@misc{10481/81618,
year = {2023},
url = {https://hdl.handle.net/10481/81618},
abstract = {The Earth's mantle is oxygen-breathing through the sink of oxidised tectonic plates at convergent Margins. Ocean floor serpentinisation increases the bulk oxidation state of iron relative to dry oceanic mantle and results in a variable intake of other redox-sensitive elements such as sulphur. The reversibility of seafloor oxidation in subduction zones during high-pressure dehydration of serpentinite (“deserpentinisation”) at subarc depths and the capacity of the
resulting fluids to oxidise the mantle source of arc basalts are highly contested.
Thermodynamic modelling, experiments, and metaperidotite study in exhumed highpressure terrains result in differing estimates of the redox state of deserpentinisation fluids, ranging from low to highly oxidant. Here we show that although intrinsic deserpentinisation fluids are highly oxidant, the infiltration of small fractions of external fluids equilibrated with metasedimentary rocks strongly modulates their redox state and oxidation-reduction capacity explaining the observed discrepancies in their redox state. Infiltration of fluids equilibrated with graphite-bearing sediments reduces the oxidant, intrinsic deserpentinisation fluids to oxygen fugacities similar to those observed in most graphite-furnace experiments and natural metaperidotites. However, infiltration of CO2-bearing fluids equilibrated with modern GLOSS generates sulphate-rich, highly oxidising deserpentinisation fluids. We show that such GLOSS infiltrated deserpentinisation fluids can effectively oxidise the mantle wedge of cold to hot
subduction zones potentially accounting for the presumed oxidised nature of the source of arc basalts.},
organization = {MICIN/AEI/10.13039/501100011033 (PID2019-105192GB-I00) (RYC2018-024363-I)},
organization = {FEDER},
organization = {FSE},
organization = {Junta de Andalucia research group RNM-131.},
publisher = {Springer Nature},
title = {Mantle wedge oxidation due to sediment-infiltrated deserpentinisation},
doi = {10.1038/s41561-023-01127-0},
author = {Padrón Navarta, José Alberto and Sánchez-Vizcaíno, Vicente López and Menzel, Manuel Dominik and Gómez Pugnaire, María Teresa and Garrido Marín, Carlos J.},
}