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W3090453040 startingPage "124158" @default.
W3090453040 abstract "The evaporation of As-rich leachates generated by the weathering of sulfide-rich mine wastes accumulated in abandoned tailing dams of the La Concordia mine, triggers the widespread precipitation of saline crusts and efflorescences. Because these salts are highly soluble, they may release high concentrations of arsenic after rainfall events. Thus, the goal of this work is to assess the solid speciation of As in these efflorescences, which may help to understand the short-term cycling of As in the site. The results reveal that As is present only as As(V), while its capacity to be retained in the salts highly depends on their mineralogical composition. Hydrous sulfates, such as gypsum and epsomite show a very low capacity to scavenge As, while copiapite retains the highest concentrations of this element. The spectroscopic evidences suggest that in this mineral, As(V) is included within the lattice, substituting sulfate in the tetrahedral sites. Because copiapite is highly soluble, it may be considered as one of the most important transient reservoirs of As in the site that can release high concentrations of this hazardous pollutant during the occasional rainfall events produced during the wet season." @default.
W3090453040 created "2020-10-08" @default.
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W3090453040 date "2021-02-01" @default.
W3090453040 modified "2023-10-06" @default.
W3090453040 title "The role of efflorescent salts associated with sulfide-rich mine wastes in the short-term cycling of arsenic: Insights from XRD, XAS, and µ-XRF studies" @default.
W3090453040 cites W1601630492 @default.
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W3090453040 cites W1966298162 @default.
W3090453040 cites W1966418918 @default.
W3090453040 cites W1971301407 @default.
W3090453040 cites W1978190071 @default.
W3090453040 cites W1989359782 @default.
W3090453040 cites W1990073400 @default.
W3090453040 cites W1992931679 @default.
W3090453040 cites W1998981899 @default.
W3090453040 cites W1998982972 @default.
W3090453040 cites W2002755751 @default.
W3090453040 cites W2005348107 @default.
W3090453040 cites W2006348957 @default.
W3090453040 cites W2016260972 @default.
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W3090453040 cites W2018216796 @default.
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W3090453040 cites W2036492477 @default.
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W3090453040 cites W2049355572 @default.
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W3090453040 cites W2300775557 @default.
W3090453040 cites W2303837820 @default.
W3090453040 cites W2313135223 @default.
W3090453040 cites W2321436879 @default.
W3090453040 cites W2529080485 @default.
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W3090453040 doi "https://doi.org/10.1016/j.jhazmat.2020.124158" @default.
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