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In situ porewater uranium concentrations in a contaminated wetland: Effect of seasons and sediment depth

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Abstract Previous studies have shown that Tims Branch wetlands on the Savannah River Site in South Carolina, USA is an effective environmental sink for sequestering the 44 tons of uranium… Click to show full abstract

Abstract Previous studies have shown that Tims Branch wetlands on the Savannah River Site in South Carolina, USA is an effective environmental sink for sequestering the 44 tons of uranium (U) released into the system. The objective of this study was to evaluate over the course of a year, the fluctuations in sediment porewater U concentrations as a function of sediment depth, and the conditions and the extent that the contaminated wetlands acted as an environmental source for U. Sediment desorption tests indicated that U was strongly bound ( K d values were 2100–6900 L/kg), and sequential extraction experiments indicated that a majority of the U was associated with the readily oxidizable fraction (presumably, organic matter fraction). In situ porewater samples were collected using diffusion samplers that were placed in the contaminated wetlands and their uranium concentrations indicated that as much as 3 × 10 −5  wt-% of the system U was in the mobile aqueous phase (federal maximum contaminant levels (MCL) = 0.03  μg/L U). Aqueous U concentrations were correlated to Eh ( r  = 0.422; n  = 113; p  ≤ 0.001). These data also suggested that there may be a critical Eh at ∼400 mV, above which aqueous U concentrations increased significantly ( p  ≤ 0.01) by more than an order of magnitude. These results have implications on the long-term stewardship of this contaminated system; sediment organic matter concentrations and wetland hydrology and plant vegetation need to be maintained in a manner that does not permit strong reoxidation of the system. This could be achieved by minimizing land-use changes or the occurrences of forest fires and ensuring that the system's hydrology is not greatly altered.

Keywords: system; hydrology; situ porewater; sediment depth; uranium concentrations

Journal Title: Applied Geochemistry
Year Published: 2017

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