Fluids liberated from subducting slabs are critical in global geochemical cycles. We investigate the behaviour of Mo during slab dehydration using two suites of exhumed fragments of subducted, oceanic lithosphere. Our samples display a positive correlation of ?Mo with Mo/Ce, from compositions close to typical mantle (-0.2? and 0.03, respectively) to very low values of both ?Mo (-1?) and Mo/Ce (0.002). Together with new, experimental data, we show that molybdenum isotopic fractionation is driven by preference of heavier Mo isotopes for a fluid phase over rutile, the dominant mineral host of Mo in eclogites. Moreover, the strongly perturbed ?Mo and Mo/Ce of our samples requires that they experienced a large flux of oxidised fluid. This is consistent with channelised, reactive fluid flow through the subducted crust, following dehydration of the underlying, serpentinised slab mantle. The high ?Mo of some arc lavas is the complement to this process.

Molybdenum systematics of subducted crust record reactive fluid flow from underlying slab serpentine dehydration

Hin Remco C;
2019

Abstract

Fluids liberated from subducting slabs are critical in global geochemical cycles. We investigate the behaviour of Mo during slab dehydration using two suites of exhumed fragments of subducted, oceanic lithosphere. Our samples display a positive correlation of ?Mo with Mo/Ce, from compositions close to typical mantle (-0.2? and 0.03, respectively) to very low values of both ?Mo (-1?) and Mo/Ce (0.002). Together with new, experimental data, we show that molybdenum isotopic fractionation is driven by preference of heavier Mo isotopes for a fluid phase over rutile, the dominant mineral host of Mo in eclogites. Moreover, the strongly perturbed ?Mo and Mo/Ce of our samples requires that they experienced a large flux of oxidised fluid. This is consistent with channelised, reactive fluid flow through the subducted crust, following dehydration of the underlying, serpentinised slab mantle. The high ?Mo of some arc lavas is the complement to this process.
2019
Istituto di Geologia Ambientale e Geoingegneria - IGAG
subduction zone processes
molybdenum isotopes
arc lavas
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/453346
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