Studying the Self-Cleaning Ability of Water Bodies and Watercounts of Arshalyn District of Akmola Region
Abstract
In this paper, the self-purification potential of water bodies and watercourses in the Arshalinsky district was studied in an administrative unit of the Akmola region: Bolshaya Saryoba, Malaya Saryoba, Zhaltyrkol (Arhaniya), Koigeldy, Zhangula, and a section of the Yesil River. The self-cleaning ability of water bodies was assessed by such oxygen indicators as the amount of dissolved oxygen and BOD5. In water samples from water bodies, the dominant phytoplankton and zooplankton species were identified as possible agents or indicators of the self-purification capacity of water bodies. The task of the work was to identify the relationship of self-cleaning ability with inorganic pollution, saprobity.
References
[1] Absametov, M.K., Adenova, D.K. and Nusupova, A.B. 2019. Assessment of the impact of anthropogenic factors water resources of Кazakhstan. News of the National Academy of Sciences of the Republic of Kazakhstan. Series of Geology and Technical Sciences, 1(433): 248-254. DOI:https://doi.org/10.32014/2019.2518-170Х.30
[2] Afanas’ev, M.P., and Shash, N.N. 2020. Russian Investments in European Countries: Current State and Future Prospects. Studies on Russian Economic Development, 31, 327–334. DOI:https://doi.org/10.1134/S1075700720030028
[3] Afanasyev, M.P. and Shash, N. 2019. Russian Federation Cross-Border Investments and Bank Expansion. Public Administration Issues, 6: 105-120.
[4] Akbayeva, L., et al. 2014. Seasonal Dynamics of Phytoplankton and Bacterial Plankton Characteristics in Esil River. Biosciences Biotechnology Research Asia, 11(3): 1087-1093. DOI:http://dx.doi.org/10.13005/bbra/1493
[5] Alimov, A.F. 2000. Elements of the theory of functioning of aquatic ecosystems. Moscow: Science.
[6] Alimov, A.F. and Finogenova, N.P. 1976. Quantitative assessment of the role of communities of benthic animals in the processes of self-purification of freshwater bodies of water. Hydro biological basis of water self-purification. Leningrad.
[7] Annual bulletin of monitoring the state and climate change of Kazakhstan. 2019. Electronic resource. Available at: https://kazhydromet.kz
[8] Bulion, V.V. and Nikulina V.N. 1976. The role of phytoplankton in the processes of self-purification in watercourses. Hydro biological basis of water self-purification. Leningrad.
[9] Durnikin, D.A. 2010. The influence of natural and anthropogenic factors on the hydrophilic flora of aquatic ecosystems in the south of the Ob-Irtysh interfluve. Siberian Journal of Ecology, 17(4): 533-542.
[10] Federov, V.D. 2006. Practical hydrobiology. Freshwater Ecosystems: Proc. for stud. biol. specialist. Universities. Moscow: PIM.
[11] Ostroumov, S.A. 2004. Preservation of water quality and improvement of the system of principles for analyzing the environmental hazard of anthropogenic impacts on aquatic ecosystems. Russia's water industry: problems, technologies, management, 6: 617-632.
[12] Ostroumov, S.A. 2004. The biological mechanism of self-purification in natural water bodies and streams: theory and applications. Successes of modern biology, 124(5): 429-442.
[13] Ostroumov, S.A. 2008. Hydrobionts in self-purification of waters and biogenic migration of elements. Moscow: MAX-press.
[14] Ostroumov, S.A. 2016. The role of biota in the ecological mechanisms of self-purification of water. Moscow: MAKS-Press.
[15] Proceedings of the Zoological Institute, chapter 272, Reaction of lake ecosystems to changes in biotic and abiotic conditions. 1997. Number of grant: 97-04-62016.
[16] Razumnaya, L.A. 2011. Anthropogenic eutrophication of freshwater lakes in central Russia. Achievements of science and technology of agriculture, 2: 78-80.
[17] Sadchikov, A.P. 2003. Methods for studying freshwater phytoplankton: a methodological guide. Moscow: University and School Publishing House.
[18] Sibagatullina, A. M. and Mazurkin, P. M. 2009. Measurement of pollution of river water (on the example of the small river Malaya Kokshaga). Moscow: Russian Federation: Academy of Natural History.
[19] Tursunov, A.A. 1998. Hydroecological problems of the Republic of Kazakhstan. Central Asia and the Caucasus, 1(13): 8-16.
[2] Afanas’ev, M.P., and Shash, N.N. 2020. Russian Investments in European Countries: Current State and Future Prospects. Studies on Russian Economic Development, 31, 327–334. DOI:https://doi.org/10.1134/S1075700720030028
[3] Afanasyev, M.P. and Shash, N. 2019. Russian Federation Cross-Border Investments and Bank Expansion. Public Administration Issues, 6: 105-120.
[4] Akbayeva, L., et al. 2014. Seasonal Dynamics of Phytoplankton and Bacterial Plankton Characteristics in Esil River. Biosciences Biotechnology Research Asia, 11(3): 1087-1093. DOI:http://dx.doi.org/10.13005/bbra/1493
[5] Alimov, A.F. 2000. Elements of the theory of functioning of aquatic ecosystems. Moscow: Science.
[6] Alimov, A.F. and Finogenova, N.P. 1976. Quantitative assessment of the role of communities of benthic animals in the processes of self-purification of freshwater bodies of water. Hydro biological basis of water self-purification. Leningrad.
[7] Annual bulletin of monitoring the state and climate change of Kazakhstan. 2019. Electronic resource. Available at: https://kazhydromet.kz
[8] Bulion, V.V. and Nikulina V.N. 1976. The role of phytoplankton in the processes of self-purification in watercourses. Hydro biological basis of water self-purification. Leningrad.
[9] Durnikin, D.A. 2010. The influence of natural and anthropogenic factors on the hydrophilic flora of aquatic ecosystems in the south of the Ob-Irtysh interfluve. Siberian Journal of Ecology, 17(4): 533-542.
[10] Federov, V.D. 2006. Practical hydrobiology. Freshwater Ecosystems: Proc. for stud. biol. specialist. Universities. Moscow: PIM.
[11] Ostroumov, S.A. 2004. Preservation of water quality and improvement of the system of principles for analyzing the environmental hazard of anthropogenic impacts on aquatic ecosystems. Russia's water industry: problems, technologies, management, 6: 617-632.
[12] Ostroumov, S.A. 2004. The biological mechanism of self-purification in natural water bodies and streams: theory and applications. Successes of modern biology, 124(5): 429-442.
[13] Ostroumov, S.A. 2008. Hydrobionts in self-purification of waters and biogenic migration of elements. Moscow: MAX-press.
[14] Ostroumov, S.A. 2016. The role of biota in the ecological mechanisms of self-purification of water. Moscow: MAKS-Press.
[15] Proceedings of the Zoological Institute, chapter 272, Reaction of lake ecosystems to changes in biotic and abiotic conditions. 1997. Number of grant: 97-04-62016.
[16] Razumnaya, L.A. 2011. Anthropogenic eutrophication of freshwater lakes in central Russia. Achievements of science and technology of agriculture, 2: 78-80.
[17] Sadchikov, A.P. 2003. Methods for studying freshwater phytoplankton: a methodological guide. Moscow: University and School Publishing House.
[18] Sibagatullina, A. M. and Mazurkin, P. M. 2009. Measurement of pollution of river water (on the example of the small river Malaya Kokshaga). Moscow: Russian Federation: Academy of Natural History.
[19] Tursunov, A.A. 1998. Hydroecological problems of the Republic of Kazakhstan. Central Asia and the Caucasus, 1(13): 8-16.
Published
2020-08-28
How to Cite
AKBAYEVA, Lyailya et al.
Studying the Self-Cleaning Ability of Water Bodies and Watercounts of Arshalyn District of Akmola Region.
Journal of Environmental Management and Tourism, [S.l.], v. 11, n. 5, p. 1095-1104, aug. 2020.
ISSN 2068-7729.
Available at: <https://journals.aserspublishing.eu/jemt/article/view/5460>. Date accessed: 05 nov. 2024.
doi: https://doi.org/10.14505//jemt.v11.5(45).07.
Section
Article
Copyright© 2024 The Author(s). Published by ASERS Publishing 2024. This is an open access article distributed under the terms of CC-BY 4.0 license.