Home » » English translation and translit of Russian titles: a list of publications (selected), accumulation of metals in biomass of plants. The references are presented in English only. https://5bio5.blogspot.com/2018/04/english.html

English translation and translit of Russian titles: a list of publications (selected), accumulation of metals in biomass of plants. The references are presented in English only. https://5bio5.blogspot.com/2018/04/english.html


Перевод на англ.
English translation and translit of Russian titles: a list of publications (selected), accumulation of metals in biomass of plants. The references are presented in English only.

https://5bio5.blogspot.com/2018/04/english.html

СПИСОК ЛИТЕРАТУРЫ
 https://5bio5.blogspot.com/2018/04/1_16.html


1.    Moiseenko T.I. Aquatic ecotoxicology: Theoretical and applied aspects. [Vodnaya ekotoksikologiya: Teoreticheskie i prikladnye aspekty] Moscow: Nauka Press, 2009. 
2.     Tropin I. V., Ostroumov S. A. Issues of biological monitoring of aquatic ecosystems with use of freshwater plants. Biochemical aspects of accumulation of heavy metals. [Problemy biologicheskogo monitoringa vodnykh ekosistem s ispol'zovaniem presnovodnykh rasteniy. Biokhimicheskie aspekty nakopleniya tyazhelykh metallov] // Prirodnye i antropogennye ekosistemy: problemy i resheniya. — Moscow: Biblio-Globus Press, 2017: 112–135.
3.      Costa M.B., Tavares F.V., Martinez C.B., Colares I.G., and Martins C.D.M.G., 2018. Accumulation and effects of copper on aquatic macrophytes Potamogeton pectinatus L.: Potential application to environmental monitoring and phytoremediation  //Ecotoxicology and Environmental Safety. 2018;  155: 117-124.
4.      Ramachandra T.V., Sudarshan P.B., Mahesh M.K., and Vinay S., Spatial patterns of heavy metal accumulation in sediments and macrophytes of Bellandur wetland, Bangalore // Journal of Environmental Management. 2018; 206: 1204-1210.
5.      Sanches Filho P.J., Nunes L., da Rosa N., Betemps G.R., and Pereira R.S., Comparison among native floating aquatic macrophytes for bioconcentration of heavy metals. //Ecotoxicology and Environmental Contamination, 2015;10(1): 1-6.
6.      Romero-Hernández J.A., Amaya-Chávez A., Balderas-Hernández P., Roa-Morales G., González-Rivas N. and Balderas-Plata M.Á., Tolerance and hyperaccumulation of a mixture of heavy metals (Cu, Pb, Hg, and Zn) by four aquatic macrophytes. //International Journal of Phytoremediation, 2017; 19(3): 239-245.
7.     Tropin I.V., Zolotukhina E.Yu., Burdin K.S. Distribution of heavy metals in biochemical fractions of tissues of aquatic macrophytes [Raspredelenie tyazhelykh metallov v biokhimicheskikh fraktsiyakh tkaney vodnykh makrofitov] // Okeanologiya. 1994; 34: 62-64. 
8.    Zolotukhina E.Yu., Gavrilenko E.E. Binding of copper, cadmium, iron, zinc and manganese to proteins of aquatic plants [Svyazyvanie medi, kadmiya, zheleza, tsinka i margantsa belkami vodnykh makrofitov] // Fiziologiya rasteniy. 1990; 37 (4): 651-658. З
9.   Zolotukhina E.Yu., Tropin I.V., Kononenko R.V. Distribution of heavy metals in talloms of brown alga Laminaria saccharina (Ag.) Kjellm. [Raspredelenie tyazhelykh metallov v tallomakh buroy vodorosli Laminaria saccharina (Ag.) Kjellm.] // Vestnik MGU, Seriya 16. Biologiya. 1992; 1: 72-76.   
10.   Lubkova T.N., Pukhov V.V., Shestakova T.V., Tropin I.V., Kotelevtsev S.V., Ostroumov S.A.  Study of interactions of toxic metals with biomass of unicellular algae ICP-MS [Izuchenie vzaimodeystviya toksichnykh metallov s biomassoy odnokletochnykh vodorosley metodom ICP-MS] // Toksikologicheskiy vestnik. 2015; № 6: 41-45. 
11.   Ostroumov S.A., Kotelevtsev S.V., Shestakova T.V., Kolotilova N.N., Poklonov V.A., Solomonova E.A. New on phytoremediation potential: acceleration of decrease of concentrations of heavy metals (Pb, Cd, Zn, Cu) in water in the presence of elodea [Novoe o fitoremediatsionnom potentsiale: uskorenie snizheniya kontsentratsiy tyazhelykh metallov (Pb, Cd, Zn, Cu) v vode v prisutstvii elodei] // Ekologicheskaya khimiya. 2009; 18 ( 2): 111-119.  
12.  Ostroumov S.A., Solomonova E.A. Method for determination of allowable loads of pollutants on higher aquatic plants and prospects of its application [Metod opredeleniya dopustimykh nagruzok zagryaznyayushchikh veshchestv na vysshie vodnye rasteniya i perspektivy ego primeneniya] // Ekologiya promyshlennogo proizvodstva. 2012; 2: 54-60.
13.  Solomonova E.A., Ostroumov S.A. Assessment of allowable loads of pollutants on macrophytes in aquatic environment using a new method of recurrent additions [ Otsenka dopustimykh nagruzok zagryaznyayushchikh veshchestv na makrofity v vodnoy srede s ispol'zovaniem metoda rekurrentnykh dobavok] // Vodnoe khozyaystvo Rossii: problemy, tekhnologii, upravlenie. 2014; № 2: 88-101. https://www.researchgate.net/publication/262303768;
14.    Krot Yu.G., 2006. Use of higher aquatic plants in biotechnologies of purification of surface and sewage waters [Ispol'zovanie vysshikh vodnykh rasteniy v biotekhnologiyakh ochistki poverkhnostnykh i stochnykh vod] // Gidrobiologicheskiy zhurnal. 2006; 42 (1):76-91.
15. Tarushkina Yu.A., Ol'shanskaya L.N., Mecheva O.E., Lazutkina A.S. Higher aquatic plants to purify sewage waters [Vysshie vodnye rasteniya dlya ochistki stochnykh vod] // Ekologiya i promyshlennost' Rossii. 2006; №5:36-39.
16. 
Shubravyy O.I. Aquatium with artificial seawater to keep and breed a primitive multicellular organism  Trichoplax and other small invertebrates [Akvarium s iskusstvennoy morskoy vodoy dlya soderzhaniya i razvedeniya primitivnogo mnogokletochnogo organizma Trichoplax i drugikh melkikh bespozvonochnykh] // Zoologicheskiy zhurnal. 1983; 12( 4): 618-621.
17.  Ostroumov S.A., Shestakova T.V. Decreasing the measurable concentrations of Cu, Zn, Cd, and Pb in the water of the experimental systems containing Ceratophyllum demersum: The phytoremediation potential. Doklady Biological Sciences. 2009; 428:444-447. https://www.researchgate.net/publication/40481671 ;
18.  Ostroumov S.A. On the biotic self-purification of aquatic ecosystems: elements of the theory. - Doklady Biological Sciences, 2004, Vol. 396, Numbers 1-6, p. 206-211. https://www.researchgate.net/publication/200567576 ;
  1. Ostroumov S.A.Water Quality and Conditioning in Natural Ecosystems: Biomachinery Theory of Self-Purification of Water. Kachestvo i konditsionirovanie vody v prirodnykh ekosistemakh: razrabotka teorii biologicheskikh mekhanizmov samoochishcheniya vody]  // Ekologicheskaya khimiya,  2017; 26 (4): 175 -182. https://www.researchgate.net/publication/319955185 ;
  2. Saptarova L.M., Knyazeva O.A., Galimov Sh.N., Kogina E.N., Gazdalieva L.M. Influence of chronic intoxication copper-zinc pyrite ore on indicators of the blood system and the content of heavy metals in it in the experiment  // Toksikologicheskiy vestnik.  2017; №6: 31-34.
  3. Es'kov E. K. , Es'kova M. D. , Rozhenkov A. S. Diagnosis of bee poisoning by lead and cadmium [ Diagnostika otravleniy pchel svintsom i kadmiem] // Toksikologicheskiy vestnik, 2018; № 1: 26-29.


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