We measured P- and S-wave seismic velocities to about 40-m depth using seismic-refraction/reflection data on the ground surface at 13 sites in the Seattle, Washington, urban area, where portable digital seismographs recently recorded earthquakes. Sites with the lowest measured V
s
correlate with highest ground motion amplification. These sites, such as at Harbor Island and in the Duwamish River industrial area (DRIA) south of the Kingdome, have an average V
s
in the upper 30 m (V¯
s30
) of 150 to 170 m/s. These values of V¯
s30
place these sites in soil profile type E (V¯
s30
< 180 m/s). A “rock” site, located at Seward Park on Tertiary sedimentary deposits, has a V¯
s30
of 433 m/s, which is soil type C (V¯
s30
: 360 to 760 m/s). The Seward Park site V¯
s30
is about equal to, or up to 200 m/s slower than sites that were located on till or glacial outwash. High-amplitude P- and S-wave seismic reflections at several locations appear to correspond to strong resonances observed in earthquake spectra. An S-wave reflector at the Kingdome at about 17 to 22 m depth probably causes strong 2-Hz resonance that is observed in the earthquake data near the Kingdome.
