Application of XAFS and XRD methods for describing the copper and zinc adsorption characteristics in hydromorphic soils
Autor: | Victoria Shuvaeva, Tatiana Bauer, I. N. Semenkov, Dina Nevidomskaya, D. L. Pinskii, Victoria Tsitsuashvili, Saglara Mandzhieva, Alexander V. Soldatov, Tatiana Minkina |
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Rok vydání: | 2020 |
Předmět: |
Environmental Engineering
010504 meteorology & atmospheric sciences Langmuir adsorption model chemistry.chemical_element Sorption General Medicine Zinc 010501 environmental sciences 01 natural sciences symbols.namesake chemistry.chemical_compound Adsorption Montmorillonite chemistry Geochemistry and Petrology Environmental chemistry Soil water symbols Environmental Chemistry Carbonate Solubility 0105 earth and related environmental sciences General Environmental Science Water Science and Technology |
Zdroj: | Environmental Geochemistry and Health. 44:335-347 |
ISSN: | 1573-2983 0269-4042 |
Popis: | Modeling metal sorption in soils is of great importance to predict the fate of heavy metals and to assess the actual risk driven from pollution. The present study focuses on adsorption of HM ions on two types of hydromorphic soils, including calcaric fluvisols loamic and calcaric fluvic arenosols. The individual and competitive adsorption behaviors of Cu and Zn on soils and soil constituents are evaluated comprehensively. It is established that the sorption processes were best described with the Langmuir model. The results suggest that the calcaric fluvic arenosols are more vulnerable to heavy metal input compared to fluvisols loamic. In all cases, Cu had a higher range of values of the adsorption process parameters relative to Zn. The Zn is likely to be the most critical environmental factor in such soils since it exhibited a decreased sorption under competitive conditions. The retention mechanisms of HM in hydromorphic soils are considered. Based on theoretical calculations of ion activity in soil solutions using solubility diagrams of Cu and Zn compounds, the possibility of precipitation of Cu hydroxide and Zn carbonate in the studied soils is shown. Direct physical methods of nondestructive testing (XAFS and XRD) are applied to experimentally prove the formation of these HM compounds on the surface of montmorillonite, the dominant mineral in hydromorphic soils, and calcite. Thus, the combination of both physicochemical methods and direct physical methods can provide a large amount of real information about the mechanisms of HM retain with solid phases. |
Databáze: | OpenAIRE |
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