Journal
SCIENCE
Volume 328, Issue 5982, Pages 1123-1127Publisher
AMER ASSOC ADVANCEMENT SCIENCE
DOI: 10.1126/science.1172974
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Funding
- Stanford's Woods Institute for the Environment
- Stanford NSF Environmental Molecular Science Institute [NSF-CHE-0431425]
- U.S. Geological Survey
- U.S. Agency for International Development
- British Department for International Development
- UNICEF
- National Institute of Environmental Health Sciences SRP [1 P42 ES10349]
- NIH FIC [5 D43 TW05724]
- NSF [EAR 0345688]
- EPSCoR
- Office Of The Director [814251] Funding Source: National Science Foundation
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Over the past few decades, groundwater wells installed in rural areas throughout the major river basins draining the Himalayas have become the main source of drinking water for tens of millions of people. Groundwater in this region is much less likely to contain microbial pathogens than surface water but often contains hazardous amounts of arsenic-a known carcinogen. Arsenic enters groundwater naturally from rocks and sediment by coupled biogeochemical and hydrologic processes, some of which are presently affected by human activity. Mitigation of the resulting health crisis in South and Southeast Asia requires an understanding of the transport of arsenic and key reactants such as organic carbon that could trigger release in zones with presently low groundwater arsenic levels.
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