Organo-Iodine Formation in Soils and Aquifer Sediments at Ambient Concentrations

One of the key risk drivers at radioactive waste disposal facilities is radioiodine, especially 129I. As iodine mobility varies greatly with iodine speciation, experiments with 129I-contaminated aquifer sediments from the Savannah River Site located in Aiken, SC, were carried out to test iodine inte...

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Veröffentlicht in:Environmental science & technology 2009-10, Vol.43 (19), p.7258-7264
Hauptverfasser: Schwehr, K.A, Santschi, P.H, Kaplan, D.I, Yeager, C.M, Brinkmeyer, R
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Sprache:eng
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Zusammenfassung:One of the key risk drivers at radioactive waste disposal facilities is radioiodine, especially 129I. As iodine mobility varies greatly with iodine speciation, experiments with 129I-contaminated aquifer sediments from the Savannah River Site located in Aiken, SC, were carried out to test iodine interactions with soils and aquifer sediments. Using tracer 125I− and stable 127I− additions, it was shown that such interactions were highly dependent on I− concentrations added to sediment suspensions, contact time with the sediment, and organic carbon (OC) content, resulting in an empirical particle−water partition coefficient (K d) that was an inverse power function of the added I− concentration. However, K d values of organically bound 127I were 3 orders of magnitude higher than those determined after 1−2 weeks of tracer equilibration, approaching those of OC. Under ambient conditions, organo-iodine (OI) was a major fraction (67%) of the total iodine in the dissolved phase and by implication of the particulate phase. As the total concentration of amended I− increased, the fraction of detectable dissolved OI decreased. This trend, attributed to OC becoming the limiting factor in the aquifer sediment, explains why at elevated I− concentrations OI is often not detected.
ISSN:0013-936X
1520-5851
DOI:10.1021/es900795k