Long-period seismic amplification in the Kanto Basin from the ambient seismic field

Abstract

Tokyo, like many seismically threatened cities, is situated atop a sedimentary basin that has the potential to trap and amplify seismic waves from earthquakes. We study amplification in the Kanto Basin by exploiting the information carried by the ambient seismic field. We use 375 seismic stations from the high sensitivity seismograph network across central Honshu as virtual sources and 296 seismic stations of the Metropolitan Seismic Observation network shallow borehole seismometers within the basin as receivers to map the basin response. We find a linear relationship between ground motion and basin depth at periods of 2-10 s that could be used to represent 3-D basin effects in ground motion prediction equations. We also find that the strength of basin seismic amplification depends strongly on the direction of illumination by seismic waves. Key Points Combine dense networks to construct ambient seismic field Green's functions The ambient seismic field contains sedimentary basin wave propagation effects Seismic amplification strongly depends on earthquake source location © 2014. American Geophysical Union. All Rights Reserved.