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Method of ecological standardization of the impact on water bodies that cannot be standardized by bioassay: Case study of water bodies in Don basin

  • Water Quality and Protection: Environmental Aspects
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Abstract

The work is focused on studying the possibility to ecologically standardize the characteristics that are not concentrations of chemical substances, i.e., water abundance; water temperature; and pH, which does not belong to standardized characteristics. The initial data include the data of biological (water quality classes by characteristics of plankton, periphyton, and zoobenthos) and physicochemical monitoring in 1975–1991 in water bodies of the Lower Don, as well as data on fish catches and yield in the Lower Don. The values of ecologically tolerable levels are obtained for three factors, such that going above these levels causes the environmental ill-being of the appropriate biological indicator. Nonchemical impacts, represented by water abundance and temperature have almost no effect on the deterioration of ichthyological estimates of the state (the only exception is the correlation between water abundance and sabrefish catches). At the same time, planktonic and benthic estimates appear to be more sensitive indicators of water quality decline in all three factors under consideration. The pH exponent affects all ecological groupings of Don ecosystems. The strictest upper boundaries of ecologically tolerable levels of water abundance were recorded for the sabrefish catches. On the other hand, insufficient water abundance during spring and summer deteriorates the state of planktonic and benthic organisms.

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References

  1. Abakumov, V.A., Ecological Modifications and Development of Biocenoses, in Ekologicheskie modifikatsii i kriterii ekologicheskogo normirovaniya. Tr. mezhdunar. simpoz (Ecological Modifications and Criteria of Ecological Standardization, Proc. Intern. Symp.), Leningrad: Gidrometeoizdat, 1991, pp. 18–40.

    Google Scholar 

  2. Abakumov, V.A. and Sushchenya, L.M., Hydrobiological Monitoring of Freshwater Ecosystems and Ways to Its Improvement, in Ekologicheskie modifikatsii i kriterii ekologicheskogo normirovaniya. Tr. mezhdunar. simpoz (Ecological Modifications and Criteria of Ecological Standardization, Proc. Intern. Symp.), Leningrad: Gidrometeoizdat, 1991, pp. 41–51.

    Google Scholar 

  3. Bulgakov, N.G., Ecologically Tolerable Levels of Abiotic Factors in Water Bodies in Russia and Neighboring Countries: Dependence on the Geographic and Climatic Conditions, Vodn. Resur., 2004, vol. 31, no. 2, pp. 193–198 [Water Resour. (Engl. Transl.), vol. 31, no. 2, pp. 174–179].

    Google Scholar 

  4. Bulgakov, N.G., Abakumov, V.A., Maksimov, V.N., et al., Methodological Issues of Applying Rank Distributions of Phytoplankton Abundance to Analyze Mass Data of Freshwater Ecological Monitoring. Approximate Calculations, Izv. Akad. Nauk, Ser. Biol., 2005, no. 5, pp. 1–7.

  5. Bulgakov, N.G., Dubinina, V.G., Levich, A.P., and Terekhin, A.T., Method to Search for Conjunction between Hydrobiological Characteristics and Abiotic Environmental Factors Exemplified by Catches and Yields of Commercial Fish, Izv. Akad. Nauk, Ser. Biol., 1995, no. 2, pp. 218–225.

  6. Bulgakov, N.G., Levich, A.P., and Maksimov, V.N., Prediction of the State of Ecosystems and Standardization of Environmental Factors in Lower Don Water Bodies, Izv. Akad. Nauk, Ser. Biol., 1997, no. 3, pp. 374–379.

  7. Volovik, S.P., Kozlitina, S.V., and Rekov, Yu.I., Mathematical Approaches to Unifying the System of Yield and Biological Data on Azov Sturgeon and Starred Sturgeon, in Informatsionnoe i matematicheskoe obespechenie issledovanii syr’evoi bazy (Information and Mathematical Basis of Raw Material Base Studies), Moscow: VNIRO, 1991, p. 114.

    Google Scholar 

  8. Woodiwiss, F., Biotic Index of the Trent River. Macroinvertebrates and Biological Studies, Nauchnye osnovy kontrolya kachestva poverkhnostnykh vod po gidrobiologicheskim pokazatelyam. Tr. Sovetsko-angliiskogo seminara (Scientific Principles of Surface Water Quality Control by Hydrobiological Indices. Proc. USSR-British Workshop), Leningrad: Gidrometeoizdat, 1977, pp. 132–161.

    Google Scholar 

  9. Zaburdaeva, E.A., Abakumov, V.A., Maksimov, V.N., et al., Methodical Issues of Applying Rank Distributions of Phytoplankton Abundance to the Analysis of Mass Data of Environmental Freshwater Monitoring, Izv. Samarskogo NTs RAN, 2005, no. 4, pp. 84–91.

  10. Kartasheva, N.V. and Levich, A.P., Effect of Metal Pollution on the Uniformity of Zooplankton Species Distribution, in Chelovek i biosfera (Man and Biosphere), Moscow: Mosk. Gos. Univ., 1981, pp. 151–155.

    Google Scholar 

  11. Levich, A.P., Biotic Concept of Environmental Control, Dokl. Akad. Nauk, 1994, vol. 337, no. 2, pp. 280–282 [Dokl. (Engl. Transl.), vol. 337, no. 2].

    Google Scholar 

  12. Levich, A.P., Struktura ekologicheskikh soobshchestv (The Structure of Ecological COmmunities), Moscow: Mosk. Gos. Univ., 1980.

    Google Scholar 

  13. Levich, A.P., Phenomenology, Application, and Origin of Rank Distributions in Biocenoses and Ecology as a Source of Ideas for Technocenoses and Economics, Matematicheskoe Opisanie Tsenozov i Zakonomernosti Tekhnetiki (Mathematical Description of Cenoses and Regularities in Engineering Studies), Abakan: Tsentr Sistemnykh Issledovanii, 1996, pp. 93–105.

    Google Scholar 

  14. Levich, A.P. and Terekhin, A.T., Method to Calculate Ecologically Admissible Levels of Impact on Freshwater Ecosystems, Vodn. Resur., 1997, vol. 24, no. 3, pp. 328–335 [Water Resour. (Engl. Transl.), vol. 24, no. 3, pp. 302–309].

    Google Scholar 

  15. Levich, A.P., Terekhin, A.T., Bulgakov, N.G., et al., Ecological Control of Water Bodies in the Lower Don by Biotic Identificators of Plankton, Periphyton, and Zoobenthos, Vestn. Mosk. Univ., Ser. 16, Biology, 1996, no. 3, pp. 18–25.

  16. Maksimov, V.N., On Rank Distributions in Community Ecology from the Statistical Viewpoint, Izv. Akad. Nauk, Ser. Biol., 2004, no. 3, pp. 352–361.

  17. Maksimov, V.N., Abakumov, V.A., Bulgakov, N.G., et al., Ecologically Tolerable Levels of Abiotic Factors: The Study of Water Object of Eastern Europe, Vestn. Mosk. Univ., Ser. 16, Biology, 2001, no. 4, pp. 36–41.

  18. Maksimov, V.N., Abakumov, V.A., Bulgakov, N.G., et al., Communities Ecologically Tolerable Levels of Abiotic Factors: The Study of Freshwater Objects of Asain Part of Russia and Uzbekistan, Izv. RAN, Ser. Biol., 2002, no. 5, pp. 614–624.

  19. Maksimov, V.N., Bulgakov, N.G., and Dzhabrueva, L.V., Rank Distributions of Size-Morphologic Microalga Groups in Periphyton and Their Relationship with Water Body Pollution Level, Izv. Akad. Nauk, Ser. Biol., 1997, no. 6, pp. 697–704.

  20. Maksimov, V.N., Bulgakov, N.G., Milovanova, G.F., and Levich, A.P., Determination Analysis in Ecosystems: Conjunctions for Biotic and Abiotic Components, Izv. Akad. Nauk, Ser. Biol., 2000, no. 4, pp. 482–491.

  21. Maksimov, V.N., Dzhabrueva, L.V., Bulgakov, N.G., and Terekhin, A.T., A Conception of Revealing the Stress Situation of Water Ecosystems by the Rank Distribution Method and Ecologically Permissible Levels of Pollutants for Water Bodies of the Elista River, Vodn. Resur., 1997, vol. 24, no. 1, pp. 79–85 [Water Resour. (Engl. Transl.), vol. 24, no. 1, pp. 73–79].

    Google Scholar 

  22. Popchenko, V.I., Ecological Modifications of Zoobenthos Communities under Aquatic Ecosystem Pollution, in Ekologicheskie modifikatsii i kriterii ekologicheskogo normirovaniya (Ecological Modifications and Criteria of Ecological Standardization), Leningrad: Gidrometeoizdat, 1991, pp. 144–151.

    Google Scholar 

  23. Popchenko, V.I., Ecological Modifications of Macrozoobenthos Community as Pollution Indicators of Aquatic Ecosystems, in Bioindikatsiya: teoriya, metody, prilozheniya (Bioindication: Theory, Methods, Applications), Tolyatti, 1994, pp. 38–52.

  24. Sirenko, L.A., Rapid Methods for Studying Ecological Modifications of Phytocenoses, in Ekologicheskie modifikatsii i kriterii ekologicheskogo normirovaniya (Ecological Modifications and Criteria of Ecological Standardization), Leningrad: Gidrometeoizdat, 1991, pp. 151–163.

    Google Scholar 

  25. Sirotkina, N.V. and Levich, A.P., Effect of Heavy Metals on the Species and Supraspecific Structures of Phytoplankton Community in the Rybinsk Reservoir, in Chelovek i biosfera (Man and Biosphere), Moscow: Mosk. Gos. Univ., 1981, pp. 142–150.

    Google Scholar 

  26. Ulovy ryb v vodokhranilishchakh SSSR (statisticheskie sborniki) (Fish Catches in USSR Reservoirs (Statistical Reference Books)), Moscow, 1975–1990.

  27. Fedorov, V.D., Kondrik, E.K., and Levich, A.P., Rank Distribution of Phytoplankton Abundance in the White Sea, Dokl. Akad. Nauk SSSR, 1977, vol. 236, no. 1, pp. 264–267.

    Google Scholar 

  28. Fundamental’nye problemy otsenki sostoyaniya ekosistem i ekologicheskogo normirovaniya (Basic Problems of Assessing the State of Ecosystems and Ecological Standardization), http://ecograde.belozersky.msu.ru

  29. Goodnight, C.J. and Whitley, L.S., Oligochaetes As Indicators of Pollution, Proc. 15th Indust. Waste Conf. Purdue Univ. Eng. Ext., 1961, Ser. 106, no. 45, pp. 139–142.

  30. Pantle, R. and Buck, H., Die Biologische Uberwachung Der Gewasser Und Darstellung Der Ergebnisse, Gasund Wasserwach, 1955, vol. 96, no. 8, pp. 1–604.

    Google Scholar 

  31. Sladecek, V., System of Water Quality from the Biological Point of View, Arch. Hydrobiol. Ergeb. Limnol., 1973, no. 7, p. 218.

  32. Woodiwiss, F.S., The Biological System of Stream Classification Used by the Trent River Board, Chem. and Ind., 1964, no. 11, pp. 433–447.

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Authors and Affiliations

  1. Moscow State University, Leninskie Gory, GSP-1, Moscow, 119991, Russia

    V. N. Maksimov, A. V. Solov’ev, A. P. Levich, N. G. Bulgakov & A. T. Terekhin

  2. Institute of Global Climate and Ecology, Glebovskaya ul. 206, Moscow, 107258, Russia

    V. A. Abakumov

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  1. V. N. Maksimov
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  2. A. V. Solov’ev
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  3. A. P. Levich
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  4. N. G. Bulgakov
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  5. V. A. Abakumov
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  6. A. T. Terekhin
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Original Russian Text © V.N. Maksimov, A.V. Solov’ev, A.P. Levich, N.G. Bulgakov, V.A. Abakumov, A.T. Terekhin, 2009, published in Vodnye Resursy, 2009, Vol. 36, No. 3, pp. 335–340.

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Maksimov, V.N., Solov’ev, A.V., Levich, A.P. et al. Method of ecological standardization of the impact on water bodies that cannot be standardized by bioassay: Case study of water bodies in Don basin. Water Resour 36, 319–324 (2009). https://doi.org/10.1134/S0097807809030075

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