Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
6306245 | Chemosphere | 2016 | 9 Pages |
Abstract
Small-scale continuous flow wetland mesocosms (â¼0.8 L) were used to evaluate how plant roots under different iron loadings affect uranium (U) mobility. When significant concentrations of ferrous iron (Fe) were present at circumneutral pH values, U concentrations in root exposed sediments were an order of magnitude greater than concentrations in root excluded sediments. Micro X-ray absorption near-edge structure (μ-XANES) spectroscopy indicated that U was associated with the plant roots primarily as U(VI) or U(V), with limited evidence of U(IV). Micro X-ray fluorescence (μ-XRF) of plant roots suggested that for high iron loading at circumneutral pH, U was co-located with Fe, perhaps co-precipitated with root Fe plaques, while for low iron loading at a pH of â¼4 the correlation between U and Fe was not significant, consistent with previous observations of U associated with organic matter. Quantitative PCR analyses indicated that the root exposed sediments also contained elevated numbers of Geobacter spp., which are likely associated with enhanced iron cycling, but may also reduce mobile U(VI) to less mobile U(IV) species.
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Environmental Science
Environmental Chemistry
Authors
Paul G. Koster van Groos, Daniel I. Kaplan, Hyun-shik Chang, John C. Seaman, Dien Li, Aaron D. Peacock, Kirk G. Scheckel, Peter R. Jaffé,