Mobilization of arsenic from As-containing iron minerals under irrigation: Effects of exogenous substances, redox condition, and intermittent flow

化学 砷酸盐 氧化还原 环境化学 溶解 磷酸盐 腐植酸 碳酸盐 环境修复 吸附 有机质 缺氧水域 无机化学 吸附 肥料 污染 有机化学 物理化学 生物 生态学
作者
Dawei Cai,Shuqiong Kong,Yixian Shao,Juanjuan Liu,Ruiqi Liu,Xiaguo Wei,Bing Bai,David Werner,Xubo Gao,Chengcheng Li
出处
期刊:Journal of Hazardous Materials [Elsevier BV]
卷期号:440: 129736-129736 被引量:21
标识
DOI:10.1016/j.jhazmat.2022.129736
摘要

Irrigation activities can cause strong geochemical and hydrological fluctuations in the unsaturated zone, and affect arsenic (As) migration and transformation. The As geochemical cycle in the unsaturated zone is coupled with that of iron minerals through sorption-desorption, coprecipitation and redox processes. Dynamic batch experiments and wetting-drying cycling column experiments were conducted to evaluate As mobilization behaviors under the effects of exogenous substances, redox condition and intermittent flow. Our results show that As release under exogenous substances carried by irrigation (e.g., phosphate, carbonate, fulvic acid, humic acid, etc.) followed three trends with the types of exogenous inputs. Inorganic anions and organic matter resulted in opposite trends of arsenate release in different redox conditions. In anoxic environments, As(V) release was favored by the addition of phosphate and carbonate, while in oxic environments, the mobilization of As(V) was promoted by the addition of fulvic acid (FA). Further, intermittent irrigation promoted the reductive dissolution of Fe oxides and the mobilization of As. The addition of humic acid (HA) resulted in the mobilization of arsenate as As-Fe-HA ternary complexes. The mechanism of arsenic mobilization under irrigation has importance for prevention of arsenic exposure through soil to food chain transfer in typical high arsenic farmland.
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