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Redox transfer at subduction zones: insights from Fe isotopes in the Mariana forearc
Debret, B.; Reekie, C.D.J.; Mattielli, N.; Beunon, H.; Ménez, B.; Savov, I.P.; Williams, H.M. (2020). Redox transfer at subduction zones: insights from Fe isotopes in the Mariana forearc. Geochemical Perspectives Letters 12: 46-51. https://dx.doi.org/10.7185/geochemlet.2003
In: Geochemical Perspectives Letters. European Association of Geochemistry: Houten. ISSN 2410-339X; e-ISSN 2410-3403, more
Peer reviewed article  

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Keyword
    Marine/Coastal

Authors  Top 
  • Debret, B.
  • Reekie, C.D.J.
  • Mattielli, N., more
  • Beunon, H., more
  • Ménez, B.
  • Savov, I.P.
  • Williams, H.M.

Abstract
    Subduction zones are active sites of chemical exchange between the Earth’s surface and deep interior and play a fundamental role in regulating planet habitability. However, the mechanisms by which redox sensitive elements (e.g., iron, carbon and sulfur) are cycled during subduction remains unclear. Here we use Fe stable isotopes (δ56Fe), which are sensitive to redox-related processes, to examine forearc serpentinite clasts recovered from deep sea drilling of mud volcanoes formed above the Mariana subduction zone in the Western Pacific. We show that serpentinisation of the forearc by slab-derived fluids produces dramatic δ56Fe variation. Unexpected negative correlations between serpentinite bulk δ56Fe, fluid-mobile element concentrations (e.g., B, As) and Fe3+/ƩFe suggest a concomitant oxidation of the mantle wedge through the transfer of isotopically light iron by slab-derived fluids. This process must reflect the transfer of either sulfate- or carbonate-bearing fluids that preferentially complex isotopically light Fe.

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