Fucun Zhang scite author profile

The role of sulfur cycling in arsenic behavior under reducing conditions is not well-understood in previous investigations. This study provides observations of sulfur and oxygen isotope fractionation in sulfate and evaluation of sulfur cycling-related biogeochemical processes controlling dissolved arsenic groundwater concentrations using multiple isotope approaches. As a typical basin hosting high arsenic groundwater, the western Hetao basin was selected as the study area. Results showed that, along the groundwater flow paths, groundwater δS, δO, and δC increased with increases in arsenic, dissolved iron, hydrogen sulfide and ammonium concentrations, while δC decreased with decreasing Eh and sulfate/chloride. Bacterial sulfate reduction (BSR) was responsible for many of these observed changes. The δS indicated that dissolved sulfate was mainly sourced from oxidative weathering of sulfides in upgradient alluvial fans. The high oxygen-sulfur isotope fractionation ratio (0.60) may result from both slow sulfate reduction rates and bacterial disproportionation of sulfur intermediates (BDSI). Data indicate that both the sulfide produced by BSR and the overall BDSI reduce arsenic-bearing iron(III) oxyhydroxides, leading to the release of arsenic into groundwater. These results suggest that sulfur-related biogeochemical processes are important in mobilizing arsenic in aquifer systems.

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Arsenic, fluoride and iodine in groundwater of China

Wen

Zhang

et al. 2013

Journal of Geochemical Exploration

209

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Geochemistry of iodine-rich groundwater in the Taiyuan Basin of central Shanxi Province, North China

Tang

Zhang

et al. 2013

Journal of Geochemical Exploration

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Geochemical characteristics and fluoride distribution in the groundwater of the Zhangye Basin in Northwestern China

Zhang

2013

Journal of Geochemical Exploration

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Spatial and temporal patterns of groundwater arsenic in shallow and deep groundwater of Yinchuan Plain, China

Han

Zhang

et al. 2013

Journal of Geochemical Exploration

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Multi-Temporal Detection of Rice Phenological Stages Using Canopy Spectrum

et al. 2014

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Hydrogeochemical contrasts between low and high arsenic groundwater and its implications for arsenic mobilization in shallow aquifers of the northern Yinchuan Basin, P.R. China

Guo

Yang

et al. 2014

Journal of Hydrology

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Occurrence and hydrogeochemical characteristics of high-fluoride groundwater in Xiji County, southern part of Ningxia Province, China

Wei

Guo

et al. 2015

Environ Geochem Health

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High-F(-) groundwater is widely distributed in Xiji County, which endangers the safety of drinking water. In order to evaluate the key factors controlling the origin and geochemical mechanisms of F(-) enrichment in groundwater at Xiji County, one hundred and five groundwater samples and sixty-two sediment samples were collected. Fluoride concentration in the groundwater samples ranged from 0.2 to 3.01 mg/L (mean 1.13 mg/L), with 17 % exceeding the WHO drinking water guideline value of 1.5 mg/L and 48 % exceeding the Chinese drinking water guideline value of 1.0 mg/L. High-F(-) groundwaters were characterized by hydrochemical types of Na-HCO3 and Na-SO4·Cl, which were found in Quaternary sediment aquifer and in Tertiary clastic aquifer, respectively. Conditions favorable for F(-) enrichment in groundwater included weakly alkaline pH (7.2-8.9), low concentration of Ca(2+), and high concentrations of HCO3 (-) and Na(+). Calcite and fluorite were the main minerals controlling F(-) concentration in groundwaters. The hydrolysis of F-bearing minerals in aquifer sediments was the more important process for F(-) release in Tertiary clastic aquifer, which was facilitated by long residence time of groundwater, in comparison with Quaternary sediment aquifer. Cation exchange would also play important roles, which removed Ca(2+) and Mg(2+) and led to more free mobility of F(-) in groundwater and permitted dissolution of fluorite, especially in Tertiary clastic aquifer. However, evapotranspiration and competing adsorption of B and HCO3 (-) were the more important processes for F(-) enrichment in Quaternary groundwater. Groundwater in Lower Cretaceous aquifer had relatively low F(-) concentration, which was considered to be the potential drinking water resource.

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Fucun Zhang

Sulfur Cycling-Related Biogeochemical Processes of Arsenic Mobilization in the Western Hetao Basin, China: Evidence from Multiple Isotope Approaches

Arsenic, fluoride and iodine in groundwater of China

Geochemistry of iodine-rich groundwater in the Taiyuan Basin of central Shanxi Province, North China

Geochemical characteristics and fluoride distribution in the groundwater of the Zhangye Basin in Northwestern China

Spatial and temporal patterns of groundwater arsenic in shallow and deep groundwater of Yinchuan Plain, China

Multi-Temporal Detection of Rice Phenological Stages Using Canopy Spectrum

Hydrogeochemical contrasts between low and high arsenic groundwater and its implications for arsenic mobilization in shallow aquifers of the northern Yinchuan Basin, P.R. China

Occurrence and hydrogeochemical characteristics of high-fluoride groundwater in Xiji County, southern part of Ningxia Province, China

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