Вестник МГТУ. 2019, Т. 22, № 2.

Чемагин А. А. и др. Тяжелые металлы Hg, Cd, Pb в организме стерляди. 23. Thangam Y., Umavathi S., Vysakh V. B. Investigation of mercury toxicity in haematological parameters to fresh water fish "Cyprinus carpio" // International Journal of Science and Research. 2016. Vol. 5, Iss. 2. P. 1039-1043. 24. Wright D. A. Cadmium and calcium interactions in the freshwater amphipod Gammarus pulex // Freshwater Biology. 1980. Vol. 10, Iss. 2. Р. 123-133. DOI: https://doi.org/10.1111/j.1365-2427.1980.tb01187.x. References 1. Komov, V. T., Pronin, N. M., Mindsikhan, B. 2014. The content o f mercury in the muscles of the fish of the Selenga River and the lakes of its basin (Russia). Biologiya vnutrennikh vod, 2, pp. 89-96. DOI: https://doi.org/10.7868/s0320965214020053. (In Russ.) 2. Kramar, K. V., Kyrov, D. N. 2017. The content of mercury in the organs and tissues of fish. Simvol nauki, 04-3, pp. 18-21. (In Russ.) 3. Nemova, N. N., Lysenko, L. A., Meshcheryakova, O. V., Komov, V. T. 2014. Mercury in fish: A biochemical indication. Biosfera, 6(20), pp. 176-186. (In Russ.) 4. Nikitina, I. A. 2013. Indication of the ecological status of wetlands ecosystems "Bolon" on the content of elements in fish. Proceedings o f the X Far-Eastern conference on nature conservation problems, Blagoveshchensk, 2013, pp. 235-238. (In Russ.) 5. Popov, P. A., Androsova, N. V. 2014. The content of heavy metals in the muscle tissue of fish from the waters of the Ob River basin. Tomsk State University Journal o fBiology, 4(28), pp. 108-122. (In Russ.) 6. Fedorovykh, Yu. V., Ponomarev, S. V., Bakaneva Yu. M. 2014. The possibility of obtaining a drug with chondroprotective properties of vyazigi and cartilage tissue of sturgeon fish. Vestnik o f Astrakhan State Technical University. Series: Fishing Industry, 2, pp. 79-84. (In Russ.) 7. Chemagin, А. А. 2015. The current ecological state of the Irtysh River in the lower reaches. Ph.D. Thesis. Tumen. (In Russ.) 8. Arce-Funck, J., Crenier, C., Danger, M., Billoir, E. et al. 2018. High stoichiometric food quality increases moulting organism vulnerability to pollutant impacts: An experimental test with Gammarus fossarum (Crustacea: Amphipoda). Science o f the Total Environment, 645, pp. 1484-1495. DOI: https://doi.org/10.1016/ j.scitotenv.2018.07.227. 9. Craig, A., Hare, L., Tessier, A. 1999. Experimental evidence for cadmium uptake via calcium channels in the aquatic insect Chironomus staegeri. Aquatic Toxicology, 44(4), pp. 255-262. DOI: https://doi.org/ 10.1016/S0166-445X(98)00086-1. 10. Donald, D. B., Wissel, B., Anas, M. M. 2015. Species-specific mercury bioaccumulation in a diverse fish community. Environmental Toxicology and Chemistry, 34(12), pp. 2846-2855. DOI: https://doi.org/ 10.1002/etc.3130. 11. Heidary, S., Imanpour, N. J., Monsefrad, F. 2012. Bioaccumulation of heavy metals Cu, Zn, and Hg in muscles and liver of the stellate sturgeon (Acipenser stellatus) in the Caspian Sea and their correlation with growth parameters. Iranian Journal o fFisheries Sciences, 11(2), pp. 325-337. 12. Houserova, P., Kuban, V., Spurny, P., Habarta, P. 2006. Determination o f total mercury and mercury species in fish and aquatic ecosystems of Moravian rivers. Veterinarni Medicina, 51(3), pp. 101-110. DOI: https://doi.org/10.17221/5527-VETMED. 13. Jaric, I., Visnjic-Jeftic, Z., Cvijanovic, G., Gacic, Z. et al. 2011. Determination of differential heavy metal and trace element accumulation in liver, gills, intestine and muscle of sterlet (Acipenser ruthenus) from the Danube River in Serbia by ICP-OES. Microchemical Journal, 98(1), pp. 77-81. DOI: https://doi.org/10.1016/ j.microc.2010.11.008. 14. Lobus, N. V., Komov, V. T. 2016. Mercury in the muscle tissue of fish in the Central and South Vietnam. Inland Water Biology, 9(3), pp. 319-328. DOI: https://doi.org/10.1134/S1995082916030159. 15. McCahon, C. P., Pascoe, D. 1988. Cadmium toxicity to the freshwater amphipod Gammarus pulex (L.) during the moult cycle. Freshwater Biology, 19(2), pp. 197-203. DOI: https://doi.org/10.1111/j.1365- 2427.1988.tb00342.x. 16. Mikhailova, L. V., Chemagin, A. A. 2016. Distribution of macro- and microelements in the bottom sediments of Lower Irtysh. Journal o f Fisheries and Aquatic Science, 11(5), pp. 349-360. DOI: https://doi.org/ 10.3923/jfas.2016.349.360. 17. Mohanty, B. P., Mahananda, M. R., Pradhan, S. 2013. Cadmium induced toxicity and antioxidant activities in Labeo Rohita (Hamilton). Environment and Ecology Research, 1(2), pp. 41-47. DOI: 10.13189/ eer.2013.010203. 18. Raskovic, B., Poleksic, V., Visnjic-Jeftic, Z., Skoric, S. et al. 2015. Use of histopathology and elemental accumulation in different organs of two benthophagous fish species as indicators of river pollution. Environmental Toxicology, 30(10), pp. 1153-1161. DOI: https://doi.org/10.1002/tox.21988. 19. Reader, J. P., Morris, R. 1988. Effects of aluminium and pH on calcium fluxes, and effects of cadmium and manganese on calcium and sodium fluxes in brown trout (Salmo trutta L.). Comparative 232