Quantifying seismic vulnerability, dynamical shear strain and liquefaction of the Quaternary deposits in the Doon valley near the Main Boundary Thrust in the Northwest Himalaya, India

摘要

Erosion and deposition are two conjugate surface dynamical processes that affect differently to the soft soil site characteristics of Quaternary deposits in the Doon valley and at its northern topographic transition zone near the Main Boundary Thrust (MBT). During an impending large magnitude earthquake, what would be the seismic vulnerability and liquefaction susceptibility of the soft soil at both the regions? We quantified Seismic Vulnerability Index, effective dynamical shear strain and the expected ground deformation in the valley soft soil through H/V site characteristics using seismic ambient noise data. At the in-accessible topographic transition zone near the MBT, site effects were studied using Moderate and Light magnitude earthquakes recorded by three Broad Band Seismographs (BBS). Results show unique dual peak mean resonant frequencies (1.11 and 1.38 Hz) and amplification factors (1.69 and 1.51) at the topographic transition zone, which highlights a bimodal distribution of site effects, where the top soil formation is influenced by erosion and deposition due to topographic slope instability apart from fluvial re-working. Here, relatively compact Oldest Doon gravel is present in the foothill terraces with the re-worked fluvial deposition of the Youngest Doon gravel. However, in the valley and its terraces the soft soil formed under fluvial environ is relatively thick (10 to < 535 m) and show a distinct single peak mean amplification factor >2 and mean resonant frequency of 1.1 Hz.