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Journal Abstract Search

141 related items for PubMed ID: 32659581

  • 21. Fractionation and mobility of thallium in areas impacted by mining-metallurgical activities: Identification of a water-soluble Tl(I) fraction.
    Cruz-Hernández Y, Ruiz-García M, Villalobos M, Romero FM, Meza-Figueroa D, Garrido F, Hernández-Alvarez E, Pi-Puig T.
    Environ Pollut; 2018 Jun; 237():154-165. PubMed ID: 29482021
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  • 22. Interindividual variability of soil arsenic metabolism by human gut microbiota using SHIME model.
    Yin N, Du H, Wang P, Cai X, Chen P, Sun G, Cui Y.
    Chemosphere; 2017 Oct; 184():460-466. PubMed ID: 28618278
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  • 23. Bioaccessibility of arsenic(V) bound to ferrihydrite using a simulated gastrointestinal system.
    Beak DG, Basta NT, Scheckel KG, Traina SJ.
    Environ Sci Technol; 2006 Feb 15; 40(4):1364-70. PubMed ID: 16572798
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  • 24. Evolution of As speciation with depth in a soil profile with a geothermal As origin.
    Yang PT, Wu WJ, Hashimoto Y, Huang JH, Huang ST, Hseu ZY, Wang SL.
    Chemosphere; 2020 Feb 15; 241():124956. PubMed ID: 31605996
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  • 25. Effects of soil composition and mineralogy on the bioaccessibility of arsenic from tailings and soil in gold mine districts of Nova Scotia.
    Meunier L, Walker SR, Wragg J, Parsons MB, Koch I, Jamieson HE, Reimer KJ.
    Environ Sci Technol; 2010 Apr 01; 44(7):2667-74. PubMed ID: 20218545
    [Abstract] [Full Text] [Related]

  • 26. Arsenic contamination in abandoned and active gold mine spoils in Ghana: Geochemical fractionation, speciation, and assessment of the potential human health risk.
    Mensah AK, Marschner B, Shaheen SM, Wang J, Wang SL, Rinklebe J.
    Environ Pollut; 2020 Jun 01; 261():114116. PubMed ID: 32220748
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  • 27. Nutritional status affects the bioaccessibility and speciation of arsenic from soils in a simulator of the human intestinal microbial ecosystem.
    Wang P, Yin N, Cai X, Du H, Li Z, Sun G, Cui Y.
    Sci Total Environ; 2018 Dec 10; 644():815-821. PubMed ID: 29990930
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  • 28. Arsenic bioaccessibility and fractionation in abandoned mine soils from selected sites in New South Wales, Australia and human health risk assessment.
    Fazle Bari ASM, Lamb D, Choppala G, Seshadri B, Islam MR, Sanderson P, Rahman MM.
    Ecotoxicol Environ Saf; 2021 Oct 15; 223():112611. PubMed ID: 34385057
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  • 29. Assessment of arsenic speciation and bioaccessibility in mine-impacted materials.
    Ollson CJ, Smith E, Scheckel KG, Betts AR, Juhasz AL.
    J Hazard Mater; 2016 Aug 05; 313():130-7. PubMed ID: 27060218
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  • 30. Soil washing of arsenic from mixed contaminated abandoned mine soils and fate of arsenic after washing.
    Fazle Bari ASM, Lamb D, MacFarlane GR, Rahman MM.
    Chemosphere; 2022 Jun 05; 296():134053. PubMed ID: 35183586
    [Abstract] [Full Text] [Related]

  • 31. Decreasing arsenic bioaccessibility/bioavailability in soils with iron amendments.
    Subacz JL, Barnett MO, Jardine PM, Stewart MA.
    J Environ Sci Health A Tox Hazard Subst Environ Eng; 2007 Jul 15; 42(9):1317-29. PubMed ID: 17654151
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  • 32. Arsenic in soils contaminated by arsenic-containing chemical weapons in a site of Jilin, China: fraction and bioaccessibility.
    Zhang Y, Zhu Y, Zhao S, Li D, Xi H, Wang Y.
    Environ Sci Pollut Res Int; 2022 Apr 15; 29(19):28957-28972. PubMed ID: 34994931
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  • 33. Arsenic bioaccessibility in contaminated soils: Coupling in vitro assays with sequential and HNO3 extraction.
    Li SW, Li J, Li HB, Naidu R, Ma LQ.
    J Hazard Mater; 2015 Sep 15; 295():145-52. PubMed ID: 25897696
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  • 34. The bioaccessibility and fractionation of arsenic in anoxic soils as a function of stabilization using low-cost Fe/Al-based materials: A long-term experiment.
    Hou Q, Han D, Zhang Y, Han M, Huang G, Xiao L.
    Ecotoxicol Environ Saf; 2020 Mar 15; 191():110210. PubMed ID: 31958624
    [Abstract] [Full Text] [Related]

  • 35. High-iron biosolids compost-induced changes in lead and arsenic speciation and bioaccessibility in co-contaminated soils.
    Brown SL, Clausen I, Chappell MA, Scheckel KG, Newville M, Hettiarachchi GM.
    J Environ Qual; 2012 Mar 15; 41(5):1612-22. PubMed ID: 23099953
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  • 36. Effect of soil properties on arsenic fractionation and bioaccessibility in cattle and sheep dipping vat sites.
    Sarkar D, Makris KC, Parra-Noonan MT, Datta R.
    Environ Int; 2007 Feb 15; 33(2):164-9. PubMed ID: 17034861
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  • 37. Arsenic in Rice Bran Products: In Vitro Oral Bioaccessibility, Arsenic Transformation by Human Gut Microbiota, and Human Health Risk Assessment.
    Yin N, Wang P, Li Y, Du H, Chen X, Sun G, Cui Y.
    J Agric Food Chem; 2019 May 01; 67(17):4987-4994. PubMed ID: 30994339
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  • 38. Bioaccessibility of arsenic in mining-impacted circumneutral river floodplain soils.
    Mikutta C, Mandaliev PN, Mahler N, Kotsev T, Kretzschmar R.
    Environ Sci Technol; 2014 Nov 18; 48(22):13468-77. PubMed ID: 25358072
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  • 39. Effect of aging on bioaccessibility of arsenic and lead in soils.
    Liang S, Guan DX, Li J, Zhou CY, Luo J, Ma LQ.
    Chemosphere; 2016 May 18; 151():94-100. PubMed ID: 26930247
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  • 40. In Situ Fixation of Metal(loid)s in Contaminated Soils: A Comparison of Conventional, Opportunistic, and Engineered Soil Amendments.
    Mele E, Donner E, Juhasz AL, Brunetti G, Smith E, Betts AR, Castaldi P, Deiana S, Scheckel KG, Lombi E.
    Environ Sci Technol; 2015 Nov 17; 49(22):13501-9. PubMed ID: 26457447
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