The Himalayan mountain range has been the locus of some of the largest continental earthquakes, including the 2015 magnitude 7.8 Gorkha earthquake. Competing hypotheses suggest that Himalayan topography is sustained and plate convergence is accommodated either predominantly on the main plate boundary fault, or more broadly across multiple smaller thrust faults. Here we use geodetic measurements of surface displacement to show that the Gorkha earthquake ruptured the Main Himalayan Thrust fault. The earthquake generated about 1 m of uplift in the Kathmandu Basin, yet caused the high Himalaya farther north to subside by about 0.6 m. We use the geodetic data, combined with geologic, geomorphological and geophysical analyses, to constrain the ge...
International audienceWe put the 25 April 2015 earthquake of Nepal (Mw 7.9) into its structural geol...
International audienceWe put the 25 April 2015 earthquake of Nepal (Mw 7.9) into its structural geol...
International audienceWe put the 25 April 2015 earthquake of Nepal (Mw 7.9) into its structural geol...
International audienceThe Himalayan mountain range has been the locus of some of the largest contine...
The Himalayan mountain range has been the locus of some of the largest continental earthquakes, incl...
International audienceThe Himalayan mountain range has been the locus of some of the largest contine...
International audienceThe Himalayan mountain range has been the locus of some of the largest contine...
The Himalayan mountain range has been the locus of some of the largest continental earthquakes, incl...
International audienceThe Himalayan mountain range has been the locus of some of the largest contine...
The Himalayan mountain range has been the locus of some of the largest continental earthquakes, incl...
The Himalayan mountain range has been the locus of some of the largest continental earthquakes, incl...
The Himalayan mountain range has been the locus of some of the largest continental earthquakes, incl...
The Main Himalayan Thrust (MHT) is the cardinal fault (décollement) that accommodates most of the re...
The Main Himalayan Thrust (MHT) is the cardinal fault (décollement) that accommodates most of the re...
We put the 25 April 2015 earthquake of Nepal (Mw 7.9) into its structural geological context in orde...
International audienceWe put the 25 April 2015 earthquake of Nepal (Mw 7.9) into its structural geol...
International audienceWe put the 25 April 2015 earthquake of Nepal (Mw 7.9) into its structural geol...
International audienceWe put the 25 April 2015 earthquake of Nepal (Mw 7.9) into its structural geol...
International audienceThe Himalayan mountain range has been the locus of some of the largest contine...
The Himalayan mountain range has been the locus of some of the largest continental earthquakes, incl...
International audienceThe Himalayan mountain range has been the locus of some of the largest contine...
International audienceThe Himalayan mountain range has been the locus of some of the largest contine...
The Himalayan mountain range has been the locus of some of the largest continental earthquakes, incl...
International audienceThe Himalayan mountain range has been the locus of some of the largest contine...
The Himalayan mountain range has been the locus of some of the largest continental earthquakes, incl...
The Himalayan mountain range has been the locus of some of the largest continental earthquakes, incl...
The Himalayan mountain range has been the locus of some of the largest continental earthquakes, incl...
The Main Himalayan Thrust (MHT) is the cardinal fault (décollement) that accommodates most of the re...
The Main Himalayan Thrust (MHT) is the cardinal fault (décollement) that accommodates most of the re...
We put the 25 April 2015 earthquake of Nepal (Mw 7.9) into its structural geological context in orde...
International audienceWe put the 25 April 2015 earthquake of Nepal (Mw 7.9) into its structural geol...
International audienceWe put the 25 April 2015 earthquake of Nepal (Mw 7.9) into its structural geol...
International audienceWe put the 25 April 2015 earthquake of Nepal (Mw 7.9) into its structural geol...