B. C. Bostick scite author profile

A mechanistic understanding of U sorption in natural soils and sediments is useful for determining its transport and bioavailability in the environment. X‐ray absorption spectroscopy (XAS) was used to determine the mechanisms by which U(VI) sorbs to three heterogeneous subsurface media reacted under static and dynamic flow conditions. Regardless of the media chosen, ternary surface complexes were the dominant type of sorption complex. Uranyl phosphate complexes were formed in subsurface media from more acidic environments. In contrast, uranyl carbonate ternary surface complexes formed in media from more neutral conditions. The complexes are predominantly inner‐sphere, although some outer‐sphere complexes may also be present, and appear to be on iron (hydr)oxides and possibly aluminosilicates. Additionally, the uranyl phosphate and carbonate complexes are highly disordered, which contributes to their reversible sorption properties.

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Sociodemographic inequalities in uranium and other metals in community water systems across the USA, 2006–11: a cross-sectional study

Ravalli

Bostick

et al. 2022

The Lancet Planetary Health

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Environmental Interfaces, Heavy Metals, Microbes, and Plants Applications of XAFS Spectroscopy and Related Synchrotron Radiation Methods to Environmental Science

et al. 2005

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Profiles and species of Mn, Fe and trace metals in soils near a ferromanganese plant in Bagnolo Mella (Brescia, IT)

Peli

Bostick

Barontini

et al. 2021

Science of The Total Environment

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New strategy for exploring the accumulation of heavy metals in soils derived from different parent materials in the karst region of southwestern China

et al. 2022

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Secondary phase formation during electrokinetic in situ leaching of intact copper sulphide ore

et al. 2023

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Nationwide geospatial analysis of county-level racial/ethnic composition and public drinking water arsenic and uranium

Martínez-Morata

Bostick

Conroy‐Ben

et al. 2022

ISEE Conference Abstracts

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Normalized X-ray absorption spectra at the iron (Fe) K-edge for South American sediments and growth curve data for the model diatom Phaeodactylum tricornutum grown with these sediments as the sole Fe source

Shoenfelt¹,

Sun²,

Winckler³

et al. 2017

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B. C. Bostick

Uranyl Surface Complexes Formed on Subsurface Media from DOE Facilities

Sociodemographic inequalities in uranium and other metals in community water systems across the USA, 2006–11: a cross-sectional study

Environmental Interfaces, Heavy Metals, Microbes, and Plants Applications of XAFS Spectroscopy and Related Synchrotron Radiation Methods to Environmental Science

Profiles and species of Mn, Fe and trace metals in soils near a ferromanganese plant in Bagnolo Mella (Brescia, IT)

New strategy for exploring the accumulation of heavy metals in soils derived from different parent materials in the karst region of southwestern China

Secondary phase formation during electrokinetic in situ leaching of intact copper sulphide ore

Nationwide geospatial analysis of county-level racial/ethnic composition and public drinking water arsenic and uranium

Normalized X-ray absorption spectra at the iron (Fe) K-edge for South American sediments and growth curve data for the model diatom Phaeodactylum tricornutum grown with these sediments as the sole Fe source

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