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Origin and fate of Vanadium in the Hazeltine Creek Catchment following the 2014 Mount Polley mine tailings spill, British Columbia, Canada. / Hudson-Edwards, Karen A.; Byrne, Patrick; Bird, Graham et al.
In: Environmental Science and Technology, Vol. 53, No. 8, 16.04.2019, p. 4088–4098.

Research output: Contribution to journalArticlepeer-review

HarvardHarvard

Hudson-Edwards, KA, Byrne, P, Bird, G, Brewer, PA, Burke, IT, Jamieson, HE, Macklin, MG & Williams, RD 2019, 'Origin and fate of Vanadium in the Hazeltine Creek Catchment following the 2014 Mount Polley mine tailings spill, British Columbia, Canada', Environmental Science and Technology, vol. 53, no. 8, pp. 4088–4098. https://doi.org/10.1021/acs.est.8b06391

APA

Hudson-Edwards, K. A., Byrne, P., Bird, G., Brewer, P. A., Burke, I. T., Jamieson, H. E., Macklin, M. G., & Williams, R. D. (2019). Origin and fate of Vanadium in the Hazeltine Creek Catchment following the 2014 Mount Polley mine tailings spill, British Columbia, Canada. Environmental Science and Technology, 53(8), 4088–4098. https://doi.org/10.1021/acs.est.8b06391

CBE

Hudson-Edwards KA, Byrne P, Bird G, Brewer PA, Burke IT, Jamieson HE, Macklin MG, Williams RD. 2019. Origin and fate of Vanadium in the Hazeltine Creek Catchment following the 2014 Mount Polley mine tailings spill, British Columbia, Canada. Environmental Science and Technology. 53(8):4088–4098. https://doi.org/10.1021/acs.est.8b06391

MLA

VancouverVancouver

Hudson-Edwards KA, Byrne P, Bird G, Brewer PA, Burke IT, Jamieson HE et al. Origin and fate of Vanadium in the Hazeltine Creek Catchment following the 2014 Mount Polley mine tailings spill, British Columbia, Canada. Environmental Science and Technology. 2019 Apr 16;53(8):4088–4098. Epub 2019 Mar 4. doi: 10.1021/acs.est.8b06391

Author

Hudson-Edwards, Karen A. ; Byrne, Patrick ; Bird, Graham et al. / Origin and fate of Vanadium in the Hazeltine Creek Catchment following the 2014 Mount Polley mine tailings spill, British Columbia, Canada. In: Environmental Science and Technology. 2019 ; Vol. 53, No. 8. pp. 4088–4098.

RIS

TY - JOUR

T1 - Origin and fate of Vanadium in the Hazeltine Creek Catchment following the 2014 Mount Polley mine tailings spill, British Columbia, Canada

AU - Hudson-Edwards, Karen A.

AU - Byrne, Patrick

AU - Bird, Graham

AU - Brewer, Paul A.

AU - Burke, Ian T.

AU - Jamieson, Heather E.

AU - Macklin, Mark G.

AU - Williams, Richard D.

PY - 2019/4/16

Y1 - 2019/4/16

N2 - Results are presented from the analysis of aqueous and solid-phase V speciation within samples collected from the Hazeltine Creek catchment affected by the August 2014 Mount Polley mine tailings dam failure, Canada. Electron microprobe and XANES analysis found that V is present as V3+ substituted into magnetite, and V3+ and V4+ substituted into titanite, both of which occur in the spilled Mount Polley tailings. Secondary Fe oxyhydroxides forming in inflow waters and on creek beds have V K-edge XANES spectra exhibiting E½ positions and pre-edge features consistent with the presence of V5+ species, suggesting sorption of this species on these secondary phases. PHREEQC modelling suggests that the stream waters mostly contain V5+, and the inflow and pore waters contain a mixture of V3+ and V5+. These data, and stream, inflow and pore water chemical data, suggest that dissolution of V(III)-bearing magnetite, V(III,IV)-bearing titanite, V(V)-bearing Fe(-Al-Si-Mn) oxhydroxides, V-bearing Al(OH)3 and/or -clay minerals may have occurred. In the circumneutral pH environment of Hazeltine Creek elevated V concentrations are likely naturally attenuated by formation of V(V)-bearing secondary Fe oxyhydroxide, Al(OH)3 or clay mineral colloids, suggesting that the V is not bioavailable. A conceptual model is presented describing the origin and fate of V in Hazeltine Creek that is applicable to other river systems.

AB - Results are presented from the analysis of aqueous and solid-phase V speciation within samples collected from the Hazeltine Creek catchment affected by the August 2014 Mount Polley mine tailings dam failure, Canada. Electron microprobe and XANES analysis found that V is present as V3+ substituted into magnetite, and V3+ and V4+ substituted into titanite, both of which occur in the spilled Mount Polley tailings. Secondary Fe oxyhydroxides forming in inflow waters and on creek beds have V K-edge XANES spectra exhibiting E½ positions and pre-edge features consistent with the presence of V5+ species, suggesting sorption of this species on these secondary phases. PHREEQC modelling suggests that the stream waters mostly contain V5+, and the inflow and pore waters contain a mixture of V3+ and V5+. These data, and stream, inflow and pore water chemical data, suggest that dissolution of V(III)-bearing magnetite, V(III,IV)-bearing titanite, V(V)-bearing Fe(-Al-Si-Mn) oxhydroxides, V-bearing Al(OH)3 and/or -clay minerals may have occurred. In the circumneutral pH environment of Hazeltine Creek elevated V concentrations are likely naturally attenuated by formation of V(V)-bearing secondary Fe oxyhydroxide, Al(OH)3 or clay mineral colloids, suggesting that the V is not bioavailable. A conceptual model is presented describing the origin and fate of V in Hazeltine Creek that is applicable to other river systems.

U2 - 10.1021/acs.est.8b06391

DO - 10.1021/acs.est.8b06391

M3 - Article

VL - 53

SP - 4088

EP - 4098

JO - Environmental Science and Technology

JF - Environmental Science and Technology

SN - 0013-936X

IS - 8

ER -