Laura Newsome scite author profile

Stimulating the microbial reduction of aqueous uranium(VI) to insoluble U(IV) via electron donor addition has been proposed as a strategy to remediate uranium-contaminated groundwater in situ. However, concerns have been raised regarding the longevity of microbially precipitated U(IV) in the subsurface, particularly given that it may become remobilized if the conditions change to become oxidizing. An alternative mechanism is to stimulate the precipitation of poorly soluble uranium phosphates via the addition of an organophosphate and promote the development of reducing conditions. Here, we selected a sediment sample from a U.K. nuclear site and stimulated the microbial community with glycerol phosphate under anaerobic conditions to assess whether uranium phosphate precipitation was a viable bioremediation strategy. Results showed that U(VI) was rapidly removed from solution and precipitated as a reduced crystalline U(IV) phosphate mineral similar to ningyoite. This mineral was considerably more recalcitrant to oxidative remobilization than the products of microbial U(VI) reduction. Bacteria closely related to Pelosinus species may have played a key role in uranium removal in these experiments. This work has implications for the stewardship of uranium-contaminated groundwater, with the formation of U(IV) phosphates potentially offering a more effective strategy for maintaining low concentrations of uranium in groundwater over long time periods.

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The stability of microbially reduced U(IV); impact of residual electron donor and sediment ageing

Newsome

Morris

Shaw

et al. 2015

Chemical Geology

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Bioremediation of strontium and technetium contaminated groundwater using glycerol phosphate

et al. 2019

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Laura Newsome

The biogeochemistry and bioremediation of uranium and other priority radionuclides

Biostimulation by Glycerol Phosphate to Precipitate Recalcitrant Uranium(IV) Phosphate

The stability of microbially reduced U(IV); impact of residual electron donor and sediment ageing

Bioremediation of strontium and technetium contaminated groundwater using glycerol phosphate

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