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

Mon. May 25, 2015 2:15 PM - 4:00 PM 303 (3F)

Convener:*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), Chair:Bjorn Mysen(Geophysical Laboratory, Carnegie Inst. Washington), Dapeng Zhao(Department of Geophysics, Tohoku University)

The principal volatiles in subduction zones and CO2 and H2O derived from devolatilization of carbonate and hydrous minerals in subducted oceanic crust and upper mantle. In the forearc region, highly reduced CH4 may be formed via deserpentinization of forarc mantle. Halogens (F and Cl) are can also be transported at least to upper mantle depth. Fluorine may, in fact, enhance the P-T stability of hydrous minerals.
Release of volatiles causes changes in elastic properties of the residual devolatilized rocks, which, in turn, governs seismic velocities, density, shear strength, and compressibility. The intergranular pore fluid also affects these properties. Whether or not fluid forms an interconnected network is critical for these properties. Fluid interconnectivity also controls the extent to which the fluid fluxes melting in and above subducting slabs and the trace and isotopic signatures of the source materials of melting. Physical properties of magma affect style of eruption. These properties, in turn, are affected by H2O/CO2 and F/Cl abundance ratios.
This session will focus on observations, experiments and theory to aid our understanding of
1.Relationship between fluid composition, pressure and temperature and connectivity of intergranular fluid.
2.Shear strength and elastic properties of volatile-bearing mineral assemblages
3.Pressure(depth)-temperature and redox-controlled stability of volatile-bearing minerals in subduction zones and beyond.
4.Melting phase relations and volatile compositions in subduction zones
5.Seismic activity and its relation to volatiles in minerals and in fluids and in melts.
6.Solubility and solution mechanisms of major, mineral, and trace elements in silicate-saturated mixed fluids.
7.Silicate-saturated fluids and volatile-saturated melts and alteration processes in subduction zones.
8.Volatiles and style of volcanic eruption

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2:15 PM - 2:45 PM

★ [SCG14-03] IMAGING FLUIDS AND FLUID REACTIONS IN SUBDUCTION ZONES

*Bruno REYNARD¹ (1.CNRS, ENS Lyon, France)

2:45 PM - 3:00 PM

[SCG14-04] Intergranular fluid compositions in mantle xenoliths inferred from direct observation of crystal surfaces

*Mari OHTANI¹, Michihiko NAKAMURA¹, Takeyoshi YOSHIDA¹, Eiichi TAKAHASHI² (1.Tohoku University, 2.Tokyo Institute of Technology)

3:00 PM - 3:15 PM

[SCG14-05] Dehydration of chlorite and formation of a new hydrous phase

*Nao CAI¹, Toru INOUE¹, Kiyoshi FUJINO¹ (1.Geodynamics Research Center, Ehime university)

3:15 PM - 3:30 PM

[SCG14-06] Concentration dependence of water diffusion in silica glass at water pressure of 50 bar

*Minami KURODA¹, Shogo TACHIBANA¹, Satoshi OKUMURA², Michihiko NAKAMURA², Naoya SAKAMOTO¹, Hisayoshi YURIMOTO¹ (1.Hokkaido University, 2.Tohoku University)

3:30 PM - 3:45 PM

[SCG14-07] Behavior of water, major and trace elements in subduction zone magmatism

*Jun-ichi KIMURA¹ (1.JAMSTEC)

3:45 PM - 4:00 PM

[SCG14-08] Phase diagrams for CaCO_{3} + H_{2}O and their bearing on the genesis of carbonate melts

*Stefano POLI¹ (1.University of Milan)