孟加拉国的砷迁移性与地下水开采

Arsenic mobility and groundwater extraction in Bangladesh.

作者信息

Harvey Charles F, Swartz Christopher H, Badruzzaman A B M, Keon-Blute Nicole, Yu Winston, Ali M Ashraf, Jay Jenny, Beckie Roger, Niedan Volker, Brabander Daniel, Oates Peter M, Ashfaque Khandaker N, Islam Shafiqul, Hemond Harold F, Ahmed M Feroze

机构信息

Ralph M. Parsons Laboratory, Department of Civil & Environmental Engineering, Massachusetts Institute of Technology, Cambridge, MA 01239, USA.

出版信息

Science. 2002 Nov 22;298(5598):1602-6. doi: 10.1126/science.1076978.

DOI:10.1126/science.1076978

PMID:12446905

Abstract

High levels of arsenic in well water are causing widespread poisoning in Bangladesh. In a typical aquifer in southern Bangladesh, chemical data imply that arsenic mobilization is associated with recent inflow of carbon. High concentrations of radiocarbon-young methane indicate that young carbon has driven recent biogeochemical processes, and irrigation pumping is sufficient to have drawn water to the depth where dissolved arsenic is at a maximum. The results of field injection of molasses, nitrate, and low-arsenic water show that organic carbon or its degradation products may quickly mobilize arsenic, oxidants may lower arsenic concentrations, and sorption of arsenic is limited by saturation of aquifer materials.

摘要

孟加拉国井水中的高砷含量正在导致广泛的中毒现象。在孟加拉国南部一个典型的含水层中，化学数据表明砷的活化与近期碳的流入有关。高浓度的放射性碳年代较新的甲烷表明，年轻的碳驱动了近期的生物地球化学过程，而灌溉抽水足以将水抽到溶解砷含量最高的深度。糖蜜、硝酸盐和低砷水的现场注入结果表明，有机碳或其降解产物可能会迅速使砷活化，氧化剂可能会降低砷的浓度，并且含水层物质的饱和度限制了砷的吸附。

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孟加拉国的砷迁移性与地下水开采

Arsenic mobility and groundwater extraction in Bangladesh.

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