Abstract
AbstractAnalysis of earthquake focal mechanisms allows division of the India‐Asia collision into kinematic domains that strongly correlate with topography. These kinematic domains indicate strain partitioning dominated by oblique slip deformation. The Kunlun and south Tibetan fault systems mark discontinuities in the strain field and bound the high, flat topography of the plateau which deforms by transtension. The northern and southern margins of Tibet deform by transpression or contraction and are topographically steep. Correlations between seismicity and topography are due to Mohr–Coulomb wedge mechanics at the northern and southern plateau margins which produce naturally steep surface slopes, whereas the flat interior and eastern margin of the Tibetan Plateau is underlain by viscous crust which supports subdued topography further muted by Cenozoic basin fill. These data indicate that the long wavelength topography of the India‐Asia collision is controlled by seismically caused surface displacements which are linked to deep crustal deformation mechanics.
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