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TECHNICAL REPORTS

Heavy Metals in the Environment

Mechanisms of Thorium Migration in a Semiarid Soil

United States Army Corps of Engineers, ERDC, Environmental Laboratory, Vicksburg, MS 39180

^* Corresponding author (Anthony.J.Bednar{at}erdc.usace.army.mil)

Received for publication November 11, 2003. Thorium concentrations at Kirtland Air Force Base training sites in Albuquerque, NM, have been previously described; however, the mechanisms of thorium migration were not fully understood. This work describes the processes affecting thorium mobility in this semiarid soil, which has implications for future remedial action. Aqueous extraction and filtration experiments have demonstrated the colloidal nature of thorium in the soil, due in part to the low solubility of thorium oxide. Colloidal material was defined as that removed by a 0.22-µm or smaller filter after being filtered to nominally dissolved size (0.45 µm). Additionally, association of thorium with natural organic matter is suggested by micro- and ultrafiltration methods, and electrokinetic data, which indicate thorium migration as a negatively charged particle or anionic complex with organic matter. Soil fractionation and digestion experiments show a bimodal distribution of thorium in the largest and smallest size fractions, most likely associated with detrital plant material and inorganic oxide particles, respectively. Plant uptake studies suggest this could also be a mode of thorium migration as plants grown in thorium-containing soil had a higher thorium concentration than those in control soils. Soil erosion laboratory experiments with wind and surface water overflow were performed to determine bulk soil material movement as a possible mechanism of mobility. Information from these experiments is being used to determine viable soil stabilization techniques at the site to maintain a usable training facility with minimal environmental impact.

Abbreviations: ICP–MS, inductively coupled plasma–mass spectrometry • NOM, natural organic matter

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This Issue in Journal of Environmental Quality

JEQ 2004 33: 1947-1953. [Full Text]