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Redox potential E_H [Se(VI)/Se(IV)] of aqueous extractof soils from Yongshou Kaschin-Beck diseaseregion and the influence by humic acid
引用本文:Peng An and Xu Langqiu Research Center for Eco-Environmental Sciences,Academia Sinica,Beijing 100083,China. Redox potential E_H [Se(VI)/Se(IV)] of aqueous extractof soils from Yongshou Kaschin-Beck diseaseregion and the influence by humic acid[J]. 环境科学学报(英文版), 1989, 0(2)
作者姓名:Peng An and Xu Langqiu Research Center for Eco-Environmental Sciences  Academia Sinica  Beijing 100083  China
作者单位:Peng An and Xu Langqiu Research Center for Eco-Environmental Sciences,Academia Sinica,Beijing 100083,China
摘    要:The relation between EH [Se(VI)/Se(IV)] and pH of soil aqueous extract in Kaschin-Beck disease region and the effects of natural redox agents, namely humic substances, MnO2 and Fe2+, on the redox property of the system were studied. The results indicated that both humic acid and Fe2+ could enhance the reducibility of Se(VI) and MnO2, a limited oxidizability for Se(IV). Fe2+ showed a weak reducibility only at low pH value. The reducibilities of three sulfur-containing compounds for Se(VI) were in following order:thioglycollic acid > L-cysteine > sulfide


Redox potential E_H [Se(VI)/Se(IV)] of aqueous extractof soils from Yongshou Kaschin-Beck diseaseregion and the influence by humic acid
Peng An and Xu Langqiu Research Center for Eco-Environmental Sciences,Academia Sinica,Beijing ,China. Redox potential E_H [Se(VI)/Se(IV)] of aqueous extractof soils from Yongshou Kaschin-Beck diseaseregion and the influence by humic acid[J]. Journal of environmental sciences (China), 1989, 0(2)
Authors:Peng An  Xu Langqiu Research Center for Eco-Environmental Sciences  Academia Sinica  Beijing   China
Affiliation:Peng An and Xu Langqiu Research Center for Eco-Environmental Sciences,Academia Sinica,Beijing 100083,China
Abstract:The relation between EH [Se(VI)/Se(IV)] and pH of soil aqueous extract in Kaschin-Beck disease region and the effects of natural redox agents, namely humic substances, MnO2 and Fe2+, on the redox property of the system were studied. The results indicated that both humic acid and Fe2+ could enhance the reducibility of Se(VI) and MnO2, a limited oxidizability for Se(IV). Fe2+ showed a weak reducibility only at low pH value. The reducibilities of three sulfur-containing compounds for Se(VI) were in following order:thioglycollic acid > L-cysteine > sulfide
Keywords:selenium  redox potential  Kaschin-Beck disease  humic acid.
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