Strong temporal and spatial variation of dissolved Cu isotope composition in acid mine drainage under contrasted hydrological conditions

Copper export and mobility in acid mine drainage are difficult to understand with conventional approaches. Within this context, Cu isotopes could be a powerful tool and here we have examined the relative abundance of dissolved (0.22 μm) and bed sediments samples. Our goals were to 1) assess Cu sourc...

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Veröffentlicht in:Environmental pollution (1987) 2020-11, Vol.266 (Part 2), p.115104-115104, Article 115104
Hauptverfasser: Masbou, J., Viers, J., Grande, J.-A., Freydier, R., Zouiten, C., Seyler, P., Pokrovsky, O.S., Behra, P., Dubreuil, B., de la Torre, M.-L.
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Sprache:eng
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Zusammenfassung:Copper export and mobility in acid mine drainage are difficult to understand with conventional approaches. Within this context, Cu isotopes could be a powerful tool and here we have examined the relative abundance of dissolved (0.22 μm) and bed sediments samples. Our goals were to 1) assess Cu sources variability at the upstream point under contrasted hydrological conditions and 2) investigate the conservative vs. non conservative Cu behavior along a stream. Average δ65Cu values varied from −0.47 to −0.08‰ (n = 9) upstream and from −0.63 to −0.31‰ downstream (n = 7) demonstrating that Cu isotopes are heterogeneous over the diel cycle and along the Meca River. During dry conditions, at the upstream point of the Meca River the Cu isotopic composition was heavier which is in agreement with the preferential release of heavy isotopes during the oxidative dissolution of primary sulfides. The more negative values obtained during high water flow are explained by the contribution of soil and waste deposit weathering. Finally, a comparison of upstream vs. downstream Cu isotope composition is consistent with a conservative behavior of Cu, and isotope mass balance calculations estimate that 87% of dissolved Cu detected downstream originate from the Tharsis mine outlet. These interpretations were supported by thermodynamic modelling and sediment characterization data (X-ray diffraction, Raman Spectroscopy). Overall, based on contrasted hydrological conditions (dry vs flooded), and taking the advantage of isotope insensitivity to dilution, the present work demonstrates the efficiency of using the Cu isotopes approach for tracing sources and processes in the AMD regions. [Display omitted] •We observe rapid change of both riverine Cu isotopic signature and water regime.•This change indicates the contribution of various sources within the mining area.•δ65Cu appears to be controlled by water regime rather than upstream processes.
ISSN:0269-7491
1873-6424
DOI:10.1016/j.envpol.2020.115104