Weathering of stannite–kësterite [Cu 2 (Fe,Zn)SnS 4 ] and the environmental mobility of the released elements
The sulfidic waste dumps of the historical mining sites Giftkies and Kaňk (Czech Republic) have been exposed to a temperate climate over decades. This exposure generated low-pH conditions caused by metal sulfide decomposition. Tin sulfides of the stannite–kësterite series [Cu2(Fe,Zn)SnS4] are common...
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Veröffentlicht in: | European journal of mineralogy (Stuttgart) 2022-10, Vol.34 (5), p.493-506 |
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Zusammenfassung: | The sulfidic waste dumps of the historical mining sites Giftkies
and Kaňk (Czech Republic) have been exposed to a temperate climate over
decades. This exposure generated low-pH conditions caused by metal sulfide
decomposition. Tin sulfides of the stannite–kësterite series
[Cu2(Fe,Zn)SnS4] are common Sn minerals in the ores at the
investigated sites. They decompose under acidic and oxidizing conditions and
form in situ secondary precipitates. Compositional analyses of primary and
secondary minerals were collected by electron microprobe to track the
environmental mobility of the released elements during weathering.
Transmission electron microscopy revealed a diffusion-driven alteration of
stannite to Sn-rich chalcopyrite and the precipitation of native copper and
silver from stannite. In assemblages containing arsenopyrite, an in situ and
amorphous Sn–Fe–As (SFA)-rich phase precipitated close to the Sn sulfide.
The SFA precipitate contains very little sulfur, which was probably released
to the aqueous phase as oxidized species, whereas small amounts of Cu and Zn
were captured by the SFA. This precipitate is metastable and acts as a
temporaneous sink for mobile elements (Cu, Zn) and elements derived from
acid-soluble silicates and phosphates (Ca, Si, Al, and P). With advanced
weathering, complex redox reactions result in the precipitation of magnetite
as an oxidation product of the sulfidic material under oxidative conditions.
The stable minerals goethite and cassiterite mark the end of the weathering
sequence and crystallized from the amorphous SFA precipitate. |
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ISSN: | 1617-4011 0935-1221 1617-4011 |
DOI: | 10.5194/ejm-34-493-2022 |