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150 related items for PubMed ID: 36668684

  • 1. Microbial Contributions to Iodide Enrichment in Deep Groundwater in the North China Plain.
    Jiang Z, Huang M, Jiang Y, Dong Y, Shi L, Li J, Wang Y.
    Environ Sci Technol; 2023 Feb 14; 57(6):2625-2635. PubMed ID: 36668684
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  • 2. Bacterial Sulfate Reduction Facilitates Iodine Mobilization in the Deep Confined Aquifer of the North China Plain.
    Jiang Z, Qian L, Cui M, Jiang Y, Shi L, Dong Y, Li J, Wang Y.
    Environ Sci Technol; 2023 Oct 10; 57(40):15277-15287. PubMed ID: 37751521
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  • 3. Dissimilatory Iodate-Reducing Microorganisms Contribute to the Enrichment of Iodine in Groundwater.
    Li J, Fang W, Li C, Cui M, Qian L, Jiang Z, Jiang Y, Shi L, Xie X, Guo H, Li P, Dong Y, Xiu W, Wang Y, Wang Y.
    Environ Sci Technol; 2024 Oct 29; 58(43):19255-19265. PubMed ID: 39417302
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  • 6. Ozonation of iodide-containing waters: selective oxidation of iodide to iodate with simultaneous minimization of bromate and I-THMs.
    Allard S, Nottle CE, Chan A, Joll C, von Gunten U.
    Water Res; 2013 Apr 15; 47(6):1953-60. PubMed ID: 23351431
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  • 7. Fluoride and iodine enrichment in groundwater of North China Plain: Evidences from speciation analysis and geochemical modeling.
    Li J, Zhou H, Qian K, Xie X, Xue X, Yang Y, Wang Y.
    Sci Total Environ; 2017 Nov 15; 598():239-248. PubMed ID: 28441602
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  • 8. Iodine enrichment in the groundwater in South China and its hydrogeochemical control.
    Zhou F, Xu Q, Chen Y, Zhang W, Qiu R.
    J Environ Sci (China); 2024 Aug 15; 142():226-235. PubMed ID: 38527888
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  • 9. A novel approach for the simultaneous determination of iodide, iodate and organo-iodide for 127I and 129I in environmental samples using gas chromatography-mass spectrometry.
    Zhang S, Schwehr KA, Ho YF, Xu C, Roberts KA, Kaplan DI, Brinkmeyer R, Yeager CM, Santschi PH.
    Environ Sci Technol; 2010 Dec 01; 44(23):9042-8. PubMed ID: 21069952
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  • 10. Iodine mobilization in groundwater system at Datong basin, China: evidence from hydrochemistry and fluorescence characteristics.
    Li J, Wang Y, Guo W, Xie X, Zhang L, Liu Y, Kong S.
    Sci Total Environ; 2014 Jan 15; 468-469():738-45. PubMed ID: 24064343
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  • 11. Speciation of iodide, iodine, and iodate in environmental matrixes by inductively coupled plasma atomic emission spectrometry using in situ chemical manipulation.
    Anderson KA, Markowski P.
    J AOAC Int; 2000 Jan 15; 83(1):225-30. PubMed ID: 10693024
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  • 12. Enrichment of Geogenic Organoiodine Compounds in Alluvial-Lacustrine Aquifers: Molecular Constraints by Organic Matter.
    Xue J, Deng Y, Pi K, Fu QL, Du Y, Xu Y, Yuan X, Fan R, Xie X, Shi J, Wang Y.
    Environ Sci Technol; 2024 Apr 02; 58(13):5932-5941. PubMed ID: 38502530
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  • 14. Iodine enrichment and the underlying mechanism in deep groundwater in the Cangzhou Region, North China.
    Zhang Y, Chen L, Cao S, Tian X, Hu S, Mi X, Wu Y.
    Environ Sci Pollut Res Int; 2021 Mar 02; 28(9):10552-10563. PubMed ID: 33099732
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  • 15. Mechanistic insights into iodine enrichment in groundwater during the transformation of iron minerals in aquifer sediments.
    Li J, Wang Y, Xue X, Xie X, Siebecker MG, Sparks DL, Wang Y.
    Sci Total Environ; 2020 Nov 25; 745():140922. PubMed ID: 32736101
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  • 18. Reduction of iodate in iodated salt to iodide during cooking with iodine as measured by an improved HPLC/ICP-MS method.
    Liu L, Li X, Wang H, Cao X, Ma W.
    J Nutr Biochem; 2017 Apr 25; 42():95-100. PubMed ID: 28157618
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