Vertical distribution, seasonal differentiation and trajectory of movement of zooplankton and pelagic fish of Lake BaikalProceedings of the Zoological Institute RAS, 2020, 324(4): 449–458 · https://doi.org/10.31610/trudyzin/2020.324.4.449 Abstract In Lake Baikal, the majority (87%) of fish biomass is generated in the pelagic zone. Two species of Comephorus, three species of Cottocomephorus and Coregonus migratorius inhabit in the pelagic zone of the lake. Currently, only C. migratorius is considered a resource species, the harvest of which accounts for about 50% of the total fish harvest. Food items for pelagic fish are copepods Epischura baikalensis and pelagic amphipods Macrohectopus branickii. The seasonal distribution and formation of zooplankton concentrations determine the food migrations of fish. The patterns of the seasonal distribution of zooplankton and pelagic fish were described by M.M.Kozhov (1954, 1964). Comparative analysis of the abundance of zooplankton in South Baikal over time, showed that during the period of maximum development of E. baikalensis in the months of July, August, and October, zooplankton concentration in the decade 1997 to 2007 was twice more than in 1951 (Kozhov 1954; Kiprushina 2010). The distribution of E. baikalensis is directly dependent on the water temperature. Yet there is an inverse relationship in the surface layer 0–25 meters. During warming up of the surface water layers, which had been observed in 2002 year E. baikalensis left the upper zone and migrated deeper, to a layer of 50–100 meters. In other months of the year, no changes in the average values of the E. baikalensis abundance were revealed. At present, when the ecosystem of Lake Baikal is changing, there is a need to restart such complex studies, and to use the results obtained by M.M. Kozhov for comparative analysis. Key words Comephorus, Coregonus migratorius, Cottocomephorus, Lake Baikal, pelagic fish, zooplankton Submitted October 18, 2020 · Accepted November 30, 2020 · Published December 25, 2020 References Khanaev I.V., Dzyuba E.V., Kravtsova L.S. and Grachev M.A. 2016. The effect of bloom of filamentous green algae on the reproduction of yellowfin sculpin Cottocomephorus grewingkii (Dybowski, 1874) (Cottoidae) during ecological crisis in Lake Baikal. Doklady Biological Sciences, 467(1): 63–64. https://doi.org/10.1134/S0012496616020022 Kiprushina K.N. 2010. Zooplankton of the open part of South Baikal and the Maloye More Strait. Abstract of the Candidate of Biological Sciences thesis. Krasnoyarsk, 23 p. [In Russian]. Kozhov M.M. 1934. On the issue of nutrition of the commercial fish of Lake Baikal. Bulletin of the Biological and Geographic Research Institute at Irkutsk State University, 6(1): 116–127. [In Russian]. Kozhov M.M. 1954. Vertical distribution of plankton and plankton-eating fish of Lake Baikal. Issues of ichthyology, 2: 7–20. [In Russian]. Kozhov M.M. 1964. About the food base for pelagic fish of Lake Baikal. Issues of Ichthyology, 4(1): 125–135. [In Russian]. Kozhov M.M. 1969. About food resources for pelagic fish of Lake Baikal. In: M.Yu. Beckman (Ed.). Biological productivity of water bodies in Siberia. Nauka, Moscow: 85–92. [In Russian]. Potakuyev Yu.G. 1954. The feeding and food relationship of the plankton-catching fishes of Lake Baikal. Abstract of the Candidate of Biological Sciences thesis. Irkutsk, 13 p. [In Russian]. Sideleva V.G. 2003. The endemic fishes of Lake Baikal. Backhuys, Leiden, 270 p. Sideleva V.G. 2020. Resource fish of Lake Baikal (historical and modern aspects). KMK Scientific Publishing Partnership, Moscow, 237 p. [In Russian].
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