2015
DOI: 10.1016/j.chemgeo.2015.04.008
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Bacteria-mediated reduction of As(V)-doped lepidocrocite in a flooded soil sample

Abstract: International audienceUnderstanding the processes involved in the control of arsenic (As) dynamics within soils has become a challenging issue for soil and water quality preservation. Interactions between mineralogical phases, organic ligands and bacterial communities - closely linked to the chemical conditions of the medium - were thus investigated through a geochemical and microbiological experimental study involving the reduction of As(V)-doped lepidocrocite within the soil. Reducing conditions were establi… Show more

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Cited by 19 publications
(22 citation statements)
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“…They receive water from three different sources: i) groundwater discharge, ii) subsurface flow and iii) flow from an adjacent surface-water body (Lewis, 1995). During high water levels subsequent to flooding, anaerobic conditions are established and favor the reductive dissolution of wetland soil Fe(III)-oxyhydroxides and associated elements such as As and OM Dia et al, 2015;3 Grybos et al, 2007;Grybos et al, 2009;Olivié-Lauquet et al, 2001). Following its solubilization, As(V) is reduced to As(III), generally by autochthonous bacteria through detoxification or metabolism processes .…”
Section: Introductionmentioning
confidence: 99%
“…They receive water from three different sources: i) groundwater discharge, ii) subsurface flow and iii) flow from an adjacent surface-water body (Lewis, 1995). During high water levels subsequent to flooding, anaerobic conditions are established and favor the reductive dissolution of wetland soil Fe(III)-oxyhydroxides and associated elements such as As and OM Dia et al, 2015;3 Grybos et al, 2007;Grybos et al, 2009;Olivié-Lauquet et al, 2001). Following its solubilization, As(V) is reduced to As(III), generally by autochthonous bacteria through detoxification or metabolism processes .…”
Section: Introductionmentioning
confidence: 99%
“…All these Fe bio reduction are controlled by general characteristics of ironoxide occurring in the soil (Lovley, 1991(Lovley, , 2013 and can influence the biogeochemistry dynamic (Thompson et al, 2006). Eh changes can direct the type of microorganisms that develops (Husson, 2013), and means imposes the condition for operation of the system (Grybos et al, 2009), since it has the ability to regulate the electrons transferring in the metabolism of microorganisms (DeAngelis et al, 2010;Husson, 2013;Nevin & Lovley, 2002;Sposito 1989), and consequently their development (Dia et al, 2015). The data confirm that all conditions had a similar behavior, with a metabolic inversion to anaerobic microorganisms.…”
Section: Resultsmentioning
confidence: 99%
“…However, in a more abrupt form, the samples in the presence of the Fe oxide, the depletion is higher in terms of biomass (Figure 4), suggesting that iron, depending on their specie, may create a selective medium and inhibit the development of groups that are more general and benefiting groups that are more specific. Dia et al (2015) comments for every environmental stress there is a multitude of survival strategies for microbial population to acclimate to the new conditions. The same authors say the redox potential in soil indicates changing availability of electron acceptor, requiring fundamental changes in microbial metabolic lifestyles.…”
Section: Resultsmentioning
confidence: 99%
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“…Some bacteria could directly reduce As(Ⅴ) adsorbed on iron (hydr)oxides, while others could reduce Fe(III) and cause the dissolution of the iron (oxy)hydroxides that will result in As release (Cerkez et al, 2015;Dia et al, 2015;Ehlert et al, 2014;Vaxevanidou et al, 2015). Different As release mechanisms will lead to disparate As release capacities.…”
mentioning
confidence: 99%