Literature DB >> 16003583

The effects of different carbon sources on microbial mediation of arsenic in arsenic-contaminated sediment.

Jong-Un Lee1, Sang-Woo Lee, Kyoung-Woong Kim, Chung-Han Yoon.   

Abstract

Changes in speciation and mobility of As by indigenous bacteria in As-contaminated sediments (339 mg/kg) from an abandoned Au-Ag mine area in Korea were investigated after biostimulation with a variety of carbon sources, including acetate, lactate and glucose in batch experiments. Sequential extraction analysis designed to determine the form of As occurrence revealed that 40 and 47% of As were present in the sediment as Fe-associated and residual fractions, respectively. After 22-day incubation with acetate and lactate, the presence of indigenous bacteria increased the amount of total dissolved As from both Fe-associated and residual fractions in the sediment. More than 99% of dissolved As existed as As(V) in biotic slurries in contrast to sterile controls (less than 50% of total dissolved As), which indicated that indigenous bacteria transformed some dissolved As(III) to As(V). In real environments, depending on the pH, microbially-produced aqueous As(V) may be either immobilized through adsorption or reduced to As(III) after migration to the anoxic subsurface.

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Year:  2005        PMID: 16003583     DOI: 10.1007/s10653-005-0133-4

Source DB:  PubMed          Journal:  Environ Geochem Health        ISSN: 0269-4042            Impact factor:   4.609


  15 in total

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Review 4.  Bacterial resistance mechanisms for heavy metals of environmental concern.

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Review 5.  Biofilms, the customized microniche.

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2.  Efficacy of indigenous soil microbes in arsenic mitigation from contaminated alluvial soil of India.

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3.  Bioelectricity generation by wetland plant-sediment microbial fuel cells (P-SMFC) and effects on the transformation and mobility of arsenic and heavy metals in sediment.

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4.  Influence of organic matters on AsIII oxidation by the microflora of polluted soils.

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Journal:  Environ Geochem Health       Date:  2015-10-01       Impact factor: 4.609

5.  Arsenite tolerance and biotransformation potential in estuarine bacteria.

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6.  Geochemical and microbial effects on the mobilization of arsenic in mine tailing soils.

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  6 in total

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