Oblique subduction of a Newtonian fluid slab |
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| Authors: | Zheng-Kang Shen |
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| Institution: | (1) Department of Earth and Space Sciences, University of California, 90024-1567 Los Angeles, CA, USA |
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| Abstract: | A Newtonian fluid model is proposed to describe the oblique subduction of a planar 2-D slab. The slab is assumed to subduct in response to the ridge push force exerted along the trench, the slab pull force at the downdip of the slab, the gravitational body force within the slab, and the frictional resistance force at the upper surface of the slab. Because the slab motion along strike is being resisted by the frictional resistance at the interplate coupling area while the slab motion along the trench normal is being maintained by the gravitational pulling, the slab turns gradually toward the trench normal direction as it subducts. This model offers an alternative explanation for  earthquake slip partitioning, the observation that the earthquake slip vectors deflect away from the relative plate motion direction toward the trench normal direction along most of the oblique subduction zones worldwide. Numerical models suggest that slip partitioning caused by slab deformation could be as much as 30% at 100 km downdip of the slab. The slab viscosity, the plate coupling width, the interplate resistance coefficient, the slab pull force, and the gravitational body force are all important in determining the geometry of the slab subduction. |
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| Keywords: | Oblique subduction Newtonian fluid slab earthquake slip partitioning |
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