High-density PhyloChip profiling of stimulated aquifer microbial communities reveals a complex response to acetate amendment
FEMS Microbial Ecology, Special Issue: Subsurface Microbiology Volume 81, Issue 1, pages 188-204, July 2012
Published by: Wiley
Kim M. Handley, Kelly C. Wrighton, Yvette M. Piceno, Gary L. Andersen, Todd Z. DeSantis, Kenneth H. Williams, Michael J. Wilkins, A. Lucie N'Guessan, Aaron D. Peacock, Haley & Aldrich, John Bargar, Philip E. Long and Jillian F. Banfield
There is increasing interest in harnessing the functional capacities of indigenous microbial communities to transform and remediate a wide range of environmental contaminants. Information about which community members respond to stimulation can guide the interpretation and development of remediation approaches. To comprehensively determine community membership and abundance patterns among a suite of samples associated with uranium bioremediation experiments, we employed a high-density microarray (PhyloChip). Samples were unstimulated, naturally reducing, or collected during Fe(III) (early) and sulfate reduction (late biostimulation) from an acetate re-amended/amended aquifer in Rifle, Colorado, and from laboratory experiments using field-collected materials. Deep community sampling with PhyloChip identified hundreds-to-thousands of operational taxonomic units (OTUs) present during amendment, and revealed close similarity among highly enriched taxa from drill core and groundwater well-deployed column sediment. Overall, phylogenetic data suggested that stimulated community membership was most affected by a carryover effect between annual stimulation events. Nevertheless, OTUs within the Fe(III)- and sulfate-reducing lineages, Desulfuromonadales and Desulfobacterales, were repeatedly stimulated. Less consistent, co-enriched taxa represented additional lineages associated with Fe(III) and sulfate reduction (e.g. Desulfovibrionales;Syntrophobacterales;Peptococcaceae) and autotrophic sulfur oxidation (Sulfurovum;Campylobacterales). Data implies complex membership among highly stimulated taxa and, by inference, biogeochemical responses to acetate, a nonfermentable substrate.
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