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Using Zn isotopes to trace Zn sources and migration pathways in paddy soils around mining area TEXT SIZE: A A A
Paddy soils around mining areas suffer from the great threat of heavy metal pollution. The traditional source-tracing methods based on metal concentrations limit our ability to quantify the sources of heavy metals and trace their transport processes to paddy soils. In this study, Zn isotope compositions of paddy soils in Dabaoshan mine area, a typical sulfide deposit in southern China, have been systematically studied. According to a plot between 1/Zn (i.e. inverse concentration) and delta Zn-66 value, all the polluted paddy soils fall on the mixing line between acid mine drainage precipitate (AMD-precipitate) and fertilizer while the unpolluted paddy soil falls on the mixing line between fertilizer and bedrock. This indicates the mixing of Zn sources at least three end-members: the mining end-member (i.e. AMD-precipitate), the agricultural end-member (i.e. fertilizer), and bedrock whose geochemical signature is often overprinted by the former two sources around the mining area. The quantitative calculations to apportion the end-member's contributions show that the mining activity contributes most Zn in the paddy soils with an average of similar to 66.2%. The contribution of mining activities has significant spatial variations. Specifically, the mining activities have relatively low impacts on the lower reach and the deep soil. Additionally, the apparent Zn isotope fractionation between AMD and AMD-precipitate (Delta Zn-66(AMD-precipitate) - (AMD) of -0.35 to -0.08 parts per thousand) in the tailings dam suggests that Zn cations in AMD coprecipitated with the secondary Fe-bearing minerals (e.g. jarosite and goethite). After being discharged from the tailings dam, Zn is mainly carried by the Fe-oxide minerals and migrated during surface runoff. Our study highlights the contribution of human activities to the Zn pollution in the paddy soils and the key role of Fe-bearing minerals in the migration of Zn. These findings provide a scientific base for the development of policy for pollution control in mining-affected region. (C) 2020 Elsevier Ltd. All rights reserved.
 

Publication name

 ENVIRONMENTAL POLLUTION Volume: 267 Article Number: 115616 DOI: 10.1016/j.envpol.2020.115616 Published: DEC 2020

Author(s)

 Liu, Yuhui; Gao, Ting; Xia, Yafei; Wang, Zhengrong; Liu, Chengshuai; Li, Shehong; Wu, Qiqi; Qi, Meng; Lv, Yiwen

Corresponding author(s) 

 LIU Chengshuai 
 liuchengshuai@vip.gyig.ac.cn
 Chinese Acad Sci, Inst Geochem, State Key Lab Environm Geochem, Guiyang 550081, Peoples R China.

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