Home » » biota in self-purification: link to full text; abstract of journal article, list of references that were cited in this article. Article: On the Multifunctional Role of the Biota in the Self-Purification of Aquatic Ecosystems; full text: https://www.researchgate.net/publication/227317445;

biota in self-purification: link to full text; abstract of journal article, list of references that were cited in this article. Article: On the Multifunctional Role of the Biota in the Self-Purification of Aquatic Ecosystems; full text: https://www.researchgate.net/publication/227317445;

Abstract of journal article, list of references that were cited in this article. Article title:
On the Multifunctional Role of the Biota in the Self-Purification of Aquatic Ecosystems;


**
full text:
https://www.researchgate.net/publication/227317445;
https://5bio5.blogspot.com/2017/11/biota-in-self-purification.html;




Volume 36, Issue 6pp. 414–420;  Cite as

On the Multifunctional Role of the Biota in the Self-Purification of Aquatic Ecosystems;


  • S. A. Ostroumov;
  1. 1.
Article;
Received: 28 November 2003



Abstract:

Principles of a new theory of the ecological mechanism of water self-purification based on multiple functions of the biota in freshwater and marine ecosystems are formulated. In developing this theory, the results of the author's experiments with filter-feeders (water-filtering aquatic organisms, hydrobionts) have been used. These results indicate that the water self-purification mechanism is vulnerable to the impact of some pollutants and, in particular, surfactants. Conclusions drawn on the basis of the theory have practical significance for biodiversity conservation and for the sustainable use of the biological resources of aquatic ecosystems.

Key words

aquatic ecosystems water quality water self-purification pollution theory 






Preview

REFERENCES

  1. Alimov, A.F., Functional Ecology of Freshwater Mussels, Tr. Zool. Inst. Akad. Nauk SSSR, Leningrad, 1981, vol. 96.Google Scholar
  2. Alimov, A.F., Elementy teorii funktsionirovaniya vodnykh ekosistem (Principles of the Theory of Aquatic Ecosystem Functioning), St. Petersburg: Nauka, 2000.Google Scholar
  3. Braginskii, L.P. and Sirenko, L.A., Comprehensive Analysis of Toxic Hazard Created by Surfactants to Hydrobionts, Gidrobiol. Zh., 2003, vol. 39, pp. 115–118.Google Scholar
  4. Dame, R., Bushek, D., and Prins, T., Benthic Suspension Feeders as Determinants of Ecosystem Structure and Function in Shallow Coastal Waters, Ecol. Stud., 2001, vol. 151, pp. 11–37.Google Scholar
  5. Day, K. and Kaushik, N., Short-Term Exposure of Zooplankton to the Synthetic Pyrethroid, Fenvalerate, and Its Effects on Rates of Filtration and Assimilation of the Alga Chlamydomonas reinhardiiArch. Environ. Contam. Toxicol., 1987, vol. 16, pp. 423–432.CrossRefPubMedGoogle Scholar
  6. Filenko, O.F., Vodnaya toksikologiya (Aquatic Toxicology), Chernogolovka: Mosk. Gos. Univ., 1988.Google Scholar
  7. Izrael', Yu.A. and Tsyban', A.V., Antropogennaya ekologiya okeana (Anthropogenic Ecology of the Ocean), Leningrad: Gidrometeoizdat, 1989.Google Scholar
  8. Khailov, K.M., Ekologicheskii metabolizm v more (Ecological Metabolism in the Sea), Kiev: Naukova Dumka, 1971.Google Scholar
  9. Krasnoshchekov, G.P. and Rozenberg, G.S., Principles of Complication of Mechanisms Providing for Ecosystem Stability, in Problemy ustoichivosti biologicheskikh sistem(Problems of Biological System Stability), Moscow, 1992, pp. 40–51.Google Scholar
  10. Lisitsyn, A.P., Matter and Energy Fluxes in the External and Internal Earth Spheres, in Global'nye izmeneniya prirodnoi sredy-2001 (Global Environmental Changes-2001), Dobretsov, N.L. and Kovalenko, V.I., Eds., Novosibirsk: Sib. Otd. Ross. Akad. Nauk, Fil. Geo, 2001, pp. 163–248.Google Scholar
  11. Matishov, D.G. and Matishov, G.G., Radiatsionnaya ekologicheskaya okeanologiya(Radiation-Ecological Oceanology), Apatity: Kol'sk. Nauch. Tsentr Ross. Akad. Nauk, 2001.Google Scholar
  12. Moiseenko, T.I., Methodology and Methods for Determining Critical Loads As Applied to Surface Waters of the Kola Subarctic Region), Izv. Akad. Nauk, Ser. Geogr., 1999, no. 6, pp. 68–78.Google Scholar
  13. Monakov, A.V., Pitanie presnovodnykh bespozvonochnykh (Feeding of Freshwater Invertebrates), Moscow: IPEE, 1998.Google Scholar
  14. Ostroumov, S.A., Vvedenie v biokhimicheskuyu ekologiyu (Introduction to Biochemical Ecology), Moscow: Mosk. Gos. Univ., 1986.Google Scholar
  15. Ostroumov, S.A., Biological Filtering and Ecological Machinery for Self-Purification and Bioremediation in Aquatic Ecosystems: Towards a Holistic View, Rivista di Biologia / Biology Forum, 1998, vol. 91, pp. 221–232.PubMedGoogle Scholar
  16. Ostroumov, S.A., Aquatic Ecosystem: A Large Diversified Bioreactor with a Function of Water Self-Purification, Dokl. Ross. Akad. Nauk, 2000a, vol. 374, no.3, pp. 427–429.Google Scholar
  17. Ostroumov, S.A., An Inhibitor Analysis of Regulatory Interactions in Trophic Chains, Dokl. Ross. Akad. Nauk, 2000b, vol. 375, no.6, pp. 847–849.Google Scholar
  18. Ostroumov, S.A., The Concept of the Aquatic Biota as a Labile and Vulnerable Component in the System of Water Self-Purification, Dokl. Ross. Akad. Nauk, 2000c, vol. 372, no.2, pp. 279–282.Google Scholar
  19. Ostroumov, S.A., Biologicheskie effekty pri vozdeistvii poverkhnostno-aktivnykh veshchestv na organizmy (Biological Effects of Surfactants), Moscow: MAKS-Press, 2001a.Google Scholar
  20. Ostroumov, S.A., Synecological Principles of Solving the Problem of Eutrophication, Dokl. Ross. Akad. Nauk, 2001b, vol. 381, no.5, pp. 709–712.Google Scholar
  21. Ostroumov, S.A., Risk of Two-Level Synergism upon Synecological Summation of Anthropogenic Effects, Dokl. Ross. Akad. Nauk, 2001c, vol. 380, no.6, pp. 847–849.Google Scholar
  22. Ostroumov, S.A., Inhibitory Analysis of Top-Down Control: New Keys to Studying Eutrophication, Algal Blooms, and Water Self-Purification, Hydrobiologia, 2002a, vol. 469, pp. 117–129.Google Scholar
  23. Ostroumov, S.A., Potentially Hazardous Substances with a New Type of Action: Disconnectors of the Pelagial-Benthal Interlink, Dokl. Ross. Akad. Nauk, 2002b, vol. 383, no.1, pp. 138–141.Google Scholar
  24. Ostroumov, S.A., On the Role of Hydrobionts in Regulating the Fluxes of Matter and Migration of Elements in Aquatic Ecosystems, Vestn. Ross. Akad. Est. Nauk, 2002c, vol. 2, no.3, pp. 50–54.Google Scholar
  25. Ostroumov, S.A., Conservation of Biodiversity and Water Quality: The Role of Feedback in Ecosystems, Dokl. Ross. Akad. Nauk, 2002d, vol. 382, no.1, pp. 138–141.Google Scholar
  26. Ostroumov, S.A., Polyfunctional Role of Biodiversity in Processes Leading to Water Purification: Current Conceptualizations and Concluding Remarks, Hydrobiologia, 2002e, vol. 469, pp. 203–204.Google Scholar
  27. Ostroumov, S.A., A System of Principles for Preserving the Biogeocenotic Function and Biodiversity of Filter Feeders, Dokl. Ross. Akad. Nauk, 2002f, vol. 383, no.5, pp. 710–713.Google Scholar
  28. Ostroumov, S.A., Concepts of Biochemical Ecology: Ecological Chemomediators, Ecological Chemoregulators, and Ecological Chemoeffectors, Ecol. Stud. Probl. Solutions, 2003, vol. 6, p. 105–107.Google Scholar
  29. Ostroumov, S.A., Some Aspects of Water Filtering Activity of Filter-Feeders, Hydrobiologia, 2005, vol. 542, pp. 275–286.CrossRefGoogle Scholar
  30. Ostroumov, S.A., Donkin, P., and Stuff, P., An Anionic Surfactant Inhibits the Ability of Mytilus edulis Mussel to Filter and Purify Sea Water, Vestn. Mosk. Gos. Univ., Ser. 16: Biol., 1997, no. 3, pp. 30–35.Google Scholar
  31. Ostroumov, S.A., Dodson, S., Hamilton, D., et al., Medium-Term and Long-Term Priorities in Ecological Studies, Rivista di Biologia / Biology Forum, 2003, vol. 96, pp. 327–332.PubMedGoogle Scholar
  32. Sadchikov, A.P., Production and Transformation of Organic Matter by Size Groups of Phyto-and Bacterioplankton (An Example of Water Bodies of the Moscow Region), Extended Abstract of Doctoral (Biol.) Dissertation, Moscow, 1997.Google Scholar
  33. Shul'man, G.E. and Finenko, G.A., Bioenergetika gidrobiontov (Bioenergetics of Hydrobionts), Kiev: Naukova Dumka, 1990.Google Scholar
  34. Shvarts, S.S., Pyastolova, O.A., Dobrinskaya, L.A., and Runkova, G.G., Effekt gruppy v populyatsiyakh vodnykh zhivotnykh i khimicheskaya ekologiya (The Group Effect in Aquatic Animal Populations and Chemical Ecology), Leningrad: Nauka, 1976.Google Scholar
  35. Skurlatov, Yu.I., Principles of Quality Control of Natural Waters, in Ekologicheskaya khimiya vodnoi sredy (Ecological Chemistry of the Aquatic Environment), Moscow, 1988, vol. 1, pp. 230–255.Google Scholar
  36. Sushchenya, L.M., Kolichestvennye zakonomernosti pitaniya rakoobraznykh(Quantitative Regularities of Crustacean Feeding), Minsk: Nauka i Tekhnika, 1975.Google Scholar
  37. Vernadsky, V.I., Nauchnaya mysl' kak planetnoe yavlenie (Scientific Thought as a Planetary Phenomenon), Moscow: Nauka, 1991.Google Scholar
  38. Vinogradov, M.E. and Shushkina, E.A., Funktsionirovanie planktonnykh soobshchestv epipelagiali okeana (The Functioning of Planktonic Communities in the Epipelagial Zone of the Ocean), Moscow: Nauka, 1987.Google Scholar
  39. Wetzel, R.G., Limnology: Lake and River Ecosystems, San Diego: Academic, 2001.Google Scholar
  40. Zavarzin, G.A. and Kolotilova, N.N., Vvedenie v prirodovedcheskuyu mikrobiologiyu(Introduction to Naturalist Microbiology), Moscow: Universitet, 2001.Google Scholar

Copyright information

© MAIK "Nauka/Interperiodica" 2005