(8) Top, useful, science publications, articles, papers in peer-reviewed scientific journals,
ecology, environment, protection, environmental, water, best,
selected examples (part 8)
http://5bio5.blogspot.com/2014/10/8-top-useful-science-publications.html
Contribution to development of green technologies for water decontamination:
E.g., the paper on heavy metals:
https://www.researchgate.net/publication/259579700_Paper_published_titled_Decreasing_the_Measurable_Concentrations_of_Cu_Zn_Cd_and_Pb_in_the_Water_of_the_Experimental_Systems_Containing_Ceratophyllum_demersum_The_Phytoremediation_Potential?ev=prf_pub
This article was bookmarked by members of ResearchGate:
https://www.researchgate.net/publication/225149600_Accelerated_decrease_in_surfactant_concentration_in_the_water_of_a_microcosm_in_the_presence_of_plants_Innovations_for_phytotechnology ;
This paper was upvoted at ResearchGate.
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.
DOI:10.1134/S0012496609020276 ;
A new contribution to the scientific basis of phytoremediation and phytotechnology for water treatment; AQUATIC PLANT HELP REMOVE SYNTHETIC SURFACTANT FROM WATER.
ecology, environment, protection, environmental, water, best,
selected examples (part 8)
http://5bio5.blogspot.com/2014/10/8-top-useful-science-publications.html
Stabili, L., Licciano, M., Giangrande, A., Longo, C., Mercurio, M., Marzano, C.N., Corriero, G. Filtering activity of Spongia officinalis var. adriatica (Schmidt) (Porifera, Demospongiae) on bacterioplankton: Implications for bioremediation of polluted seawater. - 2006, Water Research, v. 40 (16), pp. 3083-3090 [Citing: Studying effects of some surfactants and detergents on filter-feeding bivalves (2003) Hydrobiologia, 500, pp. 341-344].
Stabili, L., Licciano, M., Longo, C., Corriero, G., Mercurio, M. Evaluation of microbiological accumulation capability of the commercial sponge Spongia officinalis var. adriatica (Schmidt) (Porifera, Demospongiae) Water Research, 2008, vol. 42 (10-11), pp. 2499-2506.
Valkiunas G. Practical importance of parasitic diseases: An outlook from the point of view of ecological parasitology. - Ekologija (Vilnius). 2001. Nr. 3, p. 28-33. [ISSN 0235–7224].
Vaughan R. A., Arthur P. Cracknell. Remote Sensing and Global Climate Change. 1994. 495 p.
Vaughn, C. C., Nichols, S. J., Spooner, D. E. Community and foodweb ecology of freshwater mussels // Journal of the North American Benthological Society. 2008. Vol. 27, Issue 2, P. 409-423. [Citing: Some aspects of water filtering activity of filter-feeders. Hydrobiologia. 2005. 542:275–286].
Wang X., Y. An, J. Zhang, X. Shi, C. Zhu, R. Li , M. Zhu, S. Chen. Contribution of biological processes to self-purification of water with respect to petroleum hydrocarbon associated with No. 0 diesel in Changjiang Estuary and Jiaozhou Bay, China // Hydrobiologia, 2002. Volume 469, Numbers 1-3, P. 179-191.
Wildlife Toxicology and Population Modeling: Integrated Studies of Agroecosystems (SETAC Special Publications Series). Editors: Ronald J. Kendall, Thomas E. Lacher, [SETAC Foundation for Environmental Education, Society of Environmental Toxicology and Chemistry, SETAC] 1993. Publisher: CRC. 592 p. [ISBN-13: 9780873715911 ISBN: 0873715918].
Zaitsev Iu.P., V.O. Mamaev, V. Mamaev. Marine Biological Diversity in the Black Sea: A Study of Change and Decline. - 1997 - United Nations Publications.
Абакумов В.А. Инновационные подходы к восстановлению и ремедиации загрязненных водных объектов // Вода: технология и экология (= Water Technology and Ecology). 2007. No.4, стр. 69-73.
Айздайчер Н.А., Маркина Ж.В. Токсическое действие детергентов на водоросль Plagioselmis prolonga (Cryptophyta) // Биология моря, 32 (2006), 1 (январь), 50-54.
Stabili, L., Licciano, M., Longo, C., Corriero, G., Mercurio, M. Evaluation of microbiological accumulation capability of the commercial sponge Spongia officinalis var. adriatica (Schmidt) (Porifera, Demospongiae) Water Research, 2008, vol. 42 (10-11), pp. 2499-2506.
Valkiunas G. Practical importance of parasitic diseases: An outlook from the point of view of ecological parasitology. - Ekologija (Vilnius). 2001. Nr. 3, p. 28-33. [ISSN 0235–7224].
Vaughan R. A., Arthur P. Cracknell. Remote Sensing and Global Climate Change. 1994. 495 p.
Vaughn, C. C., Nichols, S. J., Spooner, D. E. Community and foodweb ecology of freshwater mussels // Journal of the North American Benthological Society. 2008. Vol. 27, Issue 2, P. 409-423. [Citing: Some aspects of water filtering activity of filter-feeders. Hydrobiologia. 2005. 542:275–286].
Wang X., Y. An, J. Zhang, X. Shi, C. Zhu, R. Li , M. Zhu, S. Chen. Contribution of biological processes to self-purification of water with respect to petroleum hydrocarbon associated with No. 0 diesel in Changjiang Estuary and Jiaozhou Bay, China // Hydrobiologia, 2002. Volume 469, Numbers 1-3, P. 179-191.
Wildlife Toxicology and Population Modeling: Integrated Studies of Agroecosystems (SETAC Special Publications Series). Editors: Ronald J. Kendall, Thomas E. Lacher, [SETAC Foundation for Environmental Education, Society of Environmental Toxicology and Chemistry, SETAC] 1993. Publisher: CRC. 592 p. [ISBN-13: 9780873715911 ISBN: 0873715918].
Zaitsev Iu.P., V.O. Mamaev, V. Mamaev. Marine Biological Diversity in the Black Sea: A Study of Change and Decline. - 1997 - United Nations Publications.
Абакумов В.А. Инновационные подходы к восстановлению и ремедиации загрязненных водных объектов // Вода: технология и экология (= Water Technology and Ecology). 2007. No.4, стр. 69-73.
Айздайчер Н.А., Маркина Ж.В. Токсическое действие детергентов на водоросль Plagioselmis prolonga (Cryptophyta) // Биология моря, 32 (2006), 1 (январь), 50-54.
E.g., the paper on heavy metals:
https://www.researchgate.net/publication/259579700_Paper_published_titled_Decreasing_the_Measurable_Concentrations_of_Cu_Zn_Cd_and_Pb_in_the_Water_of_the_Experimental_Systems_Containing_Ceratophyllum_demersum_The_Phytoremediation_Potential?ev=prf_pub
This article was bookmarked by members of ResearchGate:
https://www.researchgate.net/publication/225149600_Accelerated_decrease_in_surfactant_concentration_in_the_water_of_a_microcosm_in_the_presence_of_plants_Innovations_for_phytotechnology ;
This paper was upvoted at ResearchGate.
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.
DOI:10.1134/S0012496609020276 ;
A new contribution to the scientific basis of phytoremediation and phytotechnology for water treatment; AQUATIC PLANT HELP REMOVE SYNTHETIC SURFACTANT FROM WATER.
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