Author:
Opekunov A Yu,Opekunova M G,Janson S Yu,Bychinskii V A,Somov V V,Kukushkin S Yu,Papyan E E
Abstract
Abstract
The article focuses on the chemical composition of hydrosulfates formed in bottom sediments and soils as a consequence of sulfide minerals oxidation in mining waste rock dumps. An alkaline geochemical barrier formed under the dumps reduces pollution of natural-territorial complexes. High concentrations of Zn up to 1.29%, Cu-0.74%, and Cd-27.3 mg/kg are found in the hydrosulfates formed in the river bottom and in the soils. The percentages of exchangeable copper, zinc and cadmium in their total content are 33%, 28% and 22%, respectively. Metals are actively involved in lateral and radial migration, which is regulated by alkaline and evaporation geochemical barriers. The hydrosulfates’ mineralogical composition was studied using microscopy and thermodynamic modeling. Among the secondary minerals, gypsum and iron oxyhydroxides are of primary importance, and to a lesser extent barite, epsomite, and jarosite. Secondary minerals of Cu and Zn in scattering halos are not found, which indicates the leading role of adsorption processes in their phase transitions.
Reference11 articles.
1. Influence of the exploitation of Sibay deposit (the Southern Urals) on the transformation of metal migration in subordinate landscapes;Opekunov,2018
2. Phytoindicational Properties of the Vegetation in Landscape Transformation Studies on Sibay Chalcopyrite Deposits (Southern Urals);Opekunova;Contemporary Problems of Ecology,2017
3. Transformation of metals migration and biogeochemical cycling under the influence of copper mining production (the Southern Urals);Opekunova;CATENA,2020
4. Waste from mining production and metal content in the environment;Rafikova;International Journal of Applied and Basic Research,2010
Cited by
4 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献