Abstract
Three Acipenseridae species live in the rivers and marine waters of the Khabarovsk Territory, Russia: Sakhalin sturgeon, Acipenser mikadoi, Amur sturgeon, A. schrenckii, and kaluga, Huso dauricus. We review the general biology and life history of each species, including their historic and current distributions, and examine current paleogeographic theories to outline the possible origin and evolution of these three species in the Amur River, Sea of Okhotsk, and Sea of Japan biogeographic province. Apparently, these species have evolved during distinct geologic time periods, which has reinforced the reproductive isolation of these species although hybridization does occur. They have convergently adapted to the unique environmental conditions of the Amur River and Russian Maritime regions, and yet developed behavioral adaptations to reduce competition between species. Sakhalin sturgeon is the least studied species among anadromous sturgeon in the world. This species is highly migratory and spends the majority of its life in the ocean only returning to natal rivers to spawn. Amur sturgeon and kaluga are distributed throughout the Amur River basin and the estuary and share many life history traits. They are both represented by distinct morphs. Additionally, we present size and weight relationships to estimate the growth of Amur sturgeon and kaluga. All three species have suffered declines in abundance due to over fishing and their contemporary distributions have contracted compared to their historic ranges. We identify gaps in knowledge and suggest further research useful for guiding management of each species.
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References
Artuykhin EN, Andronov AE (1990) Morphobiological review of green sturgeon Acipenser medirostris from the Tumnin River and some issues of the ecology and zoogeography of sturgeons. Zool J 69:81–91 (in Russian, English translation Journal of Icthyology 69: 11–21)
Andriyashev AP, Panin KI (1953) Occurrence of Pacific sturgeon in the Bering Sea (Acipenser medirostris Ayres). Zool J 32:932–936 (in Russian)
Bemis WE, Kynard B (1997) Sturgeon Rivers: an introduction to acipenseriform biogeography and life history. Environ Biol Fish 48:167–183
Berg L (1948) Freshwater fishes of the U.S.S.R. and adjacent countries, 4th (ed) Academy of Science U.S.S.R. Zoological Institute. Guide to Fauna of the U.S.S.R. 27 (in Russian, English translation by Israel Program for Scientific Translations, Jerusalem, 1962, p 504)
Billard R, Lecointre G (2001) Biology and conservation of sturgeon and paddlefish. Rev Fish Biol Fish 10:355–392
Birstein VJ, Doukakis P, DeSalle R (2002) Molecular phylogeny of Acipenseridae: nonmonophyly of Scaphirhynchinae. Copeia 2003:287–301
Birstein V, Hanner R, DeSalle R (1997) Phylogeny of the␣Acipenserformes: cytogenetic and molecular approaches. Environ biol Fish 48:127--155
Birstein VJ, Poletaex AI, Goncharov BF (1993) DNA content in Eurasian sturgeon species determined by flow cytometry. Cytometry 14:377–383
Blacklidge KH, Bidwell CA (1993) Three ploidy levels indicated by genome quantification in Acipenserformes on North America. J Heredity 84:427–430
Brown JR, Beckenbach K, Beckenbach AT, Smith MJ (1996) Length variation, heteroplasmy, and sequence divergence in the mitochondrial DNA of four species of sturgeon (Acipenser). Genetics 142:525–535
Grosswald, MG (1998) New approaches to the ice age paleohydrology of northern Eurasia. In: Bonito G, Baker VR, Gregory KJ (eds) Palaeohydrology and environmental change, John Wiley & Sons Ltd
IUCN (1996) 1996 red list of threatened animals. IUCN, Switzerland
Jordan DS, Snyder JO (1906) A synopsis of the sturgeons (Acipenseridae) of Japan. Proc US Nat Museum 30:397–398
Koronkevich N (2002) Rivers, lakes, inland seas, and wetlands. In: Shahgedanova M (ed), The physical geography of northern Eurasia. Oxford University Press, New York. pp 122–149
Krykhtin, ML, Gorbach EI (1994) Sturgeons of the far east. In: Economic life of the far east pp 86–91 (in Russian)
Krykhtin ML, Gorbach EI (1996) Fecundity of kaluga, Huso dauricus, and Amur sturgeon, Acipenser schrenckii. J Ichthyol 36:56–60
Krykhtin ML, Svirskii VG (1997) Endemic sturgeons of the Amur River: kaluga, Huso dauricus, and Amur sturgeon, Acipenser schrenckiii. Environ Biol Fish 48:231–239
Leggatt RA, Iwama GK (2003) Occurrence of polyploidy in the fishes. Rev Fish Biol Fish 13:237–246
Lindberg GU, Legeza HI (1965) Fishes of the Sea of Japan and adjacent areas of the Sea of Okhotsk and the Yellow Sea. Academy of Sciences of the U.S.S.R. Zoological Institute. Keys to the Fauna of the U.S.S.R. 84. (in Russian, English translation by Israel Program for Scientific Translations, Jerusalem, 1969, p 365)
Ludwig A, Belfiore NM, Pitra CH, Svirsky V, Jenneckens I (2001) Genome duplication events and functional reduction of ploidy levels in Sturgeon (Acipenser, Huso and Scaphirhynchus). Genetics 158:1203–1215
Myachkova NA (1983) Klimat SSSR (Climate of the USSR). Moscow State University Press. Moscow, p 191 (in Russian)
North JA, Farr RA, Vescei P (2002) A comparison of meristic and morphometric characters of green sturgeon Acipenser medirostris. J Appl Ichthyol 18:234–239
Okada Y (1955) Fishes of Japan: illustrations and descriptions of fishes of Japan. Maruzen Co., Ltd. Tokyo. 424 pp
Omoto N, Maebayashi M, Hara A, Adachi S, Yamauchi K (2004) Gonadal development in wild sturgeons, Huso dauricus, Acipenser mikadoi, A. schrenckiii caught near Hokkaido, Japan. Environ Biol Fish 70:381–391
Pikitch EK, Doukakis P, Lauck L, Chakrabarty P, Erickson DE (2005) Status, trends and management of sturgeon and paddlefish fisheries. Fish Fish 6:233–265
Probatov AN (1936) Results of studies on the Amur River sturgeons. Scientific proceedings of Perm State University, Perm (in Russian)
Probatov AN (1930) Investigations of sturgeons of the Amur River. Far East Fisheries. Vladivostok. 58:5–6 (in Russian)
Shahgednova M (2002) Climate at present and in the historical past. In: Shahgedanova M (ed) The physical geography of northern Eurasia, Oxford University Press, New York. pp 70–103
Shilin NI (1995) Programme for conservation of Acipenser medirostris mikadoi in the Russian Far East. In: Gershanovich AD, Smith TIJ (eds) Proceedings of the international sturgeon symposium, VNIRO Publishing, Moscow. pp 262–267
Soldatov VK (1915) A study on the Amur River acipenserids. Data on Russian Fisheries 3(12). Petrograd (in Russian)
Svirskii VG (1967) Amur sturgeon and kaluga. Systematic, biology, perspectives of reproduction. Ph.D. thesis. Vladivostok. Far East State University (in Russian)
Svirskii V (1971) The Amur river sturgeon and kaluga.␣Uchenye Zapiski Dalnevostochnogo Gosudarstvennogo Universiteta 15:19--33 (in Russian)
Wei Q, He J, Yang D, Zheng W, Li L (2004) Status of sturgeon aquaculture and sturgeon trade in China: a review based on two recent nationwide surveys. J␣Appl Ichthyol 20:321–332
Wei Q, Ke F, Zhang J, Zhuang P, Luo J, Zhou R, Yang W (1997) Biology, fisheries, and conservation and paddlefish in China. Environ Biol Fish 48:241–255
Yu X, Zhou T, Li K, Zhou M (1987) On the karyosyatematics of cyprinid ifhses and a summary of fish chromosome studies in China. Genetica 72:225–236
Zhuang P, Kynard B, Zhang L, Zhang T, Cao W (2003) Comparative ontogenetic behavior and migration of kaluga, Huso dauricus, and Amur sturgeon, Acipenser schrenckii, from Amur River. Environ Biol Fish 66:37–48
Zhuang P, Kynard B, Zhang L, Zhang T, Zhang Z, Li D (2002) Overview of biology and aquaculture of Amur sturgeon (Acipenser schrenckii) in China. J Appl Ichthyol 18:659–664
Acknowledgements
We thank the organizers of the Cal-Neva American Fisheries Society for stimulating this article. We are in gratitude to Serge Doroshov, David Noakes, and two anonymous reviewers for critical suggestions supporting development of this article.
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Shmigirilov, A.P., Mednikova, A.A. & Israel, J.A. Comparison of biology of the Sakhalin sturgeon, Amur sturgeon, and kaluga from the Amur River, Sea of Okhotsk, and Sea of Japan biogeographic Province. Environ Biol Fish 79, 383–395 (2007). https://doi.org/10.1007/s10641-006-9050-3
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DOI: https://doi.org/10.1007/s10641-006-9050-3