2020
DOI: 10.1038/s41467-019-14110-4
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Uncovering and quantifying the subduction zone sulfur cycle from the slab perspective

Abstract: Sulfur belongs among H 2 O, CO 2 , and Cl as one of the key volatiles in Earth's chemical cycles. High oxygen fugacity, sulfur concentration, and δ 34 S values in volcanic arc rocks have been attributed to significant sulfate addition by slab fluids. However, sulfur speciation, flux, and isotope composition in slab-dehydrated fluids remain unclear. Here, we use high-pressure rocks and enclosed veins to provide direct constraints on subduction zone sulfur recycling for a typical oceanic lithosphere. Textural an… Show more

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Cited by 91 publications
(62 citation statements)
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“…For example, Philippot and Selverstone (1992) report the presence of anhydrite (CaSO4) and hematite in fluid inclusions within omphacites in eclogites from the Alps, but anhydrite coexisting with pyrite seems to be common to many inclusions worldwide (Frezzotti and Ferrando, 2015). Still, the picture is probably more complicated as evidences for reduced fluids also exist in the form of CH4 inclusions (Song et al, 2009), precipitation of graphite (Malvoisin et al, 2011;Galvez et al, 2013) or sulfide veins (Li et al, 2020). We tested the effect of our experimental strategy on the phase equilibria by varying : i) furnace material (lanthanum chromite versus graphite), ii) capsule material, iii) heating duration and iv) presence of an olivine trap.…”
Section: Natural Evidences For Fluids With High Redox Budgetmentioning
confidence: 99%
“…For example, Philippot and Selverstone (1992) report the presence of anhydrite (CaSO4) and hematite in fluid inclusions within omphacites in eclogites from the Alps, but anhydrite coexisting with pyrite seems to be common to many inclusions worldwide (Frezzotti and Ferrando, 2015). Still, the picture is probably more complicated as evidences for reduced fluids also exist in the form of CH4 inclusions (Song et al, 2009), precipitation of graphite (Malvoisin et al, 2011;Galvez et al, 2013) or sulfide veins (Li et al, 2020). We tested the effect of our experimental strategy on the phase equilibria by varying : i) furnace material (lanthanum chromite versus graphite), ii) capsule material, iii) heating duration and iv) presence of an olivine trap.…”
Section: Natural Evidences For Fluids With High Redox Budgetmentioning
confidence: 99%
“…Aqueous fluids at shallow depths (<25 km) can be directly sampled from ocean drilling or mud volcanoes (Manning, 2004). Information about greater depths comes from high-pressure (HP) and ultrahigh-pressure (UHP) rocks (and the veins they contain) sparsely exhumed from oceanic subduction zones (Gao et al, 2007;Li et al, 2013Li et al, , 2016Li et al, , 2020Su et al, 2019). More common continental HP and UHP rocks especially with fluid inclusions and multiphase solid inclusions can supplement composition information of deep fluids (Frezzotti and Ferrando, 2015;Zheng and Hermann, 2014).…”
Section: Methods For Slab Fluid Chemistrymentioning
confidence: 99%
“…Alteration by seawater only produces minor sulfate at the topmost oceanic crust (Alt and Shanks, 2011;Tomkins and Evans, 2015), and for the most part S in slabs is mainly stored in sulfides. Unlike carbon and nitrogen, the primary reservoir of sulfur is the oceanic crust with 71% of the total subducted sulfur, whereas sediments and the lithospheric mantle only account for 23% and 6%, respectively (Li et al, 2020). Anhydrite is representative of sulfate minerals in the slab.…”
Section: Sulfurmentioning
confidence: 99%
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