Characterizing the Kathmandu Valley sediment response through strong motion recordings of the 2015 Gorkha earthquake sequence

S. Rajaure; Domniki Asimaki; Eric M. Thompson; Susan E. Hough; Stacey Martin; J.P. Ampuero; M.R. Dhital; A Inbal; N Takai; M. Shigefuji; S Bijukchhen; M Ichiyanagi; T Sasatani; L Paudel

doi:10.1016/j.tecto.2016.09.030

Characterizing the Kathmandu Valley sediment response through strong motion recordings of the 2015 Gorkha earthquake sequence

Tectonophysics

By: S. Rajaure, Domniki Asimaki, Eric M. Thompson, Susan E. Hough, Stacey Martin, J.P. Ampuero, M.R. Dhital, A Inbal, N Takai, M. Shigefuji, S Bijukchhen, M Ichiyanagi, T Sasatani, and L Paudel

https://doi.org/10.1016/j.tecto.2016.09.030

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Abstract

We analyze strong motion records and high-rate GPS measurements of the M 7.8 Gorkha mainshock, M 7.3 Dolakha, and two moderate aftershock events recorded at four stations on the Kathmandu basin sediments, and one on rock-outcrop. Recordings on soil from all four events show systematic amplification relative to the rock site at multiple frequencies in the 0.1–2.5 Hz frequency range, and de-amplification of higher frequencies ( >2.5–10 Hz). The soil-to-rock amplification ratios for the M 7.8 and M 7.3 events have lower amplitude and frequency peaks relative to the ratios of the two moderate events, effects that could be suggestive of nonlinear site response. Further, comparisons to ground motion prediction equations show that 1) both soil and rock mainshock recordings were severely depleted of high frequencies, and 2) the depletion at high frequencies is not present in the aftershocks. These observations indicate that the high frequency deamplification is additionally related to characteristics of the source that are not captured by simplified ground motion prediction equations, and allude to seismic hazard analysis models being revised – possibly by treating isolated high frequency radiation sources separately from long period components to capture large magnitude near-source events such as the 2015 Gorkha mainshock.

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Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	Characterizing the Kathmandu Valley sediment response through strong motion recordings of the 2015 Gorkha earthquake sequence
Series title	Tectonophysics
DOI	10.1016/j.tecto.2016.09.030
Volume	714-715
Year Published	2017
Language	English
Publisher	Elsevier
Contributing office(s)	Geologic Hazards Science Center
Description	12 p.
First page	146
Last page	157
Country	Nepal
Other Geospatial	Kathmandu Valley
Google Analytic Metrics	Metrics page