Site response for Seattle and source parameters of earthquakes in the Puget Sound Region

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Site response for Seattle and source parameters of earthquakes in the Puget Sound Region

Arthur Frankel, David Carver, Edward Cranswick, Mark Meremonte, Thomas Bice and Dee Overturf

U.S. Geological Survey Geologic Hazards Team, MS 966, Box 25046, DFC, Denver, Colorado 80225afrankel{at}usgs.gov

Abstract

We analyzed seismograms from 21 earthquakes (M_L 2.0-4.9) recordedby digital seismographs we deployed in urban Seattle to determinesite response and earthquake stress drops. The seismometerswere situated on a wide variety of geologic units, includingartificial fill (e.g., Kingdome, Harbor Island), Pleistoceneage soils (glacial till and outwash deposits of Seattle's hills),modified land (downtown Seattle, Space Needle), and Tertiarysedimentary rock. Two mainshock-aftershock sequences were recorded:the June 1997 Bremerton sequence (mainshock M_L 4.9) and theFebruary 1997 South Seattle sequence (mainshock M_L 3.5), alongwith other events in the Puget Sound region. We developed anew inversion procedure to estimate site response, source cornerfrequencies, and seismic moments from the S-wave spectra. Thisinversion uses corner frequencies determined from spectral ratiosof mainshock-aftershock pairs as constraints. The site responsesfound from the inversion are not relative to the rock site butare relative to an idealized site with a flat frequency response.The response of the rock site is also found from the inversion.The inversion results show high response for the sites on artificialfill, more moderate amplification for most sites on stiff Pleistocenesoils or modified land, and low response for the rock site.Some sites display resonances, such as a strong 2-Hz resonanceat our site near the Kingdome, which is caused by the surficiallayers of fill and younger alluvium. The sites in West Seattleexhibit high amplification, even though they are on relativelystiff soils of glacial outwash. This may be partly caused bybasin surface waves produced by conversion of incident S waves.This high response in West Seattle is consistent with damagereports from the 1949 (m_b 7.1) and 1965 (m_b 6.5) earthquakes.Stress-drop estimates for the events we recorded were generallylow, between 0.4 and 25 bars, although some of the events mayhave had higher stress drops that could not be resolved becauseof the limited passband. We calculated a stress drop of 24 barsfor the Bremerton mainshock and 10 bars for the South Seattlemainshock.

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				Variability of Site Response in Seattle, Washington Bulletin of the Seismological Society of America, October 1, 2000; 90(5): 1237 - 1250.

				Three-Dimensional Simulations of Ground Motions in the Seattle Region for Earthquakes in the Seattle Fault Zone Bulletin of the Seismological Society of America, October 1, 2000; 90(5): 1251 - 1267.

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