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Title: Effect of nitrate, acetate, and hydrogen on native perchlorate-reducing microbial communities and their activity in vadose soil.

Authors: Nozawa-Inoue, Mamie; Jien, Mercy; Yang, Kun; Rolston, Dennis E; Hristova, Krassimira R; Scow, Kate M

Published In FEMS Microbiol Ecol, (2011 May)

Abstract: The effect of nitrate, acetate, and hydrogen on native perchlorate-reducing bacteria (PRB) was examined by conducting microcosm tests using vadose soil collected from a perchlorate-contaminated site. The rate of perchlorate reduction was enhanced by hydrogen amendment and inhibited by acetate amendment, compared with unamendment. Nitrate was reduced before perchlorate in all amendments. In hydrogen-amended and unamended soils, nitrate delayed perchlorate reduction, suggesting that the PRB preferentially use nitrate as an electron acceptor. In contrast, nitrate eliminated the inhibitory effect of acetate amendment on perchlorate reduction and increased the rate and the extent, possibly because the preceding nitrate reduction/denitrification decreased the acetate concentration that was inhibitory to the native PRB. In hydrogen-amended and unamended soils, perchlorate reductase gene (pcrA) copies, representing PRB densities, increased with either perchlorate or nitrate reduction, suggesting that either perchlorate or nitrate stimulates the growth of the PRB. In contrast, in acetate-amended soil pcrA increased only when perchlorate was depleted: a large portion of the PRB may have not utilized nitrate in this amendment. Nitrate addition did not alter the distribution of the dominant pcrA clones in hydrogen-amended soil, likely because of the functional redundancy of PRB as nitrate-reducers/denitrifiers, whereas acetate selected different pcrA clones from those with hydrogen amendment.

PubMed ID: 21284679 Exiting the NIEHS site

MeSH Terms: Acetates/metabolism*; Bacteria/genetics; Bacteria/metabolism*; Biodegradation, Environmental; DNA, Bacterial/genetics; Denitrification; Hydrogen/metabolism*; Nitrates/metabolism*; Oxidation-Reduction; Oxidoreductases/genetics; Perchlorates/metabolism*; RNA, Ribosomal, 16S/genetics; Soil Microbiology*; Soil Pollutants/metabolism; Soil/chemistry

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