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W2056357769 abstract "Field-scale biostimulation and desorption tracer experiments conducted in a uranium (U) contaminated, shallow alluvial aquifer have provided insight into the coupling of microbiology, biogeochemistry, and hydrogeology that control U mobility in the subsurface. Initial experiments successfully tested the concept that Fe-reducing bacteria such as Geobacter sp. could enzymatically reduce soluble U(VI) to insoluble U(IV) during in situ electron donor amendment (Anderson et al., 2003; Williams et al., 2011). In parallel, in situ desorption tracer tests using bicarbonate amendment demonstrated rate-limited U(VI) desorption (Fox et al., 2012). These results and prior laboratory studies underscored the importance of enzymatic U(VI)-reduction and suggested the ability to combine desorption and bioreduction of U(VI). Here we report the results of a new field experiment in which bicarbonate-promoted uranium desorption and acetate amendment were combined and compared to an acetate amendment-only experiment in the same experimental plot. Results confirm that bicarbonate amendment to alluvial aquifer sediments desorbs U(VI) and increases the abundance of Ca-uranyl-carbonato complexes. At the same time, the rate of acetate-promoted enzymatic U(VI) reduction was greater in the presence of added bicarbonate in spite of the increased dominance of Ca-uranyl-carbonato aqueous complexes. A model-simulated peak rate of U(VI) reduction was ∼3.8 times higher during acetate-bicarbonate treatment than under acetate-only conditions. Lack of consistent differences in microbial community structure between acetate-bicarbonate and acetate-only treatments suggest that a significantly higher rate of U(VI) reduction in the bicarbonate-impacted sediment may be due to a higher intrinsic rate of microbial reduction induced by elevated concentrations of the bicarbonate oxyanion. The findings indicate that bicarbonate amendment may be useful in improving the engineered bioremediation of uranium in aquifers." @default.
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W2056357769 date "2015-02-01" @default.
W2056357769 modified "2023-10-15" @default.
W2056357769 title "Bicarbonate impact on U(VI) bioreduction in a shallow alluvial aquifer" @default.
W2056357769 cites W1583947029 @default.
W2056357769 cites W1587078830 @default.
W2056357769 cites W1701869895 @default.
W2056357769 cites W1970175341 @default.
W2056357769 cites W1971072534 @default.
W2056357769 cites W1976721527 @default.
W2056357769 cites W1978607238 @default.
W2056357769 cites W1980050178 @default.
W2056357769 cites W1981625346 @default.
W2056357769 cites W1989061414 @default.
W2056357769 cites W1993089527 @default.
W2056357769 cites W1994318446 @default.
W2056357769 cites W1995843048 @default.
W2056357769 cites W1998380785 @default.
W2056357769 cites W2001233642 @default.
W2056357769 cites W2001254675 @default.
W2056357769 cites W2001537266 @default.
W2056357769 cites W2008573211 @default.
W2056357769 cites W2010917499 @default.
W2056357769 cites W2018550447 @default.
W2056357769 cites W2021072732 @default.
W2056357769 cites W2024419583 @default.
W2056357769 cites W2034138038 @default.
W2056357769 cites W2034935928 @default.
W2056357769 cites W2037630536 @default.
W2056357769 cites W2050080229 @default.
W2056357769 cites W2051755133 @default.
W2056357769 cites W2052584099 @default.
W2056357769 cites W2053170703 @default.
W2056357769 cites W2053745670 @default.
W2056357769 cites W2056880576 @default.
W2056357769 cites W2058112731 @default.
W2056357769 cites W2065079574 @default.
W2056357769 cites W2068614150 @default.
W2056357769 cites W2070075418 @default.
W2056357769 cites W2070255599 @default.
W2056357769 cites W2070537913 @default.
W2056357769 cites W2071537506 @default.
W2056357769 cites W2072812562 @default.
W2056357769 cites W2078730606 @default.
W2056357769 cites W2080950776 @default.
W2056357769 cites W2081730202 @default.
W2056357769 cites W2082920937 @default.
W2056357769 cites W2086140053 @default.
W2056357769 cites W2087221838 @default.
W2056357769 cites W2097640027 @default.
W2056357769 cites W2098957827 @default.
W2056357769 cites W2100678868 @default.
W2056357769 cites W2103541640 @default.
W2056357769 cites W2103736180 @default.
W2056357769 cites W2109855085 @default.
W2056357769 cites W2116365417 @default.
W2056357769 cites W2121861304 @default.
W2056357769 cites W2125072640 @default.
W2056357769 cites W2127086659 @default.
W2056357769 cites W2127716495 @default.
W2056357769 cites W2129315703 @default.
W2056357769 cites W2130004204 @default.
W2056357769 cites W2138683603 @default.
W2056357769 cites W2138725582 @default.
W2056357769 cites W2153137490 @default.
W2056357769 cites W2159246547 @default.
W2056357769 cites W2159462457 @default.
W2056357769 cites W216514581 @default.
W2056357769 cites W2166319595 @default.
W2056357769 cites W2171345815 @default.
W2056357769 cites W2172042317 @default.
W2056357769 cites W2313040401 @default.
W2056357769 cites W2335729551 @default.
W2056357769 doi "https://doi.org/10.1016/j.gca.2014.11.013" @default.
W2056357769 hasPublicationYear "2015" @default.
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