Communities of aquatic organisms in the system of ecological monitoring of streams at the Vostochny Cosmodrome (Russia)
Vol 4, Issue 2, 2021
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Abstract
The current data on the ecological state of streams at the launch site of the Vostochny Cosmodrome with the use of biological indicators are presented. Recommendations on the surface water biomonitoring of the cosmodrome and the booster rocket drop zones are given. It is shown that the system of biological monitoring of the cosmodrome, as a part of the Roscosmos environmental monitoring, should be coordinated with the Roshydromet monitoring.
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1. Puzanov AV, Sambros VV, Bezmaternykh DM, et al. Assessment of environmental impact of the Vostochny Cosmodrome construction. Priority Issues of Environmental Safety in the Drop Zones of Siberian Region and Ways of Their Solution: Proceedings of Scientific-Practical Workshop; 2016 June 22–24; Elanda village (Republic of Altai). Moscow: Sputnik Publisher; 2016. p. 110–118.
2. Tiunova TM (editor). Hydroecological monitoring of the impact zone of the Zeya hydrosystem. Khabarovsk: Publishing House of FEB RAS; 2010. p. 354.
3. Puzanov AV, Kirillov VV, Bezmaternykh DM. Assessment of the current water-ecological situation at the launch site of the Vostochny Cosmodrome. World of Science, Culture and Education Journal 2014; 3: 415–418.
4. Puzanov AV, Kirillov VV, Bezmaternykh DM, et al. Ecological status of streams in the area of the Vostochny Cosmodrome. Geography and Natural Resources 2017; 2: 66–72.
5. Bezmaternykh DM, Kirillov VV, Kirillova TV. Indication of ecological state of water bodies by composition and structure of biocenoses. Inter-Regional Medical-Ecological Forum: Proceedings. Barnaul: AzBuka; 2006. p. 75–79.
6. Ziglio G, Siligardi M, Flaim G (editors). Biological monitoring of rivers: Applications and perspectives. England, Chichester: John Wiley & Sons Ltd.; 2006. p. 469.
7. Jonson RK. The indicator concept in freshwater biomonitoring. In: Cranston P (editor). Chironomids: From genes to ecosystems. Melbourne: CSIRO Publication; 1995. p. 11–30.
8. Rosenberg DM, Resh VH (editors). Freshwater biomonitoring and benthic macroinvertebrates. New York: Chapman & Hall; 1993. p. 488.
9. Guidelines for hydrobiological monitoring of freshwater ecosystems. St. Peterburg: Giodrometeoizdat; 1992. p. 318.
10. Bolotova YaV. Aquatic plants of Amur oblast: Author’s abstract. Blagoveshchensk; 2009. p. 23.
11. Gapeka AI. Riparian-aquatic vegetation of the lower Amur. Higher Aquatic and Riparian-Aquatic Plants: Proceedings of the I All-Union Conference. Kiev; 1977. p. 6–8.
12. Kozhevnikov AE. Biological diversity of vascular plants of the Russian Far East: Main floristic and systematic parameters. Bulletin of FEB RAS 2003; 3: 39–53.
13. Zarubina EYu. Species diversity and structure of the higher aquatic vegetation of the Zeya lower reaches. Readings in memory of V.Ya. Levanidov 2014; 6: 250–256.
14. Zarubina EYu. Features of formation of vegetation cover on small rivers of Amur oblast in monsoon climate. Ecology of Small Rivers: Biodiversity, Environment, Protection: Proceedings of All-Russia Conference. Yaroslavl: Philigran’ Publisher; 2014. p. 151–154.
15. Ermolaeva NI. Current state of zooplankton in watercourses of the Zeya lower reaches. Vostochny Cosmodrome Future of Space Industry of Russia: Proceedings of the II All-Russia Scientific-Practical Conference. Blagoveshchensk: Blagoveshchensk State Pedagogical University Publisher 2013; 1: 184–191.
16. Ermolaeva NI. Structure of zooplankton in tributaries of the Zeya lower reaches after extreme flood. Readings in memory of V.Ya. Levanidov 2014; 6: 211–219.
17. Mitrofanova EYu. The state of phytoplankton in small watercourses of the Zeya basin in the autumn flood of 2013. Vostochny Cosmodrome—Future of Space Industry of Russia: Proceedings of the II All-Russia Scientific-Practical Conference. Blagoveshchensk: Blagoveshchensk State Pedagogical University Publisher 2013; 2: 58–61.
18. Bezmaternykh DM, Vdovina ON. Zoobenthos of watercourses in launch site of the Vostochny Cosmodrome (Amur oblast). Readings in memory of V.Ya. Levanidov 2014; 6: 88–98.
19. Bezmaternykh DM, Vdovina ON. Current state of benthic invertebrate communities in watercourses of launch site of the Vostochny Cosmodrome. Fish Farming and Fisheries Journal 2015; (1–2): 8–12.
20. Makarchenko ЕА, Makarchenko MА, Zorina ОV, et al. Preliminary data on fauna of chironomids (Diptera, Chironomidae) of the Amur River basin. Freshwater ecosystems of the Amur River basin. Vladivostok: Dal’nauka Publisher; 2008. p. 189–208.
21. Teslenko VA. Fauna and distribution of stoneflies (Insecta, Plecoptera) in the Zeya basin. Freshwater ecosystems of the Amur River basin. Vladivostok: Dal’nauka Publisher; 2008. p. 151–171.
22. Tiunova TM. Dayflies (Insecta, Ephemeroptera) of the Zeya river basin (Amur oblast). Freshwater ecosystems of the Amur River basin. Vladivostok: Dal’nauka Publisher; 2008. p. 172–188.
23. Kondratiev AD, Krechetov PP, Koroleva TV, et al. The Vostochny Cosmodrome as the object of nature management. Moscow: Pelikan Publisher; 2008. p. 176.
24. Organization and carrying out monitoring observations of surface water pollution on the Roshydromet network. Russian patent. Р 52.24.309–2004. 2006 Jan 1.
DOI: https://doi.org/10.24294/nrcr.v4i2.750
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Copyright (c) 2021 D.M. Bezmaternykh, V.V. Kirillov, G.V. Vinokurova, O.N. Vdovina, N.I. Ermolaeva, E.Yu. Zarubina, A.V. Kotovschikov, E.Yu. Mitrofanova, A.Ve. Puzanov
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