Diversity and Characterization of Sulfate-Reducing Bacteria in Groundwater at a Uranium Mill Tailings Site

Chang, Yun‐Juan; Peacock, Aaron D.; Long, Philip E.; Stephen, J.; McKinley, James P.; Macnaughton, Sarah J.; Hussain, Ammar; Saxton, Arnold M.; White, David C.

doi:10.1128/aem.67.7.3149-3160.2001

Cited by 200 publications

(177 citation statements)

References 50 publications

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“…Diversity and community function Microbial communities have been extensively characterized at uranium-contaminated sites (Abdelouas et al, 2000;Chang et al, 2001Chang et al, , 2005Elias et al, 2003;Nevin et al, 2003;Vrionis et al, 2005) including the OR-FRC (Yan et al, 2003;North et al, 2004;Fields et al, 2005Fields et al, , 2006Akob et al, 2007). In general, it is assumed that bacterial diversity will depend upon the degree of contamination and will change in structure and Partition of the total variation into six components: unexplained variation; 'pure' temporal variation; 'shared' variation between environment and time; 'pure' environmental variation; 'shared' variation between environment and space; and 'pure' spatial variation.…”

Section: Discussionmentioning

confidence: 99%

Bacterial community succession during in situ uranium bioremediation: spatial similarities along controlled flow paths

Hwang

Gentry

et al. 2008

The ISME Journal

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Bacterial community succession was investigated in a field-scale subsurface reactor formed by a series of wells that received weekly ethanol additions to re-circulating groundwater. Ethanol additions stimulated denitrification, metal reduction, sulfate reduction and U(VI) reduction to sparingly soluble U(IV). Clone libraries of SSU rRNA gene sequences from groundwater samples enabled tracking of spatial and temporal changes over a 1.5-year period. Analyses showed that the communities changed in a manner consistent with geochemical variations that occurred along temporal and spatial scales. Canonical correspondence analysis revealed that the levels of nitrate, uranium, sulfide, sulfate and ethanol were strongly correlated with particular bacterial populations. As sulfate and U(VI) levels declined, sequences representative of sulfate reducers and metal reducers were detected at high levels. Ultimately, sequences associated with sulfate-reducing populations predominated, and sulfate levels declined as U(VI) remained at low levels. When engineering controls were compared with the population variation through canonical ordination, changes could be related to dissolved oxygen control and ethanol addition. The data also indicated that the indigenous populations responded differently to stimulation for bioreduction; however, the two biostimulated communities became more similar after different transitions in an idiosyncratic manner. The strong associations between particular environmental variables and certain populations provide insight into the establishment of practical and successful remediation strategies in radionuclidecontaminated environments with respect to engineering controls and microbial ecology.

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Section: Discussionmentioning

confidence: 99%

Bacterial community succession during in situ uranium bioremediation: spatial similarities along controlled flow paths

Hwang

Gentry

et al. 2008

The ISME Journal

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“…In addition, SRB have been identified as culprits in the biocorrosion of ferrous metal installations in the petroleum industry and concrete structures in wastewater collection systems (Muyzer and Stams, 2008;Zhou et al, 2011). Effective reduction of highly toxic Cr (VI) or U (VI) to less toxic Cr (III) or U (IV) by D. vulgaris Hildenborough has been reported (Lovley et al, 1993;Lovley and Phillips, 1994;Elias et al, 2004), and D. vulgaris was found to exist in uranium (VI) contaminated field site (Chang et al, 2001). High NaCl concentration is also present in several DOE (Department of Energy) sites contaminated with toxic metals.…”

Section: Introductionmentioning

confidence: 99%

Characterization of NaCl tolerance in Desulfovibrio vulgaris Hildenborough through experimental evolution

Zhou

Baidoo

et al. 2013

The ISME Journal

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Desulfovibrio vulgaris Hildenborough strains with significantly increased tolerance to NaCl were obtained via experimental evolution. A NaCl-evolved strain, ES9-11, isolated from a population cultured for 1200 generations in medium amended with 100 mM NaCl, showed better tolerance to NaCl than a control strain, EC3-10, cultured for 1200 generations in parallel but without NaCl amendment in medium. To understand the NaCl adaptation mechanism in ES9-11, we analyzed the transcriptional, metabolite and phospholipid fatty acid (PLFA) profiles of strain ES9-11 with 0, 100-or 250 mM-added NaCl in medium compared with the ancestral strain and EC3-10 as controls. In all the culture conditions, increased expressions of genes involved in amino-acid synthesis and transport, energy production, cation efflux and decreased expression of flagellar assembly genes were detected in ES9-11. Consistently, increased abundances of organic solutes and decreased cell motility were observed in ES9-11. Glutamate appears to be the most important osmoprotectant in D. vulgaris under NaCl stress, whereas, other organic solutes such as glutamine, glycine and glycine betaine might contribute to NaCl tolerance under low NaCl concentration only. Unsaturation indices of PLFA significantly increased in ES9-11. Branched unsaturated PLFAs i17:1 x9c, a17:1 x9c and branched saturated i15:0 might have important roles in maintaining proper membrane fluidity under NaCl stress. Taken together, these data suggest that the accumulation of osmolytes, increased membrane fluidity, decreased cell motility and possibly an increased exclusion of Na þ contribute to increased NaCl tolerance in NaCl-evolved D. vulgaris.

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“…These high concentrations are attributed to fallout from above ground nuclear weapon testing in Nevada and New Mexico (Simpson et al 1980). The high abundance of the ordinarily insoluble actinides in the soda lake is attributed to complexation with carbonates that dramatically increases solubility and inhibits chemical removal from the water column (Chang et al 2001). Uranium concentrations from sediments from a desiccated soda lake in central Mongolia were recently found to have extremely high concentrations of U (U=1500µmol kg -1 , 350 ppm U) (Markwitz et al 2008).…”

Section: List Of Tablesmentioning

confidence: 99%

Geochemical evolution of uraniferous soda lakes in Eastern Mongolia

Linhoff

Bennett

Puntsag³

et al. 2010

Environ Earth Sci

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Diversity and Characterization of Sulfate-Reducing Bacteria in Groundwater at a Uranium Mill Tailings Site

Cited by 200 publications

References 50 publications

Bacterial community succession during in situ uranium bioremediation: spatial similarities along controlled flow paths

Bacterial community succession during in situ uranium bioremediation: spatial similarities along controlled flow paths

Characterization of NaCl tolerance in Desulfovibrio vulgaris Hildenborough through experimental evolution

Geochemical evolution of uraniferous soda lakes in Eastern Mongolia

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