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Release of oxidizing fluids in subduction zones recorded by iron isotope zonation in garnet.

Gerrits, Anna R. and Inglis, Edward and Dragovic, Besim and Starr, Paul G. and Baxter, Ethan F. and Burton, Kevin (2019) 'Release of oxidizing fluids in subduction zones recorded by iron isotope zonation in garnet.', Nature geoscience., 12 . pp. 1029-1033.

Abstract

Subduction zones are key regions of chemical and mass transfer between the Earth’s surface and mantle. During subduction, oxidized material is carried into the mantle and large amounts of water are released due to the breakdown of hydrous minerals such as lawsonite. Dehydration accompanied by the release of oxidizing species may play a key role in controlling redox changes in the subducting slab and overlying mantle wedge. Here we present measurements of oxygen fugacity, using garnet–epidote oxybarometry, together with analyses of the stable iron isotope composition of zoned garnets from Sifnos, Greece. We find that the garnet interiors grew under relatively oxidized conditions whereas garnet rims record more reduced conditions. Garnet δ56Fe increases from core to rim as the system becomes more reduced. Thermodynamic analysis shows that this change from relatively oxidized to more reduced conditions occurred during lawsonite dehydration. We conclude that the garnets maintain a record of progressive dehydration and that the residual mineral assemblages within the slab became more reduced during progressive subduction-zone dehydration. This is consistent with the hypothesis that lawsonite dehydration accompanied by the release of oxidizing species, such as sulfate, plays an important and measurable role in the global redox budget and contributes to sub-arc mantle oxidation in subduction zones.

Item Type:Article
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Status:Peer-reviewed
Publisher Web site:https://doi.org/10.1038/s41561-019-0471-y
Date accepted:27 August 2019
Date deposited:12 September 2019
Date of first online publication:28 October 2019
Date first made open access:28 April 2020

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