Abstract. The content of Fe, As, Cu, Mn, Cr, Ni, Pb and Cd in the muscles of some aquatic organism species from the Sea of Okhotsk waters of Northeastern Sakhalin was estimated: walleye pollack (Gadus chalcogrammus Pallas, 1814), longhead dab (Limanda proboscidea Gilbert, 1896) and Bering flounder (Hippoglossoides robustus Gill & Townsend, 1897), snow crab (Chionoecetes opilio (O.Fabricius, 1788)). The concentrations of Fe and Cu are reliably higher in the snow crab, in contrast to fish, and Pb concentration is higher in fish relative to the snow crab. There was no difference in the content of trace elements between the flounders and snow crab, and in relation to the walleye pollock, the snow crab has reliably higher concentrations of Fe, Cu, and Hg and lower ones of Pb. The content of Fe is higher in the flounders compared to the walleye pollack. The concentrations of Pb, Cd, As and Hg are safe according to the hygienic requirements for food products and may indirectly indicate a favorable environmental situation in terms of the content of regulated toxic elements in the waters of Northeastern Sakhalin.

For citation: Poltev Yu.N., Koreneva T.G., Maryzhikhin V.E., Syrbu I.V. The content of trace elements in the muscle tissue of some species of aquatic organisms from the Sea of Okhotsk waters of Northeastern Sakhalin. Geosistemy perehodnykh zon = Geosystems of Transition Zones, 2023, vol. 7, no. 1, pp. 95–102. (In Russ., abstr. in Engl.).
https://doi.org/10.30730/gtrz.2023.7.1.095-102, https://www.elibrary.ru/zldbka

Для цитирования: Полтев Ю.Н., Коренева Т.Г., Марыжихин В.Е., Сырбу И.В. Содержание микроэлементов в мышечной ткани некоторых видов гидробионтов из охотоморских вод северо-восточного Сахалина. Геосистемы переходных зон, 2023, т. 7, № 1, с. 95–102.
https://doi.org/10.30730/gtrz.2023.7.1.095-102, https://www.elibrary.ru/zldbka

1. Latkovskaya E.M., Lebedev A.E., Samatov A.D. 2000. [Heavy metal content in liver of the fishes in the Nyiskii Bay (northeastern Sakhalin)]. In: [ Protection of aquatic bioresources under the conditions of intensive development of oil and gas deposits on the shelf and inland water bodies of the Russian Federation ]: Sbornik materialov Mezhdunarodnogo seminara. Moscow, p. 89–90. (In Russ.).

2. Latkovskaya E.M. 2000. Metals in the tissues of the starry flounder Pleuronectes stellatus from Nyisky Bay (north-east of Sakhalin). Russian J. of Marine Biology, 26(4): 292–295. (In Russ.). doi:10.1007/BF02759512

3. Latkovskaya E.M. 2000. [ Chemical and ecological assessment of the bays of north-east of Sakhalin: organochlorine pesticides and heavy metals ]: thesis. … Cand. Sci. (Biology). Sakhalin Branch of Russian Federal Research Institute of Fisheries and Oceanography, Yuzhno-Sakhalinsk, 166 p. (In Russ.).

4. Method of quantitative chemical analysis. 2009. Determination of As, Pb, Cd, Sn, Cr, Cu, Fe, Mn and Ni in the samples of food products and food raw materials by atomic absorption method with electrothermal atomization no. M-02-1009-08. Certified by the D.I. Mendeleev All-Russian Institute for Metrology (VNIIM). Certification no. 242/43-09 from 08.07.2009. Analit Ltd., 21 p. (In Russ.).

5. D'yakov Yu.P. 2015. Maturation of Far Eastern flounders (Pleuronectiformes). Issledovaniya vodnykh biologicheskikh resursov Kamchatki i severo-zapadnoy chasti Tikhogo okeana, 39: 5–69. (In Russ., abstr. in Engl.). doi:10.15853/2072-8212.2015.39.5-69

6. Lishavskaya T.S., Moshchenko A.V. 2008. Metals in bottom sediments at the coast of Sakhalin Island. Izvestiya TINRO, 153: 295–311. (In Russ.).

7. Vaganov A.S. 2012. [ Accumulation of heavy metals by tissues and organs of commercial fish species of various ecological groups in the Kuibyshev reservoir ]: extended abstract … Cand. Sci. (Biology). Ul'yanovskiy gosudarstvennyy tekhnicheskiy universitet, Nizhniy Novgorod, 23 p. (In Russ.).

8. Kovekovdova L.T., Kiku D.P., Kas'yanenko I.S. 2014. [Features of metal and arsenic accumulation by marine commercial aquatic organisms of the Far East seas]. In: Antropogennoye vliyaniye na vodnyye organizmy i ekosistemy [Anthropogenic effect on aquatic organisms and ecosystems ]: materialy V Vseros. konf. po vodnoy ekotoksikologii, posvyashch. pamyati B.A. Flerova, s priglasheniyem spetsialistov iz stran blizhnego zarubezh'ya; Sovremennyye metody issledovaniya sostoyaniya poverkhnostnykh vod v usloviyakh antropogennoy nagruzki [Modern research methods of surface water state under the conditions of anthropogenic impact ]: materialy shkoly-seminara dlya molodykh uchenykh, aspirantov i studentov (Borok, 28 October – 1 November, 2014) Yaroslavl': Filigran', vol. 1: 16–18. (In Russ.).

9. Kovekovdova L.T., Kiku D.P., Kasyanenko I.S. 2015. Monitoring of metals and arsenic content in commercial fish and sea water of Far East. Rybnoye khozyaystvo, 2: 18–24. (In Russ.).

10. Kovekovdova L.T., Simokon' M.V. 2020. [Content of chemical elements in the organs of three marine fish species]. Natsional'naya assotsiatsiya uchenykh (NAU), 58: 4–8. (In Russ.).

11. Ikem A., Garth J. 2022. Dietary exposure assessment of selected trace elements in eleven commercial fish species from the Missouri market. Heliyon, 8: e10458.

12. Luczynska J., Pietrzak-Fiecko R., Purkiewicz A., Luczynski M.J. 2022. Assessment of fish quality based on the content of heavy metals. International J. of Environmental Research Public Health, 19: 2307. https://doi.org/10.3390/ijerph19042307

13. Khristoforova N.K., Tsygankov V.Y., Boyarova M.D., Lukyanova O.N. 2015. Concentrations of trace elements in Pacific and Atlantic salmon. Oceanology, 55(5): 679–685. https://doi.org/10.1134/s0001437015050057

14. Narevich I.S., Kovekovdova L.T. 2017. Microelements (As, Cd, Pb, Fe, Cu, Zn, Se, Hg) in commercial crustaceans in the Japan Sea. Izvestiya TINRO, 189: 147–155. (In Russ.).

15. Hwang D.-W., Choi M., Lee1 I.-S., Shim K.-B., Kim T.-H. 2017. Concentrations of trace metals in tissues of Chionoecetes crabs ( Chionoecetes japonicus and Chionoecetes opilio ) caught from the East/Japan Sea waters and potential risk assessment. Environmental Science and Pollution Research, 24(12): 11309–11318. https://doi.org/10.1007/s11356-017-8769-z

16. Lapteva A.M., Plotitsyna N.F. 2019. [Trace elements in the snow crab Chionoecetes opilio of Barents Sea]. In: Prirodnyye resursy, ikh sovremennoye sostoyaniye, okhrana, promyslovoye i tekhnicheskoye ispol'zovaniye [Natural resources, their current state, protection, commercial and technical use ]: materialy X Natsional'noy (vseros.) nauch.-prakt. konf. (19–21 marta 2019 g.) [Proceedings of the X National (All-Russian) scientific-practical conference (19–21 March, 2019]. Petropavlovsk-Kamchatskiy: KamchatGTU, p. 35–39. (In Russ.).

17. Rainbow P.S. 2007. Trace metal bioaccumulation: Models, metabolic availability and toxicity. Environment International, 33(4): 576–582. https://doi.org/10.1016/j.envint.2006.05.007

18. Wang W.X. 2002. Interactions of trace metals and different marine food chains. Marine Ecology Progress Series, 243: 295–309. https://doi.org/10.3354/meps243295

19. Vinogradov A.P. 2001. [ Chemical element composition of the marine organisms ]. Moscow: Nauka, 620 p. (In Russ.).

20. Amankwaa G., Lu Y., Liu T., Wang N., Luan Y., Cao Y., Huang W., Ni X., Gyimah E. 2021. Heavy metals concentration profile of an aquatic environment and health implications of human exposure to fish and prawn species from an urban river (Densu). Iranian J. of Fisheries Sciences, 20(2): 529–546. doi:10.22092/ijfs.2021.351023.0

21. Khristoforova N.K. 1989. [ Bioindication and monitoring of the seawater pollution with heavy metals ]. Leningrad: Nauka, 192 p. (In Russ.).

22. Morozov N.P., Patin S.A., Petukhov S.A. 1978. [Main features of biogeochemistry of the trace elements of the metal group in ecosystems of oceans and seas]. Trudy VNIRO, 134: 23–35. (In Russ.).

23. Kovekovdova L.T., Simokon' M.V., Kiku D.P. 2006. Toxic elements in commercial hydrobionts of the north west Sea of Japan coastal waters. Voprosy rybolovstva, 7(25): 185–190. (In Russ.).