JpGU-AGU Joint Meeting 2017

Presentation information

[EE] Oral

S (Solid Earth Sciences) » S-MP Mineralogy & Petrology

[S-MP41] [EE] Oceanic and Continental Subduction Processes

Mon. May 22, 2017 3:30 PM - 5:00 PM 102 (International Conference Hall 1F)

convener:REHMAN Ur Hafiz(Department of Earth and Environmental Sciences, Graduate School of Science and Engineering, Kagoshima University), Tatsuki Tsujimori(Tohoku University), Chin Ho Tsai(National Dong Hwa University), Chairperson:Hafiz REHMAN(Department of Earth and Environmental Sciences, Graduate School of Science and Engineering, Kagoshima University), Chairperson:Tatsuki Tsujimori(Tohoku University)

4:15 PM - 4:30 PM

[SMP41-10] Geochemical study of P-type jadeitites (jadeite precipitates) from the New Idria serpentinite body, California

★Invited papers

*Naoko Takahashi1, Tatsuki Tsujimori1, Qing Chang2, Jun-Ichi Kimura2 (1.Tohoku University, 2.Department of Solid Earth Geochemistry, Japan Agency for Marine-Earth Scienc and Technology)

Keywords:jadeitite, lithium isotope, subduction zone

P-type (fluid precipitation) jadeitite (Tsujimori and Harlow, 2013) is an excellent media to decipher subduction zone fluids and fluid-induced geochemical processes. As the best example of P-type jadeitite, veined jadeitite from the New Idria serpentinite body of the Diablo Range (California, U.S.A.) was investigated. Vein-network textures and growth textures of oscillatory-zoned jadeite crystals suggest that the jadeitite suffered brittle deformations and subsequently brittle microcracks were filled by jadeite precipitates repeatedly. An integrated study of LA-ICPMS trace elements and lithium isotope geochemistry constrain a property of jadeitite-forming high-pressure/low-temperature aqueous fluids and a possible scenario for formation of the veined jadeitite. Compositions of the jadeitite-forming fluids estimated using partitioning coefficients between clinopyroxene and fluids have trace element patterns similar to experimentally-determined fluids in equilibrium with coesite-bearing metasedimentary rocks. In-situ analyses confirmed a wide variation of isotopic composition (from −12 to +7 permil) and abundance (4–68 μg/g); those values show a systematic distribution fitting a curve led by the fluid–rock interaction equation. Geochemical data suggest that deep fluids enriched with some specific elements and light lithium might have migrated to forearc depths along slab–mantle interface from a great depth. During the migration/upwelling process, fluids interacted substantially with various metamorphic rocks in the interface. Various degrees of fluid–rock interaction and stepwise fluid infiltration at forearc depth recorded in New Idria jadeitite give new insights into the behavior and dynamics of aqueous fluids in subduction zone.