopses of the British Fauna (New Series), No. 59. London: The Linnean Society of London, Field Studies Council, pp. i-viii, 1364.Google Scholar
Sirenko, B.I., Vassilenko, S.V. and Petrjashev, V.V. (2009) Appendix 3. Types of distribution ranges of species inhabiting the Arctic Ocean. In Ecosystems and biological resources of the Chukchi Sea. Explorations of the Fauna of the Seas, 64, 314324 [in Russian].Google Scholar
Stepanjants, S.D. (1989) Hydrozoa of the Eurasian Arctic Seas. In Herman, Y. (ed.) The Arctic Seas: Climatology, oceanography and biology. New York, NY: Van Nostrand Reinhold, pp. 397430.CrossRefGoogle Scholar
Stepanjants, S.D. and Kosobokova, K.N. (2006) Medusae of the genus Rhabdoon (Hydrozoa: Anthomedusae: Tubularioidea) in the Arctic Ocean. Marine Biology Research 2, 388397.CrossRefGoogle Scholar
Svoboda, A. and Cornelius, P.F.S. (1991) The European and Mediterranean species of Aglaophenia (Cnidaria: Hydrozoa). Zoologische Verhandelingen, Leiden 274, 172.Google Scholar
Svoboda, A., Stepanjants, S.D. and Ljubenkov, J. (2006) The genus Bouillonia (Cnidaria: Hydrozoa: Anthoathecata). Three species from the northern and southern hemispheres, with a discussion of bipolar distribution of this genus. Zoologische Mededelingen, Leiden 80, 185206.Google Scholar
Vervoort, W. and Faasse, M. (2009) Overzicht van de Nederlandse Leptolida (=Hydroida) (Cnidaria: Hydrozoa).Nederlandse Faunistische Mededelingen 32, Nautilus. Leiden: Stichting European Invertebrate Survey – Nederland en Nationaal Natuurhistorisch Museum Naturalis. 204 pp.Google Scholar
Yamada, M. (1959) Hydroid fauna of Japanese and its adjacent waters. Sapporo: Publications from the Akkeshi Marine Biological Station. no. 9, 101 pp.Google Scholar