The effects of temperature and pressure on the oxidation state of chromium in silicate melts
Date
2021-04-29
Authors
Berry, Andrew
O’Neill, Hugh St. C.
Foran, Garry J.
Journal Title
Journal ISSN
Volume Title
Publisher
Springer
Abstract
The oxidation state of Cr, Cr /ΣCr (where ΣCr = Cr + Cr = 0.35 wt%), in Fe-free silicate glasses quenched from melts equilibrated as a function of pressure to 3.5 GPa at 1500 °C, and as a function of temperature to 1500 °C at atmospheric pressure, and at oxygen fugacities (fO , in log units relative to the quartz-fayalite-magnetite (QFM) buffer) between ∆QFM = − 1 and − 2, was determined by XANES spectroscopy. Increasing temperature stabilises Cr and increasing pressure stabilises Cr . A general expression for Cr /Cr in silicate melts was derived: log(Cr /Cr ) = 1/4(∆QFM + 8.58 − 25,050/T + 940P/T − 0.02P) + 9770/T − 7.69 + 6.22Λ + (900P − 172P )/T, where P is pressure in GPa, T is temperature in K, and Λ is the optical basicity of the composition. This equation reproduces 213 Cr /ΣCr values reported here and in the literature with an average ΔCr /ΣCr of 0.02. A MORB melt at 1400 °C and QFM is predicted to have Cr /ΣCr ~ 0.35 at the surface but Cr /ΣCr ~ 0 at a depth of ~ 60 km. Although Cr is an important oxidation state in silicate melts it is not preserved at low temperatures due to an electron exchange reaction with Fe3+.
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Keywords
Chromium, XANES spectroscopy, Oxidation state, Oxygen fugacity, Silicate melt, Chromitite
Citation
Berry, A.J., O’Neill, H.S.C. & Foran, G.J. The effects of temperature and pressure on the oxidation state of chromium in silicate melts. Contrib Mineral Petrol 176, 40 (2021). https://doi.org/10.1007/s00410-021-01776-7
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Source
Contributions to Mineralogy and Petrology
Type
Journal article
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2099-12-31
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