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http://5bio5.blogspot.com/2016/10/blog-post_28.html
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Библиография
http://5bio5.blogspot.com/2016/10/blog-post_28.html
Работы сотрудника МГУ д.б.н. С.А.Остроумова используются и цитируются учеными ряда стран. Среди них – научные работники США (Vaughn et al., 2008), Италии (Loredana Stabili et al., 2015), Франции (Christine Poulard et al., 2010), Бельгии (Yagci et al., 2011), Англии (James A. Bussell et al., 2008), Нидерландов (Brenda Walles et al., 2015), Германии (Eva-Maria Lummer et al., 2016), Австралии (Dafforn et al., 2009), Испании, Греции и других стран.
Публикации этого автора по вопросам самоочищения воды и фильтрационной активности водных организмов используются и цитируются также в связи с вопросами качества воды в водных экосистемах Азии - например, учеными Китая (Keqiang Li et al., 2013) и Индии (Rebello et al., 2014).
Результаты научной работы и публикации автора цитируются также исследователями Латинской Америки (например, Grotto et al., 2012).
Примеры использования и цитирования работ учеными этих стран даны ниже в таблице 1.
Таблица 1. Использование публикаций сотрудника МГУ д.б.н. С.А.Остроумова в работах исследователей экологических и биологических проблем. По материалам публикаций и цитирования в трудах ученых ряда стран (США, Россия, Англия, Нидерланды, Франция, Италия, Испания, Бельгия, Германия, Австралия, Китай, Индия, Польша, Бразилия, Уругвай и др.)
Table 1. Use and citation of publications of S.Ostroumov
Используемые публикации автора | Область использования | Публикации, которые используют и цитируют работу, указанную в левой колонке (примеры) |
Toxicity of gold nanoparticles for plants in experimental aquatic system. Moscow University Biological Sciences Bulletin, 2014, V. 69, No. 3, P. 108; S. A. Ostroumov et al. | Открытие новых форм токсичности, в том числе токсичности золота и наноматериалов | Exposure of engineered nanomaterials to plants: Insights into the physiological and biochemical responses-a review. N. Zuverza-Mena, et al.; Plant Physiology and Biochemistry, 2016, in press [259]; Испания; |
An Amphiphilic Substance Inhibits the Mollusk Capacity to Filter out Phytoplankton Cells from Water; Biology Bulletin of Rus. Acad. Sci., 2001, 28 (1), P. 95; S. A. Ostroumov | Новые виды опасности для окружающей среды, ОВОС (оценка воздействия на окруж. среду); | Fine sediment as environmental stressor affecting freshwater mussel behavior and ecosystem services; Eva-Maria Lummer, Karl Auerswald and Juergen Geist; Journal: Science of The Total Environment, 2016; DOI: 10.1016/j.scitotenv.2016.07.027; Германия; |
On the Multifunctional Role of the Biota in the Self-Purification of Aquatic Ecosystems; Rus. J. Ecology, 2005, 36 (6): 414; S. A. Ostroumov; www.researchgate.net/publication/227317445; | Снижение загрязнения морской воды углеводородами нефти, нефтепродуктами | Environmental capacity of petroleum hydrocarbon pollutants in Jiaozhou Bay, China: Modeling and calculation; K. Li, Y. Su, J. Ying, X. Wang and J. Mu; Journal of Ocean University of China, 2013, V. 12, Number 1, P.70-76 [260]; Китай; |
On the Multifunctional Role of the Biota in the Self-Purification of Aquatic Ecosystems; Russian Journal of Ecology, 2005, V.36, No. 6, P. 414; S. A. Ostroumov; https://www.researchgate.net/publication/227317445; | Устойчивое использование пресноводных ресурсов | Flood mitigation designs with respect to river ecosystem functions - A problem oriented conceptual approach; Christine Poulard, Michel Lafont, Anna Lenar-Matyas and Marta Lapuszek; Journal: Ecological Engineering, 2010, Volume 36, Number 1, Page 69-77; [261] Франция, Польша |
Some aspects of water filtering activity of filter-feeders. Hydrobiologia, 2005, V. 542, No. 1, P. 275; S. A. Ostroumov; full text online free: Полный текст онлайн: | Биоремедиация морской воды и удаление из нее микроорганизмов | Evaluation of microbiological accumulation capability of the commercial sponge Spongia officinalis …; L. Stabili et al., Water Research, 2008, 42 (10-11): 2499-2506; [262] The Mediterranean non-indigenous ascidian Polyandrocarpa zorritensis: Microbiological accumulation capability and environmental …; Stabili et al. Marine Pollution Bulletin, 2015, 101 (1): 146; [263] Filter-feeder macroinvertebrates as key players in culturable bacteria biodiversity control… M. Licciano et al., Marine Environmental Research, 2007, 64(4): 504; [264] Bacterial accumulation by the Demospongiae Hymeniacidon perlevis: A tool for the bioremediation of polluted seawater. C. Longo et al.: Marine Pollution Bulletin, 2010, 60 (8): 1182; [265] Sewage-exposed marine invertebrates: survival rates and microbiological accumulation; L.Stabili, et al.: Environmental Science and Pollution Research, 2013, 20 (3): 1606; Италия |
Some aspects of water filtering activity of filter-feeders. Hydrobiologia, 2005, V. 542, No. 1, P. 275; S. A. Ostroumov; Полный текст онлайн: | Выявление связей между иммунитетом и факторами окружающей среды | Changes in the immune response and metabolic fingerprint of the mussel, Mytilus edulis (Linnaeus) in response to lowered salinity and physical stress; Bussell et al.; Journal of Experimental Marine Biology and Ecology, 2008, 358: 78; Англия; [266] |
То же | Биотехнология | Biotechnological potential of the seaweed Cladophora rupestris … Stabili et al.; New Biotechnology, 2014, 31: 436; [267] The lipidic extract of the seaweed Gracilariopsis longissima (Rhodophyta, …): a potential resource for biotechnological purposes? L. Stabili et al. New Biotechnology, 2012, 29: 443; Италия |
То же | Роль беспозвоночных в создании рифов | Demography of the ecosystem engineer Crassostrea gigas, related to vertical reef accretion and reef persistence; B. Walles, R. Mann, T. Ysebaert, K. Troost, Peter M.J. Herman, Aad C. Smaal; Estuarine, Coastal and Shelf Science, 2015, 154: 224; Нидерланды, США; [268] |
То же | Улучшение качества воды в пресных водоемах Европы и Северной Америки | Community and foodweb ecology of freshwater mussels; C.C. Vaughn, et al.; Journal of the North American Benthological Society, 2008, 27: 409; США ; [269] Cultivation of zebra mussels (Dreissena polymorpha) within their invaded range to improve water quality in reservoirs. C. McLaughlan, D.C. Aldridge; Water Research, 2013, 47: 4357; University of Cambridge, United Kingdom ; |
То же | Познание закономерностей биологии видов-вселенцев | Links between estuarine condition and spatial distributions of marine invaders; K.A. Dafforn et al., Diversity and Distributions, 2009, V. 15, No. 5, P. 807; [270] Австралия |
То же | Токсичные элементы в морепродуктах | Evaluation by ICP-MS of Essential, Nonessential and Toxic Elements in Brazilian Fish and Seafood Samples; D.Grotto et al.: Food and Nutrition Sciences, 2012, 3: 1252; [271] Brazil |
Some aspects of water filtering activity of filter-feeders. Hydrobiologia, 2005, V. 542, No. 1, P. 275; S. A. Ostroumov; Полный текст онлайн: | Экосистемы Средиземного моря, используемые для добычи моллюсков | Reproduction and size at first maturity in a Mediterranean exploited Callista chione bivalve bed; E. Galimany, M. Baeta, M. Durfort, J.Lleonart, and M. Ramón; Scientia Marina, 2015, V. 79, No. 2, P. 233; Испания [272] |
То же | Биология мидий в морских экосистемах США | Quantifying Feeding Behavior of Ribbed Mussels (Geukensia demissa) in Two Urban Sites (Long Island Sound, USA) with Different Seston Characteristics. Galimany et al.; Estuaries and Coasts, 2013, V. 36, No. 6, P. 1265; США [273] |
То же | Аквакультура | Bioremediation of bacteria in aquaculture waste using the polychaete Sabella spallanzanii. L. Stabili, et al. New Biotechnology, 2010, V. 27, No. 6, Page 774; Италия |
То же | Ремедиация загрязненной водной среды | Aquatic zooremediation: deploying animals to remediate contaminated aquatic environments. S. Gifford et al. 2007. Trends in Biotechnology, 25 (2), pp. 60-65. США, Австралия |
То же | Новые перспективы аквакультуры в пресных водах | Alternative food sources of native and non-native bivalves in a subtropical … Marroni et al.: Hydrobiologia, 2014, 735: 263; Уругвай |
Studying effects of some surfactants and detergents on filter-feeding bivalves; Hydrobiologia, 2003, 500 (1-3): 341; S. A. Ostroumov; free full text: https://www.researchgate.net/publication/226127394; | Экологическая безопасность; Выявление новых аспектов опасности химического загрязнения | Surfactants: toxicity, remediation and green surfactants; Sharrel Rebello, et al.: Environmental Chemistry Letters, 2014, 12: 275; [234] Индия; Exposure of marine mussels Mytilus spp. to polystyrene microplastics: Toxicity and influence on fluoranthene bioaccumulation; Paul-Pont et al.,: Environmental Pollution, 2016; [235] Effects of sodium dodecylbenzene sulfonate and sodium dodecyl sulfate on the Mytilus galloprovincialis biomarker system; Bo Liu, et al.: Ecotoxicology and Environmental Safety, 2010, 73: 835; [236] |
Studying effects of some surfactants and detergents on filter-feeding bivalves; Hydrobiologia, 2003, 500 (1-3): 341; S. A. Ostroumov; free full text: www.researchgate.net/publication/226127394; | Более глубокое понимание явления окислительного стресса (oxidative stress) | Effect of sodium dodecyl sulfate (SDS) on stress response in the … (Mytilus galloprovincialis): Regulatory volume decrease (Rvd) and modulation of biochemical markers related to oxidative stress; Messina et al.: Aquatic Toxicology, 2014, V. 157, P. 94; [237] |
То же | Реагирование мидий на загрязнение морской воды | Okay, O. S. et al. Micro-organic pollutants and biological response of mussels in marinas and ship building/breaking yards in Turkey; Science of The Total Environment, 2014, 496: 165; a Istanbul Technical University; b İnönü University Malatya, Turkey; c Helmholtz Zentrum München, German Research Center for Environmental Health, Institute of Ecological Chemistry, Neuherberg, Germany; d TUM, Wissenschaftszentrum Weihenstephan für Ernährung und Landnutzung, Freising, Germany; [238] Германия, Турция |
То же | Биотехнология, создание экологически безопасного детергента | Bioconversion of Sodium Dodecyl Sulphate to Rhamnolipid by Pseudomonas aeruginosa: A Novel and Cost-Effective Production Strategy. Rebello et al. Applied Biochemistry Biotechnology, 2013, V. 169, No.2, P. 418 [239]. Индия |
То же | Очищение среды от микробного загрязнения | Sewage-exposed marine invertebrates: survival rates and microbiological accumulation; Stabili, et al.; Environmental Science and Pollution Research, 2013, 20 (3):1606; [240] |
То же | Поиск экологически безопасных детергентов | Natural surfactant extracted from Sapindus mukurossi as an eco-friendly alternate to synthetic surfactant - a dye surfactant interaction study; S.-T. Muntaha and M. N.Khan; J. of Cleaner Production, 2015, 93: 145; [241] |
On the concepts of biochemical ecology and hydrobiology: Ecological chemomediators; Contemporary Problems of Ecology, 2008, Volume 1, Number 2, Page 238; S. A. Ostroumov | Регуляция в биосфере, биологический подход в поиске новых полезных веществ; | First insights into the biochemistry of Sabella spallanzanii (Annelida: Polychaeta) mucus: a potentially unexplored resource for applicative purposes; Stabili, et al.: J. of Marine Biological Association of the United Kingdom, 2011, 91: 199; [242] The Mucus of Actinia equina (Anthozoa, Cnidaria): An Unexplored Resource for Potential Applicative Purposes; L. Stabili et al.: Marine Drugs, 2015, 13: 5276; [243] Role of Myxicola infundibulum (Polychaeta, Annelida) mucus: From bacterial control to …; Stabili, et al.: J. of Experimental Marine Biology and Ecology, 2014, 461: 344; [244] |
Responses of Unio tumidus to Mixed Chemical Preparations and the Hazard of Synecological Summation of Anthropogenic Effects; Doklady Biol. Sci., 2001, 380 (1-6): 492; S. A. Ostroumov; | Очищение среды от химического загрязнения | Chapter: Adsorption of Synthetic Surfactants from Aqueous Solutions on Natural Adsorbents, P. 143-171, Alisa Sineva; Chapter 6 in: The Role of Colloidal Systems in Environmental Protection; Year: 2014; doi:10.1016/B978-0-444-63283-8.00006-5; [245] Россия |
Inhibitory Analysis of Regulatory Interactions in Trophic Webs; Doklady Biological Sciences, 2001, V. 377, Number 1-6, P. 139; S. A. Ostroumov | Новые подходы к очищению среды от микробного загрязнения | Association of a luminous Vibrio sp., taxonomically related to Vibrio harveyi, with Clytia linearis (Thornely, 1900) (Hydrozoa, Cnidaria); L. Stabili, et al. Journal of Experimental Marine Biology and Ecology, 2011, V. 396, No. 2, P. 77; [246] |
On studying the hazards of pollution of the biosphere: Effects of sodium dodecylsulfate (SDS) on planktonic filter-feeders; Dokl. Biol. Sciences, 2009, 425: 133; I. M. Vorozhun, S. A. Ostroumov | Поиск экологически безопасных полезных веществ | Natural surfactant extracted from Sapindus mukurossi as an eco-friendly alternate to synthetic surfactant - a dye surfactant interaction study; Sidra-Tul Muntaha, and M. Nasiruddin Khan; Journal: Journal of Cleaner Production, 2015, Volume 93, Page 145; Пакистан; |
Biological Effects of Surfactants. S. A. Ostroumov. CRC Press, 2005; Print ISBN: 978-0-8493-2526-7e Book ISBN: 978-1-4200-2129-5; DOI: 10.1201/9781420021295.ch1; In English. | Создание антимикробных покрытий, борьба с бактериальными пленками | Example of publication that cited this book: M.B. Yagci et al. Self-stratifying antimicrobial polyurethane coatings. - Progress in Organic Coatings. 2011, 72: 305–314. doi:10.1016/j.porgcoat.2011.04.021. [a Eindhoven University of Technology [Technische Universiteit Eindhoven], Netherlands; b Faculty of Bioscience Engineering, Ghent University, Belgium; c Lab. of Polymer Chemistry, Eindhoven University of Technology, Netherlands]; |
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.
Детальная информация о цитировании статей автора по биологическим проблемам качества воды в русскоязычных изданиях – см. на сайте:
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)
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Библиография
Rebello S., Aju K. Asok, Sathish Mundayoor, and M.S. Jisha. Surfactants: toxicity, remediation and green surfactants // Environmental Chemistry Letters, 2014, V. 12, Number 2, P. 275;
Paul-Pont I., Camille Lacroix, Carmen González Fernández, H. Hégaret, C. Lambert, Nelly Le Goïc, L. Frère, A.-L. Cassone, R. Sussarellu, C. Fabioux, J. Guyomarch, M. Albentosa, A. Huvet, and P. Soudant. Exposure of marine mussels Mytilus spp. to polystyrene microplastics: Toxicity and influence on fluoranthene bioaccumulation // Environmental Pollution, 2016; in press;
Liu B., Yu Z., Song X., and Yang F. Effects of sodium dodecylbenzene sulfonate and sodium dodecylsulfate on the Mytilus galloprovincialisbiomarker system // Ecotoxicology and Environmental Safety, 2010, V. 73, Number 5, P. 835;
Messina C.M., Caterina Faggio, Vincenzo Alessandro Laudicella, M. Sanfilippo, F. Trischitta, and A. Santulli. Effect of sodium dodecyl sulfate (SDS) on stress response in the Mediterranean mussel (Mytilus galloprovincialis): Regulatory volume decrease (Rvd) and modulation of biochemical markers related to oxidative stress // Aquatic Toxicology, 2014, V. 157, P. 94;
Okay O. S., Karacik B. , Gungordu A., Ozmen M. , Yilmaz A., Koyunbaba N. C., Yakan S. D., Korkmaz V., Henkelmann B., Schramm K. W. Micro-organic pollutants and biological response of mussels in marinas and ship building / breaking yards in Turkey // Science of The Total Environment, 2014, V. 496, P. 165;
Rebello R., Asok A.K., Joseph S.V., Joseph B.V., Jose L., Mundayoor S., and Jisha M.S. Bioconversion of Sodium Dodecyl Sulphate to Rhamnolipid by Pseudomonas aeruginosa: A Novel and Cost-Effective Production Strategy // Applied Biochemistry and Biotechnology, 2013, V. 169, Number 2, P. 418.
Stabili L., Antonio Terlizzi, and R. A. Cavallo. Sewage-exposed marine invertebrates: survival rates and microbiological accumulation // Environmental Science and Pollution Research, 2013, V. 20, Number 3, P. 1606;
Muntaha S.-T., and M. N. Khan. Natural surfactant extracted from Sapindus mukurossi as an eco-friendly alternate to synthetic surfactant - a dye surfactant interaction study // Journal of Cleaner Production, 2015, V. 93, P. 145;
Stabili L., Roberto Schirosi, Angela Di Benedetto, A. Merendino, L. Villanova, and A. Giangrande. First insights into the biochemistry of Sabella spallanzanii (Annelida: Polychaeta) mucus: a potentially unexplored resource for applicative purposes // Journal of the Marine Biological Association of the United Kingdom, 2011, V. 91, Number 1, P. 199;
Stabili L., Roberto Schirosi, M. Parisi, S. Piraino, and M. Cammarata. The Mucus of Actinia equina (Anthozoa, Cnidaria): An Unexplored Resource for Potential Applicative Purposes // Marine Drugs, 2015, V. 13, Number 8, P. 5276;
Stabili L., Roberto Schirosi, M.Licciano, and A. Giangrande. Role of Myxicola infundibulum (Polychaeta, Annelida) mucus: From bacterial control to nutritional home site // Journal of Experimental Marine Biology and Ecology, 2014, V. 461, P. 344;
Sineva A. Adsorption of Synthetic Surfactants from Aqueous Solutions on Natural Adsorbents, Chapter 6 in: The Role of Colloidal Systems in Environmental Protection; 2014; P. 143-171, doi:10.1016/B978-0-444-63283-8.00006-5;
Stabili L., Cinzia Gravili, S. M. Tredici, F. Boero, and P. Alifano. Association of a luminous Vibrio sp., taxonomically related to Vibrio harveyi, with Clytia linearis (Thornely, 1900) (Hydrozoa, Cnidaria) // Journal of Experimental Marine Biology and Ecology, 2011, V. 396, Number 2, P. 77;
Muntaha S.-T., and M. N. Khan. Natural surfactant extracted from Sapindus mukurossi as an eco-friendly alternate to synthetic surfactant - a dye surfactant interaction study // Journal of Cleaner Production, 2015, V. 93, P.145;
Моисеенко Т.И., Базова М.М. Закисление вод и его влияние на содержание элементов в природных водах Кольского Севера // Геохимия. 2016. № 1. С. 126.
Моисеенко Т.И., Гашкина Н.А. Биоаккумуляция ртути в рыбах как индикатор уровня загрязнения вод // Геохимия. 2016. № 6. с. 495-504.
Moiseenko T.I., Dinu M.I., Bazova M.M., De Wit H.A. Long-term Changes in the Water Chemistry of Arctic Lakes as a Response to Reduction of Air Pollution: Case Study in the Kola, Russia // Water, Air, & Soil Pollution. 2015. т. 226. № 4. с. 98.
Моисеенко Т.И. Влияние геохимических факторов водной среды на биоаккумуляцию металлов в организме рыб // Геохимия. 2015. № 3. С. 222.
Моисеенко Т.И. Эволюционные процессы в современной биосфере // Природа. 2015. № 10. С. 21-28.
Паничева Л.П., Моисеенко Т.И., Кремлева Т.А., Волкова С.С. Формирование состава органических веществ в малых озерах Западной Сибири // Вестник Тюменского государственного университета. Экология и природопользование. 2015. Т. 1. № 1 (1). С. 151-163.
Моисеенко Т.И. Биогеохимическая индикация техногенных провинций и микроэлементозов рыб // Вестник Тюменского государственного университета. Экология и природопользование. 2015. Т. 1. № 1 (1). С. 7-25.
Хорошавин В.Ю., Моисеенко Т.И. Вынос нефтяных углеводородов реками с территорий нефтегазодобывающих районов севера Западной Сибири // Водные ресурсы. 2014. Т. 41. № 5. С. 518.
Моисеенко Т.И., Базова М.М., Ефимова Л.Е. Изменение химического состава вод малых озер Кольского Севера вследствие снижения аэротехногенного загрязнения и потепления климата // Доклады Академии наук. 2014. Т. 456. № 1. С. 87.
Moiseenko T.I., Selukov A.G., Kyrov D.N. Water Quality Assessment Methods: the Comparative Analysis // В книге: Water Quality: Indicators, Human Impact and Environmental Health. 2013. С. 239-257.
Lummer, E. M., Auerswald, K., & Geist, J. Fine sediment as environmental stressor affecting freshwater mussel behavior and ecosystem services. // Science of the Total Environment. 2016 (in press).
Zuverza-Mena, N., Martínez-Fernández, D., Du, W., Hernandez-Viezcas, J.A., Bonilla-Bird, N., López-Moreno, M.L., Komárek, M., Peralta-Videa, J.R. and Gardea-Torresdey, J.L., 2016. Exposure of engineered nanomaterials to plants: Insights into the physiological and biochemical responses - A review. // Plant Physiology and Biochemistry (in press).
Li, K., Su, Y., Ying, J., Wang, X. and Mu, J., 2013. Environmental capacity of petroleum hydrocarbon pollutants in Jiaozhou Bay, China: Modeling and calculation. // Journal of Ocean University of China, 12(1), pp.70-76.
Poulard, C., Lafont, M., Lenar-Matyas, A. and Łapuszek, M., 2010. Flood mitigation designs with respect to river ecosystem functions—A problem oriented conceptual approach. // Ecological Engineering, 36(1), pp.69-77.
Stabili, L., Licciano, M., Longo, C., Corriero, G. and Mercurio, M., 2008. Evaluation of microbiological accumulation capability of the commercial sponge Spongia officinalis var. adriatica (Schmidt) (Porifera, Demospongiae) // Water Research, 42(10), pp.2499-2506.
Stabili, L., Licciano, M., Longo, C., Lezzi, M. and Giangrande, A., 2015. The Mediterranean non-indigenous ascidian Polyandrocarpa zorritensis: Microbiological accumulation capability and environmental implications // Marine Pollution Bulletin, 101(1), pp.146-152.
Licciano, M., Terlizzi, A., Giangrande, A., Cavallo, R.A. and Stabili, L., 2007. Filter-feeder macroinvertebrates as key players in culturable bacteria biodiversity control: a case of study with Sabella spallanzanii(Polychaeta: Sabellidae). // Marine Environmental Research, 64(4), pp.504-513.
Longo, C., Corriero, G., Licciano, M. and Stabili, L., 2010. Bacterial accumulation by the Demospongiae Hymeniacidon perlevis: a tool for the bioremediation of polluted seawater // Marine Pollution Bulletin, 60(8):1182-1187.
Bussell, J.A., Gidman, E.A., Causton, D.R., Gwynn-Jones, D., Malham, S.K., Jones, M.L.M., Reynolds, B. and Seed, R., 2008. Changes in the immune response and metabolic fingerprint of the mussel, Mytilus edulis (Linnaeus) in response to lowered salinity and physical stress. // Journal of Experimental Marine Biology and Ecology, 358(1), pp.78-85.
Stabili, L., Acquaviva, M.I., Biandolino, F., Cavallo, R.A., De Pascali, S.A., Fanizzi, F.P., Narracci, M., Cecere, E. and Petrocelli, A., 2014. Biotechnological potential of the seaweed Cladophora rupestris(Chlorophyta, Cladophorales) lipidic extract. // New Biotechnology, 31(5), pp.436-444.
Walles, B., Mann, R., Ysebaert, T., Troost, K., Herman, P.M. and Smaal, A.C., 2015. Demography of the ecosystem engineer Crassostrea gigas, related to vertical reef accretion and reef persistence. // Estuarine, Coastal and Shelf Science, 154, pp.224-233.
Vaughn, C.C., Nichols, S.J. and Spooner, D.E., 2008. Community and foodweb ecology of freshwater mussels // Journal of the North American Benthological Society, 27(2), pp.409-423.
Dafforn, K.A., Glasby, T.M. and Johnston, E.L., 2009. Links between estuarine condition and spatial distributions of marine invaders // Diversity and Distributions, 15(5), pp.807-821.
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