Evaluating Chemical Extraction Techniques for the Determination of Uranium Oxidation State in Reduced Aquifer Sediments

Extraction techniques utilizing high pH and (bi)carbonate concentrations were evaluated for their efficacy in determining the oxidation state of uranium (U) in reduced sediments collected from Rifle, CO. Differences in dissolved concentrations between oxic and anoxic extractions have been proposed a...

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Bibliographic Details
Published in:Environmental science & technology 2013-08, Vol.47 (16), p.9225-9232
Main Authors: Stoliker, Deborah L, Campbell, Kate M, Fox, Patricia M, Singer, David M, Kaviani, Nazila, Carey, Minna, Peck, Nicole E, Bargar, John R, Kent, Douglas B, Davis, James A
Format: Article
Language:English
Subjects:
Analytical chemistry
Anion Exchange Resins - chemistry
Aquifers
Chemistry
Colorado
Exact sciences and technology
Extraction processes
Geologic Sediments - chemistry
Groundwater
Industrial Waste - analysis
Mineralogy
Oxidation
Oxidation-Reduction
Sediments
Solution chemistry
Spectrometric and optical methods
Spectrum analysis
Uranium
Uranium - analysis
Uranium Compounds - analysis
X-Ray Absorption Spectroscopy
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Summary:Extraction techniques utilizing high pH and (bi)carbonate concentrations were evaluated for their efficacy in determining the oxidation state of uranium (U) in reduced sediments collected from Rifle, CO. Differences in dissolved concentrations between oxic and anoxic extractions have been proposed as a means to quantify the U(VI) and U(IV) content of sediments. An additional step was added to anoxic extractions using a strong anion exchange resin to separate dissolved U(IV) and U(VI). X-ray spectroscopy showed that U(IV) in the sediments was present as polymerized precipitates similar to uraninite and/or less ordered U(IV), referred to as non-uraninite U(IV) species associated with biomass (NUSAB). Extractions of sediment containing both uraninite and NUSAB displayed higher dissolved uranium concentrations under oxic than anoxic conditions while extractions of sediment dominated by NUSAB resulted in identical dissolved U concentrations. Dissolved U(IV) was rapidly oxidized under anoxic conditions in all experiments. Uraninite reacted minimally under anoxic conditions but thermodynamic calculations show that its propensity to oxidize is sensitive to solution chemistry and sediment mineralogy. A universal method for quantification of U(IV) and U(VI) in sediments has not yet been developed but the chemical extractions, when combined with solid-phase characterization, have a narrow range of applicability for sediments without U(VI).
ISSN:0013-936X
1520-5851
DOI:10.1021/es401450v