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Stresses along the metastable wedge of olivine in a subducting slab: possible explanation for the Tonga double seismic layer |
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| Authors: | A Guest G Schubert |
| Affiliation: | a Department of Earth and Space Sciences and Institute of Geophysics and Planetary Physics, University of California, Los Angeles, CA 90095, USA b Earth and Environmental Sciences Division, Los Alamos National Laboratory, Los Alamos, New Mexico, NM 87545, USA c Geophysical Institute, Academy of Science of the Czech Republic, Prague, Czech Republic |
| Abstract: | A numerical calculation of the stresses associated with changes in volume during phase transitions of olivine in a descending slab results in a double layer of high shear stress along the metastable olivine wedge in the depth range 350-460 km. Stress in the upper layer is in-plane tensional and stress in the lower layer is down-dip compressional. The modeled stress field agrees with observations of stress in the Tonga double seismic zone. High shear stress also exists in the slab at depths below the metastable wedge. This stress distribution involves down-dip compression and trench-parallel tension, which agrees with about half of the focal mechanisms in the Tonga slab at depths of 460-690 km. The model supports the idea that at least two possible stress release mechanisms for deep earthquakes may act in the Tonga subducting slab. One, transformational faulting, is restricted to the metastable wedge while the other one acts below the metastable wedge. |
| Keywords: | Subduction Stress Phase transformations Double seismic zone Tonga |
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