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Mechanisms of groundwater arsenic variations induced by extraction in the western Hetao Basin, Inner Mongolia, China

[Display omitted] •Groundwater extraction induces an increasing recharge from shallow groundwater.•The increasing recharge directly alters deep groundwater As content.•Introduced oxygen-containing groundwater is conducive to As fixation.•Groundwater with labile organic matter fueled As release by en...

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Published in:Journal of hydrology (Amsterdam) 2020-04, Vol.583, p.124599, Article 124599
Main Authors: Zhang, Zhuo, Guo, Huaming, Liu, Shuai, Weng, Haicheng, Han, Shuangbao, Gao, Zhipeng
Format: Article
Language:English
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Summary:[Display omitted] •Groundwater extraction induces an increasing recharge from shallow groundwater.•The increasing recharge directly alters deep groundwater As content.•Introduced oxygen-containing groundwater is conducive to As fixation.•Groundwater with labile organic matter fueled As release by enhanced dissimilatory reduction of iron oxyhydroxides.•Recharge of high Na/Ca0.5 groundwater promoted As desorption. High arsenic (As) groundwater has posed a serious threat to human health. Due to the complex spatial-temporal distributions of dissolved As, the influence of groundwater extraction on As enrichment has attracted great attention. To ascertain spatial-temporal variations in dissolved As and driving mechanisms impacted by extraction, we monitored groundwater levels and chemicals in different aquifers in the western Hetao basin, China. Results revealed that groundwater levels decreased during irrigation season in both shallow (42 m bls) aquifers, and the decreases in deep aquifer were more evident. During irrigation, the estimated proportion of recharge from shallow groundwater to affected deep groundwater (around 45 m bls) increased from 21% to 53% in the distal of the alluvial fan and sharply from 53% to 86% in the flat plain. In the distal of the alluvial fan, the vertical recharge of shallow groundwater with low As concentrations (
ISSN:0022-1694
1879-2707
DOI:10.1016/j.jhydrol.2020.124599