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Latitude-dependent oxygen fugacity in arc magmas

Fangyang Hu, Hehe Jiang, Bo Wan, Mihai N. Ducea, Lei Gao, Fu‐Yuan Wu

2024Nature Communications15 citationsDOIOpen Access PDF

Abstract

Abstract The redox state of arc mantle has been considered to be more oxidized and diverse than that of the mid-ocean ridge, but the cause of the variation is debated. We examine the redox state of the Cenozoic global arc mantle by compiling measured/calculated f O 2 of olivine-hosted melt inclusions from arc magma and modeled f O 2 based on V/Sc and Cu/Zr ratios of arc basaltic rocks. The results indicate that the redox state of Cenozoic arc mantle is latitude dependent, with less oxidized arc mantle in the low latitudes, contrasting with a near constant across-latitude trend in the mid-ocean ridges. We propose that such a latitude-dependent pattern in the arc mantle may be controlled by the variation in the redox state of subducted sediment, possibly related to a latitudinal variation in the primary production of phytoplankton, which results in more organic carbon and sulfide deposited on the low-latitude ocean floor. Our findings provide evidence for the impact of the surface environment on Earth’s upper mantle.

Topics & Concepts

Mineral redox bufferMantle (geology)GeologySubductionMantle wedgeLatitudeBasaltMid-ocean ridgeOlivineCrustal recyclingGeochemistryPaleontologyTectonicsContinental crustGeodesyGeological and Geochemical AnalysisGeochemistry and Elemental AnalysisPaleontology and Stratigraphy of Fossils
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