Abstract
An analysis of the Lg wave has been attempted in order to study the seismic attenuation Q0 along a profile from the southern edge of the northwestern Himalaya to Ladakh and Karakoram using broadband waveform recordings of regional earthquakes. The lateral variability in seismic attenuation is derived from the inversion of 23 two-station Q0 measurements using a differential evolution global optimization scheme. The Q0 value decreases northwards from ∼700 in Himalaya and ∼400 beneath the Indus Zangbo suture (IZS) to ∼70 in Ladakh–Karakoram. This suggests an efficient transmission of seismic waves beneath the Himalaya and the IZS and high attenuation under Ladakh–Karakoram. The Q0 values for northwestern Himalaya and the IZS are significantly (>50%) higher compared to their counterpart at 90° E, while Ladakh–Karakoram and southern Tibet show comparable Q0 (∼70). The high attenuation zone (low Q0) is correlatable with increase in electrical conductivity and decrease in the midcrustal S velocity, suggesting the possible presence of aqueous fluid/partial melt in the Ladakh crust.
