Найдено научных статей и публикаций: 7, для научной тематики: water self-purification
Связанные научные тематики:
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On the Multifunctional Role of the Biota in the Self-Purification of Aquatic Ecosystems
(публикация автора на scipeople)
Ostroumov S. A.
, 2010
Ostroumov S. A. On the Multifunctional Role of the Biota in the Self-Purification of Aquatic Ecosystems. - Russian Journal of Ecology, Vol. 36, No. 6, 2005, pp. 414–420. Translated from Ekologiya, No. 6, 2005, pp. 452–459.
Moscow State...
Ostroumov S. A. On the Multifunctional Role of the Biota in the Self-Purification of Aquatic Ecosystems. - Russian Journal of Ecology, Vol. 36, No. 6, 2005, pp. 414–420. Translated from Ekologiya, No. 6, 2005, pp. 452–459.
Moscow State University, Vorob’evy gory, Moscow, 119991, Russia
Abstract
—Principles of the 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 filtering 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.
http://www.springerlink.com/content/y6370w774lk7g786/;
DOI 10.1007/s11184-005-0095-x;
Key words: functioning of ecosystems ecosystem services aquatic ecosystems, water quality, water self-purification, pollution, theory, ecological safety, biota, organisms, marine, freshwater, water filtering, surfactants, biological resources, discovery, innovations, new data, new findings, aquatic ecology new ecotechnology ecotoxicology man-made changes anthropogenic effects new conceptualization habitat sustainability ecological stability.
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Responses of Unio tumidus to mixed chemical preparations and the hazard of synecological summation of anthropogenic effects
(публикация автора на scipeople)
Ostroumov S.A. / С.А. Остроумов
, 2010
Responses of Unio tumidus to mixed chemical preparations and the hazard of synecological summation of anthropogenic effects. - Doklady Biological Sciences, 2001, Volume 380, Numbers 1-6, p. 492-495. ISSN 0012-4966 (Print) 1608-3105 (Online). DOI...
Responses of Unio tumidus to mixed chemical preparations and the hazard of synecological summation of anthropogenic effects. - Doklady Biological Sciences, 2001, Volume 380, Numbers 1-6, p. 492-495. ISSN 0012-4966 (Print) 1608-3105 (Online). DOI 10.1023/A:1012344026176. The author introduced a new concept and term, “the synecological summation of the effects of anthropogenic factors on organisms”. In the new author’s experiments, the effects of commercial detergents, which are chemical mixtures, on bivalves (detergent OMO, freshwater mussels Unio tumidus) were studied. Detergents exert two types of hazardous effects on organisms and ecosystems: the phosphorus-induced stimulation of phytoplankton growth and surfactant-induced inhibition of filter-feeders. Because filter-feeders are an effective natural factor of control of unicellular plankton populations, the two types of the detergent-induced effects on ecosystem facilitate the growth of phytoplankton populations. Therefore, these effects sum together, thereby increasing the hazard of the man-made impact on the ecosystem. The results contribute to a better understanding of the potential ecological danger of pollutants for integral functions of ecosystems. It is the synecological summation of the effects of anthropogenic factors on plankton populations and filter-feeders that is of particular concern. The interaction between populations of plankton organisms and filter-feeders that feed on plankton should be taken into consideration in the studies on the ecological effects of synthetic detergents on these populations. Situations of man-made impact should be analyzed with using the synecological approach to the problem. http://sites.google.com/site/2001dbs380p492unio/; www.springerlink.com/index/L33309208H28L87R.pdf; DOI 10.1023/A:1012344026176;
Translated from the original Russian paper:
Responses of Unio tumidus to a mixture of chemicals and the hazard of synecological summation of anthropogenic effects (Reagirovanie Unio tumidus pri vozdeistvii smesevogo himicheskogo preparata i opasnost sinekologicheskogo summirovaniya antropogennyh vozdeistviy). — DAN. 2001. Vol. 380. No. 5. P. 714-717. (in Rus.).
Key words:
bivalves, freshwater mussels, Unio tumidus, detergents, mixed chemical preparations, hazards, synecological summation of anthropogenic effects, new concept, pollution, filter-feeders, water self-purification, water quality, aquatic ecosystem, bioassay
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Concise results: well-cited publications on ecology and environment, online
(публикация автора на scipeople)
С. А. Остроумов, (S.A. Ostroumov)
, 2010
The concise results and shortlist of some well-cited publications on ecology and environment - in English, the full texts or abstracts available online free (updated 2010, Mar 20).
The publications by S.A.O. in the main part of the list below...
The concise results and shortlist of some well-cited publications on ecology and environment - in English, the full texts or abstracts available online free (updated 2010, Mar 20).
The publications by S.A.O. in the main part of the list below include those that described some innovations in conceptualization of the fundamentals of ecology, – e.g., such as the notion of ecosystem [15]. Previously, in the book ‘Introduction to Biochemical Ecology’, the same author explored another fundamental issue of ecology and made a new classification of interorganismal interactions mediated by chemicals. Also, some of the publications given below formulated a new theory of the biomachinery that provides the useful ecosystem’s service of improving water quality [2, 4, 14, 20, 24, 25, 31]. In another essential series of publications, a set of new biological effects of man-made chemicals were discovered [1, 6, 12, 16, 19, 27; and others]. As a result, some new hazards of chemical pollution to the biosphere were found [1, 2, 12, 17, 19, 21]. Practical recommendations to better protect aquatic biodiversity were published [18], which was a continuation of the book ‘Conservation of Living Nature and Resources: Problems, Trends, Prospects’ (by A. Yablokov, S. Ostroumov, Springer Press). Steps towards new technologies to combat pollution were made [30]. A list of priorities in the further research on the most urgent issues of ecology and environment was developed [23].
The publications [1-32] and other publications authored and coauthored by S.A.O. were commented and supported in the papers and books by many other authors [33-119]. Among them are the scientists who work in N. America (e.g., [50, 61, 100, 103]), Europe (e.g., [58, 68-70, 79, 84 ]; including France, Spain, Greece), Asia (e.g., [72, 81, 88, 101, 117]; including China and India), and other parts of the world.
KEY WORDS: ecosystem, pollutants, biomachinery that provide the ecosystem’s service of improving water quality, new biological effects of man-made chemicals, new hazards of chemical pollution to the biosphere, recommendations to better protect aquatic biodiversity, conservation of nature and resources, new phytotechnologies to combat pollution, priorities, environment protection; water self-purification; surfactants, detergents, filter-feeders, environmental safety
REFERENCES:
1. The book: Ostroumov S. A. Biological Effects of Surfactants. CRC Press. Taylor & Francis. Boca Raton, London, New York. 2006. 279 p. ISBN 0-8493-2526-9 [new facts and concepts on assessment of hazards from chemicals, new look on the factors important to water quality, to sustainability; new priorities in environmental safety]; the table of contents see at: http://www.chipsbooks.com/biosurfc.htm;
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 S.A. 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. [In the paper, the author developed a new approach to analyze the fundamental ecological issue, the interactions between organisms in ecosystems. He suggested using the methodology of inhibitory analysis to study interactions in trophic chains. Important situation is the top–down control of plankton by benthic filter-feeders. This control, as the author’s experiments have shown, might be removed by chemical inhibitors (the latter may enter the ecosystem as pollutants)]. http://sites.google.com/site/2001dbs377p139inhibitory/; http://blog.researchgate.net/masterblog/299_Inhibitory_Analysis_A_new_method_for_analyzing_interactions_between_organisms_in_ecosystems;
8. Ostroumov SA. The synecological approach to the problem of eutrophication. - Dokl Biol Sci. (Doklady Biological Sciences). 2001; 381: 559-562. PMID: 12918433 [PubMed - indexed for MEDLINE]; 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/ ; PMID: 12918416 [PubMed - indexed for MEDLINE];
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/; PMID: 12918414 [PubMed - indexed for MEDLINE];
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/; PMID: 12918380 [PubMed - indexed for MEDLINE];
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. PMID: 12918370 [PubMed - indexed for MEDLINE]; http://sites.google.com/site/1dbs379p341imbalance/; https://www.researchgate.net/profile/Sergei_Ostroumov/blog/321_Discovery_of_the_system_where_chemical_pollution_could_impair_the_regulation_and_balance_in_the_abundance_of_phytoplankton_threat_to_ecological_stability_ ;
13. Ostroumov SA. Effect of amphiphilic chemicals on filter-feeding marine organisms. - Dokl Biol Sci (Doklady Biological Sciences). 2001; 378: 248-250. For the first time, oysters were used as the test-organisms in bioassay of synthetic surfactants and detergents. The new data revealed a novel type of hazard to mariculture. New negative effects of surfactants and chemical mixtures on water filtering activity of Crassostrea gigas were discovered. http://sites.google.com/site/2001dbs378p248effammaroyst/; PMID: 12918342 [PubMed - indexed for MEDLINE];
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 S.A. New definitions of the concepts and terms ecosystem and biogeocenosis. - Doklady Biological Sciences 2002 (March), Volume 383, Numbers 1- 6, p. 141-143. [ISSN 0012-4966 (Print) 1608-3105 (Online)]. https://www.researchgate.net/file.FileLoader.html?key=997c8c86899d5a6e24531054ad1bcd1e; PMID: 12053565 [PubMed - indexed for MEDLINE];
16. 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; In the paper new facts are reported that shows man-made hazards to 3 aspects of functioning of the biosphere and ecosystems: (1) formation of water quality; (2) biogeochemical flows of C, N, P and other constituents of biomass; (3) formation of deposits of organic matter as bottom sediments. https://www.researchgate.net/profile/Sergei_Ostroumov/blog/358_Three_new_key_hazards_to_the_functioning_of_the_biosphere; PMID: 12053562 [PubMed - indexed for MEDLINE];
17. 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]. PMID: 12469618 [PubMed - indexed for MEDLINE]; https://www.researchgate.net/file.FileLoader.html?key=8408a7cfaa984764b812ce79c77007f2;
18. 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; https://www.researchgate.net/profile/Sergei_Ostroumov/blog/359_How_to_establish_a_new_type_of_reserves_to_protect_aquatic_biodiversity_and_ecosystem_services; PMID: 12053567 [PubMed - indexed for MEDLINE];
19. Ostroumov S. A. Inhibitory analysis of top-down control: new keys to studying eutrophication, algal blooms, and water self-purification // Hydrobiologia. 2002. vol. 469. P.117-129. A new approach to prevent pollution, eutrophication, and algal blooms was identified and analyzed in this paper. The approach is based on efficient use of the natural mechanisms of self-regulation of ecosystem DOI 10.1023/A:1015559123646; http://www.moipros.ru/files/author_4_article_9.doc; www.springerlink.com/index/R9PTJEQ5FK8VLA6M.pdf; http://scipeople.com/uploads/materials/4389/2Hydrobiologia469p117w%20Addendum.DOC;
20. 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://scipeople.com/uploads/materials/4389/2H469p203.Polyfunctional.role.w.Addendum.rtf; http://www.springerlink.com/content/hcrfvmdncdm8e3pf/;
21. Ostroumov S. A., Walz N., Rusche R. Effect of a cationic amphiphilic compound on rotifers. - Doklady Biological Sciences. 2003 (May). Vol. 390. p. 252-255 [ISSN 0012-4966 (Print) 1608-3105 (Online)]. PMID: 12940156 [PubMed - indexed for MEDLINE]; https://www.researchgate.net/file.FileLoader.html?key=def6575c794b111fcc31275e853c2b15;
22. 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. Review. 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;
23. Ostroumov S.A., Dodson S., Hamilton D., Peterson S., Wetzel R.G. Medium-term and long-term priorities in ecological studies // Rivista di Biologia / Biology Forum. 2003 (May). 96: 327-332. Abstracts in Eng. and Italian (p. 332). http://scipeople.com/uploads/materials/4389/3RivistaBio96Priorities2.rtf; www.ncbi.nlm.nih.gov/pubmed/14595906 ; PMID: 14595906 [PubMed - indexed for MEDLINE] Research priorities in ecology and environmental sciences for the future are formulated. The priorities for both fundamental and applied ecology are proposed. The list of priorities includes 50 items. The priorities are relevant to terrestrial, aquatic, and general ecology. The list of priorities is helpful when grant proposals are being prepared, evaluated, and selected for funding.
24. 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; https://www.researchgate.net/profile/Sergei_Ostroumov/blog/348_Useful_theory_of_natural_mechanisms_of_improving_water_quality; PMID: 15354827 [PubMed - indexed for MEDLINE];
25. Aquatic ecosystem as a bioreactor: water purification and some other functions. - Rivista di Biologia / Biology Forum, 2004, 97 (1): 67-78. Abstracts in Eng. and Italian. [A new fundamental concept is proposed of aquatic ecosystem as a bioreactor that carries out the function of water purification in natural water bodies and streams. The ecosystem as a bioreactor has the following characteristic attributes: (1) it is a large-scale (large-volume) bioreactor; (2) it is a diversified (in terms of the number of taxa and the scope of functional activities) bioreactor; (3) it possesses a broad range of biocatalytic (chemical-transforming and degrading) capabilities. New experimental data on xenobiotics - induced inhibition of the water filtration performed by the bivalve molluscs Unio tumidus, U. pictorum, M. galloprovincialis and inhibition of feeding by Limnaea stagnalis emphasized the potential ecological hazard from sublethal concentrations of pollutants (including those exemplified by synthetic surfactants and detergents). http://www.ncbi.nlm.nih.gov/pubmed/15648211; PMID: 15648211 [PubMed - indexed for MEDLINE]; http://scipeople.com/uploads/materials/4389/4Rivista.Biologia97p39Aquatic..Bioreactor.RTF; https://www.researchgate.net/profile/Sergei_Ostroumov/blog/407_New_concept_of_ecosystem; https://www.researchgate.net/profile/Sergei_Ostroumov/blog/410_New_Concept_of_Ecosystem;
26. Ostroumov S. A. Some aspects of water filtering activity of filter-feeders // Hydrobiologia, 2005. Vol. 542, No. 1. P. 275 – 286. http://scipeople.com/uploads/materials/4389/5Hydr542p275water.filt.doc; http://www.springerlink.com/content/u21p83p0423j8714/;
27. Ostroumov S. A., Widdows J. Inhibition of mussel suspension feeding by surfactants of three classes. // Hydrobiologia. 2006. Vol. 556, No. 1. Pages: 381 – 386. [For the first time the negative effects of the three surfactants on the filtration rates by marine mussels were presented in one paper. The xenobiotics tested represented anionic, cationic and non-ionic surfactants (tetradecyltrimethylammonium bromide, TDTMA, a representative of a class of cationic surfactants; sodium dodecyl sulphate, SDS, a representative of anionic alkyl sulfates; and Triton X-100, a representative of non-ionic hydroxyethylated alkyl phenols). Negative effects of SDS, TDTMA, and Triton X-100 on the filtration activity of marine mussels M. edulis and M. edulis / M. galloprovincialis were discovered. All three surfactants inhibited the clearance rates. This is the first publication of the negative effects of a cationic surfactant on Atlantic mussels Mytilus. The significance of the results for the ecology of marine ecosystems is discussed]. 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/;
28. Ostroumov S. A. Basics of the molecular-ecological mechanism of water quality formation and water self-purification. - Contemporary Problems of Ecology, 2008 (Feb), Vol. 1, No. 1, p. 147-152. [ISSN 1995-4255(Print) 1995-4263 (Online); DOI 10.1134/S1995425508010177; https://www.researchgate.net/file.FileLoader.html?key=e533be77c87735c6dcc5cfdb9db96cec; http://scipeople.com/uploads/materials/4389/CPEC2008BasicsMolEcol.Mech.WaterQuali(0147.pdf; http://www.springerlink.com/content/e380263154u73045/;
29. 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). Some basic elements of a new theory for the biological mechanism for water self-purification are presented. Aquatic organisms (hydrobionts) are actively involved in various processes leading to water purification. Not only microorganisms (bacteria, cyanobacteria and fungi), but also algae, plants, invertebrates, and other groups of organisms are involved, which is discussed and analyzed in the paper. Results of the author's experiments that study the effects of various pollutants on aquatic organisms (freshwater and marine bivalves) are given. The theory is an innovative basis for developing ecological technologies to clean water and to upgrade its quality by using organisms and ecosystems [http://scindeks.nb.rs/article.aspx?artid=0354-32850750015O];
30. 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. www.springerlink.com/index/ML1062K7271L318N.pdf; http://sites.google.com/site/9dbs444/; https://www.researchgate.net/file.FileLoader.html?key=8fd8998627b86102db72c9b237c25054;
31. Ostroumov S.A. Towards the general theory of ecosystem-depended control of water quality. - Ecologica, 2009, vol. 16, No. 54, p. 25-32. (Faculty of Biology, Moscow State University, Leninskie Gory, Moscow, 119991 Russia). Abstract: A new set of ecological generalizations formulated in this paper represent, in a systematized form, the basic elements of the qualitative theory of biotic control of water quality and water self-purification in freshwater and marine ecosystems. The theory contributes to a better understanding of the issues of stability and regulation in the biosphere. The theory is supported by the results of the author’s experimental studies of the effects exerted by surfactants, detergents and other pollutants on aquatic organisms. http://sites.google.com/site/9enecologica16p25theory/;
32. Ostroumov S.A. Suspension-feeders as factors influencing water quality in aquatic ecosystems. - In: The Comparative Roles of Suspension-Feeders in Ecosystems, R.F. Dame, S. Olenin (Eds.), Springer, Dordrecht, 2004. p. 147-164. [Proceedings of the Advanced Research Workshop on the Comparative Roles of Suspension-Feeders in Ecosystems, Nida, Lithuania 4–9 October 2003. Suspension-feeders are found in both pelagic and benthic systems. They function as an important part of an ecosystem's biomachinery that maintains water quality and purification potential in aquatic systems. They remove suspended matter and excrete faeces, pseudofaeces and dissolved inorganic materials that contribute to nutrient cycling between the water column and the benthic habitats. Suspension-feeders are a key part of many natural aquatic remediation systems and they can decrease some negative anthropogenic impacts. Recent author’s experiments are reported that demonstrate new effects of pollutants on the filtration rates of suspension-feeders. Table 1: factors decreasing water quality in aquatic ecosystems; Table 2: how filter-feeders may produce effects on 9 processes of water purification (chemical oxidation by oxygen, photodegradation etc.); Table 3: quantitative data on filter-feeders of 12 large taxa (Rotifers, Polychaeta etc.); Table 4: amount of the days for the water column to be filtered in 20 ecosystems; Table 5: production of biosediments per year or per day by filter-feeders; Table 6: chemicals that inhibit filtration rates (mainly the data generated by the author); Table 7: Key facts and principles that characterize suspension - feeders as part of water-filtering biomachinery maintaining water quality; Table 8: the level-block approach to the analysis of ecological hazards of anthropogenic effects on the biota. New concepts: polyfunctional role of suspension-feeders regulating ecosystem processes (p.155); "suspension-feeders have a potential to contribute to creating habitat heterogeneity (in terms of patchiness of concentrations of suspended matter in water) (p.157); "ecological taxation: suspension-feeders pay ecological tax to the community (ecosystem)" (p.157)]. ISBN 978-1-4020-3028-4 (Print) 978-1-4020-3030-7 (Online). DOI 10.1007/1-4020-3030-4_9.
Some of the publications above and the results in them won awards and Diplomas, including:
Diploma at the 1st International Forum on Conservancy of Nature (Moscow, 7- 9th September 2005), signed by the Co-Chairs of the Forum, Deputy Minister of Natural Resources of Russian Federation and Vice-President of the Trade Chamber of Russian Federation).
Diploma of the journal 'Ecology and Life' (awarded 15 October 2005).
Diploma of the competition 'Sustainable use of natural resources and environmental protection – strategy of sustainable development of Russia in the 21st century' at the international conference 'Sustainable Development: Nature-Society-Man' (organized in 2006, Moscow, by the Ministry of Natural Resources) for the paper by Ostroumov S.A. and Solomonova E.A. "On studies of water self-purification and interactions between pollutants (surfactants) and biota: searching approaches to issues relevant to sustainable use of water resources " (Directive of the Ministry of Natural Resources No.126 of 02 June 2006; the Diploma was signed by the Minister).
Diploma to the book 'Biotic Mechanism of Self-purification of Freshwater and Marine Water' by Dr. S. A. Ostroumov, awarded at the 7th International Conference ‘Aquatic Ecosystems, Organisms, Innovations’ (2005). Diploma of the Academy of Aquatic Sciences for the series of innovative publications on aquatic ecology, interactions between chemicals and organisms, and water self-purification, including the books 'Biological Effects of Surfactants in Connection with the Anthropogenic Impact on the Biosphere'; 'Biological Effects of Surfactants on Organisms'; 'Biotic Mechanism of Self-Purification of Freshwater and Marine Water'; 'Pollution, Self-Purification and Restoration of Aquatic Ecosystems'; 'Biological Effects of Surfactants', (awarded in 2006).
Diploma of the Academy of Aquatic Sciences 'for his innovative contribution to improvement of environmental and ecological education', including the book 'Ecology and Hydrobiology. Curricula of Lecture Courses' (awarded in 2006).
Diploma of the Moscow Society of the Researchers of Nature (awarded in 2007).
The publications above [1-32] and other publications authored and coauthored by S.A.Ostroumov were commented and cited as valuable contributions in the following publications:
33. Chatzinikolaou Y., Ioannou A., Lazaridou M. Intra-basin spatial approach on pollution load estimation in a large Mediterranean river. – Desalination. 2010 (January) Volume 250, Issue 1, Pages 118-129. DOI:10.1016/j.desal.2008.12.062.
34. 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.
35. Dingjiang Chen, Jun Lu, Yena Shen. (D. Chen, J. Lu, Y. Shen) Artificial neural network modelling of concentrations of nitrogen, phosphorus and dissolved oxygen in a non-point source polluted river in Zhejiang Province, southeast China. // Hydrological Processes. Early View (Articles online in advance of print); Published Online: 21 Oct 2009; Copyright © 2010 John Wiley & Sons, Ltd.
36. Mohneke, M., Rödel, M.-O. Declining amphibian populations and possible ecological consequences - A review. // Salamandra, 2009, 45 (4), pp. 203-210.
37. Dafforn, K.A., Glasby, T.M., Johnston, E.L. Links between estuarine condition and spatial distributions of marine invaders // Diversity and Distributions 2009, v. 15 (5), pp. 807-821.
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FULL TEXTS OF SOME OF THE PUBLICATIONS, comments, and CONTENTS in a nutshell see at:
http://blog.researchgate.net/masterblog/619_Vital_role_of_aquatic_organisms_in_improving_water_quality;
http://blog.researchgate.net/masterblog/610_New_unified_theory_of_the_ecological_mechanisms_to_improve_water_quality_and_to_make_water_clear_a_basis_for_water_purification_and_waste_water_treatment;
http://blog.researchgate.net/masterblog/608_Does_implementation_of_environmental_law_depend_on_new_improvement_of_ecological_terms_Fundamental_solutions_suggested;
http://blog.researchgate.net/masterblog/594_New_plant_species_as_a_potent_tool_to_clean_water_and_to_remove_heavy_metals;
http://blog.researchgate.net/masterblog/466_The_Threat_of_Shampoo_to_the_Biosphere;
http://blog.researchgate.net/masterblog/410_A_New_Concept_For_Ecosystems;
http://blog.researchgate.net/masterblog/389_Stopping_Pollution_Eutrophication_and_Algal_Blooms;
http://blog.researchgate.net/masterblog/379_Underwater_Secrets_of_Global_Change;
http://blog.researchgate.net/masterblog/369_Vulnerability_of_Major_Plankton_Groups_Rotifers;
http://blog.researchgate.net/masterblog/358_Three_New_Key_Hazards_to_the_Functioning_of_the_Biosphere;
http://blog.researchgate.net/masterblog/299_Inhibitory_Analysis_A_new_method_for_analyzing_interactions_between_organisms_in_ecosystems;
https://www.researchgate.net/profile/Sergei_Ostroumov/blog/347_Biodiversity_and_stability_of_ecosystems;
http://blog.researchgate.net/masterblog/276_New_threat_to_water_quality_discovery_of_the_new_important_type_of_hazards_from_pollution_Synecological_summation_of_effects_on_different_trophic_levels;
http://blog.researchgate.net/masterblog/255_Criteria_of_ecological_hazards_due_to_anthropogenic_effects_on_the_biota_Searching_for_a_system;
http://blog.researchgate.net/masterblog/262__The_Concept_of_Aquatic_Biota_as_a_Labile_and_Vulnerable_Component_of_the_Water_SelfPurification_System;
http://blog.researchgate.net/masterblog/241_innovative_concept_of_ecosystem_as_a_multifunctional_bioreactor_one_of_its_functions_is_upgrading_water_quality_ecosystem_service;
http://blog.researchgate.net/masterblog/180_A_new_type_of_effect_of_potentially_hazardous_substances
http://blog.researchgate.net/masterblog/369_Vulnerability_of_Major_Plankton_Groups_Rotifers;
https://www.researchgate.net/profile.ProfileBlogEntry.html?dbw=true&blogId=373;
https://www.researchgate.net/profile/Sergei_Ostroumov/blog/388_new_keys_to_prevent_pollution_eutrophication_algal_blooms;
http://blog.researchgate.net/masterblog/379_Underwater_Secrets_of_Global_Change;
https://www.researchgate.net/profile/Sergei_Ostroumov/blog/407_New_concept_of_ecosystem
https://www.researchgate.net/profile/Sergei_Ostroumov/blog/410_New_Concept_of_Ecosystem;
http://blog.researchgate.net/masterblog/410_A_New_Concept_For_Ecosystems;
http://sites.google.com/site/2000dbs371p204criteria/
http://sites.google.com/site/2000dbs373p397biocatallstag/
http://sites.google.com/site/2000dbs374p514bioreactor/
http://sites.google.com/site/2001dbs379p378pellets/
http://sites.google.com/site/2001dbs377p139inhibitory/
http://sites.google.com/site/2001dbs378p248effammaroyst/
http://sites.google.com/site/2001dbs380p499synerg/
http://sites.google.com/site/2001dbs380p492unio/
http://sites.google.com/site/2dbs382p18biodivers/;
http://sites.google.com/site/bioeffectsofsurfactants/
http://sites.google.com/site/surfactantinhibitfilterfeed02/
http://sites.google.com/site/3surfactantsfiltrationmytilus/
http://sites.google.com/site/9dbs444/;
https://www.researchgate.net/file.FileLoader.html?key=8fd8998627b86102db72c9b237c25054;
http://scipeople.com/uploads/materials/4389/Danbio6_2001v381n5.E.eutrophication.pdf;
https://www.researchgate.net/file.FileLoader.html?key=d988acb599e121964c48114374a87e8d;
https://www.researchgate.net/file.FileLoader.html?key=888352078b275ef40a430eb5b4d7714c; https://www.researchgate.net/profile/Sergei_Ostroumov/blog/359_How_to_establish_a_new_type_of_reserves_to_protect_aquatic_biodiversity_and_ecosystem_services;
https://www.researchgate.net/file.FileLoader.html?key=997c8c86899d5a6e24531054ad1bcd1e;
https://www.researchgate.net/file.FileLoader.html?key=e533be77c87735c6dcc5cfdb9db96cec;
http://scipeople.com/uploads/materials/4389/CPEC2008BasicsMolEcol.Mech.WaterQuali(0147.pdf;
http://scipeople.com/uploads/materials/4389/5Hydr542p275water.filt.doc;
http://www.moipros.ru/files/author_4_article_9.doc; http://scipeople.com/uploads/materials/4389/2Hydrobiologia469p117w%20Addendum.DOC;
http://scipeople.com/uploads/materials/4389/4Rivista.Biologia97p39Aquatic..Bioreactor.RTF;
http://scipeople.com/uploads/materials/4389/3RivistaBio96Priorities2.rtf;
http://scipeople.com/users/2943391/
http://scipeople.com/group/334/
http://scipeople.com/group/334/topic/1485/
https://www.researchgate.net/profile/Sergei_Ostroumov/blog/409_most_cited_publications_by_Dr_SA_Ostroumov_in_English_available_online;
http://blog.researchgate.net/masterblog/466_The_Threat_of_Shampoo_to_the_Biosphere;
http://scipeople.com/uploads/materials/4389/2010Nakoplenie.Preprint(Part.1.(BioshereEcotoxGeochem.doc;
ADDITIONAL REFERENCES OF RELEVANT PUBLICATIONS see:
http://sites.google.com/site/ostroumovsapublicationsineng/
http://sites.google.com/site/ostroumovsergei/
http://sites.google.com/site/bioticupgradewaterquality2008/
http://sites.google.com/site/ostroumovsa/
http://sites.google.com/site/biochemicalecology/
http://sites.google.com/site/ostroumovsapublicationsruen/
http://sites.google.com/site/ostroumovsergei/publications-that-cited-saostroumov
http://sites.google.com/site/biosphereostroumov/home
http://sites.google.com/site/ecologytobemostcitedtomorrow/home
http://sites.google.com/site/ecologytobemostcitedtomorrow/list-of-publications-by-sa-ostroumov
http://scipeople.ru/users/2943391/
https://www.researchgate.net/profile/Sergei_Ostroumov/blog/321_Discovery_of_the_system_where_chemical_pollution_could_impair_the_regulation_and_balance_in_the_abundance_of_phytoplankton_threat_to_ecological_stability_ ;
POSITIVE EVALUATIONS of some of the results published by S.A. Ostroumov see in:
Petrosyan V.S. Review of the book: Biological Effects of Surfactants. CRC Press. Taylor & Francis. - Ecological Studies, Hazards, Solutions, 2007. vol. 12, p. 117-119 (in English);
Review of the book: Ostroumov S.A. Biological Effects of Surfactants. CRC Press. Taylor & Francis. Boca Raton, London, New York. 2006. 279 p. – Bulletin Samarskaya Luka. - 2007. - V. 16, № 4(22). - P. 864-867. Bibliogr. 10 refs. http://www.ssc.smr.ru/media/journals/samluka/2007/16_4_22.pdf;
Review of the book: Biological Effects of Surfactants. CRC Press. Taylor & Francis. Boca Raton, London, New York. 2006. 279 p. // Problems of Biogeochemistry and Geochemical Ecology. 2007. № 2 (4). p.108;
Review of the book: S.A. Ostroumov. Biological Effects of Surfactants (2006). - Ecologica, 2008. v.15, No. 51, p. 71-72. (ISSN 0354-3285; in English);
Review of the book: Ostroumov S.A. Biological Effects of Surfactants. CRC Press. Taylor & Francis. Boca Raton, London, New York. 2006. 279 p. – Toxicological Review [Toksikologicheskij Vestnik], 2009, No. 2, p. 40;
POSITIVE COMMENTS OF INTERNATIONAL EXPERTS see:
http://blog.researchgate.net/masterblog/347_Biodiversity_and_stability_of_ecosystems;
https://www.researchgate.net/group/Water_quality_Water_self-purification_role_of_biota/board/thread/4400_A_new_way_of_eutrophication_control?viewLast=true;
https://www.researchgate.net/group/Water_quality_Water_self-purification_role_of_biota/board/thread/4412_want_to_be_part_of_you?viewLast=true;
https://www.researchgate.net/group/Science_Communication/board/thread/4494_New_data_help_save_energy_and_effort_in_water_trea?c=16875#c16875;
https://www.researchgate.net/group/Environmental_researches_malacology/board/thread/2179_Sewage_outfalls_into_water_courses?viewLast=true;
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Экология: инновации в науке и образовании: «водные экосистемы, организмы, инновации-9». москва, 25-26 октября 2007 г.
(публикация автора на scipeople)
С. А. Остроумов, О.М. Горшкова, отв. редакторы (S.A. Ostroumov, O.M. Gorshkova, Editors)
- Ecological Studies, Hazards, Solutions. Volume 13. , 2010
С. А. Остроумов, О.М. Горшкова, отв. редакторы
(S.A. Ostroumov, O.M. Gorshkova, Editors).
Экология: инновации в науке и образовании: «Водные экосистемы,...
С. А. Остроумов, О.М. Горшкова, отв. редакторы
(S.A. Ostroumov, O.M. Gorshkova, Editors).
Экология: инновации в науке и образовании: «Водные экосистемы, организмы, инновации-9». Москва, 25-26 октября 2007 г.: Труды и другие материалы. М.: МАКС Пресс, 2009. - 192 с. (Ecological Studies, Hazards, Solutions. Volume 13).
KEY WORDS: ecosystem, pollutants, ecosystem’s service water quality, biological effects of man-made chemicals, new hazards of chemical pollution to the biosphere, aquatic biodiversity, conservation of nature and resources, environment protection; water self-purification; environmental safety, биосфера, экология, экосистемы, окружающая среда, общая биология
Экология: инновации в науке и образовании: Науч.конф.
«Водные экосистемы, организмы, инновации-9». Москва, 25-26 октября 2007 г.: Труды и другие материалы. М.: МАКС Пресс, 2009. - 192 с. (Ecological Studies, Hazards, Solutions. Volume 13).
УДК 574
ББК 28.080:28.082
Cборник содержит труды девятой конференции “Водные экосистемы, организмы, инновации-9”, которая прошла 25-26 октября 2007 г. в Московском университете, и другие научные и учебно-методические материалы. Тематика материалов, представленных в сборнике, охватывает пресноводные и морские экосистемы и организмы. Акцентируются научные инновации, важные и перспективные для решения практических проблем, для экономического роста, для экологической безопасности. Авторы представленных работ - сотрудники различных кафедр и факультетов МГУ, ученые других университетов и институтов России, США, Украины, Швейцарии и других стран. Сборник представляет интерес для специалистов в области экологии, гидробиологии, океанологии, зоологии, ихтиологии, ботаники, микробиологии, охраны окружающей среды, а также для преподавателей высшей школы.
Ecological Studies, Hazards, Solutions. Volume 13.
Proceedings of the scientific conference Aquatic Ecosystems and Organisms, Innovations – 9, (October 25-26, 2007, Moscow), and other materials. Moscow, MAX Press, 2009. – 192 p.
Volume 13 of the series includes the proceedings of the 9th conference ‘Aquatic Ecosystems, Organisms, Innovations-9’ that took place at Moscow State University, 25-26 October 2007, and some other scientific and educational materials. The materials cover freshwater and marine ecosystems and organisms. The authors represent various departments of Moscow State University and other institutions and universities of Russia, Switzerland, Ukraine, the U.S.A., and other countries. The proceedings are of interest to scholars in the fields of ecology, limnology, oceanography, zoology, ichthyology, botany, microbiology, environmental science, as well as to university professors and educators.
Среди затронутых вопросов и тем:
self-purification, water quality, water bodies, reservoirs, streams, contaminants, pollutants, ecotoxicology, freshwater, marine, environmental safety, environmental security, sources of water, xenobiotics, polyfunctional role of biota, water, ecosystem functioning, hydrosphere, community, sustainable use, resources, environmental management, human impact, potential for water purification, ecosystem’s services, biological theory, application, reliability, external influences; anthropogenic, man-made effects, environmental practices, the new experimental results, cadmium, mollusks, eutrophication, a new concept, environmental, hazards, damage to biota, economic evaluation, damage by the anthropogenic impact, water protection regime, special protected areas, microorganisms, aquatic, macro-organisms, plants, invertebrates, function of purifying water, nutrients, control of phytoplankton, consumers, trophic level, intraspecific interactions of organisms, interspecific interactions, V.I. Vernadsky, biosphere, matter, the regulation, geochemical processes, transfer of matter, biogenic migration of chemical elements, uncoupling of plankton-benthic coupling, lethal, sublethal effects, populations of fish, conservation, biogeocenotic function, mussels, Mytilus galloprovincialis, M. galloprovincialis, TDTMA, a natural hybrid population; SDS, Triton X-100, detergent, the impact on the efficiency of removal of particulate matter, synthetic, laundry detergent, powder detergent, liquid detergent, sodium dodecyl sulphate, community, surface-active substances, surfactants, tensides, surfactant-containing mixtures, inhibition of water filtration, oysters, cationic, tetradecyltrimethylammonium, TDTMA, anionic, sodium dodecyl sulphate, nonionic, filter-feeders, suspension feeders, bivalves, undigested organic matter, bottom, sediments, trophic, activity, phytoplankton, macrophytes; microzooplankton; zooplankton, predatory, zoobenthos, fish, the export of carbon, nitrogen, phosphorus, dissolved substances, suspended particles, sedimentation, bottom sediments, lakes, bays, sorption of pollutants, seston, detritus, aquatic organisms, organic matter, sediment, organic material film, the surface of the reservoir, hydrolysis, photochemical, transformation, photolysis, sensitization, biotic organic origin, redox, catalytic, free radicals, ligands of biological origin, the toxicity of pollutants, binding, soluble, dissolved organic matter, chemical oxidation, oxygen, photosynthesis, biotic, biotransformation, redox reactions, destruction, conjugation, respiration, extracellular enzymatic transformation, sorption of pollutants by pellets excreted by hydrobionts, preventing, slowing output of nutrients and pollutants from the sediments into the water, accumulation, the binding of nutrients and pollutants, benthic, the sorption of pollutants, soil, watering the land by contaminated water, regulation, size, allochthonous, constructed wetlands, phytoremediation, bioremediation, microcosm, pellets, feces, pseudofeces, quantitative parameters, bacterioplankton, eukaryotic, the stability of ecosystems, self-regulation, trophic, communications within ecosystem, transport of material, energy transfer, biocenosis, biotope, Black Sea, priorities; key issues; contemporary issues of ecology, environmental science, biogeochemistry, preventing global change; zoobenthos; theoretical biology;
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The concise results and shortlist of some well-cited publications on ecology and environment - in English, the full texts or abstracts available online free
(публикация автора на scipeople)
Ostroumov S. A.
, 2010
The concise results and shortlist of some well-cited publications on ecology and environment - in English, the full texts or abstracts available online free (updated 2010, Feb 11)
The publications by S.A. Ostroumov in the main part of the list...
The concise results and shortlist of some well-cited publications on ecology and environment - in English, the full texts or abstracts available online free (updated 2010, Feb 11)
The publications by S.A. Ostroumov in the main part of the list below include those that described some innovations in conceptualization of the fundamentals of ecology, – such as the notion of ecosystem [15]. Previously, in the book ‘Introduction to Biochemical Ecology’, the same author explored another fundamental issue of ecology and made a new classification of interorganismal interactions mediated by chemicals. Also, some of the publications given below formulated a new theory of the biomachinery that provides the useful ecosystem’s service of improving water quality [2, 4, 14, 20, 24, 25, 31]. In another essential series of publications, a set of new biological effects of man-made chemicals were discovered [1, 6, 12, 16, 19, 27; and others]. As a result, some new hazards of chemical pollution to the biosphere were found [1, 2, 12, 17, 19, 21]. Practical recommendations to better protect aquatic biodiversity were published [18], which was a continuation of the book ‘Conservation of Living Nature and Resources: Problems, Trends, Prospects’ (by A. Yablokov, S. Ostroumov, Springer Press). Steps towards new technologies to combat pollution were made [30]. A list of priorities in further research on most urgent issues of ecology and environment was developed [23].
The publications [1-32] and other publications authored and coauthored by S.A.O. were commented and supported in the papers and books by many other authors [33-117]. Among them are the scientists who work in N. America (e.g., [50, 61, 100, 103]), Europe (e.g., [58, 68-70, 79, 84 ]; including France, Spain, Greece), Asia (e.g., [72, 81, 88, 101, 117]; including China and India), and other parts of the world.
KEY WORDS: ecosystem, pollutants, biomachinery that provide the ecosystem’s service of improving water quality, new biological effects of man-made chemicals, new hazards of chemical pollution to the biosphere, recommendations to better protect aquatic biodiversity, conservation of nature and Resources, new phytotechnologies to combat pollution, priorities, environment protection; water self-purification; surfactants, detergents, filter-feeders, environmental safety
REFERENCES:
1. book: Ostroumov S. A. Biological Effects of Surfactants. CRC Press. Taylor & Francis. Boca Raton, London, New York. 2006. 279 p. ISBN 0-8493-2526-9 [new facts and concepts on assessment of hazards from chemicals, new look on the factors important to water quality, to sustainability; new priorities in environmental safety]; the table of contents see at: http://www.chipsbooks.com/biosurfc.htm;
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 S.A. 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. [In the paper, the author developed a new approach to analyze the fundamental ecological issue, the interactions between organisms in ecosystems. He suggested using the methodology of inhibitory analysis to study interactions in trophic chains. Important situation is the top–down control of plankton by benthic filter-feeders. This control, as the author’s experiments have shown, might be removed by chemical inhibitors (the latter may enter the ecosystem as pollutants)]. http://sites.google.com/site/2001dbs377p139inhibitory/; http://blog.researchgate.net/masterblog/299_Inhibitory_Analysis_A_new_method_for_analyzing_interactions_between_organisms_in_ecosystems;
8. Ostroumov SA. The synecological approach to the problem of eutrophication. - Dokl Biol Sci. (Doklady Biological Sciences). 2001; 381: 559-562. PMID: 12918433 [PubMed - indexed for MEDLINE]; 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/ ; PMID: 12918416 [PubMed - indexed for MEDLINE];
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/; PMID: 12918414 [PubMed - indexed for MEDLINE];
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/; PMID: 12918380 [PubMed - indexed for MEDLINE];
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. PMID: 12918370 [PubMed - indexed for MEDLINE]; http://sites.google.com/site/1dbs379p341imbalance/; https://www.researchgate.net/profile/Sergei_Ostroumov/blog/321_Discovery_of_the_system_where_chemical_pollution_could_impair_the_regulation_and_balance_in_the_abundance_of_phytoplankton_threat_to_ecological_stability_ ;
13. Ostroumov SA. Effect of amphiphilic chemicals on filter-feeding marine organisms. - Dokl Biol Sci (Doklady Biological Sciences). 2001; 378: 248-250. For the first time, oysters were used as the test-organisms in bioassay of synthetic surfactants and detergents. The new data revealed a novel type of hazard to mariculture. New negative effects of surfactants and chemical mixtures on water filtering activity of Crassostrea gigas were discovered. http://sites.google.com/site/2001dbs378p248effammaroyst/; PMID: 12918342 [PubMed - indexed for MEDLINE];
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 S.A. New definitions of the concepts and terms ecosystem and biogeocenosis. - Doklady Biological Sciences 2002 (March), Volume 383, Numbers 1- 6, p. 141-143. [ISSN 0012-4966 (Print) 1608-3105 (Online)]. https://www.researchgate.net/file.FileLoader.html?key=997c8c86899d5a6e24531054ad1bcd1e; PMID: 12053565 [PubMed - indexed for MEDLINE];
16. 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; In the paper new facts are reported that shows man-made hazards to 3 aspects of functioning of the biosphere and ecosystems: (1) formation of water quality; (2) biogeochemical flows of C, N, P and other constituents of biomass; (3) formation of deposits of organic matter as bottom sediments. https://www.researchgate.net/profile/Sergei_Ostroumov/blog/358_Three_new_key_hazards_to_the_functioning_of_the_biosphere; PMID: 12053562 [PubMed - indexed for MEDLINE];
17. 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]. PMID: 12469618 [PubMed - indexed for MEDLINE]; https://www.researchgate.net/file.FileLoader.html?key=8408a7cfaa984764b812ce79c77007f2;
18. 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; https://www.researchgate.net/profile/Sergei_Ostroumov/blog/359_How_to_establish_a_new_type_of_reserves_to_protect_aquatic_biodiversity_and_ecosystem_services; PMID: 12053567 [PubMed - indexed for MEDLINE];
19. Ostroumov S. A. Inhibitory analysis of top-down control: new keys to studying eutrophication, algal blooms, and water self-purification // Hydrobiologia. 2002. vol. 469. P.117-129. A new approach to prevent pollution, eutrophication, and algal blooms was identified and analyzed in this paper. The approach is based on efficient use of the natural mechanisms of self-regulation of ecosystem DOI 10.1023/A:1015559123646; http://www.moipros.ru/files/author_4_article_9.doc; www.springerlink.com/index/R9PTJEQ5FK8VLA6M.pdf; http://scipeople.com/uploads/materials/4389/2Hydrobiologia469p117w%20Addendum.DOC;
20. 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://scipeople.com/uploads/materials/4389/2H469p203.Polyfunctional.role.w.Addendum.rtf; http://www.springerlink.com/content/hcrfvmdncdm8e3pf/;
21. Ostroumov S. A., Walz N., Rusche R. Effect of a cationic amphiphilic compound on rotifers. - Doklady Biological Sciences. 2003 (May). Vol. 390. p. 252-255 [ISSN 0012-4966 (Print) 1608-3105 (Online)]. PMID: 12940156 [PubMed - indexed for MEDLINE]; https://www.researchgate.net/file.FileLoader.html?key=def6575c794b111fcc31275e853c2b15;
22. 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. Review. 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;
23. Ostroumov S.A., Dodson S., Hamilton D., Peterson S., Wetzel R.G. Medium-term and long-term priorities in ecological studies // Rivista di Biologia / Biology Forum. 2003 (May). 96: 327-332. Abstracts in Eng. and Italian (p. 332). http://scipeople.com/uploads/materials/4389/3RivistaBio96Priorities2.rtf; www.ncbi.nlm.nih.gov/pubmed/14595906 ; PMID: 14595906 [PubMed - indexed for MEDLINE] Research priorities in ecology and environmental sciences for the future are formulated. The priorities for both fundamental and applied ecology are proposed. The list of priorities includes 50 items. The priorities are relevant to terrestrial, aquatic, and general ecology. The list of priorities is helpful when grant proposals are being prepared, evaluated, and selected for funding.
24. 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; https://www.researchgate.net/profile/Sergei_Ostroumov/blog/348_Useful_theory_of_natural_mechanisms_of_improving_water_quality; PMID: 15354827 [PubMed - indexed for MEDLINE];
25. Aquatic ecosystem as a bioreactor: water purification and some other functions. - Rivista di Biologia / Biology Forum, 2004, 97 (1): 67-78. Abstracts in Eng. and Italian. [A new fundamental concept is proposed of aquatic ecosystem as a bioreactor that carries out the function of water purification in natural water bodies and streams. The ecosystem as a bioreactor has the following characteristic attributes: (1) it is a large-scale (large-volume) bioreactor; (2) it is a diversified (in terms of the number of taxa and the scope of functional activities) bioreactor; (3) it possesses a broad range of biocatalytic (chemical-transforming and degrading) capabilities. New experimental data on xenobiotics - induced inhibition of the water filtration performed by the bivalve molluscs Unio tumidus, U. pictorum, M. galloprovincialis and inhibition of feeding by Limnaea stagnalis emphasized the potential ecological hazard from sublethal concentrations of pollutants (including those exemplified by synthetic surfactants and detergents). http://www.ncbi.nlm.nih.gov/pubmed/15648211; PMID: 15648211 [PubMed - indexed for MEDLINE]; http://scipeople.com/uploads/materials/4389/4Rivista.Biologia97p39Aquatic..Bioreactor.RTF; https://www.researchgate.net/profile/Sergei_Ostroumov/blog/407_New_concept_of_ecosystem; https://www.researchgate.net/profile/Sergei_Ostroumov/blog/410_New_Concept_of_Ecosystem;
26. Ostroumov S. A. Some aspects of water filtering activity of filter-feeders // Hydrobiologia, 2005. Vol. 542, No. 1. P. 275 – 286. http://scipeople.com/uploads/materials/4389/5Hydr542p275water.filt.doc; http://www.springerlink.com/content/u21p83p0423j8714/;
27. Ostroumov S. A., Widdows J. Inhibition of mussel suspension feeding by surfactants of three classes. // Hydrobiologia. 2006. Vol. 556, No. 1. Pages: 381 – 386. [For the first time the negative effects of the three surfactants on the filtration rates by marine mussels were presented in one paper. The xenobiotics tested represented anionic, cationic and non-ionic surfactants (tetradecyltrimethylammonium bromide, TDTMA, a representative of a class of cationic surfactants; sodium dodecyl sulphate, SDS, a representative of anionic alkyl sulfates; and Triton X-100, a representative of non-ionic hydroxyethylated alkyl phenols). Negative effects of SDS, TDTMA, and Triton X-100 on the filtration activity of marine mussels M. edulis and M. edulis / M. galloprovincialis were discovered. All three surfactants inhibited the clearance rates. This is the first publication of the negative effects of a cationic surfactant on Atlantic mussels Mytilus. The significance of the results for the ecology of marine ecosystems is discussed]. 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/;
28. Ostroumov S. A. Basics of the molecular-ecological mechanism of water quality formation and water self-purification. - Contemporary Problems of Ecology, 2008 (Feb), Vol. 1, No. 1, p. 147-152. [ISSN 1995-4255(Print) 1995-4263 (Online); DOI 10.1134/S1995425508010177; https://www.researchgate.net/file.FileLoader.html?key=e533be77c87735c6dcc5cfdb9db96cec; http://scipeople.com/uploads/materials/4389/CPEC2008BasicsMolEcol.Mech.WaterQuali(0147.pdf; http://www.springerlink.com/content/e380263154u73045/;
29. 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). Some basic elements of a new theory for the biological mechanism for water self-purification are presented. Aquatic organisms (hydrobionts) are actively involved in various processes leading to water purification. Not only microorganisms (bacteria, cyanobacteria and fungi), but also algae, plants, invertebrates, and other groups of organisms are involved, which is discussed and analyzed in the paper. Results of the author's experiments that study the effects of various pollutants on aquatic organisms (freshwater and marine bivalves) are given. The theory is an innovative basis for developing ecological technologies to clean water and to upgrade its quality by using organisms and ecosystems [http://scindeks.nb.rs/article.aspx?artid=0354-32850750015O];
30. 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. www.springerlink.com/index/ML1062K7271L318N.pdf; http://sites.google.com/site/9dbs444/; https://www.researchgate.net/file.FileLoader.html?key=8fd8998627b86102db72c9b237c25054;
31. Ostroumov S.A. Towards the general theory of ecosystem-depended control of water quality. - Ecologica, 2009, vol. 16, No. 54, p. 25-32. (Faculty of Biology, Moscow State University, Leninskie Gory, Moscow, 119991 Russia). Abstract: A new set of ecological generalizations formulated in this paper represent, in a systematized form, the basic elements of the qualitative theory of biotic control of water quality and water self-purification in freshwater and marine ecosystems. The theory contributes to a better understanding of the issues of stability and regulation in the biosphere. The theory is supported by the results of the author’s experimental studies of the effects exerted by surfactants, detergents and other pollutants on aquatic organisms. http://sites.google.com/site/9enecologica16p25theory/;
32. Ostroumov S.A. Suspension-feeders as factors influencing water quality in aquatic ecosystems. - In: The Comparative Roles of Suspension-Feeders in Ecosystems, R.F. Dame, S. Olenin (Eds.), Springer, Dordrecht, 2004. p. 147-164. [Proceedings of the Advanced Research Workshop on the Comparative Roles of Suspension-Feeders in Ecosystems, Nida, Lithuania 4–9 October 2003. Suspension-feeders are found in both pelagic and benthic systems. They function as an important part of an ecosystem's biomachinery that maintains water quality and purification potential in aquatic systems. They remove suspended matter and excrete faeces, pseudofaeces and dissolved inorganic materials that contribute to nutrient cycling between the water column and the benthic habitats. Suspension-feeders are a key part of many natural aquatic remediation systems and they can decrease some negative anthropogenic impacts. Recent author’s experiments are reported that demonstrate new effects of pollutants on the filtration rates of suspension-feeders. Table 1: factors decreasing water quality in aquatic ecosystems; Table 2: how filter-feeders may produce effects on 9 processes of water purification (chemical oxidation by oxygen, photodegradation etc.); Table 3: quantitative data on filter-feeders of 12 large taxa (Rotifers, Polychaeta etc.); Table 4: amount of the days for the water column to be filtered in 20 ecosystems; Table 5: production of biosediments per year or per day by filter-feeders; Table 6: chemicals that inhibit filtration rates (mainly the data generated by the author); Table 7: Key facts and principles that characterize suspension - feeders as part of water-filtering biomachinery maintaining water quality; Table 8: the level-block approach to the analysis of ecological hazards of anthropogenic effects on the biota. New concepts: polyfunctional role of suspension-feeders regulating ecosystem processes (p.155); "suspension-feeders have a potential to contribute to creating habitat heterogeneity (in terms of patchiness of concentrations of suspended matter in water) (p.157); "ecological taxation: suspension-feeders pay ecological tax to the community (ecosystem)" (p.157)]. ISBN 978-1-4020-3028-4 (Print) 978-1-4020-3030-7 (Online). DOI 10.1007/1-4020-3030-4_9.
Some of the publications above and the results in them won awards and Diplomas, including:
Diploma at the 1st International Forum on Conservancy of Nature (Moscow, 7- 9th September 2005), signed by the Co-Chairs of the Forum, Deputy Minister of Natural Resources of Russian Federation and Vice-President of the Trade Chamber of Russian Federation).
Diploma of the journal 'Ecology and Life' (awarded 15 October 2005).
Diploma of the competition 'Sustainable use of natural resources and environmental protection – strategy of sustainable development of Russia in the 21st century' at the international conference 'Sustainable Development: Nature-Society-Man' (organized in 2006, Moscow, by the Ministry of Natural Resources) for the paper by Ostroumov S.A. and Solomonova E.A. "On studies of water self-purification and interactions between pollutants (surfactants) and biota: searching approaches to issues relevant to sustainable use of water resources " (Directive of the Ministry of Natural Resources No.126 of 02 June 2006; the Diploma was signed by the Minister).
Diploma to the book 'Biotic Mechanism of Self-purification of Freshwater and Marine Water' by Dr. S. A. Ostroumov, awarded at the 7th International Conference ‘Aquatic Ecosystems, Organisms, Innovations’ (2005). Diploma of the Academy of Aquatic Sciences for the series of innovative publications on aquatic ecology, interactions between chemicals and organisms, and water self-purification, including the books 'Biological Effects of Surfactants in Connection with the Anthropogenic Impact on the Biosphere'; 'Biological Effects of Surfactants on Organisms'; 'Biotic Mechanism of Self-Purification of Freshwater and Marine Water'; 'Pollution, Self-Purification and Restoration of Aquatic Ecosystems'; 'Biological Effects of Surfactants', (awarded in 2006).
Diploma of the Academy of Aquatic Sciences 'for his innovative contribution to improvement of environmental and ecological education', including the book 'Ecology and Hydrobiology. Curricula of Lecture Courses' (awarded in 2006).
Diploma of the Moscow Society of the Researchers of Nature (awarded in 2007).
The publications above [1-32] and other publications authored and coauthored by S.A.Ostroumov were commented and cited as valuable contributions in the following publications:
33. Chatzinikolaou Y., Ioannou A., Lazaridou M. Intra-basin spatial approach on pollution load estimation in a large Mediterranean river. – Desalination. 2010 (January) Volume 250, Issue 1, Pages 118-129. DOI:10.1016/j.desal.2008.12.062.
34. 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.
35. Dingjiang Chen, Jun Lu, Yena Shen. (D. Chen, J. Lu, Y. Shen) Artificial neural network modelling of concentrations of nitrogen, phosphorus and dissolved oxygen in a non-point source polluted river in Zhejiang Province, southeast China. // Hydrological Processes. Early View (Articles online in advance of print); Published Online: 21 Oct 2009; Copyright © 2010 John Wiley & Sons, Ltd.
36. Mohneke, M., Rödel, M.-O. Declining amphibian populations and possible ecological consequences - A review. // Salamandra, 2009, 45 (4), pp. 203-210.
37. Dafforn, K.A., Glasby, T.M., Johnston, E.L. Links between estuarine condition and spatial distributions of marine invaders // Diversity and Distributions 2009, v. 15 (5), pp. 807-821.
38. Stabili, L., Licciano, M., Longo, C., Corriero, G., Mercurio, M. Evaluation of microbiological accumulation capability of the commercial sponge Spongia officinalis var. adriatica (Schmidt) (Porifera, Demospongiae) Water Research, 2008, vol. 42 (10-11), pp. 2499-2506.
39. Bussell, J.A., Gidman, E.A., Causton, D.R., Gwynn-Jones, D., Malham, S.K., Jones, M.L.M., Reynolds, B., Seed, R. Changes in the immune response and metabolic fingerprint of the mussel, Mytilus edulis (Linnaeus) in response to lowered salinity and physical stress. - Journal of Experimental Marine Biology and Ecology, 2008, v. 358 (1), pp. 78-85.
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42. Abakumov V.A. Development of some concepts and issues of ecology and hydrobiology. — Ecol. Studies, Haz., Sol., 2006, v. 11, p. 34-38.
43. Abakumov V.A. Innovative approaches to remediation and restoration of polluted aquatic systems. – Water: Technology and Ecology. 2007. No. 4. p. 69-73.
44. Abakumov V.A. New achievements in the studies of aquatic ecosystems and organisms: the concept of ecological repair. - Water: Technology and Ecology. 2007. No. 2. p. 70-71.
45. Abakumov V.A. New advances in remediation and restoration of polluted aquatic systems. – Problems of Biogeochemistry and Geochemical Ecology. 2007, No. 2 (4), 98-100.
46. Abakumov V.A. New concept in the development of the theory of water self-purification: ecological repair. – Problems of Biogeochemistry and Geochemical Ecology. 2007, No. 2 (4), 45-46.
47. Aizdaicher N. A., Zh. V. Markina. Toxic effects of detergents on the alga Plagioselmis prolonga (Cryptophyta) // Russian Journal of Marine Biology [MAIK Nauka/Interperiodica, distributed by Springer ISSN1063-0740 (Print) 1608-3377 (Online)] Vol. 32, No. 1. 2006. P. 45-49. www.springerlink.com/index/D5P746W5P9G4G452.pdf. DOI 10.1134/S1063074006010068.
48. Ali, A.M.M. 2007. Water quality enhancement in Sloterbinnenpolder (Amsterdam, the Netherlands) by adopting ecological engineering approaches. M.Sc.Thesis EC 07.17. UNESCO-IHE (Institute for Water Education). 92 p.
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53. Dobrovolsky G.V. About development of some concepts of the teaching on the biosphere (the 80th anniversary of the publication of the book 'Biosphere' by V.I.Vernadsky). — Water: Technology and Ecology. 2007. No. 1, p. 63-68.
54. Dobrovolsky G.V. On the 80th anniversary of the book 'The Biosphere' by V.I.Vernadsky. Developing some important parts of the teaching on the biosphere. – Ecological Chemistry (Ekologicheskaya Khimiya). 2007, v.16(3), p.135–143.
55. Dobrovolsky G.V., G.S.Rozenberg, I.K. Toderas (Editors). Discovery of a New Type of Hazardous Anthropogenic Impact in Ecology of Animals and the Biosphere: Inhibition of the Filtration Activity of Bivalves by Surfactants. 2nd edition. Moscow. MAX Press. 2008. 108 p.
56. Dolgonosov B.M., Gubernatorova, T.N. A nonlinear model of contaminant transformations in an aquatic environment, 2005, Water Resources, 32 (3), pp. 291-304 [MAIK Nauka/ Interperiodica distributed by Springer. ISSN 0097-8078 (Print) 1608-344X (Online)]; Translated from ‘Vodnye Resursy’, Vol. 32, No. 3, 2005, pp. 322–336.
57. Dolgonosov B.M., Gubernatorova, T.N. Kinetics of the enzymatic decomposition of macromolecules with a fractal structure. - Theoretical Foundations of Chemical Engineering, 2007, 41 (6), pp. 868-877.
58. 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.
59. Ferk F., Misik M., Hoelzl C., Uhl M., Fuerhacker M., Grillitsch B., Parzefall W., Nersesyan A., Micieta K., Grummt T., Ehrlich V., Knasmüller S. Benzalkonium chloride (BAC) and dimethyldioctadecyl-ammonium bromide (DDAB), two common quaternary ammonium compounds, cause genotoxic effects in mammalian and plant cells at environmentally relevant concentrations // Mutagenesis. 2007 22(6): 363-370.
60. Filippenko, V. N. Gravi- and chemotropisms of the primary maize roots when affected by lead and cadmium. - Russian Journal of Plant Physiology, 2001, Vol. 48; Number 1, p. 12-18. [Nauka/ Interperiodica Publishing, USA, ISSN 1021-4437(Print) 1608-3407 (Online)] DOI10.1023/A:1009082011029 (translated from: Fiziologiia Rastenii).
61. 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.
62. Fuchedzhi O. A., S. A. Konnova, A. S. Boiko and V. V. Ignatov Role of the clasping-leaved pondweed ( Potamogeton perfoliatus) polysaccharides in formation of its bacterial environment. – Microbiology [MAIK Nauka/Interperiodica distributed by Springer Science+Business Media LLC.; ISSN 0026-2617 (Print) 1608-3237 (Online)] 2008 Volume 77, Number 1, p. 84-89. DOI10.1007/s11021-008-1012-7. Translated from:
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69. 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.
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84. Neofitou, C., Dimitriadis, A., Pantazis, P., Psilovikos, A., Neofitou, N., Paleokostas, A. Self-purification of a long-stretched gully affects the restoration of an alpine-type lake in northern Greece. - Fresenius Environmental Bulletin, 2005.14 (12 A), p. 1141-1149.
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93. Saratovskikh E. A., E. V. Shtamm. Effects of chlorinated phenols on DNA stability [= Vliyanie khlorsoderzhashchikh fenolov na stabil'nost' DNK]. - Khimicheskaya Fizika. 2007. - Vol. 26, No. 7, p. 67-73. [MAIK "Nauka/ Interperiodica"].
94. Selivanovskaya S.Y., V.Z. Latypova, N.Y. Stepanova, Y.T. Hung. Bioassay of Industrial and Hazardous Waste Pollutants. - In: Handbook of Industrial and Hazardous Wastes Treatment: Second Edition, Revised and Expanded (Editors: Lawrence K. Wang, Yung-Tse Hung, Howard H. Lo, Constantine Yapijakis) CRC Press, 2004, (in toto 1345 p.) [ISBN 0824741145, 9780824741143] P. 15-62.
95. Selivanovskaya S.Y., V.Z. Latypova, N.Y. Stepanova, Y.T. Hung . Bioassay of Industrial Waste Pollutant. - In: Hazardous Industrial Waste Treatment (Editors: L. K. Wang, Y.-T. Hung, H. H. Lo, C. Yapijakis). CRC Press, 2007, P. 15-62 (in toto 516 p.) [ISBN 0849375746, 9780849375743] [books.google.com].
96. Soldatov A. A., Gostyukhina O. L., Golovina I. V. Antioxidant enzyme complex of tissues of the bivalve Mytilus galloprovincialis Lam. under normal and oxidative-stress conditions: A review. - Applied Biochemistry and Microbiology, 2007. Vol. 43; No. 5, p. 556-562. [Publisher Springer Science + Business Media, ISSN 0003-6838, Translated from the journal: ‘Prikladnaia Biokhimiia i Mikrobiologiia’].
97. Stabili, L., Licciano, M., Giangrande, A., Longo, C., Mercurio, M., Marzano, C.N., Corriero, G. Filtering activity of Spongia officinalis var. adriatica (Schmidt) (Porifera, Demospongiae) on bacterioplankton: Implications for bioremediation of polluted seawater. - 2006, Water Research, v. 40 (16), pp. 3083-3090.
98. Valkiunas G. Practical importance of parasitic diseases: An outlook from the point of view of ecological parasitology. - Ekologija (Vilnius). 2001. Nr. 3, p. 28-33. [ISSN 0235–7224].
99. Vaughan R. A., Arthur P. Cracknell. Remote Sensing and Global Climate Change. 1994. 495 p.
100. Vaughn, C. C., Nichols, S. J., Spooner, D. E. Community and foodweb ecology of freshwater mussels // Journal of the North American Benthological Society. 2008. Vol. 27, Issue 2, P. 409-423.
101. Wang X., Y. An, J. Zhang, X. Shi, C. Zhu, R. Li , M. Zhu, S. Chen. Contribution of biological processes to self-purification of water with respect to petroleum hydrocarbon associated with No. 0 diesel in Changjiang Estuary and Jiaozhou Bay, China // Hydrobiologia, 2002. Volume 469, Numbers 1-3, P. 179-191.
102. Wildlife Toxicology and Population Modeling: Integrated Studies of Agroecosystems (SETAC Special Publications Series). Editors: Ronald J. Kendall, Thomas E. Lacher, [SETAC Foundation for Environmental Education, Society of Environmental Toxicology and Chemistry, SETAC] 1993. Publisher: CRC. 592 p. [ISBN-13: 9780873715911 ISBN: 0873715918].
103. Hartshorn G. S. A Russian "Silent Spring". - BioScience, 1992, Vol. 42, No. 7, p. 559-560;
104. Goldsmith F. B. Review: Conservation of Living Nature and Resources, by A. V. Yablokov; S. A. Ostroumov. - The Journal of Ecology, 1992. Vol. 80, No. 1, p. 186-187.
105. Zaitsev Iu.P., V.O. Mamaev, V. Mamaev. Marine Biological Diversity in the Black Sea: A Study of Change and Decline. - 1997 - United Nations Publications.
106. Botirov -E.X., A.A. Drenin, A.V. Makarova. Khimicheskoe issledovanie flavonoidov lekarstvennykh i pishchevykh rastenij. - Khimiya rastitel'nogo syr'ya. 2006. №1. p. 45–48 [=Chemical studies of flavonoids of…plants. – Chemistry of plant materials].
107. Braginskij L.P., L.A. Sirenko. Vsestoronnij analiz toksikologicheskoj opasnosti poverxnostno - aktivnykh veshchestv dlya gidrobiontov. - Gidrobiologicheskij zhurnal. 2003, Vol. 39, № 3, p. 115 - 118.
108. Dyozhkin V.V, L.V.Popova, - Ekologicheskaya etika i biologicheskoe prirodopol'zovanie.- -Elektronnyj zhurnal BioDat. = Electronic Journal BioDat. 14 July 2008. http://www.biodat.ru/doc/lib/degkin3.htm].
109. Makeeva V. M. Ekologo-geneticheskie osnovy okhrany zhivotnykh antropogennykh -ekosistem (na primere Moskvy i Podmoskov'ya). Avtoreferat dissertacii na soiskanie uchenoj stepeni doktora biologicheskikh nauk (Special'nost' 03.00.16 – Ekologiya). Moskva; vak.rbcsoft.ru/common/img/uploaded/files/vak/announcements/biolog/MakeevaVM.doc
110. Melekhova O.P., E.I.Egorova, T.I.Evseeva, V.M.Glazer, S.A.Geras'kin, YU.K.Doronin, A.A.Kitashova, A.V.Kitashov, YU.P.Kozlov, I.A.Kondrat'eva, G.V.Kossova, S.V.Kotelevtsev, D.N.Matorin, S.A.Ostroumov, S.I.Pogosyan, A.V.Smurov, G.N.Solovykh, A.L.Stepanov, N.A.Tushmalova, L.V.Cacenko. Biological Control of the Environment: Bioindication and Biotesting. Мoscow: Publishing Center Academia 2007, 288 p. ISBN 978-5-7695-3560-4.
111. Saratovskikh E. A., L. A. Korshunova, O. S. Roshchupkina, Yu. I. Skurlatov. Ingibirovanie NADN-oksidoreduktazy soedineniyami metallov. – Chemical Physics [= Inhibition of NADH-oxidoreductases by metal compounds. - Khimicheskaya fizika]. - Vol. 26, No. 8, 2007, p. 46-53.
112. Ermakov V. V., Tjutikov S.F. Geohimicheskaja ekologija zhivotnyh. – Moscow: Nauka, 2008;
113. Bussell, J. A., E. A. Gidman, D. R. Causton, D.Gwynn-Jones, S. K. Malham, M. L.M. Jones, B. Reynolds and R.Seed. Changes in the immune response and metabolic fingerprint of the mussel, Mytilus edulis (Linnaeus) in response to lowered salinity and physical stress. - Journal of Experimental Marine Biology and Ecology. 2008, Volume 358, Issue 1, Pages 78-85. [doi:10.1016/j.jembe.2008.01.018]
114. Jiang, J.-G., and Y.-F. Shen. Estimation of the natural purification rate of a eutrophic lake after pollutant removal. - Ecological Engineering. 2006, Volume 28, Issue 2, Pages 166-173. [doi:10.1016/j.ecoleng.2006.06.002]
115. Safi K. A., J. E. Hewitt and S. G. Talman. The effect of high inorganic seston loads on prey selection by the suspension-feeding bivalve, Atrina zelandica. - Journal of Experimental Marine Biology and Ecology, 2007, Volume 344, Issue 2, Pages 136-148.
116. Pandey J., Chauhan A., Jain R.K. Integrative approaches for assessing the ecological sustainability of in situ bioremediation. - FEMS Microbiology Reviews 2008, Volume 33, Issue 2, Pages 324 – 375.
117. Samal N. R.; A. Mazumdar; K. D. Jöhnk; F. Peeters. Assessment of ecosystem health of tropical shallow waterbodies in eastern India using turbulence model. - Aquatic Ecosystem Health & Management, 1539-4077, Volume 12, Issue 2, 2009, Pages 215 – 225.
FULL TEXTS OF SOME OF THE PUBLICATIONS, and SHORT CONTENTS see at:
http://blog.researchgate.net/masterblog/299_Inhibitory_Analysis_A_new_method_for_analyzing_interactions_between_organisms_in_ecosystems;
https://www.researchgate.net/profile/Sergei_Ostroumov/blog/347_Biodiversity_and_stability_of_ecosystems;
http://blog.researchgate.net/masterblog/276_New_threat_to_water_quality_discovery_of_the_new_important_type_of_hazards_from_pollution_Synecological_summation_of_effects_on_different_trophic_levels;
http://blog.researchgate.net/masterblog/255_Criteria_of_ecological_hazards_due_to_anthropogenic_effects_on_the_biota_Searching_for_a_system;
http://blog.researchgate.net/masterblog/262__The_Concept_of_Aquatic_Biota_as_a_Labile_and_Vulnerable_Component_of_the_Water_SelfPurification_System;
http://blog.researchgate.net/masterblog/241_innovative_concept_of_ecosystem_as_a_multifunctional_bioreactor_one_of_its_functions_is_upgrading_water_quality_ecosystem_service;
http://blog.researchgate.net/masterblog/180_A_new_type_of_effect_of_potentially_hazardous_substances
http://blog.researchgate.net/masterblog/369_Vulnerability_of_Major_Plankton_Groups_Rotifers;
https://www.researchgate.net/profile.ProfileBlogEntry.html?dbw=true&blogId=373;
https://www.researchgate.net/profile/Sergei_Ostroumov/blog/388_new_keys_to_prevent_pollution_eutrophication_algal_blooms;
http://blog.researchgate.net/masterblog/379_Underwater_Secrets_of_Global_Change;
https://www.researchgate.net/profile/Sergei_Ostroumov/blog/407_New_concept_of_ecosystem
https://www.researchgate.net/profile/Sergei_Ostroumov/blog/410_New_Concept_of_Ecosystem;
http://blog.researchgate.net/masterblog/410_A_New_Concept_For_Ecosystems;
http://sites.google.com/site/2000dbs371p204criteria/
http://sites.google.com/site/2000dbs373p397biocatallstag/
http://sites.google.com/site/2000dbs374p514bioreactor/
http://sites.google.com/site/2001dbs379p378pellets/
http://sites.google.com/site/2001dbs377p139inhibitory/
http://sites.google.com/site/2001dbs378p248effammaroyst/
http://sites.google.com/site/2001dbs380p499synerg/
http://sites.google.com/site/2001dbs380p492unio/
http://sites.google.com/site/2dbs382p18biodivers/;
http://sites.google.com/site/bioeffectsofsurfactants/
http://sites.google.com/site/surfactantinhibitfilterfeed02/
http://sites.google.com/site/3surfactantsfiltrationmytilus/
http://sites.google.com/site/9dbs444/;
https://www.researchgate.net/file.FileLoader.html?key=8fd8998627b86102db72c9b237c25054;
http://scipeople.com/uploads/materials/4389/Danbio6_2001v381n5.E.eutrophication.pdf;
https://www.researchgate.net/file.FileLoader.html?key=d988acb599e121964c48114374a87e8d;
https://www.researchgate.net/file.FileLoader.html?key=888352078b275ef40a430eb5b4d7714c; https://www.researchgate.net/profile/Sergei_Ostroumov/blog/359_How_to_establish_a_new_type_of_reserves_to_protect_aquatic_biodiversity_and_ecosystem_services;
https://www.researchgate.net/file.FileLoader.html?key=997c8c86899d5a6e24531054ad1bcd1e;
https://www.researchgate.net/file.FileLoader.html?key=e533be77c87735c6dcc5cfdb9db96cec;
http://scipeople.com/uploads/materials/4389/CPEC2008BasicsMolEcol.Mech.WaterQuali(0147.pdf;
http://scipeople.com/uploads/materials/4389/5Hydr542p275water.filt.doc;
http://www.moipros.ru/files/author_4_article_9.doc; http://scipeople.com/uploads/materials/4389/2Hydrobiologia469p117w%20Addendum.DOC;
http://scipeople.com/uploads/materials/4389/4Rivista.Biologia97p39Aquatic..Bioreactor.RTF;
http://scipeople.com/uploads/materials/4389/3RivistaBio96Priorities2.rtf;
http://scipeople.com/users/2943391/
http://scipeople.com/group/334/
http://scipeople.com/group/334/topic/1485/
https://www.researchgate.net/profile/Sergei_Ostroumov/blog/409_most_cited_publications_by_Dr_SA_Ostroumov_in_English_available_online;
http://blog.researchgate.net/masterblog/466_The_Threat_of_Shampoo_to_the_Biosphere;
http://scipeople.com/uploads/materials/4389/2010Nakoplenie.Preprint(Part.1.(BioshereEcotoxGeochem.doc;
ADDITIONAL REFERENCES OF RELEVANT PUBLICATIONS see:
http://sites.google.com/site/ostroumovsapublicationsineng/
http://sites.google.com/site/ostroumovsergei/
http://sites.google.com/site/bioticupgradewaterquality2008/
http://sites.google.com/site/ostroumovsa/
http://sites.google.com/site/biochemicalecology/
http://sites.google.com/site/ostroumovsapublicationsruen/
http://sites.google.com/site/ostroumovsergei/publications-that-cited-saostroumov
http://sites.google.com/site/biosphereostroumov/home
http://sites.google.com/site/ecologytobemostcitedtomorrow/home
http://sites.google.com/site/ecologytobemostcitedtomorrow/list-of-publications-by-sa-ostroumov
http://scipeople.ru/users/2943391/
https://www.researchgate.net/profile/Sergei_Ostroumov/blog/321_Discovery_of_the_system_where_chemical_pollution_could_impair_the_regulation_and_balance_in_the_abundance_of_phytoplankton_threat_to_ecological_stability_ ;
POSITIVE EVALUATIONS of some of the results published by S.A. Ostroumov see in:
Petrosyan V.S. Review of the book: Biological Effects of Surfactants. CRC Press. Taylor & Francis. - Ecological Studies, Hazards, Solutions, 2007. vol. 12, p. 117-119 (in English);
Review of the book: Ostroumov S.A. Biological Effects of Surfactants. CRC Press. Taylor & Francis. Boca Raton, London, New York. 2006. 279 p. – Bulletin Samarskaya Luka. - 2007. - V. 16, № 4(22). - P. 864-867. Bibliogr. 10 refs. http://www.ssc.smr.ru/media/journals/samluka/2007/16_4_22.pdf;
Review of the book: Biological Effects of Surfactants. CRC Press. Taylor & Francis. Boca Raton, London, New York. 2006. 279 p. // Problems of Biogeochemistry and Geochemical Ecology. 2007. № 2 (4). p.108;
Review of the book: S.A. Ostroumov. Biological Effects of Surfactants (2006). - Ecologica, 2008. v.15, No. 51, p. 71-72. (ISSN 0354-3285; in English);
Review of the book: Ostroumov S.A. Biological Effects of Surfactants. CRC Press. Taylor & Francis. Boca Raton, London, New York. 2006. 279 p. – Toxicological Review [Toksikologicheskij Vestnik], 2009, No. 2, p. 40;
POSITIVE COMMENTS OF INTERNATIONAL EXPERTS see:
http://blog.researchgate.net/masterblog/347_Biodiversity_and_stability_of_ecosystems;
https://www.researchgate.net/group/Water_quality_Water_self-purification_role_of_biota/board/thread/4400_A_new_way_of_eutrophication_control?viewLast=true;
https://www.researchgate.net/group/Water_quality_Water_self-purification_role_of_biota/board/thread/4412_want_to_be_part_of_you?viewLast=true;
https://www.researchgate.net/group/Science_Communication/board/thread/4494_New_data_help_save_energy_and_effort_in_water_trea?c=16875#c16875;
https://www.researchgate.net/group/Environmental_researches_malacology/board/thread/2179_Sewage_outfalls_into_water_courses?viewLast=true;
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Biotic self-purification of aquatic ecosystems: From the theory to ecotechnologies
(публикация автора на scipeople)
Ostroumov S.A.
- Ecologica , 2009
Ostroumov S.A. Biotic self-purification of aquatic ecosystems: From the theory to ecotechnologies. – Ecologica 2007, vol. 15, No. 50, p. 15-21.
(Faculty of Biology, Moscow State University, Moscow, Russia)
Basic elements of a new theory for the...
Ostroumov S.A. Biotic self-purification of aquatic ecosystems: From the theory to ecotechnologies. – Ecologica 2007, vol. 15, No. 50, p. 15-21.
(Faculty of Biology, Moscow State University, Moscow, Russia)
Basic elements of a new theory for the biological mechanism for water self-purification are presented. Hydrobionts (aquatic organisms) are actively involved in various processes leading to water purification. Not only microorganisms (bacteria, cyanobacteria and fungi), but also algae, plants, invertebrates, and many other groups of organisms are involved, which is discussed and analyzed in the paper. Results of the author's experiments that study the effects of various pollutants on aquatic organisms (freshwater and marine bivalves) are given. The theory is an innovative basis for developing ecological technologies to clean water and to upgrade its quality by using organisms and ecosystems. This paper generalizes and systematizes the basics of the author’s theory of the multifunctional role that the biota plays in the self-purification and ecological remediation of aquatic ecosystems using the results of previous analyses and the theory of the functioning of aquatic ecosystems. It is expected that on the basis of this theory some efficient ecotechnologies will emerge to remediate and restore polluted aquatic systems. The paper is based on the presentations that the author made at a scientific seminar in the V.I. Vernadsky Institute of Geochemistry and Analytical Chemistry, at the conferences 'Aquatic Ecosystems and Organisms-6' (the 6th international conference that was run in Moscow in 2004) and 'Aquatic Ecosystems and Organisms-7' (the 7th international conference, Moscow, 2005), XXIX Congress of International Association of Theoretical and Applied Limnology, and other conferences.
Key words:
aquatic ecosystems; water bodies; water streams; aquatic pollution; bioremediation; phytoremediation; filter-feeders; bivalves; water self-purification, freshwater, marine, water quality, pollution, biota, ecotechnology
References:
Alimov, A.F. (1981) Functional ecology of freshwater bivalves. Leningrad: Nauka Press;
Ostroumov, S.A. (2002) Dokl. Akad. Nauk, vol. 383, No. 5, 710-713;
Ostroumov, S.A. (2002) Dokl. Akad. Nauk, vol. 385, No. 4, 571-573;
Ostroumov, S.A. (1975) Vestnik Akademii Nauk, vol. 73, No. 3, 232-238;
Ostroumov, S.A. (2002) Hydrobiologia, vol. 469, 117-129;
Ostroumov, S.A. (2004) On the biotic self-purification of aquatic ecosystems. Dokl. Akad. Nauk, vol. 396, No. 1, 136-141;
Ostroumov, S.A. (2006) Biomachinery for maintaining water quality and natural water self-purification in marine and estuarine systems: Elements of a qualitative theory. International Journal of Oceans and Oceanography, vol. 1, No. 1, 111-118;
Ostroumov, S.A. (2005) Some aspects of water filtering activity of filter-feeders. Hydrobiologia, vol. 542, No. 1, 275-286;
Ostroumov, S.A., Walz, N., Rusche, R. (2003) Effect of a cationic amphiphilic compound on rotifers. Dokl. Akad. Nauk, vol. 390, No. 3, 423-426;
Alimov A.F. (2000) Elements of Aquatic Ecosystem Function Theory. St. Petersburg: Nauka. 148 p.;
Ostroumov, S.A., Widdows, J. (2006) Inhibition of mussel suspension feeding by surfactants of three classes. Hydrobiologia, vol. 556, No. 1, 381-386;
Ostroumov, S.A. (2006) Biological Effects of Surfactants. London-New York: CRC-Taylor & Francis;
Ostroumov, S.A. (1986) Introduction to Biochemical Ecology. Moscow: Moscow State. Univ;
Ostroumov, S.A. (2000) Dokl. Akad. Nauk, vol. 374, No. 3, 427-429;
Ostroumov, S.A. (2000) Dokl. Akad. Nauk, vol. 375, No. 6, 847- 849;
Ostroumov, S.A. (2000) Dokl. Akad. Nauk, vol. 372, No. 2, 279-282;
Ostroumov, S.A. (2001) Biological effects of surfactants on organismy (Biologicheskie effekty pri vozdeistvii poverkhnostno-aktivnykh veshchestv na organizmy). Moscow: MAKS Press (in Russian);
Ostroumov, S.A. (2001) Dokl. Akad. Nauk, vol. 381, No. 5, 709-712;
Ostroumov, S.A. (2002) Dokl. Akad. Nauk, vol. 382, No. 1, 138-141;
Sushchenya, L.M. (1975) Kolichestvennye zakonomernosti pitaniya rakoobraznykh. Minsk: Nauka i Tekhnika;
Wetzel, R.G. (2001) Limnology: Lake and river ecosystems. San Diego: Academic Press.
Ecologica 2007, vol. 15, No. 50, p. 15-21. In English. |
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7. |
Элементы теории биоконтроля качества воды: фактор экологической безопасности источников водоснабжения (=Elements of the theory of biocontrol of water quality: a factor in the ecological safety of the sources of water)
(публикация автора на scipeople)
Остроумов С.А.
- Химическая и биологическая безопасность. , 2009
Остроумов С.А. Элементы теории биоконтроля качества воды: фактор экологической безопасности источников водоснабжения (=Elements of the theory of...
Остроумов С.А. Элементы теории биоконтроля качества воды: фактор экологической безопасности источников водоснабжения (=Elements of the theory of biocontrol of water quality: a factor in the ecological safety of the sources of water) // Химическая и биологическая безопасность. 2008. № 5-6. с.36-39. Библиогр. 22 назв.
[http://www.cbsafety.ru/rus/saf_41_3.asp] УДК 574.6: 574.635: 602.7: 626.
119234, Москва, Ленгоры, Московский гос. университет им. М.В. Ломоносова, биологический факультет.
РЕФЕРАТ: Представлена новая теория биомеханизмов самоочищения воды, изложенная в книге автора «Гидробионты в самоочищении вод и биогенной миграции элементов» (М.: МАКС Пресс, 2008, 200 с.). Гидробионты активно участвуют в процессах, ведущих к очищению воды. В них участвуют почти все группы живых организмов, что анализируется в статье с различных сторон. При разработке теории были использованы результаты опытов автора, изучавшего воздействие поллютантов на живые организмы. Изложенная теория служит инновационной основой для создания новых экотехнологий очищения воды и повышения ее качества с использованием водных организмов. Представлены и обоснованы новые основные концепции, в том числе понятия и термины: biomachinery, экзометаболизм, экологические хеморегуляторы, экологические хемомедиаторы, макросимбиотические системы и другие. Новые результаты автора по выявлению свойства синтетических поверхностно-активных веществ (ПАВ) подавлять фильтрацию воды двустворчатыми моллюсками были признаны научным открытием и отмечены Дипломом за научное открытие № 274. Теория вносит вклад в научные основы укрепления экологической безопасности водных экосистем (водоемов и водотоков), которые служат источниками водоснабжения.
Ostroumov S.A. Elements of the theory of biocontrol of water quality: a factor in the ecological safety of the sources of water. // Chemical and Biological Safety (=Himicheskaja i biologicheskaja bezopasnost' , Moscow). 2008. No. 5-6. p.36-39. ABSTRACT: A new theory for the biomechanisms for water self-purification is presented in the author’s book ‘Aquatic Organisms in Water Self-Purification and Biogenic Migration of Elements’ (2008, 200 p.). Hydrobionts (aquatic organisms) are actively involved in various processes leading to water purification. Almost all main groups of organisms are involved, which is discussed and analyzed in the paper. In the theory, the results of the author's experiments on the effects of various pollutants on aquatic organisms were used. The theory is an innovative basis for new ecological technologies to clean water and to upgrade its quality by using aquatic organisms. New fundamental concepts were introduced and discussed, including the concepts and terms: biomachinery, exometabolism, ecological chemoregulators, ecological chemomediators, macrosymbiotic system and others. The new authors’s results on the surfactant-induced inhibition of water filtration by bivalves were recognized as a scientific discovery. As a result, the author was awarded Diploma for Scientific Discovery No. 274. The theory is a contribution to the scientific basis for environmental safety of the aquatic ecosystems (aquatic bodies and streams) that serve as sources of water supply.
Ключевые слова: качество воды, водные экосистемы, самоочищение воды, загрязнение; загрязняющие вещества, поллютанты, ксенобиотики, синтетические химические вещества, биотестирование, экологическая опасность, инновации, экологическая безопасность, источники водоснабжения, устойчивое использование, водные ресурсы, ресурсы пресной воды, морские, поверхностные водные экосистемы, новая концепция, экзометаболизм, биотрансформации, биодеградация, разложение, водоемы, водотоки, хеморегуляторы, макросимбиотические системы, биогенная миграция элементов, научное открытие № 274, антропогенное воздействие, экология, геохимия, репарация, поверхностно-активные вещества, ПАВ, детергенты, моющие средства, фильтраторы, биоконтроль, самоочистительный потенциал экосистемы, фитотехнология, фиторемедиация, экобиотехнология.
Key words: Water quality, aquatic ecosystems, water self-purification, pollution; pollutants, xenobiotics, synthetic chemicals, bioassays, biotesting, ecological hazards, innovations, environmental safety, sources of water supply, sustainable use, aquatic resources, freshwater, marine, surface aquatic ecosystems, new concept of exometabolism, pollutants, biotransformation, biodegradation, destruction, water bodies, streams, chemoregulators, macrosymbiotic system, biogenic migration of elements, scientific discovery No. 274, anthropogenic impact, ecology, geochemistry, repair, biomachinery, surfactants, tensides, detergents, filter-feeders, biocontrol, self-purification potential of ecosystems, phytotechnology, phytoremediation, ecobiotechnology.
Остроумов С.А. Элементы теории биоконтроля качества воды: фактор экологической безопасности источников водоснабжения (=Elements of the theory of biocontrol of water quality: a factor in the ecological safety of the sources of water) // Химическая и биологическая безопасность. 2008. № 5-6. с.36-39.
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