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Опубликовано 2002-02-00 Опубликовано на SciPeople2010-01-06 12:47:36 ЖурналHydrobiologia


Ostroumov S.A. Polyfunctional role of biodiversity in processes leading to water purification: current conceptualizations and concluding remarks. - Hydrobiologia, 2002 (February), 469: 203-204.
Ostroumov S.A. Polyfunctional role of biodiversity in processes leading to water purification: current conceptualizations and concluding remarks. - Hydrobiologia, 2002, 469: 203-204.
Аннотация Ostroumov S.A. Polyfunctional role of biodiversity in processes leading to water purification: current conceptualizations and concluding remarks. - Hydrobiologia, 2002 (February), 469: 203-204. DOI 10.1007/s10750-004-1875-1; http://www.springerlink.com/content/hcrfvmdncdm8e3pf/ Key words: water quality, water purification, self-purification, biodiversity, pollutants, ecosystem services, freshwater, marine, aquatic ecosystems, sustainability, xenobiotics, sustainable use of aquatic resources, aquatic biota, functioning of ecosystems, environmental safety Sustainable use of aquatic resources is based on the ability of aquatic ecosystems to maintain a certain level of water quality. Water self-purification in both freshwater and marine ecosystems is based on a number of interconnected processes (e.g., Wetzel, 1983; Spellman, 1996; Ostroumov 1998, 2000). Among them are: (1) physical and physico-chemical processes, including: (1.1) solution and dilution of pollutants; (1.2) export of pollutants to the adjacent land areas; (1.3) export of pollutants to the adjacent water bodies; (1.4) sorption of pollutants onto suspended particles and further sedimentation of the latter; (1.5) sorption of pollutants by sediments; (1.6) evaporation of pollutants; (2) chemical processes, including: (2.1) hydrolysis of pollutants; (2.2) photochemical transformations; (2.3) redox-catalytic transformations; (2.4) transformations including free radicals; (2.5) binding of pollutants by dissolved organic matter, which may lead to decreasing toxicity; (2.6) chemical oxidation of pollutants by oxygen; (3) biological processes, including: (3.1) sorption, uptake and accumulation of pollutants by organisms; (3.2) biotransformations (redox reactions, degradation, conjugation), mineralization of organic matter; (3.3) transformation of pollutants by extracellular enzymes; (3.4) removal of suspended matter and pollutants from the water column in the process of water filtering by filter-feeders; (3.5) removal of pollutants from the water in the process of sorption by pellets excreted by aquatic organisms; (3.6) uptake of nutrients (including P, N, and organic molecules) by organisms; (3.7) biotransformation and sorption of pollutants in soil (and removal of nutrients), important when polluted waters are in contact with terrestrial ecosystems; (3.8) a network of regulatory processes when certain organisms control or influence other organisms involved in water purification. Living organisms are involved in physical, physico-chemical and chemical processes 1.1-1.6 and 2.1-2.6 directly or through excretion of oxygen or organic metabolites, production of suspended matter, affecting turbidity, temperature of water or other parameters of the ecosystem. As a result, living organisms are the core component of the multitude of processes of the ecological machinery working towards improving water quality. This component performs eight vital functions directly (3.1-3.8) and is involved indirectly in some of the other twelve functions (1.1-1.6 and 2.1-2.6) so that its role is clearly polyfunctional. Living organisms of aquatic bodies (both autotrophs and heterotrophs) are enormously diverse in terms of taxonomy. Among them, autotrophs generate oxygen that is involved in the processes 2.6 and 2.4 above. Heterotrophs perform processes 3.1, 3.2, 3.4, 3.5 and some others. Virtually all biodiversity is involved. Given this polyfunctional role of aquatic organisms, in one of our publications we compared aquatic ecosystems to 'large-scale diversified bioreactors with a function of water purification' (Ostroumov, 2000). What is interesting about the biomachinery of water purification is the fact that it is an energy-saving device. It is using the energy of the sun (autotrophs) and the energy of organic matter which is being oxidized in the process of being removed from water by heterotrophs. Some interesting examples of how various organisms are incorporated in that polyfunctional activity were given by authors of the preceding papers in this volume. The importance of aquatic organisms in performing key functions in the hydrosphere provides an additional convincing rationale for protecting biodiversity. The efficiency of the entire complex of those processes leading to water purification in ecosystems is a prerequisite for the sustainable use of aquatic resources. Man-made effects on any of those processes (we have shown effects of surfactants on water filtration by bivalves; some of the experiments were carried out together with Dr. P. Donkin) may impair the efficiency of water self-purification (Ostroumov, 1998; Ostroumov et al., 1998; Ostroumov & Fedorov, 1999; Ostroumov 2001a, 2001b). We postulate and predict that further studies will provide new striking examples of how important biodiversity is in performing many vital ecological processes leading to upgrading water quality. By doing so, the multifunctional participation of biodiversity supports the sustainable use of water as one of key resources for mankind. The body of new data and ideas presented in this volume will hopefully serve towards following interconnected and partially overlapping goals: prioritization of efforts on research and management in the area of aquatic resources and aquatic environment; biodiversity studies and protection; sustainable use of aquatic bioresources; advancement of aquaculture and mariculture; decreasing costs and increasing efficiencies in wastewater treatment using ecosystems; combatting eutrophication; understanding the role of biota in biogeochemical flows of chemical elements and in buffering global change. The statements and conclusions that were made in this paper were supported in a series of other publications of the author, including the book (Biological Effects of Surfactants. CRC Press. Taylor & Francis. Boca Raton, London, New York. 2006. 279 p. ISBN 0-8493-2526-9) and a string of articles. Among them: On the biotic self-purification of aquatic ecosystems: elements of the theory. - Doklady Biological Sciences, 2004, Vol. 396, Numbers 1-6, p. 206-211. (https://www.researchgate.net/file.FileLoader.html?key=60f338228d6f3c5114d223ab81e15d3b), Contemporary Problems of Ecology, 2008, Vol. 1, No. 1, p. 147-152 (DOI 10.1134/S1995425508010177) and others. The paper was cited by a number of international experts, e. g. in the following papers: Hydrobiologia, 2006, 556: 365-379, DOI 10.1007/s10750-004-0189-7; Journal of Applied Phycology, 2005, 17: 557-567, DOI 10.1007/s10811-005-9006-6; Mediterranean Marine Science, 2007, Volume 8 (2), 19-32; Aquatic Ecosystem Health & Management, 2009, Volume 12, Number 2, pp. 215-225, DOI: 10.1080/14634980902908589; Desalination, 2010, Vol. 250, Issue 1, Pages 118-129, DOI:10.1016/j.desal.2008.12.062. References: Ostroumov, S.A., 1998. Biological filtering and ecological machinery for self-purification and bioremediation in aquatic ecosystems: towards a holistic view. Rivista di Biologia / Biology Forum. 91: 247-258. Ostroumov, S.A., 2000. Aquatic ecosystem: a large-scale, diversified bioreactor with the function of water self-purification (Vodnaja ekosistema: krupnorazmernyj diversifitzirovannyj bioreaktor s funktzijej samoochishchenija vody). Doklady Biological Sciences 374: 514-516 (the Russian edition: Dokl. Akad. Nauk 374: 427-429). http://www.ncbi.nlm.nih.gov/pubmed/11103331; http://sites.google.com/site/2000dbs374p514bioreactor/ Ostroumov, S.A., 2001a. Amphiphilic chemical inhibits the ability of molluscs to filter water and to remove the cells of phytoplankton (Amfifil'noe veshchestvo podavljaet sposobnost' molluskov filtrovat' vodu i udalat' iz nee kletki fitoplanktona). Izvestia RAN. Ser. Biology. 1: 108-116. Translated into English: An amphiphilic substance inhibits the mollusk capacity to filter out phytoplankton cells from water. - Biology Bulletin, 2001, Vol. 28, No. 1, p. 95-102. DOI 10.1023/A:1026671024000. PMID: 11236572 [PubMed - indexed for MEDLINE]. Ostroumov, S.A., 2001b. Effects of amphiphilic chemicals on marine organisms filter-feeders (Vozdeistvie amfifil'nykh veshchestv na morskikh gidrobiontov-filtratorov). Dokl. Akad. Nauk . Vol. 378. No. 2: 283-285. Translated into English: Effect of amphiphilic chemicals on filter-feeding marine organisms. - Doklady Biological Sciences. 2001. 378: 248-250. http://sites.google.com/site/2001dbs378p248effammaroyst/; DOI 10.1023/A:1019270825775. Ostroumov, S.A., P. Donkin & F. Staff, 1998. Filtration inhibition induced by two classes of synthetic surfactants in the bivalve mollusc (Narushenije filtratzii dvustvorchatymi molluskami pod vozdejstvijem poverkhnostno-aktivnykh veshchestv dvukh klassov). Dokl. Akad. Nauk 362: 574-576. Translated into English: Filtration inhibition induced by two classes of synthetic surfactants in the bivalve mollusk Mytilus edulis // Doklady Biological Sciences, 1998. Vol. 362, P. 454-456. Ostroumov, S.A. & V.D. Fedorov, 1999. The main components of self-purification of ecosystems and its possible impairment as a result of chemical pollution (Osnovnyje komponenty samoochishchenija ekosistem i vozmozhnost' ego narushenija v rezultate khimicheskogo zagrjaznenija). Bulletin of Moscow University. Ser. 16. Biology (Vestnik Moskovskogo Universiteta. Ser. 16. Biologija) 1: 24-32. Spellman, F.R., 1996. Stream Ecology and Self-purification. Technomic Publishing Co., Lancaster, Basel. 133 pp. Wetzel, R. G., 1983. Limnology. Saunders College Publishing, Fort Worth. 858 pp. ADDENDUM (added when the paper was put at the web site). The main conclusions of the paper were supported in a series of publications. The following publications are among them. 1. Ostroumov S. A. Biological Effects of Surfactants. CRC Press. Taylor & Francis. Boca Raton, London, New York. 2006. 279 p. ISBN 0-8493-2526-9. 2. Ostroumov S. A. The concept of aquatic biota as a labile and vulnerable component of the water self-purification system - Doklady Biological Sciences, Vol. 372, 2000, pp. 286–289. http://sites.google.com/site/2000dbs372p286biotalabil/; 3. Ostroumov S. A., Kolesnikov M. P. Biocatalysis of Matter Transfer in a Microcosm Is Inhibited by a Contaminant: Effects of a Surfactant on Limnea stagnalis. - Doklady Biological Sciences, 2000, 373: 397–399. Translated from Doklady Akademii Nauk, 2000, Vol. 373, No. 2, pp. 278–280. http://sites.google.com/site/2000dbs373p397biocatallstag/ 4. Ostroumov S. A. An aquatic ecosystem: a large-scale diversified bioreactor with a water self-purification function. - Doklady Biological Sciences, 2000. Vol. 374, P. 514-516. http://sites.google.com/site/2000dbs374p514bioreactor/ 5. Ostroumov SA. Criteria of ecological hazards due to anthropogenic effects on the biota: searching for a system. - Dokl Biol Sci (Doklady Biological Sciences). 2000; 371:204-206. http://sites.google.com/site/2000dbs371p204criteria/ 6. Ostroumov S. A. An amphiphilic substance inhibits the mollusk capacity to filter out phytoplankton cells from water. - Biology Bulletin, 2001, Volume 28, Number 1, p. 95-102. ISSN 1062-3590 (Print) 1608-3059 (Online); DOI 10.1023/A:1026671024000; http://www.springerlink.com/content/l665628020163255/; 7. Ostroumov S. A. Inhibitory Analysis of Regulatory Interactions in Trophic Webs. -Doklady Biological Sciences, 2001, Vol. 377, pp. 139–141. Translated from Doklady Akademii Nauk, 2000, Vol. 375, No. 6, pp. 847–849. http://sites.google.com/site/2001dbs377p139inhibitory/; 8. Ostroumov SA. The synecological approach to the problem of eutrophication. - Dokl Biol Sci. (Doklady Biological Sciences). 2001; 381:559-562. http://scipeople.com/uploads/materials/4389/Danbio6_2001v381n5.E.eutrophication.pdf 9. Ostroumov SA. The hazard of a two-level synergism of synecological summation of anthropogenic effects. - Dokl Biol Sci. (Doklady Biological Sciences). 2001; 380:499-501. http://sites.google.com/site/2001dbs380p499synerg/ 10. Ostroumov SA. Responses of Unio tumidus to mixed chemical preparations and the hazard of synecological summation of anthropogenic effects. - Dokl Biol Sci (Doklady Biological Sciences). 2001; 380: 492-495. http://sites.google.com/site/2001dbs380p492unio/ 11. Ostroumov SA, Kolesnikov MP. Pellets of some mollusks in the biogeochemical flows of C, N, P, Si, and Al. - Dokl Biol Sci (Doklady Biological Sciences). 2001; 379:378-381. http://sites.google.com/site/2001dbs379p378pellets/ 12. Ostroumov SA. Imbalance of factors providing control of unicellular plankton populations exposed to anthropogenic impact. - Dokl Biol Sci (Doklady Biological Sciences). 2001; 379:341-343. http://sites.google.com/site/1dbs379p341imbalance/; 13. Ostroumov SA. Effect of amphiphilic chemicals on filter-feeding marine organisms.- Dokl Biol Sci (Doklady Biological Sciences). 2001; 378:248-250. http://sites.google.com/site/2001dbs378p248effammaroyst/ 14. Ostroumov SA. Biodiversity protection and quality of water: the role of feedbacks in ecosystems. - Dokl Biol Sci (Doklady Biological Sciences). 2002; 382:18-21; http://sites.google.com/site/2dbs382p18biodivers/; http://www.citeulike.org/pdf/user/ATP/article/6113559/ostroumov_02_biodiversity.pdf; 15. Ostroumov SA. A new type of effect of potentially hazardous substances: uncouplers of pelagial-benthal coupling. - Dokl Biol Sci (Doklady Biological Sciences). 2002; 383:127-130. https://www.researchgate.net/file.FileLoader.html?key=d988acb599e121964c48114374a87e8d; www.springerlink.com/index/28V23JBFADL1Y100.pdf; 16. Ostroumov S. A. Identification of a New Type of Ecological Hazard of Chemicals: Inhibition of Processes of Ecological Remediation. - Doklady Biological Sciences, Vol. 385, 2002 (November), pp. 377–379. [Translated from Doklady Akademii Nauk, Vol. 385, No. 4, 2002, pp. 571–573]. https://www.researchgate.net/file.FileLoader.html?key=8408a7cfaa984764b812ce79c77007f2; 17. Ostroumov SA. System of principles for conservation of the biogeocenotic function and the biodiversity of filter-feeders. - Dokl Biol Sci (Doklady Biological Sciences). 2002; 383:147-150. https://www.researchgate.net/file.FileLoader.html?key=888352078b275ef40a430eb5b4d7714c; 18. Ostroumov S. A., Walz N., Rusche R. Effect of a cationic amphiphilic compound on rotifers. - Doklady Biological Sciences. 2003 (May). Vol. 390. 252-255, [ISSN 0012-4966 (Print) 1608-3105 (Online)]. https://www.researchgate.net/file.FileLoader.html?key=def6575c794b111fcc31275e853c2b15; 19. Ostroumov S.A. Anthropogenic effects on the biota: towards a new system of principles and criteria for analysis of ecological hazards. - Rivista di Biologia/Biology Forum. 2003. 96: 159-170. PMID: 12852181 [PubMed - indexed for MEDLINE] http://sites.google.com/site/ostroumovsergei/publications-1/rivista2003criteria; http://scipeople.com/uploads/materials/4389/3RB96p159Anth..Criteria.doc; www.ncbi.nlm.nih.gov/pubmed/12852181; 20. Ostroumov S. A. On the biotic self-purification of aquatic ecosystems: elements of the theory. - Doklady Biological Sciences, 2004, Vol. 396, Numbers 1-6, p. 206-211. https://www.researchgate.net/file.FileLoader.html?key=60f338228d6f3c5114d223ab81e15d3b; 21. Ostroumov S. A., Widdows J. Inhibition of mussel suspension feeding by surfactants of three classes. // Hydrobiologia. 2006. Vol. 556, No. 1. Pages: 381 – 386. DOI 10.1007/s10750-005-1200-7; http://sites.google.com/site/ostroumovsergei/publications-1/hydrobiologia2006ostwidd; http://sites.google.com/site/3surfactantsfiltrationmytilus/; http://scipeople.ru/uploads/materials/4389/_Hydrobiologia2006%20vol%20556%20No.1%20pages381-386.pdf; http://www.springerlink.com/content/7166067538534421/ 22. Ostroumov S. A. Biotic self-purification of aquatic ecosystems: from the theory to ecotechnologies. - Ecologica, 2007. vol. 15 (50), p.15-23. (ISSN 0354-3285). [http://scindeks.nb.rs/article.aspx?artid=0354-32850750015O]. 23. Ostroumov S.A., Shestakova T.V. Decreasing the measurable concentrations of Cu, Zn, Cd, and Pb in the water of the experimental systems containing Ceratophyllum demersum: The phytoremediation potential // Doklady Biological Sciences 2009, Vol. 428, No. 1, p. 444-447. http://sites.google.com/site/9dbs444/; https://www.researchgate.net/file.FileLoader.html?key=8fd8998627b86102db72c9b237c25054; 24. Ostroumov S.A. Towards the general theory of ecosystem-depended control of water quality. - Ecologica, 2009, vol. 16, No. 54, p. 25-32. http://sites.google.com/site/9enecologica16p25theory/ 25. Ostroumov S. A. Basics of the molecular-ecological mechanism of water quality formation and water self-purification.- Contemporary Problems of Ecology, 2008, Vol. 1, No. 1, p. 147-152. ISSN 1995-4255 (Print) 1995-4263 (Online); DOI 10.1134/S1995425508010177; The paper was cited and its conclusions were supported in the publications below: Цитировали paper [Polyfunctional role of biodiversity in processes leading to water purification: current conceptualizations and concluding remarks. - Hydrobiologia (Springer Netherlands),ISSN 0018-8158 (Print) 1573-5117 (Online), Volume 469, Numbers 1-3 / 2002 (February); p. 203-204; DOI 10.1023/A:1015555022737] /Cited by: Water Quality of Effluent-dominated Ecosystems: Ecotoxicological, Hydrological, and Management Considerations. - Hydrobiologia (Springer Netherlands) ISSN 0018-8158 (Print) 1573-5117 (Online); Volume 556, Number 1, 2006 (February); p. 365-379; DOI 10.1007/s10750-004-0189-7; Bryan W. Brooks1 , Timothy M. Riley2 and Ritchie D. Taylor3 (1) Department of Environmental Studies, Center for Reservoir and Aquatic Systems Research, Baylor University, One Bear Place # 97266, Waco, Texas 76798, USA (2) Barton Springs / Edwards Aquifer Conservation District, 1124 Regal Row, Austin, Texas 78748, USA (3) Department of Public Health, Centre for Water Resource Studies, Western Kentucky University, 1 Big Red Way, EST 437, Bowling Green, Kentucky 42101, USA - - - - ---------------------------- Integrated outdoor culture of two estuarine macroalgae as biofilters for dissolved … I. Hernandez, M.A. Fernández-Engo, J.L. Pérez- … - Journal of Applied …, 2005 - Springer Ignacio Hernández ∗ , M. Angeles Fernández-Engo, J. Lucas Pérez-Lloréns & Juan J. Vergara Area de Ecologıa, Universidad de Cádiz, Facultad de Ciencias del Mar y Ambientales, 11510 Puerto Real, Cádiz, Spain ∗ Author for correspondence: e-mail: ignacio.hernandez@uca.es - - - -------------------- Medit. Mar. Sci., 8/2, 2007, 19-32 Mediterranean Marine Science Volume 8/2, 2007, 19-32 Identification of the self-purification stretches of the Pinios River, Central Greece Y. CHATZINIKOLAOU 1, 2 and M. LAZARIDOU1 1Department of Zoology, School of Biology, Faculty of Sciences, Aristotle University of Thessaloniki, Greece 2Institute of Inland Waters, Hellenic Centre for Marine Research, 46.7 km Athinon - Souniou Av., 190 13, P.O. Box 712, Anavissos, Hellas - - - ---------------------------------------- Assessment of ecosystem health of tropical shallow waterbodies in eastern India using turbulence model Authors: N. R. Samal a; A. Mazumdar b; K. D. Joumlhnk c;F. Peeters d Affiliations: a Dept. of Civil Engineering, National Institute of Technology Durgapur, Durgapur, West Bengal, India; b School of Water Resources Engineering, Jadavpur University, Kolkata, West Bengal, India; c Leibniz-Institute of Freshwater Ecology and Inland Fisheries, Neuglobsow, Germany d Limnologisches Institut, University of Konstanz, Konstanz, Germany DOI: 10.1080/14634980902908589; Published in: Journal Aquatic Ecosystem Health & Management, Volume 12, Issue 2 April 2009 , pages 215 – 225; - - - ------- Intra-basin spatial approach on pollution load estimation in a large Mediterranean … Y. Chatzinikolaou, A. Ioannou, M. Lazaridou - Desalination, 2010; ---------

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The paper 'Polyfunctional role of biodiversity...' [http://scipeople.com/publication/67658/] was cited and supported / Статью цитировали и ее выводы поддержали в ряде публикаций Остроумов (ostroumov) Сергей (sergei)
The paper — Polyfunctional role of biodiversity in processes leading to water purification: current conceptualizations and concluding remarks. — Hydrobiologia, [ISSN 0018-8158 (Print) 1573-5117 (Online)], Volume 469, Numbers 1-3 / 2002; p. 203-204; DOI 10.1023/A:1015555022737; scipeople.com/publication/67658/]
— was cited by (examples):

Water Quality of Effluent-dominated Ecosystems: Ecotoxicological, Hydrological, and Management Considerations. — Hydrobiologia (Springer Netherlands)
ISSN 0018-8158 (Print) 1573-5117 (Online);
Volume 556, Number 1, 2006 (February); p. 365-379;
DOI 10.1007/s10750-004-0189-7;
Bryan W. Brooks1, Timothy M. Riley2 and Ritchie D. Taylor3
(1) Department of Environmental Studies, Center for Reservoir and Aquatic Systems Research, Baylor University, One Bear Place # 97266, Waco, Texas 76798, USA
(2) Barton Springs / Edwards Aquifer Conservation District, 1124 Regal Row, Austin, Texas 78748, USA
(3) Department of Public Health, Centre for Water Resource Studies, Western Kentucky University, 1 Big Red Way, EST 437, Bowling Green, Kentucky 42101, USA
— — — — — Integrated outdoor culture of two estuarine macroalgae as biofilters for dissolved …

I. Hernandez, M.A. Fernández-Engo, J.L. Pérez- … — Journal of Applied …, 2005 — Springer
Ignacio Hernández ∗, M. Angeles Fernández-Engo, J. Lucas Pérez-Lloréns & Juan J. Vergara
Area de Ecologıa, Universidad de Cádiz, Facultad de Ciencias del Mar y Ambientales, 11510
Puerto Real, Cádiz, Spain ∗ Author for correspondence: e-mail: ignacio.hernandez@uca.es
— — — — Medit. Mar. Sci., 8/2, 2007, 19-32
Mediterranean Marine Science
Volume 8/2, 2007, 19-32
Identification of the self-purification stretches of the Pinios River, Central Greece
Y. CHATZINIKOLAOU 1, 2 and M. LAZARIDOU1
1Department of Zoology, School of Biology, Faculty of Sciences,
Aristotle University of Thessaloniki, Greece
2Institute of Inland Waters, Hellenic Centre for Marine Research,
46.7 km Athinon — Souniou Av., 190 13, P.O. Box 712, Anavissos, Hellas
— — — — Assessment of ecosystem health of tropical shallow waterbodies in eastern India using turbulence model
Authors: N. R. Samal a; A. Mazumdar b; K. D. Joumlhnk c;F. Peeters d
Affiliations: a Dept. of Civil Engineering, National Institute of Technology Durgapur, Durgapur, West Bengal, India;
b School of Water Resources Engineering, Jadavpur University, Kolkata, West Bengal, India;
c Leibniz-Institute of Freshwater Ecology and Inland Fisheries, Neuglobsow, Germany
d Limnologisches Institut, University of Konstanz, Konstanz, Germany
DOI: 10.1080/14634980902908589;
Published in: Journal Aquatic Ecosystem Health & Management, Volume 12, Issue 2 April 2009, pages 215 – 225;
— — — — Intra-basin spatial approach on pollution load estimation in a large Mediterranean …

Y. Chatzinikolaou, A. Ioannou, M. Lazaridou — Desalination, 2010;
---------
2010-04-11 18:25:16 · Ответить · Ссылка
Разработки этого автора по тематике качества и самоочищения воды поддержаны, например, в следующих работах: Остроумов (ostroumov) Сергей (sergei)
Разработки этого автора по тематике качества и самоочищения воды поддержаны, например, в следующих работах:
Chatzinikolaou Y., Lazaridou M. Identification of the self-purification stretches of the Pinios River, Central Greece. — Mediterranean Marine Science, 2007, Volume 8/2, p.19-32.
Brooks, B.W., Riley, T.M., Taylor, R.D. Water quality of effluent-dominated ecosystems: Ecotoxicological, hydrological, and management considerations. — Hydrobiologia, 2006, 556 (1), pp. 365-379.
Fisenko A. I. A new long-term on site clean-up approach applied to non-point sources of pollution // Water, Air, & Soil Pollution. 2004, Vol. 156, No. 1-4, p. 1-27.
Fauvet, G., Claret, C., Marmonier, P. Influence of benthic and interstitial processes on nutrient changes along a regulated reach of a large river (Rhône River, France). -Hydrobiologia 2001, 445, pp. 121-131.
Hernandez, I., Fernandez-Engo, M.A., Perez-Llorens, J.L., Vergara, J.J. Integrated outdoor culture of two estuarine macroalgae as biofilters for dissolved nutrients from Sparus aurata waste waters. – 2005, Journal of Applied Phycology, 17 (6), pp. 557-567.
Jiang, J.-G., Shen, Y.-F. Estimation of the natural purification rate of a eutrophic lake after pollutant removal, 2006, Ecological Engineering, 28 (2), pp. 166-173.
2010-05-03 10:52:53 · Ответить · Ссылка
Comment of the member of Academy of Sciences Acad. L.M.S. / Комментарий о работах этого цикла ---------- Остроумов (ostroumov) Сергей (sergei)
О цикле статей С. А. Остроумова «Водные экосистемы и организмы в условиях антропогенного воздействия» (Доклады РАН, 2000, т.371, №6, c. 844-846; ДАН, 2000, т. 372, № 2, c. 279-282; ДАН, 2001, т. 378, № 2, с. 283-285; Известия РАН. Серия биологическая, 2001. № 1. с. 108-116), …

В данном цикле работ С. А. Остроумов излагает свои новые экспериментальные результаты по изучению гидробионтов. Им получены новые сведения о фильтраторах. Их фильтрационная активность важна для водных экосистем. Автором выявлены новые эффекты, производимые загрязняющими веществами (поверхностно-активными веществами) при воздействии на гидробионты. Исследованы и проанализированы важные процессы, ведущие к самоочищению воды в водных экосистемах. …

Академик Л.М.Сущеня
Почетный президент Российского Гидробиологического Общества,
вице-президент Международной ассоциации академий наук (МААН),
член Международной ассоциации теоретической и прикладной лимнологии; Иностранный член Польской академии наук (с 1994);
Директор Института зоологии АН БССР (Минск, с 1980; Почетный директор с 1995); Председатель Национального комитета по программе ЮНЕСКО «Человек и биосфера» (МАБ); Лауреат Почетной медали им. Г.Г. Винберга за выдающиеся достижения в области теоретической гидробиологии; Лауреат почетного звания «Водный эколог года»
— — — — — — Translation into English:
On the series of articles S.A. Ostroumov on aquatic ecosystems and organisms under the conditions of anthropogenic impact (Doklady, 2000, v.371, No. 6, p. 844-846; DAN, 2000, v. 372, No. 2, p. 279-282, DAN, 2001, v. 378, No. 2, p. 283-285; Izvestiya. Series of Biology, 2001. No. 1, p. 108-116);

In this series of works the author presents his new experimental results on the study of aquatic organisms. He obtained new information about filter-feeders. Their filtering activity is important to aquatic ecosystems. The author revealed some new effects produced by pollutants (surfactants) as a result of their impact on aquatic organisms. Some important processes leading to water purification in aquatic ecosystems were studied and analyzed.

Academician L.M. Sushchenya

Honorary President of the Russian Hydrobiological Society,
Vice-President of the International Association of Academies of Sciences (IAAS),
Member of International Association of Theoretical and Applied Limnology,
Foreign Member of the Polish Academy of Sciences (since 1994);
Director of the Institute of Zoology, Belorussian Academy of Sciences (Minsk, 1980, Honorary Director since 1995), Chairman of the National Committee of the UNESCO Program Man and Biosphere (MAB), Laureate of the G.G. Winberg Medal for outstanding achievements in theoretical hydrobiology; awarded the honorary title Aquatic Ecology of the Year
2010-05-04 18:19:51 · Ответить · Ссылка
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Ключевые слова на русском языке: качество воды, самоочищение воды, биоразнообразие, поллютанты, экосистемные услуги, пресноводный, морской, водные экосистемы, ксенобиотики, функционирование экосистем, безопасность окружающей среды
2016-04-12 16:21:52 · Ответить · Ссылка
full text of this paper see free:
b23.ru/n6yy
2011-05-21 13:39:59 · Ответить · Ссылка
Full text is here, online, free;
вот хороший сайт:
https://www.researchgate.net/publication/200582742
2016-04-12 21:11:02 · Ответить · Ссылка