Jaishri Sanwal scite author profile

The ~700-km-long "central seismic gap" is the most prominent segment of the Himalayan front not to have ruptured in a major earthquake during the last 200-500 yr. This prolonged seismic quiescence has led to the proposition that this region, with a population >10 million, is overdue for a great earthquake. Despite the region's recognized seismic risk, the geometry of faults likely to host large earthquakes remains poorly understood. Here, we place new constraints on the spatial distribution of rock uplift within the western ~400 km of the central seismic gap using topographic and river profile analyses together with basinwide erosion rate estimates from cosmogenic 10 Be. The data sets show a distinctive physiographic transition at the base of the high Himalaya in the state of Uttarakhand, India, characterized by abrupt strike-normal increases in channel steepness and a tenfold increase in erosion rates. When combined with previously published geophysical imaging and seismicity data sets, we interpret the observed spatial distribution of erosion rates and channel steepness to reflect the landscape response to spatially variable rock uplift due to a structurally coherent ramp-flat system of the Main Himalayan Thrust. Although it remains unresolved whether the kinematics of the Main Himalayan Thrust ramp involve an emergent fault or duplex, the landscape and erosion rate patterns suggest that the décollement beneath the state of Uttarakhand provides a sufficiently large and coherent fault segment capable of hosting a great earthquake.

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Jaishri Sanwal

Climatic variability in Central Indian Himalaya during the last ∼1800 years: Evidence from a high resolution speleothem record

Climatic fluctuations during the LIA and post-LIA in the Kumaun Lesser Himalaya, India: Evidence from a 400 y old stalagmite record

Late Quaternary climatic changes in the eastern Kumaun Himalaya, India as deduced from multi-proxy studies

Late Quaternary climatic changes in the eastern Kumaun Himalaya, India, as deduced from multi-proxy studies

Geomorphology reveals active décollement geometry in the central Himalayan seismic gap

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