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Effects of Fe(II)-induced transformation of scorodite on arsenic solubility

Scorodite (FeAsO4·2H2O) is a pivotal secondary ferric arsenate that immobilizes most of arsenic (As) in acidic As-contaminated environments, but secondary As pollution may occur during dissolution of scorodite in environments involving redox changes. Reductive dissolution of scorodite by coexisting...

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Published in:	Journal of hazardous materials 2022-05, Vol.429, p.128274-128274, Article 128274
Main Authors:	Zhou, Jimei, Liu, Yizhang, Bu, Hongling, Liu, Peng, Sun, Jing, Wu, Fei, Hua, Jian, Liu, Chengshuai
Format:	Article
Language:	English
Subjects:	Arsenic - analysis Arsenic repartition Arsenicals Fe(II)-induced transformation Ferric Compounds Ferrihydrite-like Ferrous Compounds Oxidation-Reduction Parasymplesite Scorodite Solubility
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creator	Zhou, Jimei Liu, Yizhang Bu, Hongling Liu, Peng Sun, Jing Wu, Fei Hua, Jian Liu, Chengshuai
description	Scorodite (FeAsO4·2H2O) is a pivotal secondary ferric arsenate that immobilizes most of arsenic (As) in acidic As-contaminated environments, but secondary As pollution may occur during dissolution of scorodite in environments involving redox changes. Reductive dissolution of scorodite by coexisting dissolved Fe2+ (Fe(II)aq) under anaerobic conditions and its effects on the behavior of As have yet to be examined. Here, this study monitored the changes in mineralogy, solubility and speciation of As during scorodite transformation induced by Fe(II) under anaerobic conditions at pH 7.0 and discussed the underlying mechanisms. Mössbauer and X-ray diffraction (XRD) analysis showed the formation of parasymplesite and ferrihydrite-like species during scorodite transformation, which was highly controlled by Fe(II)aq concentrations. 1 mM Fe(II)aq enhanced As mobilization into the solution, whereas As was repartitioned to the PO43--extractable and HCl-extractable phases with 5 and 10 mM Fe(II). The neo-formed parasymplesite and ferrihydrite-like species immobilized dissolved As(V) through adsorption and incorporation. Additionally, As(V) reduction occurred during Fe(II)-induced scorodite transformation. Our results provide new insights into the stability and risk of scorodite in anaerobic environments as well as the geochemical behavior of As in response to Fe cycling. [Display omitted] •Fe(II)-induced transformation of scorodite increased As solubility.•A considerable fraction of structural As transformed to extractable phase.•The amount of As released from scorodite was the greatest with 1 mM Fe(II).•Reduction of As(V) to As(III) occurred during scorodite transformation.•Parasymplesite and ferrihydrite-like were important for As immobilization.
doi_str_mv	10.1016/j.jhazmat.2022.128274
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Reductive dissolution of scorodite by coexisting dissolved Fe2+ (Fe(II)aq) under anaerobic conditions and its effects on the behavior of As have yet to be examined. Here, this study monitored the changes in mineralogy, solubility and speciation of As during scorodite transformation induced by Fe(II) under anaerobic conditions at pH 7.0 and discussed the underlying mechanisms. Mössbauer and X-ray diffraction (XRD) analysis showed the formation of parasymplesite and ferrihydrite-like species during scorodite transformation, which was highly controlled by Fe(II)aq concentrations. 1 mM Fe(II)aq enhanced As mobilization into the solution, whereas As was repartitioned to the PO43--extractable and HCl-extractable phases with 5 and 10 mM Fe(II). The neo-formed parasymplesite and ferrihydrite-like species immobilized dissolved As(V) through adsorption and incorporation. Additionally, As(V) reduction occurred during Fe(II)-induced scorodite transformation. Our results provide new insights into the stability and risk of scorodite in anaerobic environments as well as the geochemical behavior of As in response to Fe cycling. [Display omitted] •Fe(II)-induced transformation of scorodite increased As solubility.•A considerable fraction of structural As transformed to extractable phase.•The amount of As released from scorodite was the greatest with 1 mM Fe(II).•Reduction of As(V) to As(III) occurred during scorodite transformation.•Parasymplesite and ferrihydrite-like were important for As immobilization.</description><identifier>ISSN: 0304-3894</identifier><identifier>EISSN: 1873-3336</identifier><identifier>DOI: 10.1016/j.jhazmat.2022.128274</identifier><identifier>PMID: 35066222</identifier><language>eng</language><publisher>Netherlands: Elsevier B.V</publisher><subject>Arsenic - analysis ; Arsenic repartition ; Arsenicals ; Fe(II)-induced transformation ; Ferric Compounds ; Ferrihydrite-like ; Ferrous Compounds ; Oxidation-Reduction ; Parasymplesite ; Scorodite ; Solubility</subject><ispartof>Journal of hazardous materials, 2022-05, Vol.429, p.128274-128274, Article 128274</ispartof><rights>2022 Elsevier B.V.</rights><rights>Copyright © 2022 Elsevier B.V. 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Reductive dissolution of scorodite by coexisting dissolved Fe2+ (Fe(II)aq) under anaerobic conditions and its effects on the behavior of As have yet to be examined. Here, this study monitored the changes in mineralogy, solubility and speciation of As during scorodite transformation induced by Fe(II) under anaerobic conditions at pH 7.0 and discussed the underlying mechanisms. Mössbauer and X-ray diffraction (XRD) analysis showed the formation of parasymplesite and ferrihydrite-like species during scorodite transformation, which was highly controlled by Fe(II)aq concentrations. 1 mM Fe(II)aq enhanced As mobilization into the solution, whereas As was repartitioned to the PO43--extractable and HCl-extractable phases with 5 and 10 mM Fe(II). The neo-formed parasymplesite and ferrihydrite-like species immobilized dissolved As(V) through adsorption and incorporation. Additionally, As(V) reduction occurred during Fe(II)-induced scorodite transformation. Our results provide new insights into the stability and risk of scorodite in anaerobic environments as well as the geochemical behavior of As in response to Fe cycling. 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subjects	Arsenic - analysis Arsenic repartition Arsenicals Fe(II)-induced transformation Ferric Compounds Ferrihydrite-like Ferrous Compounds Oxidation-Reduction Parasymplesite Scorodite Solubility
title	Effects of Fe(II)-induced transformation of scorodite on arsenic solubility
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