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Role of metal-reducing bacteria in arsenic release from Bengal delta sediments

Farhana S. Islam, Andrew G. Gault, Christopher Boothman, David A. Polya, John M. Charnock, Debashis Chatterjee and Jonathan R. Lloyd ()
Additional contact information
Farhana S. Islam: The University of Manchester
Andrew G. Gault: The University of Manchester
Christopher Boothman: The University of Manchester
David A. Polya: The University of Manchester
John M. Charnock: The University of Manchester
Debashis Chatterjee: The University of Kalyani
Jonathan R. Lloyd: The University of Manchester

Nature, 2004, vol. 430, issue 6995, 68-71

Abstract: Abstract The contamination of ground waters, abstracted for drinking and irrigation, by sediment-derived arsenic threatens the health of tens of millions of people worldwide, most notably in Bangladesh and West Bengal1,2,3. Despite the calamitous effects on human health arising from the extensive use of arsenic-enriched ground waters in these regions, the mechanisms of arsenic release from sediments remain poorly characterized and are topics of intense international debate4,5,6,7,8. We use a microscosm-based approach to investigate these mechanisms: techniques of microbiology and molecular ecology are used in combination with aqueous and solid phase speciation analysis of arsenic. Here we show that anaerobic metal-reducing bacteria can play a key role in the mobilization of arsenic in sediments collected from a contaminated aquifer in West Bengal. We also show that, for the sediments in this study, arsenic release took place after Fe(iii) reduction, rather than occurring simultaneously. Identification of the critical factors controlling the biogeochemical cycling of arsenic is one important contribution to fully informing the development of effective strategies to manage these and other similar arsenic-rich ground waters worldwide.

Date: 2004
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Citations: View citations in EconPapers (9)

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DOI: 10.1038/nature02638

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