Yoko S. Shimamoto scite author profile

Speciation of iodine in a soil-water system was investigated to understand the mechanism of iodine mobility in surface environments. Iodine speciation in soil and pore water was determined by K-edge XANES and HPLC-ICP-MS, respectively, for samples collected at a depth of 0-12 cm in the Yoro area, Chiba, Japan. Pore water collected at a 0-6 cm depth contained 50%-60% of organic iodine bound to dissolved organic matter, with the other portion being I(-). At a 9-12 cm depth, 98% of iodine was in the form of dissolved I(-). In contrast, XANES analysis revealed that iodine in soil exists as organic iodine at all depths. Iodine mapping of soil grains was obtained using micro-XRF analysis, which also indicated that iodine is bound to organic matter. The activity of laccase, which has the ability to oxidize I(-) to I(2), was high at the surface of the soil-water layer, suggesting that iodide oxidizing enzymes can promote iodine organification. The distribution coefficient of organic iodine in the soil-water system was more than 10-fold greater than that of iodide. Transformation of inorganic iodine to organic iodine plays an important role in iodine immobilization, especially in a surface soil-water system.

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Superiority of K-edge XANES over LIII-edge XANES in the Speciation of Iodine in Natural Soils

Shimamoto

Takahashi

2008

ANAL. SCI.

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Soil column experiments for iodate and iodide using K-edge XANES and HPLC–ICP-MS

Shimamoto

Itai

Takahashi

2010

Journal of Geochemical Exploration

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Possibility of degradation of phenylarsonic acid in the presence of ferrihydrite

Shimamoto

Takahashi

2006

Chin. J. Geochem.

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Yoko S. Shimamoto

Formation of Organic Iodine Supplied as Iodide in a Soil−Water System in Chiba, Japan

Superiority of K-edge XANES over LIII-edge XANES in the Speciation of Iodine in Natural Soils

Soil column experiments for iodate and iodide using K-edge XANES and HPLC–ICP-MS

Possibility of degradation of phenylarsonic acid in the presence of ferrihydrite

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