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An oxygen fugacity profile through the Siberian Craton — Fe K-edge XANES determinations of Fe3+/ΣFe in garnets in peridotite xenoliths from the Udachnaya East kimberlite
Yaxley, GM and Berry, AJ and Kamenetsky, VS and Woodland, AB and Golovin, AV (2012) An oxygen fugacity profile through the Siberian Craton — Fe K-edge XANES determinations of Fe3+/ΣFe in garnets in peridotite xenoliths from the Udachnaya East kimberlite. Lithos, 140-141. pp. 142-151.
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The Udachnaya East kimberlite sampled garnet peridotite xenoliths from a pressure range of 1.2 to 7.1 GPa in the underlying Siberian cratonic lithosphere. Samples derived from b5.2 GPa lie close to a typical cratonic geotherm of 40 mW m−2, whereas more deeply derived samples have temperatures ≥100 °C above this geotherm. Minor and trace element compositions of garnet and clinopyroxene indicate the presence of both depleted and metasomatically enriched material in the suite. Depleted material derives from the entire sampled depth interval, but enriched material is confined to pressures of 4.5 to 6.6 GPa. Thus, the Siberian cratonic lithosphere under the Undachnaya pipe consisted of a relatively cool and depleted upper layer about 150 km deep, underlain by a hotter layer which extended to at least 210 km depth and contained both depleted and enriched material. Fe K-edge XANES was applied to garnets from this suite to measure their Fe3+/ΣFe values, enabling determination of a redox profile through the lithospheric section represented by the xenolith suite. ΔlogƒO2 [FMQ] varied from −2.5 to nearly −6.0 over the sampled pressure interval. An overall trend to lower ΔlogƒO2 [FMQ] values with increasing pressure was defined mostly by the depleted samples. A superimposed oxidation trend to ΔlogƒO2 [FMQ] values 1–2 units higher than the main trend mostly affected the deeper, enriched samples, indicating a clear link between metasomatism and oxidation. The amount of oxidation was insufficient to de-stabilize diamond in the deep lithosphere. A possible mechanism for metasomatic enrichment relates to localized, low degree “redox melting”, whereby upwardly percolating CH4±H2O fluids would encounter progressively more oxidizing peridotite wall-rock resulting in diamond crystallization and increased water activity in the fluid. This could lead to local partial melting and enriched melts could migrate into cooler parts of the lithosphere and crystallize, thus enriching parts of the lithosphere. Melts thus formed are expected to be relatively enriched in Fe3+ as it is moderately incompatible during partial melting. Lithospheric domains metasomatised by solidification of these melts would be relatively enriched in Fe3+ and garnets may therefore have higher Fe3+/ΣFe values, thus recording relatively higher ΔlogƒO2 [FMQ] values.
|Keywords:||XANES Garnet peridotite xenoliths Siberian Craton Oxygen fugacity Metasomatism|
|Journal or Publication Title:||Lithos|
|Page Range:||pp. 142-151|
|Identification Number - DOI:||10.1016/j.lithos.2012.01.016|
|Additional Information:||The definitive version is available at http://www.sciencedirect.com|
|Date Deposited:||14 Mar 2012 03:39|
|Last Modified:||14 Mar 2012 03:39|
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