日本地球惑星科学連合2018年大会

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セッション記号 S (固体地球科学) » S-IT 地球内部科学・地球惑星テクトニクス

[S-IT28] The lithosphere and the asthenosphere

2018年5月22日(火) 15:30 〜 17:00 302 (幕張メッセ国際会議場 3F)

コンビーナ:Catherine Rychert(University of Southampton)、川勝 均(東京大学地震研究所)、Samer Naif(共同)、Jessica M Warren (University of Delaware)、座長:Rychert Catherine

15:45 〜 16:00

[SIT28-08] Does olivine LPO systematically scale with water and stress in naturally deformed rocks?

★Invited Papers

*Whitney M Behr1Rachel Bernard1 (1.Department of Geological Sciences, Jackson School of Geosciences, University of Texas at Austin)

キーワード:olivine lattice preferred orientations (LPO), mantle lithosphere deformation, water in the mantle

Laboratory experiments suggest that water contents and stress magnitudes primarily control olivine lattice preferred orientation (LPO) and associated upper mantle seismic anisotropy. Several natural and experimental datasets, however, suggest that olivine LPO may also be sensitive to pressure, temperature, deformation mechanism, strain geometry, strain magnitude, and/or strain history, and it is unclear to what extent simple water-stress relationships can be extrapolated to nature. We use 74 peridotites deformed by dislocation creep under temperatures ranging from 600-1250°C, and sourced from a wide range of global tectonic settings (62 continental xenoliths, 2 ophiolitic massifs, 10 continental massifs), to investigate correlations between water, stress, and olivine LPO in natural rocks. Olivine, orthopyroxene, and clinopyroxene water contents were measured using Secondary Ion Mass Spectrometry, and ranged from <1-157 (n = 39), 11-322 (n = 29), and 53-1733 (n = 29) ppm wt%, respectively. Grain transects and comparisons of measured water with published partition coefficients suggest pyroxenes are in equilibrium while olivine likely lost hydrogen during ascent/exhumation; we therefore use pyroxene to approximate olivine H2O. The equilibrium pyroxene contents, and the lack of microstructural annealing or evidence for post-deformation metasomatism allow us to assume that water in pyroxene reflects the water present during deformation. Stress magnitudes measured using paleopiezometry ranged from 11 to 87 MPa. LPOs measured using electron backscatter diffraction exhibit the full range of fabric types: 35% preserved A-type LPO, 10% B-type, 6% C-type, 8% D-type, 27% E-type, and 15% AG-type. We use these new data, along with an extensive compilation of published measurements (417 samples from 48 studies), to conclude the following:

Naturally deformed peridotites rarely follow the experimentally derived relationships of water, stress, and LPO, with two exceptions: a) A-type samples always exhibit less than 26 ppm wt% (420 ppm H/106Si) water; and b) the only samples with calculated olivine water greater than 90 ppm wt% (1500 ppm H/10^6Si) were C-type samples.

No other systematic trends were observed for LPO types as a function of water, stress, temperature, pressure (i.e. spinel vs. garnet), modal percent, microstructure, olivine aspect ratios, fabric strength, or tectonic setting.

30% of localities preserve three or more different LPO types deformed at the same general conditions, and 20% of localities preserve LPO types in which the olivine seismically fast axes (a-axes) are oriented up to 90 degrees to each other.

Collectively, these observations suggest that at the moderate to low stresses preserved in these peridotites (<100 MPa), the strengths of individual olivine slip systems are not as sensitive to changes in external variables as observed in experiments. Instead, the data suggest that olivine LPO in the lithosphere may be more sensitive to strain memory (absent in most experiments) and/or strain magnitude or geometry. These data are consistent with the relative complexity of shear wave splitting measurements observed beneath continental regions where strain memory and strain heterogeneity are each expected be common.