Books. Results of Moscow University. biology, nature conservation, environmental science, water quality, water, including 280-page list of publications;
Part 3.
https://5bio5.blogspot.com/2017/11/books-3.html;
Conservacion de la Naturaleza Viva: problemas y perspectivas. https://www.researchgate.net/publication/266145872;
Book in Spanish;
Jan 1989;
Editorial Vneshtorgizdat Press. Editorial Científico-Técnica.
Yablokov A.V.,
Sergei A. Ostroumov,book, Spanish edition: https://www.researchgate.net/publication/266145872; Yablokov A.V., Ostroumov S.A. Conservacion de la Naturaleza Viva: problemas y perspectivas. 1989. Editorial Vneshtorgizdat Press. Editorial Científico-Técnica. 238 p., with figures, tables. Bibliography: p. 234-235. [ill.; 22 cm]. Hardcover (in Spanish). Translation from Russian into Spanish. Authors: Russian Academy of Sciences, Moscow State University; ** Citation of this book, selected examples: 2016. Ecuador, new recent citation: The environmental science book of Moscow University author (Sergei Ostroumov) was cited in Spanish-language article of researchers from South America: Today it was made available online free: the article in Spanish. Citation of book on nature conservation (authors of the book: A.V.Yablokov, S.A.Ostroumov). The book in Spanish. https://www.researchgate.net/publication/311707861; http://5bio5.blogspot.com/…/today-it-was-made-available-onl… These authors in Ecuador cited the book (authored by A.Yablokov, S. Ostroumov): Rolando Medina Peña y Arturo Bofill Placeres (2016): “Protección del medio ambiente y sus Ecosistemas: una mirada desde la sociopedagogia”, Revista Contribuciones a las Ciencias Sociales, (octubre-diciembre 2016). En línea; Citation of the book: Yablokov, A.; Ostroumov, S. “Conservación de la naturaleza viva: problemas y perspectivas”, Editorial Unestorgizdad, Moscú. https://www.researchgate.net/publication/266145872; *** ANOTHER EXAMPLE OF CITATION OF THIS BOOK: Citation in 2017, citation of: Yablokov, A.V.; Ostroumov, S.A. Conservación de la naturaleza viva. Problemas y perspectivas. VIPO Vneshtorgisdat, Moscú, 1989. About this book see: https://www.researchgate.net/publication/266145872; This book was cited in the publication in Spanish, by: Juan Abreu Payrol, Inidia Rubio Vargas. Instituto de Farmacia y Alimentos, Universidad de La Habana, Cuba ; Revista de Ciencias Farmacéuticas y Alimentarias / www.rcfa.uh.cu ISSN: 2411-927X / RNPS: 2396 / Vol.3 / Nº.1 - 2017 Septiembre - Marzo Recibido: 14 de feb. 2017 - Aceptado: 27 de feb.2017; 1 LAS PLANTAS MEDICINALES Y LA MEDICINA TRADICIONAL. I. (REVISIÓN). Juan Abreu Payrol, Inidia Rubio Vargas. Instituto de Farmacia y Alimentos, Universidad de La Habana, Cuba ; http://5bio5.blogspot.com/2017/05/citation-in-2017-citation-of-yablokov.html Email: jabreu@ifal.uh.cu RESUMEN: En este trabajo se hace un análisis de la situación relacionada con la conservación de las plantas medicinales y los conocimientos de medicina tradicional, su valor económico y cultural, qué es necesario para manejar las prácticas ancestrales relacionadas con estas alternativas terapéuticas de forma sostenible, aspectos concebidos incluso desde la visión del organismo rector mundial, la Organización Mundial de la Salud (OMS). Se resume la opinión de importantes especialistas en el tema. Palabras clave: Plantas medicinales, Medicina tradicional, Desarrollo sostenible, Medio ambiente, Conservación. MEDICINAL PLANTS AND TRADITIONAL MEDICINE. I. (REVIEW) ABSTRACT This work is about an analysis of the situation related with the conservation of the medicinal plants and the knowledge of traditional medicine, their economic and cultural value, what is necessary to manage the ancestral practices related with these therapeutic alternatives in a sustainable way, aspects even conceived from the vision of world rector organism, World Organization of the Health (WHO). It is an opinion resume of relevants specialists in the theme. Keywords: Medicinal plants, Traditional medicine, Sustainable development, Environment, Conservation. ** ** Availability of the book in U.S. libraries in NY and CA: http://5bio5.blogspot.ru/2017/02/availability-of-useful-book-on.html; ***
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Added to the project: Creation of a new scientific discipline, a new ecological science, namely, biochemical ecology
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Lots of links to publications - Environmental science, ecology, water quality, ecotoxicology - with links to full texts online free. 11-page list. https://www.researchgate.net/publication/309921195;
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Sergei A. Ostroumov;Остроумов С.А.;Lots of links to publications of the most read researcher - Environmental science - from Russia, with links to full texts online free. 11-page list. http://5bio5.blogspot.com/2016/11/publications-of-most-read-researcher.html;
** Lots of English titles, with more than 50 links to publications online! environmental, science, toxicology, water quality, water purification, self-purification, toxicity, detergents, nanomaterials, Dr. Sergei A. Ostroumov, http://5bio5.blogspot.com/2016/11/repost-lots-of-english-titles-with-more.html;
previous posts: here the beginning of this list is given:
http://5bio5.blogspot.com/2016/09/lots-of-english-titles-with-more-than.html
the entire list of more than 50 links see here: http://5bio5.blogspot.com/2016/09/english-titles-with-links-environmental.html;
The main results of these publications: These publications contain 3 main results: (1) discovery of new facts of new types of environmental hazards from chemical pollution. (2) on the basis of the new facts, a productive concept of biological mechanims for water purification was formulated. The author developed this productive concept into a new useful theory of water self-purification in ecosystems. This theory identified, explained and made more understandable a number of interacting natural processes, namely, the processes which work together towards improving water quality in lakes, rivers and seas. (3) new facts were discovered which will be useful in developing new green technologies to purify water, to decontaminate polluted water.
Evidence of merit. Many of these publications are In the top 25% of all research outputs scored by Altmetric; the publications were cited in many parts of the world as diverse as U.S., Russia, Australia, China, India, Argentina, U.K., France, Brazil, Sweden, South Africa, Netherlands, Egypt, Austria, Pakistan, Germany et al.
Who is the author: Fulbright Award winning researcher at Moscow University, ex-Visiting Professor at U.S. universities; ResearchGate rating, percentile: Sergei's score is higher than 92.5% of ca. 10 million ResearchGate members'. According to ResearchGate rating, he is the most read author among the faculty of his university.
Publications with useful links:
Book. Biological effects of surfactants [both the paper book and electronic resource] By: Ostroumov, S. A.. Boca Raton : CRC/Taylor & Francis, 2006. (279 p.); [among 100 bestsellers in Toxicology] https://www.researchgate.net/publication/200637626 Book. Yablokov A.V. and Ostroumov S.A. Conservation of Living Nature and Resources: Problems, Trends, Prospects. Springer-Verlag Berlin, Heidelberg, New York, London, Paris, Tokyo, Hong Kong, Barcelona, Budapest. Springer. (1991). XII. 272 p.: https://www.researchgate.net/publication/200637729 DOI: 10.1007/978-3-642-75376-3; ISBN: 978-3-642-75376-3 (eBook); Softcover ISBN 978-3-642-75378-7; Book Chapter: Ostroumov S. A. Suspension-feeders as factors influencing water quality in aquatic ecosystems. In: The Comparative Roles of Suspension Feeders in Ecosystems. (Editors: Dame, Richard F., Olenin, Sergej ). 2005. Springer Dordrecht, Berlin; p.147-164. (Chapter 9). ISBN 978-1-4020-3030-7; (e-book) Springer Dordrecht, Berlin; Full text of the book online free: https://www.researchgate.net/publication/295548534; DOI for the book: DOI 10.1007/1-4020-3030-4; Hardcover ISBN 978-1-4020-3028-4; Softcover ISBN 978-1-4020-3029-1; Tags: review, aquatic invertebrates, role in ecosystems, ecological role, water quality, filter-feeders, water filtration, aquatic, ecosystems, water self-purification, freshwater, marine, ecotoxicology, toxic effects, surfactants, detergents, opinion paper, bivalve mollusks, clearance rate, Articles: On Some Issues of Maintaining Water Quality and Self-Purification; https://www.researchgate.net/publication/215586879. Water Resources 05/2005; 32(3):305-313. Ostroumov S. A.; DOI:10.1007/s11268-005-0039-7; Keywords/tags: water resources, water quality, aquatic ecosystem, water purification, protection of environment, aquatic organisms, toxic effects of chemicals, review, On the multifunctional role of the biota in the self-purification of aquatic ecosystems. https://www.researchgate.net/publication/227317445; https://www.researchgate.net/publication/200567576. Russian Journal of Ecology 01/2005; 36(6):414-420. SA Ostroumov: DOI:10.1007/s11184-005-0095-x; Keywords/tags: water resources, water quality, aquatic ecosystem, water purification, protection of environment, aquatic organisms, toxic effects of chemicals, theory of ecosystem function, Some aspects of water filtering activity of filter-feeders. https://www.researchgate.net/publication/226902807. Hydrobiologia 01/2005; 542(1):275-286; S. A. Ostroumov; DOI:10.1007/s10750-004-1875-1; Keywords/tags: water resources, water quality, aquatic ecosystem, water purification, protection of environment, aquatic organisms, toxic effects of chemicals, role of organisms in ecosystem function, On the Biotic Self-purification of Aquatic Ecosystems: Elements of the Theory. Doklady Biological Sciences 11/2004; 396:206-211. Ostroumov S. A: DOI:10.1023/B:DOBS.0000033278.12858.12; https://www.researchgate.net/publication/200567576; https://www.researchgate.net/publication/259335499; Keywords/tags: ecological theory, water resources, water quality, aquatic ecosystem, water purification, protection of environment, aquatic organisms, toxic effects of chemicals, role of organisms in ecosystem function, he Effect of Synthetic Surfactants on the Hydrobiological Mechanisms of Water Self-Purification: https://www.researchgate.net/publication/227176754. Water Resources 08/2004; 31(5):502-510. S. A. Ostroumov: T DOI:10.1023/B:WARE.0000041919.77628.8d; Keywords/tags: detergents, synthetic surfactants, water resources, water quality, aquatic ecosystem, water purification, protection of environment, aquatic organisms, toxic effects of chemicals, role of organisms in ecosystem function, mollusks, Basics of the molecular-ecological mechanism of water quality formation and water self-purification. https://www.researchgate.net/publication/200583098. Contemporary Problems of Ecology 02/2008; 1(1):147-152. Ostroumov S. A.: DOI:10.1134/S1995425508010177; Tags: water quality, aquatic pollution, pollution control, water purification, aquatic ecosystem, aquatic organisms, environmental toxicology, mollusks, freshwater, marine water, More titles and web-pages, more recent publications - see the link at the beginning of this file, namely: http://5bio5.blogspot.com/2016/09/english-titles-with-links-environmental.html ** Article: Immobilization of scandium and other chemical elements in systems with aquatic macrophyte. https://www.researchgate.net/publication/292950214; Russian Journal of General Chemistry 85(13): 2929-2932 · December 2015, DOI: 10.1134/S1070363215130083; Tags: aquatic plants (Myriophyllum aquaticum), measurements, inductively coupled plasma atomic emission spectroscopy (ICP-AES), chemical elements (scandium, Ce, In, Se, Ru, Pd, U, and Zr), ** Aquatic ecosystem service: Improving water quality. Multifunctional role of the biota in water self-purification in marine and freshwater ecosystems; Sergei A. Ostroumov; Tags: Aquatic ecosystem, Improving water quality, role, aquatic organisms, biological community, water purification, marine ecosystems, freshwater ecosystems, https://www.researchgate.net/publication/283906367. ** Publications 2014-2013 (the titles were transliterated), environmental science, ecology, biology; https://www.researchgate.net/publication/264197158. Sergei A. Ostroumov; Toxicity of Gold Nanoparticles for Plants in Experimental Aquatic System; https://www.researchgate.net/publication/265551300; Moscow University Biological Sciences Bulletin 07/2014; 69(3):108–112.Sergei A. Ostroumov, V. A. Poklonov, S. V. Kotelevtsev, S. N. Orlov; DOI:10.3103/S0096392514030080; Tags: new method for finding toxicity, aquatic higher plants, nanomaterials, gold, aquatic toxicology, environmental toxicology, discovery of toxicity of gold, Phytotoxicity of a surfactant-containing product towards macrophytes; https://www.researchgate.net/publication/263456086. [Mini-abstract: Detergent was found to be toxic to aquatic higher plants; tags: synthetic detergent, aquatic plants, elodea, toxicity, aquatic toxicology, environmental toxicology] Russian Journal of General Chemistry 12/2013; 83(13). S. A. Ostroumov, E. A. Solomonova; DOI:10.1134/S1070363213130057; Papers-Ecology, Environment, Water, Ecotoxicology-available online free, with short comment on what is new. https://www.researchgate.net/publication/220035304. Ostroumov S.A, co-authors: Study of the interactions between Elodea canadensis and CuO nanoparticles; https://www.researchgate.net/publication/257860248. Russian Journal of General Chemistry 12/2011; 81(13). M. E. Johnson, S. A. Ostroumov, J. F. Tyson, B. Xing; DOI:10.1134/S107036321113010X; Tags: environmental toxicology and chemistry, aquatic vegetation, aquatic higher plants, elodea, toxic effects, nanomaterials, copper oxide, new facts about toxicity of nanoparticles, sorption, biosorption, biogeochemistry; Toxicology of nanomaterials and environment; Sergei A. Ostroumov, Kotelevtsev S. V: https://www.researchgate.net/publication/265554014. Гидробиология. Экология. он-лайн. Ecology, Hydroecology, Hydrobiology, Biology: Annotated list of materials available online. Ostroumov S.A.: https://www.researchgate.net/publication/216320815. Biocontrol of water quality: Multifunctional role of biota in water self-purification; https://www.researchgate.net/publication/227303635. Russian Journal of General Chemistry 12/2010; 80(13):2754-2761. S. A. Ostroumov: DOI:10.1134/S1070363210130086; Tags: role of aquatic organisms, water quality, water purification, aquatic ecosystems, aquatic plants, aquatic invertebrate animals, water filtration, Tags in Chinese: 水生生物,水质,水净化,水生生态系统,水生植物,水生无脊椎动物,水过滤的作用, The Role of Biodetritus in Accumulation of Elements in Aquatic Ecosystems; https://www.researchgate.net/publication/225471572. Contemporary Problems of Ecology 08/2010; 3(4):369-373. DOI:10.1134/S1995425510040016; S. A. Ostroumov, G. M. Kolesov: Tags: aquatic ecosystems, chemical elements, organic matter, bottom sediments, detritus of biological origin, sorption of chemical elements, measurement of concentration of chemical elements, Ca , Zn, Ba,Br,Ce, Se, Nd, La, U, Hf, Sb, Th, Sm, S, Cs, Au, uranium, gold, rare earth elements, neutron activation analysis, aquatic mollusks (Viviparus viviparus, Unio pictorum), aquatic plants (Ceratophyllum demersum), freshwater mollusks, Tags in Chinese: 水生生态系统中,化学元素,有机物,底部沉积物,生物来源的碎屑,化学元素的吸附,化学元素,钙,锌,钡,溴,铈,硒,钕,镧,铀,铪,锑的浓度的测定,钍,Sm,S,铯,金,铀,金,稀土,中子活化分析,水生软体动物(胎生胎生,珠蚌pictorum),水草(金鱼藻),淡水软体动物, New contributions to fundamental concepts. Item 2. EXPANDING THE CONCEPTUAL APPARATUS OF ECOLOGY: A NEW TYPOLOGY OF MIGRATION OF ELEMENTS AND MATTER IN THE ECOSYSTEM (BIOSPHERE). S.A. Ostroumov: https://www.researchgate.net/publication/200751556. The aquatic macrophyte Ceratophyllum demersum immobilizes Au nanoparticles after their addition to water. https://www.researchgate.net/publication/44634488. Doklady Biological Sciences 04/2010; 431:124-127. DOI:10.1134/S0012496610020158; S A Ostroumov, G M Kolesov: Tags: aquatic higher plants, Ceratophyllum demersum, sorption, biosorption, immobilization, gold, Au, nanoparticles, nanomaterials, nanoscience, water, neutron activation analysis, Tags in Chinese: 水生高等植物,金鱼藻,吸附,吸附,固定化,黄金,金,纳米颗粒,纳米材料,纳米,水,中子活化分析, Водный МАКРОФИТ CERATOPHYLLUM DEMERSUM ИММОБИЛИЗУЕТ Au ПОСЛЕ ДОБАВЛЕНИЯ В ВОДУ НАНОЧАСТИЦ. https://www.researchgate.net/publication/301693440. Остроумов С.А: BIOSPHERE: BIOMEMBRANE OR BIOMATRIX? https://www.researchgate.net/publication/301342497. Sergei A. Ostroumov; ELEMENTS OF A NEW SCIENTIFIC REVOLUTION IN ECOLOGY, BIOSPHERIC SCIENCE AND HYDROBIOLOGY: HI-ECOLOGICAL TECHNOLOGIES, SCIENTIFIC BASIS FOR PREVENTING SERIOUS HAZARDS. https://www.researchgate.net/publication/282132866; Biological factors in control of water quality. https://www.researchgate.net/publication/268871749. Ecological concepts "ecosystem", "biogeocenosis", "ecosystem boundaries": search for new definitions; https://www.researchgate.net/publication/201316139. S.A.Ostroumov: Biological effects of surfactants on organisms (book). Chapter 4. Biological activity of water which contains non-ionic surfactants. S.A.Ostroumov : https://www.researchgate.net/publication/201236114. Biological effects of surfactants on organisms (book). Chapter 2. Organisms and methods. S.A.Ostroumov : https://www.researchgate.net/publication/201202347. book ‘Biological effects of surfactants on organisms’. Chapter 1. Man-made effects and synthetic surfactants as chemicals that pollute aquatic ecosystems. S.A.Ostroumov: https://www.researchgate.net/publication/201165759. Decreasing the measurable concentrations of Cu, Zn, Cd, and Pb in the water of the experimental systems containing Ceratophyllum demersum: The phytoremediation potential. https://www.researchgate.net/publication/40481671; https://www.researchgate.net/publication/200502252. Doklady Biological Sciences 10/2009; 428(1):444-447. S A Ostroumov, T V Shestakova: DOI:10.1134/S0012496609050159; Tags: water purification, new green biotechnology, heavey metal removal, lead, copper, cadmium, zink, water vegetation, Biological filters are an important part of the biosphere; Sergei A. Ostroumov: https://www.researchgate.net/publication/261554265. Tags: review, popular science publication, ocean, water, pollution control, improving water quality, aquatic invertebrate animals, mollusks, international cooperation, international research, global environment, On studying the hazards of pollution of the biosphere: Effects of sodium dodecylsulfate (SDS) on planktonic filter-feeders; [SDS slowed down the rate of water filtration by Daphnia magna] https://www.researchgate.net/publication/216175249. Doklady Biological Sciences 04/2009; 425:133-134. Vorozhun I. M., Ostroumov S. A.: DOI:10.1134/S0012496609020136; Tags: zooplankton, phytoplankton, green algae, feeding rate, new toxic effects, synthetic surfactant, Accelerated decrease in surfactant concentration in the water of a microcosm in the presence of plants: Innovations for phytotechnology; https://www.researchgate.net/publication/225149600; https://www.researchgate.net/publication/216153292. Doklady Biological Sciences 03/2009; 425(1):180-182. E. V. Lazareva, S. A. Ostroumov: DOI:10.1134/S0012496609020276; Tags: water purification, new green biotechnology, pollutant removal, synthetic surfactant, water vegetation, aquatic green plants, water quality improvement, Article. Towards the general theory of ecosystem-dependent control of water quality. https://www.researchgate.net/publication/281403959. Ostroumov S.A. On the concepts of biochemical ecology and hydrobiology: Ecological chemomediators; https://www.researchgate.net/publication/201999918. Contemporary Problems of Ecology 04/2008; 1:238-244. S.A. Ostroumov: DOI:10.1134/S1995425508020100 ECOLOGICAL REPAIR and RESTORATION of INFRINGEMENTS in SYSTEMS of VARIOUS LEVELS of ORGANIZATION of LIFE: SEARCH of ELEMENTS of FUNDAMENTAL SIMILARITY; Sergei A. Ostroumov: https://www.researchgate.net/publication/273574775. Elements of the theory of biocontrol of water quality: a factor in the ecological safety of the sources of water / Элементы теории биоконтроля качества воды: фактор экологической безопасности источников водоснабжения. Sergei A. Ostroumov, Остроумов С.А: https://www.researchgate.net/publication/266735838. Investigation of the interaction of sodium dodecyl sulfate with water macrophytes under experimental conditions. Sergei A. Ostroumov, Solomonova E.A., Остроумов С.А, Соломонова Е.А: https://www.researchgate.net/publication/265594232; Tolerance of an aquatic macrophyte Potamogeton crispus L. to sodium dodecyl sulphate. https://www.researchgate.net/publication/247887711. Moscow University Biological Sciences Bulletin 12/2007; 62(4):176-179. E. A. Solomonova, S. A. Ostroumov: DOI:10.3103/S0096392507040074 Tolerance of an Aquatic Macrophyte Potamogeton crispus L.to Sodium Dodecyl Sulphate; E. A. Solomonova, S. A. Ostroumov: https://www.researchgate.net/publication/215586939. Inhibition of Mussel Suspension Feeding by Surfactants of Three Classes. https://www.researchgate.net/publication/215586803. Hydrobiologia 02/2006; 556:381–386. SA Ostroumov, J. Widdows: DOI:10.1007/s10750-005-1200-7; Biomachinery for maintaining water quality and natural water self-purification in marine and estuarine systems: elements of a qualitative theory. https://www.researchgate.net/publication/261344473; International Journal of Oceans and Oceanography 01/2006; Volume 1(1):111-118. S A Ostroumov; The Geochemical Apparatus of Aqueous Ecosystems: The Biocos Regulation. ГЕОХИМИЧЕСКИЙ АППАРАТ ВОДНЫХ ЭКОСИСТЕМ: БИОКОСНАЯ РЕГУЛЯЦИЯ. https://www.researchgate.net/publication/264039958; Herald of the Russian Academy of Sciences 01/2004; 74(9):785-791.Sergei A. Ostroumov, Остроумов С.А: Effects of cationic surfactant on mussels: inhibition of water filtration. S.A.Ostroumov, J.Widdows: https://www.researchgate.net/publication/201317801. Aquatic ecosystem as a bioreactor: water purification and some other functions. Rivista di Biologia; Ostroumov S. A.: https://www.researchgate.net/publication/200593682. Aquatic ecosystem as a bioreactor: Water purification and some other functions. https://www.researchgate.net/publication/8083617. Rivista di biologia 01/2004; 97(1):67-78.Sergei A Ostroumov; On the Fourth International Conference “Water Ecosystems and Organisms-4”. Russian Journal of Marine Biology 07/2003; 29(4):262-263. DOI:10.1023/A:1025445212397 Studying effects of some surfactants and detergents on filter-feeding bivalves. Hydrobiologia 05/2003; 500(1):341-344. S. A. Ostroumov; https://www.researchgate.net/publication/226127394. DOI:10.1023/A:1024604904065 Medium-term and long-term priorities in ecological studies. Ostroumov S.A., SI Dodson, Hamilton D., SA Peterson, Wetzel R.G.: https://www.researchgate.net/publication/200594244. Rivista di biologia 05/2003; 96:327-332. Effect of a cationic amphiphilic compound on rotifers. www.researchgate.net/publication/200578650. Doklady Biological Sciences 05/2003; 390(1-6):252-255. Ostroumov S. A, Walz N, Rusche R: DOI:10.1023/A:1024417903077; Medium-Term and Long-Term Priorities in Ecological Studies. Sergei A Ostroumov, Stanley I Dodson, David Hamilton, Spencer A Peterson, Robert G Wetzel: https://www.researchgate.net/publication/9027853. Rivista di biologia 05/2003; 96(2):327-32. Anthropogenic effects on the biota: Towards a new system of principles and criteria for analysis of ecological hazards. https://www.researchgate.net/publication/10669691. Rivista di biologia 04/2003; 96(1):159-169.
Sergei A Ostroumov; The functions of living substances in the biosphere. Herald of the Russian Academy of Sciences 03/2003; 73(3):232-239. S.A. Ostroumov: https://www.researchgate.net/publication/262184572. Ecological concepts "ecosystem", "biogeocenosis", "ecosystem boundaries": search for new definitions (in Rus.) / Концепции экологии "экосистема", "биогеоценоз", "границы экосистем": поиск новых определений; Sergei A. Ostroumov, Остроумов С.А: https://www.researchgate.net/publication/259431434 .
S. A. Ostroumov: Influence of Some Amphyphilic Substances and Mixtures on Marine Mollusks. Hydrobiological Journal 01/2003; 39(4):97-101. DOI:10.1615/HydrobJ.v39.i4.100 Ostroumov S.A., Rivista di biologia 01/2003; 96:159-169. https://www.researchgate.net/publication/215639427. Ostroumov SA, Dodson SI, Hamilton D, Peterson SA, Wetzel RG: Medium-term and long-term priorities in ecological studies. - Riv. Biol. 2003; 96(2): 327-332. https://www.researchgate.net/publication/215639413. Rivista di biologia 01/2003;
Ostroumov S. A.: Anthropogenic effects on the biota: Towards a new system of principles and criteria for analysis of ecological hazards. https://www.researchgate.net/publication/200581960. Rivista di biologia 01/2003; 96(1):159-170. Ostroumov S. A.: System of principles for conservation of the biogeocenotic function and the biodiversity of filter-feeders. https://www.researchgate.net/publication/200576716. Doklady Biological Sciences 11/2002; 383(5):147-150. Ostroumov S. A: Identification of a New Type of Ecological Hazard of Chemicals: Inhibition of Processes of Ecological Remediation. https://www.researchgate.net/publication/200568342. Doklady Biological Sciences 11/2002; 385:377–379. DOI:10.1023/a:1019929305267 Ostroumov S.A: New Definitions of the Concepts and Terms Ecosystem and Biogeocenosis.https://www.researchgate.net/publication/200577836. Doklady Biological Sciences 03/2002; 383:141-143. DOI:10.1023/a:1015393924967 Ostroumov S. A: A new type of effect of potentially hazardous substances: uncouplers of pelagial–benthal coupling. https://www.researchgate.net/publication/200576296. Doklady Biological Sciences 03/2002; 383(1):127-130. DOI:10.1023/A:1015385723150 S A Ostroumov: System of principles for conservation of the biogeocenotic function and the biodiversity of filter-feeders. https://www.researchgate.net/publication/11319346; [environmental protection; protection of ecosystem's service in improving water quality]. Doklady Biological Sciences 03/2002; 383(1):147-150. Ostroumov S.A: Inhibitory analysis of top-down control: New keys to studying eutrophication, algal blooms, and water self-purification. https://www.researchgate.net/publication/200587396. Hydrobiologia 02/2002; 469:117-129. DOI:10.1023/A:1015559123646 Ostroumov S.A: Polyfunctional role of biodiversity in processes leading to water purification: Current conceptualizations and concluding remarks. https://www.researchgate.net/publication/200582742. Hydrobiologia 02/2002; 469(1-3):203-204. DOI:10.1023/A:1015555022737; S. A. Ostroumov: New type of action of potentially hazardous chemicals: Uncouplers of pelagial-benthal coupling. Doklady Akademii nauk / [Rossiĭskaia akademii nauk] 01/2002; 383(1):138-141. S. A. Ostroumov: Biodiversity protection and water quality: the role of feedbacks in ecosystems. https://www.researchgate.net/publication/259497389. Doklady Akademii nauk / [Rossiĭskaia akademii nauk] 01/2002; 382:18-21. S A Ostroumov: Biodiversity protection and quality of water: the role of feedbacks in ecosystems. https://www.researchgate.net/publication/11371556. Doklady Biological Sciences 01/2002; 382(1):18-21. DOI:10.1023/A:1014465220673 S A Ostroumov: The synecological approach to the problem of eutrophication. https://www.researchgate.net/publication/10614405. Doklady Biological Sciences 11/2001; 381:559-562. DOI:10.1023/A:1013378505630 S A Ostroumov: The hazard of a two-level synergism of synecological summation of anthropogenic effects. https://www.researchgate.net/publication/10614388; S A Ostroumov: Responses of Unio tumidus to mixed chemical preparations and the hazard of synecological summation of anthropogenic effects. https://www.researchgate.net/publication/10614386. Doklady Biological Sciences 09/2001; 380:492-495. DOI:10.1023/A:1012344026176 S A Ostroumov, M P Kolesnikov: Pellets of Some Mollusks in the Biogeochemical Flows of C, N, P, Si, and Al. https://www.researchgate.net/publication/10614352. Doklady Biological Sciences 07/2001; 379:378-81. DOI:10.1023/A:1011620817764; S A Ostroumov: Imbalance of Factors Providing Control of Unicellular Plankton Populations Exposed to Anthropogenic Impact. https://www.researchgate.net/publication/10614342. Doklady Biological Sciences 07/2001; 379:341-343. DOI:10.1023/a:1011600213221 S A Ostroumov: Effect of amphiphilic chemicals on filter-feeding marine organisms. https://www.researchgate.net/publication/10614314. Doklady Biological Sciences 05/2001; 378(1-6):248-250. DOI:10.1023/A:1019270825775 Ostroumov S.A: Inhibitory Analysis of Regulatory Interactions in Trophic Webs; https://www.researchgate.net/publication/216167167; DOI 10.1023/A:1019218026198; Doklady Biological Sciences 03/2001; DOI:10.1023/A:1019218026198; S. A. Ostroumov: An Amphiphilic Substance Inhibits the Mollusk Capacity to Filter out Phytoplankton Cells from Water. https://www.researchgate.net/publication/226287633. Biology Bulletin 12/2000; 28(1):95-102. DOI:10.1023/A:1026671024000 S A Ostroumov: An aquatic ecosystem: a large-scale diversified bioreactor with a water self-purification function. https://www.researchgate.net/publication/12225361. S A Ostroumov: Criteria of ecological hazards due to anthropogenic effects on the biota: searching for a system. https://www.researchgate.net/publication/12483844. S A Ostroumov, M P Kolesnikov: Biocatalysis of matter transfer in a microcosm is inhibited by a contaminant: effects of a surfactant on Limnea stagnalis. https://www.researchgate.net/publication/12309563. Doklady Biological Sciences 07/2000; 373(1):397-399. S A Ostroumov: The concept of aquatic biota as a labile and vulnerable component of the water self-purification system. https://www.researchgate.net/publication/12375514. Sergei A. Ostroumov, M. P. Kolesnikov: Biocatalysis of Matter Transfer in a Microcosm Is Inhibited by a Contaminant: Effects of a Surfactant. https://www.researchgate.net/publication/271325576. Doklady Biological Sciences 01/2000; 373:397-399. Ostroumov S.A.: The Concept of Aquatic Biota as a Labile and Vulnerable Component of the Water Self-Purification System. https://www.researchgate.net/publication/216166764. 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. https://www.researchgate.net/publication/215907363; Ostroumov S.A.: The concept of aquatic biota as a labile and vulnerable component of the water self-purification system. https://www.researchgate.net/publication/215906004. Doklady Biological Sciences 01/2000; 372:286-289. Ostroumov S.A.: Criteria of ecological hazards due to anthropogenic effects on the biota: searching for a system; https://www.researchgate.net/publication/215905990. Doklady Biological Sciences 01/2000; Sergei A. Ostroumov, Donkin P., Staff F.: Filtration inhibition induced by two classes of synthetic surfactants in the bivalve mollusk Mytilus edulis. https://www.researchgate.net/publication/264039568. Doklady Biological Sciences 06/1998; 362:454-456. S A Ostroumov: Biological Filtering and Ecological Machinery for Self-Purification and Bioremediation in Aquatic Ecosystems: Towards a Holistic View: https://www.researchgate.net/publication/13429633. Rivista di biologia 02/1998; 91(2):221-232. S. A. Ostroumov, Donkin P., Staff F.: Filtration inhibition induced by two classes of synthetic surfactants in the bivalve mollusc. Doklady Akademii nauk / [Rossiĭskaia akademii nauk] 01/1998; 362:574-576. Ostroumov SA: Biological filtering and ecological machinery for self-purification and bioremediation in aquatic ecosystems: towards a holistic view. Rivista di Biologia. 1998;91(2): 221-232. PMID: 9857844; [first short paper on creation of theory of water self-purification by biological communities of ecosystems] https://www.researchgate.net/publication/215639449. Sergei A. Ostroumov, Donkin P., Staff F., Inhibition by the anionic surfactant, sodium dodecyl sulphate, of the ability of mussels Mytilus edulis to filter and purify the sea water [=Ингибирование анионным поверхностно-активным веществом способности мидий Mytilus edulis фильтровать и очищать морскую воду]; https://www.researchgate.net/publication/266139308. Fisher N., Maertz-Wernte M., Ostroumov S. A.: Effects of aquatic pollution by a non-ionogenic surfactant on the marine diatom Thalassiosira pseudonana. https://www.researchgate.net/publication/264984288. полный текст книги онлайн бесплатно: Уровни охраны живой природы. Яблоков А.В., Остроумов С.А. / Levels of Nature Conservation. Yablokov A.V., Ostroumov S.A. [book in Russian, translit of the title: Urovni okhrany zhivoi prirody] https://www.researchgate.net/publication/259894148 Ostroumov S.A., Kotelevtsev S.V. A new lecture course: biochemical and molecular ecology (in English).- Ecological Studies, Hazards, Solutions, 2015. Vol. 20, p. 85-87; Tags: university education, environmental education, modernization of ecology, biochemical ecology, program of a new lecture course, https://www.researchgate.net/publication/287948700. ** Sergei A. Ostroumov, Internet: 2015 (January-August) 8-month Blog Archive. 1200+ posts on environmental science. https://www.researchgate.net/publication/281862333. Sergei A. Ostroumov: The theory of the hydrobiological mechanism of water self-purification in water bodies: from theory to practice; https://www.researchgate.net/publication/237496625. Sergei A. Ostroumov: 17 KEY DISCOVERIES, INNOVATIONS in ecology, environmental sciences, biology. Keywords in: German, Japanese, Spanish, Chinese, Italian, Polish, Czech, Turkish, Ukrainian, French, Slovak, Arabic, et al. https://www.researchgate.net/publication/260297085. интерес и положительная оценка публикаций специалистами, использование публикаций другими учеными: цитирование в 40 странах: цитирование публикаций этого автора CITATION: http://5bio5.blogspot.com/2016/09/citation-all-continents-except-south.html; Citation of publications, Ecology, biology, environment, water, toxicology, ecotoxicology, works of Dr. Sergei A. Ostroumov. DOI: 10.13140/RG.2.1.2197.6165; https://www.researchgate.net/publication/279727566; http://5bio5.blogspot.ru/2013/12/citation-of-publications-of-dr-sergei.html Citation, cited, Ostroumov S.A., environmental science, ecology, water, toxicology, http://5bio5.blogspot.com/2016/01/citation-cited-ostroumov-sa.html http://5bio5.blogspot.com/2016/05/blog-post_6.html **
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Bio-humanities and Environment. Book review in English. https://www.researchgate.net/publication/311740719; (Another version of the title translation: Humanitarian Biology and Ecology). Translit of the Russian title: Gumanitarnaya biologiya i ekologiya. Original Russian titl
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Moscow University Press.
Alexander Oleskin,Kartashova E.R.,Botvinko I. V.,[...]
Shul’ga E.N.,Олескин А.В., Карташева Е.Р., Ботвинко И.В., Остроумов С.А., Лукьянов А.С., Шульга Е.Н. Гуманитарная биология и экология: учебно-методическое пособие для средней общеобразовательной школы, лицеев, колледжей, университетов /под ред. проф. А.В.Олескина. – М.: Издательство Московского университета, 2011. https://www.researchgate.net/publication/311740719;
Bio-humanities and Environment. Book review in English. (Another version of the title translation: Humanitarian Biology and Ecology). Translit of the Russian book title: Gumanitarnaya biologiya i ekologiya. Original Russian title: Гуманитарная биология и экология. Book in Russian (2011). Each chapter/section is provided with an English summary. Authors: Oleskin A.V., Kartashova E.R., Botvinko I. V., Ostroumov S.A., Lukianov A.S., Shul’ga E.N. https://www.researchgate.net/publication/311740719; ** Book review. Textbook on the Bio-humanities and Environment; Review in English; the book in Russian. http://5bio5.blogspot.com/2014/05/book-review-textbook-on-bio-humanities.html; Гуманитарная биология и экология. Учебно-методическое пособие Гуманитарная биология и экология. Учебно-методическое пособие Новая книга: учебное пособие. Олескин А.В., Карташова E.R., Ботвинко И. В. Остроумов С.А., Лукьянов А.С., Шульга Е.Н. Гуманитарная биология и экология. Учебно-методическое пособие для средней и общеобразовательной школы, лицеев, колледжей и университетов / Под ред. А. В. Олескина. Москва, Изд-во МГУ, 2011. - 96 стр., с иллюстрациями. ISBN 978-5-211-06183-5. Рецензия / Review: Oleskin A.V., Kartashova E.R., Botvinko I. V., Ostroumov S.A., Lukianov A.S., Shul’ga E.N. Textbook on the Bio-humanities and Environment; for Secondary School, College, and University Students / Ed. by Alexander V. Oleskin. Moscow, Moscow University Press, 2011. – 96 p., ill. ISBN 978-5-211-06183-5. This short textbook deals with a new discipline that is named bio-humanities. This is a name for the subfields of biology that have a direct bearing on the humanities and social sciences as well as modern ecology and environmental science. The book includes seven main sections each corresponding to a specific topic which can be an individual lecture or seminar. The bio-humanities are in the focus of attention of the Club of Biopolitics established in April 2010. One of the Club’s workshops has produced this textbook. Each chapter of the book is organized in the same pattern. Apart from information to deal with during the lectures or classes, each chapter also contains some questions addressed to the students, their task, pictures, and recommended reading. The authors hope that this book will contribute to the solution to a pressing issue of increasing the efficiency of the educational system, which is an important challenge currently faced by Russia. It should be noted that this book is bilingual. Each chapter/section is provided with an English summary. In the INTRODUCTION ( p.9-10) the meaning of the term “the bio-humanities” is explained. It is indicated that this book is concerned with a novel interdisciplinary field that has come into being as a result of (1) interactions between biological and social knowledge and (2) the effect produced by the social sciences and humanities on the life sciences. This field includes interdisciplinary biosocial (biocutural) fields exemplified by bioethics, biosemiotics, or bioesthetics. Taken together, they can be referred to as the bio-humanities that deal with all possible interactions of the life sciences with social sciences and the humanities. The book has 7 sections which are written by various authors, experts in the field. Section 1 (p.11-21). BIOS AND LIFE AS A COHERENT ENTITY (this section is authored by Dr. E.R. Kartashova) it is written that The term bios (bioς, the Greek for life) denotes the totality of living beings on the Earth that is believed to include over 1.4 million species. The students should realize that bios is more than just the sum of individual organisms. It is a global coherent entity (“the body of bios” in A. Vlavianos-Arvanitis’ usage), despite the diversity of biological species. Different species perform different functions in the interest of the whole body. Humankind forms part of this body, also representing a coherent entity in itself. Bios is based on the unity-in-diversity principle. Bios as a global system is probably capable of regulating the Earth’s characteristics including its temperature, light-reflecting power, and atmosphere composition, in the interest of biological evolution and the flourishing of the whole body of bios on the Earth. Section 2 (p.22-33 ). BIOSOPHY. BIOSPHERE (this section is authored also by Dr. E.R. Kartashova). The author wrote that Biosophy stands for the natural “wisdom of life (bios)” that is a result of the process of biological evolution. Thanks to evolution, the structure, life-sustaining activities, and behavior of most living organisms are amazingly well adapted to their environment. Adaptations seem to help them “make optimum decisions” in a given situation, so as to increase the survival chances and the reproduction success. Apart from the individual and population level, biological evolution also works on the level of multispecies associations and ecosystems including the whole biosphere of the Earth. Within these complex systems, their structural parts develop in concordance with one another and in the interest of the flourishing of the whole systems. This coordinate development of a system’s parts is referred to as their coevolution. Section 3 (p.34-45). PHILOSOPHY OF LIFE. EVOLUTIONARY EPISTEMOLOGY (authored by Dr. E.N. Shul’ga). This section is focused on some philosophical aspects. Over the whole course of history, a number of great minds took an interest in the phenomenon of life as related to humankind, human consciousness, reasoning, and cognition, as well as to the historical development of human culture (all these issues are still being actively discussed at present). However, the philosophy of life as a self-contained field took shape in the late 19th – early 20th century. Its proponents, including Wilhelm Diltey, Oswald Spengler, Georg Simmel, and Jose Ortega-y-Gaset, regarded life as intuitively comprehensible ultimate reality that differs both from matter nd spirit. This field of philosophy can be subdivided into several subfields depending on whether life was considered in biological, historical, or pantheistic terms. Epistemology is the field of philosophy whose goals are to define “knowledge”, to elucidate possible strategies of human cognition, and to delineate its limits. Of relevance to the bio-humanities, the main subject of this book, is evolutionary epistemology (EE). It compares the development of scientific knowledge (including competition and cooperation among scientific concepts and theories) to that of biological species in terms of evolution driven by natural selection. EE emphasizes the relationship between the evolution-molded behavioral predispositions and adaptations of Homo sapiens and the human capacity to study various objects around us and to generate more or less adequate knowledge about the world and about ourselves. Section 4 (p. 46-59). BIOPOLITICS (authored by Dr. A.V. Oleskin). The author of the section underlined that A pressing problem presently faced by humankind is that a majority of people around the globe are still ignorant of biology and its socially relevant subfields ranging from ecology to neurophysiology and genetics. This global bio-illiteracy exerts a negative influence on important decisions made by political leaders and the political elites of various countries. In fact, ignoring the social and political implications of the present-day life sciences may result in missed opportunities and cause unwanted risks. For instance, knowledge about bio-behavioral (ethological) predispositions influencing human social behavior can help us mitigate collective aggression including ethnic conflict and understand biological mechanisms of dominance-submission relationships involved in charismatic leadership and political power. Politically important issues concerning GM food, cloning animals and, prospectively, humans, and eugenics require sufficient knowledge of genetic engineering including its social implications. The main goal of this section is to fill this gap by familiarizing the students with new biological data and concepts that are of obvious political interest as well as political ideas and practices that deal with biological issues. In combination, these recent biological and political developments are summed up in the overarching term biopolitics. Hence biopolitics can be defined as the totality of all kinds of interactions between the life sciences and politics, including both the political impact of biology and the biological implications of politics. Biopolitics includes a large number of subfields; in this section special emphasis is placed on its genetic, neurophysiological, microbiological, and biobehavioral (ethological) subfield. The next chapter is focused on issues of environment. Section 5 (p.60-72 ). BIODIVERSITY CONSERVATION AND ECOLOGICAL ETHICS (authored by Dr S.A. Ostroumov). The section starts with issues of environmental protection and biodiversity conservation. In the author’s opinion, the conservation of the Earth’s biodiversity requires a complex system of practical measures aimed at the preservation, rational (inexhaustive) use and management, and renewal of natural resources. The proper attitude should include the conservation of the species diversity (gene pool) of the Earth’s flora and fauna, of the habitats of living organisms and ecosystems, and, accordingly, of the natural conditions required for the development of human society. Biodiversity conservation calls for practical steps taken on both the local and the global levels. On p. 61, the author provided a new definition of the scientific term ‘biodiversity conservation’. The section included an innovative presentation of a system of axioms and principles of biodiversity conservation (the list of 9 items, p. 63-64). Discussing biodiversity conservation, the author put a special emphasis upon promoting of the value system of ecological ethics (eco-ethics) on the global scale. Ecological ethics is based upon acknowledging the paramount importance of preserving natural communities of living beings and ecosystems, developing protective, friendly attitude toward them, and placing this attitude at the core of our present-day outlook on planetary bios. In sum, this section is a unique - concise, innovative and deep - analysis of the issues of environmental (ecological) ethics. Section 6 (p.73-82). BIOETHICS AND LIFE CONSERVATION (authored by Dr. A.S. Lukianov). This section is aimed at familiarizing the students with the history and present-day state-of-the-art of bioethics, the field dealing with the whole gamut of moral/ethical issues related to living beings including animal experimentation, embryo rights, organ transplantation, and euthanasia, as well as the problems and concerns associated with the recent developments in the field of genetic engineering and biomedical technologies. Special attention is given to the non-violence principle which hold much value both with respect to the above issues and to natural ecosystems including the whole biosphere, in terms of conserving life (bios) on the planet. Section 7 (p.83-94 ). BIOAESTHETICS (author: Dr I.V. Botvinko). In addition to its philosophical, social, political and ethical dimensions, life is also of interest in terms of aesthetics. We enjoy the beauty of flowers, starfish, tiny foraminifers, and other life forms. The final section starts with a discussion concerning bioaesthetics. It is emphasized that the aesthetics of life is related to its harmony, symmetry, and fractal structure. These properties of living systems convey an aesthetic message to us, which is of paramount importance with respect to the educational system as well as the personal development of young people around the globe. All in all, the book provides a fresh look on many important interdisciplinary issues of modern areas of research and education. The book will be useful in modernizing education in many field of science and the humanities, at various levels. The book is recommended to both professors and students. A new edition will be useful. Published online: 22nd May 2012; Tags: Oleskin A.V., book, review, bio-humanities , biological , education, ecology, environmental education, interdisciplinary, new , Ostroumov S.A., texbook , Остроумов С.А. **
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abstract of book. Orlov S.N., Kotelevtsev S.V., Novikov K.N., Selishcheva A.A., Akimova O.A., Ostroumov S.A. Biophysics, biochemistry, biosystem studies. Fundamental research and applications: Results and bibliography - Moscow, 2014, 188 p. (Eds: Orlov S.N., Kotelevtsev S.V.
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Sergei N Orlov,Kotelevtsev S.V.,Sergei A. Ostroumov,Page 2 of this book; https://www.researchgate.net/publication/311846708; . Orlov S.N., Kotelevtsev S.V., Novikov K.N., Selishcheva A.A., Akimova O.A., Ostroumov S.A. Biophysics, biochemistry, biosystem studies. Fundamental research and applications: Results and bibliography.-Moscow, 2014, 188 p. (Eds: Orlov S.N., Kotelevtsev S.V., Ostroumov S.A.) The goal of this publication is to present some of results of the experimental research of interdisciplinary topics of life sciences in the Laboratory of Physico-Chemistry of Biological Membranes, Faculty of Biology, M.V.Lomonosov Moscow State University. The material is organized into six main sections with information on scientific results, and additional section 7. The final, seventh section is on publications of educational materials, improving university education, including textbooks and educational programs on issues of biological and environmental education. This text is in part based on the previous publication (Orlov S.N., Kotelevtsev
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ABSTRACT IN ENGLISH. Pollution, self-purification and restoration of aquatic ecosystems. Book. Translit of the original Russian title: Zagryazneniye, samoochishcheniye i vosstanovleniye vodnykh ekosistem. Author: Ostroumov S.A. https://www.researchgate.net/publication/311871
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MAKS Press, Moscow
Sergei A. OstroumovОстроумов С.АABSTRACT IN ENGLISH. Pollution, self-purification and restoration of aquatic ecosystems. Book. Translit of the original Russian title: Zagryazneniye, samoochishcheniye i vosstanovleniye vodnykh ekosistem. Author: OSTROUMOV S.A. Year: 2005. Place of publication: MAKS Press, Moscow. Volume: 100 pages. ISBN: 5-317-01213-9; Abstract: [Book] pollution, self-cleaning and restoration of aquatic ecosystems = Pollution, self-purification and restoration of aquatic ecosystems. M .: MAKS Press. 2005. 100 p., Tables. Bibliography .: p.63-89. Format 60 × 90 1/16; 20,4 × 14,3 cm. From the Foreword by Professor VD Fedorov and Professor VN Maximov: "The book is recommended as a textbook, useful for education of experts and specialists in hydrobiology, ecology, environmental science, environmental management, and management of water and aquatic biological resources. The book will be useful to teachers, graduate students, and undergraduate students. " From the content: E.g., SECTION 16: Restoration of water bodies that were under anthropogenic impact. Among the table, e.g., the innovative table - the method of assessment of the state of freshwater ecosystem and its self-purification potential. Glossary (pp. 90-93). A detailed English summary (pages 57-62), the author information in Russian (p.96) and English (p.97) languages. ISBN 5-317-01213-9. A series of "Science. Education. Innovation", vol. 1.
*** The book was awarded the Diploma of the Academy of Sciences of Water Management (2006) and the Diploma of the Laureate (2007) of the contest for the best scientific and educational publications that was run by MOIP (Moscow Society of Naturalists, since 1805), the diploma was signed by the President of the Moscow Society of Naturalists, Vice-President of Russian Academy of Sciences, Academician Victor Sadovnichy).
Translit of the original Russian abstract of the book: Zagryazneniye, samoochishcheniye i vosstanovleniye vodnykh ekosistem. Kniga. Avtor: Ostroumov S.A. God izdaniya: 2005. Mesto izdaniya: MAKS Press, Moskva. Ob"yom: 100 stranits. 6,25 pechatnykh listov. ISBN: 5-317-01213-9 Annotatsiya: [Kniga] Zagryazneniye, samoochishcheniye i vosstanovleniye vodnykh ekosistem = Pollution, self-purification and restoration of aquatic ecosystems. M.: MAKS Press. 2005. 100 s., tabl. Bibliogr.: s.63-89. Format 60 × 90 1/16; 20,4 × 14,3 sm. Usl. pech. l. 6,25. Iz predisloviya professora V.D. Fedorova i professora V.N. Maksimova: «Kniga rekomenduyetsya kak uchebnoye posobiye, poleznoye dlya podgotovki gidrobiologov, ekologov, spetsialistov po okhrane okruzhayushchey sredy, ratsional'nomu prirodopol'zovaniyu i upravleniyu vodnymi i vodno-biologicheskimi resursami. Kniga budet poleznoy dlya prepodavateley, aspirantov, magistrantov i studentov». Iz soderzhaniya: razdel 16: Vosstanovleniye vodnykh ob"yektov, narushennykh v rezul'tate antropogennykh vozdeystviy, s original'noy tablitsey - metodom otsenki sostoyaniya presnovodnoy ekosistemy i yeye samoochistitel'nogo potentsiala. Slovar' terminov (s. 90-93). Razvernutoye angliyskoye rezyume (str.57-62), spravka ob avtore na russkom (s.96) i angl. (s.97) yazykakh. ISBN 5-317-01213-9. Seriya «Nauka. Obrazovaniye. Innovatsii», t. 1. *** Kniga otmechena Diplomom Akademii problem vodokhozyaystvennykh nauk (2006) i Diplomom laureata konkursa (2007) nauchnykh i uchebnykh izdaniy MOIP (Moskovskogo obshchestva ispytateley prirody; diplom podpisan Prezidentom MOIP, Vitse-prezidentom RAN akad. V.A. Dadovnichiy.
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MIT Libraries, Ostroumov S.A., articles, books of Sergei Ostroumov, at Massachusetts Institute of Technology. Сергей Андреевич Остроумов, https://www.researchgate.net/publication/308197769
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Sergei A. OstroumovMIT Libraries, Ostroumov S.A., articles, books of Sergei Ostroumov, at Massachusetts Institute of Technology. Сергей Андреевич Остроумов, https://www.researchgate.net/publication/308197769
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Added to the project: Analysis of top important issues of protection of the environment, nature conservation.
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Уровни охраны живой природы. Urovni okhrany zhivoi prirody (book in Russian; English translation of the title: Levels of Nature Conservation / Levels of Living Nature Conservation). https://www.researchgate.net/publication/263891524; (nature conservation, biodiversity protec
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Yablokov A.V.Sergei A. OstroumovЯблоков А.ВОстроумов С.АЯблоков А.В., Остроумов С.А. Уровни охраны живой природы. Yablokov A.V., Ostroumov S.A. Urovni okhrany zhivoi prirody. Translation of the title: Levels of Nature Conservation. Co-authors: Yablokov A.V., Ostroumov S.A. [book in Russian], published in Moscow (Russia), the publishers: Nauka. https://www.researchgate.net/publication/263891524; DOI: 10.13140/2.1.1679.9366; More information on the book: https://www.researchgate.net/publication/259894148_Levels_of_Nature_Conservation._Yablokov_A.V._Ostroumov_S.A._book_in_Russian_Urovni_okhrany_zhivoi_prirody?ev=srch_pub&_sg=udh4khlpZM86kmRIo7uro91RGBZN6QHqVlgJsO4wJeXq8Hrt1TllpyMAStJwuFZP_DoUZaTmID3NIS374FlWPf9U2ruPmT9cldjF05%2F%2FOssMEJ7MB0eAxqReDxe1HbOKc_qvdqKz6Qsqp3SEWmDrFCxEpcSwFRE2Dq%2BM%2Bko%2Fszflf03n%2BAQ%2BRSUPfodJLIHgl3; Forword that was published in the book: https://www.researchgate.net/publication/201161940_Foreword_to_the_book_The_Levels_of_Protection_of_Living_Nature_Urovni_Okhrany_Zhivoi_Prirody?ev=srch_pub&_sg=pJUC34d7xR1BPQ7N88FO%2BkZ8F59HzR2xxK%2B%2BW4dV%2FYEImntnncjJk8fx5aRtvkA4_W4ZwX9p39K85Y%2FyO6rNIRAsZUoGg3hm8IGQ6W2wCbbBAkpvbdxgNawq9WeyHIbTe_ktiSTTT8S1N0z41WjVBIvkSldYgLwKKdMyamntSDjlCXVgI9yngNG23pWza2Fx0I ; Cover of the book: https://www.researchgate.net/publication/259894010_Cover_of_the_book_Levels_of_Nature_Conservation?ev=srch_pub&_sg=DCd8XzanT7N0grPQilyQb0D%2B5cDXBkNBOWMLSz%2FDtWCP4VcI8gwfIxfhf05aI9B7_QCn%2Bz9cvthN2RWDzqToXzaCTB5pQkihdAZeChQP5qrG79ttz%2FfC0VAqrPA4d%2Bs%2Fg_yQxL%2B%2F4kfp7t1U86YcuFkHNqqSVZNP4z%2BkBLciTTwE2ciPWadWF3HuPejwMRniDp ; The Russian title: Уровни охраны живой природы.
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НЕКОТОРЫЕ АСПЕКТЫ ОЦЕНКИ БИОЛОГИЧЕСКОЙ АКТИВНОСТИ КСЕНОБИОТИКОВ / Some aspects of estimating the biological activity of xenobiotics / Nekotoryye aspekty otsenki biologicheskoy aktivnosti ksenobiotikov. https://www.researchgate.net/publication/274249853
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Sergei A. OstroumovОстроумов С.АНЕКОТОРЫЕ АСПЕКТЫ ОЦЕНКИ БИОЛОГИЧЕСКОЙ АКТИВНОСТИ КСЕНОБИОТИКОВ / Some aspects of estimating the biological activity of xenobiotics / Nekotoryye aspekty otsenki biologicheskoy aktivnosti ksenobiotikov. https://www.researchgate.net/publication/274249853.
** обзорная статья: НЕКОТОРЫЕ АСПЕКТЫ ОЦЕНКИ БИОЛОГИЧЕСКОЙ АКТИВНОСТИ КСЕНОБИОТИКОВ. Остроумов С.А. Вестник Московского университета. Серия 16: Биология. 1990. № 2. С. 27-34. ISSN печатной версии 0137-0952; http://5bio5.blogspot.com/2015/03/citation-16-1990-2-27.html; В статье дан обзор по теме с акцентом на собственные публикации автора о фитотестировании таких ксенобиотиков, как синтетические поверхностно-активные вещества (СПАВ) и детергенты. Дан большой объем новых результатов автора, фактов о фитотоксичности СПАВ. Эти новые данные получены автором при тестировании ПАВ на семенах и проростках высших растений нескольких видов. Эти новые результаты автора впоследствии были также суммированы и приведены в его книге Biological Effects of Surfactants. Подробная информация об этой книге доступна бесплатно на сайте: https://www.researchgate.net/publication/200637626; Translation of the reference from Russian into English: Some aspects of estimating the biological activity of xenobiotics. Ostroumov S.A. Moscow University Biological Sciences Bulletin. Series 16. 1990. № 2. P. 27-34. Translit of the Russian title: Nekotoryye aspekty otsenki biologicheskoy aktivnosti ksenobiotikov. Ostroumov S.A. Vestnik Moskovskogo universiteta. Seriya 16: Biologiya. 1990. № 2. pages 27-34. Abstract. Аннотация: в статье подробно описаны несколько модификаций метода биотестирования химических веществ и образцов воды на семенах и проростках высших растений. Автор излагает результаты своих опытов по биотестированию поверхностно-активных веществ и моющих средств (детергентов) на семенах и проростках Sinapis alba, Fagopyrum esculentum и других видов высших растений. The content of this paper was included into the book 'Biological Effects of Surfactants. Ключевые слова: биотест, биотестирование, фитотест, фитотоксичность, токсичность, додецилсульфат натрия, детергенты, удлинение проростков, альтернативные методы, экотоксикология, Sinapis alba, Fagopyrum esculentum, Цитирование этой статьи: Citation of the paper: НЕКОТОРЫЕ АСПЕКТЫ ОЦЕНКИ БИОЛОГИЧЕСКОЙ АКТИВНОСТИ КСЕНОБИОТИКОВ. ** Цитируемая статья НЕКОТОРЫЕ АСПЕКТЫ ОЦЕНКИ БИОЛОГИЧЕСКОЙ АКТИВНОСТИ КСЕНОБИОТИКОВ. Остроумов С.А. Вестник Московского университета. Серия 16: Биология. 1990. № 2. С. 27-34. Эта статья цитировалась в следующих публикациях, по данным eLibrary http://elibrary.ru/cit_items.asp?publid=132627965; Публикация 1 ГИГИЕНИЧЕСКИЕ ОСНОВЫ ИСПОЛЬЗОВАНИЯ ИНСЕКТИЦИДОВ В ЛИЧНЫХ ПОДСОБНЫХ ХОЗЯЙСТВАХ / Basic hygiene of using insecticides at private farms. Нечкина М.А., Федорова H.A., Кондратьева Г.В. Медицина труда и промышленная экология. 2003. № 11. С. 18. 1 ГУ Саратовский НИИ сельской гигиены, Саратов; Саратовский государственный аграрный университет им. Н.И. Вавилова; Basic hygiene of using insecticides at private farms. Nechkina M.A., Fyodorova N.A., Kondratyeva С.V. 2 СРАВНЕНИЕ ЭФФЕКТИВНОСТИ ИНТРОДУКЦИИ НЕФТЕОКИСЛЯЮЩЕГО ШТАММА DIETZIA MARIS И СТИМУЛЯЦИИ ЕСТЕСТВЕННЫХ МИКРОБНЫХ СООБЩЕСТВ ДЛЯ РЕМЕДИАЦИИ ЗАГРЯЗНЁННОЙ ПОЧВЫ / Efficiencies of introduction of an oil-oxidizing Dietzia maris strain and stimulation of natural microbial communities in remediation of polluted soil. Плешакова Е.В., Дубровская Е.В., Турковская О.В. Прикладная биохимия и микробиология. 2008. Т. 44. № 4. С. 430-437. Институт биохимии и физиологии растений и микроорганизмов РАН, Саратов, 410049; Efficiencies of introduction of an oil-oxidizing Dietzia maris strain and stimulation of natural microbial communities in remediation of polluted soil. Pleshakova E.V., Dubrovskaya E.V., Turkovskaya O.V. Applied Biochemistry and Microbiology. 2008. Т. 44. № 4. p. 389-395. 3 РАЗРАБОТКА НОВОГО МЕТОДА ОПРЕДЕЛЕНИЯ ТОКСИЧНОСТИ НЕФТЕЗАГРЯЗНЁННОЙ ПОЧВЫ / Creation of a new method for oil-contaminated soil toxicity determination. Плешакова Е.В. Вестник Саратовского государственного технического университета. 2010. Т. 3. № 1. С. 188-193. Creation of a new method for oil-contaminated soil toxicity determination. Pleshakova Ekaterina Vladimirovna1 1 Saratov State University after the name of N.G. Chernyshevskiy Saratov State University the name of N.G. Chernyshevskiy 4 О ВЗАИМОДЕЙСТВИЯХ НЕОРГАНИЧЕСКИХ И ОРГАНИЧЕСКИХ ПОЛЛЮТАНТОВ С РАСТЕНИЯМИ / On interactions of inorganic and organic pollutants with plants. Поклонов В.А., Котелевцев С.В., Остроумов С.А., Шестакова Т.В., Соломонова Е.А. Успехи наук о жизни. 2011. № 3. С. 124-127. On interactions of inorganic and organic pollutants with plants. Poklonov V.A.1, Kotelevtsev S.V.1, Ostroumov S.A.1, Shestakova T.V.1, Solomonova E.A.1 1 Moscow State University, Moscow; 5 ВОЗДЕЙСТВИЕ ДЕТЕРГЕНТА НА РАСТЕНИЯ / DETERGENT EFFECT ON PLANTS. Остроумов С.А., Соломонова Е.А. Успехи наук о жизни. 2012. № 4. С. 82-87. DETERGENT EFFECT ON PLANTS Ostroumov Sergey A.1, Solomonova Elena A.1 6 ОПРЕДЕЛЕНИЕ ТОКСИЧЕСКОГО ВОЗДЕЙСТВИЯ НА ПОЧВУ БУРОВОГО РАСТВОРА НА УГЛЕВОДОРОДНОЙ ОСНОВЕ С ПОМОЩЬЮ РАЗЛИЧНЫХ ПРИЕМОВ БИОТЕСТИРОВАНИЯ / Evaluation of Toxic Effects of Oil-base Drilling Fluids Upon the Soil by Means of Various Biotesting Methods. Беляков А.Ю., Головко Д.С., Плешакова Е.В. Известия Саратовского университета. Новая серия. Серия: Химия. Биология. Экология. 2012. Т. 12.№ 3. С. 107-113.Саратовский государственный университет им. Н.Г. Чернышевского; Evaluation of Toxic Effects of Oil-base Drilling Fluids Upon the Soil by Means of Various Biotesting Methods. Belyakov A. Yu.1, Golovko D.S.1, Pleshakova Ye. V.1; 1 Biological Department, Saratov State University; 7 ФИТОТОКСИЧНОСТЬ СИНТЕТИЧЕСКИХ МОЮЩИХ СРЕДСТВ, СОДЕРЖАЩИХ ПОВЕРХНОСТНО-АКТИВНЫЕ ВЕЩЕСТВА, ПРИ БИОТЕСТИРОВАНИИ НА ПРОРОСТКАХ РАСТЕНИЙ / Phytotoxicity of detergents containing surface-active agents (surfactants) in bioassaying with plant seedlings. Поклонов В.А., Котелевцев С.В., Остроумов С.А. Успехи наук о жизни. 2013. № 6. С. 71-78. PHYTOTOXICITY OF DETERGENTS CONTAINING SURFACE-ACTIVE AGENTS (SURFACTANTS) IN BIOASSAYING WITH PLANT SEEDLINGS. 8 ИСПОЛЬЗОВАНИЕ РАЗЛИЧНЫХ ПРИЕМОВ БИОТЕСТИРОВАНИЯ ДЛЯ ОЦЕНКИ ТОКСИЧЕСКОГО ДЕЙСТВИЯ НА ПОЧВУ ИНВЕРТНО-ЭМУЛЬСИОННЫХ БУРОВЫХ РАСТВОРОВ И ИХ ДИСПЕРСИОННЫХ СРЕД / Toxic effect of invert emulsion drilling fluids and their disperse mediums on soil. Плешакова Е.В., Беляков А.Ю. Вестник Московского университета. Серия 17: Почвоведение. 2014. № 1. С. 38-43. Toxic effect of invert emulsion drilling fluids and their disperse mediums on soil. Pleshakova E.V., Belyakov A.Yu.
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2015 April, 85 new posts on environmental science https://www.researchgate.net/publication/275886266
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Sergei A. Ostroumovhttps://www.researchgate.net/publication/275886266_2015_April_85_new_posts; 2015 April, 85 new posts on environmental science innovations, discoveries, steps forward, ecology, water, Scopus, Springer, ResearchGate, citation, who cited, citation, U.S., in English, in Russian, 11 pages; http://5bio5.blogspot.com/2015/05/552015-2015-april-85-new-posts-on.html ** On 30.4.2015,most viewed posts, Scopus, publicati... 31 Top Springer Publications, DOI, at link.springe... 31 Top Springer Publications with DOI, link.Spring... 32 Top Publications with DOI (life science, ecolog... Scopus,57articles,20abstracts, environmental scien... Scopus, 57 publications, environmental science, ec... on 29.4.15. Environmental science. 5 most viewed p... 29.4.15. 20 newest publications at ResearchGate on... 29.4.15. 36 publications, Sergei A. Ostroumov, env... 29.4.15. Who cited Sergei A. Ostroumov. Google sea... 29.4.15. Citation of: Polyfunctional role of biodi... Citation, water, filtering,filter-feeders, Ostroum... New citation of book: Yablokov A.V., Ostroumov S.A... Citation of Article: On the biotic self-purificati... 27.4.2015. 5 most viewed posts during recent 23 ho... 26.4.15. 5 most viewed posts. environmental scienc... 25.4.2015. U.S., Iran. Citation of the publication... 24.4.2015. Reviews of 20 useful publications, ecol... Новое подтверждение теории самоочищения воды, созд... Since 2003, 57 papers on environmental science, Sc... Environmental science. Chinese researchers, author... 23.4.15. Since 2005, indexed by Scopus, environmen... Recent publications, Scopus, environmental science... 23.4.15. Украина. Ученые цитируют статью: Polyfunc... 21.4.15. In short, on the publication: Ostroumov S... 21.4.15. New citation of the publication: On Some ... 19.4.15. Mega List of blog posts (2013) on Environ... Новые скандалы в доме реформаторов Российской акад... 18.4.15. 56 posts in April 2015. Environmental sci... 17.4.15. Mendeley.com; Ecology, biology, environm... 16.4.15. Increase in ranking. Publication: The rol... 16.4.15.Young American scientists cited this artic... 16.4.15. Citation. Scholar Alert: Documents citing... Цитирование статьи по водной экологии, гидробиолог... 16.4.15. Citation in USA, Оповещение от Академии: ... 16.4.15. Scholar Alert: In USA, New citations to ... 15.4.15. Recent downloads from ResearchGate. Resea... On 12.4.15, 1092 views of top environment sci. pos... Water self-purification. Top publications, results... DOI can now be used to cite this dataset. Please m... On 10.4.15, 1334 views of the top interesting pos... Исследования на моллюсках-прудовиках. Lymnaea stag... 9.4.15. Most viewed posts, environmental science, ... 20 recommended papers, Springer, ecology, aquati... Today, 9.4.2015, 5 most viewed posts, enviro. sci.... Interest, attention attracted, downloads, enviro. ... on 7.4.15, 998 views of these posts on environme... Объяснение: в чем новизна статьи, что именно сдела... cited: БИОКАТАЛИЗ ПЕРЕНОСА ВЕЩЕСТВА В МИКРОКОСМЕ ... Cited: Остроумов С.А. Доклады Академии наук. 2000.... 5.4.2015. 5 most viewed posts. Citation, Environme... 5.4.15. Cited: AN AQUATIC ECOSYSTEM: A LARGE-SCALE... 5.4.2015. ecotoxicology of great pond snail, role ... Cited: Biocatalysis of Matter Transfer in a Micr... 5.4.15. Cited:THE CONCEPT OF AQUATIC BIOTA AS A LA... 5.5.2015.recent online articles/posts. Google plus... On 4.4.2015.787 views, U.K., Bangor University, Ab... 5.4.2015. 7 views on "180 blog posts of March, 201... 4.4.2015. Updated: Effect-of-a-Cationic-Amphiphi... Inhibition of mussel suspension feeding by surfact... Citation of Dr. Sergei Ostroumov, aquatic ecology,... U.K., Bangor University, Aberystwyth University, ... 947 views on 3.4.2015. 5 most viewed posts:947 vie... 4.4.2015. Citation of Sergei Ostroumov’s publicati... 4.4.2015. Availability in 707 libraries worldwide,... 4.4.2015. Updated info on the article. On the biot... 4.4.2015. Review of article. On the Biotic Self-pu... 4.4.2015. 180 online articles / publications (blo... Evidence of merit. This tweet on environmental sci... 3.4.2015. Analytics on Academia; online articles o... 3.4.15. 5 datasets, newest, Researchgate, Tags: ... 3.4.15. 6 books, Researchgate, in English, in Rus... 5 Articles in English, ResearchGate, online free. ... Evidence of merit: the tweet on these publications... Цитирование публикаций по окружающей среде, эколог... Citation of Moscow University: publications on env... 15 online materials on citation of Moscow Universi... Ecology-and-Life-Sciences-Bibliography; https://ru... on 2.4.2015, 1050 views online, on environmental s... 3.4.2015. Lots of recent posts, Google+, environme... 2.4.15. WorldCat Review. Find in a library with Wo... 2.4.2015. Ecology and Life Sciences: Bibliography ... Bookmarks: environmental, science, ecology, water ... 2.4.15. All 180 blog posts of March, 2015, enviro... 1192 views on 1.4.2015. 5 posts most viewed: water... In April, 2015, these publications were added to ResearchGate: • Show dataset Source Dataset: Book cover. Introduction to Biochemical Ecology. S.A.Ostroumov. Moscow University Press Sergei A. Ostroumov • Show dataset Source Dataset: U.S.A., Citation. Young American scientists (University of Puget Sound) cited this article S. A. Ostroumov, Internet • Show dataset Dataset: Citation in U.S.A., young American scientists,University of Puget Sound.
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Роль биоты в экологических механизмах самоочищения воды. Role of biota in ecological mechanisms of water self-purification. First page of the book, pages 1-4 of the book. https://www.researchgate.net/publication/311862357; full text: https://www.researchgate.net/publication/
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Sergei A. OstroumovОстроумов С.АПолный текст книги: https://www.researchgate.net/publication/313248439; Role of biota in ecological mechanisms of water self-purification. First page of the book, pages 1-4 of the book. Роль биоты в экологических механизмах самоочищения воды. https://www.researchgate.net/publication/313248439; https://www.researchgate.net/publication/311862357; http://5bio5.blogspot.com/2017/02/recent-posts-environmental-science.html; 5bio5 Feb 2.
книга: РОЛЬ БИОТЫ В ЭКОЛОГИЧЕСКИХ МЕХАНИЗМАХ САМООЧИЩЕНИЯ ВОДЫ; автор - С.А.Остроумов, доктор биологических наук. Москва, МАКС-Пресс, 124 с. Редакция и предисловие Е.А. Криксунов. - Том. Выпуск 22. - Сер. Ecological Studies, Hazards, Solutions; книга: РОЛЬ БИОТЫ В ЭКОЛОГИЧЕСКИХ МЕХАНИЗМАХ САМООЧИЩЕНИЯ ВОДЫ; автор - С.А.Остроумов, доктор биологических наук. Москва, МАКС-Пресс, 124 с. Редакция и предисловие Е.А. Криксунов. - Том. Выпуск 22. - Сер. Ecological Studies, Hazards, Solutions; ОСТРОУМОВ С.А.1 1 Московский государственный университет им. М.В. Ломоносова, 119991, г. Москва, Ленинские Горы, д. 1 Редакторы: член-корр. РАН КРИКСУНОВ Е.А.1 Предисловие: член-корр. РАН КРИКСУНОВ Е.А.1 1 Московский государственный университет им. М.В. Ломоносова, 119991, г. Москва, Ленинские Горы, д. 1; Тип: монография; Язык: русский; ISBN: 978-5-317-05368-0; Год издания: 2016 Место издания: Москва Число страниц: 124; Издательство: ООО "МАКС Пресс" (Москва); ББК: 28.080.3; УДК: 574.6:574.635:602.7:626.80; КЛЮЧЕВЫЕ СЛОВА: КАЧЕСТВО ВОДЫ, WATER QUALITY, САМООЧИЩЕНИЕ ВОДЫ, WATER SELF-PURIFICATION, БИОРАЗНООБРАЗИЕ, BIODIVERSITY, ВОДНАЯ, AQUATIC, БИОЛОГИЯ, BIOLOGY, ТОКСИКОЛОГИЯ, TOXICOLOGY, ЭКОСИСТЕМНЫЕ УСЛУГИ, ECOSYSTEM SERVICES, БОРЬБА С ЗАГРЯЗНЕНИЕМ, POLLUTION CONTROL, АННОТАЦИЯ: В книге обобщена часть предыдущих работ и публикаций автора по вопросу о роли живых организмов (биоты) в очищении и улучшении качества воды в природных экосистемах (водоемах и водотоках, главы 1-3). Выявлены и систематизированы многие функции живых организмов, вносящие вклад в самоочищение воды в морских и пресноводных экосистемах (глава 4). Показана связь исследований этих вопросов с более широким фронтом работ по изучению водных организмов и экосистем (глава 5). Результаты работы конкретизируют и развивают идеи В.И. Вернадского о роли живого вещества в биосфере. Сформулированы выводы, существенные для практики, в том числе для устойчивого использования водных и биологических ресурсов, для сохранения биоразнообразия, поддержания экосистемных услуг по очищению воды, необходимых для экологической безопасности источников водоснабжения и устойчивого развития. Часть текста - на английском языке. Книга может быть использована исследователями и специалистами в области биологии, экологии, охраны окружающей среды.
БИБЛИОМЕТРИЧЕСКИЕ ПОКАЗАТЕЛИ: Входит в РИНЦ®: да; Тематическое направление: Biological sciences; Рубрика ГРНТИ: Биология / Экология; АЛЬТМЕТРИКИ: Просмотров: 42 (4); Загрузок: 6 (3); Включено в подборки: 3; ОПИСАНИЕ НА АНГЛИЙСКОМ ЯЗЫКЕ: Role of biota in ecological mechanisms of water self-purification; Ostroumov S.A.1 1 Lomonosov Moscow State University, 1, Leninskie Gory, 119991, Moscow; The book summarizes the previous work and publications of the author, his articles on the role of living organisms (the biota) in purification and improvement of water quality in natural ecosystems (water bodies and streams; Chapters 1-3). The book organized in a system many of the functions of living organisms that contribute to water self-purification in marine and freshwater ecosystems (Chapter 4). The connection of water self-purification studies with research on other issues of aquatic biology and ecology is shown (Chapter 5). The results developed ideas of V.I. Vernadsky on the role of the living matter in the biosphere. The conclusions made in the book are relevant to sustainable use of water and biological resources, biodiversity conservation, maintenance of ecosystem services which are essential for environmental safety of water supply sources and sustainable development. Parts of the text are in English. http://5bio5.blogspot.com/2017/02/124-22-ecological-studies-hazards.html; http://elibrary.ru/item.asp?id=26802447;
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Mentioned in project: Making water supply sources more safe and sustainable
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A short review of the innovative book: Introduction to Biochemical Ecology; author of the book: Sergei A. Ostroumov. Moscow University Press, Moscow, 176 pages. https://www.researchgate.net/publication/311806606;
Book
Full-text available
Jan 1986
Moscow University Press,
Independent expertWorldCatalogSergei A. OstroumovThis is a short book review by an independent expert. The book is the first book on biochemical ecology in the world scientific literature. A short review of the innovative book: Introduction to Biochemical Ecology; author of the book: Sergei A. Ostroumov. Moscow University Press, Moscow, 1986. 176 pages.https://www.researchgate.net/publication/311806606 This book originated a new scientific discipline, namely, biochemical ecology. The book proposed new fundamental concepts that are core concepts of biochemical ecology. Among this concepts are, e.g., ecological chemomediators and ecological chemoregulators. It is the first book that formulated a list of biospheric and ecological functions of natural chemicals produced by organisms. link to more information on this book: https://www.researchgate.net/publication/259800839;
** ** The review by an independent expert was published online, on WorldCatalog: http://www.worldcat.org/title/vvedenie-v-biohimiceskuju-ekologiju/oclc/442910842&referer=brief_results; Translit of the title: Vvedenie v biohimičeskuju èkologiju; Author (translit of the original Russian name): Sergej Andreevič Ostroumov; Publisher: Moscow, Moscow University Press (Translit: Moskva : Izdatel'stvo Moskovskogo Universiteta), 1986. Edition/Format: Book Database: WorldCat; Rating: excellent; Subjects: biochemistry, ecology, environment, ** This the text of the review of this book that was published at the web site of WorldCatalog by an independent expert: This - the book by Sergei A. Ostroumov (Moscow University), Introduction to Biochemical Ecology (Moscow University Press, Moscow, 1986, 176 pages) - is a really innovative, insightful, useful book ahead of its time. It is the first book on the subject of biochemical ecology in the world scientific literature including scientific publications in the U.S.A., Russia, U.K., Germany, France, Japan, Australia, and other countries. This book created a new science of biochemical ecology. The book covers two major areas of biochemical ecology: (1) natural chemicals that are produced by organisms and involved in interactions among organisms; (2) biochemical transformation of xenobiotics and chemical pollutants. The book formulated new useful and fundamental concepts and proposed new terminology, e.g., ecological chemomediators and ecological chemoregulators. It is the first book that formulated a list of biospheric and ecological functions of natural chemicals produced by organisms. A new concept of the biosphere as an ecological-biochemical continuum was proposed. The book was translated into Polish and Bulgarian. A new, second edition of this book was published in Russian under the title 'Introduction to Problems of Biochemical Ecology' (Moscow, Nauka Press, 1990). This unique, useful, valuable, book is an excellent contribution to ecological sciences. KEY WORDS: ecology, biochemical, natural chemicals, ecological role, chemical communication, pheromones, toxins, attractants, alkaloids, phytochemicals, bioactives, biologically active substances, ecological chemomediators, ecological chemoregulators, allelopathy, allelopathic, plant-insect interactions, interactions, secondary metabolites, xenobiotics, pollutants, biotransformation, biodegradation, ** Availability of this book, according to WorldCatalog: 1. Universitäts- und Landesbibliothek Sachsen-Anhalt / Zentrale ULB, Martin-Luther-Universität Halle-Wittenberg; Halle/Saale, 06108 Germany; ** Also, this book is available in the library of Humboldt University, Berlin; ** Availability in Slovenia (Europe), according to WorldCatalog: 1. COBISS.SI National library information system of Slovenia; Maribor, 2000 Slovenia; Book; ** The second edition of this book in Russia: Telitchenko M.M., Ostroumov S.A. Introduction to Problems of Biochemical Ecology, Nauka Press, Moscow, 1990. ** Citation, a selected example (Iran, Japan): The book (Introduction to Biolchemical Ecology) was cited in the paper: F. Morteza, M.R. Masnavi, N. Khalighi. Use of Natural Purification of Water Cycle and Water Management as a solution towards Ecodesign. Design for Innovative Value Towards a Sustainable Society ( Eds M. Matsumoto, Y. Umeda, K. Masui, S. Fukushige) , Springer press, Dordrecht, 2012, pp. 33-37; The authors of this paper are from Iran. The editors are from Japan. See: http://5bio5.blogspot.com/2016/09/ideas-and-concepts-of-sergei-ostroumov.html; **
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Added to the project: Analysis of top important issues of protection of the environment, nature conservation.
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Books, list, links on ResearchGate, and reviews. https://www.researchgate.net/publication/294087919; environmental science, conservation, biology, ecology, экология, охрана природы, науки об окружающей среде;
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Feb 2016
Sergei A. OstroumovОстроумов С.Асоавторыhttps://www.researchgate.net/publication/294087919; See also: Books, environmental science, conservation, biology, ecology, by Dr Sergei Ostroumov, Moscow University, in English, in Russian, in other languages, references, pictures, photos of book covers, http://5bio5.blogspot.com/2016/03/books-environmental-science.html; Books, Book Chapters. Environmental, science, water, toxicology, with links, on ResearchGate, S.A. Ostroumov, http://5bio5.blogspot.com/2016/02/books-saostroumov-links-researchgate.html; https://www.researchgate.net/publication/294086806; DOI 10.13140/RG.2.1.3357.4168; Water × Toxicology × Links × Environment Protection × Aquatic Ecology × biochemical ecology × Nature Conservation × экология × охрана природы × Качество Воды × гидробиология × экотоксикология × ПАВ × детергенты
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Mentioned in project: Dissemination of environmental science knowledge
Bibliography. [List of publications, with some comments (280 pages)]: https://www.researchgate.net/publication/200662887; environmental science, biology, biochemistry;
Book
Jan 2010
Sergei A. OstroumovMany of these publications are available on ResearchGate as full texts or abstracts. This list was published as a book.
List of publications, with some comments (280 pages): https://www.researchgate.net/publication/200662887; the 280-page list is given here as a mega-long abstract, and also as a file, see this link: Online free: https://www.researchgate.net/publication/265166235 ; Publications authored and co-authored by S.A.Ostroumov, a detailed 280-page list: https://www.researchgate.net/publication/265166235_ ; A detailed, multi-page list: Bibliography of a series of publications on ecology, environment, biology. Selected. PDF. https://www.researchgate.net/publication/265166235_ ; See also below: a part of the file Biblio32: Abbreviation: S.A.O = S.A.Ostroumov Bibliography in English. Part 1. The books and papers by S.A. Ostroumov (selected, some with short comments) [book] Ecology, Biocoenology and Nature Conservation. Moscow University Press. Moscow, 1984. [In collaboration: Fedorov V.D., S.A.O.]. [book] Introduction to Biochemical Ecology. 1986. Moscow. Moscow University Press. 176 p. Figures, tables. Bibliogr.: pp. 168-174. [From the content: Ecological roles of natural and man-made chemicals. Inter alia, some problems of chemical communication and regulation in natural populations and ecosystems, environmental toxicology and chemistry and QSAR. Ecological functions of secondary metabolites of bacteria, fungi, algae, plants, invertebrates and vertebrates. There are no other books on bio-chemical ecology in the international literature that analyzes so broad diversity of data on metabolites of various taxons. Published reviews indicated that the book broke a fresh ground and extended the frontiers of ecology. New concepts suggested: ecological chemomediators and ecological chemoregulators in ecosystems]. Published reviews of the book: Priroda (Nature). 1987. No. 1. p.125. Professor Telitchenko M.M. Review of the book 'Introduction to Biochemical Ecology'. –Bulletin of Moscow University. Ser. 16. Biology. 1986. No. 4. P. 58. Prof. Stavskaya S.S. // Physiology and biochemistry of cultivated plants. 1988. v. 20, No. 1. p. 99 - 100. - Review of the book: 'Introduction to Bio-Chemical Ecology'; Prof. Pokarzhevsky А.D., Semenova N.L. // Ecology. 1988, No. 2, p. 89 - 90. - Review; Prof. Sokolov М.S. // Аgrochemistry. 1987, No. 7, p. 135-136. - Review; Prof. Gusev М.V. (Dean, School of Biology, Moscow Univ) // Plant Physiology. V. 35. No. 2, p.412 - 413. - Review of the book: 'Introduction to Bio-Chemical Ecology'; Prof. Dubinin N.P. (Full Member, Acad.Sci.) // Izvestia Acad. Sci. Ser. Biol. (Bulletin of Acad. Sci. Biological series). 1988, No. 1. p. 799 - 800. - Review; Prof. B. Stugren. Introduction to Biochemical Ecology by S.A. Ostroumov (a review) // Studia Univ. Babes-Bolyai. Biologia. 1987. N 2. P. 96 – 97 (in English). Dr. E. Symonides // Wiadomosci Ecologiczne, V. 33. No. 2. P. 199-201. - Review (in Polish); Review // J. General Biology. 1989. V. 50. No. 3, p. 429. [book] Introduction to Problems of Bio-chemical Ecology: Biotechnology, Agriculture, Environment. 1990. Nauka Press, Moscow. 288 p., fig., tab. Bibliogr.: pp. 256-282. [In collaboration: Telitchenko M.M., S.A.O.] ISBN 5-02-004062-2. Published reviews of the book: Prof. Laskorin B.N. (Full Member, Academy of Sciences) // Izvestia Acad. Sci. Ser. Biol. (Bulletin of Acad. Sci. Biological series) 1991. No. 5. p. 799 - 800. Prof. Sirenko L.A. // Hydrobiological Journal. 1992. - V. 28. No. 5. p. 108 - 109. Prof. Romanenko V.D. (Full Member, Academy of Sciences of Ukraine, Director, Institute of Hydrobiology; President, the National Society of Hydroecology), Romanenko A.V. // Hydrobiological Journal. 1992. -V. 28. No. 2. - p. 82 - 83. [translation of the book] Conservation Biology: An Evolutionary-Ecological Perspective (Ed. M. Soule, B. Wilcox) 1980, 395 p., fig., tab.; ISBN 0-87893-800-1. (Translated from English into Russian by S.A.Ostroumov). Russian edition: Moscow, Mir Press, 1983, 430 p., fig., tab. [book] Nature Conservation: Problems and Prospects. Moscow, Lesprom Press, 1983. 272 p., fig., tab. Bibliogr.: pp. 263-267. [In collaboration: Yablokov A.V., S.A.O.]. Published reviews of the book: Prof. Lavrenko Е.М. (Full Member, Academy of Sciences; President-in-Honor, Russian Botanical Society) // Botanical Journal. - 1984. - No. 12, - P. 1706 – 1710; Books and Art in the USSR. 1983. No. 2/37, P.23 (in English); Buch und Kunst in der UdSSR. 1983. No.2. P.21 (in German); El libro y el arte en la URSS. 1983. No.2, p. 21 (in Spanish); Amstislavsky A. To think globally, to act locally. Review of the book 'Conservation of Living Nature: Problems and Prospects' // Man and Nature. 1984, No. 9, p. 81-85. [The detailed annotation of the book] 'Conservation of Living Nature: Problems and Prospects' // Nature (Priroda). 1984. No.7. p. 123; A. Pleshakov. Review of the book. “Moskovskaya Pravda”. 1984, 15.06.84, p. 3; [book] Levels of Living Nature Conservation. 1985. Nauka Press. Moscow. 176 p., fig, tab. [In collaboration: Yablokov A.V., S.A.O.]. Published review of the book: Chesnokov N.I. Review of the book ‘Levels of Conservation of Living Nature’. 1985 // Priroda (Nature, Moscow, in Russian) 1986. № 7. с. 124-125. [book] Conservation of Living Nature and Resources: Problems, Trends, Prospects. Berlin, Heidelberg, New York, London, Paris, Tokyo, Hong Kong, Barcelona, Budapest. Springer. 1991. XII. 272 p., tab. Bibliogr.: p. 227-248. Index of Authors: p. 249-251. Subject Index: p. 253-271. ISBN 3-540-52096-1; 0-387-52096-1. [In collaboration: Yablokov A.V., S.A.O.]. This work examines the problems arising from the deterioration of the environment and covers the issues of conservation and biodiversity protection at the molecular-genetic, the ontogenetic, the species-population and the ecosystem levels. The book offers suggestions concerning changes in practice in agriculture, industry, recreation etc. – in all sectors of society life and functioning. Published positive reviews of the book: 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; Hartshorn G. S. A Russian "Silent Spring".- BioScience, 1992, Vol. 42, No. 7, p. 559-560. [‘BioScience’ is published by: American Institute of Biological Sciences] [on the book: ‘Conservation of Living Nature and Resources: Problems, Trends, and Prospects’ by A. V. Yablokov; S. A. Ostroumov]. [Gary S. Hartshorn, World Wildlife Fund Washington, DC 20037]; Book review: Conservation of Living Nature and Resources: Problems Trends and Prospects, by A. V. Yablokov, S.A.Ostroumov. - Biological Conservation. 1993, Vol. 63, Issue 3, P. 271 [doi:10.1016/0006-3207(93)90728-J]; Dokumentation Natur und Landschaft (DNL) (Germany), 32 (1992) 1 (in German); Revista Espanola de Fisiologia (Spain). 48 (1992), 1 (in Spanish); Alauda (France). 61 (1993) 1 (in French); Mammalia (France). 57 (1993) 2, p. 304 (in French); [book] Conservacion de la Naturaleza Viva. 1989. Vneshtorgizdat Press. Editorial Científico-Técnica. 238 p., fig., tab. Bibliogr.: p. 234-235. [ill.; 22 cm]. (in Spanish). [In collaboration: Yablokov A.V., S.A.O.]. [book] Opazvane na Zhivata Priroda (= Conservation of Living Nature). Zemizdat Press. Sofia. 1989. 192 p., fig., tab. [ill.; 21 cm]. (in Bulgarian). [In collaboration: Yablokov A., S.O.]. [book] Ostroumov, Sergei. Uvod v Biokhimichnata Ekologia (=Introduction to Biochemical Ecology). Nauka i Izkusstvo (Science and Art) Press. Sofia. 1990. 155 p., fig., tab. Bibliogr.: pp.146-152 (in Bulgarian). [book] Ochrana živé přírody: problémy a perspektivy (Conservation of Living Nature: Problems and Prospects). Praha. Academia. 1991. 345 p. 35 figures, 35 tables, 29 photographs. Bibliography on pages 229-307. Preface by Dr. Jaromir Pospisil (p. 5-8); ISBN 80-200-0021-6. Translated by Rudolf Orct. In Czech; the book was recommended as a textbook for universities. [In collaboration: Jablokov A.V., S.A.O.]. [book] Conservation of the Animal World: Problems and Prospects. Moscow: Znanie Press, 1979, 64 p., fig., tab. Bibliogr. 19 refs. [Okhrana zhivotnogo mira--problemy i perspektivy. Moskva : Znanie, 1979. 64 p.: ill.; 21 cm.] [In collaboration: Yablokov A.V., S.A.O.]. [book] Ostroumow S. A. Wprowadzenie do ekologii biochemicznej. [=Introduction to Biochemical Ecology] Warszawa: Wydaw. Naukowe PWN [= PWN Press], 1992. 205 pages [translated from Russian by J. Kurylowicz = tł. z jęz. ros. Jerzy Kuryłowicz] ISBN-13: 9788301104542. ISBN-10: 8301104546. Format: 20,5/14,5 cm. Gewicht: 250 g. [in Polish language; the book is recommended and used at several Polish universities, including: The Technical University of Lodz (Politechnika Łódzka); The Jan Kochanowski University of Humanities and Sciences in Kielce; University of Wrocław; University in Bialymstok (Uniwersytet w Bialymstoku); University in Opole (Wydział Przyrodniczo – Techniczny Uniwersytetu Opolskiego); Akademia im. Jana Długosza, Instytut Chemii i Ochrony Środowiska, Częstochowa; Uniwersytet Kardynala Stefana Wyszynskiego, Warsaw; and other universities]. [book] Biological Effects of Surfactants in Connection with the Anthropogenic Impact on the Biosphere. MAX Press, Moscow. 2000. 116 p. Bibliogr.: p.75-83 and 103-113. ISBN 5-317-00040-8. Overview in Eng. 84-113 p., tab. (Diploma of the Academy of Aquatic Sciences, awarded in 2006). [book] Alexeev A.P., Ananiev V.I., Artyukhin E.N., ...Dubinina V.G., ...Nemova N.N., ... Ostroumov S.A. et al. Conservation, Reproduction and Sustainable Use of Biological Resources of the Hydrosphere. Moscow. 2001. 128 p. [book] Biological Effects of Surfactants on Organisms. MAX Press, Moscow. 2001. 334 p., fig, tab. Bibliogr.: pp. 264-304 (716 refs.) ISBN 5-317-00323-7. From the Foreword written by Dr. S. McCutcheon (U.S. E.P.A.): "Sergei Ostroumov is pioneering the application of ecological and biological principles to redefine assimilative capacity, especially beyond the effects of bacteria… I look forward to developing … the emerging field of phytoremediation … based on general concepts that I see Dr. Ostroumov developing …". The book begins with a chapter entitled, "Anthropogenic Impacts and Synthetic Surfactants as Pollutants of Aquatic Ecosystems," a clear signal as to author S. Ostroumov's concerns and focus. The hardbound work provides a foundation for exploration of the effects that hazardous wastes (containing surfactants) produce in both freshwater and marine ecosystems. The text presents information on actions required for remediation and restoring water quality. Approaches to counteract "toxic effects of man made surfactants using biological methods, including phytoremediation," are also discussed in the 296-page work, as well as protection measures to improve water quality. The book contains the results of the author’s studies of the biological effects of synthetic surfactants and detergents on autotrophic and heterotrophic, prokaryotic and eukaryotic organisms. The chemicals included anionic, non-ionic and cationic surfactants, as well as several types of detergents. The organisms studied included bacteria and cyanobacteria, algae, flagellates, higher plants, and invertebrates (molluscs, annelids). The results are discussed and analyzed in connection with assessing the ecological hazards of anthropogenic impact on the biosphere and hydrosphere, studying water purification in aquatic ecosystems, and setting new priorities in the area of environmental protection. The book is of interest to scientists who conduct research in relevant areas of ecology, limnology, oceanography, hydrobiology, environmental science, geosciences, the science of the biosphere and global change, ecotoxicology, as well as to university professors, graduate students and educators. (Diploma of the Academy of Aquatic Sciences, awarded in 2006). Published positive reviews of the book: Prof. Yakovlev S.V. (Full Member, Russian Academy of Sciences) // Vestnik of Russian Academy of Sciences, 2002. v.72, No.11, p. 1038-1047. Prof. Vasiliev О.F. (Full Member, Russian Academy of Sciences) // Vestnik of Russian Academy of Natural Sciences, 2002, v.2, No.3, p. 65. Prof. Braginsky L.P., Sirenko L.A. // Hydrobiological Journal. 2003, v. 39, No. 3, p. 115-118. Prof. Rozenberg G.S. (Corresponding Member, Russian Academy of Sciences, Director of the Institute of Ecology of the Volga Basin, Russian Academy of Sciences) // Uspekhi Sovremennoi Biologii (Advances of Modern Biology). 2003. No. 6. p. 618-619. [book] Biotic Mechanism of Self-purification of Freshwater and Marine Water. (Ecological Studies, Hazards, Solutions, vol. 9) Мoscow: МAX Press. 2004. IV. 96 p., tab. Bibliogr. 59-85. Abstract in English. Section in English: p.53-58; about the author in English (p.90). ISBN 5-317-01120-5. [Diploma of the Academy of Aquatic Sciences, awarded in 2006; another Diploma to the book was awarded at the 7th International Conference ‘Aquatic Ecosystems, Organisms, Innovations’ (2005)]. Published positive reviews of the book: Prof. Malakhov V.V. (Corresponding Member, Russian Academy of Sciences) Review of the book (Ostroumov, S.A., 2004. Biotic mechanism of self-purification of freshwater and marine water. MAX Press, Moscow) // ESHS. 2004. Vol.10. P. 138. Prof. Rozenberg G.S. (Corresponding Member, Russian Academy of Sciences) Review of the book (Biotic mechanism of self-purification of freshwater and marine water, 2004) // Advances of Modern Biology. 2005. No.3. P. 317-318. [book] Pollution, Self-purification and Restoration of Aquatic Ecosystems. Мoscow: МAX Press. 2005. 100 p., tab. Bibliogr.: 63-89. Glossary. Extended English abstract (p. 57-62), a note about the author in English (p.97). ISBN 5-317-01213-9. (Diploma of the Academy of Aquatic Sciences, awarded in 2006). [teaching aid] Ecology and Hydrobiology. Curricula of Lecture Courses. Moscow. MAX Press. 2005. VI + 36 p. The collection of curricula of 8 lecture courses including: (1) Ecology; (2) Mechanisms of Interorganismal Interactions in Ecosystems; (3) General Biochemical Ecology; (4) Introduction to Biochemical Ecology of Drinking Water and Human Nutrition; (5) Quantitative and Theoretical Hydrobiology; (6) Water Self-Purification and Water Quality; (7) Environmental Policy and Sustainable Development; (8) Environmental Problems and Sustainability: New Course Curriculum (in English). The course on ecology is a classical cource, the other courses are completely innovative. Of interest to professors and students in various fields of ecology, life science, environmental science, limnology, medicine, sciences on the biosphere, protection, and sustainable use of biological, aquatic biological and water resources. (Diploma of the Academy of Aquatic Sciences, awarded in 2006). [book] Biological Effects of Surfactants. CRC Press. Taylor & Francis. Boca Raton, London, New York. 2006. 279 p., tab. Bibliogr. on pages 203-243 and 250-253. Subject Index: p.255-279. ISBN 0-8493-2526-9. (Diploma of the Academy of Aquatic Sciences, awarded in 2006). The book summarizes the 20-year research done by the author and over 90 author's research publications in many Russian and international editions as well as hundreds of publications of other scientists. The book contains new detailed information on the results of the author’s studies of the biological effects of synthetic surfactants and detergents on autotrophic and heterotrophic, prokaryotic and eukaryotic organisms. The chemicals included anionic, non-ionic and cationic surfactants, as well as several types of detergents. The freshwater and marine organisms studied included bacteria and cyanobacteria, algae, flagellates, seedlings of higher plants, and invertebrates (mollusks, annelids). The results are discussed and analyzed in connection with new priorities in assessing the ecological hazards of chemical pollution and xenobiotics on the biosphere and hydrosphere, studying water purification in aquatic ecosystems, and setting new priorities in the area of environmental protection. The book is of interest to scientists who conduct research in relevant areas of ecology, limnology, oceanography, hydrobiology, environmental sciences, water sciences, geosciences, the science of the biosphere and global change, ecotoxicology, as well as to university professors, graduate students and educators. The book is also of interest to those who are involved in environmental management and assessment, environmental law and regulation. The book is also of interest to companies that make dispersants to clean oil spills, shampoos, laundry detergents, detergents for cars, and other detergents. Opinion of Dr. Steven C. McCutcheon about the book, from his Preface: "I am pleased to have this opportunity to comment on the scientific leadership of Sergei A. Ostroumov. The book is highly recommended to those who are involved in studying ecology and solving environmental problems". - Steven C. McCutcheon, Ph.D., University of Georgia and U.S. Environmental Protection Agency; President of the American Society of Ecological Engineering. Published reviews of the book: Toderas I.K. (Academician-Secretary of the Department of the Biological, Chemical, and Ecological Sciences of the Academy of Sciences of Moldova), Ermakov V.V. (Professor, head of the laboratory, Institute of Geochemistry, RAS). Novelty about ecological hazards of the chemicals that pollute aquatic environment. A review of the book: Ostroumov S.A. Biological Effects of Surfactants. (CRC Press, Taylor & Francis. Boca Raton, London, New York. 2006. 279 p.). – Bulletin of the Academy of Sciences of Moldova. Life Sciences (Buletinul Academiei de Stiinte a Moldovei. Stiintele Vietii). 2007, № 2, с.169-172. Bibliogr. 10 refs. ["The book is a new significant step toward better knowledge and understanding the effects of chemical pollution on the biosphere" (p. 172)]. 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. т.15, No. 51, p. 71-72. (YU ISSN 0354-3285; Belgrade; in English). Ermakov V.V. 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 ( = Ермаков В.В. Рец. на книгу: Biological Effects of Surfactants. CRC Press. Taylor & Francis. Boca Raton, London, New York. 2006. 279 p. // Токсикологический вестник, 2009, № 2, с.40). [teaching aid]: From Ecology to Health: in Search of Recommendations on the Basis of Biochemical Human Ecology. Мoscow: MAX Press, 2006. 32 p. 11 Tables. Bibliogr. 34 refs. On The Ecological-Biochemical Mechanism For Maintaining Water Quality And Water Self-Purification: From Theory To Applications. Мoscow: MAX Press. 2006. - 24 p. Bibliogr. 54 refs. (Series "Science. Education. Innovations"; Issue 5). A short summary is presented of the author's publications and results in studying the biotic mechanism for maintaining water quality and for self-purification of freshwater and marine waters. The publication is based on the author's experimental studies of both freshwater and marine organisms, which were carried out in Russia, Ukraine, Great Britain and other countries. Short summary of the theory is given as well as some practical recommendation leading to sustainable use of water and aquatic biological resources. [book] Hydrobiological Self-purification of Water: from Studies of Biological Mechanisms to Search of Ecotechnologies. Мoscow: Publishers «Oil and Gas» of the I.M.Gubkin Russian State University of Oil and Gas, 2007. – 53 p. [Book]: The biological control of the environment: bioindication and biotesting / Ed. O.P. Melekhova, E.I. Egorova. Moscow: Publishing Center «Academy» 2007, 288 pp. ISBN 978-5-7695-3560-4. [Co-authors: O.P. Melekhova, E.I. Egorova, T.I. Evseev, V.M. Glaser, S.A.Geras'kin, Yu.K. Doronin, A.A. Kitashova, A.V. Kitashov, Y.P. Kozlov, I.A. Kondratyeva, 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. Tsatsenko]. Allowed by the Ministry of Education and Science of Russian Federation as a teaching aid for students enrolled in the educational direction "Biology" and biological disciplines. [Book]: The biological control of the environment: bioindication and biotesting, 2nd edition. / Ed. O.P. Melekhova, E.I. Sarapultzeva. Moscow: Publishing Center «Academy» 2007, 288 pp. ISBN 978-5-7695-5594-7. 60 × 90/16. [Co-authors: O.P. Melekhova, E.I. Sarapultzeva, T.I. Evseev, V.M. Glaser, S.A.Geras'kin, Yu.K. Doronin, A.A. Kitashova, A.V. Kitashov, Y.P. Kozlov, I.A. Kondratyeva, 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. Tsatsenko]. Allowed by the Ministry of Education and Science of Russian Federation as a teaching aid for students enrolled in the educational direction "Biology" and biological disciplines. [Collective monograph] Issues of Ecology and Hydrobiology / Editors I.K.Toderas, S.A.Ostroumov, E.I.Zubcova. Moscow, MAX Press. 2008. - 80 p. ISBN 978-5-317-02224-2. [=Проблемы экологии и гидробиологии / ред. И.К. Тодераш, С.А. Остроумов, Е.И. Зубкова. Москва, МАКС пресс. 2008. - 80 с.] The collective monograph contains publications of the international team of authors on issues of ecology, biogeochemistry, water quality, and environmental monitoring. The main part of the book is formed by the innovative materials on the role of aquatic organisms in water self-purification and biogenic migration of elements. The role of aquatic mollusks in the biogenic migration of metals is given special attention. The organisms that were studied included several species of organisms inhabiting freshwater and marine environments. Among those species were mollusks Unio pictorum, zebra mussel Dreissena polymorpha, marine mussel Mytilus galloprovincialis and some other organisms. One of the papers contributes to developing new ecological technologies to treat polluted waters using aquatic vegetation (macrophytes, plants), for instance, elodea Elodea canadensis, Potamogeton crispus and other species. The collective monograph was initiated and organized by Dr. S.A. Ostroumov as a step toward contributing to the scientific basis of environmental safety and sustainability. The book was published under the aegis of Moscow State University and the Moscow Society of Researchers of Nature (MOIP), the oldest public society in Russia. [Book]: Aquatic organisms in water self-purification and biogenic migration of elements. Moscow. MAX Press. 2008. 200 p. ISBN 978-5-317-02625-7. Review: Ermakov V.V. (Prof., Head of Lab. of Biogeochem., Russ. Acad. Sci.) About the book S.A. Ostroumov «Aquatic organisms in self-purification of water and the biogenic migration of elements» // Water: Chemistry and Ecology. 2009. № 8. p.25-29. Bibliogr. 26 refs. A new theory for the biomechanisms for water self-purification is presented in the S.A.Ostroumov’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. [Book]: The biological control of the environment: bioindication and biotesting / Ed. O.P. Melekhova, E.I. Sarapultseva. Moscow: Publishing Center «Academy» 2008, 288 pp. 2nd edition. ISBN 978-5-7695-5594-7. [Co-authors: O.P. Melekhova, E.I. Sarapultseva, T.I. Evseev, V.M. Glaser, S.A.Geras'kin, Yu.K. Doronin, A.A. Kitashova, A.V. Kitashov, Y.P. Kozlov, I.A. Kondratyeva, 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. Tsatsenko]. Allowed by the Ministry of Education and Science of Russian Federation as a teaching aid for students enrolled in the educational direction "Biology" and biological disciplines. Ostroumov S.A. Chemico-Biotic Interactions and the New in the Teaching on the Biosphere by V.I.Vernadsky. Moscow, 2009, MAX-Press. – 52 p. Bibliogr. 77 refs. Editor: Academician G.V.Dobrovolsky (Series: Science. Education. Innovations. Issue 10). ISBN 978-5-317-03005-6. The brochure is a material for the lecture. The author was invited to lecture at the All-Russia Conference with the elements of a scientific school "Ecotoxicology-2009". Conference is organized by the Scientific-Educational Center "Ecobiotechnology" of Tula State University at the Institute of Biochemistry and Physiology of Microorganisms, RAN, 26 - 30 October 2009, Pushchino. The aim of this work - to summarize and systematize the publications of the author which are related to the topic of the lecture. It contains the results of the author's works in the period 1985-2009. The results and bibliography are summarized in the tables: 1. Accumulation of elements in organisms and their role in biogeochemical fluxes of elements; 2. Effects of xenobiotics and pollutants on higher plants; 3. The impact of chemicals on algae; 4. The impact of xenobiotics on molluscs and some plankton organisms which are filter feeders; 5.Investigations of the role of aquatic plants in relation to phytotechnologies and phytoremediation; 6. Conceptual developments of fundamentals of general ecology and the state of the biosphere. Among the new fundamental concepts introduced by the author: the biosphere as an ecological-biochemical continuum (p.43), theory of apparatus of the biosphere (p.43-44). Papers: Transhydrogenase-induced responses of carotenoids, bacteriochlorophyll and penetrating ions in Rhodospirillum rubrum chromatophores. — FEBS Letters. 1973, 31: 27-30 (in Eng.). Bibliogr. 10 refs. [Discovery of new electrochromic effects induced by the transhydrogenase reaction]. [In collaboration: S.A.O., Samuilov V.D., Skulachev V.P.]. doi:10.1016/0014-5793(73)80066-3. Drachev L. A., A. A. Jasaitis, A. D. Kaulen, A. A. Kondrashin, E. A. Liberman, I. B. Nemecek, S. A. Ostroumov, A. Yu. Semenov, V. P. Skulachev. Direct measurement of electric current generation by cytochrome oxidase, H+-ATPase and bacteriorhodopsin. –Nature. 1974, 249: 321 – 324 [doi:10.1038/249321a0]. A method for association of proteoliposomes with planar phospholipid membrane has been elaborated, by which operation of molecular electric generators, such as cytochrome oxidase, H+-ATPase and bacteriorhodopsin, can be followed using ordinary electrometer techniques. Electrogenesis by bacteriorhodopsin incorporated in a planar phospholipid membrane. —FEBS Letters. 1974, 39: 43-45 (in Eng.). [In collaboration: Drachev L.A., Kaulen A.D., S.A.O., Skulachev V.P.].The meaning of some similarities among mitochondria, chloroplasts and prokaryotes. — Nature (Priroda, in Russian). 1973. No. 3. pp. 21-29, portr. Membrane potential induced by the transhydrogenase reaction in the chromatophores. —Biological Sciences. [ = Membrane potential in the chromatophores of Rhodospirillum rubrum conditioned by a transhydrogenase reaction - Nauchnye Doklady Vysshei Shkoly Biologicheskie Nauki (Nauchnye Dokl Vyss Shkoly Biol Nauki)] 1974. No. 2. p. 92-95. Fig. Abstract in Russian. Bibliogr. 9 refs. [In collaboration: S.A.O., Samuilov V.D., Skulachev V.P.] ISSN: 0470-4606; (in Russ.) Generation of electric current by cytochromoxidase, H+-ATPase and bacteriorhodopsin. —DAN (Reports to the Academy of Sciences). 1974, 218: 481-484. [In collaboration: Drachev L.A., Kaulen A.D., Kondrashin A.A., Liberman E.A., Nemecek I.B., S.A.O., Semenov A.Yu., Skulachev V.P., Jasaitis A.A..] Bioenergetics of the cell. - Future of Science. Moscow, Znanie Press, 1974, pp. 152-161, portr. [In collaboration: Jasaitis A.A., S.A.O.] Bacteriorhodopsin, membranes and photosynthesis. — Nature (Priroda, in Russian). 1975. No. 3. p. 58-64, portr. Direct measurement of the electric current generation by lipoprotein complexes. —Bioorganic Chemistry. 1975, 1: 113-126 (in Russ., with the Eng. abstract; the experimental discovery of generation of electric current by lipoprotein complexes: bacteriorhodopsin from biomembranes of Halobacterium halobium, bacteriochlorophyll reaction centers from Rhodospirillum rubrum, cytochrome oxidase, and oligomycin-sensitive H+–ATPase from mitochondria). [In collaboration: Barsky E.L., Drachev L.A., Kaulen A.D., Kondrashin A.A., Liberman E.A., S.A.O., Samuilov V.D., Semenov A.Yu., Skulachev V.P., Jasaitis A.A.] Biological oxidation. — Large Russian Encyclopedia. 3rd edition. Moscow. 1975. Vol. 18, p. 343-345. Bibliogr. 7 refs. Nicotinamide dinucleotide. — Large Russian Encyclopedia. 3rd edition. Moscow. 1975. Vol. 18, p.17. Nicotinamide dinucleotidephosphate. — Large Russian Encyclopedia. 3rd edition. Moscow. 1975. Vol. 18, p.17. Oxidative phosphorylation. — Large Russian Encyclopedia. 3rd edition. Moscow. 1975. Vol. 18, p.346. A study on the membrane potential and pH gradient in chromatophores and intact cells of photosynthetic bacteria. — Biochim. Biophys. Acta, 1975, 387: 388-395 (in Eng.). [In collaboration: Barsky E.L., Bonch-Osmolovskaya E.A., S.A.O., Samuilov V.D., Skulachev V. P.]. Reconstitution of biological molecular generators of electric current. Bacteriorhodopsin. — J. Biol. Chem. 1976, 251: 7059-7065 (in Eng.). [In collaboration: Drachev L.A., Frolov V.N., Kaulen A.D., Liberman E.A., S.A.O., Plakunova V.G., Semenov A.Y., Skulachev V.P.] Abstract: 1. Photoinduced generation of electric current by bacteriorhodopsin, incorporated into the planar phospholipid membrane, has been directly measured with conventional electrometer techniques. 2. Two methods for bacteriorhodopsin incorporation have been developed: (a) formation of planar membrane from a mixture of decane solution of phospholipids and of the fraction of violet fragments of the Halobacterium halobium membrane (bacteriorhodopsin sheets), and (b) adhesion of bacteriorhodopsin-containing reconstituted spherical membranes (proteoliposomes) to the planar membrane in the presence of Ca2+ or some other cations. In both cases, illumination was found to induce electric current generation directed across the planar membrane, an effect which was measured by macroelectrodes immersed into electrolyte solutions on both sides of the membrane. 3. The maximal values of the transmembrane electric potential were of about 150 mV at a current of about 10(-11) A. The electromotive force measured by means of counterbalancing the photoeffect by an external battery, was found to reach the value of 300 mV. 4. The action spectrum of the photoeffect coincides with the bacteriorhodopsin absorption spectrum (maximum about 570 nm). 5. Both components of the electrochemical potential of H+ ions (electric potential and delta pH) across the planar membrane affect the bacteriorhodopsin photoelectric response in a fashion which could be expected if bacteriorhodopsin were a light-dependent electrogenic proton pump. 6. La3+ ions were shown to inhibit operation of those bacteriorhodopsin which pump out H+ ions from the La3+-containing compartment. 7. The photoeffect, mediated by proteoliposomes associated with thick planar membrane, is decreased by gramicidin A at concentrations which do not influence the planar membrane resistance in the light. On the contrary, a protonophorous uncoupler, trichlorocarbonylcyanidephenylhydrazone, decreases the photoeffect only if it is added at a concentration lowering the light resistance. The dark resistance is shown to be higher than the light one, and decreases to the light level by gramicidin. 8. A simple equivalent electric scheme consistent with the above results has been proposed. The meaning of some similarities among mitochondria, chloroplasts and prokaryotes. —Nature (Priroda, in Russian). 1973. No. 3. pp. 21-29, portr. Membrane potential induced by the transhydrogenase reaction in the chromatophores. —Biological Sciences. 1974. No. 2. p. 92-95. Fig. Abstract in Russian. Bibliogr. 9 refs. [In collaboration: S.A.O., Samuilov V.D., Skulachev V.P.] Generation of electric current by cytochromoxidase, H+-ATPase and bacteriorhodopsin. —DAN (Reports to the Academy of Sciences). 1974, 218: 481-484. [In collaboration: Drachev L.A., Kaulen A.D., Kondrashin A.A., Liberman E.A., Nemecek I.B., S.A.O., Semenov A.Yu., Skulachev V.P., Jasaitis A.A..] Bioenergetics of the cell. - Future of Science. Moscow, Znanie Press, 1974, pp. 152-161, portr. [In collaboration: Jasaitis A.A., S.A.O.] Bacteriorhodopsin, membranes and photosynthesis. — Nature (Priroda, in Russian). 1975. No. 3. p. 58-64, portr. Direct measurement of the electric current generation by lipoprotein complexes. —Bioorganic Chemistry. 1975, 1: 113-126 (in Russ., with the Eng. abstract; the experimental discovery of generation of electric current by lipoprotein complexes: bacteriorhodopsin from biomembranes of Halobacterium halobium, bacteriochlorophyll reaction centers from Rhodospirillum rubrum, cytochrome oxidase, and oligomycin-sensitive H+–ATPase from mitochondria). [In collaboration: Barsky E.L., Drachev L.A., Kaulen A.D., Kondrashin A.A., Liberman E.A., S.A.O., Samuilov V.D., Semenov A.Yu., Skulachev V.P., Jasaitis A.A.] Biological oxidation. — Large Russian Encyclopedia. 3rd edition. Moscow. 1975. Vol. 18, p. 343-345. Bibliogr. 7 refs. Nicotinamide dinucleotide. — Large Russian Encyclopedia. 3rd edition. Moscow. 1975. Vol. 18, p.17. Nicotinamide dinucleotidephosphate. — Large Russian Encyclopedia. 3rd edition. Moscow. 1975. Vol. 18, p.17. Oxidative phosphorylation. — Large Russian Encyclopedia. 3rd edition. Moscow. 1975. Vol. 18, p.346. Membrane potential as a potential polyfunctional regulator of activities of membrane proteins. — Biological Sciences. 1976. No. 7, p. 22-26. Bibliogr. 23 refs. [In collaboration: S.A.O., Vorobiev L.N.] Participation of chloroplasts and mitochondria in virus reproduction and the evolution of the eukaryotic cell. —J. theor. Biol. 1977, vol. 67, p. 287-297 (in Eng.). Fig. Abstract in English. Bibliogr. 56 refs. [A new evolutionary model is proposed: it is postulated that portions of DNA of an ancient prokaryote were transferred into the nucleus of the ancient eukaryote cell. The terms 'mitophages' and 'plastophages' ('chlorophages') are introduced]. Membrane potential and surface charge densities as possible generalized regulators of membrane protein activities.— J. theor. Biol. 1978, 75: 289-297 (in Eng.). [In collaboration: S.A.O., Vorobiev L.N.] [A new theory is proposed and developed on the polyfunctional regulatory role of the membrane potential; afterwards the theory was confirmed by many facts]. Ferredoxins. - Large Russian Encyclopedia. 3rd edition. Moscow. 1977. Vol. 27, p. 310-311. Bibliogr. 2 refs. Chemiosmotic hypothesis. — Large Russian Encyclopedia. 3rd edition. Moscow. 1978. Vol. 28, p. 234. Bibliogr. 2 refs. Thermoregulation und Energetik des Organismus.—Wissenschaft und Menschheit. Berlin. Urania-Verlag. 1978. S. 340-341. Electrochemical proton gradient across the membranes of photophosphorylating bacteria. —Biomembranes (Ed. L. Manson) 1979, 10: 209-233. Bibliogr.: p. 225-233 (in Eng.). [New evidence in support of the hypothesis proposed by S.A.O. on the polyfunctional regulatory role of membrane potential]. [In collaboration: S.A.O., Jasaitis A.A., Samuilov V.D.] Origin of the eukaryotic cell and energy-transforming organells. — Journal of General Biology. 1979. 40 (2): 202-208. Electrochemical gradient of H+-ions across the membranes of bacteria. — Uspekhi Sovremennoi Biologii (=Advances of Modern Biology), 1979, 87: 155-169. [In collaboration: S.A.O., Samuilov V.D., Jasaitis A.A.] World Conservation Strategy. —Nature. (= ‘Priroda’, in Russian). 1980, 12: 40-41. Air pollution changes the permeability of plant cells. — Nature (Priroda). 1980. No. 3, P. 115. Nature conservation. —Veterinary Encyclopaedic Dictionary. Moscow. 1981. p. 416. From the Editors [Foreword]. — In: Man and the Biosphere. Man-made Effects on the Animal World [Проблемы антропогенных воздействий в экологии наземных животных]. Moscow: The Central Natural Sciences Library of the Academy of Sciences. UNESCO-MAB (Man and the Biosphere) Program. Issues: 1982, 1983, 1984, 1985, 1986, 1987, 1988, 1989, 1990. No.1. [co-authored with E.E.Anisimov]. P.5. Biochemistry and Environmental Conservation: in Search for Regulators. — Man and Nature (= Chelovek i Priroda), 1984, No. 4, p. 11-69. Bibliogr. 16 refs, portr. Problems of conservation of ecosystems: a conceptual analysis. — Man and Nature, 1984, 5: 3-15. Studies of responses of seedlings of Fagopyrum esculentum to pollution of aquatic medium by detergents. —In: Problems of Ecological Monitoring and Ecosystem Modeling. 1986, 9: 87-97. 7 tables. Abstract in English. Bibliogr. 26 refs. [In collaboration: Maximov V.N., Nagel H., S.A.O.] The inhibitory effects of SDS, sulfonol, Triton X100, and pesticide DNOC on the growth of the seedlings of F. esculentum were discovered. Pollution of the biosphere. — In: Biological Encyclopedic Dictionary, Moscow, Sov. Encyclopedia Press, 1986, p. 205-¬206. Conservation of nature [and biodiversity]. — In: Biological Encyclopedic Dictionary, Moscow, Sov. Encyclopedia Press. 1986, p. 437-438. Biological oxidation. — Encyclopedic Dictionary of Biology. Moscow. 1986. p. 419-420. Oxidative phosphorylation. — In: Biological Encyclopedic Dictionary. Moscow, Sov. Encyclopedia Press. 1986. P. 420-421. Chemiosmotic theory. — In: Biological Encyclopedic Dictionary. Moscow, Sov. Encyclopedia Press. 1986. P. 685. Effects of an anionic detergent on green algae and some angiosperms. — Biological Sciences. 1986, No.7: 84-86. 2 tables. Abstract in English. Bibliogr. 8 refs. [In collaboration: Goryunova S.V., S.A.O.] Conservation of [biodiversity, ecosystems and] nature. —In: Encyclopedia of Forest. Moscow. 1986. Vol. 2, p. 183-185. Nature conservation. — Forest Encyclopedia. Moscow. Vol. 2, 1986, p. 183-185. [In collaboration: S.A.O., Krassov O.I.] Inhibition of elongation of seedlings of buckwheat under the effect of sodium dodecylsulphate. — Biological Sciences. 1987, No.12: 81-84. 3 tables. Abstract in English and Russian. Bibliogr. 13 refs. [SDS at 0.1 mg/L inhibited the growth of seedlings of Fagopyrum esculentum by 24-37%]. [In collaboration: Nagel H., S.A.O., Maximov V.N.] Biotesting waters containing a surfactant (sulfonol) and DNOC. – Hydrobiological Journal, 1988. 24 (4): 54-55. Tab. Abstract in English. Bibliogr. 6 refs. [The pesticide dinitroorthocresol (DNOC) and surfactant sulfonol inhibited elongation of seedlings of Sinapis alba]. [In collaboration: Maximov V.N., Nagel H., S.A.O.] Omul si Natura. De la Probleme la Solutii (Man and Nature. From Problems Towards Solutions). — In: B. Stugren (Ed.). Ocrotirea Naturii: Traditii, Actualitate, Perspective. Dacia Press. Cluj-Napoca, [Romania], 1988. p. 65-80. Bibliogr. 5 refs. In Romanian language. [In collaboration: Yablokov A.V., S.A.O.] Biotesting of water polluted by sulfonol. — Water Resources. 1988. 1: 165-168. Tab. Bibliogr. 13 refs. [Sulfonol inhibited the growth of seedlings of Sinapis alba - ЕС50 was 0.19-0.35 microliters/ml. Sulfonol inhibited the growth of the culture of Scenedesmus quadricauda - ЕС50 was 0.05-0.1 microliters/ml]. [In collaboration: Maximov V.N., H.Nagel, T.N.Kovaleva, S.A.O.] Degradation of algae under water pollution by ethonium. — Ecology. 1988. No. 6: 57-58. [In collaboration: S.A.O., Maximov V.N.] Chemical pollution of the environment and carcinogenesis. — Problems of Environment and Natural Resources. 1989, 8: 12-20. Bibliogr. 10 refs. Effects of water pollution by detergent Bio-S on euglens. – Hydrobiological Journal. 1990. Vol. 26. No.6, p. 78-79. Table. Abstract in English. Bibliogr. 9 refs. [In collaboration: Wasternack C., S.A.O.] [Bio-S 0.5 g/L completely inhibited the growth of Euglena gracilis; at concentrations of 0.01 and 0.1 g/L, no substantial effect]. Usage of Cucumis sativus and other species to bio-assay chemicals. — In: Allelopathy and Plant Productivity. 1990. Naukova Dumka Press, Kiev. P. 124-129, tab. Bibliogr. 11 refs. [In collaboration: Kartsev V.G., S.A.O., Pavlova I.A.] Assessment of biotechnological destruction of anionic surface-active substances using biotests // Moscow University Biological Sciences Bulletin. Vol.45. No.3. P.72-76. Fig., tables. Abstract in English. Bibliogr. 8 refs (Publisher: Allerton Press, Inc.; ISSN 0096-3925). [In collaboration: S.A.O., Samoilenko L.S.] [Water purified in a laboratory bioreactor with bacteria Pseudomonas mendocina. Tests: Fagopyrum esculentum, Lepidium sativum, Sinapis alba]. Translated from the Russian edition: Assessment of the efficiency of biotechnological destruction of anionic surfactant using biotests. —Vestnik Moskovskogo Universiteta. Biologiya. 1990, No.3: 74-78. (in Russ., with Eng. abstract) [In collaboration: S.A.O., Samoilenko L.S.] [On some lists the reference is as following: Ostroumov, S. A. and L. S. Samoilenko (1990). Assessment of the efficiency of biotechnological destruction of anionic surfactant using biological tests. Vestnik Moskovskogo Universiteta Seriya XVI Biologiya(3): 74-78, in Russ.]. Assessment of biological activity of xenobiotics. – Vestnik Moskovskogo Universiteta Biologiya (Series 16). 1990, No. 2: 27-34, [=Vestnik Moskovskogo Universiteta, Biologiia, v. 45 (2), 1990, p. 27-34]. tab. (in Russ. with English abstract). Bibliogr. 17 refs. [page 31: a new algorithm for correspondence of the assessments of the biological activity of chemicals and pollutants made on different test-objects, or for different chemicals, of by different methods]. Translated into English: Problems of assessment of biological activity of xenobiotics. – Moscow University Biological Sciences Bulletin, v. 45 (2): p. 26-32; 1990. 4 tables. Bibliogr. 17 refs. New York, N.Y.: Allerton Press Inc. (ISSN 0096-3925, NAL Call. No.: QH301.M6). On the list of Bibliographies in the Quick Bibliography series of the National Agricultural Library (NAL, U.S.A.); http://www.nal.usda.gov/wqic/Bibliographies/qb9405.html [An analysis is presented of several problems in the bioassay of xenobiotics and pollutants. The author's and co-workers' data on bio-testing of surface-active substances and pesticides are reviewed, and new methods or modifications of methods that use plant seedlings are discussed. A new statistical approach to the comparison of data on the assessment of biological activities of xenobiotics and pollutants is proposed]. [Translated from: Vestnik Moskovskogo Universiteta. Biologiia, v. 45 (2), 1990, p. 27-34. (QH301.M58)]. Effects of sulfonol on Dunaliella asymmetrica and on Fagopyrum esculentum. - Hydrobiological Journal. 1990. 26: 96-98. Tab. Abstract in English. Bibliogr. 9 refs. [In collaboration: S.A.O., Borisova E.V., Lenova L.I., Maximov V.N.] [New bioeffects of a component of some industrial detergent mixtures. 0.001 % sulfonol completely inhibited the growth of the culture of the green algae Dunaliella asymmetrica. 0.005 % sulfonol caused death and lysis of the cells. 0.001% sulfonol almost by 50% inhibited the arbitrary average length of the seedlings of Fagopyrum esculentum]. Effects of environmental pollution by a cationic surfactant on [soil] algae and plant seedlings Fagopyrum esculentum. - Ecology. 1990. No.2: 43-46. Tables. Abstract in English and Russian. Bibliogr. 10 refs. [In collaboration: S.A.O., Tretyakova A.] [On some lists the reference is as following: Ostroumov, S. A. and A. N. Tret'yakova (1990). Effect of environmental pollution with a cationic surfactant on some algae and Fagopyrum esculentum Moench. sprouts. Ekologiya (2): 43-46]. [Nostoc muscorum, green algae Bracteacoccus minor, Fagopyrum esculentum: effects of the cationic surfactant TDTMA]. Effect of environmental pollution with a cationic surface-active substance on algae and Fagopyrum esculentum sprouts. – Soviet Journal of Ecology. 1990. Vol. 21. No.2, p. 79-81. [in collaboration: S.AO., Tretyakova A.N.). Responses of photoorganotrophically grown flagellates to water pollution by detergent Kristall. —Bulletin of Moscow University. Ser. Biology. 1991, No. 2: 67 – 69 (in Rus., with Eng. abstract). Table. Bibliogr 10 refs. [In collaboration: S.A.O., Wasternack C.] [detergent Kristall 0.5 mg/ml stopped the growth of Euglena gracilis; the concentration 0.01 mg/ml did not produce any substantial effect, that of 0.1 mg/ml inhibited the growth]. Biotesting of solutions of surfactants. — Izvestiia Akademii Nauk SSSR, Seriia Biologicheskaia ( = Biology Bulletin of the USSR Academy of Sciences). 1991. No. 4, p. 571 - 575, tab. Abstracts in Rus. and Eng. Bibliogr. 15 refs. In Russ. [In collaboration: S.A.O., Maximov V.N.] On some lists the reference is as following: Ostroumov, S. A. and V. N. Maksimov (1991). A bioassay of surfactant solutions based on the disturbance of seedling adhesion to the substrate and the development of root hairs by the rhizodermis. Izvestiya Akademii Nauk SSSR Seriya Biologicheskaya (4): 571-575. Translated into English: Bioassay of surfactants based on the disruption of seedling attachment to the substrate and rhizoderm root hair formation.- Biology bulletin of the Academy of Sciences of the USSR (USA; ISSN 0098-2164) 1992, v. 18(4) p. 383-386; Bibl.15 refs. Co-Authors: Ostroumov, S.A.; Maksimov, V.N.; Translated from: Izvestiia Akademii Nauk SSSR, Seriia Biologicheskaia, (4), 1991, p. 571-575. (QH301.A43) Availability NAL/USDA, United States of America; Availability number 9180902; Contact: http://www.nal.usda.gov/services/request.shtml; access@nal.usda.gov [Fagopyrum esculentum, Brassica alba, Triticum aestivum, indicator plants, root hairs, seedlings, surface active agents, bioassays, pollution, surfactant]. Responses of test-organisms to a quaternary ammonium compound. — Vodnye Resursy (=Water Resources). 1991. 2: 112-116, 6 tables. Bibliogr.17 refs. In Russ. [new effects of the cationic surfactant TDTMA on the leeches Hirudo medicinalis and plants Fagopyrum esculentum. The first evidence that low concentrations of that xenobiotic produce a characteristic change in the behavior pattern of the leeches Hirudo medicinalis, and inhibition of seedlings of F. esculentum]. Translated into English: Response of test-organisms to water pollution with quaternary ammonia compounds. - Water Resources (USA; ISSN 0097-8078) 1992, v. 18(2) p. 171-175. Bibliogr.17 refs. [without co-authors; Translated from: Reagirovanie test-organizmov na zagrjaznenie vodnoj sredy chetvertichnym ammonievym soedineniem. Vodnye Resursy, v. 18 (2), 1991, p.112-116; Availability NAL/USDA (United States of America; Availability number 9176736; Contact: http://www.nal.usda.gov/services/request.shtml; water pollution, quaternary ammonium compounds, testing, Fagopyrum esculentum, phytotoxicity, leeches Hirudo medicinalis]. Responses of macrophytes to water pollution by a high molecular weight surfactant. — Ecology. 1991. No. 4, p. 83-85. Table. Bibliogr. 8 refs. [The first study of the effects of a high-molecular-weight surfactant on the seedings of Oryza sativa]. [In collaboration: S.A.O., Semykina N.A.] Biological activity of waters polluted by surfactants. — Chemistry and Technology of Water. 1991. Vol. 13, No. 3: 270-283. 9 Tables. Abstracts in Rus. and Eng. Bibliogr. 83 refs. [Proposed: a new algorithm for data analysis and a formula for a new coeffidient, the coefficient of correspondence]. Biologically active chemicals of ecological significance, and methods of assessment of biological activity of pollutants // Uspekhi Khimii (Успехи химии), 1991, Vol. 60, № 3, p. 554-555. Biotesting toxicity of a surfactant (sulfonol) using seedlings of rice. — Hydrobiol. Journal. 1992, Vol. 28, No. 3: 72 - 74. (In Russ.). [In collaboration: S.A.O., Golovko A.E.] Translated into English: Use of Rice Sprouts for Bioassay of the Toxicity of the Surfactant Sulfonol // Hydrobiol. J. 1992. 28(6): 84-88. [In collaboration: S.A.O., A.E. Golovko] [New York, N.Y.: Allerton Press Inc., ISSN 0018-8166]. Biological activity of waters polluted with a liquid detergent. — Biology Bulletin of Russian Acad. of Sci. (Izvestia RAN, Ser. Biol.). 1992. No.3, p. 452-458. 8 tables. Abstracts in Rus. and English. Bibliogr. 33 refs. [In collaboration: S.A.O., Khoroshilov V.S.] [New effects of the detergent Vilva on the plant seedlings of Fagopyrum esculentum and Oryza sativa]. On some lists the reference is as following: Ostroumov, S. A. and V. S. Khoroshilov (1992). Biological activity of waters polluted with a liquid surfactant-containing detergent. Izvestiya Rossiiskoi Akademii Nauk Seriya Biologicheskaya(3): 452-458. Responses of Fagopyrum esculentum on water pollution by a high molecular weight surfactant. — Ecology. 1993. No.6: 50-55. Tables. Abstract in English. [In collaboration: S.A.O., Semykina N.A.] Effects of a non-ionic surfactant on marine cyanobacteria. — Microbiology, 1994, 63: 259-263. [In collaboration: Waterbury J., S.A.O.]; [new bioeffects of Triton X-100] Effects of aquatic pollution by a non-ionic surfactant on the marine diatom Thalassiosira pseudonana. — Biology Bulletin of Russian Acad. Sci. (Izvestiya Rossiiskoi Akademii Nauk, Seriya Biologicheskaya.). 1996. No. 1, p. 91-95, 3 tables. Bibliogr. 29 refs. [In collaboration: Fisher N., Maertz-Wente M., S.A.O.]. [Biotesting of Triton X-100]. Translation into English: Effects of aquatic pollution by a non-ionogenic surfactant on the marine diatom Thalassiosira pseudonana. – Biology Bulletin of the Russian Academy of Sciences (ISSN 1062-3590, Nauka/Interperiodica Publishing). 1996. Vol. 23, No. 1, p. 76-79, 3 tables. Bibliogr. 29 refs. [In collaboration: Fisher N., Maertz-Wente M., S.A.O.]. [A variant of the title of the journal: Biology Bulletin- Russian Academy Of Sciences C/C Of Izvestiia- Rossiiskoi Akademii Nauk Seriia Biologicheskaia]. The effects of the non-ionogenic surfactant, Triton X-100 (TX), on the growth of cultured centric diatom Thalassiosira pseudonana were studied. In the presence of 0.1 mg/l TX the cell density in the culture was markedly lower than in the control culture. In the presence of 1 mg/l TX the decrease in cell density exceeded 50%. The decrease in the specific growth rate was about 10% in the presence of 0.1 mg/l TX and about 40% in the presence of 1 mg/l TX (over a period of seven days). The diatom sensitivity to TX was higher than that of some red and green algae and chrysophytes, as well as that of starfish spermatozoa and plant seedlings to TX or similar surfactants. These data reveal some more aspects of the ecological danger of aquatic pollution by non-ionogenic surfactants. Ecological hazard from sodium dodecylsulphate. — Toxicological Bulletin (in Russ., Toxicologicheskiy Vestnik = Toxicological Review, Moscow, ISSN 0869-7922). 1997. 3: 37. [In collaboration: Donkin, Peter, and S.A.O.]; [the effects of SDS on bivalves]. Inhibition by the anionic surfactant, sodium dodecyl sulphate, of the ability of mussels Mytilus edulis to filter and purify sea water. - Vestnik Mosk. Universiteta (Biol.). [=Bulletin of Moscow University. Ser. Biology]. 1997. No. 3, pp. 30-36. [In collaboration: S.A.O., Donkin P., Staff F.] Effects of sodium dodecyl sulphate (SDS) on the filtering rate of the mussels were studied. Anionic surfactant SDS (1, 2 and 4 mg/L) inhibited water filtration by bivalves Mytilus edulis and removal from water of cells of algae Isochrysis galbana; the incubation time was 30-90 min (Tables 1 and 2). Aliquats of the algae Isochrysis galbana suspension were added to the beakers with mussels and sea water, and the filtering activity was measured by counting the algal cells at 30 min intervals during 1.5 h. After the first 30 min period, the cell density was 135% of that in the control at the initial SDS concentration 1 mg/L and 198% at 2 mg/L. A still greater difference in the algal cell concentration between the experiment and the control was observed when the SDS concentration was increased to 4 mg/L: it was 3 times higher after the first 30 min period, 6 times higher after 60 min and more than 14 times higher after 90 min. It is inferred that by inhibiting the filtering activity of the mussels SDS may reduce the natural self-purification capacity of aquatic ecosystems. The list of parameters of the ecosystem that may be changed under the effect of synthetic surfactants is given in Table 3. The experimental findings are discussed in the context of environmental protection with reference to literature data . Another abstract: Ostroumov, S.A. Donkin, P. Staff, F. Inhibition by the anionic surfactant, sodium dodecyl sulphate, of the ability of mussels Mytilus edulis to filter and purify sea water. -Vestn. Mosk. Univ. (Biol.). 1997. no. 3, pp. 30-36. [Effects of sodium dodecyl sulphate (SDS) on the filtering rate of the mussels were studied. Aliquats of the alga Isochrysis galbana suspension were added to the beakers with mussels and sea water, and the filtering activity was measured by counting the algal cells at 30 min intervals during 1.5 h. After the first 30 min period, the cell density was 135% of that in the control at the initial SDS concentration 1 mg/L and 198% at 2 mg/L. A still greater difference in the algal cell concentration between the experiment and the control was observed when the SDS concentration was increased to 4 mg/L: it was 3 times higher after the first 30 min period, 6 times higher after 60 min and more than 14 times higher after 90 min. It is inferred that by inhibiting the filtering activity of the mussels SDS may reduce the natural self-purification capacity of aquatic ecosystems. The experimental findings are discussed in the context of environmental protection with reference to literature data.] Biological filtering and ecological machinery for self-purification and bioremediation in aquatic ecosystems: towards a holistic view // Rivista di Biologia / Biology Forum. 1998. 91: 247-258. [An innovative analysis of the role of organisms in water filtration in ecosystems. Water filtration is a key component of ecological biomachinery for maintaining the natural purification potential of ecosystems. Among new facts: the synthetic surfactant SDS 1 mg/L inhibited filtration (35-95 min, 16°С) of bivalve Mytilus edulis and the removal of the cells of algae Isochrysis galbana from water. Amount of cells that stayed in water unfiltered after 95 min, was 3 times as much as the amount of cells in the control without SDS]. Abstracts in English and Italian. New data on biological effects of the surfactant Triton X-100: the inhibition of the growth of Hyphomonas MHS-3. — Toxicological Bulletin (in Russ., Toxicologicheskiy Vestnik = Toxicological Review, Moscow, ISSN 0869-7922). 1998. No. 4, p. 42-43. [In collaboration: Weiner, Ronald, and S.A.O.] Synthetic detergents Kristall and Lotos-Automat. — Toxicological Bulletin (in Russ., Toxicologicheskiy Vestnik = Toxicological Review, Moscow, ISSN 0869-7922). 1998. No. 5, p. 29-30. [In collaboration: S.A.O., Halama D., Blazej A., Legotsky I., Slugen D.] [New data on the biological effects of the detergents]. Cetyltrimethylammonium bromide. — Toxicological Bulletin (in Russ., Toxicologicheskiy Vestnik = Toxicological Review, Moscow, ISSN 0869-7922). 1998. No.5, p. 30. [In collaboration: S.A.O., Kolotilova N.N.] [New data on the biological effects of the surfactant]. Tetradecyltrimethylammonium bromide. — Toxicological Bulletin (in Russ., Toxicologicheskiy Vestnik = Toxicological Review, Moscow, ISSN 0869-7922). 1998. No.5. p. 30-32. [In collaboration: Kartasheva N.V., S.A.O.]; [new biological effects of the surfactant on rotifers]. Filtration inhibition induced by two classes of synthetic surfactants in the bivalve mollusk Mytilus edulis. — Doklady Akademii Nauk, (DAN). 1998. Vol. 362: 574-576. Tabl. Bibliogr. 15 refs. [In collaboration: S.A.O., P. Donkin, F. Staff]. [Bioeffects of SDS 0.5-4 mg/L during 30-60 min, and Triton X-100 4 mg/L during 60 and 120 min on M. edulis. SDS 1, 2, and 4 mg/L after 30-90 min inhibited the filtration rate and removal of the cells of Isochrysis galbana from water. Triton X-100 4 mg/L also inhibited the filtration rate and removal of the cells of Isochrysis galbana during 60-120-min incubation]. [=Impairment of filtration by bivalves Mytilus edulis induced by two classes of synthetic surfactants.- Doklady Akademii Nauk (1998), 362(4), 574-576. CODEN: DAKNEQ; ISSN: 0869-5652. Impairment of filtration by Mytilus edulis under the exposure of surfactants Na dodecyl sulfate and Triton X 100 was similar to that observed by other workers. This new ecol. harmful aspect needs to be considered in relation to disruption of biofiltration of water. Pollution of water media by sublethal concns. of synthetic surfactants of different classes may reduce the biofiltration of water in the ecosystem] [In collaboration: S.A.O., P. Donkin, F. Staff]. in Russian. Translated into English: Filtration inhibition induced by two classes of synthetic surfactants in the bivalve mollusk Mytilus edulis. — Doklady Biological Sciences. 1998. Vol. 362, pp. 454-456. Tabl. Bibliogr. 15 refs. Ostroumov, S. A.; Donkin, P.; Staff, F. Quarternary ammonium compound dodecyltrimethyl-ammonium bromide. 1999. —Toxicol. Bulletin (in Russ., Toxicologicheskiy Vestnik = Toxicological Review, Moscow, ISSN 0869-7922). No. 4, P. 40-41. [In collaboration: Weiner R., S.A.O.]; [the new biological effects on marine microorganisms, Hyphobacteria]. Triton X-100. — Toxicol. Bulletin (in Russ., Toxicologicheskiy Vestnik = Toxicological Review, Moscow, ISSN 0869-7922). 1999. No.4. P. 41. [The new biological effects]. Criteria of ecological hazards due to anthropogenic effects on the biota: searching for a system. — DAN (Doklady Akademii Nauk). 2000, v. 371. P. 844-846. In Russian; English translation: Criteria of ecological hazards due to anthropogenic effects on the biota: searching for a system. — Doklady Biological Sciences, 2000. 371: 204-206. 2 tables. Bibliogr. 14 refs. ISSN 0012-4966. Distributed by Springer, orderdept@springer-sbm.com [new system of principles for analysis of man-made impact: the level-block approach to analysis of ecological hazards (Tab.1); Triton X-100, 0.5 mg/L inhibits filtering by M. edulis (Tab.2)]. Concept of aquatic biota as a labile and vulnerable component of the system for water self-purification. — DAN (Doklady Akademii Nauk). 2000. Vol. 372. No.2, P. 279-282 in the Russian edition. Tables, Bibliogr. 15 refs [A new vision of the role of biota in ecosystems]. Translated into English: 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. [Translated from Doklady Akademii Nauk, Vol. 372, No. 2, 2000, pp. 279–282. Original Russian text Copyright © 2000 by Ostroumov]. A new fundamental concept of the role of biota in the functioning of aquatic ecosystems is proposed. According to that concept, the complex of aquatic organisms (aquatic biota) is a central, labile and potentially vulnerable component of the water self-purification system in aquatic ecosystems. This fundamental concept leads to substantial changes in the hierarchy of priorities for protection of biodiversity and environment. According to the concept suggested in this work, the maximum allowable concentrations (MACs) for specific substances should be established after taking into account the possible effects of pollutants on the water self-purification system. Possible effects on many organisms, including filter feeders, should be taken into consideration. Both inhibiting and stimulating effects of sublethal concentrations of pollutants are dangerous, because either of them may cause an imbalance in the complicated system of water self-purification. The fundamental concept suggested in this work heightens the level of priority of the sublethal effects of pollutants. The sublethal effects leading to changes in the functional activity of populations of aquatic organisms may cause an imbalance in the system of water self-purification. Table 1. Some factors and processes involved in water self-purification; Table 2. Examples of possible effects of contaminants on the factors and processes involved in water self-purification (including data obtained by S.A. Ostroumov); Table 3. Components of water self-purification system vulnerable to contaminants (certain examples) (new experimental findings obtained in collaboration with P. Donkin and R. Weiner are shown). http://scipeople.ru/users/2943391/ Biocatalysis of the matter transfer in a microcosm is inhibited by a contaminant: an effect on Lymnaea stagnalis. — DAN (Doklady Akademii Nauk). 2000. Vol. 373. No.2, P. 278-280. Bibliogr. 11 refs. [In collaboration: S.A.O., Kolesnikov M.P.] Translated into English: Biocatalysis of matter transfer in a microcosm is inhibited by a contaminant: effects of a surfactant on Lymnaea stagnalis. - Doklady Biological Sciences. 2000. 373: 397-399. Bibliogr. 11 refs. [In collaboration: S.A.O., Kolesnikov M.P.] Pellet excretion by the gastropods Lymnaea stagnalis feeding on the phytomass of macrophytes (such as Nuphar lutea) was 4–7 mg dry weight per 1 gram wet weight of the mollusks per 72 h. Pellet sedimentation contribute to vertical transfer of chemical elements in the ecosystem. The pellet composition depended on the species of the plants eaten by the mollusks. When the gastropods L. stagnalis feed on N. lutea, the pellets contain, in addition to organic and inorganic carbon, nitrogen (N, 2.3–2.9%), phosphorus (P, 0.4–0.5%), and silicium (Si, 1.1–1.9%). The relative content of Si was 30% higher than in the food phytomass. The surfactant tetradecyltrimethylammonium bromide (TDTMA, 2 mg/L) inhibited the feeding rate of the mollusks and pellet production, their accumulation at the bottom of microcosms, and the matter transfer connected with this. The data obtained demonstrated a new aspect of the ecological hazard due to environmental pollution with TDTMA and other quaternary ammonium compounds at sublethal concentrations. According to the author opinion, other contaminants may also suppress pellet production, their accumulation at the bottom, and the matter transfer associated with that. http://scipeople.ru/users/2943391/ Aquatic ecosystem: a large-scale, diversified bioreactor with the function of water self-purification. — DAN (Doklady Akademii Nauk). 2000. Vol. 374. No.3, P. 427-429. In Russ. Translated into English: An aquatic ecosystem: a large-scale diversified bioreactor with a water self-purification function. — Doklady Biological Sciences, 2000. Vol. 374, P. 514-516. 3 tables. Bibliogr. 15. ISSN 0012-4966. Distributed by Springer, orderdept@springer-sbm.com [contribution of the main groups of aquatic organisms (heterotrophic bacteria, fungi, cyanobacteria and microalgae, protozoans, higher plants, invertebrates, fish and amphibians) to water self-purification: comparison and analysis (Tabl.1). Relatively small effects of Triton X-100 4-5 mg/L on Hyphomonas sp. MHS-3 (5 mg/L) and Hyphomonas sp. VP-6 (5-10 mg/L), a significant inhibition by Triton X-100 of the filtration by Mytilus edulis (4 mg/L), and by Unio tumidus (5 mg/L). The inhibitory effects of TDTMA 1 mg/L on M. galloprovincialis (Tabl.2); the inhibition of feeding: effects of TX100 1-5 mg/L on Unio tumidus, TDTMA 1-2 mg/L on U. pictorum; TDTMA 1 mg/L, SDS 1.7 mg/L, detergents 6.7 – 50 mg/L, AHC 5-60 mg/L (sublethal concentrations) on M. galloprovincialis; TX100, TDTMA (2 mg/L), Tide-Lemon 75 mg/L on Lymnaea stagnalis (Tabl.3). "Sublethal concentrations of contaminants may inhibit vital activities of other organisms involved in the function of an ecosystem as an analogue of a bioreactor. This finding provides a deeper insight into the mechanisms of anthropogenic impact on biosphere. The concept put forward in this work emphasizes that intactness of the whole range of biological diversity of hydrobionts is required to provide effective functioning of an ecosystem as an analog of a water self-purification bioreactor. Therefore, the monetary cost estimates of ecosystems and biota should be increased" (p.516)]. Overview of new data on the effects of surfactants and detergents on prokaryotes, algae, flagellates, vascular plants and animals - ecological and biospheric importance: new priorities and the new facet of bio-chemical ecology // Ecol. Studies, Hazards, Solutions. 2000. vol. 2, P. 84-113, tables. Synoptic review of selected literature, p.84; organisms used, p.86; bioeffects of anionic surfactants, p.87; bioeffects of non-ionic surfactants, p.88; bioeffects of cationic surfactants, p.90; bioeffects of detergents and other mixtures, p.93; concept of ecological hazards, and self-purification as a microbiospheric process, p.94. Bibliography: p.103-113. Inhibitory analysis of the regulatory interactions in food webs. —DAN. 2000, vol. 375. No. 6, pp. 847-849 (in Russ.). Inhibitory analysis of regulatory interactions in trophic webs. — Doklady Biological Sciences, Vol. 377, 2001, pp. 139–141 (in Eng.). [The author suggest to use the methodology of inhibitory analysis to study interactions in trophic chains. Among new facts: the cationic surfactant TDTMA 1 mg/L inhibited the filtration rate of juveniles of marine bivalves Mytilus galloprovincialis, and the removal of cells of the algae Monochrysis lutheri from water (50 min, 26˚C)]. DOI 10.1023/A:1019218026198. Tetradecyltrimethylammonium bromide (TDTMA). —Toxicological Bulletin (in Russ., Toxicologicheskiy Vestnik = Toxicological Review, Moscow, ISSN 0869-7922). 2000. No. 1. P.42-43. TDTMA 2 mg/L inhibited the feeding rate of Lymnaea stagnalis by 65.5 % (when feeding on the phytomass of leaves of macrophytes). Tetradecyltrimethylammonium bromide (TDTMA). —Toxicological Bulletin (in Russ., Toxicologicheskiy Vestnik = Toxicological Review, Moscow, ISSN 0869-7922). 2000. No. 3. P. 34-35. [TDTMA 1 mg/L inhibited the filtration rate of the juveniles of the mussels Mytilus galloprovincialis Lam., when grazing (feeding on) the algae Monochrysis lutheri; the removal of algae Monochrysis lutheri was decreased]. Detergents "Lotos-Extra" and "Tide-Lemon". — Toxicological Bulletin (in Russ., Toxicologicheskiy Vestnik = Toxicological Review, Moscow, ISSN 0869-7922). 2000. No. 4. P.35-37 [the new sublethal effects on the filtration by Mytilus galloprovincialis, Lotos-Extra 25 and 50 mg/L, Tide-Lemon 33 and 43 mg/L; decrease in the filtration rate, no increase in mortality of the bivalves]. Principles for analyzing environmental hazards of anthropogenous effects including effects of chemical pollution: a concept and new data. — Vestnik MGU. Series of Biology. 2000. No. 4, pp. 27-34. Tab. Abstract in English. Bibliogr. 37 refs. Medium-term and long-term priorities in ecological studies for the 21-st century.—In: Ostroumov, S.A. (ed.). Aquatic Ecosystems and Organisms. Ecological Studies, Hazards and Solutions. 2000. Vol. 3. MAX Press, Moscow: 25-27. [In collaboration: S.A.O., Dodson S., Hamilton D., Peterson S., Wetzel R.G.]; [the detailed list of priorities in ecology]. Amphiphilic chemical inhibits the ability of molluscs to filter water and to remove the cells of phytoplankton. —Izvestia RAN. Ser. Biology. 2001. No.1: 108-116. Translated into Eng.: An amphiphilic substance inhibits the mollusk capacity to filter out phytoplankton cells from water. - Biology Bulletin, 2001,Volume 28, Number 1, p. 95-102. The effect of synthetic anionic surfactant sodium dodecylsulfate (SDS, 4 mg/l) on the kinetics of water filtration by mussel Mytilus edulis was studied. A suspension of algae Isochrysis galbana was added to the vessel with the mussels, and their filtration activity was measured by counting the concentration of the algae cells in the experimental vessels. Algae concentration was measured every 30 min for an hour and a half. The inhibiting effect on the mollusk filtration rate (FR) was qualitatively described. After the first 30 min filtration at 4 mg/l initial SDS concentration, the cell density was 322% of the control. The inhibiting effect was observed later as well. Due to FR inhibition in the vessels with the above specified initial SDS concentration, the algae cell density was 6.4 and 14.7 times that of the control after 1 and 1.5 h, respectively. Thus, SDS can decrease the natural capacity of aquatic ecosystems for self-purification and disturb other aspects of ecosystem functioning through inhibiting the filtration activity of mussels. The obtained data are discussed in the context of environment and hydrosphere protection from pollution. [MAIK Nauka/Interperiodica distributed by Springer Science+Business Media LLC. ISSN 1062-3590 (Print) 1608-3059 (Online)]. DOI 10.1023/A:1026671024000. (Translated from Izv Akad Nauk Ser Biol. 2001 Jan-Feb; (1):108-16. PMID: 11236572 [PubMed - indexed for MEDLINE]) Imbalance of the factors which control the abundance of unicellular plankton under the anthropogenic impact. — DAN (Doklady Akademii Nauk). 2001. Vol. 379. No.1. P. 136 - 138, 4 tables. Bibliogr. 12 refs. In Russ. Translated into English: Imbalance of factors providing control of unicellular plankton populations exposed to anthropogenic impact. — Doklady Biological Sciences, 2001. Vol. 379, P. 341-343, 4 tables. Bibliogr. 12 refs. (Translated from DAN 2001. Vol. 379. P. 136-138). ISSN 0012-4966. Distributed by Springer, orderdept@springer-sbm.com [A new parameter and formula is suggested: the efficiency of cell elimination from water, ECE; factors of regulation of unicellular plankton abundance (Tab.1); effects of surfactants and detergents on phytoplankton abundance (Tab.2); 7 detergents inhibit filtration of 3 species of marine and freshwater molluscs (Tab.3); Mytilus galloprovincialis eliminates from water the cells of Saccharomyces cerevisiae and algae Pavlova lutheri = M. lutheri as a result of filtration (comparing the 2 processes at the same time, Tab. 4)]. DOI 10.1023/A:1011600213221. Effects of amphiphilic chemicals on marine organisms filter-feeders. 2001. — DAN. Vol. 378. No. 2. P. 283 - 285 [new bioeffects of surfactants on bivalves]. Translated into English: Effect of amphiphilic chemicals on filter-feeding marine organisms. - Doklady Biological Sciences. 2001. Volume 378, Numbers 1-6. p. 248-250. DOI 10.1023/A:1019270825775. Pellets of mollusks in biogeochemical flows of C, N, P, Si, and Al. — DAN. 2001. Vol.379. No. 3. P. 426-429. Bibliogr. 12 refs. [In collaboration: S.A.O., Kolesnikov M.P.] In Russ.; Eng. translation: Pellets of some mollusks in the biogeochemical flows of C, N, P, Si, and Al. — Doklady Biological Sciences, 2001. Vol. 379, P. 378-381. Bibliogr. 12 refs. [In collaboration: S.A.O., Kolesnikov M.P.] (Translated from: DAN 2001. Vol. 379. No. 3. P. 426-429). ISSN 0012-4966. Distributed by Springer, orderdept@springer-sbm.com [The elemental composition (C, N, P, Si, Al) of the pellets formed by mollusks Lymnaea stagnalis feeding on the leaves of Nuphar lutea and Taraxacum officinale; the amount (wet weight, dry weight) of pellets formed by L. stagnalis feeding on the leaves of N. lutea and T. officinale; transfer of matter and chemical elements (C, N, P, Si, Al) with pellets of freshwater bivalves (unionids Unio sp., etc.) per unit biomass of mollusks and per unit area of the ecosystem of the river; transfer of matter and chemical elements (C, N, P, Si, Al) with the pellets of L. stagnalis per unit biomass of mollusks and per unit area of the ecosystem of the pond. Surfactants ТDТМА 2 mg/l, SDS 1-2 mg/l, the detergent Tide-Lemon 75 mg/l inhibited the trophic activity of Lymnaea stagnalis. Percents of food assimilability of various taxons of invertebrates, from Rotatoria (48-80) to Diptera (1-31)]. DOI 10.1023/A:1011620817764. 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.). Translated into English: 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. Hazard of synergy at the synecological summation of man-made impacts. - DAN. 2001. Vol.380. No. 6. P. 847-849 [new type of man-made hazards]. In Rus. Translated into Eng.: The hazard of a two-level synergism of synecological summation of anthropogenic effects. -Doklady Biological Sciences, 2001, Volume 380, Numbers 1-6, p. 499-501. The concrete examples of synergism were found when anthropogenic impacts affected organisms of two adjacent trophic levels. Bioeffects were described of the action of synthetic detergent Vesna (1 mg/l) on oysters Crassostrea gigas, detergent IXI (10 mg/l) on mussels Mytilus galloprovincialis, detergent Tide-Lemon (50 mg/l) on M. galloprovincialis. The danger of simultaneous influence of contamination of environment (e.g., by detergents) on organisms of two trophic levels may occur when the polluting chemicals produce effects on algae and bivalves that are filter-feeders. [Publisher MAIK Nauka/Interperiodica, distributed by Springer Science+Business Media LLC.; ISSN 0012-4966 (Print) 1608-3105 (Online)] DOI 10.1023/A:1012348127085. Synecological basis for the solution of the problem of eutrophication. - DAN. 2001. Vol. 381. No. 5. P. 709-712. [A new approach to prevent eutrophication]. English translation: The synecological approach to the problem of eutrophication. - Doklady Biological Sciences, Vol. 381, 2001, p. 559–562. ISSN 0012-4966. Distributed by Springer, orderdept@springer-sbm.com. [A new approach to combat eutrophication. Among new facts: The liquid detergent Fairy 2 mg/L inhibited filtration by Mytilus galloprovincialis within 2-23 min (22.5 ºС) after addition]. DOI 10.1023/A:1013378505630. http://scipeople.ru/users/2943391/ Synopsis of new data and concepts in aquatic and general ecology // Ecological Studies, Hazards, Solutions, 2001, vol. 5, p. 130-136. Bibliogr. 5 refs. Hydrobiology, ecology and education // Ecological Studies, Hazards, Solutions, 2001. Vol. 5. P.119-122. [In collaboration: Fedorov V.D., S.A.O.] Synthetic detergent Losk-Universal // Toxicological Bulletin (in Russ., Toxicologicheskiy Vestnik = Toxicological Review, Moscow, ISSN 0869-7922). 2001. No. 3, p. 40-41. Detergent Losk-Universal inhibited filtration by Mytilus galloprovincialis (incubation: 27.8º С; 20 mg/L 19-54 min.; 7 mg/L 9-49 min). Avon Herbal Care // Toxicological Bulletin (in Russ., Toxicologicheskiy Vestnik = Toxicological Review, Moscow, ISSN 0869-7922). 2001. No. 5, p. 29-31. [The sublethal negative effects on filtration rate by bivalves M. galloprovincialis] Effects of sodium dodecylsulphate on molluscs that were cultivated under the conditions of aquaculture, in connection with the assessment of the potential hazard of surfactants // Toxicol. Bulletin. 2001. No. 6, p. 30-35. Liquid detergents Biospul and Kashtan // Toxicological Bulletin (in Russ., Toxicologicheskiy Vestnik = Toxicological Review, Moscow, ISSN 0869-7922). 2001. No. 6, p. 41-43 [In collaboration: S.A.O., V. S. Khoroshilov]; [new bioeffects on the seedlings]. The program of the lecture course. Introduction to Biochemical Ecology // Ecological Studies, Hazards, Solutions, 2001. 5: 122-124. Bibliogr. 11 refs. [Covered: the ecological roles of natural and man-made chemicals. Inter alia, some problems of chemical communication and regulation in natural populations and ecosystems, environmental toxicology and chemistry and QSAR. Ecological functions of secondary metabolites of bacteria, fungi, algae, plants, invertebrates and vertebrates. Until now, there were no other courses on bio-chemical ecology. Published reviews of the author's book – 'Introduction to Biochemical Ecology' - indicated that the book broke a fresh ground and extended the frontiers of ecology. New concepts suggested: ecological chemomediators and ecological chemoregulators in ecosystems]. The program of the lecture course. Ecology of Water Self-Purification // Ecological Studies, Hazards, Solutions, 2001. 5: 124-125. Bibliogr. 13 refs. The program of the lecture course. Ecology // Ecological Studies, Hazards, Solutions, 2001. 5: 126-129. Bibliogr. 38 refs. Biodiversity and water quality: the role of feedbacks. — DAN. 2002. vol. 382. No. 1. P. 138-141. 1 fig, 2 tables. Bibliogr. 15 refs. Translated into English: Biodiversity protection and quality of water: the role of feedbacks in ecosystems.- Doklady Biological Sciences. 2002. Volume 382, Numbers 1-6, p.18-21. [A new vision of how biodiversity helps towards better stability and water quality. Among new facts: the detergent IXI 20 mg/L inhibited filtration by marine mussels Mytilus galloprovincialis (3-25 min, 18 pro mille, 22.8ºC); the detergent Deni-Automat 30 mg/L also inhibited filtration of oysters Crassostrea gigas Thunberg (2-40 min, 25.2ºC).]. DOI 10.1023/A:1014465220673. http://scipeople.ru/users/2943391/ New type of action of potentially hazardous chemicals: uncouplers of pelagial-benthal coupling (Novyi tip deistviya potentzialno opasnykh veshchestv: razobshchiteli pelagialno-bentalnogo sopryazheniya). — DAN. 2002. v. 383. No.1, p. 138-141. [The effects of the xenobiotic (potassium bichromate K2Cr2O7) on the removal of suspended matter from water by the mussels Mytilus galloprovincialis was studied. It was shown that the chemical inhibited the removal of suspended matter from water during water filtering by mussels. It was concluded that the chemical inhibited water filtration rate by the mussels. The results are in accord with previous findings on effects of other xenobiotics and pollutants on filtration rate by bivalves. The similar inhibition by xenobiotics and pollutants was shown by the author for both marine (Ostroumov, DAN, 2001, vol. 378, No. 2., p. 283-285) and freshwater (Ostroumov, DAN, 2001, vol. 380, No. 5., p. 714-717) molluscs. The results demonstrate a new type of ecological hazard from water pollution when the polluting chemicals may uncouple the link between from the pelagial part of the ecosystem and its benthal part, i.e. pelagial-benthal coupling]. In Russ., translated into English: A new type of effect of potentially hazardous substances: uncouplers of pelagial–benthal coupling. — Doklady Biological Sciences. 2002. Vol. 383: 127-130. Bibliogr. 15. ISSN 0012-4966. Distributed by Springer, orderdept@springer-sbm.com. [Organisms are mediators of “biogenic migration of atoms in the biosphere”. This migration is partly implemented in the framework of pelagial–benthal coupling. Average percentage of assimilated (16-90%) and non-assimilated (10-84%) food matter for 15 large taxa of invertebrates (Table 1); potassium bichromate inhibited water filtration by Mytilus galloprovincialis (Table 2); surfactants, detergents, pesticides inhibited filtration by filter-feeders, marine and freshwater bivalves and rotifers (Table 3). A prediction is made: "Further research and experimental studies are expected to provide new evidence that sublethal concentrations of chemical pollutants induce a significant decrease in the filtration capacity of freshwater and marine filter feeders" (p.129). "The uncoupling process considered above is an anthropogenic violation of two basic laws (empirical rules or biogeochemical principles) of the biosphere functioning: (1) biogenic migration of atoms of chemical elements in the biosphere always tends toward its maximum expression; (2) on the geological time scale, the evolution of species gives rise to the forms of life that are stable in the biosphere, and is so directed that the biogenic migration of atoms in the biosphere increases" (p.129).]; DOI 10.1023/A:1015385723150. System of principles for protecting the biogeocenotic function and biodiversity of filter-feeders. — DAN. 2002. V. 383. No. 5. P. 710-714. [As a result of our studies of filter-feeders (DAN, 1998, Vol. 362, P. 574-576; DAN, 2001, Vol. 378, P. 283-285), it is clear that the filtering activity of populations of filter-feeders in natural habitats might be significantly reduced if the concentrations of some pollutants reach certain levels. The role of filter-feeders as factors of water purification in ecosystems is so important that their inhibition is a danger for the entire ecosystem. The author emphasizes that not only the biodiversity of filter-feeders but also their level of functional (filtration) activity is to be protected. In order to do so, we suggest establishing a new type of protected areas whose main purpose is to protect functionally active populations of filter-feeders, including bivalves and other organisms. Those protected areas could be named hydrobiological (some variants: biofiltering, or malacological) reserves (some variants: refuges, sanctuaries, etc.)]. In Russ., translated into English: System of principles for conservation of the biogeocenotic function and the biodiversity of filter-feeders. — Doklady Biological Sciences. 2002. Vol. 383: 147-150. Bibliogr. 15. (ISSN 0012-4966. Distributed by Springer, orderdept@springer-sbm.com). [5 principles of nature conservation requirements in malacological and hydrobiological reserves (Tabl. 3), among them principle 2, "conservation of filtration activity of organisms and populations"; 5 detergents (1-50 mg/L) inhibited the filtration activity of freshwater mussels Unio tumidus, marine mussels Mytilus galloprovincialis, oysters Crassostrea gigas (Tabl. 2); effects on the efficiency of elimination (EEE) of suspended matter from water were measured (tabl. 2); the number of days (0.3 – 10) needed to filter the volume of aquatic (freshwater and marine) ecosystem by the local bivalves (a review of data from literature) (Tabl.1). "I suggest that the existing system of protected terrestrial and water areas should be supplemented with special sites intended to conserve populations of filter-feeding hydrobionts. In addition to biodiversity conservation, these populations should be conserved because they fulfill a very important biogeocenotic function of water filtration and purification" (p.149). "The system of five principles…is proposed to provide an ecological basis of the environment conservation conditions at these sites (malacological and hydrobiological reserves)" (p.149).]. DOI 10.1023/A:1015398125876. New variants of the definitions of the concepts and terms 'ecosystem' and 'biogeocoenosis'. — DAN. 2002. V. 383. No. 4. P. 571-573. In Russ., translated into English: New definitions of the concepts and terms ecosystem and biogeocenosis. — Doklady Biological Sciences. 2002. Vol. 383: 141-143. 2 tables. Bibliogr. 15. ISSN 0012-4966 (Print) 1608-3105 (Online). Distributed by Springer, orderdept@springer-sbm.com [In 1935, the term 'ecosystem' was coined by A. Tansley. In the 1940s, another important term 'biogeocoenosis' was introduced by V. N. Sukachev. Since that time, a significant amount of new facts was accumulated in ecology. It is necessary to revisit the formulation of the basic concepts and terms in ecology, including the two terms mentioned above. The author proposed some new variants of the definition of the two terms that (1) reflect the modern vision of the basics of ecology; and (2) avoid the vicious circle of using other terms that in turn request their definitions. Tables: 5 specific features of the proposed definition of ecosystem (Table 1); 8 specific features of the proposed definition of biogeocenosis, and 8 distinctions between the proposed definition and the classical definition by V.N. Sukachev (Table 2)]. DOI 10.1023/A:1015393924967. Syllabus of a new lecture course 'Introduction to biochemical ecology' // Syllabuses of lecture courses (Programmi spetzkursov). Moscow: Moscow State University. 2002. P.123-125 [the new innovative course developed]. Syllabus of a new lecture course 'Mechanisms of interactions of organisms in ecosystems' // Syllabuses of lecture courses (Programmi spetzkursov). M.: Moscow State University. 2002. P.120-122 [the new innovative course developed]. Syllabus of a new lecture course 'Ecology of water self-purification' // Syllabuses of lecture courses (Programmi spetzkursov). Moscow: Moscow State University. 2002. P.126-127 [the new innovative course developed]. Molluscs in biogeochemical flows (C, N, P, Si, Al) and water self-purification: effects of surfactants. — Vestnik MGU. Ser. 16. Biology. (ISSN 0201-7385; ISSN 0137-0952) 2003. No. 1. P. 15-24. [In collaboration: S.A.O., Kolesnikov M.P.] [The effects of a cationic surfactant on the feeding rate and the pellet excretion by the molluscs Lymnaea stagnalis and freshwater mussels (Unionidae) was studied. It is shown that the molluscs Lymnaea stagnalis excret pellets of faeces at the rate of 4-7 mg (dry weight) per 1 g of the wet weight of molluscs per 72 h. Under the conditions when the food is the leaves of Nuphar lutea, the content of C in the pellets was 69.74%; N, 2.3-2.9%; P, 0.4-0.5%; Si, 1.1-1.7%, Al, 0.054-0.059%. In the presence of the cationic surfactant, tetradecyltrimethylammonium bromide (TDTMA) (2 mg/L), the feeding rate of molluscs was decreased by 27.9-70.9%. Under the effect of the cationic surfactant, TDTMA (2 mg/L), the production of pellets per g of the wet weight of molluscs was decreased by 41.7% (over the incubation period of 72 h). We also studied the content of the pellets of freshwater mussels after their feeding on the natural seston (the sample of mussels taken from the natural community). In the sample, the species and their percentages were: Unio tumidus 63.21%, U. pictorum 27.36 %, Crassiana crassa 7.55 %, Anodonta cygnea 1.89 %. This sample of bivalves produced the pellets that had the following chemical content: C, 64.3%; N, 2.73%; P, 0.39%; Si, 1.14%; Al, 0.071%. Water filtering by the unionids was also inhibited by TDTMA and some other surfactants. Therefore it was shown that the surfactant inhibited the matter and elements transfer through this level of the trophic chain]. Inhibitory analysis of top-down control: new keys to studying eutrophication, algal blooms, and water self-purification. — Hydrobiologia. 2002. Vol. 469, P. 117-129. [Top-down control is a vital type of interspecies interactions in food webs. Phytoplankton grazers contribute to the top-down control of phytoplankton populations. This article is focused on the role of benthic suspension-feeders (filter - feeders) in the control of plankton populations as a result of water filtering and the removal of suspended matter (including the cells of plankton) from the water column. New data on the inhibitory effects of synthetic surfactants and detergents on bivalves, which are benthic filter-feeders (freshwater mussels Unio tumidus, U. pictorum, marine mussels Mytilus galloprovincialis, M. edulis, and oysters Crassostrea gigas) are presented and discussed. Importance and efficiency of that approach to the problems of eutrophication and water self-purification is pointed out. The chemical pollution may pose a threat to the natural top-down control of phytoplankton and water self-purification processes. Water self-purification is a key prerequisite for sustainable use of aquatic resources. The anionic surfactant SDS at a concentration of 0.5 mg/L inhibited water filtration by C. gigas, at a concentration of 1.7 mg/L suppressed the filtering activity of M. galloprovincialis, at that of 1-5 mg/L decreased water filtration by M. edulis. The non-ionogenic surfactant TX100 at concentrations 0.5-5 mg/L induced a sharp slowdown in water filtration by M. edulis, at 1 and 5 mg/L it caused a decrease in the filtration rate by the freshwater bivalve U. tumidus. The cationic surfactant TDTMA at 1-2 mg/L constrained the filtering activity of the freshwater bivalve U. pictorum. 4 detergents (6.7-50 mg/L) hindered the filtration by M.galloprovincialis. 3 detergents (1-30 mg/L) slowed down the clearance rate during water filtration by C. gigas. The shampoo AHC (Avon Herbal Care) at concentrations 5-60 mg/L arrested the filtration by M. galloprovincialis]. DOI 10.1023/A:1015559123646. Polyfunctional role of biodiversity in processes leading to water purification: current conceptualizations and concluding remarks. — Hydrobiologia. 2002. V. 469 (1-3): 203-204. Bibliogr. 8 refs. ISSN 0018-8158 (Print) 1573-5117 (Online) [Selected elements of a new vision of the role of biodiversity in water purification and maintaining the natural purification potential of ecosystems, elements of the theory of water self-purification. Some fundamental principles that characterize the pivotal roles of the biodiversity of filter-feeders in ecosystems. Among those roles are: (1) the role of ecological repair of water quality, (2) the role of contributing to reliability and stability of the functioning of the ecosystem, (3) the role of contributing to creation of habitat heterogeneity, (4) the role of contributing to acceleration of migration of chemical elements. It is an important feature of the biomachinery of filter-feeders that it removes from water various particles of a very broad range of sizes. Another important principle is that the amount of the organic matter filtered out of water is larger than the amount assimilated so that a significant part of the removed material serves no useful function to the organism of the filter-feeder, but serves a beneficial function to some other species and to the ecosystem as a whole. The new experiments by the author additionally demonstrated a vulnerability of the filtration activity of filter feeders (e.g., bivalves and rotifers) to some xenobiotics (tetradecyltrymethylammonium bromide, heavy metals and some others). The inhibition of the filtration activity of filter-feeders may lead to the situation previously described as that of an ecological impairment of the second type]. DOI 10.1007/s10750-004-1875-1. Identification of a new type of hazard of chemicals: inhibition of processes of ecological remediation. – DAN. 2002. Vol. 385. No. 4. P. 571-573. [New data on the inhibition of filter-feeders by chemical mixtures (detergents) are reported. The detergent Lanza-Automat (20 mg/L) inhibited water filtration by the bivalves (oysters) Crassostrea gigas (incubation time 4-35 min, 23.4ºC). As a result, the removal from water of suspended cells of Saccharomyces cerevisiae was inhibited by the detergent. New data are in line with the previous findings of the same author on the similar action of other detergents as well as surfactants (e.g., Ostroumov, 2000, 2001). The author formulated and substantiated a new conceptualization of ecological hazards from chemicals that pollute aquatic environment. The author proposed that the ability of bivalves to contribute to water purification and ecosystem remediation may be damaged by chemical pollutants exemplified by detergents. The concept is in accord with the conclusions made on some other studies of the same author using bivalves Unio tumidus (DAN, 1991, 380:714-717); Mytilus edulis (DAN, 1998, v.262: 574-576) and C. gigas (DAN, 2001, v. 378: 283-285)]. This paper was translated into English and published as the following paper. Identification of a new type of ecological hazard of chemicals: inhibition of processes of ecological remediation. Doklady Biological Sciences. 2002. 385: 377-379. In Eng.; ISSN 0012-4966. The author discovered and characterized a new type of ecological hazard of chemical pollution of water, which involves inhibition of important processes of ecological remediation of ecosystems (water filtration by aquatic bivalves). Experiments were performed using mollusks (oysters), Crassostrea gigas Thunberg, and a cell suspension of Saccharomyces cerevisiae. The cell suspension was a model of suspended matter in aquatic ecosystem. Laundry detergent Lanza-Automat inhibited water filtration by oysters C. gigas. As a result, the removal of the cells (S. cerevisiae) from water was inhibited. This demonstrated a new type of ecological hazard caused by water pollution with chemical pollutants at sublethal concentrations. This hazard is associated with the fact that chemical pollution of water causes inhibition of the physiological activity of filter-feeders, thereby inhibiting the important ecological processes of water filtration. These ecological processes contribute significantly to improving water quality, water purification and the related remediation of aquatic ecosystems (their ecological repair). [Effects on elimination efficiency (EEE); new concept of ecological remediation as ecological repair; new data on inhibitory effects of the detergent Lanza-Automat 20 mg/L on water filtration by oysters C. gigas and removal of the cells of S. cerevisiae from water (Tabl. 1); a summary table of effects of cationic, anionic, non-ionic surfactants, pesticides, potassium bichromate, on marine and freshwater bivalves, larvae of Ephemeroptera, rotifers, and Cladocera – mainly the data of the author plus some data from literature (Tabl. 2) The author identified "a new type of ecological hazard caused by water pollution. This hazard is associated with the fact that chemical pollution of water causes inhibition of the physiological activity of hydrobionts, thereby inhibiting the ecological processes mediated by the hydrobionts. These processes contribute significantly to water purification and the related remediation of aquatic ecosystems (their ecological repair)" (p.379)]. DOI 10.1023/A:1019929305267. http://scipeople.ru/users/2943391/ Role of aquatic organisms in the regulation of flows of matter and migration of elements in aquatic ecosystems. Bulletin RAEN (Vestnik RAEN). 2002. No. 3. P. 50-54. On studies of bivalves. Ecol. Studies, Problems, Solutions, 2003, vol. 6. P. 101-105. The functions of the living matter in the biosphere // Vestnik RAN (Herald of the Russian Academy of Sciences). 2003. V. 73. No. 3. P. 232-238. Tab. Abstract in Russian. Bibliogr. 18 refs, portr. [A new definition of the term 'pheromones', p. 232-233; new concepts of ecological chemomediators (p. 232), ecological chemoregulators (p. 232), ecological chemoeffectors (p. 234)]. [O funktsiyakh zhivogo veshchestva v biosfere. - Vestnik Rossijskoj Akademii Nauk, 2003, vol. 73, no. 3, pp. 232–238]. Some approaches to the system of criteria for environmental hazards of man-induced effects on organisms and ecosystems. - Siberian Ecological Journal. 2003. No.2, p. 247-253. [ = Siberian Journal of Ecology = Sibirskiy ekologicheskiy zhurnal; ISSN 0869-8619; http://www.sibran.ru/English/SECJE.HTM ] [The paper provides a critical discussion of the classification criteria for environmental hazards which is used in some states - e.g., the states of EC (European Community), in order to decide in what classification category a substance will fit. A new system of criteria for environmental hazards is proposed. The system includes four blocks according to the four levels of man-caused disturbances in living systems. As an example of a non-lethal but potentially important effect produced by a man-made chemical, some new data on the inhibitory effects of a surfactant on bivalves are presented. A non-ionic surfactant Triton-X100 inhibited the water filtration by mussels. Various ecologically important consequences of the inhibition of water filtration are discussed. The efficiency of the proposed system of criteria is demonstrated]. http://www.sbras.ru/PSB/show_text. phtml?eng+1646+9. Anthropogenic effects on the biota: towards a new system of principles and criteria for analysis of ecological hazards // Rivista di Biologia / Biology Forum. 2003. vol. 96, no.1, p. 159-170. Table. Abstracts in Eng. and Italian (p.169). Bibliogr. 21 refs. [=Effetti dell' attività umana sul biota: verso un nuovo sistema di principi e criteri per l'analisi dei rischi ecologici. The currently accepted system of criteria for evaluating environmental and ecological hazards of man-made chemicals (pollutants) is vulnerable to criticism. In this paper, a new concept of the system of approaches towards criteria for evaluating the ecological hazard from man-made impact is proposed. It is suggested to assess the man-made impacts (including effects of pollutants and xenobiotics) on the biota according to the following four levels of disturbance in biological and ecological systems: (1) the level of individual responses; (2) the level of aggregated responses of groups of organisms; (3) the level of stability and integrity of the ecosystem; (4) the level of contributions of the ecosystem to biospheric processes. On the basis of the author’s experimental studies, an example is given of how to apply the proposed approach and the system of criteria to the analysis of concrete experimental data. To exemplify the efficiency of the proposed approach, it is shown how to use it to analyze new data on effects of a synthetic surfactant on water filtering by bivalves. It is concluded that the proposed approach will be helpful in better assessing environmental and ecological hazards from anthropogenic effects on biota, including effects of man-made chemicals polluting ecosystems. Surfactant ТХ100 0.5 мг/л inhibited filtration of water (90 мин, 16°С) by mussels Mytilus edulis and the removal of cells of algae Isochrysis galbana out of water. The abundancy of unfiltered cells that stayed in water was twice as much than in the control system without TX100]. On the role of the biota (ecological and hydrobiological factors) in the regulation and stabilization of the biospheric, geochemical, and geophysical processes and parameters. Vestnik of the Russian Academy of Natural Sciences. 2003, Vol. 3, No. 2, P. 59-62. [The paper revisit the role of the biota (living organisms, the sum of ecological and hydrobiological factors) in the regulation and stabilization of some parameters of the biosphere, geophysical and geochemical processes and, as a result, in the preventing the extremal weather events and global change of the climate system. The shortlist of the six most important functions of biota in doing so is formulated and commented]. Modernization of the concepts of ecosystem and biogeocoenosis. - Bulletin of the Samara Scientific Center of the Russian Academy of Sciences. Special Issue on Ecology. (Izvestiya Samarskogo Nauchnogo Tsentra Rossiyskoj Akademii Nauk. Spetzialnyi Vypusk "Aktualnye Problemy Ekologii"), 2003. No.1. P. 25-33. Aquatic organisms as a factor in the regulation of the flows of matter and migrations of chemical elements in aquatic ecosystems.- Izvestija Samarskogo nauchnogo centra Rossijskoj akademii nauk, 2003, v.5, No.2, p.249-255. Bibliogr. 24 refs. [V.I.Vernadsky underlined the important role of the living matter in determining the pattern of migrations of chemical elements on the surface of Earth, including the hydrosphere. On the basis of the data accumulated in hydrobiology, limnology, and biological oceanography, some conceptual conclusions could be made. The classification of migrations of elements, as proposed in this paper, can include the following types: vectorial and stochastic, cyclic and non-cyclic migrations. The role of living matter in regulation of that which proportion of matter (chemical elements) undergo any of those types of migrations is analyzed. Author consider both groups of factors (biotic and abiotic ones) as important in that regulation. The structurization of the migrations of chemical elements on the surface of Earth is under the combined and complex control of the both groups of the factors. Extending the area of usage of the unique adjective proposed by Vernadsky (‘biocosny’, which means formed as a process and result of the combined and closely interwoven action of biotic and abiotic factors; the adjective consists of two parts, ‘bio’ and ‘cosny’, the latter means ‘inert’ in Russian and reflects the sum of abiotic factors), we consider the complex biocosny regulation of migrations of matter and chemical elements in the biosphere, including the regulation of dichotomies at the points of bifurcations among the vectorial and stochastic, as well as cyclic and noncyclic types of their migrations. The conceptual conclusions are based on the empirical data in literature and the results of our experiments (e.g., Ostroumov, Kolesnikov 2000, 2001; Ostroumov 2001)]. http://www.ssc.smr.ru/ftp/2003/ssc52249.pdf Full text is available at eLIBRARY, see: http://elibrary.ru/ Elements of the theory of biotic self-purification of aquatic ecosystems. Bulletin of the Samara Scientific Center of the Russian Academy of Sciences. Special Issue on Ecology. (Izvestiya Samarskogo Nauchnogo Tsentra Rossiyskoj Akademii Nauk. Spetzialnyi Vypusk "Aktualnye Problemy Ekologii") 2003. No.1. P. 225-229. Remediation of disturbances at the ecological level: water self-purification and ecological repair. — Vestnik Rossiskogo Universiteta Druzhby Narodov. Ser. Ecology and Life Safety. 2003. No. 9. P. 104-111, 4 tables. Bibliogr. 23 refs. [Using a cationic surfactant (tetradecyltrimethyl ammonium bromide) and heavy metals (Cd, Cu and some others), new experimental data were obtained that show that one of the most important processes of ecological repair of water quality (the process of removal of suspended matter by aquatic organisms) is inhibited by pollutants (xenobiotics), which points to some similarity or analogy with the processes of DNA repair; the latter can also be inhibited by some xenobiotics and have some other attributes (a decrease in entropy etc.) that are analogous to those of ecological repair. The xenobiotics that produced those negative effects on the processes of the ecological repair (remediation) of water quality included various surfactants, detergents, and metals. New experimental data on the effects of tetradecyltrimethyl ammonium bromide on marine mussels are presented]. Full text is available at eLibrary.Ru Medium-term and long-term priorities in ecological studies // Rivista di Biologia / Biology Forum. 2003. 96: 327-332. Abstracts in Eng. and Italian (p. 332). Bibliogr. 20 ref. [In collaboration: S.A.O., Dodson S., Hamilton D., Peterson S., Wetzel R.G.] [The detailed list of priorities in ecology: 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]. Studying effects of some surfactants and detergents on filter-feeding bivalves. --Hydrobiologia. 2003. 500: 341-344. [Effects of several surfactants and chemical mixtures on marine bivalves were studied. An anionic surfactant, sodium dodecylsulphate (SDS), and a cationic surfactant, tetradecyltrimethylammonium bromide (TDTMA), inhibited the filtering activity of oysters (Crassostrea gigas). Similar effects were exhibited by some chemical mixtures that included surfactants. Those mixtures inhibited the filtering activity of Crassostrea gigas and Mytilus galloprovincialis. Inhibition of filtering activity as a result of the effects of surfactant TDTMA 0.5 mg l-1 on the oysters Crassostrea gigas; SDS 0.5 mg l-1 on C. gigas; 3 synthetic detergent mixtures on Mytilus galloprovincialis and C. gigas.The new results are in agreement with the author's previous experiments, where a number of xenobiotics and/or pollutants inhibited the filtering activity of several species of marine and freshwater bivalves, e.g., it had been shown that SDS inhibited filtering activity of Mytilus edulis (e.g., Ostroumov, 2000, 2001). This experimental approach is helpful in assessment of environmental hazards from man-made chemicals that can contaminate marine systems]. DOI: 10.1023/A:1024604904065. Effect of a cationic amphiphilic compound on rotifers. Doklady Akademii Nauk, Vol. 390, No. 3, 2003, p. 423–426. [In collaboration: S.A.O., N. Walz, R. Rusche]. In Russ., translated into Eng.: Effect of a cationic amphiphilic compound on rotifers. - Doklady Biological Sciences, Vol. 390, 2003, p. 252–255. Bibliogr.15. (Translated from Doklady Akademii Nauk, Vol. 390, No. 3, 2003, p. 423–426). [In collaboration: S.A.O., N. Walz, R. Rusche]. ISSN 0012-4966. Distributed by Springer, orderdept@springer-sbm.com [surfactant TDTMA 0.5 mg l-1, turbidostat; effects on the culture of rotifers Brachionus calyciflorus feeding on algae Nannochloropsis limnetica; Tab.2: filtration rates of zooplankton and benthic filter-feeders]. DOI 10.1023/A:1024417903077. Effect of some amphyphilic substances and mixtures on marine mollusks // Gidrobiologicheskiy Zhurnal (Kiev). 2003. 39 (2): 103-108. (in Rus.). English translation is available: Influence of some amphyphilic substances and mixtures on marine mollusks // Hydrobiological Journal (Hydrob. J.) 2003, v.39. Issue 4. (ISSN 0018-8166) [DOI: 10.1615/HydrobJ.v39.i4.100] http://dx.doi.org/ ; also: http://www.edata-center.com/journals/38cb2223012b73f2,290c78b07c8d18f5,038db8ad6f5c36c1.html [The influence of some surface active substances on the filtration activity of marine Bivalvia was studied. It has been found that both anionic (sodium dodecylsulphate) and cationic (tetradecyltrimethylammonium bromide) surfactants inhibited the filtration activity of oysters (Crassostrea gigas). Some mixtures containing surface active substances also inhibited the filtration activity of C. gigas and Mytilus galloprovincialis. The obtained data correlate well with the results obtained previously. They suggest that some xenobiotics and pollutants inhibited the filtration activity of other species of marine and freshwater Bivalvia. This experimental approach is useful in evaluating the influence of surfactants (surface active substances) on marine ecosystems]. Ecological concepts, ecosystem, biogeocoenosis, boundaries of ecosystems: the quest for new definitions. -Vestnik Moskovskogo Universiteta. Ser.16. Biology (ISSN 0201-7385; ISSN 0137-0952) 2003. No. 3. P.43-50. Tab. Bibliogr. 44 refs. With Eng. abst. Translated into English: Ecological concepts "ecosystem", "biogeocenosis", "ecosystem boundaries": search for new definitions. – Moscow University Biological Sciences Bulletin. 2003. Vol. 58. No. 3. P. 29-38. Tab. Bibliogr. 44 refs. [ISSN 0096-3925; Publisher: Allerton Press, Inc., 18 West 27th Street, N.Y., NY 10001]. Aquatic ecosystem as a bioreactor: water purification and some other functions. Rivista di Biologia / Biology Forum, 2004, vol. 97, p. 39-50. Abstracts in Eng. and Italian. [A 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 functioning of the molluscs Unio tumidus, U. pictorum, M. galloprovincialis and Lymnaea stagnalis emphasize the potential ecological hazard from sublethal concentrations of pollutants (including those exemplified by synthetic surfactants and detergents)]. Hydrobiology and aquatic ecosystems as factors of economic growth // Ecological Studies, Hazards, Solutions. 2004. Vol. 7. P. 25-27. Elements of qualitative theory of biotic self-purification of aquatic ecosystems. Application of the theory to the practice of nature conservation. - Vestnik Moskovskogo Universiteta. Ser. 16. Biology (ISSN 0201-7385; ISSN 0137-0952), 2004. No. 1. P. 23-32. Tables. Bibliogr. 41 refs. With Eng. abst. Translated into English: Elements of the qualitative theory of biotic self-purification of aquatic ecosystems. Application of the theory to biodiversity conservation practice. - Moscow University Biological Sciences Bulletin. (ISSN 0096-3925; Allerton Press, Inc., NY, NY 10001), 2004. Vol. 59. No. 1. P. 26-35. Tables. Bibliogr. 41 refs. Effects of cationic surfactant on mussels: inhibition of water filtration. - Vestnik Moskovskogo Universiteta (Bulletin of Moscow University). Ser. 16 Biology. (ISSN 0201-7385; ISSN 0137-0952) 2004. No. 4. P. 38-41. Tables. Bibliogr. 30 refs. [TDTMA, Mytilus edulis × M.galloprovincialis] In Russ., with Eng. abstract. [In collaboration: S.A.O., J.Widdows]. Translated into English: Effects of cationic surfactant on mussels: inhibition of water filtration. - Moscow University Biological Sciences Bulletin. (ISSN 0096-3925; Allerton Press, Inc., NY, NY 10001), 2004. Vol. 59. No. 4. P. 29-33. Tables. Bibliogr. 30 refs. [In collaboration: S.A.O., J.Widdows] Effects of three surfactants on the filtration rates by marine mussels were studied. The xenobiotics tested represented anionic, cationic and non-ionic surfactants (tetradecyltrimethylammonium bromide, a representative of a class of cationic surfactants; sodium dodecyl sulphate, a representative of anionic alkyl sulfates; and Triton X-100, a representative of non-ionic hydroxyethylated alkyl phenols). All three surfactants inhibited the clearance rates. The significance of the results for the ecology of marine ecosystems is discussed. Biological mechanism of self-purification in natural water bodies and streams: theory and applications. - Advances of Modern Biology. 2004. 124 (5): 429-442. 6 Tables. Bibliogr. 79 refs. In Russ., abstract in English. Facts and concepts of ecology // Ecological Studies, Hazards, Solutions. 2004. Vol. 7. P.106-167 [a series of 17 essays including: 1. New sciences of biochemical ecology and biochemical hydrobiology (Новые научные дисциплины: биохимическая экология и биохимическая гидробиология) // Ibid. С. 106-111. 2. Biochemical apparatus of the biosphere (О биохимическом аппарате биосферы) // Ibid. P. 111-115. 3. Ecological bomb of the second type (Экологическая бомба второго рода) // Ibid. P. 115-119. 4. Effects of Cd, Cu, and Pb on Mytilus galloprovincialis (К изучению действия кадмия, меди и свинца на Mytilus galloprovincialis) // Ibid. P. 119-121. 5. Entropy and negentropy (Водные экосистемы, энтропия и негэнтропия. Развитие подхода Шредингера в приложении к водным экосистемам и качеству воды) // Ibid. P. 122-126. 6. Unio pictorum: a new morphometric parameter (Изучение Unio pictorum: новый морфометрический показатель) // Ibid. P. 126-127. 7. Mytilaster lineatus: a new morphometric parameter (Изучение Mytilaster lineatus: новый морфометрический показатель) // Ibid. P. 128-129. 8. Filling gaps in teachings of V.I.Vernadsky (Некоторые пробелы в учении В.И.Вернадского и подходы к их заполнению) // Ibid. P. 129-132. 9. The theory of biotic self-purificaiton of water (Биотическое самоочищение водных экосистем: некоторые элементы качественной теории и ее приложение) // Ibid. P. 132-138. 10. Principle of ecological uncertainty (О принципе экологической неопределенности) // Ibid. 2004. P. 138-141. 11. Comparing self-purification of water and preparation of drinking-water [Сопоставление самоочищения воды и технологий водоподготовки. К эколого-экономической оценке очищения (обеззараживания) воды в природных экосистемах] // Ibid. P. 141-146 (new monetary estimates of the cost of water and the value of water self-purification in ecosystems). 12. Atlantic mussels. Specific volume, a new morphometric parameter // Ibid. 2004. P. 146-150 (a new morphometric parameter is proposed). 13. Ecological clusters (Экологические кластеры) // Ibid. 2004. P. 150-151 (a new ecological concept of interdependence of species). 14. The effects of the detergent E on mussels Mytilus edulis × M. galloprovincialis (Действие СМС Е на атлантические мидии гибридной популяции Mytilus edulis × M. galloprovincialis. Ингибирование процесса экологической репарации) // Ibid. P. 152-154. 15. New ecological parameters that characterize the role of organisms in the functioning of ecosystems. Ecological tax and coefficients F/B, F/A, F/P // Ibid. P. 154-157. 16. Coupled ecosystems (Сопряженные экосистемы) // Ibid. P. 157-158. 17. Ecology of future. Nanobiotechnology of the biosphere (Вопросы экологии будущего. Хаософилия и хаософобия. Нанобиотехнология биосферы) // Ibid. P. 159-167]. On the biotic self-purification of aquatic ecosystems: elements of the theory. - DAN (Doklady Akademii Nauk), Vol. 396, 2004, No. 1, p. 136–141. [System of elements of the theory of biotic maintaining the natural purification potential of ecosystems]. The paper was awarded the honorary Diploma from the Academy of Water Sciences (2006). In Russ., translated into Eng.: On the biotic self-purification of aquatic ecosystems: elements of the theory. - Doklady Biological Sciences, V. 396, 2004, p. 206–211. (Translated from DAN, V.396, No.1, 2004, p.136–141). [ISSN 0012-4966. Distributed by Springer, orderdept@springer-sbm.com]. DOI: 10.1023/B:DOBS.0000033278.12858.12. http://scipeople.ru/users/2943391/ Effects of synthetic surfactants on hydrobiological mechanisms of self-purification of aquatic environment // Water Resources (Vodnye Resursy = Водные ресурсы), 2004. V. 31. No. 5. P. 546-555. [Influence des composés tensio-actifs de synthèse sur les mécanismes hydrobiologiques de l'auto-épuration du milieu aquatique]; Translated into Eng.: Ostroumov S. A. The effect of synthetic surfactants on the hydrobiological mechanisms of water self-purification. - Water Resources. 2004. Volume 31, Number 5, p. 502-510. ISSN 0097-8078 (Print) 1608-344X (Online). DOI 10.1023/B:WARE.0000041919.77628.8d. Long-term studies of the biological effect of surfactants, including the effect surfactants exert on filter feeders, are reviewed. The role of filter feeders in the functioning of freshwater and marine ecosystems is analyzed. New aspects in the assessment of environmental hazard due to the impact of chemical pollutants, including surfactants and detergents, are established. http://scipeople.ru/users/2943391/ On developing the system of principles for analysis of ecological hazards of anthropogenic effects on organisms // Environment Ecology and Safety of Life Activity (= Экология окружающей среды и безопасность жизнедеятельности = Экологiя довкiлля та безпека життєдiяльностi) (Kiev), 2004. No. 1. P. 44-49. Protection of water quality and improving the system of principles for analysis of ecological hazards of man-made effects on aquatic ecosystems // Water Sector of Russia: Problems, Technologies, Management (=Vodnoe Khozyaistvo Rossii; ISSN 1999-4508; 2004. V.6. No.6. P. 617-632, Tab. Abstr. in Russ. Bibliogr. 20 refs.; in Russ.). Cadmium sulphate: effects on mussels // Toxicol. Vestnik (in Russ., Toxicologicheskiy Vestnik = Toxicological Review, Moscow, ISSN 0869-7922). 2004. No.6. P. 36-37. On the ecological mechanism of the formation of water quality in water objects. Fundamentals of theory and its applications) // Water and Ecology (Voda i Ekologiya). 2004. No. 3. P. 66-74 (in Rus.). The paper is available on-line: http://64.233.183.104/search?q=cache:sfYpGWmj-MQJ:www.nngasu.ru/bibl/voda%26zemlya/ostroumov.pdf Geochemical apparatus of aquatic ecosystems: biotic regulation. — Herald of Russian Academy of Sciences. (Vestnik Rossiiskoi Akademii Nauk) 2004. V. 74. No. 9. P. 785-791. A new science in the system of ecological and biospheric sciences: bio-chemical ecology. — Environment Ecology and Safety of Life Activity (=Экология окружающей среды и безопасность жизнедеятельности = Экологiя довкiлля та безпека життєдiяльностi). (Kiev) 2004 No. 4 (22). P. 5-12. Bibliogr. 25 refs. Abstracts in English and Ukrainian. The author has previously published two books in which the fundamental concepts basis of the new scientific discipline of biochemical ecology were formulated. This direction of scientific research is focused on studies of the role of the chemicals produced by organisms in the interorganismal interactions, in communication and regulation of supraorganismal systems. Another part of the science of biochemical ecology deals with the fate and transformation of xenobiotics (alien, foreign chemicals) when they interact with organisms. Both natural chemicals and the man-made chemicals are of importance for biochemical ecology. Fundamental concepts of biochemical ecology include ecological chemomediators and ecological chemoregulators, which are at the beginning of being included into the mainstream of modern scientific concepts and are being at the beginning of being accepted in the modern ecological literature (see Rozenberg et al., 1999). 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 Press, Dordrecht, 2004. pp. 147-164. Tab. Abstract in English. Bibliogr.: p. 160-164. [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 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); the inhibition of the filtration activity of suspension-feeders may lead to the situation previously described as that of ecological bomb of the second type" (p.159)]. ISBN 978-1-4020-3028-4 (Print) 978-1-4020-3030-7 (Online). DOI 10.1007/1-4020-3030-4_9. " Foundations of the theory of biotic formation of water quality and self-purification of aquatic ecosystems [Основы теории биотического формирования качества воды и самоочищения водных экосистем]. — Environment Ecology and Safety of Life Activity (= Экология окружающей среды и безопасность жизнедеятельности = Экологiя довкiлля та безпека життєдiяльностi). 2004. No. 6 (24) P.12-18. Табл. Bibliography 16 items. Abstracts in English and Ukrainian (p.12). Water conditioning in nature. — S.O.K. (the abbreviation for the title of the Russian professional technical journal on environmental engineering, conditioning and utilities 'Santekhnika. Otoplenie. Konditzionirovanie'). 2004. No. 8. P. 21-25 (in Rus.) http://www.aquakultura.ru/articles/details/16.htm About hydrobiological mechanism of self-purification of aquatic objects: from theory to practice. — Water Management of Russia [Ekaterinburg]. 2004. V.6. No. 3. P.193-201 (in Rus.). Role of biotic factors in the formation of water quality and in self-purification of aquatic ecosystems. — Ecological Chemistry (St.Petersburg). 2004. 13(3): 186-194 [Publishers: Thesa; ISSN 0869-3498]. [Elements of the theory of water self-purification and the formation of water quality. New concept of ecological repair]. Georgiy Evgenievich Shulman - 75. — Environment Ecology and Safety of Life Activity (Kiev). 2004. No. 5. P. 91. Searching approaches to solving the problem of global change: elements of the theory of the biotic-ecosystem mechanisms of the regulation and stabilization of the parameters of the biosphere, geochemical and geological environment. — Vestnik MGU (Bulletin of Moscow Univ.). Ser. Biol. 2005. No. 1. P. 24-33. Abstract in English. [The paper revisits the role of the biota (living organisms, the sum of ecological and hydrobiological factors) in the regulation and stabilization of the parameters of the biosphere, geophysical and geochemical processes and, as a result, in the prevening the extreme weather events and global change of the climate system. The shortlist of the seven most important functions of biota in doing so is formulated and commented. Some elements of the theory of the apparatus of the biosphere are given]. Principles of strategy of communities as exemplified by aquatic ecosystems: macrosymbiotic systems and high ecological and biospheric technologies. — Theoretical Issues of Ecology and Evolution (4th Lubishchev volume of 'Lubishchev Readings'). Togliatti. The Inst. of Ecology of the Volga Basin of the Russ. Academy of Sciences. 2005. P.168-172. Some aspects of water filtering activity of filter-feeders // Hydrobiologia. 2005. Vol. 542, No. 1. P. 275 – 286 (in Eng.). Bibliogr. 63 refs. DOI 10.1007/s10750-004-1875-1. ISSN 0018-8158 (Print) 1573-5117 (Online). Table 1. Examples of the impact of filter-feeders on the water column: clearance time. Table 2. Examples of diversity of taxons of benthic organisms involved in removing seston from water, and filtration rates. Table 3. Effect of the increase in concentration of algae on the filtration rate and the amount consumed by rotifers Brachionus calyciflorus. Table 4. The ratio F:P in some groups of organisms (examples of "ecological taxation"). Table 5. The ratio F: (P+R) in some filter feeders. Table 6. Results of the ecological tax: biosediment formation in 6 ecosystems. Table 7. Contribution of various aquatic organisms to oxidation of organic matter in the ecosystem of the Sea of Okhotsk. Table 8. Some chemicals that inhibit the filtering activity of the filter-feeders (new data of the author). Table 9. Some features of water-filtering biomachinery: 6 fundamental principles. Table 10. The level-block approach to the analysis of ecological hazards of anthropogenic effects on the biota (the new conceptualization proposed by the author). Some fundamental principles that characterize the pivotal roles of the biodiversity of filter-feeders in ecosystems. Among those roles are: (1) the role of ecological repair of water quality, (2) the role of contributing to reliability and stability of the functioning of the ecosystem, (3) the role of contributing to creation of habitat heterogeneity, (4) the role of contributing to acceleration of migration of chemical elements. It is an important feature of the biomachinery of filter-feeders that it removes from water various particles of a very broad range of sizes. Another important principle is that the amount of the organic matter filtered out of water is larger than the amount assimilated so that a significant part of the removed material serves no useful function to the organism of the filter-feeder, but serves a beneficial function to some other species and to the ecosystem as a whole. The new experiments by the author additionally demonstrated a vulnerability of the filtration activity of filter feeders (e.g. bivalves and rotifers) to some xenobiotics (tetradecyltrymethylammonium bromide, heavy metals and some others). The inhibition of the filtration activity of filter-feeders may lead to the situation previously described as that of an ecological bomb of the second type. Additional edition as a part of the collective monograph: Some aspects of water filtering activity of filter-feeders. - In: Segers H., Martens K. (Eds.) The Diversity of Aquatic Ecosystems. Aquatic Biodiversity II. (Reprinted from Hydrobiologia, vol. 542, 2005). Series: Developments in Hydrobiology, vol. 180. Springer. Dordrecht, The Netherlands. 2005. P. 275-286. Bibliogr. 63 refs. Tables. ISBN 1-4020-2951-9. Filter-feeders as part of ecological biomachinery to purify water // Verh. Internat. Verein. Limnol. 2005. Vol. 29/2 (Stuttgart, E.Schweizerbart'sche Verlagsbuchhandlung) p.1072-1075. Bibliogr. 16 refs. [Proceedings of the SIL Congress 2004; in the text: "We predict that new examples of xenobiotics that inhibit the filtration activity of aquatic organisms will be found in future"]. [SIL XXIX Congress Lahti Finland, 8 - 14 August 2004; Edited for the Association by J. Jones, 2005. VIII, 548 pages, (Verhandlungen IVL, Volume 29 Part 2); ISBN 3-510-54066-2] http://www.schweizerbart.de/pubs/books/es/verhandlun-167002902-desc.html. Heptane: effects on Mytilus galloprovincialis // Тoxicol. Bulletin (Тoxicologicheskiy Vestnik). 2005, No. 1. P. 50-52 [heptane 16 mg/L and 48 mg/L inhibited filtration and removal of Monochrysis lutheri from water]. On some aspects of maintaining water quality and its self-purification // Vodnye Resursy (Water Resources) 2005. V.32. No.3. P. 337-346 (in Rus.). [The article continues the previous publications (Hydrobiologia, vol. 469, pages 117-129, and 203-204), some elements of the basics of the qualitative theory of polyfunctional role of biota in self-purification of aquatic ecosystems are formulated and systematically arranged. The theory covers the following: (1) sources of energy for the mechanisms of self-purification; (2) the main structure-functional blocks of the system of self-purification; (3) conceptualization of the main processes that are involved; (4) analysis of the degree of participation of the main large taxons; (5 ) degree of reliability and the main mechanisms providing the reliability; (6) the link between the reliability of the system of self-purification and stability of the aquatic ecosystem; (7) the attitude of the system towards the external influences/impacts; (8) conclusions relevant to the ecological theory; (9) conclusions relevant to the practice of biodiversity conservation. New experimental results are given on the effects of Triton X-100 and the detergent OMO on bivalves Unio tumidus. Translated into English: On some issues of maintaining water quality and self-purification. - Water Resources. 2005, Vol. 32, No.3, p. 305-313. [Generalizations presented in this paper represent, in systematized form, the basic elements of the qualitative theory of water self-purification in freshwater and marine ecosystems. Recommendations are given for maintaining water quality and sustainable development of water resources. Results of experimental studies of the effect exerted by surfactant Triton X-100 and OMO synthetic detergent on mollusks Unio tumidus. Publisher: MAIK Nauka/Interperiodica distributed by Springer Science+Business Media LLC. ISSN 0097-8078 (Print) 1608-344X (Online). DOI 10.1007/s11268-005-0039-7. Translated from: Vodnye Resursy, Vol. 32, No. 3, 2005, pp. 337–346]. About self-purification of aquatic ecosystems // Anthropogenic Influences on Aquatic Ecosysems. Moscow. KMK Press. 2005. p. 94-119. On the multifunctional role of the biota in the self-purification of aquatic ecosystems // Russian Journal of Ecology, Vol. 36, No. 6, 2005, p. 414–420. [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 filter-feeders 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. Translated from Ekologiya, No. 6, 2005, pp. 452–459]. [In 2006, the paper was on the list of 5 Most Viewed Articles. Most viewed articles are the full-text articles from this journal that have been accessed most frequently within the last 90 days, according to the web page of the publisher. Publisher: MAIK Nauka/Interperiodica co-published with Springer Science+Business Media, Inc. ISSN 1067-4136 (Paper); ISSN 1608-3334 (Online)]. DOI 10.1007/s11184-005-0095-x. On the effects of surfactants on the filtering activity of marine bivalves in connection with some aspects of water self-purification. - Ecological Chemistry (Petersburg). 2005, v.14 (3), p.181-192. Bibliogr. 95 refs. Abstracts in English and Russian. [the concentrations were found of the salts of Cd, Cu, Pb, and also the concentrations of surfactants and detergents that inhibited filtration by Mytilus and Crassostrea gigas]; [publisher: Thesa; ISSN 0869-3498]. The role of aquatic biota in the mechanism of the ecosystem that form water quality: a central, labile and vulnerable component of the water self-purification system // Environment Ecology and Safety of Life Activity (= Экология окружающей среды и безопасность жизнедеятельности) 2005. No.4 (28), p. 46-52. Bibliogr. 17 refs. The author analyzed the sensitivity to chemical pollution of the biotic subsystem of the system of self-purification of water. Main groups of aquatic organisms contribute to the functioning of the system of self-purification; some components of the the system are sensitive to contaminants, which was shown by us using some specific examples. The author proposed a conceptual interpretation of the totality of aquatic organisms considered in aggregate (the aquatic biota) as a central, labile and vulnerable component of the system of self-purification of water in aquatic ecosystems. This concept leads to some substantial changes in the hierarchy of priorities for protection of biodiversity and environment. About the role of biota in forming the geochemical environment: apparatus of the biosphere. - Topical Problems of Geochemical Ecology: Materials of the Fifth International Biogeochemical School. Semipalatinsk State Pedagogical Institute, 8-11th September 2005, Semipalatinsk. 2005. P. 30-38. Table. Bibliogr. 21 refs. Biochemical ecology and hydrobiology: a contribution to sustainable use of bioresources and development of economy. In: Proceedings of the section "Noospheric Knowledge and Technology". Moscow. The Russian Academy of Natural Sciences. 2005. P. 224-230. Bibliogr. 19 refs. 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. 2006. Volume 1, No.1. P. 111-118 [ISSN 0973-2667]. Basic elements are formulated for a qualitative theory of the polyfunctional role of the biota in maintaining self-purification and water quality in aquatic ecosystems. The elements of the theory covers the following: (1) sources of energy for the mechanisms of selfpurification; (2) the main functional blocks of the system of self-purification; (3) the list of the main processes that are involved; (4) analysis of the degree of participation of the main large taxons; (5) degree of reliability and the main mechanisms providing the reliability; (6) regulation of the processes; (7) the response of the system towards the external influences (man-made impacts); (8) the analogy between ecosystems and a bioreactor; and (9) conclusions relevant to the practice of biodiversity conservation. In support of the theory, the results are given of the author's experiments which demonstrated the ability of some pollutants (surfactants, detergents, and some others) to inhibit the water filtration activity of marine filter-feeders (namely, the bivalve mollusks Mytilus galloprovincialis, Mytilus edulis, and Crassostrea gigas). Recent data on bioeffects of surfactants: addendum to the English edition. In: Biological Effects of Surfactants. CRC Press. Taylor & Francis. 2006. p. 245-253. On concepts of biochemical ecology and hydrobiology: ecological chemomediators. - Siberian Ecological Journal (Sib. Ekol. Zhurnal). 2006. - 13, No.1. - P. 73-82. Abstract in English. Bibliogr. 32 refs. [ = Siberian Journal of Ecology = Sibirskiy ekologicheskiy zhurnal; ISSN 0869-8619; http://www.sibran.ru/English/SECJE.HTM ]. Inhibition of mussel suspension feeding by surfactants of three classes. - Hydrobiologia. 2006. Vol. 556, No. 1. Pages: 381 – 386. [In collaboration: S.A.O., J. Widdows]. Effects of three surfactants on the filtration rates by marine mussels were studied. The xenobiotics tested represented anionic, cationic and non-ionic surfactants (tetradecyltrimethylammonium bromide, a representative of a class of cationic surfactants; sodium dodecyl sulphate, a representative of anionic alkyl sulfates; and Triton X-100, a representative of non-ionic hydroxyethylated alkyl phenols). All three surfactants inhibited the clearance rates. The significance of the results for the ecology of marine ecosystems is discussed. DOI 10.1007/s10750-005-1200-7; http://www.springerlink.com/content/7166067538534421/; http://scipeople.ru/users/2943391/; Bioeffects of sodium dodecylsulphate on aquatic macrophytes. - Water Sector of Russia: Problems, Technologies, Management (=Vodnoe Khozyaistvo Rossii). 2006. V.6. No.6. P.32-39, tabl. Bibliogr. 11 refs. [In collaboration: E.A.Solomonova, S.A.O.]. The study of the effects of the single and recurrent additions of SDS on Elodea canadensis, Potamogeton crispus, Fontinalis antipyretica, Salvinia natans, Salvinia auriculata, Najas guadelupensis. Polyfunctional role of biota in migration of chemical elements and formation of the geochemical environment: towards development of the theory of the apparatus of the biosphere. - Problems of Biogeochemistry and Geochemical Ecology. 2006. V.1 (1). P. 24-31. Тable. Abstract in English. Bibliogr. 27 refs. [A fundamentally new typology and conceptualization is proposed to describe the pathways of chemical elements migrating in the biosphere, with special attention to stochastic and vectorial, as well as cyclic and non-cyclic pathways. A new analysis is given of the role of biota in the regulation and stabilization of some parameters of the biosphere, geophysical and geochemical processes and, as a result, in the preventing the extreme weather events and global change of the climate system. Fundamental generalizations are formulated on alternatives and regulation in patterns of migrations of chemical elements. The shortlist of the six most important functions of biota in doing so is formulated and commented]. On biotic purification of water and ecological reparation. - Siberian Ecological Journal. 2006. No. 3, p. 339-343. 3 Tables. Abstract in English. Bibliogr. 15 refs. [ = Siberian Journal of Ecology = Sibirskiy ekologicheskiy zhurnal; ISSN 0869-8619; http://www.sibran.ru/English/SECJE.HTM ] New experimental results have been obtained which demonstrate that one of the most important processes of reparation at the ecological level (restoration of water quality in the course of elimination of suspension from water by hydrobionts) is inhibited by the pollutant (xenobiotic); this points to an element of analogy to reparation processes at the genetic level which can also be disturbed by xenobiotics and are characterized by some different properties analogous to those of ecological reparation. Xenobiotics that displayed a negative influence on the processes important for ecological reparation of water quality included various surfactants, detergents, heavy metals etc. For the first time, new experimental data on the effect of tetradecyltrimethylammonium bromide on marine mussels (Mytilus edulis / M. galloprovincialis) are presented. Liquid detergent 'Krasnaya Liniya' inhibits the filtering activity of Mytilus galloprovincialis. – Toxicological Bulletin (Toksikologicheskiy Vestnik). 2006. № 3. p. 42-43. Table. Bibliogr. 9 refs. Studies of the phytoremediation potential of aquatic plants. – Environment Ecology and Safety of Life Activity (Kiev). 2006. No. 6 (36). P. 63-68. Tables. Bibliogr. 22 refs. Abstracts in Eng. and Ukrainian [S.A.O., E.A. Solomonova] [The results are presented of the studies of effects of sodium dodecyl sulphate (SDS) on the following species of aquatic plants: Elodea canadensis Mchk., Potamogeton crispus L., Najas guadelupensis L., Fontinalis antipyretica L., Salvinia natans L., Salvinia auriculata Aubl.]. A new class of molecules that regulate the bioenergetics of the biosphere: ecological chemoregulators. — Ecol. Studies, Haz., Sol., 2006, Vol. 11, p.15-16. Bibliogr. 4 refs. Chemical contamination with oil hydrocarbons inhibits the process of water filtration by Mytilus galloprovincialis. — Ecol. Studies, Haz., Sol., 2006, Vol. 11, p.16-17. Developing the conceptual apparatus in the area of biochemical ecology (and chemical communication). Seeking and developing adequate terminology. — Ecol. Studies, Haz., Sol., 2006, v. 11, p.17. Bibliogr. 6 refs. Biological and hydrobiological factors to prevent extreme weather events and catastrophic climate changes: lessons from Hurricane Katrina. — Ecol. Studies, Haz., Sol., 2006, v. 11, p.18-22. Bibliogr. 4 refs. New scientific revolution in ecology and hydrobiology: hi-ecological technologies. — Ecol. Studies, Haz., Sol., 2006, v. 11, p.22-24. Bibliogr. 12 refs. Fundamental principles and priorities for restoring water streams: from ecological considerations to practical work. — Ecol. Studies, Haz., Sol., 2006, v. 11, p. 24-25. Bibliogr. 6 refs. [In collaboration: S.A.O., Bloesch J., Wehrli B., McCutcheon S., Mamatkulov H. A.]. Phytoremediation of perchlorate using aquatic plant Myriophyllum aquaticum. — Ecol. Studies, Haz., Sol., 2006, v. 11, p. 25-27. 2 tables. Bibliogr. 3 refs. [In collaboration: S.A.O., D. Yifru, V. Nzengung, S. McCutcheon]. Results of experimental studies of interactions between chemical pollutants and organisms: new priorities and theory of biomachinery for water self-purification. — Ecol. Studies, Haz., Sol., 2006, v. 11, p.27-29. Bibliogr. 4 refs. Problems of ecological security of the sources of water supply. — Ecological Systems and Devices. 2006. № 5. P. 17-20. Abstracts in Rus. and Eng. Bibliogr. 14 refs. Ecological-hydrobiological system of water self-purification in natural aquatic ecosystems: developing the theory of the polyfunctional cental role of biota. — Ecological Systems and Devices. 2006. № 7. P. 33-38. Tabl. Abstracts in Rus. and Eng. Bibliogr. 41 refs. [A short review of the main physical, chemical and biological processes that contribute to water self-purification in natural aquatic bodies and streams is presented. The polyfunctional central role of aquatic organisms in the system of the processes of water self-purification is demonstrated]. Main functional components and energy sources of the biotic mechanisms of water self-purification in ecosystems. — Ecological Systems and Devices. 2006. № 7. P. 19-24. 3 tables. Abstracts in Rus. and Eng. Bibliogr. 21 refs. [The main functional components and energy sources of the biotic mechanisms of water self-purification in water bodies and streams are analyzed. New steps in conceptualization of the mechanisms are made. According to the concept proposed, the functional components of the system for self-purification include subsystems that function as filters, pumps, mills, sorbents and other important elements of the biomachinery for natural water remediation in aquatic ecosystems. Quantitative parameters are given]. Scientific and Educational Activity at the Department of Hydrobiology of Moscow State University. Moscow. MAX Press. 2006. 8 p. Bibliogr. 25 refs. [A short summary of the main directions of scientific research and educational activity at the Department of Hydrobiology (aquatic ecology) of the Faculty of Biology of Moscow State University. The department was organized in 1924 by Professor Sergei Alexeevich Zernov (1881-1945, Academician since 1931). Important aspects are underlined of how scientific knowledge is applied to practical issues of sustainable development and ecological security. In addendum, some examples of publications of professors and scientists of the Department of Hydrobiology are given]. Ecological bioengineering: creating (restoration) and maintenance of aquatic ecosystems with determined parameters. — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 51-55. Bibliogr. 11 refs. [In collaboration: Krivitsky S.V., S.A.O.] Ecological bioengineering: ecological biorehabilitation of water bodies. — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 55-60. Bibliogr. 5 refs. [In collaboration: Krivitsky S.V., S.A.O.] Model ecosystem under the conditions of recurrent (reiterated) additions of a xenobiotic or pollutant: an innovative method for studying tolerance, the assimilation capacity of the system, the maximal allowed discharge (load) of pollutants, and the phytoremediation potential. — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 72-74. Bibliogr. 5 refs. Algorithm of managerial and judicial preparation to increasing the potential of a scientific team relevant to commercialization of the objects of intellectual property law. — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 74-75 [In collaboration: S.A.O., O.B. Vasilieva, V.V. Gubanov]. Some priorities in marine biological and ecological research. — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 75-76. Bibliogr. 14 refs. [In collaboration: S.A.O., Gaevskaya A.V., Eremeev V.N., Zaika V.E., Mironov O.G., Tokarev Yu.N., Shulman G.E.] On the role of mollusks in biogenic migration of elements and water self-purification. — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 77-79, tabl. Bibliogr. 5 refs. [In collaboration: S.A.O., Ermakov V.V., Zubkova E.I., Kolesnikov M.P., Kolotilova N.N., Krupina M.V.] Data base for developing a statistical model of evaluating the role of mollusks in biogenic migration of metals: a fundamental concept and development of elements of theoretical foundations. — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 79-83, tabl. Bibliogr. 6 refs. [In collaboration: S.A.O., Ermakov V.V., Zubkova E.I., Kolesnikov M.P., Kolotilova N.N., Krupina M.V., Likhacheva N.E.]. On the contribution of Mytilus galloprovincialis to the vertical transfer of matter from the upper part of the water column to the bottom part. Disturbance of the transfer under the effect of mercury. — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 83-85, tabl. Bibliogr. 1 ref. [In collaboration: S.A.O., Soldatov А.А.]. Study of tolerance of the macrophyte under effect of sodium dodecyl sulphate under conditions of recurrent additions during over two months' period . — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 86 - 87, table. Bibliogr. 3 refs. [In collaboration: S.A.O., Solomonova Е.А.]. Development of phytotechnologies for decreasing aquatic pollution. — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 94 - 99, 6 tabl. Bibliogr. 9 refs. [In collaboration: Solomonova Е.А., S.A.O.]. Effects of Hg on organisms of animals. — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 106 – 113. Bibliogr. 26 refs. [1. Introduction. 2. Disturbance of the filtering activity of marine mussels and inhibition of the removal of algae from water. 3. Absence of rehabilitation of marine mussels after their transfer from water which was polluted with Hg, to the clean water. The chemical studied: HgSO4]. Interactions between Sn and Mytilus galloprovincialis. — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 113 - 117. Tabl. [SnCl2 •2H2O at concentrations of 5 и 15 mg/L did not inhibited water filtering by mussels. SnCl2 •2H2O at a concentrations of 130 mg/L did not stop water filtering. Co-precipitation of the contaminant with the pellets was observed]. The liquid detergent, Krasnaya Liniya, inhibited water filtration by Mytilus galloprovincialis. — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 117- 119. Bibliogr. 8 refs. [The concentration of 0.5 mL/L inhibited water filtration and the removal of algae Monochrysis lutheri from the water]. Development of the conceptual apparatus in the area of biochemical ecology and chemical communication. Search for adequate terminology. — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 119-120. Bibliogr. 9 refs. [Additional arguments in support of the terms introduced by the author: ecological chemomediators, ecological chemoregulators, ecological chemoeffectors]. Water self-purification in freshwater and marine ecosystems. — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 121-130. [1. Three concepts of water self-purificaiton. 2. New ecological parameter: the potential for the conditioning of the environment. 3. Biotic self-purificaiton of water – factor for health of the ecosystem and man. 4. Five fundamental functions of biota in water self-purification: energetic, catalytic, sequestration, export, and integrational]. On studying the mussels Mytilus galloprovincialis. Additional data on a new morphometric parameter of ecological interest. — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 130-132. Bibliogr. 7 refs. [The specific volume of the sample of mussels was 0.9159 сm3/g]. Ecosystem as a transformer: a new element in the understanding the fundamental essence of the ecosystem. — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 132-135. Bibliogr. 14 refs. [A new postulate: ecosystem to a degree is similar to a transformer, and 4 consequenses of the postulate]. Issues of ecological stability. — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p.135-146. [6 types of ecological stability, nanostructures of the apparatus of the biosphere as factors of ecological stability, 16 functions of filter-feeders that are important to ecological stability, the theory of disturbances of ecological mechanisms of the second type, a new type of man-made impact: inhibition of ecological repair, ecological taxation as part of the functioning of ecosystems, theory of disturbances of biota of ecosystems and two fundamental types of the disturbances]. Ecological security and prevention of ecological terrorism. — Ecol. Studies, Hazards, Solutions, 2006, v. 11, с. 146-151. [Conceptual typology of the main countermeasures to prevent ecological terrorism]. Ecological apoptosis: activity of heterotrophs contributes to apoptosis at the ecosystemic (coenotic) level. — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 152-154. Bibliogr. 6 refs. Ecological biochemistry of animals: new ecological functions of vitamins and elements of mineral nutrition as ecological chemoregulators and chemomediators. — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p.154-155. Bibliogr. 4 refs. Application of ecological biochemistry to fundamental issues of biology: the biosphere as ecological-biochemical continuum. — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 156-157. Bibliogr. 18 refs. Conceptualization of the data base of high ecological technologies, ecological and hydrobiological achievements that have innovative and marketing potential, and are of value for application: intellectual interface between science and practice. — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p.158. Elements of the theory of the molecular-ecological mechanism of water quality formation and water self-purification. – Siberian Ecological Journal. 2006. No. 6, p. 699-706, tab. Summary in Rus. and English. Bibliogr. 29 refs. [ = Siberian Journal of Ecology = Sibirskiy ekologicheskiy zhurnal; ISSN 0869-8619; http://www.sibran.ru/English/SECJE.HTM ]. Translated into English: Ostroumov S. A. Basics of the molecular-ecological mechanism of water quality formation and water self-purification. - Contemporary Problems of Ecology, 2008, Vol. 1, No. 1, p. 147-152. [MAIK Nauka/Interperiodica distributed by Springer Science+Business Media LLC; ISSN 1995-4255 (Print) 1995-4263 (Online); DOI 10.1134/S1995425508010177; http://scipeople.ru/users/2943391/ Original Russian Text: published in Sibirskii Ekologicheskii Zrurnal, 2006, Vol. 13, No. 6, pp. 699–706]. The paper formulates some basics of the modern ecological theory of the polyfunctional role of biota in the molecular-ecological mechanism of water quality formation and self-purification of aquatic ecosystems. The theory covers the following items: (1) sources of energy for self-purification mechanisms, (2) the main structural and functional units of the self-purification system, (3) the main processes involved in the system, (4) contributions of major taxa to self-purification, (5) self-purification system reliability and supporting mechanisms, (6) the response of some components of the self-purification system to external factors, (7) particulars of the operation of water purification mechanisms, and (8) conclusions and recommendations for biodiversity preservation practice. Surfactants, detergents, salts of Cd, Cu, Pb, Hg, Co, Ti, V (Na3VO4 •12 H2O) , oil hydrocarbons, inhibited water filtration by bivalves M. galloprovincialis. Sodium dodecyl sulphate: impact on aquatic macrophyte Potamogeton crispus L. / / Toxicological Bulletin [Toksikologicheskiy Vestnik]. 2006. Number 6, p.24-26. [coauthors: S.A.O., Solomonova E.A.] [Effects of sodium dodecyl sulphate on aquatic macrophyte Potamogeton crispus L. Concentrations of 83-133 mg / L led to the process of fragmentation of the stems of plants.] http://scipeople.ru/users/2943391/ Hydrobiological biomachinery for water self-purification: elements of theory. – Problems of Biogeochemistry and Geochemical Ecology, 2006, No. 2. P. 6-15. Tabl. 4. Bibliogr. 36 refs. Hydrobiological self-purification of water: from studies of biological mechanisms to search of ecotechnologies. Мoscow: Publishers «Oil and Gas» of the Gubkin Russian State University of Oil and Gaz, 2007. – 53 p., portr.). Впервые дана нов. концепция основных пяти функциональных блоков системы самоочищения водных экосистем (с. 6-9). Дан новый метод подсчета баллов для оценки самоочистительного потенциала пресноводной экосистемы (с.43-44). Новый подход к оценке стоимости водных экосистем. Дан пример проведения такой оценки, составившей за 1 га 2 714 200 - 2 718 200 долл. (с. 47, без учета стоимости биоресурсов). Role of biofilters in self-purification of aquatic ecosystems. - Problems of Biogeochemistry and Geochemical Ecology. 2007. v. 1(3). P. 98-117. 6 Tables. Bibliogr. 217 refs. [In collaboration: S.A.O., Walz N.]. Approaches to purification and remediation of aquatic systems (phytoremediation, bioremediation, zooremediation) in connection with the theory of polyfunctional role of biota in water self-purification. – Water: technology and ecology. 2007. № 2. p. 49-69. Bibliogr. 53 ref. Zink in aquatic mollusks. - Bulletin of the Academy of Sciences of Moldova. Life Sciences (Buletinul Academiei de Stiinte a Moldovei. Stiintele Vietii). 2007. № 2 (302), p. 102-114, 3 tables. Bibliogr. 40 refs. Abstracts in English (p. 177) and Rus. (p.184). ISSN 1857-064X. [Co-authors: Toderas I.Ch., S.A.O., Zubcova E.I., Chernysheva I.V., Krupina M.V., Mikous A.A., Railean N.C., Breahna A.I., Miron A.A., Churisca V.V., Munjiu O.V.]; [The data of the international literature on Zn in soft tissues and shells of marine and freshwater mollusks are summarized. New original data on Zn in mollusks of aquatic systems of Moldova and the River Don are presented]. Studying the concentrations of mercury in bivalves.- Ecology of evironment and safety of life activity. [= ’Ecology of surroundings and safety of vital activity’] 2007, No.5. p.79-80. 2 tables. Bibliogr. 6 refs. [Co-authors: S.A.O., Khushvakhtova S.D., Danilova V.N., Ermakov V.V.] The average concentration of mercury in the soft tissues of freshwater bivalves Unio pictorum from a river (the Moscow region) was 181.2 ng/g (dry weight), in the shells 160.0 ng/g. The concentration of Hg of the same order of magnitude was found in bivalves from some (but not all) marine ecosystems. [ http://eko.org.ua/en/magazine/5-2007/]. Biotic self-purification of aquatic ecosystems: from the theory to ecotechnologies. - Ecologica International, 2007. Vol. 15(50), p.15-23. Bibliogr. 21 refs. (ISSN 0354-3285; Belgrade); [without coauthors]. Some 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 [http://scindeks.nb.rs/article.aspx?artid=0354-32850750015O]. Interaction of copper with aquatic organisms in context of ecological monitoring and the role of aquatic organisms in biogeochemical fluxes. – Water: Technology and Ecology. 2007. No. 4. p. 54-68. Tabl. 6. Bibliogr. 49 refs. Abstracts in Russ. and Eng. p.83. ISSN 1993-8764; [co-authors: S.A.O., Zubcov E.I., Krupina M.V., Mikus A.A., Toderas I.K.] Studying the interaction between cadmium and aquatic molluscs in connection with ecological monitoring. – Water: Technology and Ecology. 2007. No. 3. p. 68-77. Tables, Bibliogr. 41 refs. (in Rus.) Abstracts in Eng. and Rus. p. 95 [co-authors: S.A.O., Mikus A.A.] Studies of the tolerance of aquatic macrophyte Potamogeton crispus L. to sodium dodecylsulphate. - Vestnik Moskovskogo Universiteta. Ser. 16. Biology. 2007. No.4. p.39-42. Bibliogr. 14 refs. (Coauthors: Solomonova E.A., and S.A.O.) [Effects of the anionic surfactant, sodium dodecylsulphate, on the aquatic macrophyte Potamogeton crispus L. were studied. The concentrations 83-133 mg/l induced fragmentation of the stems of the plants. The tolerance of the plants to the negative effects of the surfactant was higher in spring (April) than in autumn (September)]. Translated into English: Solomonova E.A., S.A. Ostroumov. Tolerance of an aquatic macrophyte Potamogeton crispus L. to sodium dodecyl sulphate. - Moscow University Biological Sciences Bulletin [ISSN 0096-3925 (Print) 1934-791X (Online)]). 2007. Volume 62, Number 4. p. 176-179. DOI 10.3103/S0096392507040074. [publisher: Allerton Press, Inc. distributed exclusively by Springer Science+Business Media LLC]. The effects of the anionic surfactant sodium dodecyl suplphate on the aquatic macrophyte Potamogeton crispus L. are studied. Concentrations of 83–133 mg/l caused fragmentation of the stems of plants. The tolerance of the plants to the negative effects of the surfactant was higher in the spring (April) than in the autumn (September). Original Russian Text © E.A. Solomonova, S.A. Ostroumov, 2007, published in Vestnik Moskovskogo Universiteta. Biologiya, 2007, No. 4, pp. 39–42. Studying phytoremediation potential of three species of macrophytes: interaction with sodium dodecyl sulphate // Ecological Systems and Devices (Экологические системы и приборы), 2007, No. 5 (May), p.20-22. [co-authors: S.A.O., and E.A.Solomonova]. Synthetic detergent Aist-Universal: impact on Fontinalis antipyretica Hedw. // Toksikologicheskiy Vestnik. 2007. Number 1, p. 40-41. [co-authors: S.A.O., and Solomonova E.A.]. http://scipeople.ru/users/2943391/ Synthetic detergent Aist-Universal: effects on seed germination and seedling elongation of buckwheat Fagopyrum esculentum. – Toksikologicheskiy Vestnik. 2007, № 5, p. 42-43. Bibliogr. 5 refs., Tab. [together: S.A.O., and Solomonova E.A.] In the aquatic medium containing the laundry detergent Aist-Universal 0.06 mg / ml, the new parameter, the average arbitrary length of seedlings decreased by the factor of 4. Vorozhun I.M., Ostroumov S.A. Studying the hazards of chemical pollution of water: effects of a surfactant on filtering activity of zooplankton. – Water Management of Russia. 2008. № 3. P.41-45. Table. Bibliogr. 15 refs. [SDS 0.1 -10 mg/L inhibited the removal by Daphnia magna of the cells of algae Chlorella from water]). On the concepts of biochemical ecology and hydrobiology: ecological chemomediators.-Contemporary Problems of Ecology, 2008, Volume 1 (2): 238-244 [MAIK Nauka/Interperiodica distributed by Springer Science+Business Media LLC. ISSN 1995-4255 (Print) 1995-4263 (Online)] DOI 10.1134/S1995425508020100. [Earlier, the author published two books and some papers, in which he described conceptual foundations of new scientific disciplines — biochemical ecology and biochemical hydrobiology. These trends in research include studies of the role of chemical substances in interorganismal interactions, in communication and regulation of supraorganismal systems. Another part of biochemical ecology concerns studies of the destiny and transformation of external chemical substances when they interact with the organisms. Both natural and man-made compounds are interesting for biochemical ecology. The basic concepts of biochemical ecology include ecological chemomediators and ecological chemoregulators that have already been included in the body of modern conceptions and are used in modern ecological literature. Application of biochemical ecology to aquatic ecosystems creates the basis for development of biochemical hydrobiology. Original Russian Text: published in Sibirskii Ekologicheskii Zhurnal, 2006, Vol. 13, No. 1, pp. 73–82]. Surface tension of aquatic solutions of sodium dodecylsulphate in presence of aquatic plants/ - Water: technology and ecology. 2008. No. 3, p.57-60. Table. Bibliogr. 8 refs. Abstracts in English and Rus. on p.77-78. [coauthors: S.A.O., Lazareva E.V.]. Lazarevа E.V., S.A. Ostroumov. Impact of macrophytes on the surface tension of aqueous solutions of sodium dodecyl sulphate: the search for remediation phytotechnology / / Problems of Biogeochemistry and Geochemical Ecology, 2008, № 3 (7), P.75-77. Tab. Bibliogr. 6 refs. Abstract in English. [coauthors: Lazareva E.V., S.A.O.] [Using the method of measuring surface tension (Wilhelmy plate), it was shown that in the presence of macrophytes OST-1, the removal/disappearance of surfactant sodium dodecyl sulphate from the water accelerates] . Effects of a surfactant on macrophytes Potamogeton crispus L. under conditions of microcosms. – Chemical and Biological Safety (Khimicheskaya i biologicheskaya bezopasnost’) 2008. № 3-4. p.14-18. 3 tables. Bibliogr. 23 refs. [S.A.O., E.A.Solomonova]. Elements of the theory of biocontrol of water quality: a factor in the ecological safety of the sources of water. – Chemical and Biological Safety (Khimicheskaya i biologicheskaya bezopasnost’) 2008. No. 5-6. p.36-39. Bibliogr. 22 refs. [http://www.cbsafety.ru/rus/saf_41_3.asp]. Vorozhun I. M., S. A. Ostroumov. Studies of pollutants of the aquatic medium: effects of sodium dodecyl sulfate on the filtering activity of Daphnia magna // Ecological Chemistry (Экологическая химия = Ekologicheskaja Кhimija). 2008, v.17, No. 4, p. 215-217. S.A.Ostroumov, E.I.Zubcov, A.A.Krupina, A.A.Mikus, O.V. Munjiu, I.K.Toderas On biota-dependent migration of copper in aquatic ecosystems (=О биогенной миграции меди в водных экосистемах) // Issues of Biogeochemistry and Geochemical Ecology (=Проблемы биогеохимии и геохимической экологии), 2008, No. 1(5) p.39-53. Ostroumov S.A., Khushvakhtova S.D., Danilova V.N., Ermakov V.V. Mercury in the bivalves // Environmental Chemistry (Ekologicheskaya Khimiya). 2008, v. 17, No. 2, p.84-87. (in Russ.) Ostroumov S.A. Ecological reparation and restoration of infringements in systems of various levels of organization of life: search of elements of fundamental similarity // Samarskaya Luka. 2008. – V. 17, No. 4(26). – p. 708-717. Bibliogr. 18 refs. New experimental data were obtained that show that one of the most important processes of ecological repair of water quality (the process of removal of suspended matter by aquatic organisms) is inhibited by a pollutant (a xenobiotic), which points to some similarity or analogy with the processes of DNA repair; the latter can also be inhibited by some xenobiotics and have some other attributes (a decrease in entropy etc.) that are analogous to those of ecological repair. The xenobiotics that produced those negative effects on the processes of the ecological repair of water quality included various surfactants, detergents, and metals. New experimental data on the effects of tetradecyltrimethyl ammonium bromide on marine mussels are presented. http://www.ssc.smr.ru/media/journals/samluka/2008/17_4_01.pdf Ostroumov S.A., Danilova V.N., Khushvakhtova S.D., Ermakov V.V. Mercury in the soft tissues and shells of bivalve mollusks // Toxicological Bulletin (Toksikologicheskiy Vestnik). 2009. No. 1. p.45-46. (in Russ.) Vorozhun I. M., S. A. Ostroumov. On studying the hazards of pollution of the biosphere: effects of sodium dodecylsulfate (SDS) on planktonic filter-feeders // Doklady Akademii Nauk, 2009, Vol. 425, No. 2, pp. 271–272. Tables. Bibliogr. 15 refs. [Presented by Academician M.A. Fedonkin June 26, 2008; Received July 1, 2008]. Translated into English: Vorozhun I. M., S. A. Ostroumov. On studying the hazards of pollution of the biosphere: effects of sodium dodecylsulfate (SDS) on planktonic filter-feeders. - Doklady Biological Sciences, 2009, Vol. 425, pp. 133–134. Tables. Bibliogr. 15 refs. [ISSN 0012-4966, Pleiades Publishing, Ltd., 2009. DOI: 10.1134/S0012496609020136; original Russian text: I.M. Vorozhun, S.A. Ostroumov, 2009, published in Doklady Akademii Nauk, 2009, Vol. 425, No. 2, pp. 271–272]. The goal of this study was to test whether SDS has an inhibitory effect on the ability of the planktonic filter-feeder Daphnia magna to remove phytoplankton from water during their filtration activity. Daphnia were kept under laboratory conditions in vessels and fed with phytoplankton: green algae Scenedesmus quadricauda (Turp.) Breb.). After filtration for 6–24 h in the presence of SDS at concentrations 5 and 10 mg/l, the abundance of S. quadricauda cells in water was higher than in the control. At the lower SDS concentrations (0.1, 0.5, and 1 mg/l), differences in the abundance of algal cells relative to the control were observed after 3 h of incubation and disappeared after 6–24 h of incubation. The calculation of the mean rate of algae removal by daphnia showed that this parameter decreased within the first 3 h after the beginning of incubation in the presence of SDS. Thus, the results of our experiments demonstrated that SDS decreases the rate of water filtration by the planktonic crustaceans D. magna. Lazareva E.V., S.A. Ostroumov. Accelerated decrease in surfactant concentration in the water of a microcosm in the presence of plants: innovations for phytotechnology // Doklady Akademii Nauk, 2009, Vol. 425, No. 6, pp. 843–845. Tables. Bibliogr. 15 refs. Translated into Eng.: Lazareva E. V., S. A. Ostroumov Accelerated decrease in surfactant concentration in the water of a microcosm in the presence of plants: innovations for phytotechnology. - Doklady Biological Sciences, 2009, Vol. 425, pp. 180–182. Tables. Bibliogr. 15 refs. [Pleiades Publishing, Ltd.; ISSN 0012-4966; Presented by Academician G.V. Dobrovol’sky September 26, 2008; DOI: 10.1134/S0012496609020276; original Russian text: E.V. Lazareva, S.A. Ostroumov, 2009, published in Doklady Akademii Nauk, 2009, Vol. 425, No. 6, pp. 843–845]. It was discovered that plant biomass help towards restoration the water quality in the system which was polluted with a synthetic surfactant. Addition of sodium dodecylsulphate (SDS) to water rapidly changed the surface tension of water in the microcosm. The measurements demonstrated that the surface tension of water in the microcosm with the macrophyte OST1 restored to the level which was close to that of pure water within less than three days. As soon as after 46-h incubation of the system containing the plant phytomass, the surface tension increased significantly and reached that of distilled water. In the variants with water without plant phytomass, restoration of the normal surface tension was much longer (about 17 days). The results demonstrated an accelerated restoration of the normal surface tension which was typical of pure water in those systems that contained SDS in the presence of the phytomass of the macrophyte OST1. This is consistent with the conclusion that the macrophyte accelerates the disappearance of the surfactant from water. Solomonova E.A., Ostroumov S.A. Effects of sodium dodecyl sulphate on the biomass of macrophytes Najas guadelupensis L. / / Toksikologicheskiy Vestnik. 2009. Number 2. P.32-35. Bibliogr. 10 refs. Microcosms with the macrophytes were studied in laboratory experiments. The effects of sodium dodecyl sulphate (SDS) on macrophytes were studied . The survival and weight of the biomass of macrophytes in a prolonged incubation were recorded. SDS was added in the form of repeated (recurrent) additions. The increase in the amount of SDS after each addition was: 0,5, 0,8, 1,7, 8,3, 16,7, 50,0 and 100,0 mg in 1 dm3. Duration of survival of plants decreased with increasing amount of SDS in one addition. If the amount of SDS (after a single addition) increased 200 times (from 0.5 to 100 mg / l), the period of survival decreased 53-fold (from 372 up to 7 days). In the presence of SDS, a decrease in macrophyte biomass was observed. The degree of the reduction of biomass depended on the total amount of SDS added to the microcosms. Ostroumov S.A., Kolesov G.M., Sapozhnikov D.Yu. The content of chemical elements in the shells of molluscs Viviparus viviparus: a study by the neutron activation method of analysis // Ecological Studies, Hazards, Solutions. 2009. v. 13, p. 113-117. Vorozhun I.M., Ostroumov S.A. Sodium dodecyl sulphate: impact on Daphnia // Toksikologicheskiy Vestnik. 2009. No. 1. p.46-48. Bibliogr. 14 refs. [It was discovered that sodium dodecyl sulphate (SDS) had an inhibitory effect on the filtration activity of the common species of filter- feeders Daphnia magna]. Effects of macrophytes on the surface tension of water solution of sodium dodecyl sulphate: searching phytotechnologies for water treatment. – Ecological Chemistry ( Ekologicheskaya Khimiya = Экологическая химия, С.-Петербург). 2009. 18(1): 41–45. [coauthors: Ostroumov S.A., Lasareva E. V., Solomonova E.A.], in Russ. New scientific disciplines in the system of ecological and biospheric sciences: biochemical ecology and biochemical hydrobiology) // Ecological Chemistry (Ekologicheskaya Khimiya = Экологическая химия). 2009. Vol.18, No. 2, p. 102-110. Bibliogr. 36 refs. Effects of the synthetic surfactants and chemical mixtures on marine mollusks used in aquaculture]. - Fisheries Management. [Rybnoe Khozyaistvo = Рыбное хозяйство ] 2009. No. 3. p.92-94. Tabl. 3. Bibliogr. 20 refs. [effects of TDTMA and SDS on Crassostrea gigas; also, effects of detergents on C. gigas and M. galloprovicialis]. Ostroumov S.A., Kolesov G.M. The determination of gold and other chemical elements in the constituents of the aquatic ecosystems by neutron activation // Water: Technology and Ecology. 2009. No.2. p. 62 – 68. Tabl. 4. Bibliogr.: 16 refs. Using the method of neutron activation the concentrations of Au, Hf and Cs were determined for the first time in biogenic detritus formed during seven months in freshwater microcosms containing organisms Viviparus viviparus, Unio pictorum, Ceratophyllum demersum. Measured concentrations of gold in biogenic detritus were as high as 25 – 270 ng/g (for detritus dry weight), average concentration being as high as 147.5 ng/g. Average concentration of Hf and Cs in biogenic detritus were of one order higher. Obtained data supplement and confirm the concept of polyfunctional role of biota in aquatic ecosystems (Ostroumov S.A., Doklady Academy of Sciences, 2004. V. 396, P.136–141). Key words: aquatic ecosystems, detritus, shellfish, bivalves, xenobiotics, pollutants, pollution, water quality, freshwater objects, inhibitory effects, sublethal concentrations, Lymnaea stagnalis, Au, Viviparus viviparus, Unio pictorum, Ceratophyllum demersum. Ecological Ethics. In: Terminological Dictionary (Thesaurus). Humanities-Oriented Biology. Moscow University Press. Moscow. 2009. p. 278-283. ISBN 978-5-211-05360-1. Conservation of biodiversity. In: Terminological Dictionary (Thesaurus). Humanities-Oriented Biology. Moscow University Press. Moscow. 2009. p. 206-221. ISBN 978-5-211-05360-1. [Book] Gusev M.V., Oleskin A.V., Kartasheva E.R., Kirovskaya T.A., Ostroumov S.A., Botvinko I.V., Lukyanov A.S., Kaganova Z.V., Yudin B.G., Shulga E.N., Sedov A.E. Terminological Dictionary (Thesaurus). Humanities-Oriented Biology [=Terminologicheskij Slovar' (Tezaurus). Gumanitarnaya Biologiya]. Moscow University Press. Moscow. 2009. p. 206-221. ISBN 978-5-211-05360-1. Ostroumov S.A., Demina L.L. Ecological biogeochemistry and chemical elements (As, Со, Fe, Mn, Zn, Cu, Cd, Cr) in biogenic detritus in marine model ecosystem: measuring by the method of atomic absorption spectroscopy (AAS) // Ecological Systems and Devices [ = Ekologicheskie Sistemy i Pribory = Экологические системы и приборы] 2009. №9, p. 42-45. Bibliogr. 20 refs. [The detritus that accumulated over > 10 months in the microcosms with Mytilus galloprovincialis contained As and metals. For the first time the concentrations of 9 elements in the detritus of this type was measured. Their concentrations were measured using atomic absorption spectroscopy (AAS). Their concentrations decreased in the order: Fe > Mn > Zn > Cu > As > Cr > Pb > Co > Cd. Also, concentrations of the same elements in Cystoseira crinita were measured. The concentrations decreased in the order: Fe > Zn > Mn > Cr > As > Cu > Pb > Cd > Co. The new data confirm the recent theory of the polyfunctional role of the biota in water quality control and water self-purification (Doklady Akademii Nauk, 2004, V.396. P.136-141; Ekologiya, No. 6, 2005, p. 452–459)]. Ostroumov S.A., Kolesov G.M., Moiseeva Yu.A. Studying of aquatic microcosms with mollusks and plants: chemical elements in detritus. Water: Chemistry and Ecology (=Voda: Khimiya I ekologiya = Вода: химия и экология) 2009. №8, p. 18-24. Bibliogr. 36 refs. [The concentrations of some elements in the detritus accumulated over than 7 months in the microcosms with Viviparus viviparus, Unio pictorum, Ceratophyllum demersum were measured. Concentrations were determined using atomic absorption spectroscopy. The concentrations of elements decreased in the order: Ca > Zn > Ba> Na > Br > Ce > Se > Nd > La > U > Hf> Sb > Th > Sm > S> Cs > Yb >Eu > Au. The new data add some information to the modern vision of the polyfunctional role of the biota in the functioning of water systems. Key words: Aquatic ecosystems, detritus, shellfish, bivalves, water quality, freshwater objects, biogeochemistry, Viviparus viviparus, Unio pictorum, Ceratophyllum demersum]. Ostroumov S.A., Shestakova T.V., Kotelevtsev S.V., Solomonova E.A., Golovnya E.G., Poklonov V.A. Presence of the macrophytes in aquatic system accelerated a decrease in concentrations of copper, lead and other heavy metals in water. // Water Sector of Russia: Problems, Technologies, Management (=Vodnoe Khozyaistvo Rossii). 2009. No. 2. p. 58 - 67. Bibliogr. 17 refs. Changes in the concentrations of heavy metals in the water of experimental systems were studied. Using the method of inversion voltamperometry, the concentrations of the heavy metals Cu, Zn, Cd, Pb were measured in the water of the experimental microcosms. Aquatic macrophytes Ceratophyllum demersum were incubated in the microcosms. The measured concentrations of all four heavy metals decreased in the microcosms with the macrophytes much faster than in the control microcosms without any aquatic plants. The new results complement the previous data on the phytoremediation potential of aquatic plants (Vestnik Moskovskogo Universiteta. Series 16. Biology. — 2007. — № 4. — С.39— 42)]. Ostroumov S.A., Demina L.L. Ecological biogeochemistry and chemical elements (As, Со, Fe, Mn, Zn, Cu, Cd, Cr) in Cystoseira and in biogenic detritus in marine model ecosystem: measuring by the method of atomic absorption spectroscopy (AAS). - Ecological Systems and Devices (Экологические системы и приборы). 2009. No. 9, p.42-45. [The detritus that accumulated over > 10 months in the microcosms with Mytilus galloprovincialis contained As and metals. For the first time the concentrations of 9 elements in the detritus of this type was measured. Their concentrations were measured using atomic absorption spectroscopy (AAS). Their concentrations decreased in the order: Fe > Mn > Zn > Cu > As > Cr > Pb > Co > Cd. Also, concentrations of the same elements in Cystoseira crinita were measured. The concentrations decreased in the order: Fe > Zn > Mn > Cr > As > Cu > Pb > Cd > Co]. Остроумов С.А., Колесов Г.М. Детектирование в компонентах экосистем золота, урана и других элементов методом нейтронно-активационного анализа // Экол. системы и приборы. 2009. № 10. Впервые измерена концентрация золота в биогенном детрите, образовавшемся в микрокосмах с Viviparus viviparus, Unio pictorum, Ceratophyllum demersum, с помощью нейтронно-активационного анализа (НАА). Ключевые слова: водные экосистемы; детрит; моллюски; ксенобиотики; поллютанты. http://www.tgizd.ru/mag/ecology/ Ostroumov S.A., Kolesov G.M. Detection of gold, uranium, and other elements in ecosystem’s components using the method of neutron activation analysis. Экол системы и приборы. 2009. № 10. [The biogenic detritus that accumulated over > 7 months in the microcosms with Viviparus viviparus, Unio pictorum, Ceratophyllum demersum, contained Au. For the first time the concentrations of Au in the detritus of this type was measured. The concentration was measured using NAA. Key words: aquatic ecosystems; detritus; shellfish; bivalves; xenobiotics; pollutants]. Ecological processes of decreasing the pollution of aquatic environment and their practical significance. 1. Elements of theory. // Problems of Biogeochemistry and Geochemiсal Ecology. 2009 No. 1 (9). p. 129-138. Bibliogr. 49 refs. Abstr. in Engl. and Kazakh [no coauthors]. Kotelevtsev S.V., Ostroumov S.A. Environment, the biosphere and environmental security: the useful publication in the field of environmental sciences / / Problems of Biogeochemistry and Geochemical Ecology. 2009. No. 1 (9). p.147. [About the journal « Environment Ecology and Safety of Life Activity» ISBN 1726-5428]. Ostroumov S.A., Shestakova T.V., Kotelevtsev S.V., Solomonova E.A., Golovnya E.G., Poklonov V.A. Presence of the macrophytes in aquatic system accelerated a decrease in concentrations of copper, lead and other heavy metals in water. // Water Sector of Russia: Problems, Technologies, Management (=Vodnoe Khozyaistvo Rossii). 2009. No. 2. p. 58 - 66. Bibliogr. 17 refs. [Changes in the concentrations of heavy metals in the water of experimental systems were studied. Using the method of inversion voltamperometry, the concentrations of the heavy metals Cu, Zn, Cd, Pb were measured in the water of the experimental microcosms. Aquatic macrophytes Ceratophyllum demersum were incubated in the microcosms. The measured concentrations of all four heavy metals decreased in the microcosms with the macrophytes much faster than in the control microcosms without any aquatic plants. The new results complement the previous data on the phytoremediation potential of aquatic plants (Vestnik Moskovskogo Universiteta. Series 16. Biology. — 2007. — № 4. — С.39— 42)]. Ostroumov S.A. New scientific disciplines in the system of ecological and biospheric sciences: biochemical ecology and biochemical hydrobiology // Ecological Chemistry [St.Petersburg]. 2009, 18 (2): p.102-110. Bibliogr. 36 refs. The author has previously published two books in which the conceptual basis of the new scientific discipline of biochemical ecology were formulated. This direction of scientific research is focused on studies of the role of the chemicals produced by organisms in the interorganismal interactions, in communication and regulation of supraorganismal systems. Another part of the science of biochemical ecology deals with the fate and transformation of external chemicals when they interact with organisms. Both natural chemicals and the man-made chemicals are of importance for biochemical ecology. Fundamental concepts of biochemical ecology include ecological chemomediators and ecological chemoregulators, which have been included into the modern scientific concepts and are in use in modern ecological literature (see Rozenberg et al., 1999). [http://thesa-store.com/eco/]. Ostroumov S.A., Kotelevtsev S.V., Shestakova T.V., Kolotilova N.N., Poklonov V.A., Solomonova E.A. The new on phytoremediation potential: acceleration in the decrease in the concentrations of heavy metals (Pb, Cd, Zn, Cu) in water in the presence of elodea./ Ecological Chemistry [St.Petersburg] 2009, 18 (2): p.111-119. Bibliogr. 39 refs. Time-dependent decrease in the concentrations of heavy metals (Pb, Cd, Zn, Cu) in the water of experimental ecosystems (microcosms) with elodea Elodea canadensis was studied. Using the method of inversion voltamperometry, the concentrations of the heavy metals Cd, Zn, Cu, Pb were measured in the water of the experimental microcosms. Aquatic macrophytes Elodea canadensis were incubated in the microcosms. The concentration of Pb, Cd and the other metals decreased markedly. In this experiment, the first convincing evidence was obtained that the measured concentrations of all four heavy metals (Pb, Cd, Zn, Cu) decreased in the microcosms with the macrophytes Elodea canadensis much faster than in the control microcosms without any macrophytes, which proves the new aspect of the phytoremediation potential of elodea. [http://thesa-store.com/eco/]. Ostroumov S.A. A comparison of some features and parameters that characterize the ecosystem and the organism (=Comparing some parameters which characterize ecosystems and organisms) // Ecological Chemistry [St.Petersburg] 2009, 18 (2): p.120-122. Bibliogr. 12 refs. [The comparison and juxtaposition of parameters which characterize ecosystems and organisms was made. Ecosystems and organisms were considered as two types of entities involved in life phenomena at two levels of organization of living systems. The parameters that were considered included: the main functions, the main prerequisites for those functions, discreteness and continuity in space, discreteness and continuity in time, the boundaries, the ability to control the physical and chemical parameters of the environment, the ability to decrease entropy in energy-dependent way, etc.] [http://thesa-store.com/eco/] Ostroumov S.A. Biocenotic purification and water quality: the contribution of environmental repair // Ecological Chemistry [St.Petersburg] 2009, 18 (2): p.123-128. 3 tab. Bibliogr. 17 refs. New experimental data were obtained that showed that one of the most important processes of ecological repairing (restoring water quality during the process of removal of suspended matter by aquatic organisms) is inhibited by a pollutant (a xenobiotic), which points to some degree of similarity or analogy with the processes of repair at the molecular-genetic level. The repair at the molecular-genetic level can also be inhibited by some xenobiotics and have some other attributes that are analogous to those of ecological repairing. The xenobiotics that produced those negative effects on the processes of the ecological repair of water quality included various synthetic surfactants, detergents, and metals. New experimental data on the effects of tetradecyltrimethyl ammonium bromide on marine mussels (Mytilus edulis × M. galloprovincialis) are presented. [http://thesa-store.com/eco/]. Ostroumov S.A., Demina L.L. Ecological biogeochemistry and chemical elements (As, Со, Fe, Mn, Zn, Cu, Cd, Cr) in biogenic detritus in marine model ecosystem: measuring by the method of atomic absorption spectroscopy (AAS) // Ecological Systems and Devices (= Ekologicheskie sistemy i pribory). 2009. No. 9, p. 42-45. Bibliogr. 20 refs. Abstract: The detritus that accumulated over > 10 months in the microcosms with Mytilus galloprovincialis contained As and metals. For the first time the concentrations of 9 elements in the detritus of this type was measured. Their concentrations were measured using atomic absorption spectroscopy (AAS). Their concentrations decreased in the order: Fe > Mn > Zn > Cu > As > Cr > Pb > Co > Cd. Also, concentrations of the same elements in Cystoseira crinita were measured. The concentrations decreased in the order: Fe > Zn > Mn > Cr > As > Cu > Pb > Cd > Co. The new data confirm the recent theory of the polyfunctional role of the biota in water quality control and water self-purification (Doklady Akademii Nauk, 2004, V.396. P.136-141; Ekologiya, No. 6, 2005, p. 452–459). http://scipeople.ru/users/2943391/ Ostroumov S.A., Kapitsa A.P., Kotelevtsev S.V., Golovnya E.G., Gorshkova O.M., Lasareva E.V., McCutcheon S., Shestakova T.V., Solomonova E.A. Innovative phytotechnology: contributing to the best available technologies of complex control and prevention of water pollution. - Ecol. Stud., Haz., Solutions, 2009, v.13. p.101-103. Bibliogr. 14 refs. Phytoremediation of perchlorate, surfactants, heavy metals (Pb, Cu, Zn, Cd). Ostroumov S.A., Kolesov G.M. Detection of gold, uranium, and other elements in ecosystem’s components using the method of neutron activation analysis. - Ecological system and devices (Экол системы и приборы). 2009. No. 10. с. 37-40. [The biogenic detritus that accumulated over > 7 months in the microcosms with Viviparus viviparus, Unio pictorum, Ceratophyllum demersum, contained Au. For the first time the concentrations of Au in the detritus of this type was measured. The concentration was measured using NAA. Key words: aquatic ecosystems; detritus; shellfish; bivalves; xenobiotics; pollutants]. Ostroumov S.A., Shestakova T.V. Decreasing in the measurable concentrations of Cu, Zn, Cd, Pb in the water of the experimental systems with Ceratophyllum demersum: phytoremediation potential. - Doklady Akademii Nauk. 2009, vol. 428, No. 2, p. 282–285. Bibliogr. 15 refs. Using the method of inversion voltamperometry, the concentrations of the heavy metals Cu, Zn, Cd, Pb were measured in the water of the experimental microcosms. Aquatic macrophytes Ceratophyllum demersum were incubated in some of the microcosms. The measured concentrations of all four metals decreased in the microcosms with macrophytes much faster than in the control microcosms without any macrophytes. http://www.maikonline.com/maik/showArticle.do?auid=VAFZC61RXH&lang=en Ostroumov S.A. Biocontrol of the pollution of aquatic environment: elements of theory. – Toksikologicheskiy Vestnik. 2009. [Ecological mechanisms of water self-purification in aquatic bodies and stream are analyzed. The theory of them is presented, which includes the analysis of the polyfunctional role of organisms in water purification. The results of new experiments of author on aquatic organisms, including aquatic macrophytes and filter-feeders, are used]. in press. Ostroumov S.A. Biocontrol of the pollution of aquatic environment: issues of rehabilitation and remediation, including phytoremediation and zooremediation.-Toksikologicheskiy Vestnik. [Phytoremediation, algaeremediation and zooremediation are considered in connection with search for ecotechnologies of removal of pollutants (including toxicants) from water. As part of the analysis of the role of organisms, we included the data on heavy metals, that are involved by mollusks into biogeochemical flows as a result of their removal from water column of aquatic bodies. On the basis of the theory, some conclusions were formulated that are relevant of sustainable use of natural resources]. in press Some publications and the concrete results presented in them New results Refs Effects of SDS 0.5-4 mg/L during 30-60 min, and Triton X-100 4 mg/L during 60 and 120 min on M. edulis. SDS 1, 2, and 4 mg/L after 30-90 min inhibited the filtration rate and removal of the cells of Isochrysis galbana from water. Triton X-100 4 mg/L also inhibited the filtration rate and removal of the cells of Isochrysis galbana during 60-120-min incubation Filtration inhibition induced by two classes of synthetic surfactants in the bivalve mollusk Mytilus edulis // Doklady Biological Sciences, 1998. Vol. 362, P. 454-456. [In collaboration: S.A.O., Donkin P., Staff F.]. SDS 1 mg/L inhibited filtration (35-95 min, 16°С) of M. edulis and removal of the cells of Isochrysis galbana from water. Amount of cells that stayed in water unfiltered after 95 min, was 3 times as much as the amount of cells in the control without SDS. Biological filtering and ecological machinery for self-purification and bioremediation in aquatic ecosystems: towards a holistic view // Rivista di Biologia / Biology Forum. 1998. V. 91(2). P. 221-232 ТХ100 0.5 mg/L inhibited filtration (90 min, 16°С) M.edulis and removal of cells of Isochrysis galbana from water. The number of cells that stayed in water unfiltered was twice as many as the number of cells in control without ТХ100]. Anthropogenic effects on the biota: towards a new system of principles and criteria for analysis of ecological hazards // Rivista di Biologia / Biology Forum. 2003. vol. 96, No.1, p. 159-170. TDTMA 1 mg/L inhibited the filtration rate of juveniles of mussels Mytilus galloprovincialis Lam., when grazing (feeding on) algae Monochrysis lutheri; the removal of algae Monochrysis lutheri was decreased. Tetradecyltrimethylammonium bromide (TDTMA). Toxicological Bulletin. 2000. No. 3. P. 34-35. TDTMA 1 mg/L inhibited the filtration rate of juveniles of M. galloprovincialis, and the removal of cells of Monochrysis lutheri from water (50 min, 26˚C). Inhibitory analysis of regulatory interactions in trophic webs. -Doklady Biological Sciences, Vol. 377, 2001, pp. 139–141. Contribution of the main groups of aquatic organisms (heterotrophic bacteria, fungi, cyanobacteria and microalgae, protozoans, higher plants, invertebrates, fish and amphibians) to water self-purification: comparison and analysis (Tabl.1). Aquatic ecosystem: a large-scale diversified bioreactor with a water self-purification function. -Doklady Biological Sciences, 2000. Vol. 374, P. 514-516. "The whole range of biological diversity of hydrobionts is required to provide effective functioning of an ecosystem as an analog of a water self-purification bioreactor. Therefore, the cost estimates of ecosystems and biota should be increased" (p.516)]. Aquatic ecosystem: a large-scale diversified bioreactor with a water self-purification function. -Doklady Biological Sciences, 2000. Vol. 374, P. 514-516. Significant inhibition by TX-100 of filtration by Mytilus edulis (4 mg/L), and by Unio tumidus (5 mg/L). Inhibitory effects of TDTMA 1 mg/L on M. galloprovincialis (Table 2); inhibition of feeding: effects of TX100 1-5 mg/L on U. tumidus, TDTMA 1-2 mg/L on U. pictorum; TDTMA 1 mg/L, SDS 1.7 mg/L, detergents 6.7 – 50 mg/L, AHC 5-60 mg/L (sublethal concentrations) on M. galloprovincialis; TX100, TDTMA (2 mg/L), Tide-Lemon 75 mg/L on Lymnaea stagnalis (Table 3). "Sublethal concentrations of contaminants may inhibit vital activities of … organisms involved in the function of an ecosystem as an analogue of a bioreactor". Aquatic ecosystem: a large-scale diversified bioreactor with a water self-purification function. Doklady Biological Sciences, 2000. Vol. 374, P. 514-516. Relatively small effects of Triton X-100 4-5 mg/L on Hyphomonas sp. MHS-3 (5 mg/L) and Hyphomonas sp. VP-6 (5-10 mg/L), Aquatic ecosystem: a large-scale diversified bioreactor with a water self-purification function. - Doklady Biological Sciences, 2000. 374: 514-516. TDTMA 2 mg/L inhibited the feeding rate of Lymnaea stagnalis by 65.5 % (when feeding on phytomass of leaves of macrophytes). Tetradecyltrimethylammonium bromide (TDTMA). - Toxicological Bulletin. 2000. No. 1. P.42-43. Detergent Losk-Universal inhibited filtration by M. galloprovincialis (incubation: 27.8ºС; 20 mg/L 19-54 min.; 7 mg/L 9-49 min). Synthetic detergent Losk-Universal // Toxicological Bulletin (in Russ., Toxicologicheskiy Vestnik, Moscow, ISSN 0869-7922). 2001. No.3. p.40-41. Elemental composition (C, N, P, Si, Al) of the pellets formed by Lymnaea stagnalis feeding on the leaves of Nuphar lutea and Taraxacum officinale; amount (wet weight, dry weight) of the pellets formed by L. stagnalis feeding on the leaves of N. lutea and T. officinale; transfer of the matter and chemical elements (C, N, P, Si, Al) with the pellets of the freshwater bivalves (unionids Unio sp., etc.) per unit biomass of mollusks and per unit area of the ecosystem of the river; transfer of the matter and chemical elements (C, N, P, Si, Al) with the pellets of L. stagnalis per unit biomass of mollusks and per unit area of the ecosystem of the pond. ТDТМА 2 mg/l, SDS 1-2 mg/l, detergent Tide-Lemon 75 mg/l inhibited the trophic activity of Lymnaea stagnalis. Pellets of some mollusks in the biogeochemical flows of C, N, P, Si, and Al. - Doklady Biological Sciences, 2001. Vol. 379, P. 378-381. (Translated from: DAN 2001. Vol. 379. No. 3. P. 426-429). [In collaboration: S.A.O., Kolesnikov M.P.]. Liquid detergent Fairy 2 mg/L inhibited filtration by M. galloprovincialis within 23 min after addition. The Synecological Approach to the Problem of Eutrophication. - Doklady Biological Sciences, Vol. 381, 2001, p. 559–562. ISSN 0012-4966. Distributed by Springer, orderdept@springer-sbm.com. Detergent IXI 20 mg/L inhibited filtration by M. galloprovincialis (3-25 min, 18 pro mille, 22.8ºC); Deni-Automat 30 mg/L also inhibited filtration of Crassostrea gigas Thunberg (2-40 min, 25.2ºC). New vision of how biodiversity help stability. Biodiversity and water quality: the role of feed-backs. - DAN. 2002. vol. 382. No. 1. P.138-141. The inhibition of filter-feeders (bivalves) by 6 chemical mixtures (detergents) is reported. The detergent Lanza-Automat (20 mg/L) inhibited water filtration by the bivalves (oysters) Crassostrea gigas (incubation time 4-35 min, 23.4ºC). Effects on elimination efficiency (EEE); new concept of ecological remediation as ecological repair. Identification of a new type of hazard of chemicals: inhibition of processes of ecological remediation. - DAN. 2002. Vol. 385. No. 4. P. 571-573. Inhibition of filtering activity as a result of the effects of surfactant TDTMA 0.5mg l-1 on oysters Crassostrea gigas; SDS 0.5mg l-1 on C. gigas; 3 synthetic detergent mixtures on Mytilus galloprovincialis and C. gigas. Studying effects of some surfactants and detergents on filter-feeding bivalves. - Hydrobiologia. 2003. 500: 341-344. TDTMA 0.5 mg l-1 inhibited the feeding and grazing of rotifers in Brachionus calyciflorus turbidostat; the feeding was on the culture of algae Nannochloropsis limnetica Effect of a cationic amphiphilic compound on rotifers. - Doklady Biological Sciences, 2003, 390: 252–255. (Translated from Doklady Akademii Nauk, 2003. 390, p. 423–426. [S.A.O., N. Walz, R. Rusche]. It was discovered that sodium dodecyl sulphate (SDS) had an inhibitory effect on the filtration activity of the common species of the filter-feeders Daphnia magna. Vorozhun I.M., Ostroumov S.A. Sodium dodecyl sulphate: impact on Daphnia // Toksikologicheskiy Vestnik. 2009. No. 1. p.46-48. 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 filter-feeders 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. 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 (in English); Publisher: MAIK Nauka/Interperiodica co-published with Springer Science + Business Media, Inc. ISSN: 1067-4136 (Paper) 1608-3334 (Online); Ekologiya, No. 6, 2005, pp. 452–459 (in Russian); Biotic self-purification of aquatic ecosystems: from the theory to ecotechnologies. - Ecologica International, 2007. 15(50), p.15-23; Inhibition of water filtration by marine mussels under effect of surfactants of three classes Inhibition of mussel suspension feeding by surfactants of three classes. - Hydrobiologia. 2006. 556 (1): 381 – 386. [In collaboration: S.A.O., J. Widdows]. 5 principles of nature conservation requirements in malacological and hydrobiological reserves (Tabl. 3), among them principle 2, "conservation of filtration activity of organisms and populations"; 5 detergents (1-50 mg/L) inhibited the filtration activity of Unio tumidus, Mytilus galloprovincialis, Crassostrea gigas (Tabl. 2); System of principles for conservation of the biogeocenotic function and the biodiversity of filter-feeders. - Doklady Biological Sciences. 2002. Vol. 383: 147-150. Heptane 16 mg/L and 48 mg/L inhibited filtration by Mytilus galloprovincialis and removal of cells of algae Monochrysis lutheri from water. Heptane [Heptane: effects on Mytilus galloprovincialis] // Тoxicol. Vestnik (Тoxicol. Bulletin) 2005, No. 1. P. 50-52. Effects of sodium dodecyl sulphate on aquatic macrophyte Potamogeton crispus L. Sodium dodecyl sulphate: impact on aquatic macrophyte Potamogeton crispus L. / / Toxicological Bulletin [Toksikologicheskiy Vestnik]. 2006. Number 6, p.24-26. [coauthors: S. A.O., Solomonova E.A.] [ Effects of sodium dodecyl sulphate on aquatic macrophyte Potamogeton crispus L. Concentrations of 83-133 mg / L led to the process of fragmentation of the stems of plants.] Phytoremediation with Najas guadelupensis. Microcosms with the macrophytes were studied in laboratory experiments. The effects of sodium dodecyl sulphate (SDS) on macrophytes were studied . The survival and weight of the biomass of macrophytes in a prolonged incubation were recorded. SDS was added in the form of repeated (recurrent) additions. The increase in the amount of SDS after each addition was: 0,5, 0,8, 1,7, 8,3, 16,7, 50,0 and 100,0 mg in 1 dm3. Duration of survival of plants decreased with increasing amount of SDS in one addition. If the amount of SDS (after a single addition) increased 200 times (from 0.5 to 100 mg / l), the period of survival decreased 53-fold (from 372 up to 7 days). In the presence of SDS, a decrease in macrophyte biomass was observed. The degree of the reduction of biomass depended on the total amount of SDS added to the microcosms. Solomonova E.A., Ostroumov S.A. Effects of sodium dodecyl sulphate on the biomass of macrophytes Najas guadelupensis L. / / Toksikologicheskiy Vestnik. 2009. Number 2. P.32-35. Phytoremediation of perchlorate Phytoremediation of perchlorate using aquatic plant Myriophyllum aquaticum. — Ecol. Studies, Haz., Sol., 2006, v. 11, p.25-27. [S.A.O., D.Yifru, V. Nzengung, S. McCutcheon]. A plant-dependent decrease in the concentrations of heavy metals in the water of experimental systems was discovered. Using the method of inversion voltamperometry, the concentrations of the heavy metals Cu, Zn, Cd, Pb were measured in the water of the experimental microcosms. Aquatic macrophytes Ceratophyllum demersum were incubated in the microcosms. The measured concentrations of all four heavy metals decreased in the microcosms with the macrophytes much faster than in the control microcosms without any aquatic plants. The new results complement the previous data on the phytoremediation potential of aquatic plants (Vestnik Moskovskogo Universiteta. Series 16. Biology. — 2007. — № 4. — С.39— 42)]. Ostroumov S.A., Shestakova T.V., Kotelevtsev S.V., Solomonova E.A., Golovnya E.G., Poklonov V.A. Presence of the macrophytes in aquatic system accelerated a decrease in concentrations of copper, lead and other heavy metals in water. // Water Sector of Russia: Problems, Technologies, Management (=Vodnoe Khozyaistvo Rossii). 2009. No. 2. p. 58 - 67. Elodea to phytoremediate heavy metals. Time-dependent decrease in the concentrations of heavy metals (Pb, Cd, Zn, Cu) in the water of experimental ecosystems (microcosms) with elodea Elodea canadensis was discovered. Using the method of inversion voltamperometry, the concentrations of the heavy metals Cd, Zn, Cu, Pb were measured in the water of the experimental microcosms. Aquatic macrophytes Elodea canadensis were incubated in the microcosms. The concentration of Pb, Cd and the other metals decreased markedly. In this experiment, the first convincing evidence was obtained that the measured concentrations of all four heavy metals (Pb, Cd, Zn, Cu) decreased in the microcosms with the macrophytes Elodea canadensis much faster than in the control microcosms without any macrophytes, which proves the new aspect of the phytoremediation potential of elodea. [http://thesa-store.com/eco/]. Ostroumov S.A., Kotelevtsev S.V., Shestakova T.V., Kolotilova N.N., Poklonov V.A., Solomonova E.A. The new on phytoremediation potential: acceleration in the decrease in the concentrations of heavy metals (Pb, Cd, Zn, Cu) in water in the presence of elodea./ Ecological Chemistry [St.Petersburg] 2009, 18 (2): p.111-119. Bibliogr. 39 refs. The data of the international literature on Zn in soft tissues and shells of marine and freshwater mollusks are summarized. New original data on Zn in mollusks of aquatic systems of Moldova and the River Don are presented. Toderas I.Ch., Ostroumov S.A., Zubcova E.I., Chernysheva I.V., Krupina M.V., Mikous A.A., RaileanN.C., Breahna A.I., Miron A.A., Churisca V.V., Munjiu O.V. Zink in aquatic mollusks. - Bulletin of the Academy of Sciences of Moldova. Life Sciences (Buletinul Academiei de Stiinte a Moldovei. Stiintele Vietii). 2007. № 2 (302), p. 102-114 New original data on Hg in mollusks of aquatic systems of the rivers of the Moscow Region are presented. Ostroumov S.A., Khushvakhtova S.D., Danilova V.N., Ermakov V.V. Mercury in the bivalves / / Environmental Chemistry (Ekologicheskaya Khimiya). 2008, v. 17, No. 2, p.84-87. (in Russ.). Ostroumov S.A., Danilova V.N., Khushvakhtova S.D., Ermakov V.V. Mercury in the soft tissues and shells of bivalve mollusks / / Toxicological Bulletin (Toksikologicheskiy Vestnik). 2009. No. 1. p.45-46. (in Russ.) Using the method of measuring surface tension (Wilhelmy plate), it was shown that in the presence of macrophytes OST-1, the removal/disappearance of surfactant sodium dodecyl sulphate from the water accelerates. Surface tension of aquatic solutions of sodium dodecylsulphate in presence of aquatic plants. - Water: technology and ecology. 2008. No. 3, p.57-60. [coauthors: S.A.O., Lazareva E.V.]. Impact of macrophytes on the surface tension of aqueous solutions of sodium dodecyl sulphate: the search for remediation phytotechnology. - Problems of Biogeochemistry and Geochemical Ecology, 2008, № 3 (7), P.75-77. [coauthors: Lazareva E.V., S.A.O.] Phytoremediation of heavy metals. Changes in the concentrations of heavy metals in the water of experimental systems were studied. Using the method of inversion voltamperometry, the concentrations of the heavy metals Cu, Zn, Cd, Pb were measured in the water of the experimental microcosms. Aquatic macrophytes Ceratophyllum demersum were incubated in the microcosms. The measured concentrations of all four heavy metals decreased in the microcosms with the macrophytes much faster than in the control microcosms without any aquatic plants. Ostroumov S.A., Shestakova T.V., Kotelevtsev S.V., Solomonova E.A., Golovnya E.G., Poklonov V.A. Presence of the macrophytes in aquatic system accelerated a decrease in concentrations of copper, lead and other heavy metals in water. // Water Sector of Russia: Problems, Technologies, Management (=Vodnoe Khozyaistvo Rossii). 2009. No. 2. p. 58 - 66. Concentrations of As, Со, Fe, Mn, Zn, Cu, Cd, Cr in biogenic detritus in marine model ecosystem. The detritus that accumulated over > 10 months in the microcosms with Mytilus galloprovincialis contained As and metals. For the first time the concentrations of 9 elements in the detritus of this type was measured. Their concentrations were measured using atomic absorption spectroscopy (AAS). Their concentrations decreased in the order: Fe > Mn > Zn > Cu > As > Cr > Pb > Co > Cd. Also, concentrations of the same elements in Cystoseira crinita were measured. The concentrations decreased in the order: Fe > Zn > Mn > Cr > As > Cu > Pb > Cd > Co. Ostroumov S.A., Demina L.L. Ecological biogeochemistry and chemical elements (As, Со, Fe, Mn, Zn, Cu, Cd, Cr) in biogenic detritus in marine model ecosystem: measuring by the method of atomic absorption spectroscopy (AAS) // Ecological Systems and Devices [ = Ekologicheskie Sistemy i Pribory = Экологические системы и приборы] 2009. №9, p.42-45. The concentrations of some elements in the biogenic detritus that accumulated for over than 7 months in the freshwater microcosms with Viviparus viviparus, Unio pictorum, Ceratophyllum demersum were measured. 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Hazards, Solutions 2004, 7: 138 New typology and conceptualization of the pathways of chemical elements migrating in the biosphere, with special attention to stochastic and vectorial, as well as cyclic and non-cyclic pathways. Polyfunctional role of biota in migration of chemical elements and formation of the geochemical environment: towards development of the theory of the apparatus of the biosphere. - Problems of Biogeochemistry and Geochemical Ecology. 2006. V.1 (1). P. 24-31; Also in Vestnik RAEN; Gidrobionty kak faktor reguljacii potokov veshchestva i migracii elementov v vodnyh ekosistemah. - Izvestija Samarskogo nauchnogo centra RAN, 2003. V. 5, No. 2, p.249-255. Integrated abiotic-biotic regulation of biogeochemical processes (concept of ‘biokosnaya regulyaciya’) Ostroumov S.A. O roli gidrobiontov v regulyacii potokov veshchestva i migracii elementov v vodnyh ekosistemakh // Vestnik RAEN. 2002. V. 2. No. 3. P.50-54. [Vestnik of Russian Academy of Natural Sciences 2002, 2 (No.3): 50-54]; Gidrobionty kak faktor reguljacii potokov veshchestva i migracii elementov v vodnyh ekosistemah. - Izvestija Samarskogo nauchnogo centra RAN, 2003. V. 5, No. 2, p.249-255; Ostroumov S.A. Geokhimicheskij apparat vodnyx -ekosistem: biokosnaya regulyaciya // Vestnik RAN. 2004. V.74. № 9. P.785-791. Functions of the biota as a factor for stabilization of the environment and climatic system of the Earth Vestnik of Russian Academy of Natural Sciences 2003, 3 (No.2): 59 The concepts of synecological cooperativity and ecological taxation in biological communities Ecol. Stud. 2004, 7: 154-157 A new approach to monetary assessment of the ecological services of aquatic ecosystems Ecol. Stud. 2004, 7: 141-146 Extended the scientific approaches of E. Schrödinger and I. Prigogine by applying them to aquatic ecosystems Ecol. Stud. 2004, 7: 122-126 Proposed the new method of recurrent additions to study phytoremediation Ecol. Stud. 2004, 11: 72-74; Studies of the phytoremediation potential of aquatic plants. Studies of the phytoremediation potential of aquatic plants. – Environment Ecology and Safety of Life Activity. 2006. No. 6 (36). P. 63-68. [S.A.O., E.A. Solomonova]; Studies of the tolerance of aquatic macrophyte Potamogeton crispus L. to sodium dodecylsulphate. - Vestnik Moskovskogo Universiteta. Ser. 16. Biology. 2007. No.4. p.39-42. [Solomonova E.A., S.A.O.]. [English edition: Tolerance of an aquatic macrophyte Potamogeton crispus L. to sodium dodecyl sulphate. - Moscow University Biological Sciences Bulletin [ISSN 0096-3925 (Print) 1934-791X (Online)]). 2007. Volume 62, Number 4. p. 176-179]. Phytoremediation of perchlorate, surfactants, heavy metals (Pb, Cu, Zn, Cd) Ostroumov S.A., Kapitsa A.P., Kotelevtsev S.V., Golovnya E.G., Gorshkova O.M., Lasareva E.V., McCutcheon S., Shestakova T.V., Solomonova E.A. Innovative phytotechnology: contributing to the best available technologies of complex control and prevention of water pollution. - Ecol. Stud., Haz., Solutions, 2009, v.13. p.101-103; Ostroumov S.A., Shestakova T.V. Decreasing in the measurable concentrations of Cu, Zn, Cd, Pb in the water of the experimental systems with Ceratophyllum demersum: phytoremediation potential. - Doklady Akademii Nauk. 2009, vol. 428, No. 2, p. 282–285. The macrophyte accelerated the disappearance of the surfactant sodium dodecylsulphate (SDS) from water. Following the addition of SDS, the surface tension of water in the microcosm with the macrophyte OST1 restored to the level which was close to that of pure water within less than three days. Lazareva E. V., S. A. Ostroumov. Accelerated decrease in surfactant concentration in the water of a microcosm in the presence of plants: innovations for phytotechnology. - Doklady Biological Sciences, 2009, Vol. 425, pp. 180–182. [ISSN 0012-4966; DOI: 10.1134/S0012496609020276, in Eng.; original Russian text: E.V. Lazareva, S.A. Ostroumov, 2009, published in Doklady Akademii Nauk, 2009, Vol. 425, No. 6, pp. 843–845]; Impact of macrophytes on the surface tension of aqueous solutions of sodium dodecyl sulphate: the search for remediation phytotechnology // Problems of Biogeochemistry and Geochemical Ecology, 2008, № 3 (7), P.75-77. [coauthors: Lazareva E.V., S.A.O.] Zooremediation Approaches to purification and remediation of aquatic systems (phytoremediation, bioremediation, zooremediation) in connection with the theory of polyfunctional role of biota in water self-purification. – Water: technology and ecology. 2007. № 2. p.49-69. The comparison and juxtaposition of parameters which characterize ecosystems and organisms was made. Ecosystems and organisms were considered as two types of entities involved in life phenomena at two levels of organization of living systems. The parameters that were considered included: the main functions, the main prerequisites for those functions, discreteness and continuity in space, discreteness and continuity in time, the boundaries, the ability to control the physical and chemical parameters of the environment, the ability to decrease entropy in energy-dependent way, etc. Ostroumov S.A. A comparison of some features and parameters that characterize the ecosystem and the organism (=Comparing some parameters which characterize ecosystems and organisms) // Ecological Chemistry [St.Petersburg] 2009, 18 (2): p.120-122. Bibliogr. 12 refs. Hg. The average Hg concentration in the soft tissues of freshwater bivalves Unio pictorum from a river (the Moscow region) was 181.2 ng/g (dry weight), in the shells 160.0 ng/g. The concentration of Hg of the same order of magnitude was found in bivalves from some (but not all) marine ecosystems. Studying the concentrations of mercury in bivalves.- Ecology of Evironment and Safety of Life Activity. 2007, no.5. p.79-80. [Co-authors: S.A.O., Khushvatova S.D., Danilova V.N., Ermakov V.V.] Сu. Ostroumov S.A., Zubcov E.I., Krupina M.V., Mikus A.A., Toderas I.K. Interaction of copper with aquatic organisms in context of ecological monitoring and the role of aquatic organisms in biogeochemical fluxes. – Water: Technology and Ecology. 2007. No. 4. p. 54-68. Daphnia were fed with algae Scenedesmus quadricauda. After filtration for 6–24 h in the presence of SDS (5 and 10 mg/l), the abundance of S. quadricauda cells in water was higher than in the control. The mean rate of algae removal by daphnia decreased within the first 3 h after the beginning of incubation in the presence of SDS (0.1, 0.5, and 1 mg/l). The results demonstrated that SDS decreases the rate of water filtration by D. magna. Vorozhun I. M., S. A. Ostroumov. On studying the hazards of pollution of the biosphere: effects of sodium dodecylsulfate (SDS) on planktonic filter-feeders. - Doklady Biological Sciences, 2009, Vol. 425, pp. 133–134. [ISSN 0012-4966, Pleiades Publishing, Ltd., 2009. DOI: 10.1134/S0012496609020136; original Russian text: I.M. Vorozhun, S.A. Ostroumov, 2009, published in Doklady Akademii Nauk, 2009, Vol. 425, No. 2, pp. 271–272]. Concentrations of many elements in shells of the mollusk Viviparus viviparus Ostroumov S.A., Kolesov G.M., Sapozhnikov D.Yu. The content of chemical elements in the shells of molluscs Viviparus viviparus: a study by the neutron activation method of analysis // Ecological Studies, Hazards, Solutions. 2009. v. 13, p. 113-117. Au, Hf and Cs were determined for the first time in biogenic detritus formed during seven months in freshwater microcosms containing organisms Viviparus viviparus, Unio pictorum, Ceratophyllum demersum. Measured concentrations of gold in biogenic detritus were 25 – 270 ng/g (for detritus dry weight), average concentration being as high as 147.5 ng/g. Average concentration of Hf and Cs in biogenic detritus were of one order higher. Ostroumov S.A., Kolesov G.M. The determination of gold and other chemical elements in the constituents of the aquatic ecosystems by neutron activation analysis // Water: Technology and Ecology. 2009. No. 2. p. 62 – 68. Bibliography in English. Part 2. Some other publications including collective monographs and proceedings of conferences (some with short comments) Review: Don't Cry Wolves (translated from English). Under the editorship of Prof. A.N. Formozov. M.: Mir Press. 1968. 149 p. – Priroda (Природа), 1969. No. 2, p. 120. Review: I.P. Karuzina, Biology (textbook) Moscow: Meditsina Press. 1969. 424 p. – Priroda (Природа). 1971. No. 3. p. 117-118. At the frontier of bioenergetics. Review of the book: Skulachev V.P. 'Energy Transformation in Biomembranes' (Moscow: Nauka Press, 1972. 203 p.) – Priroda (Природа). 1973. No. 6, p.115-116. Isolation and properties of the bacteriorhodopsin generator of the transmembrane gradient of H+ electrochemical potential. - Abstracts of the scientific presentations at the 3th Meeting of the All-Union Biochemical Society. Zinatne Press, Riga, 1974, Vol. 2, p. 114. Voltmeter-measured electric generation by cytochrome oxidase, H+-ATPase and bacteriorhodopsin. - Abstracts 9thMeet. Fed. Europ. Biochem. Soc., Budapest, 1974. p. 221. [In collaboration: Skulachev V.P., Drachev L.A., Kaulen A.D., Nemecek I.B., S.A.O., A.Yu. Semenov]. Origin of the eukariotic cell and the participation of cell organelles in the multiplication of viruses. - Proceedings of the 12th International Botanic Congress (3-10 July 1975). Leningrad. Nauka Press. 1975. p.29. Review: 'Biomembranes'. Ed. L.A.Manson, Plenum Press, N.Y., London, 1974, 284 p. —Journal of General Biology (Zhurnal Obshchei Biologii). 1975. Т. 36. No. 5. P. 795-797. Review: Biochemistry. A. Lehninger. (Moscow, Mir Press, 1974, 957 p.). – Nature (Priroda, Moscow). 1976. No.3. P.152-153. Interactions between the bioregulator, A-factor, and the membranes of streptomycetes. - In: Modern Problems of Biology. (Proceedings of the conference, 19-21 October 1978, Tbilisi). Tbilisi University Press, 1978, p. 11. [In collaboration: Lebedev Yu.B., S.A.O.]. Review: 'Methods In Membrane Biology', Vol. 8, Ed. by E. D. Korn. New York, Plenum Press, 1977, 368 p. — New Books Abroad (Novye Knigi Za Rubezhom). Series B. 1978. No. 8, p. 7-8. Review: Martin Lukner. Secondary Metabolism in Microorganisms, Plants and Animals. – Journal of General Biology (=Zhurnal Obshchei Biologii). 1981. No. 5, p.791-792. [Рец.: М. Лукнер "Вторичный метаболизм у микроорганизмов, растений и животных" // Журнал общей биологии. 1981. № 5. С.791-792]. Review: Mitryushkin K.P. et al. 'Databook on Nature Conservation'. Moscow, Lesnaya Promyshlennost Press, 1980, 352 p. — Hunting and Hunting Management. 1982. No. 3, p. 42-43. [In collaboration with М. Chubarova]. Air pollution changes the premeability of membranes of plant cells. – Nature (Priroda, Moscow). 1980. No.3. P.115. Bibliogr. 2 refs. Weapons of plants [Biochemical ecology – a new scientific discipline] // Zinatne un Tohnika (Science and Technology, in Russian and Latvian, ISSN 0201-7857, Riga). 1983. No. 11(280), P. 18–19, fig. [The new terms and concepts were introduced: ecological chemoregulators, ecological chemomediators]. Seasonal dynamics of the cellulase and dehydrogenase activity in the chernozem under grassland and the oak forest. - In: Young Scientists and the Main Lines of Development of the Modern Biology. Proceedings of the 15th conference of the young scientists of the biological faculty of Moscow University. Moscow, 17-19 April 1984. Dep. in VINITI. No. 595, Part 2, p.194-200. [In collaboration: Bogoev B.M., Gilmanov T.G., Dallakyan G.A., S.A.O.]. Review of the book: "Ecological Communities: Conceptual Issues and the Evidence". Strong D.R., Simberloff D., Abele L.G., Thistle B. (Eds.) Princeton University Press, Princeton, 1984. 613 p. — Ecology. 1986. No. 5. p. 88-90. Review of the book: D. Schlee. "Okologische Biochemie". Jena. Fischer Verlag. 1986. 355 p. — New Books Abroad. Ser. B. Biology.1987. No. 3. p. 4-7. Review of the book: "Pollution Control and Conservation". M. Kovacs (Ed.). Budapest: Akademiai Kiado. 1985. 398 p. — New Books Abroad. Ser. B. Biology. 1987. No.4. p. 25-28. Review of the book: Harold F. "The Vital Force: a Study of Bioenergetics". New York: Freeman. 1986. 577 p. — New Books Abroad. Ser. B. Biology. 1987. No.5. p. 6-8. Bioassay of solutions of anionic surfactants. In: Problems of Modern Biology. - Proceedings of the 17th conference of young scientists of Moscow University (Faculty of Biology), Moscow, 22-25 April, 1986 / Moscow University.- Moscow, 1986. - Part.3. Dep. in VINITI 15.09.86, No. 6662, P. 146-150. [In collaboration: Nagel H., S.A.O.]. Protected territories as a part of the system of nature conservation in Czechoslovakia. - Dep. in VINITI 28.07.1986. No. 5485. [In collaboration: V. (Vaclav) Braun, S.A.O.]. Protected territories as a part of the system of nature conservation in Czechoslovakia (Abstract of the manuscript that was dep. in VINITI 28.07.1986. No. 5485) // Vestnik MGU. Ser. 5. Geography. 1986. No.6. P.83. [In collaboration: V. (Vaclav) Braun, S.A.O.]. Bioassay of several xenobiotics and diagnostics of their effects on hydrobionts and other organisms. - In: Problems of Modern Biology. Proceedings of the 18th conference of young scientists of Moscow University (Faculty of Biology), Moscow, 1987 / Moscow University.- Moscow, 1987. - Part.1. Dep. in VINITI 14.09.87, No. 6662, P. 207-208. [In collaboration: Ivanov I.G., Kartzev V.G., Kovaleva T.N., S.A.O., Pavlova I.A., Dulov L.E.]. Improving methods of assessment of ecological hazards of chemicals polluting the hydrosphere. - In the book: Man in the Biosphere. Proceedings of the conference, 14-16 December 1988. Moscow, Center of Ecological Projects, Committee of UNESCO-MAB. 1988, p. 124. [In collaboration: S.A.O., Novikov A.I., Pavlova I.A., Golovko A.E.]. Disturbance of onthogenesis of Camelina sativa and Triticum aestivum under effect of a surfactant. - In: Ecotoxicology and Nature Conservation. Riga. 1988. p.133. [In collaboration: S.A.O., Maximov V.N.]. Studies of aspects of ecotoxicology of an anionic surfactant sulfonol on plants and other organisms. - In: Ecotoxicology and Nature Conservation. Riga. 1988. p. 134. [In collaboration: S.A.O., Kaplan A.Y., Kovaleva T.N., Maximov V.N.]. Assessment of biological activity of pesticide lontrel using plant species. - In: Chemistry and Technology of Piridine-Containing Pesticides. Vol.2. Chernogolovka, 1988. p. 107. [In collaboration: S.A.O., Pavlova I.A.]. Review: Ecology. 1988. No. 3. P. 95-96. - Review of the book: Burdin K.S. Basics of Biological Monitoring. 1985. Moscow, Moscow University Press, 158 p. Review of the book: Braginsky L.P., Velichko I.M., Shcherban E.P. "Freshwater plankton in toxic environment". Kiev. Naukova Dumka Press. 1987. 180 p. — Water Resources. 1989. No. 5. p. 191-192. Biotesting surfactants and compound products containing surfactants. - In: Methods of Ecological Regulation. Section 3. Problems of Assessment of Man-made Effects on Ecosystems. Kharkov. 1990, p. 139. [In collaboration: S.A.O., Golovko A.E., Khoroshilov V.S.]. Bioassay of solutions of xenobiotics using pistia. - Ecological and Technological Aspects of Detoxification of Industrial Wastes of the Industry of Polymers. Proceedings of the conference, 15-17 February 1990, Donetzk (Donetsk). Minkhimnefteprom USSR. Cherkassy. 1990, p. 12-13. Ecological and Technological Aspects of Detoxification of Industrial Wastes of the Industry of Polymers. Proceedings of the conference, 15-17 February 1990, Donetzk (Donetsk). Minkhimnefteprom USSR. Cherkassy. 1990. p. 3-14. [In collaboration: S.A.O., Semykina N.A.]. Biodiagnostics and bioassay of polluted waters and xenobiotics - in search of non-traditional test species and methods. - Ecological and Technological Aspects of Detoxification of Industrial Wastes of the Industry of Polymers. Proceedings of the conference, 15-17 February 1990, Donetzk (Donetsk). Minkhimnefteprom USSR. Cherkassy. 1990. p. 14-15. [In collaboration: S.A.O., Golovko A.E., Khoroshilov V.S.]. Effects of water contamination by the non-ionogenic surfactant on marine diatoms Thalassiosira pseudonana. - Abstracts of the First International Ocean Pollution Symposium. 1991. University of Puerto Rico, p 27. [In collaboration: S.A.O., Maertz-Wente M.]. Effects of the non-ionogenic surfactant on marine diatoms. - American Chemical Society. Division of Environmental Chemistry. Papers presented at the 201st National Meeting. Atlanta, GA, 1991. Vol. 31, No.1: 18-19. [In collaboration: S.A.O., Maertz-Wente M.]. Biologically active substances of ecological importance and methodological aspects of the estimation of the biological activity of pollutants. - Russ. Chem. Rev. (Russian Chemical Reviews), 1991, 60 (3), 265. [Russian Chemical Reviews is published by Royal Society of Chemistry. ISSN (printed): 0036-021X. ISSN (electronic): 1468-4837; translated from ‘Uspekhi Khimii’]. doi: 10.1070/RC1991v060n03ABEH001051. From editors // Man and the Biosphere. Series 4. Ecological Aspects of Anthropogenic Impact on Terrestial Animals [Проблемы антропогенных воздействий в экологии наземных животных]. Moscow. The Library of Natural Sciences of the Russian Academy of Sciences. 1992. No. 1-2. P.5. [In collaboration: Аnisimov Е.Е., S.A.O., Shchipanov N.А.]. Studies on some aspects of ecotoxicology and biochemical ecology of surfactants.- In: Biodeterioration and Biodegradation 9. Proceedings of the 9th International Biodeterioration and Biodegradation Symposium, 5-10 September 1993, Leeds, UK, Bousher, A.Chandra, M.Edyvean, R. (eds.).- Rugby (United Kingdom): Institution of Chemical Engineers, 1995.- ISBN 0-85295-319-4. P. 641. [In collaboration: S.A.O., Samoilenko L.S., Telitchenko M.M.] Ecotoxicology and biological activity of surfactants. - Third European Conference on Ecotoxicology (Zurich, August 28-31, 1994). Abstracts. Abstract No. 6.26, p.141. Some aspects of ecotoxicology and biochemical ecology of surfactants. - Proceedings of the 6th International Congress of Ecology (21-26 August 1994, Manchester), 1994. p.127. Effects of contaminating aquatic environment with surfactants on the biological mechanisms of the removal of the particles of phytoplankton from the water column [by invertebrates] with possible consequences for the optical parameters of the aquatic ecosystem. - In: Physical Problems of Ecology. Moscow. 1997. Part 2, p. 71-72. [In collaboration: S.A.O., P. Donkin]. Biofiltering and self-purification of water by aquatic ecosystems and its impairment under effect of anthropogenic stress: importance to ecological evaluation of industrial projects and ecological monitoring // ECWATECH-98. Water: Ecology and Technology. Third international congress (Moscow, May 25-30, 1998). Moscow: SIBICO International Ltd, 1998, P. 72. [In collaboration: S.A.O., Donkin P., Staff F.]. Integrity-oriented approach to ecological biomachinery for self-purification and bioremediation in aquatic ecosystems: stopping an ecological time bomb. - Limnology and Oceanography: Navigating into the Next Century. February 1-5, 1999, Santa Fe, New Mexico. ASLO, Waco, TX. 1999. P. 134. The ability of mussels to filter and purify the sea water is inhibited by surfactants. - Limnology and Oceanography: Navigating into the Next Century. February 1-5, 1999, Santa Fe, New Mexico. ASLO, Waco, TX. 1999. P. 134. Using aquatic organisms research to educate undergraduates in Moscow State University, Russia // Limnology and Oceanography: Navigating into the Next Century. Abstracts. ASLO 1999 Aquatic Sciences Meeting, February 1-5, 1999, Santa Fe, New Mexico. ASLO Business Office, Waco, Texas. P.134. Surfactants and marine pollution: another environmental hazard of the third millennium. - PACON. (International Congress on Oceanography, June 23-25, 1999). 1999. P. 24. Effects of a cationogenic surfactant on freshwater unicellular cyanobacteria, green algae, and rotifers. - In: Aquatic Ecosystems and Organisms. 1999. Dialogue-MSU Press. P.45-46. [In collaboration: S.A.O., N.N.Kolotilova, N.F.Piskunkova, N.V.Kartasheva, M.Ya.Lyamin, V.M.Kraevsky]. [Effects of TDTMA and CTAB on Spirulina platensis, Synechocystis sp., Scenedesmus quadricauda, Brachionus angularis]. Biological effects of surfactants in the context of man-made interventions into the environment: a concept of a system for criteria of environmental hazard. - In: Aquatic Ecosystems and Organisms. 1999. Dialogue-MSU Press. P. 43. McCutcheon S.C., Ostroumov S.A. Investigation of biological activity and transformation of organic chemicals by green plants and algae. - In: Aquatic Ecosystems and Organisms. 1999. Dialogue-MSU Press. P.10. Water self-purification in ecosystems and sustainable development. - In: Aquatic Ecosystems and Organisms. 1999. Dialogue-MSU Press. P. 14. Biological processes of water self-purification: importance and vulnerability. - In: Aquatic Ecosystems and Organisms.1999. Dialogue-MSU Press. P. 13. Experimental rationale for a new direction in ecology, bio-chemical ecology of bioremediation and self-purification of aquatic ecosystems. - In: Aquatic Ecosystems and Organisms. 1999. Dialogue-MSU Press. P.44. Ecological processes and ecosystems: functioning towards water purification // Limnology and Oceanography: Research Across Boundaries. June 5-9, 2000, Copenhagen. (Session SS25-01) ASLO, Waco, TX. 2000, p. 62. Ostroumov S.A., McCutcheon S. Defining a modern interface between water quality engineering and aquatic ecosystem research // Limnology and Oceanography: Research Across Boundaries. June 5-9, 2000, Copenhagen. (Session SS25-07) ASLO, Waco, TX. 2000, p.63. Ostroumov S.A., Revkova N.V. Growth of green microalgae in cultures limited by phosphorus and the concept of cell quota. - In: Problems of Ecology and Physiology of Microorganisms. Moscow. Dialog-MGU Press. 2000. P.87. Kolotilova N.N., Ostroumov S.A. Growth of Synechocystis sp. PCC 6803 under the effect of the composite product which contains a surfactant. - In: Problems of Ecology and Physiology of Microorganisms. Moscow. Dialog-MGU Press. 2000. P.66. Effects of some xenobiotics on marine and freshwater bivalves. - Aquatic Ecosystems and Organisms. Ecological Studies, Hazards and Solutions Series. 2000. Vol. 3. MAX Press, Moscow. P. 22-23. Bioresources and biological factors for sustainable development // Ecological Studies, Hazards, Solutions. 2000. Vol. 3. P. 8-9. [In collaboration: Eagle A., S.A.O.]. [6 main biotic factors for sustainable development; a summary evaluation of the contribution of the bioresources of wildlife to economics of the U.S.A.] (in Eng.). Some approaches to assessment of transfer of carbon to lower strata of water and bottom sediments of aquatic ecosystems // Ecological Studies, Hazards, Solutions. 2000. Vol. 3. P. 57-58 [according to the author's evaluations, the transfer of C to lower strata of water and to sediments of freshwater ecosystems of Russia is ca. 1 831 – 5 805 thousand tons] (in Rus.). Elemental composition of the suspended matter in the river water that is being sedimented under gravitation and collected into bottom traps for sediments // ESHS. 2000. Vol. 3. P. 59. [In collaboration: S.A.O., Kolesnikov M.P., Rusanov A.G., Khromov V.M.]. (in Rus.). Addition to the concept of the main functions of the living matter developed by V.I. Vernadsky: ecological chemomediators and chemoregulators // Ecological Studies, Hazards, Solutions, 2001. vol. 5, p. 22. Studying the sedimented matter in the Moscow river: elemental composition (C, N, P, Al, Si) and geochemical flow // Ecological Studies, Hazards, Solutions, 2001. vol. 5, p.23-24. [In collaboration: S.A.O., M. P. Kolesnikov, A. G. Rusanov, V. M. Khromov]. Role of aquatic invertebrates in water self-purification and the hazard of synecological summation of anthropogenic impacts // Ecological Studies, Hazards, Solutions, 2001. vol. 5, p. 25. [In collaboration: S.A.O., N. N. Kolotilova, N. V. Kartasheva, M. N. Khodjaev, V. M. Khromov, M. P. Kolesnikov, N. E. Likhacheva, T. V. Polyakova, N.V. Revkova, N. A. Shidlovskaja, I. M. Vorozhun]. Measuring activity of filter-feeders: linking organismal and superorganismal levels of hydrobiology and biological oceanography // Ecological Studies, Hazards, Solutions, 2001. vol. 5. p. 26-27. Table. Bibliogr. 11 refs. [In collaboration: S.A.O., N. Walz, J. Widdows]. Rotifers in the turbidostat under the influence of a surfactant // Ecological Studies, Hazards, Solutions, 2001. vol. 5. p. 39. [In collaboration: N. Walz, R. Rusche, S.A.O.]. Biofiltering of water in marine and freshwater ecosystems: a function contributing to self-purification and natural bioremediation // Ecological Studies, Hazards, Solutions, 2001. vol. 5. p.38. [In collaboration: Walz N., S.A.O.]. Detalization of the fundamental concepts of biochemical ecology: a new definition of the term 'pheromone' // ESHS. 2001. vol. 5. p. 83. Filter-feeders in water self-purification and the hazard of anthropogenic impacts // New technologies in protecting biodiversity in aquatic ecosystems. M.: MAX Press. 2002. P.151. [In collaboration: S.A.O., Walz N., Widdows J., Finenko G.A., Kolotilova N.N., Kartasheva N.V., Khodjaev M.N., Khromov V.M., Kolesnikov M.P., Likhacheva N.E., Polyakova T.V., Revkova N.V., Romanova Z.A., Shidlovskaja N.A., Vorozhun I.M.]. Review of the book by Acad. Prof. A. F. Alimov (Elements of the Theory of Functioning of Aquatic Ecosystems). - Vestnik RAN. 2002. vol. 72. No. 9, p. 852-854. International Conference (Poster Session) "Water Ecosystems and Organisms-6". - Izvestia Samarskogo nauchnogo tsentra RAN (=Известия Самарского научного центра РАН). 2004. No. 2, p. 440-441. (Without coauthors)]. www.ssc.smr.ru/ftp/2003_2007/sod_2004_2.pdf Developing fundamental concepts of theoretical and quantitative hydrobiology. - 'Ecological Problems of Large Rivers Basins - 3' (Proceedings of the conference 15-19 September 2003, Togliatti). P. 210 [A new concept of the double boundaries of ecosystems; the concept of aquatic ecosystem as a bioreactor; concepts of ecological chemomediators and chemoregulators; concept of synecological summation of manmade effects; concept of the level-block approach to classification of manmade effects]. Application of new fundamental concepts of theoretical and quantitative hydrobiology to modern environmental problems. - 'Ecological Problems of Large Rivers Basins - 3' (Proceedings of the conference, 15-19 September 2003, Togliatti). P. 209. [Identification and prioritization of manmade effects on biota; a new approach to solving the problem of eutrophication; water quality and the role of biodiversity; conservation of biodiversity of aquatic biota]. Two types of ecological bomb // ESHS. 2003, vol. 6. P.36. Course curriculum 'Environmental Problems and Sustainability' // Ecol. Studies, Hazards, Solutions, 2003, vol. 6. P.37-40. In electronic form: http://www.ceu.hu/crc/Syllabi/alumni/envsci/ostroumov.html Concise reviews, evaluations, and summaries of new books // Ecol. Studies, Hazards, Solutions, 2003, vol. 6. P. 144-149. Studying water filtering activity of filter-feeders. - Aquatic Biodiversity: Past, Present, Future. Antwerp, Belgium, 11-13 August 2003. P. 49. Suspension feeders as cleansers of aquatic systems // The Comparative Roles of Suspension Feeders in Ecosystems. Advanced Research Workshop. Nida, Lithuania. 4-9 October, 2003. P.9. Aquatic Ecosystems and Organisms - 4 (about the international conference). — Biology of Seas (‘Biologiya Morei’, a journal of the Russian Academy of Sciences). 2003. V.29. No.4. P.294 (in Russian). On the Fourth International Conference “Water Ecosystems and Organisms-4” - Russian Journal of Marine Biology, 2003, Volume 29, No. 4, p. 262-263 (in English) [Publisher: MAIK Nauka Interperiodica]. Hydrobiology and aquatic ecosystems as factors of economic growth // Ecological Studies, Hazards, Solutions. 2004. Vol. 7. P.25-27. (in Eng.). Hydrobiological factors of economic growth of Russian Federation, stability and security // ESHS 2004 7: 74-76 (in Rus.). Conceptual presentation of the principles and regularities of geochemical and biogeochemical ecology. Migration of matter (migration of elements) – typology and classification, functions of the biota, regulation // ESHS 2004 7: 77-78 (in Rus.). Bibliogr. 5 refs. On water and food ration. Some issues of human ecology and the healthy way of living – from ecological knowledge to practical recommendations // ESHS 2004 7: 79-83 (in Rus.). Bibliogr. 10 refs. On some goals in protecting water resources, the management of water resources, and creating the scientific basis and managerial foundation for the sustainable use of the resources // ESHS, 2004, 7: 94 [In collaboration: Khamitov R.Z., S.A.O.] (in Rus.). Facts and concepts of ecology [a series of essays] // ESHS, 2004, 7: 106-167 (in Rus.). 1. New scientific disciplines: biochemical ecology and biochemical hydrobiology // ESHS, 2004, 7: 106-111 (in Rus., with an English abstract). 2. On the biochemical apparatus of the biosphere // ESHS, 2004, 7: 111-115 (in Rus.). 3. Ecological bomb of the second type // ESHS, 2004, 7: 115-119 (in Rus.). Bibliogr. 28 refs. 4. On studies of the effects of Cd, Cu, and Pb on Mytilus galloprovincialis // ESHS, 2004, 7: 119-121 (in Rus., 3 tables). 5.Aquatic ecology, entropy and negentropy. Developing Schrödinger's approach in application to aquatic ecosystems and water quality // ESHS, 2004, 7: 122-126 (in Rus.). 6. Studying Unio pictorum: a new morphometric parameter // ESHS, 2004, 7: 126-127 (in Rus.). 7. Studying Mitilaster lineatus: a new morphometric parameter // ESHS, 2004, 7: 128-129 (in Rus.). 8. Some gaps in Vernadsky's teaching on the biosphere and some approaches to filling them // ESHS, 2004, 7: 129-132 (in Rus.). 9. Biotic self-purification of aquatic ecosystems: some elements of qualitative theory and its applications // ESHS, 2004, 7: 132-138 (in Rus., with an Eng. abstract; Bibliogr. 27 refs). 10. On the principle of ecological uncertainty // ESHS, 2004, 7: 138-141 (in Rus.). 11. Juxtaposition of self-purification of water and technologies of drinking-water treatment. On monetary estimation of water treatment (desinfection) in natural ecosystems // ESHS, 2004, 7: 141-146 (in Rus.; Bibliogr. 6 refs). 12. On studying atlantic mussels. Specific volume // ESHS, 2004, 7: 146-150 (in Rus.; 5 tables). 13. Ecological clusters // ESHS, 2004, 7: 150-151 (in Rus.). 14. Effects of the detergent E on Mytilus edulis / M. galloprovincialis. Inhibiting the process of ecological repair // ESHS, 2004, 7: 152-154 (in Rus.). 15. New ecological parameters that characterize the role of organisms in the functioning of ecosystems. Ecological tax and coefficients F/B, F/A/, F/P // ESHS. 2004, 7: 154-157 (in Rus.; 4 tables). 16. Coupled ecosystems // ESHS. 2004, 7: 157-158 (in Rus.). 17. Questions to the future ecology. Chaosophilia and chaosophobia. Nanobiotechnology of the biosphere // ESHS, 2004, 7: 159-167 (in Rus.). On some books in ecology, hydrobiology, microbiology and adjacent areas // ESHS. 2004, 7: 168-171 [In collaboration: S.A.O., Kolotilova N.N.]. (in Rus.). Hydrobiology as a factor for development and safety (instead of the foreword) [=Гидробиология как фактор социально-экономического развития и безопасности (вместо предисловия)] // ESHS, 2004. V. 10. P. 5-6. (in Rus.). Fundamental and applied studies at the department of hydrobiology. Generation of knowledge toward development and safety of Russia // Ecological Studies, Hazards, Solutions. 2004. V. 10. P. 7-9 (in Rus.) [= Фундаментальные и прикладные исследования на кафедре гидробиологии. Генерация знаний для целей социально-экономического развития и безопасности России]. New method for measuring the ecological dependence of one country upon another country: a new link between water ecology and international affairs // Ecological Studies, Hazards, Solutions. 2004. V. 10. P. 21-24 (in Eng.). Role of biota in combination with abiotic factors: influencing parameters of aquatic environment // Ecol. Studies, Hazards, Solutions. 2004. V.10. P.24-25. [In collaboration: S.A.O., J. Bloesch, C. Goldman, V.V. Ilinskiy, T. Kairesalo, V.M. Khromov, R. Kornijow, S.E. Plekhanov, A.P. Sadchikov, J.G. Tundisi, R. Wetzel] (in Eng.). Cationic surfactant inhibits mussel suspension feeding // Ecological Studies, Hazards, Solutions. 2004. V. 10. P. 25-28. [In collaboration: S.A.O., J. Widdows] (in Eng.). Quality of waters and search of approaches to improving management of quality of water of surface aquatic objects (Качество вод и поиск подходов к совершенствованию управления качеством вод поверхностных водных объектов) // Ecol. Studies, Hazards, Solutions. 2004. V. 10. P. 48 [In collaboration: Koskin S.S., S.A.O.] (in Rus.). Know-how in management of scientific research, programs and institutions under shortage of financial support: positive experience of mobilization of efficient approaches (=Know-how в области менеджмента научными исследованиями, программами и учреждениями в условиях дефицита финансирования: позитивный опыт мобилизации эффективных подходов) // Ecological Studies, Hazards, Solutions. 2004. V. 10. P. 70 (in Rus.). Hydrobiological factors of stability, safety, sustainable development and economic growth of Russian Federation (=Гидробиологические факторы стабильности, безопасности, устойчивого развития и экономического роста Российской Федерации // Ecol. Studies, Hazards, Solutions. 2004. V.10. P.71-74 (in Rus.). Education: concepts and experience. Improving education in ecology and hydrobiology (=Образование - концепции и опыт. Совершенствование образования в области экологии и гидробиологии) // ESHS. 2004. V.10. P.74-81 (in Rus.). Education: concepts and experience. 1. Developing textbooks and materials to teach hydrobiology, aquatic and general ecology, and adjacent disciplines (=Разработка учебных пособий и материалов для преподавания гидробиологии, водной и общей экологии, смежных дисциплин) // ESHS. 2004. V. 10. P. 74-75 (in Rus.). Education: concepts and experience. 2. Co-creation as an element of the educational process (=Сотворчество как элемент процесса обучения) // Ecological Studies, Hazards, Solutions. 2004. V. 10. P. 75-76 (in Rus.). Education: concepts and experience. 3. Co-comprehension as an element of the educational process (=Сопостижение как элемент процесса обучения) // Ecological Studies, Hazards, Solutions. 2004. V. 10. P. 77-79 (in Rus.). Education: concepts and experience. 4. Reasons for teaching ecology to students of the humanities (=Целесообразность преподавания экологии студентам гуманитарного профиля) // Ecol. Studies, Hazards, Solutions. 2004. V.10. P.79-80 (in Rus.). Education: concepts and experience. 5. Innovative, motivating and creative elements in the author's course of ecology for students in the humanities (=Инновационные, мотивирующие и творческие элементы в авторском курсе экологии для студентов гуманитарной специальности) // ESHS. 2004. V. 10. P. 80-81 (in Rus.). Contribution of molluscs to production of dissolved and suspended organic matter. Data on excretion by molluscs of organic matter to water (Вклад моллюсков в образование растворенного и взвешенного органического вещества. Некоторые данные о выделении моллюсками органических веществ в воду) // Ecological Studies, Hazards, Solutions. 2004. V. 10. P. 81-84. [In collaboration: S.A.O., Gorshkova О.М.] (in Rus.). Freshwater molluscs decrease the concentration of bacteria Escherichia coli in water (Пресноводные моллюски снижают концентрацию бактерий Escherichia coli в воде) // ESHS. 2004. V. 10. P.84-86. [In collaboration: S.A.O., Cherdyntseva T.A.] (in Rus.). Ecology and hydrobiology. Research, innovations, education, applications (=Экология и гидробиология. Исследования, инновации, образование, приложения) // Ecol. Studies, Hazards, Solutions. 2004. V. 10. P. 106-131 (in Rus.). Ecology and hydrobiology. 1. Modernization of concepts: ecosystem, anthropogenic effects, self-purification of water, conservation of water quality and protection of living nature (=Модернизация концепций: экосистема, антропогенные воздействия, самоочищение воды, сохранение качества воды и охрана живой природы) // Ecological Studies, Hazards, Solutions. 2004. V. 10. P. 107-109 (in Rus.). Ecology and hydrobiology. 2. New data on the effects of xenobiotics on the filtering activity of aquatic organisms. Heptane inhibits water filtration by Mytilus galloprovincialis (=Новые факты о действии ксенобиотиков на фильтрационную активность гидробионтов. Гептан ингибирует фильтрацию воды Mytilus galloprovincialis) // Ecol. Studies, Hazards, Solutions. 2004. V.10. P. 109-112 (in Rus.). Ecology and hydrobiology. 3. Across-level realization of anthropogenic effects as a new special type of man-made impact on the biosphere: facts and the general concept (=Трансуровневая реализация антропогенных воздействий на биоту как особый новый тип антропогенных воздействий на биосферу: факты и концепция) // Ecol. Studies, Hazards, Solutions. 2004. V. 10. P. 112-113 (in Rus.). Ecology and hydrobiology. 4. Role of studies and protection of aquatic ecosystems for prophylaxis of bioterrorism and countering the hazards of terrorism (=Роль исследований и сохранения водных экосистем для профилактики биотерроризма и борьбы с угрозой терроризма) // ESHS. 2004.10:113-114 (in Rus.). Ecology and Hydrobiology. 5. Approaches to monetary evaluations of the price of water and the water-purifying function of aquatic ecosystems (=Поиск подходов к экономической оценке стоимости воды и стоимости водоочищающей функции водных экосистем) // ESHS. 2004. V. 10. P. 114-115 (in Rus.). Ecology and Hydrobiology. 6. On studies of the effects of oil hydrocarbons on Mytilus galloprovincialis (=К изучению действия газойля на Mytilus galloprovincialis) // ESHS. 2004. V. 10. P. 115-118 (in Rus.). Ecology and Hydrobiology. 7. Ecological role of the factor of novelty of situation, and new scientific disciplines, ecological semiotics and neology (=Экологическое значение фактора новизны обстановки и новые научные дисциплины – экологическая семиотика и неология) // Ecological Studies, Hazards, Solutions. 2004. V. 10. P. 118-120 (in Rus.). Ecology and Hydrobiology. 8. Mechanism of water self-purification and the formation of water quality. Six empirical generalizations and principles (=Механизм самоочищения воды и формирования ее качества. Шесть эмпирических обобщений и принципов) // ESHS. 2004. V. 10. P. 120-121 (in Rus.). Ecology and Hydrobiology. 9. Teaching of V.I. Vernadsky on the biosphere and new fundamental concepts (=Учение В.И. Вернадского о биосфере и новые фундаментальные концепции) // ESHS. 2004. V. 10. P. 122-124 (in Rus.). Ecology and Hydrobiology. 10. On improving teaching hydrobiology and ecology as exemplified by the Department of hydrobiology of the Faculty of biology of Moscow University [=О совершенствовании преподавания вопросов гидробиологии и экологии (на примере кафедры гидробиологии биологического факультета МГУ)] // Ecol.Studies, Hazards, Solutions. 2004. V.10. P.124-125 (in Rus.). Ecology and Hydrobiology. 11. New scientific discipline, biochemical human ecology. Some concepts and applications (=Новая научная дисциплина, биохимическая экология человека. Некоторые концепции и приложения) // Ecological Studies, Hazards, Solutions. 2004. V. 10. P. 126-129 (in Rus.). Ecology and Hydrobiology. 12. Some controversial and priority issues and prospective points for further growth in ecology and hydrobiology of future (=Некоторые дискуссионные и приоритетные проблемы и возможные точки роста экологии и гидробиологии будущего) // ESHS. 2004. V. 10. P. 130-131 (in Rus.). Developing the hydrobiological foundations and innovations to restore (rehabilitate) water bodies and streams [=Разработка гидробиологических основ и инноваций для восстановления (реабилитации) нарушенных водоемов и водотоков] // Ecological Studies, Hazards, Solutions. 2004. V. 10. P. 131-133 (in Rus.). Water ecology: science and education. New books (=Водная экология - наука и образование. Новые книги) // ESHS. 2004. V. 10. P. 135-136 (in Rus.). Filter-feeders as part of ecological biomachinery to purify water // XXIX Congress of International Association of Theoretical and Applied Limnology (SIL). Abstracts. Lahti (Finland) 2004. P. 239 [4 aspects of the role of filter-feeders in aquatic ecosystems] (in Eng.). Biotic factor in regulation of geochemical and geophysical processes // Abstracts of the international scientific conference of students, graduate students and young scientists 'Lomonosov-2004'. М.: Moscow University Press. 2004. V.1. P. 153-154. [In collaboration: Teplyakova M.L., S.A.O.]. Georgy Evgenievich Shulman – 75 // Water and Ecology (Вода и экология). 2004. No. 3. P. 75. Studies of biotic mechanisms of the formation of parameters of the biosphere // System of Planet Earth. Moscow. Publisher: Harmony of the Structure of Earth and Planets (Geological Faculty of Moscow University), 2004. p. 210-212. [In collaboration: S.A.O., Vorozhun I.M., Dallakyan G.A., Kartasheva N.V., Kolesnikov M.P., Kolotilova N.N., Krupina M.V., Kuznetzov E.A., Likhacheva N.E., Polyakova T.V., Revkova N.V., Romanova Z.A., Khodjaev M.N., Khromov V.M., Shidlovskaya N.A.]. The theory of the hydrobiological mechanism of water self-purification in water bodies: from theory to practice // Abstracts of Proceedings of the 4th International Iran and Russia Conference in Agriculture and Natural Resources. Shahrekord-Iran. Sept. 8-10, 2004. Eds S. Sadatinejad, Sh. Mohammadi, A. Soltani, A. Ranjbar. Shahrekord University, Moscow Timiryazev Agricultural Academy. P. 240 (in Eng.). See: http://iirc.narod.ru/4conference/Fullpaper/40037.pdf (Proceedings of The Fourth International Iran & Russia Conference p.1251 -1253. Bibliogr. 11 refs). Economy of expenses for water treatment on the basis of the natural mechanism of water self-purification // Eco-efficiency - 2004. International Exhibition and Forum. Moscow. 2004. P. 128-129. On the improvement of teaching of fundamental subjects in Moscow University (teaching ecology to students of humanitarian specialization) // International conference 'People and the Environment', 26-28 October, 2004, Moscow State University, October 25-28, 2004. P. 54-55. [In collaboration: S.A.O., Dontzov A.I. (=Dontsov A.I.)]. Improvement of the ecological monitoring: the discovery of the ability of surfactants to inhibit the functional activity of mollusks and the assessment of hazards of water pollution // The 6th All-Russia Hydrological Meeting (28 September – 1 October 2004, Petersburg). Abstracts of presentations. Section 4 'Ecological State of Water Objects. Water Quality and the Scientific Basis of its Protection. Petersburg. Gidrometizdat Press. 2004. P. 147-149. Bridging ecology and phytoremediation: phytoremediation potential of some aquatic and terrestrial plants // The 3rd International Phytotechnologies Conference, 2005 April 19-22, Atlanta, Georgia, p.150. Studying interactions between Elodea canadensis and sodium dodecyl sulphate // The 3rd International Phytotechnologies Conference, 2005 April 19-22, Atlanta, Georgia, p.153. [In collaboration: S.A.O., Manchenko E.A.]. Ecology // Science. Education. Innovations. 2005. 3: 7-10 [Curriculum of the lecture course]. Mechanisms of Interorganismal Interactions in Ecosystems // Science. Education. Innovations. 2005. 3: 10-13 [Curriculum of the lecture course]. Introduction to Biochemical Ecology // Science. Education. Innovations. 2005. 3: 13-17 [Curriculum of the lecture course]. Introduction to Biochemical Ecology of Human Nutrition and Drinking Water // Science. Education. Innovations. 2005. 3: 17-20 [Curriculum of the lecture course]. Quantitative and Theoretical Hydrobilogy // Science. Education. Innovations. 2005. 3: 20-25 [curriculum of the lecture course]. Self-Purification and Quality of Water // Science. Education. Innovations. 2005. 3: 25-28 [Curriculum of the lecture course]. Environmental Policy and Sustainable Development // Science. Education. Innovations. 2005. 3: 28-31 [Curriculum of the lecture course]. Environmental Problems and Sustainability // Science. Education. Innovations. 2005. 3: 32-34 [Curriculum of the lecture course, in English]. On the necessity of establishing hydrobiological and malacological reserves and protected areas to protect biodiversity and water quality in Moscow Region // Reports to the Moscow Society of Naturalists (Nature Explorers) [=Доклады Московского общества испытателей природы]. 2005. Vol. 36. Moscow (Publishers: Graficon-Print), P. 92-94. Chemical pollution inhibits the process of water filtering by Mytilus galloprovincialis // Marine Ecological Journal [= Mors'kij ekologicnij zurnal = Морской экологический журнал, IBSS NASU, Sevastopol, ISSN 1684-1557] 2005. vol. 4. № 1. С. 83. [Concentration of the oil was 8 microliters per 1 l of seawater. Some degree of inhibition of the filtration rate was also found in a series of similar experiments where the concentration of the oil suspension was 2 – 4 microliters per 1 l of the seawater; 26.4°C]. In English. http://repository.ibss.org.ua/dspace/bitstream/99011/198/1/zametka83.pdf Studies of the interactions among sodium dodecyl sulphate and Elodea сanadensis // International Conference «Issues of biodestruction of technogenic environmental pollutants» 14-16 September 2005. – Saratov. – P. 34-35. [In collaboration: Manchenko Е.А., S.A.O.]. On the 7th International conference [Aquatic Ecosystems and Organisms] dedicated to the 250th anniversary of Moscow University. – Hydrobiological Journal (Kiev). 2005. Vol. 41. No. 2. P.113. Plant ecology and phytoremediation: using potential of some aquatic and terrestrial plants to decontaminate environment // Abstracts. EURECO 2005. X European Ecological Congress, November 8-13, 2005, Kusadasi, Izmir, Turkey. META Press, Bornova/Izmir. 2005, p. 171. [In collaboration: S.A.O., S.C.McCutcheon, V.A.Nzengung, D.D.Yifru, E.A.Manchenko]. [Among the chemicals studied were components of explosives and rocket fuel as well as representatives of surfactants (sodium dodecylsulphate)]. Biological effects of chemicals that pollute aquatic ecosystems: interactions between sodium dodecylsulphate and Elodea canadensis // Abstracts. EURECO 2005. X European Ecological Congress, November 8-13, 2005, Kusadasi, Izmir, Turkey. META Press, Bornova/Izmir. 2005, p. 177. [In collaboration: S.A.O., E.A.Manchenko]. [The limits of the plant tolerance to SDS (sodium dodecylsulphate)]. Education in ecology and hydrobiology – a factor of sustainable development, stability and security // Ecology and Hydrobiology. Moscow. MAX Press. 2005. P. 5-6. Life between the order and chaos. Issues of the ecology of the future. – Space and Time: the Physical, the Psychological, the Mythological. Proceedings of the 4th international conference (Moscow, 27-28 May 2005). Cultural Center New Acropol. 2006. P. 134-145. Table. Bibliogr.18 refs. ["Ecology as nanobiotechnology of the biosphere" (p.142). Prognostication of key trends in ecology of future, esp. of 4 areas of ecology (p.143-144)]. Hydrobiological mechanisms of conditioning the space of the hydrosphere: the polyfunctional role of aquatic organisms. – Space and Time: the Physical, the Psychological, the Mythological. Proceedings of the 5th international conference (Moscow, 2-3 June 2006). Cultural Center New Acropol. 2006. P. 24-25. Bibliogr. 2 refs. [In collaboration: L. Yu. Аstakhova, I. М. Vorozhun, О. М. Gorshkova, N. Yu. Dnestrovskaya, V.А.Zimnyukov, М.P.П.Коlesnikov, N.N.Коlotilova, М.А.Кudryashov, S.МcCutcheon, S.А.Оstroumov, А.А.Soldatov, Е.А.Solomonova, V.L.Sheleikovsky]. Hydroecological mechanisms in the space of the hydrosphere: interconnection among the biota, dissolved organic matter, and nanoparticles of organic matter.– Space and Time: the Physical, the Psychological, the Mythological. Proceedings of the 5th international conference (Moscow, 2-3 June 2006). Cultural Center New Acropol. 2006. P. 25-26. [In collaboration: О.М.Gorshkova, А.P. Каpitsa, S.А.О., Е.А. Solomonova]. Anti-entropy processes in the space of aquatic ecosystems and ecological repair. – Space and Time: the Physical, the Psychological, the Mythological. Proceedings of the 5th international conference (Moscow, 2-3 June 2006). Cultural Center New Acropol. 2006. P.26. Bibliogr. 5 refs. [A common element is identified that takes place in processes of repair at both molecular and ecosystemic levels; the processes at the both levels (DNA repair and water quality repair) have a trend towards decreasing entropy]. Comparative assessment of the effects of cationic and anionic surfactants on cultures of unicellular algae Platymonas viridis. — Issues of Labor Safety and Technogenic and Ecological Security. Proceedings of the XI All-Ukrainian scientific and technological conference. Sevastopol, October 5-9, 2006. Sevastopol: SevNTU Press, 2006. P. 45-47. [In collaboration: Soldatov A.A., S.A.O.] Discovery of the ability of synthetic surfactants to decrease the filtering activity of mollusks. — Proceedings of the 9th Meeting of Hydrobiological Society associated with Russian Academy of Sciences, Togliatti, 18-22 September 2006, Vol. 2, P.74. Interaction of surfactant sodium dodecylsulphate with the macrophyte Potamogeton crispus L. — Proceedings of the 9th Meeting of Hydrobiological Society associated with Russian Academy of Sciences, Togliatti, 18-22 September 2006, Vol. 2, P.162. [In collaboration: E.A. Solomonova, S.A.O.] Seasonal effects on interaction of Elodea canadensis with a surfactant — Proceedings of the 9th Meeting of Hydrobiological Society associated with Russian Academy of Sciences, Togliatti, 18-22 September 2006, Vol. 2, P. 163. [In collaboration: E.A. Solomonova, S.A.O.] On books, collective monographs, and other new publications. [Including the book by V.I. Ipatova 'Adaptation of aquatic plants to stress abiotic factors of environment' and other books]. — Ecol. Studies, Hazards, Solutions, 2006, v. 11, с.197-199. Review of the book and program of lectures: A.P.Sadchikov, M.A.Kudryashov. Hydrobotany. М.: Academia. 2005. 240 p.; The Program of Lectures on Hydrobotany. М.: MAX-Press. 2004. 10 p. — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 198. Search for the adequate interpretation and modern definition of the concept of pheromone. — 4th International conference "Chemical Communication of Animals. Fundamental Issues". Moscow, 2006. Russian Academy of Sciences, A.N.Severtzov Institute of Ecology and Evolution. p.8. Bibliogr. 4 refs. [In collaboration: S.А.О., А.О.Каsumyan] [A new definition of 'pheromone', new concepts of ecological chemomediators and chemoeffectors]. Gliwicz, Z. M., M. Gophen, R. Gulati, D. Hamilton, B. Boss, S.A. Ostroumov, J. Padisak, B. Wehrli and G. E. Likens. 2006. Memoriam: Professor Robert G. Wetzel. In: Ecological Studies, Hazards, Solutions. 11:207. On the conference ‘Aquatic Ecosystems, Organisms, Innovations-7’ – Samarskaya Luka. 2006. No.17. p. 304-308. www.ievbran.ru/Print/Periodika/SL/Самарская%20Лука%20№%2017/PDF/ХРОНИКИ.pdf -. Polyfunctional mastering of understanding space of the biosphere and aquatic ecosystems: a poetic approach. – Space and Time. The 6th International Scientific Conference, May 25-26, 2007. Moscow, New Acropol Culture Center. p. 33-34. Bibliogr. 1 ref. On the principles of the use of organisms aiming at control and remediation of the aquatic environment. – Space and Time. The 6th International Scientific Conference, May 25-26, 2007. Moscow, New Acropol Culture Center. p. 34-35. Bibliogr. 4 refs. [In collaboration: S.A.O., E.I.Zubcov, S.V.Krivitsky, M.V.Krupina, A.A.Mikous, O.Munjiu, E.A.Solomonova, I.K.Toderash]. Studying the role of aquatic organisms in water self-purification and search for ecotechnologies of control, rehabilitation and remediation of aquatic systems // Lake Ecosystems: Biological Processes, Anthropogenic Transformation, Water Quality. Proceedings of the 3rd International Conference, 17-22 September, 2007. Minsk-Naroch, Belarus State University, Ed. T.M.Mikheeva. Minsk. Publishing Center of Minsk University, 2007. p. 32-33. [In collaboration: S.A.O., E.I.Zubcov, I.K.Toderash, A.Breahna, S.V.Krivitsky, M.V.Krupina, A.A.Mikous, O.V.Munjiu, N.Railean, S.N.Sidorenko, E.A.Solomonova, V.M.Khromov]. Chemical pollution of the environment. Lecture course curriculum. – Ecological Chemistry (Экол. химия). 2007, Vol. 16, No. 4, p. 254-259. In Rus. E.A.Romankevich. – Ecological Chemistry. 2007 vol. 16 (4), p.260 [anniversary of Prof. E.A.Romankevich] Ostroumov S.A., Danilova, V.N., Ermakov V.V., Kamnev A.N., Kolesov G.M., Kotelevtsev S.V., Krupina M.V., Orlov S.N., Sapozhnikov D. Yu., Sizov A.D., Tropin I.V., Khushvakhtova S.D. Study of accumulation of membranoactive and genotoxic metals in aquatic invertebrates: perspectives for the monitoring and remediation of new technologies. // Biogeochemistry in the national economy: fundamentals of noospheric technologies. Proceedings of the 6th International Biogeochemical School. 22-25 September 2008, Astrakhan. Publishers AGTU (Astrakhan State Technical University). Ed. VF Zaitsev. 2008. P.129-130. Bibliogr. 2 titles. Solomon, E.A., Lazareva E.V., Ostroumov S.A. Study of tolerance of macrophytes and accumulation of elements: the search for new phytotechnologies for water treatment // Biogeochemistry in the national economy: fundamentals of noospheric technologies. Proceedings of the 6th International Biogeochemical School. 22-25 September 2008, Astrakhan. Publishers AGTU (Astrakhan State Technical University). Ed. V.F. Zaitsev. 2008. P.97. [The authors investigated several species of macrophytes: Elodea canadensis Michx. (family Hydrocharitaceae), Potamogeton crispus L. (family Potamogetonaceae), Fontinalis antipyretica L. (family Fontinalaceae), macrophages OST-1, Salvinia natans L., S. auriculata Aubl. (family Salviniaceae) and others]. Ostroumov S.A., Toderas I.K., Zubkov E.I., Krupina M.V. On studying the role of mollusks in the biogeochemistry of aquatic systems and the biogenic migration of matter // Biogeochemistry in the national economy: fundamentals of noospheric technologies. Proceedings of the 6th International Biogeochemical School. 22-25 September 2008, Astrakhan. Publishers AGTU (Astrakhan State Technical University). Ed. V.F. Zaitsev. 2008. P.130-131. Bibliogr. 2 refs. From the text: "The biological processes in reservoirs and streams may change both concentration and the absolute amount of various chemical elements, including metals, in the water those ecosystems. Therefore, these processes are important and often decisive in shaping the quality of natural waters. Our aim is to identify the main patterns of migration of metals in aquatic ecosystems and to develop the theory of formation of the chemical composition of natural waters. Of particular importance are detailed studies of their accumulation in aquatic organisms depending on the set of physical, geographical, biological and anthropogenic factors. For disclosing the basic laws of accumulation of metals in aquatic molluscs we used both field and experimental methods. Research was conducted on some water bodies of the Moscow region, the basin of the River Prut and the River Nistru. Some elements were developed of the concept of environmental database on the role of bivalves in biogeochemical fluxes of elements (including metals) in aquatic ecosystems. These studies help to develop the theory of self-purification of water in aquatic ecosystems. Ecotechnological approach to treatment of water and water objects: experimental support of the innovation and prospective approach. – Proceedings of the conference ‘The Youth – to the Geosciences’ (March 25-27, 2008, Russian State Geological University, Moscow). M.: Economics Literature Press, 2008, 251 p. [Co-authors: Solomonova E.A., S.A.O.]. Ostroumov S. A., McCutcheon S. C., Yifru D., Nzengung V. Aquatic fate of perchlorate exposed to a phytoremediation system of Myriophyllum aquaticum // The 5th International Phytotechnology Conference (October 22-25, 2008, Nanjing, China). Accepted. Bibliogr. 5 refs. Ostroumov S.A., Demina L.L., Lazareva E.V., Ermakov V.V., Gorshkova O.M., Kolesov G.M., Kolotilova N.N., Krupina M.V., Poklonov V.A., Sheleikovsky V.L., Shestakova T.V., Soldatov A.A., Solomonova E.A., Toderas I.K., Tropin I.V., Vorozhun I.M., Zubcova E.I. Extending the scope of bioindicators of environmental pollutions: aquatic organisms including plants and filter-feeders. - 17th International Environmental Bioindicators Conference (Conference theme: Global Indicators) Moscow. 2009. p. 34. Bibliogr. 3 refs. Eds: Kotelevtsev S.V., Sadchikov A.P., Ostroumov S.A. Solomonova E.A., Kotelevtsev S.V., Ostroumov S.A. Studying aquatic macrophytes as prospective tools for the phytoremediation of water systems polluted with surfactants and detergents // The 5th International Phytotechnology Conference (October 22-25, 2008, Nanjing, China). Accepted. Bibliogr. 5 refs. Review of the book: Ivanter E.V., Medvedev N.V. Ecological toxicology of the natural populations of birds and mammals of the North. Moscow, Nauka Press. 2007. 229 p. – Toxicological Review. 2009. No. 2.p. 40-41 ( = Рец. на книгу: Ивантер Э.В., Медведев Н.В. Экологическая токсикология природных популяций птиц и млекопитающих Севера. М., Наука. 2007. 229 с. // Токсикологический вестник . 2009. № 2. с. 40-41). The 10th International Conference "Ecosystems, Organisms, Innovations-10" [Chronicle] // Biologiya Morya (Russian Journal of Marine Biology = Биология моря), 2009, Vol. 35, No. 4, p. 310-311. ISSN Print: 1063-0740; ISSN Online: 1608-3377. Role of ecological chemomediators in net interactions among organisms // Life Sciences and Education. Fundamental Issues of Integration. Proceedings of All-Russia conference (Moscow, 2-4 February, 2009) Moscow, MAX-Press. 2009. (ISBN 978-5-317-02703-2). p.325-328. [A new definition of the term ‘pheromones”. New concepts of ecological chemomediators and ecological chemoregulators.] Bibliogr. 6 refs. Moscow Society of Naturalists (MOIP). – 17th International Environmental Bioindicators Conference (Conference theme: Global Indicators) Moscow. 2009. p.98-99. [Proceedings] [co-authors: Sadchikov A.P., Kotelevtsev S.V., Ostroumov S.A.] In English. Ostroumov S.A. Modernizing education in environmental science and ecology. - Contemporary Issues of Communication and Culture. Vol. 9. 2009. p.15-19. (Moscow, Piatigorsk, State Linguistic University, ISBN 5-89966-562-5). In English. The paper is a part of the international collection of scientific works of Russian and foreign scientists «Contemporary problems(‘Actualnye problemy’) of communication and culture – 9», issue 9. The volume is associated with the 35th anniversary of the Fulbright Program in Russia. The 509-page book contains the contributions of the participants of the V Conference of graduates of Fulbright Program (23 - 24 March 2009). The paper contains the lists of universities that use as teaching aids the books authored and coauthored by S.A.Ostroumov: ‘Introduction to Biochemical Ecology’ (the 9-item list), ‘Introduction to Problems of Biochemical Ecology’ (the 12-item list), ‘Conservation of Living Nature’ (the 9-item list), and ‘Levels of Conservation of Living Nature’ (the 7-item list). Bibliography in English. Part 3. Editorship Edited: Recommendations on Administering the Exam on the Course 'Nature Conservation'. Ivanovo. Ivanovo State University. 1984. 48 p. (editor: S.A.O.) Recommendations for Preparing and Conducting Discussions on the Issues of Nature Conservation (active forms of education). Ivanovo, Ivanovo Univ. Press, 1985, 48 p. Аnisimov Е.Е., Ostroumov S.A. (Eds). Bulletin of UNESCO MAB and Acad. Sci., "Man and the Biosphere. Series 4. Anthropogenic Effects in Ecology of Animals" [Проблемы антропогенных воздействий в экологии наземных животных]. Annually 1982 - 1991, 6 issues per year. Each issue ca. 76 pages. Аnisimov Е.Е., Ostroumov S.A., Shchipanov N.А. (Е.Е.Анисимов, С.А.О., Н.А.Щипанов), (Eds). Bulletin of UNESCO MAB and Acad. Sci., "Man and the Biosphere. Series 4. Ecological Aspects of Anthropogenic Impact on Terrestial Animals" [Проблемы антропогенных воздействий в экологии наземных животных]. Moscow. The Library of Natural Sciences of the Russian Academy of Sciences. 1992. No. 1-2. P.1-76. (ред.). Aquatic Ecosystems and Organisms - 1 (Proceedings of the international conference). Мoscow: MAX-Press. 1999. Aquatic Ecosystems and Organisms - 2 (Proceedings of the international conference). Мoscow: MAX-Press. 2000. (Ecological Studies, Hazards, Solutions, 2000, v. 3), 100 p. ISBN 5-317-00071-8. Aquatic Ecosystems and Organisms - 3 (Proceedings of the international conference). Мoscow: MAX-Press. 2001. (Ecological Studies, Hazards, Solutions, 2001, v. 5), 140 p. ISBN 5-317-00353-9. Ostroumov S.A., S. McCutcheon, Steinberg C. (Editors) Ecological processes and Ecosystems: Functioning towards Water Purification. 2002. Dordrecht, Boston, London: Kluwer Press. (Hydrobiologia, vol. 469). 204 p. Aquatic Ecosystems and Organisms - 4 (Proceedings of the international conference). Мoscow: MAX-Press. 152 p. Aquatic Ecosystems and Organisms - 5 (Proceedings of the international conference). Мoscow: MAX-Press. 2004. (Ecological Studies, Hazards, Solutions, 2004, v. 7), 176 p. ISBN 5-317-00994-4. Aquatic Ecosystems and Organisms - 6 (Proceedings of the 6th international conference). Мoscow: MAX-Press. 2004. (Ecological Studies, Hazards, Solutions, 2004, v. 10), 156 p. ISBN 5-317-01175-2. Ecological Studies, Hazards, Solutions, 2006, v. 11, 208 p. Ecological Studies, Hazards, Solutions, 2007, v. 12, 224 p. Editor: Solomonova E.A. Studies of the Tolerance of Macrophytes to Surfactants as a Contribution to the Scientific Basis of Phytotechnology. Мoscow: MAX Press. 2007, 40 p. (in Russ., with Eng. abstract). Co-Editor: [Collective monograph] Issues of Ecology and Hydrobiology / Editors I.K.Toderas, S.A.Ostroumov, E.I.Zubcova. Moscow, MAX Press. 2008. - 80 p. ISBN 978-5-317-02224-2. [=Проблемы экологии и гидробиологии / ред. И.К. Тодераш, С.А. Остроумов, Е.И. Зубкова. Москва, МАКС пресс. 2008] The collective monograph contains publications of the international team of authors on issues of ecology, biogeochemistry, water quality, and environmental monitoring. The main part of the book is formed by the innovative materials on the role of aquatic organisms in water self-purification and biogenic migration of elements. The role of aquatic mollusks in the biogenic migration of metals is given special attention. The organisms that were studied included several species of organisms inhabiting freshwater and marine environments. Among those species were mollusks Unio pictorum, zebra mussel Dreissena polymorpha, marine mussel Mytilus galloprovincialis and some other organisms. One of the papers contributes to developing new ecological technologies to treat polluted waters using aquatic vegetation (macrophytes, plants), for instance, elodea Elodea canadensis, Potamogeton crispus and other species. The collective monograph was initiated and organized by Dr. S.A. Ostroumov as a step toward contributing to the scientific basis of environmental safety and sustainability. The book was published under the aegis of Moscow State University and the Moscow Society of Researchers of Nature (MOIP), the oldest public society in Russia. Editorship: ‘Ecology: Innovations in Science and Education’. Moscow. MAX Press. 2009. (Ecological Studies, Hazards, Solutions, v. 13), 192 p. [Including proceedings of the 9th Intl Conference “Ecosystems, Organisms, Innovations-9’ and other materials]. (Co-editors: S.A.O., O.M.Gorshkova). Editorship: ‘Ecology: Innovations’. Moscow. Max Press. 2009 (Ecological Studies, Hazards, Solutions, 2009, v. 14, 88 p.) [Including the proceedings of the 10th Intl Conference “Ecosystems, Organisms, Innovations-10’, and other materials]. (Co-editors: S.A.Ostroumov, S.V.Kotelevtsev, O.M.Gorshkova). External Reviewing (the name of the reviewer was published): Problems of Geochemical Ecology, Diagnosis of Microelementhoses and their Correction. Presentations at the Russian-Japan Workshop. Moscow, October 10, 2005 / Ed. V.V.Ermakov / Lab. of Biogeochemistry, Institute of Geochemistry, Russ. Acad. Sci., Tohoku Fukushi University, Kansei Fukushi Research Center, Jumonji-Gakuen University. Мoscow: Nauka. 2005. 230 p. ISBN 5-02-034469-9. Reviewer: Gorshkova, O.M., Krasnushkin A.V., Potapov A.A. et al. The Laboratory Methods for Studying and Monitoring the Environment. M.: Geographical Faculty, Moscow State University, 2008. 180 pp. Membership, Editorial Boards: The Journal of Biospheric Science (Co-Editor, with another Co-Editor: Prof. M.A.S. McMenamin, www.earthscape.org/rmain/rsites/jbs.html) 1999; Ekologija (a journal that is being published by the Academy of Sciences, Lithuania) 2002; Editorial review board for the book: Phytoremediation: Transformation and Control of Contaminants. Editors: Steven C. McCutcheon (U.S. Environmental Protection Agency, National Exposure Research Laboratory, Athens, Georgia), Jerald L. Schnoor (The University of Iowa, Iowa City, Iowa) 2003; Hydrobiologia (Springer/Kluwer Press, Netherlands) 2003-2005; Ecological Studies, Hazards, Solutions, since 1999; Editor-in-Chief; Environment Ecology and Safety of Life Activity (Ukraine), since 2004; Samarskaya Luka (Russia), since 2004; Water and Ecology (Russia), since 2004; Science. Education. Innovations, since 2005; International Journal of Phytoremediation (U.S.A.), since 2005; International Journal of Oceans and Oceanography (IJOO, India), since 2005; Aquatic Ecosystem Health & Management" (AEHM, Canada), since 2006; Problems of Biogeochemistry and Geochemical Ecology (Kazakhstan), since 2006; Water: Technology and Ecology (Russia), since 2007; Ecological Chemistry (Russia), since 2007; Ecologica (Serbia), since 2007 (November). Bulletin of the Academy of Sciences of Moldova. Life Sciences [=«Известия АН Молдовы. Науки о жизни» (in Moldovian language, “Buletinul Academiei de Stiinte a Moldovei. Stiintele Vientii”)] since January 2009. Member of the Editorial Review Board of the book: Phytoremediation: Transformation and Control of Contaminants. Editors: Steven C. McCutcheon (U.S. Environmental Protection Agency, National Exposure Research Laboratory, Athens, Georgia), and Jerald L. Schnoor (The University of Iowa, Iowa City, Iowa), Wiley-Interscience, Hoboken, New Jersey, 2003, 988 p.; Member of the Editorial Advisory Board of the volume of the proceedings of the international conference 'Environment and Sustainable Development' (23-25 April, 2007, Beograd); Member of the Editorial Advisory Board of the volume of the proceedings of the international conference 'Environment Today' (21-23 April, 2008, Beograd); Bibliography in English. Part 4. Materials for teaching and educational excellence Recommendations on administering the exam on the course 'Nature Conservation'. Ivanovo. Ivanovo State University. 1984. 48 p. (Editor: S.A.O.). Recommendations for preparing and conducting discussions on the issues of nature conservation (active forms of education). (Editor S.A.O.). Ivanovo, Ivanovo University Press, 1985, 48 p. Using aquatic organisms research to educate undergraduates in Moscow State University, Russia // Limnology and Oceanography: Navigating into the Next Century. Abstracts. ASLO 1999 Aquatic Sciences Meeting, February 1-5, 1999, Santa Fe, New Mexico. ASLO Business Office, Waco, Texas. P.134. Aquatic ecosystems and organisms: teaching philosophy at the department of hydrobiology – working towards professional excellence in aquatic and system ecology. Advancing fundamental science and its applications // Ecological Studies, Hazards, Solutions. 2000. Vol. 3. P. 96. [Изложены основные концепции и предметы, составляющие основу подготовки специалистов на кафедре гидробиологии биологического факультета МГУ]. Program of the lecture course. Introduction to Biochemical Ecology // Ecological Studies, Hazards, Solutions, 2001. 5: 122-124. Bibliogr. 11 refs. Program of the lecture course. Ecology of Water Self-Purification // Ecological Studies, Hazards, Solutions, 2001. 5: 124-125. Bibliogr. 13 refs. Program of the lecture course. Ecology // Ecological Studies, Hazards, Solutions, 2001. 5: 126-129. Bibliogr. 38 refs. Syllabus of a new lecture course 'Introduction to Biochemical Ecology' // Syllabuses of Lecture Courses (Programmi spetzkursov). Moscow: Moscow State University. 2002. P.123-125 [the new innovative course developed]. Syllabus of a new lecture course 'Mechanisms of Interactions of Organisms in Ecosystems' // Syllabuses of Lecture Courses (Programmi spetskursov). M.: Moscow State University. 2002. P.120-122 [the new innovative course developed]. Syllabus of a new lecture course 'Ecology of Water Self-purification' // Syllabuses of Lecture Courses (Programmi spetskursov). Moscow: Moscow State University. 2002. P.126-127 [the new innovative course developed]. Course curriculum 'Environmental Problems and Sustainability' // Ecol. Studies, Hazards, Solutions, 2003, vol. 6. P.37-40. In the electronic form: http://www.ceu.hu/crc/Syllabi/alumni/envsci/ostroumov.html On the improvement of teaching of fundamental subjects in Moscow University (the example of teaching ecology to the students of humanitarian specialization) // International conference “People and the Environment”, 26-28 October, 2004, Moscow State University, October 25-28, 2004. P. 54-55. [In collaboration: S.A.O., Dontzov A.I.] [textbook] Ochrana Zive Prirody: Problemy a Perspectivy. Praha. Academia. 1991. 345 p. 35 figures, 35 tables, 29 photographs. Bibliography on pages 229-307. Preface by Dr. Jaromir Pospisil (p. 5-8); ISBN 80-200-0021-6 (in Czech; the book was recommended as a textbook for universities). [In collaboration: Jablokov A.V., S.A.O.]. [textbook] Ostroumow S. A. Wprowadzenie do ekologii biochemicznej. [=Introduction to Biochemical Ecology] Warszawa: Wydaw. Naukowe PWN [= PWN Press], 1992. 205 pages [translated from Russian by J. Kurylowicz = tł. z jęz. ros. Jerzy Kuryłowicz] ISBN-13: 9788301104542. ISBN-10: 8301104546. Format: 20,5/14,5 cm. Gewicht: 250 g. [in Polish language; the book is recommended and used at several Polish universities, including: The Technical University of Lodz (Politechnika Łódzka); The Jan Kochanowski University of Humanities and Sciences in Kielce; University of Wrocław; University in Bialymstok (Uniwersytet w Bialymstoku); University in Opole (Wydział Przyrodniczo – Techniczny Uniwersytetu Opolskiego); Akademia im. Jana Długosza, Instytut Chemii i Ochrony Środowiska, Częstochowa; Uniwersytet Kardynala Stefana Wyszynskiego, Warsaw; and other universities]. [textbook] Pollution, Self-purification and Restoration of Aquatic Ecosystems). М.: МAX Press. 2005. 100 p. Glossary. Extended English abstract (p. 57-62), a note about the author in English (p. 97). ISBN 5-317-01213-9. Awarded Diploma of Winner at the Contest organized by Moscow Society of Researchers of Nature (MOIP). [teaching aid] Ecology and Hydrobiology. Curricula of Lecture Courses. Moscow. MAX Press. 2005. VI + 36 p. The collection of curricula of 8 lecture courses including: (1) Ecology; (2) Mechanisms of Interorganismal Interactions in Ecosystems; (3) General Biochemical Ecology; (4) Introduction to Biochemical Ecology of Drinking Water and Human Nutrition; (5) Quantitative and Theoretical Hydrobiology; (6) Water Self-Purification and Water Quality; (7) Environmental Policy and Sustainable Development; (8) Environmental Problems and Sustainability: New Course Curriculum (in English). The course on ecology is a classical cource, the other courses are completely innovative. Of interest to professors and students in various fields of ecology, life science, environmental science, limnology, medicine, sciences on the biosphere, protection, and sustainable use of biological, aquatic biological and water resources. [Teaching aid]: The Biological Control of the Environment: Bioindication and Biotesting / Eds. O.P. Melekhova, E.I. Egorova. Moscow: Publishing Center «Academy» 2007, 288 pp. ISBN 978-5-7695-3560-4. [Co-authors: O.P. Melekhova, E.I. Egorova, T.I. Evseev, V.M. Glaser, S.A.Geras'kin, Yu.K. Doronin, A.A. Kitashova, A.V. Kitashov, Y.P. Kozlov, I.A. Kondratyeva, G.V. Kossova, S.V. Kotelevtsev, D.N. Matorin, S.A.O., S.I. Pogosyan, A.V. Smurov, G. N. Solovykh, A.L. Stepanov, N.A. Tushmalova, L.V. Tsatsenko]. Allowed by the Ministry of Education and Science of Russian Federation as a teaching aid for students enrolled in the educational direction "Biology" and biological disciplines. [Teaching aid]: The biological control of the environment: bioindication and biotesting, 2nd edition. / Ed. O.P. Melekhova, E.I. Sarapultzeva. Moscow: Publishing Center «Academy» 2007, 288 pp. ISBN 978-5-7695-5594-7. 60 × 90/16. [Co-authors: O.P. Melekhova, E.I. Sarapultzeva, T.I. Evseev, V.M. Glaser, S.A.Geras'kin, Yu.K. Doronin, A.A. Kitashova, A.V. Kitashov, Y.P. Kozlov, I.A. Kondratyeva, 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. Tsatsenko]. Allowed by the Ministry of Education and Science of Russian Federation as a teaching aid for students enrolled in the educational direction "Biology" and biological disciplines. [material for a lecture]. Ostroumov S.A. Chemico-Biotic Interactions and the New in the Teaching on the Biosphere by V.I.Vernadsky. Moscow, 2009, MAX-Press. – 52 p. Bibliogr. 77 refs. Editor: Academician G.V.Dobrovolsky (Series: Science. Education. Innovations. Issue 10). ISBN 978-5-317-03005-6. The brochure is a material for the lecture. The author was invited to lecture at the All-Russia Conference with the elements of a scientific school "Ecotoxicology-2009". Conference is organized by the Scientific-Educational Center "Ecobiotechnology" of Tula State University at the Institute of Biochemistry and Physiology of Microorganisms, RAN, 26 - 30 October 2009, Pushchino. The aim of this work - to summarize and systematize the publications of the author which are related to the topic of the lecture. It contains the results of the author's works in the period 1985-2009. The results and bibliography are summarized in the tables: 1. Accumulation of elements in organisms and their role in biogeochemical fluxes of elements; 2. Effects of xenobiotics and pollutants on higher plants; 3. The impact of chemicals on algae; 4. The impact of xenobiotics on molluscs and some plankton organisms which are filter feeders; 5.Investigations of the role of aquatic plants in relation to phytotechnologies and phytoremediation; 6. Conceptual developments of fundamentals of general ecology and the state of the biosphere. Among the new fundamental concepts introduced by the author: the biosphere as an ecological-biochemical continuum (p.43), theory of apparatus of the biosphere (p.43-44). Education in ecology and hydrobiology – a factor of sustainable development, stability and security // Ecology and Hydrobiology. Moscow. MAX Press. 2005. P. 5-6. Ecology // Science. Education. Innovations. 2005. 3: 7-10 [curriculum of the lecture course]. Mechanisms of Interorganismal Interactions in Ecosystems // Science. Education. Innovations. 2005. 3: 10-13 [curriculum of the lecture course]. Introduction to Biochemical Ecology // Science. Education. Innovations. 2005. 3: 13-17 [curriculum of the lecture course]. Introduction to Biochemical Ecology of Human Nutrition and Drinking Water // Science. Education. Innovations. 2005. 3: 17-20 [curriculum of the lecture course]. Quantitative and Theoretical Hydrobilogy // Science. Education. Innovations. 2005. 3: 20-25 [curriculum of the lecture course]. Self-Purification and Quality of Water // Science. Education. Innovations. 2005. 3: 25-28 [curriculum of the lecture course]. Environmental Policy and Sustainable Development // Science. Education. Innovations. 2005. 3: 28-31 [curriculum of the lecture course]. Environmental Problems and Sustainability // Science. Education. Innovations. 2005. 3: 32-34 [curriculum of the lecture course, in English]. [teaching aid]: From Ecology to Health: in Search of Recommendations on the Basis of Biochemical Human Ecology. Мoscow: MAX Press, 2006. 32 p. 11 Tables. Bibliogr. 34 refs. Educational materials. 1. Ecology, hydrobiology and the issues of sustainable development. Innovative educational programs and curricula.— Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 161-187. Ecology. Program and concept of the lecture course (3rd edn). — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 165-168. Bibliogr. p.167-168. Mechanisms of interactions among organisms in ecosystems. Program and concept of the lecture course (3rd edn). — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 168-170. Bibliogr. p. 170. Introduction to Biochemical Ecology. Program and concept of the lecture course (4th edn). — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 170-172. Bibliogr. p.172. Introduction to Biochemical Ecology of Human Nutrition and Drinking Water. Program and concept of the lecture course (2nd edn). — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 172-175. Bibliogr. p. 174-175. Quantitative and theoretical hydrobiology. Selected issues. Program and concept of the lecture course (3nd edn). — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 175-178. Bibliogr. p. 178. Water Self-purification. Program and concept of the lecture course (4th edn). — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 178-181. Bibliogr. 21 refs. Ecological policy and sustainable development. Program and concept of the lecture course (3rd edn). — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 181-182. Bibliogr. p. 182. Environmental problems and sustainability: new course curriculum (3rd edn, in English). - Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 182-185. Bibliogr. 23 refs. Ecological engineering: general and selected issues. Additional focus on water (towards developing the curriculum of a new course) (in English). — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 185-187. Bibliogr. 9 refs. Educational materials. 2. Innovative Educational Programs: lecture courses and seminars.— Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 187-197 [a collection of new educational programs]. Ecological security: a concept of the program of series of lectures and seminars. — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 188-190. Bibliogr. 23 refs. A concept of the program of a new series of lectures: quality of drinking water – applying approaches of hydrobiology and biochemical ecology.— Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 190-192. Bibliogr. 6 refs. Program of a new lecture course or seminar series entitled: 'Conceptualization of unsolved questions of ecology'. — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 192-194. Bibliogr. p. 193-194. Program of the series of lectures: Strengthening of innovative creativity – from mystery to psychotechnology. Application to stimulation of scientific creativity. — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 194-196. Bibliogr. 5 refs. Lecture course or seminar series: finance support of scientific research. Writing successful grant application (on the basis of practical experience). — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 196-197. Bibliogr. 3 refs. The problems of chemical pollution of biosphere. The programme of the lecture course. – Problems of Biogeochemistry and Geochemical Ecology. 2007, No.2 (4), p. 101-107. Introduction to Ecology. 2nd edn. Moscow: MAX Press. 2007, 64 p. [In collaboration: V.D.Fedorov, S.A.O.]. Chemical pollution of the environment. Lecture course curriculum. – Ecological Chemistry (Экол. химия). 2007, Vol. 16, No. 4, p. 254-259. In Rus. Examples of how the publications by S.A.Ostroumov are being used in education: publications are used in developing the courses: Petersburg University: 'Ecological Toxicology', 2006 (Department of Ecological Security and Sustainable Development of Regions, Faculty of Geography and Geoecology of Petersburg University) (in the curriculum, the book is used and recommended: Telitchenko, Ostroumov, 1990) (see: http://www.geo.pu.ru/ecobez/edu/programs/krylova2.htm; also, see: www.geo.pu.ru/ecobez/edu/programs/krylova.htm); Ivanovo State University: in the curriculum of the course 'Nature Conservation' (the lecturer, Dr. M.P. Shilov), since 1984, (in the curriculum, the book is used and recommended: Yablokov, Ostroumov, 1983). Moscow State University: 'Ecological Assessment of Landscapes', 2006 (Department of Physical Geography and Landscape Science, Faculty of Geography, Moscow State University; (in the curriculum, the book is used and recommended: Yablokov, Ostroumov, 1985); (see: http://landscapes.nm.ru/Prog_4_ecol_ocen.htm); Irkutsk State University: in the curriculum of the course 'Chemical Interactions in Living Nature' the book is used: S.A.O. 'Introduction to Biochemical Ecology'. (Source: Internet, November, 2005); Irkutsk State University: in the curriculum of the course 'Poisons, Alcohol' (Prof. D.I. Stom, Dept. of Hydrobiology and Zoology of Invertebrates) the book is used: M.M.Telitchenko, S.A.O. 'Introduction to Problems of Biochemical Ecology'. (Source: Internet, November, 2005); Vilnius University (Lithuania): in the curriculum of the course 'Chemical Ecology' (at the graduate studies towards Ph.D.) (Source: Internet, 2006); Bibliography in English. Part 5. Publications For Broader Impact, Popular Science Publications, and Interviews Introduction to science // Student Meridian. 1975. No.1. P.7-9 [about the scientific research conducted by students of Moscow University]. Entering your office [about the memorial library and museum-office of Academician I.G. Petrovsky, President of Moscow University]. 1977. Moscow University (newspaper). 18 February. (Cited in the book: "Все о Московском университете 1755-2001". Библиографический указатель. Мoscow. 2002. Moscow Univ. Press). [In collaboration: Ilyashenko Yu., S.A.O.] Bioenergetics of the cell // Future of Science. International Yearbook, Issue 7. Мoscow: Znanie, 1974. P. 152-163, portr. (the number of copies published: 98500). [In collaboration: Yasaitis A., S.A.O.] Bacteriorhodopsin, membranes and photosynthesis // Priroda (Nature). 1975. No.3. P. 58-64, portr. Conservation of Animal World. Moscow, Znanie Press. 1979. 64 p., tab. Bibliogr. 19 refs. [In collaboration: Yablokov A.V., S.A.O.]. [The Award received: The Honorary Diploma and Prize at the All-Union Competition for the Best Popular Science Books]. (Яблоков A.В., С.А.O. Охрана животного мира. М.: Знание. 1979) [работа удостоена Диплома на Всесоюзном конкурсе на лучшие произведения научно-популярной литературы]; Toward the theory of living nature conservation. // Man and Nature, 1982, 7: 7-64, portr. [In collaboration: A.V.Yablokov, S.A.O.]. (A.В.Яблоков, С.А.O. К теории охраны живой природы // Человек и природа. 1982. № 7. С.7-64, портр.); Weapons of plants [Biochemical ecology – a new scientific discipline] // Zinatne un Tohnika (Science and Technology, in Russian and Latvian, ISSN 0201-7857, Riga). 1983. No. 11 (280), P. 18-19, fig. [The new terms and concepts introduced: ecological chemoregulators, ecological chemomediators]. Biochemistry and Environmental Conservation: in Search for Regulators. Man and Nature, 1984, 4: 11-69, portr. [The new terms and concepts introduced: ecological chemoregulators, ecological chemomediators, biochemical ecology]; Problems of conservation of ecosystems: a conceptual analysis.- Man and Nature, 1984, 5: 3-15; Water conditioning in nature // S.O.K. (The abbreviation for the title of the Russian technical journal on conditioning and utilities 'Santekhnika. Otoplenie. Konditzionirovanie'). 2004. No. 8. P. 21-25. (in Rus.); «Self-cleaning» of water in nature. - Ecology and Life (= Ekologiya I Zhizn’ , Moscow, in Russ.). 2005. No. 7. 42-47 [It is the first popular article about the new modern hydroecological theory. Electronic text: www.ecolife.ru/news/content-7-2005e.shtml] Biological filters are an important part of the biosphere // Science in Russia. 2009. № 2. P. 30-36. Figures. Bibliogr. 1 ref. [ISSN 0869-7078]. TV appearance (National TV, Channel 4). 2003, December 5 (40 min, on bioregulation in the biosphere; award for the best scientific presentation received [together with others]). Interviews Published: Interview. The newspaper ‘Poisk’. 2003. No. 22. р. 16. Interview. The magazine ‘New Akropol’. 2003. No. 2 (33). p. 58-60, with the portr. http://www.manwb.ru/articles/science/natural_science/WaterEqu_ElBel/ Interview. ‘S.O.K.’ (abbreviation of the name of the technical journal on environmental engineering). 2005. No. 1. P. 15-17, with the portr. (Интервью журналу С.О.К. 2005. № 1. С. 15-17, portr. (photo) Interview: Visiting Professors Researching Water Quality // UGA Engineering (The Newsletter of the University of Georgia Faculty of Engineering) 2005 vol. 4. No. 2, p. 1-3. (in English). Interview. Ecology and Water, Newspaper "Moscow University" 2005. No. 1-2 (4106-4107) January. p.4. (interviewer: Elena Erova). Communication of scientific achievements to the broader audience using other mass media: 04 December 2003. Bioregulation of communities. All-Russia TV. 43 min. A. Gordon Program. http://www.ntv.ru/gordon/archive/20610/ 21 June 2006. Broadcasting: All-Russia program 'People's Radio'. Topic: Aquatic Ecosystems. 40 min. 25 July 2006. Broadcasting: The All-Russia Channel 'People's Radio'. Topic: Aquatic Resources, Ecosystems, Organisms: Application of the Scientific Achievements of Ecology and Hydrobiology. 45 min. 12.1.09. Broadcasting: The All-Russia Channel 'People's Radio'. Topic: Presentation of the new book «Aquatic Organisms in Water Self-Purification» (2008). Aquatic resources, ecosystems, organisms: new experiments on phytoremediation and application of the scientific achievements of ecology (60 min). Bibliography in English. Part 6. Comments in published editions, reviews; other forms of evaluation of publications and works The research, publications, and presentations by S. Ostroumov were mentioned and commented in the editions: Parnes T.L., Bagotsky S.V. Meeting dedicated to memory of Nikolai Ivanovich Vavilov. – Vestnik Moskovskogo Universiteta. Biology, Soil Science. 1968. No.2. p.125-127. [about the invited presentation given by S.A.O. on the main scientific achievements of Prof. N.I. Vavilov at the meeting at the Faculty of Biology and Soil Science of Moscow University, 27.11.1967 (among other invited speakers, Profs. M.V. Gorlenko, N.V. Timofeev-Resovsky, N.A. Bazilevskaya)]. Who's Who in the World, 24th Edition, 2007 (Publisher: Marquis Who's Who, 890 Mountain Ave, Suite 4, Box 5, New Providence NJ 07974, USA world@marquiswhoswho.com) [the biographies of 50,000 of the most accomplished men and women from around the globe and all fields of endeavor]. [about the author] - In: Bioenergetics of the Cell. — Future of Science. International Yearbook, Issue 7. Мoscow: Znanie, 1974. P. 152, portr. (The number of copies published: 98500). [on the author/соauthor] – In: "Conservation of Animal World: Problems and Prospects". Мoscow. Znanie Press. 1979, p. 2. [on the author/соauthor] – In: Man and Nature. 1982, No. 7, p. 8, portr. Newspaper "Moscow University" ("Московский университет") 27.9.1982 [on the series of the seminars on global ecology and environment that were organized by S.A.O.]. [on the author] – In: Man and Nature. 1984, No. 4, p.11, portr. M.M.Gordeyeva. The session of the USSR Academy of Sciences Scientific Council on the Issues in Biogeocoenology and Conservation of Nature. (Puschino-on-the Oka, Moscow Region, 6-8.4.1983). — Botanical Journal, 1985, V.70, No. 2, P. 292-294 [about the invited presentation made by S.A.O. on conservation biology]; [About the authors] — In the book: Opazvane na Zhivata Priroda (= Conservation of Living Nature). Zemizdat Press. Sofia] 1989, page 189. In Bulgarian language. Newspaper Večerník (Bratislava, Czechoslovakia), 1 March 1990 [announcing the lecture to be delivered by S.A.O. on chemical pollution of the environment on 5 March, 1990]. In Slovak language. U.S.A. Newspaper Press & Sun-Bulletin (Binghamton, New York), 1991, March 6, "Pollution a World Problem" (by Edie Lau, staff writer), portr. (about the lecture by S.A.O. at the State University of New York, the University Center at Binghamton, NY, March 6, 1991). Eco-Ethics International Union: EEIU Founders, Chapters and Chairpersons. Oldendorf/Luhe, International Ecology Institute. 1999. Page 1. In the book: Moscow University. Yearbook-2001. Moscow. Moscow University Press, 2002, p. 394-395. [On the dissertation (towards the degree of Doctor Science) of S.А.О. Detailed presentation of the main scientific discoveries and results presented in the dissertation, p. 394-395]. "Vestnik RAEN" (Bulletin of the Russian Academy of Natural Sciences) 2002. V.2. No. 3. p.65 (about the international conference Aquatic Ecosystems and Organisms - 4). History of the Department of Hydrobiology [История кафедры гидробиологии (в протоколах, документах и воспоминаниях)]. Moscow, Oikos Press, 2003. 144 p. (pages 53, 62, 63, 65, 66, 85). Newspaper "Izvestiya" 21.06.2003 [on a scientific paper that was authored by S.A.O. in DAN]. Averyanova V. The 5th International Conference "Aquatic Ecosystems and Organisms". Newspaper "Moscow University" No. 36 (4054) 2003 (October) p. 5. The Aquatic Ecologists of Year were mentioned: Profs. М.Е. Vinogradov, R. Wetzel, H. Dumont. In electronic form: [massmedia.msu.ru/newspaper/newspaper/4054/all/nauka.htm (about the 5th conference in 2003)]; "Priroda" (a journal of the Russian Academy of Sciences) 2003. No. 12. p. 76. Aquatic Ecosystems and Organisms - 4 (about the international conference). — Biology of Seas (a journal of the Russian Academy of Sciences). 2003. V.29. No.4. P.294 (in Russian). On the Fourth International Conference “Water Ecosystems and Organisms-4” - Russian Journal of Marine Biology, 2003, Volume 29, No. 4, p. 262-263. (in English) [Publisher: MAIK Nauka Interperiodica]. Newspaper "Moscow News" No. 48 (23-29. 12. 2003), р. 24. "Hydrobiological Journal". 2003. No. 5. p.119. [About the international conference "Aquatic Ecosystems and Organisms"]. Annals of Journal Articles (Letopis' Zhurnalnykh Statej). 2003. No. 50, p.50, item No. 98736 on the paper: S.A.O. Ecological concepts, ecosystem, biogeocoenosis, boundaries of ecosystems: the quest for new definitions. Vestnik Moskovskogo Universiteta. Ser. 16. Biology 2003. No. 3. P.43-50. Annals of Journal Articles (Letopis' Zhurnalnykh Statej). 2003. No. 51, p.40, item No. 100602 on the paper: Aquatic Ecosystems and Organisms - 4 (about the international conference) // Biology of Seas. 2003. V.29. No.4. С.294 . Newspaper "Moscow University " 2004, No. 19 (4080) May; p. 4. [About the 6th international conference 'Aquatic Ecosystems and Organisms''in 2004; the names of the finalists for the honorary title of Aquatic Ecologist of Year]; the electronic version: http://massmedia.msu.ru/newspaper/newspaper/4080/all/newsw.htm (with color photographs) "Vestnik RAEN" 2004. V. 4, No. 2, p.74. About the international conference 'Aquatic Ecosystems and Organisms – 6'; International Conference (Poster Session) "Water Ecosystems and Organisms-6". - Izvestia Samarskogo nauchnogo tsentra RAN (=Известия Самарского научного центра РАН. 2004. No. 2, p. 440-441. (Without coauthors)]. www.ssc.smr.ru/ftp/2003_2007/sod_2004_2.pdf Hydrobiology as a factor of economic growth (Гидробиология как фактор экономического роста) // "Мoscow University" No. 38 (4099) November 2004, p.3. (the book was mentioned: S.A.O. "Biotic mechanism of self-purification of freshwater and marine water", 2004). International Conference (poster session) "Aquatic Ecosystems and Organisms – 6" 18-19 May, 2004, Moscow. — Voda i Ekologiya (Water and Ecology), 2004, No. 2, p.80-82 [Chair of the Organizing Committee – S.A.O.; information is given on the awarding of the honorary title "Aquatic Ecologist of the Year" for 2003 – J. Likens, О.Kinne, A.F.Alimov (А.Ф.Алимов), D.S.Pavlov (Д.С.Павлов), V.D.Fedorov (В.Д.Федоров), V.D.Romanenko (В.Д.Романенко)]; Finnish newspaper 'Etelä-Suomen Sanomat' 2004, 10 August, page 5, the article 'Lenkkareilla Kuulemaan Vesitieteestä'; Scientific Bibliography [the list of publications by S.A.Ostroumov; reviews of the books authored by S.A.O.]. MAX Press. Moscow, 2004. 45 p. (Научная библиография [список публикаций С.А.О.; список опубликованных рецензий на его книги]. М.: МАКС Пресс, 2004, 45 с). ISBN 5-317-01106-X. [about the conference 'Aquatic Ecosystems and Organisms-6' and the presentation made by S.A.O.] Siberian Ecological Journal, 2004, No. 6, p. 933-935; [ = Siberian Journal of Ecology = Sibirskiy ekologicheskiy zhurnal; ISSN 0869-8619; http://www.sibran.ru/English/SECJE.HTM ] Ecology and Life. 2004. No. 6 (41) P.50. [about the conference 'Aquatic Ecosystems and Organisms-6' and the presentation made by S.A.O.; on the awarding of the honorary title "Aquatic Ecologist of the Year" for 2003 to Profs. G. Likens, О.Kinne, A.F.Alimov, D.S.Pavlov, V.D.Fedorov, V.D.Romanenko] [Гидробиология – экономика – экология // Экология и жизнь. 2004. № 6 (41) с.50. (упоминается доклад С.А.О. на 6-ой межд. конференции "Водн. экосистемы и организмы"; приведены имена ученых-лауреатов почетного звания "Водный эколог года" за 2003 г.)]; S. A. Ostroumov. 55th anniversary. - Ecology of Environment. 2004. No. 4 (22), p. 80 ["С.А.Остроумову – 55" // Экология окруж. среды и безопасность жизнедеятельности. 2004. №4 (22), с.80]; Sergei Andreevich Ostroumov // 80th anniversary of the Department of Hydrobiology [of Moscow University] (Moscow, KMK Press, 2004, 264 p.) pp. 155-156, portr. [80 лет кафедре гидробиологии / Ред. В.Д. Федоров. (М.: КМК Пресс. 2004. 264 с.), с. 155-156, портр.]. [about the author] Ostroumov Sergei Andreevich (in Ukrainian) // Environment Ecology and Safety of Life Activity (= Экология окружающей среды и безопасность жизнедеятельности = Экологiя довкiлля та безпека життєдiяльностi). 2004. No. 4 (22), P.81. [about the author] Ostroumov Sergei Andreevich (in Ukrainian) // Environment Ecology and Safety of Life Activity (= Экология окружающей среды и безопасность жизнедеятельности = Экологiя довкiлля та безпека життєдiяльностi). 2004. No. 6 (24), С.97. About the author. In the book: Biotic mechanism of self-purification of freshwater and marine water. Elements of theory and applicaitons. М.: MAX-Press. 2004, p.90. (in English) The conference 'Aquatic Ecosystems and Organisms-6' [The chair of the organizing committee was S.A.O.]. — Biology of Seas, 2005, v. 31, No. 1, p. 70-71 [mentioning the awarding of the honorary title 'Aquatic Ecologist of the Year, 2003' to Profs. J. Likens, О.Kinne, A.F.Alimov (А.Ф.Алимов), D.S.Pavlov (Д.С.Павлов), V.D.Fedorov (В.Д.Федоров), V.D.Romanenko (В.Д.Романенко)]; Scientific Bibliography [the list of publications by S.A.Ostroumov; reviews of the books authored by S.A. Ostroumov]. MAX Press. Moscow, 2005. 88 p. (Научная библиография [список публикаций С.А.О.; список опубликованных рецензий на его книги]. М.: МАКС Пресс, 2005, 88 с). Усл. печ. л. 5,5. ISBN 5-317-01377-1. Russian scientist to lecture at UGA [University of Georgia]. — Sunday Athens Banner Herald (Newspaper, Georgia, U.S.A.) 2005, March 6 [on the lecture of S.A.O.] Columns (Newspaper, Georgia, U.S.A.) 2005, March 7 [on the lecture of S.A.O. “Studying Biotic Processes Relevant to Water Quality: Towards Qualitative Theory of Aquatic Biomachinery”, University of Georgia, Athens] Aquatic Ecosystems, Organisms and Innovations [about the 7th international conference "Aquatic Ecosystems, Organisms, Innovations-7" 15.10.2005]. — Moscow University (newspaper published since 1756), No. 37 (4142) 2005 November, p.5 [mentioned: the research done by S.A.O. and his graduate student E.A. Manchenko, his book "Pollution, Self-Purification and Restoration of Aquatic Ecosystems", 2005; names of Aquatic Ecologists of Year 2004, Academician L.M.Sushchenya, Profs. L.P.Braginsky, W. Lampert]. About the author. — Science. Education. Innovations. 2005. V.3. P. 35-36. [on awarding the honorary title Aquatic Ecologist of Year 2002 Award, and Hutchinson Science Laureate Award (2005) to Robert Wetzel]. — SIL (The International Association of Theoretical and Applied Limnology) News. 2005. Vol. 46. P.2. [www.limnology.org]. Bulletin of Moscow Society of Natural Science Researchers (Bulletin of MOIP), Section of Geology [on the activities of the section of petrography, Chairman Academician A.A.Marakushev)]. 2005. V. 80, No. 5, P.57 [about the presentation made on 6.02.2005 by S.A.O.]. Mollusks accelerate the sedimentation of organic matter. — Priroda (Nature, Moscow). 2005. No. 12. p. 68 (about innovations in the S. A. Ostroumov's paper published in 'Vestnik Moskovskogo Universiteta. Ser. Biol.' 2005. Vol. 31. p. 24-33). Department of Hydrobiology. - In: Biological Faculty of M.V. Lomonosov Moscow State University. Moscow: KMK Press, 2005. p. 89 – 97 [on teaching and lecturing activity of S.A.O. – see p.95; on his research activity – see p.96]. On the 7th international conference dedicated to 250th anniversary of Moscow University // Hydrobiological Journal (Gidrobiologicheskiy Zhurnal). 2005. № 2, p.113. Ability of synthetic surfactants to decrease the filtering activity of bivalves (Diploma of Scientific Discovery No. 274). - Scientific Discoveries (Collection of short description of scientific discoveries – 2005) (Editor: O.L.Kuznetsov) Мoscow. The International Academy of Authors of Scientific Discoveries and Inventions. 2006. P. 5-8. Bibliogr. 7 refs. ISBN 5-87499-062-8 [about the scientific discovery made by S.A.O.]. Lyashchenko T. High technologies to protect ecosystems [the invited lecture by S.A.O. 'Search for ecotechmologies in combatting pollution of marine and freshwater aquatic systems' delivered as the 60th academic readings/address by distinguished scholars at I.M.Gubkin Russian State University of Oil and Gas on 18th May 2006]. – Poisk (newspaper of I.M.Gubkin Russian State University of Oil and Gas) 2006, June, No.11, p. 3, portr. Abakumov V.A. Development of some concepts and issues of ecology and hydrobiology. — Ecol. Studies, Haz., Sol., 2006, v. 11, p. 34-38. Bibliogr. 47 refs. [Comments on and summary of new results in S.A. Ostroumov's publications in 1986-2004]. 4th Biogeochemical School. – Problems of Biogeochemistry and Geochemical Ecology. 2006. № 1 (1). P. 199-212 [about 3 presentations made by S.A.O. – see pages 201 and 209]. Review: E.A.Kriksunov. The new developments in studying contemporary issues of ecology, hydrobiology, and environmental sciences. [A review of volume 11 of the series "Ecological Studies, Hazards, Solutions" (Moscow, Max Press, 2006, 208 p., ed. by S.A.O.)]. – Ecology of Environment and Life Safety. 2006, No. 6. p.93. Scientific and Educational Activity at the Department of Hydrobiology of Moscow State University. Moscow. MAX Press. 2006. 8 p. On the conference ‘Aquatic Ecosystems, Organisms, Innovations-7’ – Samarskaya Luka. 2006. No.17. p. 304-308. www.ievbran.ru/Print/Periodika/SL/Самарская%20Лука%20№%2017/PDF/ХРОНИКИ.pdf -. International conference 'Aquatic Ecosystems, Organisms, Innovations-8'. — Water of Russia ("Voda Rossii", a newspaper). 2006. No. 11. p.3. [The names are mentioned of the awardees of the honorary title of Aquatic Ecologist of the Year (2005): E.A.Kriksunov, J.Widdows, M.Munawar, M.Saad and the others]. 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. № 1 с. 63-68. Abstracts in Rus. and Eng. Bibliogr. 35 refs. (about the contributions made by S.A.O. to the theory of the biosphere, to improving education and teaching in biospheric sciences; on usefulness of the concepts and terms proposed by S.A.O.: ecological chemoregulators, ecological chemomediators, the biosphere as ecological-biochemical continuum; types of migration of the matter in the biosphere, including stochastic, vectorial, cyclic, and acyclic types of migration). 8th international conference 'Aquatic Ecosystems, Organisms, Innovations-8'. – Siberian Ecological Journal. 2007. No.1. p.137-139 [ = Siberian Journal of Ecology = Sibirskiy ekologicheskiy zhurnal; ISSN 0869-8619; http://www.sibran.ru/English/SECJE.HTM ] [on many of the presentations at the conference; names were given of the awardees of the honorary title of Aquatic Ecologist of the Year (2005): E.A.Kriksunov, T.I.Moiseenko, G. S. Rosenberg, Yu. P. Zaitzev, G. E. Shulman, J.Widdows, M.Munawar, M.Saad]. 8th international conference 'Aquatic Ecosystems, Organisms, Innovations-8'. - Water: Technology and Ecology. 2007. No.1. p. 69-79. [On many of the presentations at the conference including those by S.A.O.; the names were given of the awardees of the honorary title of Aquatic Ecologist of the Year (2005): E.A.Kriksunov, T.I.Moiseenko, G. S. Rosenberg, Yu. P. Zaitsev, G. E. Shulman, J.Widdows, M.Munawar, M.Saad]. 8th international conference 'Aquatic Ecosystems, Organisms, Innovations-8'. — Water Management of Russia [Ekaterinburg]. 2006. No. 6. p. 79-85. (in Rus.). [On the presentations at the conference including those by S.A.O.; the names were given of the awardees of the honorary title of Aquatic Ecologist of the Year (2005): E.A.Kriksunov, T.I.Moiseenko, G. S. Rosenberg, Yu. P. Zaitzev, G. E. Shulman, J.Widdows, M.Munawar, M.Saad]. 8th International conference "Aquatic Ecosystems, Organisms, Innovations-8".- "Ecological Chemistry" 2007, v. 16, issue 1, p. 61-66. Review of the series "Ecological Studies, Hazards, Solutions" (volumes 1-11).- "Ecological Chemistry" 2007, v. 16, issue 1, p. 67. About the author. In: Hydrobiological self-purification of water: from studies of biological mechanisms to search of ecotechnologies. Мoscow: Publishers «Oil and Gas» of the Gubkin Russian State University of Oil and Gaz, 2007, 52 p. 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. Bibliogr. 4 refs. A concise abstract: In the recent publication (S.A.O. Siberian Ecological Journal. 2006. № 3. p. 339-343) it was demonstrated that there are some fundamental analogies between the functioning of the system of repair of genetic material and the system of processes leading to water purification in ecosystems. The both systems exemplify some important anti-entropy processes. Therefore, the author of the paper (Sib. Ecol. J. 2006, No.3, p. 339-343) introduced a new fundamental concept of ecological repair. Biological mechanisms of water self-purification are in essence the mechanisms for ecological repair of water quality. [A note on the coauthor, S.A.O.]. In: Introduction to Ecology. 2-nd edn. MAX-Press. Moscow. 2007, p. 62. Toderash I. (Member of the Academy of Sciences of Moldova). On the 40th anniversary of S.A.Ostroumov's professional creative activity. – Buletinul Academiei de Stiinte a Moldovei. Stiintele Vientii (Bulletin of the Academy of Sciences of Moldova, Life Sciences; Известия Академии Наук Молдовы, серия "Науки о жизни"), 2007, No. 1 (301), p.186-190. Bibliogr. 18 refs. Dobrovolsky G.V. (Member, the Russian Academy of Sciences). 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. 2007, v.16(3), p.135–143. Bibliogr. 60 refs. [Among the fundamental concepts mentioned and supported in the article are the following concepts originally formulated by S.A.Ostroumov: ecological chemoregulators and ecological chemomediators, ecological-biochemical continuum of the biosphere, new definitions of ecosystem and biogenocoenosis, the new typology of migration of matter in the biosphere etc.]. Kapitsa A.P. (Member, Russian Academy of Sciences) Formulation of fundamental principles for foundation of the theory of the apparatus of the biosphere. – Environment Ecology and Safety of Life Activity (Kiev). 2007. No. 1 (37). P. 68-71. Bibliogr. 29 refs [the fundamental principles mentioned and supported in the article are the concepts that were originally formulated by S.A.Ostroumov, including the basics of a new scientific discipline, biochemical ecology, and the new concepts; his 28 publications comprise the lion share of the Bibliography of the paper that includes 29 refs.] In English. On the 40th anniversary of the professional creative activity of Sergei Andreevich Ostroumov. – Water Management of Russia. 2007. No 4, p.83-85, portr. Abakumov V.A. Innovative approaches to remediation and restoration of polluted aquatic systems. – Water: Technology and Ecology. 2007. No. 4. p. 69-73. Bibliogr. 23 refs. Abstracts in Russ. and Eng. p.84. [the paper by S.A.O. 'Problems of Biogeochemistry and Geochemical Ecology, 2007, 1(3): 83-97, is commented as a valuable and useful contribution to the scientific basis for restoration, remediation and rehabilitation of polluted aquatic systems: "In this…valuable and useful study some theoretical and methodological basics of the use of aquatic organisms (hydrobionts) [macrophytes and invertebrates] for purposes of remediation of polluted aquatic organisms" (p. 69)]. Kapitsa A.P. Establishing the fundamental principles for the theory of the apparatus of the biosphere. – Problems of Biogeochemistry and Geochemical Ecology. 2007, No. 2 (4), 1-4. Bibliogr. 35 refs. (in English). Abstract in Russian. 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. 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. Fedorov V.D. The new in studying aquatic ecosystems. - Ecological Studies, Hazards, Solutions" 2007, т. 12, с.112-113 [on the publications by S.A.O.: Usp. Sovr. Biuol. (Усп.совр.биол.), 2004, т.124: 429-442; Ekol. Khimiya (Экол.химия), 2004 13: 186-194; Vodnye Resursy (Водн. Ресурсы), 2005, 32: 337-347; Ekologiya (Экология), 2005, No.6, p.452-459; Voda I Ekologiya (Вода и экология), 2006, №3, p.45-49; Environment Ecology (Экология окруж. среды и безоп. жизнедеят.) 2006, №6, p.63-68; Probl. Biogeokhimii (Пробл.биогеох. и геох. Экологии), 2007, 1(3) p.83-97; book "Biological Effects of Surfactants"]. Ostroumov Sergei Andreevich [a concise description of his scientific expertise and the field of interests, and the bibliography of the main 5 monographs published during the period 1983 – 2004] – In the book: Rozenberg G.S. Ecology in Pictures. Togliatti. Publishing house of the Institute of Ecology of Volga Basin, Russian Academy of Sciences, 2007, p.146. ISBN 978-5-93424-298-6. [In the section on the biographies of 378 ecologists of the world]. Mitropolskiy A. 40 years of the creative activity of Sergei Andreevich Ostroumov - Environment Ecology and Safety of Life Activity (= ‘Ecology of surroundings and safety of vital activity’, Ekologiya Okruzhayushchei Sredy i Bezopasnost Zhiznedeyatelnosti). 2007. No.5. p.81-85. Bibliogr. 11 refs. (The list of 11 published reviews of the books authored by S.A.O.) ISSN 1726-5428. [Mitropolskiy A. – Corresponding Member, Natl Acad. Sci. of Ukraine, Laureate of the State Award in Science and Technology]. Abstract: In the paper, a brief analysis is given of some of the contributions of Dr. S.A.Ostroumov (Moscow State University) to biology and ecology. Among the area involved are the following issues: developing concepts on the apparatus of the biosphere as an important factor for the formation of the geological environment including the hydrosphere; links among ecology and chemistry of natural compounds; the role of chemicals as mediators in interactions among organisms and the transfer of signals in the biosphere; the role of man-made impacts that lead to some decrease in the biospheric and hydrospheric functions of the living matter; the biosphere as the ecological-biochemical continuum; additional discoveries in the active transforming role of the living matter as exemplified by the aquatic organisms which are filter-feeders; new typology of the biogeochemical transfers of matter; creating a more adequate system of priorities to assess hazards of the chemical pollution of the biosphere; using various organisms to clean the environment; developing educational programs and teaching aids. [http://eko.org.ua/en/magazine/5-2007/]. Fedorov V.D. Letter to the Editor. - Environment Ecology and Safety of Life Activity 2007. №5. с.86. [Laudatory comments on a series of publications authored by S.A.O.]. In honour of the 40th anniversary of Sergey Andreevich Ostroumov’s creative work // Issues of Biogeochemistry and Geochemical Ecology (Проблемы биогеохимии и геохимической экологии =Problemy biogeokhimii i geohimicheskoj ekologii), 2008, No. 1 (5), p.118-126. 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. Moscow. MAX Press. 2008. 104 p. Bibliogr. 63 refs. [The materials of the scientific discovery of the inhibitory effects of synthetic surfactants of three classes on the filtering activity of bivalves are given. The finding of those effects was recognized as a scientific discovery that was certified by the Diploma of Scientific Discovery (No. 274). The priority of the discovery was 9.08.2000. The author of the discovery is Dr. S.A. Ostroumov. In the book, a collection of materials on how surfactants affect filtering activity of bivalves is presented. The materials include an abstract of a series of publications of S.A. Ostroumov on that matter, a list of bibliography, a collection of comments and opinions of experts in ecology and ecotoxicology, a list of websites that contain information on relevant publications, and a list of the educational materials that were updated using those publications and results. The discovery demonstrates a new type of ecological hazards from the chemical pollution of the biosphere, sets some new priorities in the assessment of manmade impact on the biosphere and the prevention of the most important types of chemical pollution of aquatic environment. A preface to the book is written by Prof. G.V. Dobrovolsky, who is a top-rank member of the Russian Academy of Sciences, an expert in the science of the biosphere, and Prof. E.A. Kriksunov, who is also a member of the Russian Academy of Sciences]. [about the scientific presentation made by S.A.O.] Chernova O.V., Kovaleva N. O. On the work of the Scientific Workshop on Theoretical Problems of Soil Science in 2004–2006 (Chronicle). - Eurasian Soil Science. 2007. Volume 40, Number 10. P.1140-1144 [Publisher MAIK Nauka/Interperiodica distributed by Springer Science+Business O. V. ISSN 1064-2293 (Print) 1556-195X (Online)]. Presentation of the book on a scientific discovery. – Moscow University [a newspaper, Moscow]. 2008. No. 25 (4256) p. 8. (September) [on the presentation of the book: 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. Moscow. MAX Press. 2008. 104 p.]. In electronic form: http://massmedia.msu.ru/newspaper 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. Editors G.V. Dobrovolsky, G.S.Rozenberg, I.K. Toderas. 2nd edition. Moscow. MAX Press. 2008. 108 p. Bibliogr. 63 refs. Portr. [On the formation together with A.V.Yablokov of the basics of the theory of conservation and biodiversity protection, and of seven axioms of that theory – see page 22] Klevezal G.A., Mina M.V. Short outline of the scientific, scientific-organizational, pedagogic, and public service activities. In the book: Alexey Vladimirovich Yablokov. Nauka Press, Moscow. 2008 (Material on Biobibliography of Scholars. Biosciences) P. 7-30. Zhirov V.K. (Corr. Member of RAS) Searching phytotechnologies to treat water (Letter to the Editor) - Problems of Biogeochemistry and Geochemical Ecology, 2008, No.3 (7), p.155-156. Bibliogr. 12 refs. [Brief review and positive evaluation of 10 publications of S.A.O. on the interactions of surfactants and other xenobiotics with higher plants in order to develop phytotechnologies to treat water. The opinion is expressed that it is necessary «to give full support to those studies»]. Scientific Bibliography. S. A. Ostroumov / Moscow State University. - [3rd edition, updated]. - Moscow: MAX Press, 2008. - 207, [1] p. Foreword by Academicians G.V.Dobrovol'skij, M.P.Kirpichnikov, and N.P.Laverov - ISBN 978-5-317-02348-5. Information is presented on the books, papers, educational materials (including teaching aids, synopsises of new lecture courses, and other materials), and other publications by S.A.Ostroumov. http://www.bookchamber.ru/booksSpecial.htm Presentation of new books on aquatic ecology // Moscow University (newspaper). 2009, No. 10-11 (4281-4282), March-April. (http://www.massmedia.msu.ru/newspaper/ newspaper/428182/all/napolku.htm) [on the presentation of the book by S.A.O. Aquatic organisms in water self-purification and biogenic migration of elements, Moscow 2008 = «Гидробионты в самоочищении вод и биогенной миграции элементов»]; The 10th International Conference "Ecosystems, Organisms, Innovations-10" [Chronicle] // Biologiya Morya (Russian Journal of Marine Biology = Биология моря), 2009, Vol. 35, No. 4, p. 310-311. ISSN Print: 1063-0740; ISSN Online: 1608-3377. Ermakov V.V. Studying interactions between pollutants and aquatic organisms // Water: Technology and Ecology. 2009. No. 2. P. 69 – 73. Bibliogr.: 28 refs. This is the author’s comment on a string of some recent publications by S.A.O. that explored three topics: (1) interactions between organisms and pollutants that lead to water self-purification and control of water quality; (2) interactions between organisms and pollutants that lead to the accumulation of the pollutants in the tissues of those organisms; (3) studying of the allowable (tolerated) loads of pollutants on aquatic organisms (macrophytes) in order to contribute to ecotechnologies of water treatment – the technologies that use organisms as factors in remediation of the aquatic environment. S.A.Ostroumov [a short biography], with portr. In the book: Encyclopaedia of MANEB. A special edition connected with the 15th anniversary of the MANEB. StPetersburg. Publishing House REST ("РЭСТ"). 2008. p. 232 – 233. ISBN 5-98049-006-X (978-5-98049-006-5). MANEB is the abbreviation of the Russian name of the professional society called International Academy of Ecology and Life Protection Sciences (IAELPS). About the publications and works of S. A. Ostroumov. 60th Anniversary // Problems of Biogeochemistry and Geochemiсal Ecology. 2009. No. 1 (9). p.150-152. Bibliography p. 151-152, including the list of 5 publications about S.A.Ostroumov’s works, p.151-152 ; and selected bibliography of his 14 books, and 5 articles, p.152). Portr. (photo). In English. The 10th International Conference "Ecosystems, Organisms, Innovations-10" [Chronicle] // Biologiya Morya (Russian Journal of Marine Biology = Биология моря), 2009, Vol. 35, No. 4, p. 310-311. ISSN Print: 1063-0740; ISSN Online: 1608-3377. Fedonkin M.A., Member, Russian Academy of Scienses. On the research of links among the issues of self-purification of water and biogenic migration of elements in the biosphere // Environmental Chemistry, 2009, 18 (1): 60-61. [Letter to the Editor. A positive evaluation of the publications: Self-Purification of Aquatic Organisms in the Water and Biogenic Migration of Elements. (2008) Moscow: MAKS-Press; Aquatic ecosystems: oversized diversified bioreactor with a function of self-purification of water. DAN, (2000) 374(3): 427-429; About biotic self-purification of aquatic ecosystems. Elements of the theory. DAN, (2004) 396(1): 136-141; On some issues of maintaining water quality and its purification. Water Resources. (2005) 32(3): 337-347; About polyfunctional role of biota in self-purification of aquatic ecosystems. Ecology. (2005) 6: 452-459; The role of biotic factors in the formation of self-purification of water quality and aquatic ecosystems. Ecol. Chem., (2004) 13: 186-194; Study of the stability of aquatic macrophytes Potamogeton crispus L. to sodium dodecyl sulfate. Vestn. Mosk. Univ. Ser. Biology, (2007) 4: 39-42; Some aspects of water filtering activity of filter-feeders. Hydrobiologia, (2005) 542(1): 275-286; Suspension-feeders as factors influencing water quality in aquatic ecosystems. In: The Comparative Roles of Suspension-Feeders in Ecosystems. Eds. R.F. Dame, S. Olenin, Springer, Dordrecht, (2004) p. 147-164; Inhibitory analysis of top-down control: new keys to studying eutrophication, algal blooms, and water self-purification. Hydrobiologia. (2002) 469: 117-129; Studying effects of some surfactants and detergents on filter-feeding bivalves. Hydrobiologia. (2003) 500: 341-344; Effect of synthetic surface - active substances on hydrobiological mechanisms of self-purification of aquatic environments. Water Resources. (2004) 31(5): 546-555; Biological Effects of Surfactants. (2006) CRC Press. Taylor & Francis]. Zhirov V.K. (Corresponding Member of Russian Acad. Sci.) On new research on interractions between pollutants and macrophytes in connection with studies of their phytoremediation potential // Water technology and ecology. 2009. No.1. p. 72–74 [Letters to editor. On new research on interactions between pollutants and macrophytes in connection with studies of their phytoremediation potential. The letter to editor is the response of the author to some innovative and useful publications on experiments on interactions between pollutants and macrophytes, which is important to create the scientific basis for phytoremediation and use of phytotechnologies. The studies of macrophytes Elodea canadensis Mchk., Potamogeton crispus L., Najas guadelupensis L., Fontinalis antipyretica L., Salvinia natans L., Salvinia auriculata Aubl. are commented by the author with reference to their phytoremediation potential]. Key words: pollutants, macrophytes, phytoremediation, phytotechnologies, surfactants, detergents, Elodea canadensis, Potamogeton crispus, Najas guadelupensis, Fontinalis antipyretica, Salvinia natans, Salvinia auriculata. The anniversary of Sergei A. Ostroumov / / Water Management in Russia. [=Vodnoe Khozjajstvo Rossii] 2009. No. 3. [section: Info. Chronicle. Reviews] [http://www.wrm.ru/news/show.php?id=201] 60th anniversary of Sergei A. Ostroumov // Ecological Chemistry 2009, 18 (2): p. 99-101. portr. (photo). http://thesa-store.com/eco/ [Information on the scientific and organizational and pedagogical activities SA Ostroumov]. In the book: Encyclopedia of Scientists of Russia. Moscow, Publishing House “Academy of Natural Sciences” (= “Akademiya Estestvoznaniya”). 2009. v.5, p. 328. [3300 scientists and specialists of Russia. ISBN 978-5-913270-66-5; Hard cover]. Site of the Encyclopedia: www.famous-scientists.ru. http://idea.emind.ru/discovery/show/67 (about the scientific discovery); http://catalog.loc.gov/ (The Library of Congress); http://www.famous-scientists.ru/3732/; www.allconferences.com/conferences/20050509145343/; www.ceu.hu/crc/Syllabi/alumni/envsci/ostroumov.html; massmedia.msu.ru/newspaper/newspaper/4054/all/nauka.htm (about the 5th conference on aquatic ecosystems in 2003); http://massmedia.msu.ru/newspaper/newspaper/4080/all/newsw.htm (about the 6th conference on aquatic ecosystems in 2004, with color photographs); www.uga.edu/news/artman/publish/050302ostoumov.shtml; http://www.irex.ru/alumni/success/ostroumov; http://www.irex.org/programs/ci/spotlight/05Jan-May/Ostroumov.pdf (policy brief: recommendations for policymakers); www.bio.msu.ru; www.eeiu.org (about EEIU Moscow Chapter); eko.org.ua/ua/?journal; www.eko.org.ua/ru/?journal; psychosphera.boom.ru/Raznoe/Raznoe.html; www.meteo.ru/izdan/ukazat07.htm; www.aquakultura.ru/articles/details/16.htm; www.engineering.uga.edu/seminar8-05.pdf (seminar lecture: Towards Qualitative Theory Of Aquatic Biomachinery, University of Georgia, GA, U.S.A., 2005); www.engineering.uga.edu/winter 05.pdf; http://www.irex.org [Policy Brief: Sergey A. Ostroumov, May 6, 2005: ecosystems, and water quality]; http://www.ntv.ru/gordon/archive/20610/; http://www.allconferences.com/conferences/20050509135343/ [on the 7th Intl Conference Aquatic Ecosystems, Organisms, Innovations]; http://www.eeiu.org/chapters/moscow2/reports.html#ostroumov121206; http://www.environetbase.com/ejournals/books/book_summary/summary.asp?id=4575; http://www.informaworld.com/smpp/title~db=all~content=t713393886~tab=editorialboard; www.tgizdat.ru (on the conference "Aquatic Ecosystems, Organisms, Innovations-8", October 20, 2006); http://www.ocean.ru/content/view/336/89/ [on the 9th Intl Conference Aquatic Ecosystems, Organisms, Innovations]; According to the web page of the publisher, in 2006 the following paper was on the list of 5 Most Viewed Articles. (Most viewed articles are the full-text articles from this journal that have been accessed most frequently within the last 90 days, according to the analysis of Internet activity): 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]. Published Reviews of the S.A.Ostroumov's books Published reviews of the book Yablokov A.V. and Ostroumov S.A. Nature Conservation. Problems and Prospects: Prof. Lavrenko Е.М. (Academician, Full Member, Academy of Sciences; Ex-President, the Russian Botanical Society) Review // Botanical Journal. - 1984. - No. 12. - P. 1706 – 1710; Books and Art in USSR. 1983. No. 2/37. P.23; Buch und Kunst in der UdSSR. 1983. No.2. P.21 (in German); El libro y el arte en la URSS. 1983. No.2. p. 21 (in Spanish); Amstislavsky A. To think globally, to act locally. Review of the book 'Conservation of Living Nature: Problems and Prospects' // Man and Nature. 1984. No. 9. p. 81-85; [annotation of the book] 'Conservation of Living Nature: Problems and Prospects' // Nature (Priroda). 1984. No.7. p. 123; Pleshakov A. Review of the book ‘Conservation of Living Nature: problems and prospects. 1983 // Moskovskaya Pravda. 1984. June 15, p.3. Vostrikov L. Review of the book ‘Conservation of Living Nature: Problems and Prospects. 1983 // Biology in School (Biologiya v Schkole). 1985. No. 3. p.72-73. Komarovskiy F.L. Review of the book ‘Conservation of Living Nature: problems and prospects. 1983 // Nauchnye Doklady Vysshei Shkoly. Biol. Nauki 1986. No. 4. p. 111-112. Published reviews of the book Yablokov A.V. and Ostroumov S.A. Levels of Living Nature Conservation. 1985. Nauka Press. Moscow. 176 p., fig, tab.: Chesnokov N.I. Review of the book ‘Levels of Conservation of Living Nature’. 1985 // Priroda (Nature, Moscow, in Russian) 1986. № 7. с. 124-125. Published reviews of the book Ostroumov S.A. Introduction to Bio-Chemical Ecology: Priroda (Nature). 1987. No. 1. p.125. Professor Telitchenko M.M. Review of the book 'Introduction to Biochemical Ecology' // Bulletin of Moscow University. Ser. 16. Biology. 1986. No. 4. P. 58. Prof. Stavskaya S.S. // Physiology and Biochemistry of Cultivated Plants (published in Ukraine). 1988. v. 20, No. 1. p. 99 - 100. Prof. Pokarzhevsky А.D., Semenova N.L. // Ecology. 1988. No. 2. p. 89 - 90. Prof. Sokolov М.S. // Аgrochemistry. 1987. No. 7. p. 135 -136. Prof. Laskorin B.N. (Full Member, Acad. Sci.) // Izvestia Acad. Sci. Ser. Biol. (Bulletin of Acad. Sci., Biological Series) 1991. No. 5. p. 799 - 800. Prof. Gusev М.V. (Dean, the School of Biology, Moscow University) // Plant Physiology. V. 35. No. 2. p.412 - 413. Prof. Dubinin N.P. (Full Member, Acad. Sci.) // Izvestia Acad. Sci. Ser. Biol. (Bulletin of Acad. Sci., Biological series). 1988. No. 1. p. 799 - 800. Prof. B. Stugren. 'Introduction to Biochemical Ecology' by S.A. Ostroumov (review) // Studia Univ. Babes-Bolyai. Biologia (published in Romania, in English). 1987. No 2. P. 96 – 97. Dr. E. Symonides // Wiadomosci Ecologiczne (published in Poland, in Polish), V. 33. No. 2. P. 199-201. Review // J. General Biology. 1989. V. 50. No. 3. p. 429. Published reviews of the book Telitchenko M.M., Ostroumov S.A. Introduction to Problems of Bio-chemical Ecology: Prof. Sirenko L.A. // Hydrobiological Journal (published in Ukraine). 1992. - V. 28. No. 5. p. 108 - 109. Prof. Romanenko V.D. (Full Member, Acad. Sci. of Ukraine; Director, Institute of Hydrobiology; President of Hydroecological Society of Ukraine), Romanenko A.V. // Hydrobiological Journal (published in Kiev, Ukraine). 1992. V.28. No.2. p. 82-83. Published reviews of the book Yablokov A.V. and Ostroumov S.A. Conservation of Living Nature and Resources: Problems, Trends, Prospects. Berlin, Heidelberg, New York, London, Paris, Tokyo, Hong Kong, Barcelona, Budapest. Springer. (1991). XII. 272 p.: Hartshorn G. S. A Russian "Silent Spring".- BioScience, 1992, Vol. 42, No. 7, p. 559-560. [‘BioScience’ is published by: American Institute of Biological Sciences] [on the book: ‘Conservation of Living Nature and Resources: Problems, Trends, and Prospects’ by A. V. Yablokov; S. A. Ostroumov]. [Gary S. Hartshorn, World Wildlife Fund Washington, DC 20037]; 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; Book review: Conservation of Living Nature and Resources: Problems Trends and Prospects, by A. V. Yablokov, S.A.Ostroumov. - Biological Conservation. 1993, Vol. 63, Issue 3, P. 271 [doi:10.1016/0006-3207(93)90728-J]; Dokumentation Natur und Landschaft (DNL) (Germany), 32 (1992) 1 (in German); Revista Espanola de Fisiologia (Spain). 48 (1992), 1 (in Spanish); Alauda (France). 61 (1993) 1 (in French); Mammalia (France). 57 (1993) 2, p. 304 (in French); Published reviews of the book Ostroumov S.A. Biological Effects of Surfactants on Organisms (2001): Prof. Yakovlev S.V. (Full Member, Acad. Sci.) // Vestnik Russian Academy of Sciences. 2002. v.72, No.11, p. 1038-1047. Prof. Vasiliev О.F. (Full Member, Acad. Sci.) // Vestnik Russian Academy of Natural Sciences, 2002, v.2, No.3, p. 65. Prof. Braginsky L.P., Prof. Sirenko L.A. // Hydrobiological Journal (published in Kiev, Ukraine).2003, v.39, No.3, p.115-118. Prof. Rozenberg G.S. (Corresponding Member of the Russian Academy of Sciences, Director of the Institute of Ecology of the Volga Basin, Russ. Academy of Sciences) // Uspekhi Sovremennoi Biologii (Advances of Modern Biology). 2003. No. 6, p. 618-619. Published reviews of the book Ostroumov S.A. Biotic Mechanism of Self-Purification of Freshwater and Marine Water (2004) [Diploma to the book 'Biotic Mechanism of Self-purification of Freswater and Marine Water' was awarded at the 7th International Conference ‘Aquatic Ecosystems, Organisms, Innovations’ (2005)]: Malakhov V.V. (Corresponding Member of the Russian Academy of Sciences; Chair of the Dept. of Zoology of Invertebrates, Moscow State University), Review of the book (Ostroumov, S.A., 2004. Biotic Mechanism of Self-purification of Freshwater and Marine Water. MAX Press, Moscow) // ESHS. 2004. Vol.10. p.138. Rozenberg G.S. (Corresponding Member of the Russian Academy of Sciences, Director of the Institute of Ecology of the Volga Basin, Russ. Acad. Sci.) Review of the book (Ostroumov, S.A., 2004. Biotic Mechanism of Self-purification of Freshwater and Marine Water. MAX Press, Moscow) // Advances of Modern Biol. 2005. No.3. P. 317-318. Published reviews of the book Ostroumov S.A. 'Pollution, Self-purification and Restoration of Aquatic Ecosystems' (2005): Fedorov V.D. Ecological sciences: from theory to practice and sustainable development. Review of the books by S.A.Ostroumov 'Pollution, Self-purification and Restoration of Aquatic Ecosystems' and 'Ecology and Hydrobiology'. - Ecological Systems and Instruments. 2006. No. 4. P.38-39. [on the author: Prof. Fedorov V.D. is the Chairperson, Department of Hydrobiology, Moscow State University]. Prof. Rumyantzev I.S., Zimnyukov V.A. Review of the book: Ostroumov S.A. Pollution, Self-Purification, and Restoration of Aquatic Ecosystems. Moscow. MAX Press, 2005, 100 p. ISBN 5-317-01213-9. – Ecological Chemistry, 2006, v. 15, No. 3, p. 211-212 [on the author: Prof. I.S. Rumyantzev is the President, The Academy of Water Science]. Prof. Abakumov V.A. Review of the book "Pollution, Self-Purification, and Restoration of Aquatic Ecosystems". Moscow. MAX Press, 2005, 100 p. – Ecology of the Environment and Safety of Life Activity №4 (34), 2006, p.88-89 [the reviewer recommended to publish a new edition of the book]. Prof. Ermakov V.V. Review of the book "Pollution, Self-Purification, and Restoration of Aquatic Ecosystems. Moscow. MAX Press, 2005, 100 p." and of the collection of educational programs "Ecology and Hydrobiology" (Moscow. MAX Press, 2005). – Problems of Biogeochemistry and Geochemical Ecology. 2007. v. 1(3). p.122-124. Prof. Braginsky L.P., Kalenichenko K.P., Ignatyuk A.A. (Л.П. Брагинский, К.П. Калениченко, А.А. Игнатюк). Generalized mechanisms of self-purification of natural waters. Review of the book: Ostroumov S.A. Pollution, Self-Purification, and Restoration of Aquatic Ecosystems. Moscow. MAX Press, 2005, 100 p. // Hydrobiological Journal. 2007 - 43, № 6. P.111-113. Published reviews of the book Ostroumov S.A. 'Ecology and Hydrobiology: Curricula of Lecture Courses (2005)': Fedorov V.D. (Chair of the Dept. of Hydrobiology, Moscow University). Ecological sciences: from theory to practice and sustainable development. Review of the books by S.A.Ostroumov 'Pollution, Self-purification and Restoration of Aquatic Ecosystems' and 'Ecology and Hydrobiology'. - Ecological Systems and Instruments. 2006. No. 4. P. 38-39. Rozenberg G.S. (Corresponding Member of the Russian Academy of Sciences; Director, Institute of Ecology of Volga Basin of Russian Academy of Sciences) [Review]. —Water and Ecology. 2006. No.3. P. 70-75. Published reviews of the book Ostroumov S.A. Biological Effects of Surfactants (2006): Toderas I.K. (Academician-Secretary of the Department of the Biological, Chemical, and Ecological Sciences of the Academy of Sciences of Moldova), Ermakov V.V (Professor, head of the laboratory, Institute of Geochemistry, RAS). Novelty about ecological hazards of the chemicals that pollute aquatic environment. A review of the book: Ostroumov S.A. Biological Effects of Surfactants. CRC Press. Taylor & Francis. Boca Raton, London, New York. 2006. 279 p.). – // Bulletin of the Academy of Sciences of Moldova. Life Sciences (Buletinul Academiei de Stiinte a Moldovei. Stiintele Vietii). 2007, № 2, p.169-172. Bibliogr. 10 refs. ["The book is a new significant step toward better knowledge and understanding the effects of chemical pollution on the biosphere" (p. 172)]. 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. т.15, No. 51, p. 71-72. (YU ISSN 0354-3285; Belgrade; in English). Ermakov V.V. 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 (=Ермаков В.В. Рец. на книгу: Biological Effects of Surfactants. CRC Press. Taylor & Francis. Boca Raton, London, New York. 2006. 279 p. // Токсикологический вестник, 2009, № 2, с.40). Also, a note was published: PROTECTING WATER QUALITY *BIOLOGICAL EFFECTS OF SURFACTANTS*, a 2006 technical monograph, begins with a chapter entitled, "Anthropogenic Impacts and Synthetic Surfactants as Pollutants of Aquatic Ecosystems," a clear signal as to author S. Ostroumov's concerns and focus. The hardbound work is said to provide a foundation for exploration of how hazardous wastes are absorbed in both aquatic and terrestrial ecosystems. The text presents information on actions required for remediation and restoring water quality. Approaches to counteract "toxic effects of man made surfactants using biological methods, including phytoremediation," are also discussed in the 296-page work, as well as protection measures to improve water quality. - IPMnet NEWS, October/November 2006, Issue no. 150 (ISSN: 1523-7893): http://209.85.135.104/search?q=cache:jV5iVD86ExwJ:www.ipmnet.org/IPMNews/2006/news150.html+Ostroumov+S.&hl=ru&ct=clnk&cd=196 Reviews of the book: S.A.Ostroumov. Aquatic organisms in water self-purification and biogenic migration of elements. (С.А.Остроумов. Гидробионты в самоочищении вод и биогенной миграции элементов. М. МАКС-Пресс. 2008, 200 с.): Zimnyukov V.A. Review of the book: S.A.Ostroumov. Gidrobionty v samoochischenii vod i biogennoy migratsii elementov // Water Sector of Russia: Problems, Technologies, Management (=Vodnoe Khozyaystvo Rossii; ISSN 1999-4508) 2009. № 1. p.103-106. (with the photo of the cover of the book). Kapitsa P.L. (Prof., Corr. Member, Russ. Acad. Sci.) Review of the book: S.A. Ostroumov. Aquatic organisms in water self-purification and biogenic migration of elements. Moscow. MAX Press. 2008. 200 p. - Ecologica, 2009. V.16. No. 53 (March). P.8. Rozenberg G.S. (Prof., Corr. Member, Russ. Acad. Sci.) Book Review: S. A. Ostroumov. Gidrobionty v samoochishchenii vod i biogennoj migracii elementov // Biologiya morya. 2009. V. 35, № 3, P.237-238. The journal is translated in English and published as "Russian Journal of Marine Biology"(ISSN print: 1063-0740; ISSN online: 1608-3377). Ermakov V.V. (Prof., Head of Lab. of Biogeochem., Russ. Acad. Sci.) About the book S.A. Ostroumov «Aquatic organisms in self-purification of water and the biogenic migration of elements» // Water: Chemistry and Ecology. 2009. № 8. p.25-29. Bibliogr. 26 refs. A new theory for the biomechanisms for water self-purification is presented in the S.A.Ostroumov’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. Other reviews: Kreneva S.V., Kocharyan A.G. Review of: Ostroumov S.A. On the ecological-biochemical mechanism of maintenance of water quality and water self-purification. From theory to applications. М.: МАX-Press. 2006 - 24 p. (Series: Science. Education. Innovations. Vol. 5) . — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 201. Abakumov V.A. (Prof.) Review of the series: 'Aquatic Ecosystems and Organisms', 1999-2005. Editor S.A.Ostroumov. — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 199-200. Kapitsa A.P. (Member, Russian Academy of Sciences, and Chair of the Dept. of Sustainable Use of Natural Resources, Moscow University). Review of the series: "Ecological Studies, Hazards, Solutions", 1999-2005. Editor S.A.Ostroumov. — Ecol. Studies, Hazards, Solutions, 2006, v. 11, p. 201-202. Kriksunov E.A. (Member, Russian Academy of Sciences) The new in studying the contemporary issues of ecology, hydrobiology and environmental sciences. Review of volume 11 of the series "Ecological Studies, Hazards, Solutions" (Moscow, MAX-Press, 2006, 208 p., under the editorship of S.A.Ostroumov)]. – Ecology of Environment and Safety of Life Activity (=Экология окружающей среды и безопасность жизнедеятельности). 2006, No. 6. p. 93. Review of the series "Ecological Studies, Hazards, Solutions" (volumes 1-11). - "Ecological Chemistry" 2007, v. 16, issue 1, p. 67. Other forms of evaluation of publications by S.A.Ostroumov, diplomas, certificates: Scientific Discovery Diploma No. 274 "Ability of synthetic surfactants to inhibit the filtration activity of bivalves"; priority of the discovery 9 August, 2000, according to the date of publishing the book: S.A.Ostroumov "Biological effects of surfactants in connection with the anthropogenic impact on the biosphere" (2000, MAX Press, Moscow). Diploma of 31.01.2005, registration number 332; (about the discovery: http://idea.emind.ru/discovery/show/67); P.L.Kapitza Medal for the scientific discovery; Medal of 250th Anniversary of Moscow State University; Diploma of the National Ecological Award 2004, for contribution to ecological security and sustainable development of Russia; Diploma of the First Degree for books "Biological effects of surfactants in connection with the anthropogenic impact on the biosphere" and "Biological effects of surfactants on organisms". The books were displayed at the exhibition of new books at the conference Aquatic Ecosystems and Organisms (2004); Certificate of the Registration of Author's Rights No. 4791 (the date of the registration in the State Department of Intellectual Property of the Ministry of Education and Science of Ukraine 03.10.2001) for conceptual formulation of the foundations of the new scientific discipline 'biochemical ecology', new concepts of 'ecological chemomediators', 'ecological chemoregulators', 'chemical ecoregulators', conceptual presentation of the role of "aquatic organisms in preventing global change", presentation of the processes of "water self-purification in freshwater and marine ecosystems", and a new approach to the estimates of the transfer of carbon to the lower parts of aquatic ecosystems; Certificate of the Registration of Author's Rights No. 7199 (the date of the registration in the State Department of Intellectual Property of the Ministry of Education and Science of Ukraine 27.02.2003) for the discovery and description of the ability of synthetic surfactants and surfactant-containing mixtures to inhibit the filtration of water by molluscs; Certificate of the Registration of Author's Rights No. 7203 (the date of the registration in the State Department of Intellectual Property of the Ministry of Education and Science of Ukraine 27.02.2003) for the paper 'Synopsis of new data and concepts in aquatic and general ecology', including the sections: "Aquatic ecosystem as a large-scale diversified bioreactor with the function of water purification; The hazard of a two-level synergism of synecological summation of anthropogenic effects; Formulating a new concept of ecological clusters; Role of aquatic ecosystems and organisms in stabilizing the global environment, preventing global change and contributing to sustainable development" [published: Ostroumov S.A. Synopsis of new data and concepts in aquatic and general ecology // Aquatic Ecosystems and Organisms-3. 2001. No. 5. P.130-137]. Certificate of the Registration of Author's Rights No. 10097 (the date of the registration in the State Department of Intellectual Property of the Ministry of Education and Science of Ukraine 01.06.2004) for the papers "Polyfunctional role of biodiversity in water purification and formation of water quality", "Two types of ecological time bomb: making and stopping it", "Biochemical hydrobiology: laying the conceptual basis for a new scientific discipline" etc. [published: Ostroumov S.A. Aquatic Ecosystems and Organisms-4. 2003. Moscow. MAX Press. 152 p.]. Awarded: the honorary title of Fellow of EcoEthics International Union (2003, 5 February - the letter from the president of EcoEthics International Union, Professor Otto Kinne); Certificate and Formal Letter on the successful completion of the Contemporary Issues Fellowship Program issued by European and Eurasian Programs Branch, Office of Academic Exchange Programs, Bureau of Educational and Cultural Affairs, U.S. Department of State (May 26, 2005, Washington D.C.), and another letter of congratulations on completing the 2004-2005 program issued from Assistant Secretary of Educational and Cultural Affairs (May 31, 2005, Washington, D.C.); Diploma at the 1st International Forum on Conservancy of Nature (Moscow, 7-9th September 2005), signed by Co-Chairs of the Forum, Deputy Minister of Natural Resources of Russian Federation and Vice-President of the Trade Chamber of Russian Federation). Certificate of Participation in the international conference 'Case Studies and Models for Higher Education Reform' (International Research and Exchanges Board, U.S. Department of State, The Carnegie Corporation of New York, Moscow, September 29-30, 2005). Diploma of the journal 'Ecology and Life' (awarded 15 October 2005). Diploma of the competition 'Sustainable use of natural resources and environmental protection – stratery 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).
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Роль биоты в экологических механизмах самоочищения воды. https://www.researchgate.net/publication/308969090; Book: Role of biota in ecological mechanisms of water self-purification. Abstract of the book. Аннотация книги (автор д.б.н. С.А. Остроумов, МГУ); цитируемая литерату
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Sergei A. OstroumovОстроумов С.АРоль биоты в экологических механизмах самоочищения воды. Book: Role of biota in ecological mechanisms of water self-purification. Аннотация книги (автор — д.б.н. С.А. Остроумов, биофак МГУ); цитируемая литература. https://www.researchgate.net/publication/308969090; Abstracts in Russian, in English; cited bibliography; 41 стр. Опубликована новая книга: Роль биоты в экологических механизмах самоочищения воды. Role of biota in ecological mechanisms of water self-purification. книга http://5bio5.blogspot.com/2016/10/role-of-biota-in-ecological-mechanisms.html Автор: доктор биол. наук Остроумов С.А.; Год издания: 2016; Место издания: МАКС Пресс Москва; Объём: 124 страниц (7,75 печатных листов); ISBN: 978-5-317-05368-0; Тираж: 125 экз.; Монография; Аннотация: Остроумов С.А. Роль биоты в экологических механизмах самоочищения воды. 2016. Москва. МАКС-пресс. (Серия Ecological Studies, Hazards, Solutions, выпуск 22). – 124 стр. В книге обобщена часть предыдущих работ и публикаций автора по вопросу о роли живых организмов (биоты) в очищении и улучшении качества воды в природных экосистемах (водоемах и водотоках, главы 1-3). Выявлены и систематизированы многие функции живых организмов, вносящие вклад в самоочищение воды в морских и пресноводных экосистемах (глава 4). Показана связь исследований этих вопросов с более широким фронтом работ по изучению водных организмов и экосистем (глава 5). Результаты работы конкретизируют и развивают идеи В.И.Вернадского о роли живого вещества в биосфере. Сформулированы выводы, существенные для практики, в том числе для устойчивого использования водных и биологических ресурсов, для сохранения биоразнообразия, поддержания экосистемных услуг по очищению воды, необходимых для экологической безопасности источников водоснабжения и устойчивого развития. Часть текста – на английском языке. Книга может быть использована исследователями и специалистами в области биологии, экологии, охраны окружающей среды. Ключевые слова: качество воды, самоочищение воды, биоразнообразие, водная, биология, токсикология, экосистемные услуги, борьба с загрязнением Ostroumov S.A. Role of biota in ecological mechanisms of water self-purification. 2016. Moscow. MAX Press. – 124 p. (Series: Ecological Studies, Hazards, Solutions, Issue 22). The book summarizes the previous work and publications of the author, his articles on the role of living organisms (the biota) in purification and improvement of water quality in natural ecosystems (water bodies and streams; Chapters 1-3). The book organized in a system many of the functions of living organisms that contribute to water self-purification in marine and freshwater ecosystems (Chapter 4). The connection of water self-purification studies with research on other issues of aquatic biology and ecology is shown (Chapter 5). The new author's results and development of ideas of V.I. Vernadsky on the role of living matter in the biosphere. The conclusions made in the book are relevant to sustainable use of water and biological resources, biodiversity conservation, maintenance of ecosystem services which are essential for environmental safety of water supply sources and sustainable development. Parts of the text are in English. Key words: water quality, water self-purification, biodiversity, biology, aquatic, toxicology, ecosystem services, pollution control © С.А.Остроумов, 2016. Фрагменты из книги ниже. Цитируемая литература. [завершение текста главы 5] Список литературы к главе 5 этой книги: Работы автора используются и цитируются в публикациях и других авторов. Полные тексты некоторых из них доступны онлайн. Пример такой публикации – статья проф. В.А.Абакумова [227]. Детальная информация о цитировании статей автора по биологическим проблемам качества воды в русскоязычных изданиях – см. на сайте: http://5bio5.blogspot.com/2016/07/blog-post_52.html Сотрудники более 300 институтов цитировали публикации (в русскоязычных и англоязычных изданиях) – см. на сайте: Scientists of these institutions (worldwide, more than 300 institutions in toto) have cited the Moscow University publications (biology, ecology, environment) http://5bio5.blogspot.com/2016/07/300-institutions-worldwide-cited.html Литература к главе 5 1. Алимов А.Ф. Изменения структуры сообществ животных при эвтрофировании и загрязнении водных экосистем // Доклады Академии наук. 2010, том 433, №2. с.1 - 4. 2. Alimov A.F. Changes in the Structure of Animal Communities Accompanying Eutrophication and Pollution Ecosystems // Doklady Biological Sciences, 2010. Vol 443, pp 1-3. 3. Golubkov S., Alimov A. Ecosystem changes in the Neva Estuary (Baltic Sea): Natural dynamics or response to anthropogenic impacts? // Marine Pollution Bulletin. Vol. 61. 2010, pp 198 – 204. 4. Алимов А.Ф. Биологическое разнообразие и структура сообществ организмов //Биология внутренних вод. 2010. №3. С.3-10. 5. Богатов В.В., Алимов А.Ф., Телеш И.В. Актуальные проблемы гидробиологии // Вестник РАН. Т.77, № 6. 2007. С.556-559. 6. Telesh I.V., Golubkov S.M., Аlimov A.F. The Neva Estuary Ecosystem. Ecology of Baltic Coastal Woters. Ecological Studies 197. Springer – Verlag Berlin Heidelberg 2008. P.259-284. 7. Алимов А.Ф., Голубков С.М. Изменения в экосистемах восточной части Финского залива // Вестник Российской Академии Наук. Т.78,№3. 2008. С.223-234. 8. Алимов А.Ф., Голубков С.М. Заключение. Роль естественных и антропогенных факторов в современной динамике экосистем эстуария р. Невы и стратегия управления его биологическими ресурсами. Экосистема эстуария реки Невы: биологическое разнообразие и экологические проблемы. СПб-М.: Товарищество научных изданий КМК, 2008. С.427-438. 9. Алимов А.Ф., Бульон В.В., Голубков С.М. Ресурсный потенциал видов, сообществ и экосистем континентальных водоемов // Успехи современной биологии. 2009, том 129,№ 6, с.516-527. 10. Алимов А.Ф. Роль биологического разнообразия в экосистемах // Вестник РоссийскойАкадемии наук . 2006. Т.76, №11. С.989-994. 11. Алимов А.Ф. Заметки о современном состоянии гидробиологии континентальных водоемов.//Известия СамарскогоНаучного центра РАН.2006. т.8, №1. С.7-17. 12. Алимов А.Ф. Продукционная гидробиология: состояние и развитие (к 100-летию со дня рождения Георгия Георгиевича Винберга). //Сибирский экологический журнал, №1. 2006 .С 5-12. 13. Алимов А.Ф., Бульон В.В., Голубков С.М. Динамика структурно-функциональной организации экосистем континентальных водоемов // Фундаментальные основы управления биологическими ресурсами. Товарищество научных изданий КМК. Москва. 2005. С.241-253. 14. Алимов А.Ф. Заключение. Закономерности гидробиологического режима водоемов разного типа. М.: Научный мир. 2004. С.259-265. 15. Сиренко Б.И., Алимов А.Ф. Арктические морские экосистемы. Известия ТИНРО. 2004. Т.137. С.77-84. 16. Алимов А.Ф. Продукционная гидробиология и функционирование экосистем. В кн. «Новые идеи в океанологии». Наука. М. Т.1. 2004. С.264-279. 17. Алимов А.Ф., Голубков С.М. Зоологический институт РАН и изучение пресноводных экосистем. Фундаментальные зоологические исследования. Теория и методы. Товарищество научных изданий КМК. М.-СПб. 2004. С.154-164. 18. Alimov A.F. Towards a Theory of the Functioning of Aquatic Ecosystems. Backhus Publishers. Leiden. 2003. 130 p. 19. Golubkov S.M., Alimov A.F., Telesh I.V., Anokhina L.E., Maximov A.A., Nikulina V.N., Pavel’eva E.B., Panov V.E. Functional response of midsummer planktonic and benthic communities in the Neva Estuary (eastern Gulf of Finland) to antropogenic stress // Oceanologia. V.45. N 1. 2003. P.53-66. 20. Alimov A.F., Pavlov D.S., Dgebuadze Y.Y. Results and problems of the study of ecosystems of continental waterbodies // Environment and human health, the complete works of International Ecological Forum, June 29 – July 2, 2003. St.Peterburg. Russia. 2003. p.560-562. 21. Алимов А.Ф. Элементы теории функционирования водных экосистем. СПб, Наука, 2000. 147 с. 22. Алимов А.Ф. Положения теории функционирования водных экосистем //Озерные экосистемы: биологические процессы, антропогенная трансформация, качество воды. Материалы Международной научной конференции 20-25 сентября 1999 г., Минск-Нарочь. Минск, 2000. С.9-18. 23. Алимов А.Ф. Биоразнообразие как характеристика структуры сообщества. // Изв. АН, сер. биолог. - 1998. - N 4, с. 434 - 439. 24. Алимов А.Ф. О некоторых проблемах современной гидробиологии // Биология внутренних вод, N 1, 1996.- С.7 - 13. 25. Алимов А.Ф., Балушкина Е.В., Умнов А.А. Подходы к оценке состояния водных экосистем // Экологическая экспертиза и критерии экологического нормирования (теоретические и прикладные аспекты).- СПб., 1996.- С. 37-47. 26. Алимов А.Ф. Закономерности изменений структурных и функциональных характеристик сообществ гидробионтов // Гидробиол. журн., 1995.- Т. 31, N 5.- С. 3-11. 27. Алимов А.Ф., Бульон В.В., Голубков С.М. Влияние рыб на структуру и функционирование экосистемы мелководного озера // Гидробиол. журн., 1994.- Т. 30, N 5.- С. 3-10. 28. Алимов А.Ф. Разнообразие, сложность, стабильность, выносливость экологических систем // Журн. общ. биол., 1994.- Т. 55, N 3.- С. 285-302. 29. Львова А.А., Макарова Г.Е., Алимов А.Ф., Каратаев А.Ю. Рост и продукция // Дрейссена, Dreissena polymorpha (Pall.) (Bivalvia, Dreissenidae). 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Резюме главы 5 В главе обсуждается связь затронутых в книге научных вопросов с исследованиями многих ученых в Российской Федерации и других странах. Упомянуты исследования водных организмов и экосистем, проведенные учеными Российской академии наук (РАН). В том числе, цитируются исследования водных организмов и экосистем учеными С.Петербурга, Москвы, Тольятти, Владивостока и других городов. В главе кратко анализируются различные аспекты того, как используются результаты и публикации автора книги другими исследователями. Результаты, изложенные в главах 1 – 4, и другие результаты автора используются и цитируются учеными, которые работают в Европе (Англия, Франция, Испания, Италия), Северной и Южной Америке (США и другие страны), Азии (Китае, Индии) и Австралии. Сама география цитирования этих работ свидетельствует о том, что они актуальны в связи с биологическими проблемами качества воды не в одном, а во многих регионах, а также свидетельствует об интересе к этим работам со стороны исследователей этих стран, - ученых, вносящих вклад в решение современных проблем биологии, экологии и водных ресурсов, имеющих повсеместное практическое значение для устойчивого природопользования и социально-экономического развития. Summary of Chapter 5 In the chapter, relevant aspects of use of the abovementioned results of research of the author by other researchers in Russia (Russian Academy of Sciences) and other countries are summarized and discussed. This capter contains brief comments on the links of the publications of the author with the work of other researchers in Russian Federation and other countries. The works of the author were used and cited by other researchers in their studies of the issues of biotechnology, the environment, aquaculture and others. The usefulness of the results of the author’s articles analyzed in previous chapters was shown by citation of these articles in publications of international researchers in Europe (U.K., France, Spain, Italy et al.), America (U.S. et al.), Asia (China, India et al.), and Australia. Список литературы - публикации автора книги (частично аннотированные) - в Приложении 1: Приложение 1. БИБЛИОГРАФИЯ публикаций автора ADDENDUM 1. BIBLIOGRAPHY OF AUTHOR’S PUBLICATIONS. (отобраны важнейшие работы с учетом тематики данного издания). Список частично аннотирован. 1. Садчиков А.П., Котелевцев С.В., Остроумов С.А. 2016. Водные макрофиты в экосистемах природных водоемов и водотоков // Black Sea Scientific Journal, том 28, № 2, с. 40-44. 2. 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Тестирование токсичности химических веществ без использования животных // Экологическая химия, том 25, № 1, с. 5-15. 7. Садчиков А.П., Котелевцев С.В., Остроумов С.А. 2016. Экологическая значимость размерной структуры фитопланктона и ее влияние на продуктивность водоемов // Рыбное хозяйство, № 1, с. 14-17. 8. Котелевцев С.В., Остроумов С.А., Садчиков А.П. 2016. Эколого-биохимические аспекты функционирования планктонного сообщества: новое о роли планктона в самоочищении воды // Black Sea Scientific Journal, том 29, № 3, с. 55-61. 9. Ostroumov S.A., Kotelevtsev S.V. 2015. Assessing environmental hazards of chemicals: the efficient method with higher plants // Black Sea Scientific Journal, том 25, № 7, с. 8-11. 10. Ostroumov S.A. 2015. Nature conservation and biodiversity protection in aquatic habitats: developing a new system of principles // Black Sea Scientific Journal, том 25, № 7, с. 12-16. 11. Shestakova T.V., Tropin I.V., Ostroumov S.A. 2015. Using stripping voltammetry to analyse the interactions of metals with the biomass of acidophilic algae // Achievements in the Life Sciences, том 9, № 1, с. 61-64. DOI. 12. Пухов В.В., Лубкова Т.Н., Шестакова Т.В., Тропин И.В., Котелевцев С.В., Остроумов С.А. 2015. Биосорбция металлов эукариотными микроорганизмами – анализ методом ICP-MS // Black Sea Scientific Journal, том 21, № 3, с. 10-15. 13. Остроумов С.А. 2015. Детализация концепций В.И.Вернадского о роли живого вещества в биогеохимии биосферы // Биогеохимия техногенеза и современные проблемы геохимической экологии, том 1, с. 30-32. DOI. 14. Лубкова Т.Н., Пухов В.В., Шестакова Т.В., Тропин И.В., Котелевцев С.В., Остроумов С.А. 2015. Изучение взаимодействия токсичных металлов с биомассой одноклеточных водорослей методом ICP-MS // Токсикологический вестник, № 6, с. 41-45. 15. Пухов В.В., Лубкова Т.Н., Шестакова Т.В., Тропин И.В., Котелевцев С.В., Остроумов С.А. 2015. К разработке биотехнологии очищения воды c использованием ацидофильных водорослей: результаты анализа методом ICP-MS // Экология промышленного производства, № 3, с. 28-32. 16. Остроумов С.А. 2015. Новые факты о биотическом самоочищении воды и нормирование нагрузок токсикантов на водные системы // Биогеохимия техногенеза и современные проблемы геохимической экологии, том 2, с. 8-10. DOI. 17. Остроумов С.А. 2015. Новые экспериментальные данные о взаимодействии химических элементов с образцами биогенного материала // Биогеохимия техногенеза и современные проблемы геохимической экологии, том 1, с. 124-126. 18. Остроумов С.А. 2015. Развитие наук о биосфере и геохимическая среда: четвертый биогеохимический принцип // Ecological Studies, Hazards, Solutions, том 20, с. 161-165. 19. Остроумов С.А., Ломоченкова К.И. 2015. Фитотест и фитотоксичность синтетического моющего средства // Black Sea Scientific Journal, том 22, № 4, с. 51-58. 20. Остроумов С.А. 2015. Эволюция концепции В.И. Вернадского (биогенная миграция атомов) и новые факты // Ecological Studies, Hazards, Solutions, том 20, с. 155-161. 21. Остроумов С.А. 2015. Экологическая теория очищения и детоксикации воды. Научные основы инновационных технологий улучшения и восстановления качества воды // Прикл. токсикология, т. 6, № 1(12), с. 24-43. 22. Ostroumov S.A., Poklonov V.A., Kotelevtsev S.V., Orlov S.N. Toxicity of Gold Nanoparticles for Plants in Experimental Aquatic System // Moscow University Biological Sciences Bulletin, 2014, Vol. 69, № 3, p. 108-112; DOI 10.3103/S0096392514030080; http://link.springer.com/article/10.3103/S0096392514030080; 23. Ostroumov S.A. Water quality: new criteria // Science in Russia, 2014. № 5, p. 37-43. 24. Соломонова Е.А., Остроумов С.А. Оценка допустимых нагрузок загрязняющих веществ на макрофиты в водной среде с использованием метода рекуррентных добавок // Водное хозяйство России, 2014. № 2, с. 88-101. 25. Ostroumov S.A. Modern ecotoxicology and its main mistake // Ecological Studies, Hazards, Solutions, 2013. V. 19, p. 29-30. 26. Остроумов С.А., Джонсон Моника, Тайсон Дж, Шин Б. Иммобилизация химических элементов (Ce, Bi, Gd, Ge; наночастицы, содержащие Ti и Zn) биогенным материалом (Ludwigia palustris, Myriophyllum aquaticum, Egeria densa, Gingko biloba и другие виды) // Ecological Studies, Hazards, Solutions, 2013. Vol. 19, p. 95-99. 27. Остроумов С.А. Новое в современном развитии некоторых идей В.И. Вернадского и экологические аспекты использования природных ресурсов // Вестник Самарского государственного экономического университета, 2013. № 3, с. 65-74. 28. Остроумов С.А., Поклонов В.А., Котелевцев С.В., Шестакова Т.В., Демина Л.Л., Шелейковский В.Л. Средоулучшающие фитотехнологии: Micranthemum umbrosum и другие водные макрофиты как фактор снижения содержания в воде тяжелых металлов // Технологии живых систем, 2013. Т. 10, № 1, с. 53-57. 29. Остроумов С.А., Соломонова Е.А. Взаимодействие загрязняющих воду веществ с макрофитами: метод определения допустимых нагрузок // Вода: химия и экология, 2012. № 10, с. 53-60. 30. Жбанов А.Е., Остроумов С.А. Взаимодействие тяжелых металлов (меди и кадмия) с биомассой бриофито-цианобактериального сообщества: на пути к фитотехнологии очищения воды // Водное хозяйство России, 2012. № 1, с. 103-108. 31. Остроумов С.А., Соломонова Е.А. Воздействие детергента на растения // Успехи наук о жизни, 2012. № 4, с. 82-87. 32. Остроумов С. А. Токсичные элементы в биосфере, экологические вопросы детоксикациии совершенствование экологического мониторинга (Toxic elements in biosphere, ecological problems of detoxication and advance of ecological monitoring) // Прикладная токсикология. 2012. № 2(8). С.28-41. 33. Johnson M.E., Ostroumov S.A., Tyson J.F., Xing B. Study of the interactions between Elodea canadensis and CuO nanoparticles // Russian Journal of General Chemistry, 2011. V. 81, № 13, P. 2688-2693. DOI 10.1134/s107036321113010x; http://link.springer.com/article/10.1134%2FS107036321113010X; Copper is one of the key heavy metals that pollute environment and constitute a serious threat to the health of humans and ecosystems. Copper may enter the aquatic environment in both soluble and nanoparticle form. It was previously found in a series of studies that nanoparticles, including those of several metal oxides, exercise both negative and positive effects on the higher plants, which makes necessary further research on the interaction between metal oxide nanoparticles and plants. Interactions between aquatic plants and copper-containing nanoparticles were not sufficiently studied. The goal of this study was to contribute to the investigation of the interactions between CuO nanoparticles and the aquatic plant Elodea canadensis under the conditions of experimental microcosms. It was found that CuO nanoparticles demonstrated some phytotoxicity to E. canadensis. After the incubation of E. canadensis in the aquatic medium contaminated with CuO nanoparticles there was a significant increase (by two orders of magnitude) of the concentration of copper in the biomass of the plants. Original Russian Text © M.E. Johnson, S.A. Ostroumov, J.F. Tyson, B. Xing, 2011, published in Ekologicheskaya Khimiya, 2011, Vol. 20, No. 4, pp. 189–194. 34. Ostroumov S.A. Studying the fate of pollutants in the environment: binding and immobilization of nanoparticles and chemical elements // Ecologica, 2011. Vol. 18, № 62, p. 129-132. 35. Ostroumov S.A., Kotelevtsev S.V. Toxicology of nanomaterials and environment // Ecologica, 2011. Vol. 18, № 61, p. 3-10. 36. Остроумов С.А. Биотическая регуляция миграции химических элементов: выявление принципов // Экологическая химия, 2011. Т. 20, № 1, с. 43-50. 37. Джонсон М., Остроумов С.А., Тайсон Дж. Ф., Шин Б. Изучение взаимодействий Elodea canadensis и наночастиц CuO // Экологическая химия, 2011, Т. 20, № 4, с. 189-194 . 38. Остроумов С.А. О типологии основных видов вещества в биосфере // Экологическая химия, 2011. Т. 20, № 3, с. 179-188 . 39. Поклонов В.А., Котелевцев С.А., Шестакова Т.В., Остроумов С.А. Снижение концентраций тяжелых металлов в водных растворах при взаимодействии с макрофитами // Экологическая химия, 2011. Т. 20, № 4, с. 200-203. 40. Остроумов С.А. Совершенствование системы критериев экологической опасности химических веществ // Прикладная токсикология, 2011, Т. 2, № 2, с. 18-27. 41. Ostroumov S.A. 2010. Biocontrol of Water Quality: Multifunctional Role of Biota in Water Self-Purification // Russian Journal of General Chemistry, том 80, № 13, с. 2754-2761. 42. Ostroumov S.A., Kolesov G.M. 2010. The Aquatic Macrophyte Ceratophyllum demersumImmobilizes Au Nanoparticles after Their Addition to Water // Doklady Biological Sciences, том 431, с. 124-127. 43. Ostroumov S.A., Kolesov G.M. 2010. The role of biodetritus in accumulation of elements in aquatic ecosystems // Contemporary Problems of Ecology, том 3, № 4, с. 369-373. 44. Ostroumov S.A., Toderas I.K., Ungureanu L.N., Miron A.A., Breahna A.I. 2010. Water quality formation and improvement: the key role of biological, ecological and biochemical factors // Buletinul Academiei de Stiinte a Moldovei Stiintele Vietii, том 3, с. 22-194. 45. Остроумов С.А., Колесов Г.М. 2010. Водный макрофит Ceratophyllum demersumиммобилизует Au после добавления в воду наночастиц // Доклады Академии наук, том 431, № 4, с. 566-569 (translation of the title: Ostroumov S.A., Kolesov G.M. 2010. Aquatic macrophyte Ceratophyllum demersum immobilized the nanoparticles of Au which were added to water // Doklady Akademii nauk, V. 431, № 4, p. 566-569). 46. Остроумов С.А., Колесов Г.М., Котелевцев С.В., Моисеева Ю.А., Казаков Г.Ю. 2010. К изучению тяжелых металлов (включая хром и кобальт) в модельной водной экосистеме с использованием нейтронно-активационного анализа // Токсикологический вестник, № 6, с. 53-56. 47. Остроумов С.А., Колесов Г.М. 2010. О роли биогенного детрита в аккумуляции элементов в водных системах // Сибирский экологический журнал, № 4, с. 525-531. 48. Остроумов С.А., Демина Л.Л. 2010. Роль биогенного детрита водных систем в аккумуляции металлов и металлоидов на примере восьми тяжелых металлов и мышьяка // Водное хозяйство России: проблемы, технологии, управление, № 1, с. 60-69. 49. Ворожун И.М., Остроумов С.А. К изучению опасности загрязнения биосферы: воздействие додецилсульфата натрия на планктонных фильтраторов // ДАН. 2009, Т. 425, №. 2, с. 271–272. Табл. Библиогр. 15 назв. В лабораторных опытах было установлено, что анионное поверхностно-активное вещество додецилсульфат натрия (ДСН) ингибировало фильтрационную активность массового вида планктонных фильтраторов - дафний Daphnia magna. Через 3 ч совместной инкубации дафний и водорослей при всех исследованных концентрациях ДСН (0.1 – 10 мг/л) численность клеток зеленых водорослей Scenedesmus quadricauda (Turp.) Breb. в воде была больше, чем в контроле (без ДСН). Это указывает на то, что воздействие ДСН ведет к снижению скорости фильтрации и эффективности изъятия водорослей из воды. 50. Vorozhun I.M., S.A. Ostroumov. On studying the hazards of pollution of the biosphere: effects of sodium dodecylsulfate (SDS) on planktonic filter-feeders. - Doklady Biological Sciences, 2009, Vol. 425, pp. 133–134. Tables. Bibliogr. 15 refs. [ISSN 0012-4966, Pleiades Publishing, Ltd., 2009. DOI: 10.1134/S0012496609020136; Received July 1, 2008; original Russian text: I.M. Vorozhun, S.A. Ostroumov, 2009, published in Doklady Akademii Nauk, 2009, Vol. 425, No. 2, pp. 271–272]. The goal of this study was to test whether SDS has an inhibitory effect on the ability of planktonic filter-feeders Daphnia magna to remove phytoplankton from water during their filtration activity. Daphnia were kept under laboratory conditions in vessels and fed with phytoplankton: green algae Scenedesmus quadricauda (Turp.) Breb.). After filtration for 6–24 h in the presence of SDS at concentrations 5 and 10 mg/l, the abundance of S. quadricauda cells in water was higher than in the control. At the lower SDS concentrations (0.1, 0.5, and 1 mg/l), differences in the abundance of algal cells relative to the control were observed after 3 h of incubation and disappeared after 6–24 h of incubation. The calculation of the mean rate of algae removal by daphnia showed that this parameter decreased within the first 3 h after the beginning of incubation in the presence of SDS. Thus, the results of our experiments demonstrated that SDS decreases the rate of water filtration by the planktonic crustaceans D. magna. 51. Лазарева Е.В., Остроумов С.А. Ускорение снижения концентрации поверхностно - активного вещества в воде микрокосма в присутствии растений: инновации для фитотехнологии // ДАН. 2009, Т. 425, №. 6, с. 843–845. Табл. Библиогр. 15 назв. В водных системах с добавленным синтетическим ПАВ додецилсульфатом натрия (SDS) в присутствии фитомассы водных растений (макрофитов OST-1) происходит заметное ускорение восстановления уровня поверхностного натяжения до величины, характерной для чистой воды. Это согласуется с предположением, что в присутствии макрофита ускоряется исчезновение из воды ПАВ. Результаты опыта вносят вклад в понимание роли растений в судьбе поступающих в воду поллютантов из класса синтетических ПАВ и подтверждают предположение, что растения могут использоваться для фиторемедиации сред, загрязненных ПАВ. Пер. на англ. язык: 52. Lazareva E.V., Ostroumov S. A. Accelerated decrease in surfactant concentration in the water of a microcosm in the presence of plants: innovations for phytotechnology. - Doklady Biological Sciences, 2009, Vol. 425, pp. 180–182. Tables. Bibliogr. 15 refs. [Pleiades Publishing, Ltd.; ISSN 0012-4966; DOI: 10.1134/S0012496609020276; original Russian text: E.V. Lazareva, S.A. Ostroumov, 2009, published in Doklady Akademii Nauk, 2009, Vol. 425, No. 6, pp. 843–845]. Addition of sodium dodecyl sulfate (SDS) to water rapidly changed the surface tension of water in the microcosm. The measurements demonstrated that the surface tension of water in the microcosm with the macrophyte OST1 restored to the level which was close to that of pure water within less than three days. As soon as after 46-h incubation of the system containing the plant phytomass, the surface tension increased significantly and reached that of distilled water. In the variants with water without plant phytomass, restoration of the normal surface tension was much longer (about 17 days). The results demonstrated an accelerated restoration of the normal surface tension which was typical of pure water in those systems that contained SDS in the presence of the phytomass of the macrophyte OST1. This is consistent with the conclusion that the macrophyte accelerates the disappearance of the surfactant from water. 53. Экология: инновации в науке и образовании. Москва, МАКС-Пресс, 2009, 200 с. (ред.: С.А.Остроумов, О.М.Горшкова). 54. Остроумов C.А., Е.А. Соломонова. Воздействие поверхностно-активного вещества на макрофиты Potamogeton crispus L. в условиях микрокосмов // Химическая и биологическая безопасность. 2008. № 3-4. с.14-18. 3 табл. Библ. 23 назв. 55. Остроумов C.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. 56. Соломонова Е.А., Лазарева Е.В., Остроумов C.А. Исследование толерантности макрофитов и накопления ими элементов: поиск новых вариантов фитотехнологий очищения воды // Биогеохимия в народном хозяйстве: фундаментальные основы ноосферных технологий. Материалы 6-й международной биогеохимической школы. 22-25 сентября 2008 г. Астрахань. Изд-во АГТУ (Астраханского гос. технического ун-та). Ред. В.Ф. Зайцев. 2008. С.97. [Авторы исследовали ряд видов макрофитов: Elodea canadensis Michx. (сем. Hydrocharitaceae), Potamogeton crispus L. (сем. Potamogetonaceae), Fontinalis antipyretica L. (сем. Fontinalaceae), макрофит ОSТ-1,Salvinia natans L., S. auriculata Aubl. (сем. Salviniaceae) и др.]. 57. Остроумов С.А., Е.А. Соломонова. Инновационная разработка экотехнологического подхода к очищению вод: фиторемедиация с использованием водных макрофитов. - Вода: технология и экология. 2008. № 3. стр. 48-56. Табл. 4, библиогр.: 12 назв. Апробирован метод рекуррентных добавок ксенобиотиков (на примерах додецилсульфата натрия и синтетического моющего средства) для изучения диапазона устойчивости растений, потенциально перспективных для восстановления загрязненных водных систем. Метод апробирован на пяти видах водных макрофитов (Elodea canadensis Michx., Potamogeton crispus L., Najas guadelupensis L., Fontinalis antipyretica L., макрофите OST-1). В условиях проведенных опытов максимальная нагрузка додецилсульфата натрия для макрофита OST-1 составляла 460,0 мг/л, при этом время инкубации составляло 213 суток. Максимальная нагрузка синтетического моющего средства для этого макрофита – 1687,5 мг/л, при этом время инкубации составляло 314 суток. 58. Соломонова Е.А., Остроумов C.А. Изучение устойчивости водного макрофита Potamogeton crispus L. к додецилсульфату натрия. - Вестник Моск ун-та. Сер. 16. Биология. 2007. № 4. С.39-42. Табл. Библиогр. 14 назв. В целях разработки параметров технологий фиторемедиации изучали эффекты воздействия анионного поверхностно-активного вещества додецилсульфата натрия на водный макрофит Potamogeton crispus L. Устойчивость растений к негативному воздействию поверхностно-активного вещества была выше в весенний период (в апреле) чем в осенний период (в сентябре). 59. Остроумов C.А., Соломонова Е.А. Синтетическое моющее средство "Аист-Универсал": воздействие на Fontinalis antipyretica Hedw. // Токсикологический вестник. 2007. № 1, с. 40-41. [В экспериментах с микрокосмами получена научная информация о допустимых нагрузках, полезная для технологии использования макрофитов для улучшения качества и очищения воды]. 60. Соломонова Е.А., Остроумов C.А. Разработка фитотехнологий снижения загрязнения водной среды. — Ecol. Studies, Hazards, Solutions, 2006, v. 11, c. 94-99, 6 табл. Библиогр. 9 назв. [В экспериментах с микрокосмами получена научная информация о допустимых нагрузках, полезная для технологии использования макрофитов для улучшения качества и очищения воды]. 61. Соломонова Е.А., Остроумов C.А. Биоэффекты воздействия додецилсульфата натрия на водные макрофиты.— Водное хозяйство России. 2006. №6. с.32-39, табл. Библиогр. 11 назв. [воздействие додецилсульфата натрия на Elodea canadensis Mchk. (семейство водокрасовые - Hydrocharitaceae), Potamogeton crispus L. (семейство рдестовые - Potamogetonaceae), Fontinalis antipyretica L. (семейство родниковые - Fontinalaceae) и др. Исследовались также представители макрофитов, плавающих на поверхности воды - Salvinia natans L., Salvinia auriculata Aubl. (семейство cальвиниевые - Salviniaceae)]. 62. Остроумов С.А. Полифункциональная роль биоты в миграции химических элементов и формировании геохимической среды: к разработке теории аппарата биосферы. – Проблемы биогеохимии и геохимической экологии. 2006. Т.1 (1). С. 24-31. Табл. Резюме на англ. яз. Библиогр. 27 назв. 63. Остроумов С.А. О биотическом очищении воды и экологической репарации. - Сиб. экол. журнал. 2006. № 3. C. 339-343. 3 табл. Резюме на англ. яз. Библиогр. 15 назв. ISSN 0869-8619. [Табл. 3 – сопоставление особенностей экологической репарации (термин автора статьи) и репарации ДНК]. 64. Остроумов C.А., Соломонова Е.А. К разработке гидробиологических вопросов фиторемедиации: взаимодействие трех видов макрофитов с додецилсульфатом натрия.—Вода и экология. 2006. № 3. стр. 45-49. Табл. 2, Реферат на русск. яз. на стр. 77. Библиогр. 12 назв. Исследовали воздействия анионного ПАВ додецилсульфата натрия (ДСН) на жизнеспособность водных растений (Elodea canadensis Mchk., Potamogeton crispus L., и др.). Получены свидетельства возможности применения метода рекуррентных добавок для оценки ассимиляционной емкости микрокосмов с макрофитами. Метод рекуррентных добавок предложен С.А. Остроумовым в его работе: Ecol. Stud. Haz. Sol. 2006, т.11, c. 72-74. Растения E. canadensis выдерживали суммарную нагрузку додецилсульфата натрия (ДСН) 4 мг/л (8 добавок по 0.5 мг/л, нагрузка была распределена в течение 18 сут.) и погибали при нагрузке 83 мг/л (10 добавок по 8.3 мг/л за 19 сут.). Растения одного из других видов макрофитов выдерживали значительно более высокую нагрузку свыше 120 мг/л (распределенную в течение 168 сут). 65. Остроумов C.А., Соломонова Е.А. Изучение фиторемедиационного потенциала водных растений. - Экология окружающей среды и безопасность жизнедеятельности. 2006. № 6. стр. 63-68. Табл. 5. Библ. 22 назв. Реф. на англ. и украинском языках. [Результаты исследований воздействия додецилсульфата натрия (ДСН) на водных растения Elodea canadensis Mchk., Potamogeton crispus L., Fontinalis antipyretica L., Salvinia natans L., Salvinia auriculata Aubl. др. В опытах с некоторыми макрофитами суммарная переносимая нагрузка за 195 дней составила 145 мг ДСН на 1 л]. 66. Остроумов C.А. и Соломонова Е.А. Изучение толерантности макрофита при воздействии додецилсульфата натрия в условиях рекуррентных добавок в течение периода времени более двух месяцев.— Ecol. Studies, Hazards, Solutions, 2006, v. 11, с. 86-87, табл. Библиогр. 3 назв. [В экспериментах с микрокосмами получена научная информация о допустимых нагрузках, полезная для технологии использования макрофитов для улучшения качества и очищения воды]. 67. Ostroumov S.A., Widdows J. Inhibition of mussel suspension feeding by surfactants of three classes. - Hydrobiologia. 2006. Vol. 556, No.1. P. 381 – 386. 68. Ostroumov S.A. 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. 2006. Volume 1, No.1. p.111-118. [ISSN 0973-2667]. 69. Остроумов С.А. Поиск подходов к решению проблемы глобальных изменений: элементы теории биотическо-экосистемного механизма регуляции и стабилизации параметров биосферы, геохимической и геологической среды // Вестник Моск. ун-та. Сер. биол. 2005. № 1. С.24-33. 70. Остроумов С.А. О полифункциональной роли биоты в самоочищении водных экосистем // Экология. 2005. № 6. С. 452–459 [элементы теории биотического механизма формирования, поддержания и улучшения качества воды]. 71. Остроумов С.А. О некоторых вопросах поддержания качества воды и ее самоочищения // Водные ресурсы. 2005. Т.32. № 3. С. 337-347. [Представления и обобщения, которые в систематизированном виде составляют основные элементы качественной теории самоочищения воды пресноводных и морских экосистем. На этой основе даны рекомендации для сохранения качества воды и устойчивого использования водных ресурсов. Приведены экспериментальные результаты изучения воздействия ПАВ Тритона Х-100, 5 мг/л, и синтетического моющего средства ОМО, 50 мг/л, на пресноводных моллюсков, перловиц Unio tumidus; в обоих случаях показано ингибирование фильтрации воды]. 72. Остроумов С.А. Гептан: действие на Mytilus galloprovincialis // Токсикологический вестник. 2005. № 1. С. 50-52. [гептан в концентрациях 16 мг/л и 48 мг/л тормозил фильтрацию воды моллюсками Mytilus galloprovincialis и изъятие ими из воды клеток Monochrysis lutheri]. 73. Ostroumov S.A. Some aspects of water filtering activity of filter-feeders // Hydrobiologia. 2005. Vol. 542, No. 1. P. 275 – 286. 74. Ostroumov S.A. On the Multifunctional Role of the Biota in the Self-Purification of Aquatic Ecosystems. - Russian Journal of Ecology, 2005. Vol. 36, No. 6, P. 414-420 [MAIK Nauka/Interperiodica distributed by Springer Science+Business Media LLC]. 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 filter-feeders have been used. These results indicate that the water self-purification mechanism is vulnerable to the impact of some pollutants and, in particular, synthetic surfactants and detergents. 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. ISSN 1067-4136 (Print) 1608-3334 (Online) DOI 10.1007/s11184-005-0095-x; https://www.researchgate.net/publication/227317445 75. Остроумов С.А., Виддоус Дж. (Widdows J.) Воздействие катионного поверхностно-активного вещества на мидий: ингибирование фильтрации воды // Вестник МГУ. Сер. 16. Биология. 2004. № 4. С. 38 - 41 [воздействие ПАВ ТДТМА 0.3 – 5 мг/л на мидии из природной популяции Mytilus edulis × M. galloprovincialis в Северной Атлантике]. 76. Остроумов С.А. Роль биотических факторов в формировании качества воды и самоочищении водных экосистем // Экологическая химия. 2004. Т. 13(3). С. 186-194. 77. Остроумов С.А. О биотическом самоочищении водных экосистем. Элементы теории // Доклады академии наук (ДАН). 2004. Т.396. № 1. С.136-141.https://www.researchgate.net/publication/265294672 [Представлено академиком М.Е. Виноградовым. Системное изложение элементов качественной теории самоочищения воды и биотического механизма формирования, поддержания и улучшения качества воды]. 78. Остроумов С.А. Новая наука в системе экологических и биосферных наук: биохимическая экология // Экология окружающей среды и безопасность жизнедеятельности. 2004. № 4 (22) С. 5-12. 79. Остроумов С.А. Геохимический аппарат водных экосистем: биокосная регуляция // Вестник РАН. 2004. Т.74. № 9. C.785-791. https://www.researchgate.net/publication/264039958; 80. Остроумов С.А. Влияние синтетических поверхностно-активных веществ на гидробиологические механизмы самоочищения водной среды // Водные ресурсы, 2004, Т. 31. № 5. С. 546 - 555. Из содерж.: перечень процессов, которые включает в себя самоочищение воды (стр.546), перечень того, в чем проявляется роль фильтрации воды в самоочищении воды и регулировании процессов, участвующих в нем (9 пунктов, с. 547-548); Предложен новый концептуальный подход для оценки потенциальн. экологич. опасности воздействия СПАВ и др. веществ на гидробионтов, "основанный на структурированной системе анализа потенц. опасности нарушений водн. биоты на 4-х уровнях: индивидуальных и популяционных изменений, агрегированных параметров, целостности и устойчивости экосистемы, вклада экосистемы в биосферные процессы" (с.553, ДАН, 2000, 371: 844-846). Предложены нов. методы биотестирования. "…Сохранение самоочистительного потенциала водоемов невозможно без дополнит. усилий по снижению ущерба гидробионтам и экосистемам вследствие загрязнения водоемов СПАВ и СПАВ-содержащими смесевыми препаратами" (с.553). "…Одной из важнейших предпосылок поддержания качества воды является сохранение биоразнообразия гидробионтов и функциональной активности их популяций" (с.553, ДАН, 2002, 382: 138-141). "Можно предсказать, что …будут выявлены новые примеры аналогичных описанным воздействий СПАВ, СПАВ-содержащих препаратов и других химических веществ на организмы" (с.553). 81. Остроумов С.А. Биологический механизм самоочищения в природных водоемах и водотоках: теория и приложения // Успехи современной биологии. 2004. Т.124. №5. С. 429-442. https://www.researchgate.net/publication/269764796; https://www.researchgate.net/publication/294721461; 82. 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. pp. 147-164. Из содерж.: Table 1: four factors that decrease 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 introduced in this paper: the 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). 83. Ostroumov S.A. On Developing the System of Principles for Analysis of Ecological Hazards of Anthropogenic Effects on Organisms // Environment Ecology and Safety of Life Activity. 2004. No. 1. P. 44-49. 84. Ostroumov S.A. Hydrobiology and aquatic ecosystems as factors of economic growth // Ecological Studies, Hazards, Solutions. 2004. Vol. 7. P.25-27. 85. Ostroumov S.A. Aquatic ecosystem as a bioreactor: water purification and some other functions // Rivista di Biologia / Biology Forum. 2004. Vol. 97. p. 39-50. 86. Остроумов С.А., Колесников М.П. Моллюски в биогеохимических потоках (C, N, P, Si, Al) и самоочищении воды: воздействие ПАВ // Вестник МГУ. Cер. 16. Биология. 2003 № 1. С.15-24. Библ. 59 назв. [Изучали роль экскретируемых моллюсками пеллет в миграции химических элементов в условиях экспериментальных микрокосмов и воздействие катионного поверхностно-активного вещества (КПАВ, ПАВ) на питание моллюсков (Lymnaea stagnalis и унионид) и экскрецию ими пеллет. Состав пеллет выборки природного сообщества двустворчатых моллюсков (Unio tumidus 63,21%, U. pictorum27,36 %, Crassiana crassa 7,55 % и Anodonta cygnea 1,89 %) при питании природным сестоном: С (64,3%), N (2,73%), P (0,39%), Si (1,14%), Al (0,071%). Фильтрация ими воды также ингибировалась ТДТМА и другими ПАВ. Это свидетельствовало об ингибировании переноса вещества через данное звено трофической цепи и биогеохимических потоков]. 87. Остроумов С.А., Вальц Н., Руше Р. Воздействие катионного амфифильного вещества на коловраток // Доклады академии наук (ДАН) 2003. Т. 390. № 3. С.423-426. [ПАВ ТДТМА 0.5 мг/л ингибировал фильтрационную активность популяции Brachionus calyciflorus при питании водорослями Nannochloropsis limnetica (Eustigmatophyceae, 1.5-6 мкм)]. 88. Остроумов С.А. О функциях живого вещества в биосфере // Вестник РАН. 2003. Т. 73. № 3. С.232-238. [Даны определения новых понятий и терминов, предложенных автором: экологических хемомедиаторов, экологических хемомедиаторов, экологических хеморегуляторов (стр. 233). Новая концепция уровне-блочного подхода к анализу экологической опасности антропогенных нарушений биоты (стр. 236). Показано, что одному доллару ВВП России соответствует 0.23-0.35 долларов стоимости пресной воды, изъятой из гидросферы. Подсчитано, что фильтрационная активность моллюсков на участке дна площадью 600 м2 соответствует фильтровальной установке стоимостью 6700 долл. Приведена новая концепция уровне-блочного подхода к анализу экологической опасности антропогенных нарушений биоты, в том числе загрязнения водных объектов]. 89. Остроумов С.А. Некоторые подходы к системе критериев экологической опасности антропогенных воздействий на организмы и экосистемы // Сибирский экологический журнал. 2003. № 2. С.247-253. ISSN 0869-8619. [Предложена система критериев, учитывающая современный эмпирический материал и включающая широкий диапазон современных экологических обобщений. Среди новых фактов, использованных для иллюстрации применения предложенной системы критериев: ингибирующее действие ПАВ ТХ100 1 мг/л 60 мин; 4 мг /л 60 мин на фильтрацию воды мидиями Mytilus edulis. Новый подход для анализа экологической опасности воздействий]. 90. Остроумов С.А. Концепции экологии "экосистема", "биогеоценоз", "границы экосистем": поиск новых определений // Вестник МГУ. Серия 16. Биология. 2003. № 3. С.43-50. [Нов. трактовка, нов. варианты определений. Перечисляются и обосновываются отличия новых определений от ранее существовавших.] 91. Остроумов С.А. Действие некоторых амфифильных веществ и смесевых препаратов на морских моллюсков // Гидробиологический журнал. 2003. Т. 39. № 2. С.103-108. 92. 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. 96: 327-332. [Формулировки 50 приоритетов в экологии, включая приоритеты, важные для познания участия организмов в формирования среды обитания, в том числе водной среды]. 93. Ostroumov S.A. Studying effects of some surfactants and detergents on filter-feeding bivalves // Hydrobiologia. 2003. Vol. 500. P. 341 - 344. [Inhibition of filtering activity as a result of the effects of surfactant TDTMA 0.5 mg l-1 on oysters Crassostrea gigas; SDS 0.5 mg l-1 on C. gigas; 3 synthetic detergent mixtures on Mytilus galloprovincialis and C. gigas. Фильтраторы участвуют в формировании и поддержании качества воды. Выявлены новые биологические эффекты при действии ПАВ TDTMA и SDS на морских двустворчатых моллюсков, устриц Crassostrea gigas, анализируемые в плоскости нарушения механизмов формирования качества воды]. 94. 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. Vol. 96, No.1. P.159-170. Из содерж.: новая концепция анализа антропогенных воздействий. Концепция уровне-блочного подхода к анализу и типологии опасности антропогенных воздействий. В качестве примера приводится анализ опасности антропогенных нарушений биотического механизма поддержания качества воды. 95. Остроумов С.А. Сохранение биоразнообразия и качество воды: роль обратных связей в экосистемах. // Доклады академии наук (ДАН). 2002. Т.382. № 1. С. 138-141. [Показана важность двусторонних причинно-следственных связей между качеством воды и биоразнообразием. Среди установленных в работе новых фактов: ингибирование фильтрации при воздействии синтетического моющего средства СМС IXI 20 мг/л на мидий Mytilus galloprovincialis, СМС "Дени-Автомат" 30 мг/л на устриц Crassostreagigas. Впервые в научной литературе дан детальный перечень таксонов фильтраторов морского и пресноводного планктона и бентоса (табл. 3)]. 96. Остроумов С.А. Система принципов для сохранения биогеоценотической функции и биоразнообразия фильтраторов // Доклады академии наук (ДАН). 2002. Т. 383. № 5. С.710-713. [Сформулирована и изложена новая система пяти принципов для сохранения биоразнообразия водных организмов, режима природоохранных акваторий, морских и водных заповедников и заказников]. 97. Остроумов С.А. Программа нового курса "Экология самоочищения воды" // Программы спецкурсов. Москва: МГУ. 2002. С.126-127. 98. Остроумов С.А. Программа нового курса "Механизмы взаимодействия организмов в экосистемах" // Программы спецкурсов. Москва: МГУ. 2002. С.120-122. 99. Остроумов С.А. О роли гидробионтов в регуляции потоков вещества и миграции элементов в водных экосистемах // Вестник РАЕН. 2002. Т. 2. № 3. С.50-54. 100. Остроумов С.А. Новый тип действия потенциально опасных веществ: разобщители пелагиально-бентального сопряжения. // Доклады академии наук (ДАН). 2002. Т.383. № 1. С.138-141. [Бихромат калия в сублетальной концентрации снижал фильтрацию воды моллюсками Mytilus galloprovincialis. Предсказание на стр. 140: "будут получены новые факты того, что в условиях воздействия сублетальных концентраций поллютантов на …фильтраторов их фильтрационная активность, изъятие ими из воды взвешенного вещества… снизится". Предсказание подтвердилось в публикациях 2002-2004 и последующих годов. Табл. 1 "Усвояемость пищи и средний процент неусвоенного вещества для различных групп беспозвоночных". Из содержания статьи: усвояемость 16.2-89.6%, неусвоенное вещество 10.4-83.8%]. 101. Остроумов С.А. Новые варианты определений понятий и терминов "экосистема" и "биогеоценоз" // Доклады академии наук (ДАН). 2002. Т.383. № 4. С.571-573. [Представлено академиком Л.М. Сущеней. В статье сформулированы и обоснованы новые определения, перечислены их отличия от прежних. Новое определение экосистемы, в отличие от многих других, не содержит термины "биотоп", "сообщество", "система", "биоценоз", "трофическая структура" и другие]. https://www.researchgate.net/publication/266899394; 102. Ostroumov S.A. Inhibitory analysis of top-down control: new keys to studying eutrophication, algal blooms, and water self-purification. // Hydrobiologia. 2002. 469: 117-129. [Top-down control is an important type of interspecies interactions in food webs. It is especially important for aquatic ecosystems. Phytoplankton grazers contribute to the top-down control of phytoplankton populations. This article is focused on the role of benthic suspension-feeders (filter - feeders) in the control of plankton populations as a result of water filtering and the removal of suspended matter (including the cells of plankton) from the water column. New data on the inhibitory effects of synthetic surfactants and detergents on benthic filter-feeders (freshwater mussels Unio tumidus, U. pictorum, marine mussels Mytilus galloprovincialis, Mytilus edulis, and oysters Crassostrea gigas) are presented and discussed. Importance and efficiency of that approach to the problems of eutrophication and water self-purification is pointed out. The chemical pollution may pose a threat to the natural top-down control of phytoplankton and water self-purification processes. The latter are an important prerequisite for sustainable use of aquatic resources. https://www.researchgate.net/publication/200587396/; 103. Ostroumov S.A. Polyfunctional role of biodiversity in processes leading to water purification: current conceptualizations and concluding remarks // Hydrobiologia. 2002. V. 469 (1-3): 203-204. 104. Остроумов С.А., Колесников М.П. Пеллеты моллюсков в биогеохимических потоках C, N, P, Si, Al // Доклады академии наук (ДАН). 2001. Т. 379. № 3. С. 426-429 [Для формирования качества воды имеют значение биогеохимические потоки в водных экосистемах. Выявлены новые эффекты при воздействии потенциальных экотоксикантов, на примере катионного ПАВ ТДТМА 2 мг/л, анионного ПАВ ДСН 1-2 мг/л, синтетического моющего средства СМС Tide-Lemon 75 мг/л: эти вещества ингибировали трофическую активность моллюсков Lymnaea stagnalis]. 105. Остроумов С.А. Синэкологические основы решения проблемы эвтрофирования // Доклады академии наук (ДАН). 2001. Т. 381 № 5. С.709-712. [Предложен новый подход к борьбе с эвтрофированием. Среди полученных новых фактов: жидкий детергент Fairy 2 мг/л снижал фильтрацию воды мидиями Mytilus galloprovincialis сразу после добавления (инкубация от 2 до 23 мин, 22.5⁰С)]. 106. Остроумов С.А. Реагирование Unio tumidus при воздействии смесевого химического препарата и опасность синэкологического суммирования антропогенных воздействий // Доклады академии наук (ДАН). 2001. Т. 380. № 5. С. 714-717 [новые данные о токсичном воздействии детергента, синтетического моющего средства (СМС) на пресноводных двустворчатых моллюсков, перловиц Unio tumidus]. 107. Остроумов С.А. Опасность двухуровневого синергизма при синэкологическом суммировании антропогенных воздействий // Доклады академии наук (ДАН). 2001. Т. 380. №6 С. 847-849. [Выявлены конкретные примеры синергизма при суммировании антропогенных воздействий на организмы двух соседних трофических уровней. Описаны биоэффекты при действии синтетического моющего средства (СМС) Весна 1 мг/л на устриц Crassostrea gigas, СМС IXI 10 мг/л на мидий Mytilus galloprovincialis, СМС Tide-Lemon 50 мг/л на M. galloprovincialis. Отмечена опасность одновременного воздействия загрязнения среды (на примере детергентов и СМС) на организмы двух трофических уровней, а именно на водоросли и на моллюсков-фильтраторов]. 108. Остроумов С.А. Методика биотестирования: Методика оценки потенциальной опасности химических веществ по их способности снижать фильтрационную активность гидробионтов (на примере двустворчатых моллюсков) // Ecological Studies, Hazards, Solutions, 2001. Vol. 5. с. 137-138. 109. Остроумов С.А. Дисбаланс факторов, контролирующих численность одноклеточных планктонных организмов, при антропогенных воздействиях // Доклады академии наук (ДАН). 2001. Т. 379. № 1. С. 136-138. [Выявлены конкретные примеры вызванного антропогенным воздействием нарушения баланса факторов, которые контролируют численность одноклеточного планктона. Новые данные о токсичном действии детергентов: синтетического моющего средства (СМС) ОМО на моллюсков Unio tumidus, СМС Лоск-Универсал на мидий Mytilus galloprovincialis, СМС Lanza на устриц Crassostrea gigas, СМС Весна на C. gigas. Cравнение кинетик изъятия из воды Saccharomyces cerevisiae и Pavlova lutheri (= M. lutheri) при фильтрации воды M. galloprovincialis]. 110. Остроумов С.А. Воздействие амфифильных веществ на морских гидробионтов-фильтраторов // Доклады академии наук (ДАН). 2001. Т. 378. № 2. С. 283-285. 111. Остроумов С.А. Амфифильное вещество подавляет способность моллюсков фильтровать воду и удалять из нее клетки фитопланктона // Известия РАН. Сер. Биол. 2001. № 1. С. 108-116. 112. Остроумов С.А., Колесников М.П. Биокатализ переноса вещества в микрокосме ингибируется контаминантом: воздействие ПАВ на Lymnaea stagnalis // Доклады академии наук (ДАН). 2000. Т. 373. № 2. С. 278-280. 113. Остроумов С.А. Принципы анализа экологической опасности антропогенных воздействий, в том числе химического загрязнения: концепция и новые данные // Вестник Моск. ун-та. Сер.16. Биол. 2000. №4. С. 27-33. [Из содерж.: 1. Три критерия, часто используемых на практике при классификации экологической опасности загрязняющих веществ. 2. Концепция уровней организации живой материи (живых систем) как основа подхода к системе критериев экологической опасности антропогенных воздействий; концепция уровне-блочного анализа потенциальной экологической опасности антропогенных воздействий на организмы и экосистемы (табл.2). 3. Пример потенциальной экологической опасности воздействий, не связанных с гибелью организмов: воздействие ксенобиотиков на скорость фильтрации воды гидробионтами. ПАВ ТХ100 (1 и 4 мг/л; инкубация 60 мин) ингибировал фильтрацию воды мидиями M. edulis и изъятие из воды клеток водорослей Isochrysis galbana (табл. 4 и 5). Использование уровне-блочного подхода для классификации полученных автором экспериментальных данных (на цианобактериях, проростках растений, коловратках, двустворчатых и легочных моллюсках, пиявках) в соответствии с типами экологической опасности]. 114. Остроумов С.А. Критерии экологической опасности антропогенных воздействий на биоту: поиски системы // Доклады академии наук (ДАН). 2000. Т. 371. № 6. С. 844-846. [Существующая система критериев для оценки экологической опасности загрязняющих веществ уязвима для критики. Выдвинута новая концепция системы критериев для оценки экологической опасности антропогенных воздействий на биоту. Предложено оценивать опасность антропогенных воздействий (включая загрязнение химическими веществами) в соответствии со следующими четырьмя уровнями нарушений в биологических и экологических системах. (1) Уровень индивидуальных и популяционных откликов. (2) Уровень агрегированных откликов групп организмов. (3) Уровень стабильности и целостности экосистем. (4) Уровень вклада экосистем в биосферные процессы. Дается пример того, как предложенная система критериев может прилагаться к анализу конкретных фактических данных, вносящих вклад в понимание биотических механизмов формирования качества воды. Для иллюстрации эффективности предложенной системы критериев показано, как использовать ее для анализа новых данных об ингибирующем воздействии неионогенного поверхностно-активного вещества (ПАВ) Triton X-100 (0.5 mg/L) на фильтрацию воды двустворчатыми моллюсками (мидиями) Mytilus edulis. Показано, что сформулированная система критериев полезна для того, чтобы более объективно оценить экологическую опасность антропогенных воздействий на биоту, включая воздействия химических веществ, загрязняющих экосистемы]. 115. Остроумов С.А. Концепция водной биоты как лабильного и уязвимого звена системы самоочищения воды // Доклады академии наук (ДАН). 2000. Т. 372. № 2. С. 279-282.[Изложена система процессов и факторов самоочищения воды и формирования ее качества. Показано, как поллютанты (СПАВ) могут действовать на эти факторы и процессы. "…Совокупность водных организмов (водная биота) является лабильным и потенциально уязвимым компонентом (звеном) системы самоочищения воды". "…Необходимо оценивать опасность вещества не только для микробного компонента процессов самоочищения, но и для других организмов (в том числе бентосных фильтраторов). В связи с опасностью дисбалансов в сложной системе процессов самоочищения, потенциальную опасность могут представлять и ингибирующие, и стимулирующие воздействия загрязняющих веществ в сублетальных концентрациях". "Сублетальные эффекты, связанные с изменением уровня функциональной активности популяций гидробионтов, могут вносить нарушения или дисбаланс в систему самоочищения воды"]. 116. Остроумов С.А. Ингибиторный анализ регуляторных взаимодействий в трофических цепях // Доклады академии наук (ДАН). 2000, Т. 375, № 6. С.847-849. [Предложен и апробирован метод ингибиторного анализа для изучения взаимодействий организмов в трофических цепях. Катионный ПАВ ТДТМА 1 мг/л снижает изъятие клеток водорослей M. lutheri ювенильными особями мидий Mytilus galloprovincialis. Действие неионогенного ПАВ TX100 5 мг/л на моллюсков Unio tumidus, катионного ПАВ ТДТМА 1-2 мг/л на моллюсков U. pictorum, ТДТМА 0.5 мг/л на коловраток Brachionus angularis, B. plicatilis]. 117. Остроумов С.А. Водная экосистема: крупноразмерный диверсифицированный биореактор с функцией самоочищения воды // Доклады академии наук (ДАН). 2000, Т. 374, №3. С.427-429. 118. Остроумов С.А. 2016. Изучение биосферы и химико-биотические взаимодействия. Москва: МАКС-Пресс, ISBN 978-5-317-05302-4. 119. Kotelevtsev S.V., Orlov S.N., Gorshkova O.M., Novikov K.N., Sadchikov A.P., OstroumovS.A. (Eds.) 2015. Ecological and Biological Systems. Max Press, Moscow, ISBN 978-5-317-05119-8, 228 с. 120. Orlov S.N., Kotelevtsev S.V., Novikov K.N., Selishcheva A.A., Akimova O.A., Ostroumov S.A. 2014. Biophysics, biochemistry, biosystem studies. Fundamental research and applications: Results and bibliography. Moscow University, Moscow, 180 с. 121. Остроумов С.А. 2013. Химико-биотические взаимодействия и новое в учении о биосфере. Москва: МАКС-Пресс, 92 с. ISBN 978-5-317-04385-8; (2-е изд., доп.). 122. Остроумов С.А., Котелевцев С.В., Джонсон Моника, Тайсон Дж., Шин Б. 2013. Экспериментальные исследования: биогенное вещество, экотоксиканты и наночастицы. Москва: МАКС Пресс, ISBN 978-5-317-04522-7. 123. Ермаков В.В., Карпова Е.А., Корж В.Д., Остроумов С.А. 2012. Инновационные аспекты биогеохимии. Москва: ГЕОХИ РАН, ISBN 978-5-905049-04-0, 345 с.https://www.researchgate.net/publication/296002681; 124. Олескин А.В., Карташева Е.Р., Ботвинко И.В., Остроумов С.А., Лукьянов А.С., Шульга Е.Н. 2011. Гуманитарная биология и экология: учебно-методическое пособие для средней общеобразовательной школы, лицеев, колледжей, университетов. Москва: Издательство Московского университета, ISBN 978-5-211-06183-5, 96 с. 125. Остроумов С.А. 2011. Некоторые вопросы химико-биотических взаимодействий и новое в учении о биосфере / серия: Ecological Studies, Hazards, Solutions. Vol. 17. Москва: МАКС Пресс, ISBN 978-5-317-03710-9. 126. Мелехова О.П., Сарапульцева Е.И., Евсеева Т.И., Глазер В.М., Гераськин С.А., Доронин Ю.К., Киташова А.А., Киташов А.В., Козлов Ю.П.,Кондратьева И.А., Коссова Г.В., Котелевцев С.В., Маторин Д.Н., Остроумов С.А., Погосян С.И., Смуров А.В., Соловых Г.Н., Степанов А.Л., Тушмалова Н.А., Цаценко Л.В. 2010. Биологический контроль окружающей среды: биоиндикация и биотестирование. Москва: Издательский центр «Академия», ISBN 978-5-7695-7033-9, 288 с. (3-е издание). 127. Гусев М.В., Олескин А.В., Карташева Е.Р., Кировская Т.А., Остроумов С.А., Ботвинко И.В., Лукьянов А.С., Каганова З.В., Юдин Б.Г., Шульга Е.Н.,Седов А.Е. 2009. Терминологический словарь (тезаурус). Гуманитарная биология. Москва, Изд-во Московского ун-та, ISBN 978-5-211-05360-1, 368 с. 128. Остроумов С.А. 2009. Химико-биотические взаимодействия и новое в учении о биосфере В.И. Вернадского. Москва, Макс-пресс, ISBN 978-5-317-03005-6. https://www.researchgate.net/publication/275887893; DOI: 10.13140/RG.2.1.4931.2161; 129. Мелехова О.П., Сарапульцева Е.И., Евсеева Т.И., Глазер В.М., Гераськин С.А., Доронин Ю.К., Киташова А.А., Киташов А.В., Козлов Ю.П., Кондратьева И.А., Коссова Г.В., Котелевцев С.В., Маторин Д.Н., Остроумов С.А., Погосян С.И., Смуров А.В., Соловых Г.Н., Степанов А.Л., Тушмалова Н.А., Цаценко Л.В. 2008. Биологический контроль окружающей среды: биоиндикация и биотестирование. Москва, Издательский центр «Академия», ISBN 978-5-7695-5594-7, 288 с. (2-е издание). 130. Остроумов С.А. 2008. Гидробионты в самоочищении вод и биогенной миграции элементов. Москва: МАКС-Пресс, ISBN 978-5-317-02625-7, 200 с.https://www.researchgate.net/publication/266200066; Предложена и разработана новая теория биоценотического самоочищения вод. Доказано участие в самоочищении практически всех основных групп водных организмов. Намечены пути разработки экотехнологий очищения воды и ремедиации водных объектов. 131. Тодераш И.К., Остроумов С.А., Зубкова Е.И. (ред.) 2008. Проблемы экологии и гидробиологии. М.: МАКС Пресс, ISBN 978-5-317-02224-2, 80 с. 132. Мелехова О.П., Егорова Е.И., Евсеева Т.И., Глазер В.М., Гераськин С.А., Доронин Ю.К., Киташова А.А., Киташов А.В., Козлов Ю.П., Кондратьева И.А., Коссова Г.В., Котелевцев С.В., Маторин Д.Н., Остроумов С.А., Погосян С.И., Смуров А.В., Соловых Г.Н., Степанов А.Л., Тушмалова Н.А., Цаценко Л.В. 2007. Биологический контроль окружающей среды: биоиндикация и биотестирование. Москва, Академия, ISBN 978-5-7695-3560-4, 288 с. (Усл.печ.л. 18,0). 133. Остроумов С.А. 2007. Гидробиологическое самоочищение вод: от изучения биологических механизмов к поиску экотехнологий (Серия «Академические чтения», вып. 48) - Москва: ФГУП Изд-во «Нефть и газ» РГУ нефти и газа им. И.М. Губкина, 56 с. 134. Ostroumov S.A. 2006. Biological Effects of Surfactants. CRC Press. Taylor & Francis Boca Raton, London, New York, ISBN 0849325269, 279 p.https://www.researchgate.net/publication/200637626; DOI: 10.13140/RG.2.1.1619.9209; 135. Остроумов С.А. 2005. Загрязнение, самоочищение и восстановление водных экосистем. Москва: МАКС Пресс, ISBN 5-317-01213-9, 100 с. [Из содерж.: Раздел 16: Восстановление водных объектов, нарушенных в результате антропогенных воздействий, с оригинальной таблицей - методом оценки состояния пресноводной экосистемы и ее самоочистительного потенциала. Диплом Лауреата конкурса МОИП]. 136. Остроумов С.А. 2005. Экология и гидробиология. Программы учебных курсов. Москва: Макс-пресс. 137. Остроумов С.А. 2004. Биотический механизм самоочищения пресных и морских вод. Элементы теории и приложения. Москва: Макс-пресс, ISBN 5-317-01120-5, IV, 96 с.[Опубликованные рецензии: член-корр. РАН Малахов В.В. Рец. на книгу ("Биотический механизм самоочищения пресных и морских вод", 2004) // ESHS. 2004. Vol.10, p.138; член-корр. РАН Розенберг Г.С. (директор Института экологии Волжского бассейна РАН) Рец. на книгу ("Биотический механизм самоочищения пресных и морских вод", 2004) // Успехи современной биологии. 2005. № 3. С. 317 – 318]. 138. Остроумов С.А. 2001. Биологические эффекты при воздействии поверхностно-активных веществ на организмы. Москва: МАКС-Пресс, ISBN 5-317-00323-7, 334 с.https://www.researchgate.net/publication/266193942; 139. Алексеев А.П., Ананьев В.И., Артюхин Е.Н., Воловик С.П., Дубинина В.Г., Иванов В.П., Немова Н.Н., Остроумов С.А., Семенов А.Д., и др. 2001. Охрана, воспроизводство и рациональное использование биологических ресурсов гидросферы. Москва, 128 с. 140. Остроумов С.А. 2000. Биологические эффекты поверхностно-активных веществ в связи с антропогенными воздействиями на биосферу. Москва: МАКС-Пресс, ISBN 5-317-00040-8, 116 с. https://www.researchgate.net/publication/265444852; 141. Остроумов С.А. 1992. Wprowadzenie do ekologii biochemicznej. [=Introduction to Biochemical Ecology]. Warszawa: Wydawnictwo Naukowe PWN, ISBN 9788301104542, 205 с. (на польском языке) https://www.researchgate.net/publication/259380144; 142. Yablokov A.V., Ostroumov S.A. 1991. Conservation of Living Nature and Resources: Problems, Trends, and Prospects. Springer-Verlag Berlin (Germany), ISBN 3-540-52096-1, 272 с. (на английском языке). https://www.researchgate.net/publication/200637729; 143. Jablokov A.V., Ostroumov S.A. 1991. Ochrana Zive Prirody: Problemy a Perspectivy. Academia, Praha, ISBN 80-200-0021-6, 345 с. (на чешском языке). 144. Телитченко М.М., Остроумов С.А.1990. Введение в проблемы биохимической экологии: биотехнология, сельское хозяйство, охрана среды. Москва: Наука, ISBN 5-02-004062-2, 288 с. https://www.researchgate.net/publication/266144695; https://www.researchgate.net/publication/274137829; 145. Остроумов С.А.1990. Увод в биохимичната екология. Publishers Наука и изкуство, София, Болгария, 156 с. (на болгарском языке). 146. Yablokov A.V., Ostroumov S.A.1989. Conservacion de la Naturaleza Viva. Vneshtorgizdat; Editorial Científico-Técnica, Moscow, 238 с. (на испанском языке). 147. Яблоков А.В., Остроумов С.А.1989. Опазване на живата природа. Publishers Земиздат, София, 192 с. (на болгарском языке). 148. Остроумов С.А.1986. Введение в биохимическую экологию. Москва: Издательство МГУ, 176 с. https://www.researchgate.net/publication/282869855; https://www.researchgate.net/publication/259800839; 149. Яблоков А.В., Остроумов С.А.1985. Уровни охраны живой природы. Наука, Москва, 176 с. https://www.researchgate.net/publication/259894148; DOI: 10.13140/RG.2.1.3925.7687; 150. Яблоков А.В., Остроумов С.А. Охрана живой природы: проблемы и перспективы. Москва. Издательство Лесная промышленность. 1983. 269 с. (на книгу опубликованы положительные рецензии академиком Е.М. Лавренко и др. учеными. Книга включена в программы университетских курсов и программы кандидатского минимума по экологии, переведена академическими издательствами нескольких стран на другие языки). https://www.researchgate.net/publication/265050851; 151. Остроумов С.А. Глава 3. Живое вещество и роль детрита в биогенной миграции микроэлементов // В книге: Инновационные аспекты биогеохимии, 2012, с.103-133. 152. Остроумов С.А. Эволюция концепции В.И. Вернадского (биогенная миграция атомов) и новые факты. // В сборнике: Экологические и биологические системы. Сер. "Ecological Studies, Hazards, Solutions" Отв. редакторы: С.В. Котелевцев, С.Н. Орлов, О.М. Горшкова, С.А. Остроумов. Москва, 2015. С. 155-161. 153. Остроумов С.А. Развитие наук о биосфере и геохимическая среда: четвертый биогеохимический принцип. // В сборнике: Экологические и биологические системы. Сер. "Ecological Studies, Hazards, Solutions" Отв. редакторы: С.В. Котелевцев и др.Москва, 2015. С. 161-165. 154. Электронный ресурс. Modernization of education in environmental science and ecology.https://www.researchgate.net/publication/278575594; DOI: 10.13140/RG.2.1.1990.6723; 155. Остроумов С.А. Альтернативные (non-animal) методы биотестирования экотоксикантов. // В сборнике: Экологические и биологические системы. Сер. "Ecological Studies, Hazards, Solutions". Отв. редакторы: С.В. Котелевцев и др. Москва, 2015. С. 165-173. Ostroumov S. A. Biological filtering and ecological machinery for self-purification and bioremediation in aquatic ecosystems: towards a holistic view https://www.researchgate.net/publication/227317445 156. // Rivista di Biologia/Biology Forum. 1998. V.91. P. 221-232.https://www.researchgate.net/publication/215639449; 157. Остроумов С.А., Донкин П. (Donkin P.), Стафф Ф. (Staff F.). Нарушение фильтрации двустворчатыми моллюсками под воздействием синтетических поверхностно-активных веществ двух классов // Доклады академии наук (ДАН). 1998. Т. 362. № 4. С. 574-576. English edition: Ostroumov S. A., Donkin P., Staff F. Filtration inhibition induced by two classes of synthetic surfactants in the bivalve mollusk Mytilus edulis // Doklady Biological Sciences, 1998. Vol. 362, P. 454-456. https://www.researchgate.net/publication/264039568; 158. Остроумов С.А. Некоторые аспекты оценки биологической активности ксенобиотиков // Вестник Моск. ун-та. Серия 16. 1990. Биология, № 2, C.27-34. https://www.researchgate.net/publication/274249853. 159. Фишер Н., Маертц-Уэнте М., Остроумов С.А. Воздействие загрязнения водной среды неионогенным ПАВ на морскую диатомовую водоросль Thalassiosira pseudonana // Известия Российской академии наук. Серия биологическая. 1996. № 1. С. 91-95. English edition: Fisher N., Maertz-Wernte M., Ostroumov S. A. Effects of aquatic pollution by a non-ionogenic surfactant on the marine diatom Thalassiosira pseudonana. – Biology Bulletin (The original Russian title of the journal: Izvestiya Akademii Nauk Seriya Biologicheskaya). — 1996. — no. 1. — p. 91–95. https://www.researchgate.net/publication/264984288; 160. Остроумов С.А., Максимов В.Н. Биотестирование растворов ПАВ на основе регистрации нарушения прикрепления проростков к субстрату и образования корневых волосков // Известия АН СССР, серия биологическая, 1991, № 4, С. 571-575. English edition: Ostroumov S.A. and Maksimov V.N., Bioassay of surfactants based on the disruption of seedling attachment to the substrate and rhizoderm root hair formation. - Biology Bulletin of the Academy of Sciences of the USSR (USA; ISSN 0098-2164) 1992, v. 18(4) p. 383-386; https://www.researchgate.net/publication/265555551; 161. Остроумов С.А., Донкин П., Стафф Ф. Ингибирование анионным поверхностно-активным веществом способности мидий Mytilus edulis фильтровать и очищать морскую воду // Вестник МГУ. Серия 16. Биология. 1997. № 3. С. 30-36.https://istina.msu.ru/publications/article/1064220/ 162. Уотербери Дж. (Waterbury J.), Остроумов С.А. Действие неионогенного поверхностно - активного вещества на цианобактерии // Микробиология. 1994. Т.63, вып.2, С. 258-262. English edition: Waterbury J.; Ostroumov S. A. Effect of Nonionogenic Surfactant on Cyanobacteria. - Microbiology 1994. 63(2):140-142; https://www.researchgate.net/publication/264988450; **
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