Chemical speciation and bioavailability of selenium in the rhizosphere of symphyotrichum eatonii from reclaimed mine soils

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Abstract

Knowledge of rhizosphere influences on Se speciation and bioavailability is required to predict Se bioavailability to plants. In the present study, plant-availability of Se to aster (Symphyotrichum eatonii (A. Gray) G.L. Nesom) was compared in rhizosphere soils and nonrhizosphere (bulk) soils collected from a reclaimed mine site in southeastern Idaho, U.S. X-ray spectroscopy was used to characterize the oxidation state and elemental distribution of Se in aster roots, rhizosphere soils, and bulk soils. Percent extractable Se in aster rhizosphere soil was greater than extractable Se in corresponding bulk soils in all samples (n= 4, p = 0.042, 0.051, and 0.052 for three extractions). Selenium oxidation state mapping of 28 regions within the samples and X-ray absorption near edge structure (XANES) spectra from 26 points within the samples indicated that the rhizosphere and bulk soil Se species was predominantly reduced Se(-II,0), while in the aster roots, high concentrations of Se(VI) were present. Results show that within the rhizosphere enhanced Se bioavailability is occurring via oxidation of reduced soil Se to more soluble Se(VI) species. © 2011 American Chemical Society.

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Oram, L. L., Strawn, D. G., & Möller, G. (2011). Chemical speciation and bioavailability of selenium in the rhizosphere of symphyotrichum eatonii from reclaimed mine soils. Environmental Science and Technology, 45(3), 870–875. https://doi.org/10.1021/es1029766

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