TY - JOUR T1 - Potential for <em>Methanosarcina</em> to contribute to uranium reduction during acetate-promoted groundwater bioremediation JF - bioRxiv DO - 10.1101/202242 SP - 202242 AU - Dawn E Holmes AU - Roberto Orelana AU - Ludovic Giloteaux AU - Li-Ying Wang AU - Pravin Shrestha AU - Kenneth Williams AU - Derek R Lovley AU - Amelia-Elena Rotaru Y1 - 2017/01/01 UR - http://biorxiv.org/content/early/2017/10/12/202242.abstract N2 - Previous studies of in situ bioremediation of uranium-contaminated groundwater with acetate injections have focused on the role of Geobacter species in U(VI) reduction because of a lack of other abundant known U(VI)-reducing microorganisms. Monitoring the levels of methyl CoM reductase subunit A (mcrA) transcripts during an acetate-injection field experiment demonstrated that acetoclastic methanogens from the genus Methanosarcina were enriched after 40 days of acetate amendment. The increased abundance of Methanosarcina corresponded with an accumulation of methane in the groundwater. An enrichment culture dominated by a Methanosarcina species with the same Methanosarcina mcrA sequence that predominated in the field experiment could effectively convert acetate to methane. In order to determine whether Methanosarcina species could be participating in U(VI) reduction in the subsurface, cell suspensions of M. barkeri were incubated in the presence of U(VI) with acetate provided as the electron donor. U(VI) was reduced by metabolically active M. barkeri cells, however, no U(VI) reduction was observed in inactive controls. These results demonstrate that Methanosarcina species could play an important role in the long-term bioremediation of uranium-contaminated aquifers after depletion of Fe(III) oxides limits the growth of Geobacter species. The results also suggest that Methanosarcina have the potential to influence uranium geochemistry in a diversity of anaerobic sedimentary environments. ER -