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DOI: 10.1080/10934520701564269

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Probing the biogeochemistry of arsenic: Response of two contrasting aquifer sediments from Cambodia to stimulation by arsenate and ferric iron

Pederick, R L; Gault, A G; Charnock, J M; Polya, D A; Lloyd, J R

Journal of Environmental Science and Health Part a-Toxic/Hazardous Substances & Environmental Engineering. 2007;42(12):1763-1774.

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Full-text held externally

DOI: 10.1080/10934520701564269

Abstract

Many millions of people worldwide are at risk of severe poisoning through exposure to groundwater contaminated with sediment-derived arsenic. An ever-increasing body of work is reinforcing the link between microbially-mediated redox cycling in aquifer sediments and the mobilisation of sorbed As(V) into groundwaters as the potentially more mobile and toxic As(III) anion. However, to date, few studies have examined the biogeochemical cycling of Fe and As species by microbes indigenous to Cambodian sediments. In this study two contrasting sediments, taken from a shallow As-rich reducing aquifer in the Kien Svay district of Cambodia, were used in a laboratory microcosm study. We present evidence to show that microbes present in these sediments are able to reduce Fe(III) and As(V) when provided with an electron donor, and that the two sediments respond differently to stimulation with Fe(III) and As(V). Shifts in the community composition of the two sediments after stimulation with As(V) suggest a potential role for members of the beta-Proteobacteria in As(V) reduction, a phylogenetic grouping known to contain microorganisms capable of As(III) oxidation, but not previously implicated in As(V) reduction. PCR-based analysis of the sediment microbial DNA using primers specific to the arrA gene, (a gene essential for microbial As(V) respiration), indicates the presence of microorganisms capable of dissimilatory As(V) reduction.

Keyword(s)

AS(V) RESPIRATION; As mobilisation; As poisoning; As(V) reduction; BANGLADESH GROUNDWATER; CALCULATIONS; CURVED-WAVE THEORY; DISSIMILATORY; EXAFS; FE RELEASE; MICROBIAL REDUCTION; REDUCING CONDITIONS; REDUCTION; SHALLOW; WEST-BENGAL; metal reduction

Bibliographic metadata

Content type:

Journal article

Publication type:

Original work

Publication form:

Academic journal article

Author(s):

Published date:

2007-10

Article title:

Probing the biogeochemistry of arsenic: Response of two contrasting aquifer sediments from Cambodia to stimulation by arsenate and ferric iron

Language:

english

Journal title:

Journal of Environmental Science and Health Part a-Toxic/Hazardous Substances & Environmental Engineering

Abbreviated journal title:

J. Environ. Sci. Health Part A-Toxic/Hazard. Subst. Environ. Eng.

ISSN:

1093-4529

Volume:

Issue:

Start page:

1763

End page:

1774

Total:

Pagination:

1763-1774

Digital Object Identifier:

10.1080/10934520701564269

ISI Accession Number:

ISI:000250556000008

General notes:

Pederick, R. L. Gault, A. G. Charnock, J. M. Polya, D. A. Lloyd, J. R. 61 TAYLOR & FRANCIS INC PHILADELPHIA 225ZD

Access state:

Active

Institutional metadata

University researcher(s):

Charnock, John

Academic department(s):

Record metadata

Manchester eScholar ID:

uk-ac-man-scw:1f607

Created:

7th September, 2009, 15:08:27

Last modified:

4th June, 2014, 18:20:46