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Microbial U Isotope Fractionation Depends on the U(VI) Reduction Rate

Anirban Basu, Christoph Wanner, Thomas M. Johnson, Craig C. Lundstrom, Robert A. Sanford, Eric Sonnenthal, Maxim I. Boyanov, Kenneth Kemner

2020Environmental Science & Technology38 citationsDOIOpen Access PDF

Abstract

U isotope fractionation may serve as an accurate proxy for U(VI) reduction in both modern and ancient environments, if the systematic controls on the magnitude of fractionation (ε) are known. We model the effect of U(VI) reduction kinetics on U isotopic fractionation during U(VI) reduction by a novel Shewanella isolate, Shewanella sp. (NR), in batch incubations. The measured ε values range from 0.96 ± 0.16 to 0.36 ± 0.07‰ and are strongly dependent on the U(VI) reduction rate. The ε decreases with increasing reduction rate constants normalized by cell density and initial U(VI). Reactive transport simulations suggest that the rate dependence of ε is due to a two-step process, where diffusive transport of U(VI) from the bulk solution across a boundary layer is followed by enzymatic reduction. Our results imply that the spatial decoupling of bulk U(VI) solution and enzymatic reduction should be taken into account for interpreting U isotope data from the environment.

Topics & Concepts

FractionationChemistryIsotope fractionationIsotopeKinetic isotope effectKineticsReaction rate constantAnalytical Chemistry (journal)Environmental chemistryChromatographyDeuteriumPhysicsQuantum mechanicsRadioactive element chemistry and processingGeochemistry and Elemental AnalysisRadioactive contamination and transfer
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