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W2890929021 endingPage "7585" @default.
W2890929021 startingPage "7566" @default.
W2890929021 abstract "Abstract Subduction zone fluids are critical for transporting materials from subducted slabs to the mantle wedge. Jadeitites from Myanmar record fluid compositions and reactions in the forearc subduction channel. Here we present high‐precision Mg isotope data of the Myanmar jadeitites and associated rocks to understand the Mg isotope composition of subduction zone fluids at forearc depths. Two types of jadeitites (white and green) exhibit distinct Mg isotope compositions. The white jadeitites precipitated from Na‐Al‐Si‐rich fluids and have low δ 26 Mg values, varying from −1.55‰ to −0.92‰, whereas the green jadeitites have higher δ 26 Mg values (−0.91‰ to −0.74‰) due to metasomatic reactions between fluids and Cr spinel. The amphibole‐rich blackwall in the contact boundaries between jadeitites and serpentinites also exhibits low δ 26 Mg values (−1.17‰ to −0.72‰). Therefore, the jadeite‐forming fluids have not only high concentrations of Na‐Al‐Si but also low δ 26 Mg values. The low δ 26 Mg signature of the fluids is explained by the dissolution of Ca‐rich carbonate in subducted sediments or altered oceanic crust, which is supported by the negative correlation of δ 26 Mg with CaO/TiO 2 , CaO/Al 2 O 3 , and Sr in the white jadeitites. Given the common occurrence of Ca‐rich carbonates in the subduction channel, the Mg isotope composition of low‐Mg aqueous fluids would be significantly modified by dissolved carbonates. Metasomatism by such fluids along conduits has the potential to generate centimeter‐scale Mg isotope heterogeneity in the forearc mantle wedge. Therefore, Mg isotopes could be a powerful tracer for recycled carbonates not only in the deep mantle but also in the shallow regions of subduction zones." @default.
W2890929021 created "2018-09-27" @default.
W2890929021 creator A5010075050 @default.
W2890929021 creator A5022802222 @default.
W2890929021 creator A5023735787 @default.
W2890929021 creator A5026698181 @default.
W2890929021 creator A5027119213 @default.
W2890929021 creator A5031464089 @default.
W2890929021 creator A5033305156 @default.
W2890929021 creator A5063800558 @default.
W2890929021 creator A5079092786 @default.
W2890929021 creator A5091792026 @default.
W2890929021 date "2018-09-01" @default.
W2890929021 modified "2023-10-14" @default.
W2890929021 title "Magnesium Isotope Composition of Subduction Zone Fluids as Constrained by Jadeitites From Myanmar" @default.
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