Umesh Gautam scite author profile

[1] For the period 1995 -2000, the Nepal seismic network recorded 37 ± 8% fewer earthquakes in the summer than in the winter; for local magnitudes ML > 2 to ML > 4 the percentage increases from 31% to 63% respectively. We show the probability of observing this by chance is less than 1%. We find that most surface loading phenomena are either too small, or have the wrong polarity to enhance winter seismicity. We consider enhanced Coulomb failure caused by a pore-pressure increase at seismogenic depths as a possible mechanism. For this to enhance winter seismicity, however, we find that fluid diffusion following surface hydraulic loading would need to be associated with a sixmonth phase lag, which we consider to be possible, though unlikely. We favor instead the suppression of summer seismicity caused by stress-loading accompanying monsoon rains in the Ganges and northern India, a mechanism that is discussed in a companion article.

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A direct evidence for high carbon dioxide and radon-222 discharge in Central Nepal

Perrier

Richon

Byrdina

et al. 2009

Earth and Planetary Science Letters

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The aftershock sequence of the 2015 April 25 Gorkha–Nepal earthquake

Adhikari¹,

Gautam²,

Koirala³

et al. 2015

Geophys. J. Int.

112

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Umesh Gautam

Slip pulse and resonance of the Kathmandu basin during the 2015 Gorkha earthquake, Nepal

Electrical structure of the Himalaya of central Nepal: High conductivity around the mid‐crustal ramp along the MHT

Seasonal modulation of seismicity in the Himalaya of Nepal

A direct evidence for high carbon dioxide and radon-222 discharge in Central Nepal

The aftershock sequence of the 2015 April 25 Gorkha–Nepal earthquake

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