26.3.15.
http://www.scribd.com/doc/54992378/
http://scipeople.com/publication/120004/ ;
Остроумов С.А., Демина Л.Л. Тяжелые металлы (Fe, Mn, Zn, Cu, Cd, Cr) в биогенном детрите микрокосмов с водными организмами // Экология промышленного производства, 2010, № 2, с. 53-56.
http://5bio5.blogspot.ru/2012/07/fe-mn-zn-cu-cd-cr.html
Heavy metals (Fe, Mn, Zn, Cu, Cd, Cr) in biogenic detritus
in microcosms with aquatic organisms (in Rus. Language)
S. A. OSTROUMOV
M. V. Lomonosov, Moscow State University, Moscow, Russia
L. L. DEMINA
Institute of Oceanology of the Russian Academy of Sciences, Moscow, Russia
ABSTRACT:
Metals were measured in the biogenic detritus that accumulated over 8 months in the microcosms with Viviparus viviparus and Ceratophyllum demersum. Their concentrations were measured
using atomic absorption spectroscopy (AAS). The concentrations decreased in the order: Fe > Mn >
> Zn > Cu > Pb > Cd > >Cr. Following the addition of the metals (Fe, Mn, Zn, Cu, Cd, Cr)
into the water of the microcosm, those metals were found in the sedimented detritus at concentrations
higher than in the control. The most pronounced increase was found for Cd (the increase by
the factor of over 3), and for Cr (the increase by the factor of over 100). The new data confirm
the recent theory of the polyfunctional role of the biota in water quality control and water selfpurification.
Health. 2006. — Burlington: United Nations Environment Programme
Global Environment Monitoring System / Water Programme. — 132 с.
9. Ostroumov S. A. 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. P. 221—
232.
10. Ostroumov S. A. Inhibitory analysis of top-down control: new
keys to studying eutrophication, algal blooms, and water selfpurification//
Hydrobiology. 2002. V. 469. P. 117—129. http://www.scribd.com/doc/52598579/
11. Ostroumov S. A. Biological Effects of Surfactants. — Boca Raton,
London, New York: CRC Press. Taylor & Francis, 2006. — 279 p. http://www.scribd.com/doc/64066178/
ability of a water-carrying lake//Chinese Journal of Ecology
2007. No. 26 (8). P. 1222—1227.
15. Chatzinikolaou Y., Ioannou A., Lazaridou M. Intra-basin spatial
approach on pollution load estimation in a large Mediterranean river.
— Desalination. 2010. V. 250. Issue 1. P. 118—129.
16. Dafforn K. A., Glasby T. M., Johnston E. L. Links between estuarine
condition and spatial distributions of marine invaders//Diversity
and Distributions. 2009. V. 15 (5). P. 807—821.
17. Vaughn C. C., Nichols S. J., Spooner D. E. Community and
foodweb ecology of freshwater mussels//Journal of the North American
Benthological Society. 2008. No. 27 (2). P. 409—423.
19. 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. V. 42 (10—11). P. 2499—2506.
20. Licciano M., Terlizzi A., Giangrande A., Cavallo R.A., Stabili
L. Filter-feeder macroinvertebrates as key players in culturable bacteria
biodiversity control: A case of study with Sabella spallanzanii (Polychaeta:
Sabellidae)//Marine Environmental Research. 2007. V. 64 (4).
P. 504—513.
21. 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//Water Research.
2006. V. 40 (16). P. 3083—3090 .
22. Chatzinikolaou Y., Lazaridou M. Identification of the selfpurification
stretches of the Pinios River, Central Greece. — Me...
**
микрокосмы, Microcosms, тяжелые металлы, биогенный, детрит, Viviparus viviparus, Ceratophyllum demersum, Fe, Mn, Zn, Cu, Cd, Cr,
Тяжелые металлы (Fe, Mn, Zn, Cu, Cd, Cr) в биогенном детрите микрокосмов с водными организмами
Cтатья. полный текст -доступно онлайн, бесплатно:http://www.scribd.com/doc/54992378/
http://scipeople.com/publication/120004/ ;
Остроумов С.А., Демина Л.Л. Тяжелые металлы (Fe, Mn, Zn, Cu, Cd, Cr) в биогенном детрите микрокосмов с водными организмами // Экология промышленного производства, 2010, № 2, с. 53-56.
http://5bio5.blogspot.ru/2012/07/fe-mn-zn-cu-cd-cr.html
Heavy metals (Fe, Mn, Zn, Cu, Cd, Cr) in biogenic detritus
in microcosms with aquatic organisms (in Rus. Language)
S. A. OSTROUMOV
M. V. Lomonosov, Moscow State University, Moscow, Russia
L. L. DEMINA
Institute of Oceanology of the Russian Academy of Sciences, Moscow, Russia
ABSTRACT:
Metals were measured in the biogenic detritus that accumulated over 8 months in the microcosms with Viviparus viviparus and Ceratophyllum demersum. Their concentrations were measured
using atomic absorption spectroscopy (AAS). The concentrations decreased in the order: Fe > Mn >
> Zn > Cu > Pb > Cd > >Cr. Following the addition of the metals (Fe, Mn, Zn, Cu, Cd, Cr)
into the water of the microcosm, those metals were found in the sedimented detritus at concentrations
higher than in the control. The most pronounced increase was found for Cd (the increase by
the factor of over 3), and for Cr (the increase by the factor of over 100). The new data confirm
the recent theory of the polyfunctional role of the biota in water quality control and water selfpurification.
Keywords: monitoring, water systems, heavy metals, detritus, freshwater microcosms, aquatic organisms.
http://www.scribd.com/doc/54992378/10-Ekologia-Promyshlenn-Proizvodstva-Ost-Demina-%D0%AD%D0%9F%D0%9F-2-2010-%D1%81%D1%82%D1%80-53-56;в списке литературы:
1. Carr G. M., Neary J. P. Water Quality for Ecosystem and HumanHealth. 2006. — Burlington: United Nations Environment Programme
Global Environment Monitoring System / Water Programme. — 132 с.
9. Ostroumov S. A. 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. P. 221—
232.
10. Ostroumov S. A. Inhibitory analysis of top-down control: new
keys to studying eutrophication, algal blooms, and water selfpurification//
Hydrobiology. 2002. V. 469. P. 117—129. http://www.scribd.com/doc/52598579/
11. Ostroumov S. A. Biological Effects of Surfactants. — Boca Raton,
London, New York: CRC Press. Taylor & Francis, 2006. — 279 p. http://www.scribd.com/doc/64066178/
ability of a water-carrying lake//Chinese Journal of Ecology
2007. No. 26 (8). P. 1222—1227.
15. Chatzinikolaou Y., Ioannou A., Lazaridou M. Intra-basin spatial
approach on pollution load estimation in a large Mediterranean river.
— Desalination. 2010. V. 250. Issue 1. P. 118—129.
16. Dafforn K. A., Glasby T. M., Johnston E. L. Links between estuarine
condition and spatial distributions of marine invaders//Diversity
and Distributions. 2009. V. 15 (5). P. 807—821.
17. Vaughn C. C., Nichols S. J., Spooner D. E. Community and
foodweb ecology of freshwater mussels//Journal of the North American
Benthological Society. 2008. No. 27 (2). P. 409—423.
19. 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. V. 42 (10—11). P. 2499—2506.
20. Licciano M., Terlizzi A., Giangrande A., Cavallo R.A., Stabili
L. Filter-feeder macroinvertebrates as key players in culturable bacteria
biodiversity control: A case of study with Sabella spallanzanii (Polychaeta:
Sabellidae)//Marine Environmental Research. 2007. V. 64 (4).
P. 504—513.
21. 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//Water Research.
2006. V. 40 (16). P. 3083—3090 .
22. Chatzinikolaou Y., Lazaridou M. Identification of the selfpurification
stretches of the Pinios River, Central Greece. — Me...
**
микрокосмы, Microcosms, тяжелые металлы, биогенный, детрит, Viviparus viviparus, Ceratophyllum demersum, Fe, Mn, Zn, Cu, Cd, Cr,