Abstract
We developed a rapid, simple method for the iodine speciation analysis of water and applied it to natural water samples. Simultaneous determinations of I– and IO3– were achieved with an HPLC system with amperometric detection for I– and spectrophotometric detection after a postcolumn reaction for IO3–. We determined the I– and IO3– concentrations in 20-μL water samples within 10 min. Total I concentrations in water samples were determined after the decomposition of organics by off-line UV irradiation for 30 min, followed by reduction to I{–. The analytical conditions were optimized by using test solutions rich in organic matter extracted from soils. We tested the new method with samples of groundwater, spring water, precipitation, soil percolate, stream water, and seawater as well as solutions extracted from soil. The method worked well, although the concentrations of some I species were below detection. This method is suitable for routine speciation analysis, which is important for studies of I behavior in the environment.
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Acknowledgments
The authors are grateful to Prof. H. Yamada (Kyoto Prefectural University) for his useful advice on the development of the analytical system. The authors thank Ms. Y. Uetake, Mr. S. Nakagawa, and Ms. K. Taneichi (ZAX, Inc.) for assistance with this research, and the analytical chemistry staff at Entex, Inc. for their support of the ICP-MS analysis. This work was carried out under a contract with the Aomori Prefectural Government, Japan.
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Takeda, A., Tsukada, H., Takaku, Y. et al. Determination of Iodide, Iodate and Total Iodine in Natural Water Samples by HPLC with Amperometric and Spectrophotometric Detection, and Off-line UV Irradiation. ANAL. SCI. 32, 839–845 (2016). https://doi.org/10.2116/analsci.32.839
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DOI: https://doi.org/10.2116/analsci.32.839