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ABSTRACT
Mercury is the most dangerous pollutant prone to the formation of the toxic forms. Therefore, the problem of cleaning mercury contaminated areas seems to be very relevant. Numerous works have been published on the study of mercury uptake depending on the type of plants and natural conditions, but less attention was paid to studying the influence of element’s speciation on their accumulation ability. In the present work, the results of laboratory experiments on the assessment of accumulation efficiency of white mustard growing in medium with artificially introduced mercury species such as HgCl2, CH3Hg Cl and HgS are discussed and bioconcentration factors were evaluated while maintaining plant viability. It was shown that methylmercury is the most intensively accumulated specie while mercury sulphide is more imbibed than HgCl2 during 3 months experiment in spite of its negligible solubility in water. Based on the assumption that the cause of such a phenomenon is associated with the transformation of mercury species in the process of the plants growth, mercury speciation in the growing environment has been studied in dynamics and the results obtained confirmed this suppose. It appeared that HgCl2 and HgS are transformed into other chemical forms.
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Notes on contributors
Olga V. Shuvaeva
Olga V. Shuvaeva is a leading researcher at the Institute of Inorganic Chemistry and a professor at the Novosibirsk State University. Her research interests are in environmental analytical chemistry, elemental speciation analysis and phytoremediation.
Mariya A. Gustaytis
Mariya A. Gustaytis is a senior researcher at the Sobolev Institute of Geology and Mineralogy and a senior lecturer at the Novosibirsk State University. Her research interests are in geochemistry and speciation analysis.
Anastasiya I. Pokhorukova
Anastasiya I. Pokhorukova is a student of Novosibirsk State University. Her research interests are in bioremediation and speciation analysis.
Tamara E. Romanova
Tamara E. Romanova is a senior researcher at the Institute of Inorganic Chemistry. Her research interests are in bioremediation and speciation analysis.