日本地球惑星科学連合2015年大会

講演情報

インターナショナルセッション(口頭発表)

セッション記号 S (固体地球科学) » S-CG 固体地球科学複合領域・一般

[S-CG14] Mixed volatiles in subduction zones; Physical and chemical properties and processes

2015年5月25日(月) 12:00 〜 12:45 303 (3F)

コンビーナ:*Bjorn Mysen(Geophysical Laboratory, Carnegie Inst. Washington)、Eiji Ohtani(Department of Earth and Planetary Materials Science, Graduate School of Science, Tohoku University)、Dapeng Zhao(Department of Geophysics, Tohoku University)、座長:Bjorn Mysen(Geophysical Laboratory, Carnegie Inst. Washington)

12:00 〜 12:30

[SCG14-01] Carbon mobility by hydrous carbonate liquids at subduction zones

*Stefano POLI1 (1.University of Milan)

キーワード:carbonate, subduction, carbon, water

More than half a gigaton of CO2 per year is recycled in the Earth interior at convergent margins. At least 40% of this CO2 returns to the atmosphere via igneous activity at subduction zones. Experimental and thermodynamic modelling of phase relationships at high pressure indicate that decarbonation or carbonate dissolution in fluids account for only a portion of CO2 released, and that dry carbonate melts are feasible only if thermal relaxation occurs in a subduction environment.
The subducted oceanic crust includes a range of gabbroic rocks, altered on rifts and transforms, with large amounts of An-rich plagioclase. It has been shown that epidote disappearance with pressure depend on the normative anorthite content of the bulk composition considered; we therefore expect that altered gabbros might display a much wider pressure range where epidote persists, potentially affecting the location and the nature of volatiles release.
New experimental data from 3.7 to 4.6 GPa, 750 oC to 1000 oC are intended to unravel the effect of variable bulk and volatile compositions in model eclogites, enriched in the normative anorthite component (An37 and An45). Experiments are performed in piston cylinder apparatus and multianvil machine, using both single and, buffered, double capsule techniques.
Garnet, clinopyroxene and coesite form in all syntheses. Lawsonite was found to persist at 3.7 GPa, 750 oC, with both dolomite and magnesite; at 3.8 GPa, 775-800 oC, fluid saturated conditions, epidote coexists with kyanite, dolomite and magnesite. The anhydrous assemblage garnet, omphacite, aragonite, kyanite is found at 4.2 GPa, 850 oC. At 900 oC, fluid-rich conditions, a silicate fluid/melt of granitoid composition, a carbonatitic melt and Na-carbonate are observed upon quenching. Close to fluid-saturation, 3.8-4.2 GPa, 870 - 900 oC, garnet and Na-rich clinopyroxene coexist with a carbonatitic liquid, Mg-calcite/dolomite and aragonite. The carbonatitic melt is enriched in Ca compared to liquids previously obtained in dry carbonated experiments.
Sandwich experiments, at variable volatile content and variable CO2:H2O ratio, have been designed to demonstrate attainment of equilibrium and to challenge the suggested supercritical nature of the carbonate liquid produced. H2O strongly depresses liquidus surface for Ca-rich carbonates allowing the generation of liquids efficiently scavenging volatiles, Ca and Si from the slab.
Hydrous silicate carbonate liquids are therefore feasible if a H2O source is provided along a relatively warm subducting path. Such source may correspond to fluids flushed from the dehydrating serpentinized lithosphere or to an internal source, i.e. epidote. In warm subduction zones, the possibility of extracting hydrous carbonatitic liquids from a variety of gabbroic rocks offers new scenarios on the metasomatic processes in the lithospheric wedge of subduction zones and a new mechanism for recycling carbon. Such liquids are expected to be extremely reactive in a percolated mantle wedge, where they generate carbonate pyroxenites, a fertile CO2 source for magmatism at subduction zones.