Ecological–Geochemical Studies of Technogenic Soils in the Flood Plain Landscapes of the Seversky Donets, Lower Don Basin

—The paper presents the ecological-geochemical studies of soils confined to the impact zone of industrial waste water storage and sludge reservoirs of former Lake Atamanskoe in the Seversky Donets River flood plain. These soils show hundreds time increase of Zn, tens times increase of Cu and Pb, and...

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Published inGeochemistry international Vol. 56; no. 10; pp. 992 - 1002
Main Authors Bauer, T. V., Linnik, V. G., Minkina, T. M., Mandzhieva, S. S., Nevidomskaya, D. G.
Format Journal Article
LanguageEnglish
Published Moscow Pleiades Publishing 01.10.2018
Springer
Springer Nature B.V
Subjects
Authigenic minerals
Chemical fractionation
Chromium
Coefficients
Copper
Earth and Environmental Science
Earth Sciences
Ecological monitoring
Floodplains
Floods
Fractionation
Geochemistry
Heavy metals
Industrial wastes
Lakes
Lithosphere
Minerals
Nickel
Organic chemistry
Organic matter
Oxides
Plains
Pollutants
Pollution
Pollution levels
Rivers
Silicates
Sludge
Soil
Soil pollution
Soils
Wastewater
Water pollution
Water storage
Zinc
fractionation
heavy metals (zinc)
chemical pollution
ecological-geochemical assessment
flood plain landscape
mineralogical analysis
Spolic Technosols
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Summary:—The paper presents the ecological-geochemical studies of soils confined to the impact zone of industrial waste water storage and sludge reservoirs of former Lake Atamanskoe in the Seversky Donets River flood plain. These soils show hundreds time increase of Zn, tens times increase of Cu and Pb, and few times increase of Cu, Ni, and Cr as compared to the average lithosphere values. The coefficients of technogenic concentration of elements (Kc) and the total indicator of soil pollution (Zc) are calculated. In terms of Zc, the studied soils are ascribed to the extremely dangerous category of pollution. Using predominant pollutant metal, Zn, as an example, it is shown that an increase in the metal pollution level of soil leads to a change of interaction mechanism with organic matter and Fe oxides, and, subsequently, to the prevalence of Zn forms loosely bound with the given components. The metal is mainly confined to the silicate-related fraction, which is confirmed by the mineralogical study and chemical fractionation. Owing to the limitation period and long duration of pollution, the mineral phase of technogenically polluted soils revealed the high degree of transformation changes, which led to the formation of authigenic minerals, mainly sulfates.
ISSN:0016-7029
1556-1968
DOI:10.1134/S001670291810004X