Kc. Chen et al., Q(P)-Q(S) RELATIONS IN THE SEDIMENTARY BASIN OF THE UPPER MISSISSIPPIEMBAYMENT USING CONVERTED PHASES, Bulletin of the Seismological Society of America, 84(6), 1994, pp. 1861-1868
Three-component digital seismograms recorded by the 40 PANDA (Portable
Array for Numerical Data Acquisition) stations in the New Madrid seis
mic zone were analyzed to study seismic wave attenuation in the sedime
ntary basin using the spectral ratio method. A prominent S-to-P (S(p))
converted phase was generated at the boundary between the uppermost s
edimentary basin and the underlying Paleozoic rocks. The direct S wave
on the horizontal component is characterized by a lower-frequency con
tent than that of the converted S(p) wave on the vertical component. T
he differences in frequency content between the direct S and the S(p)
converted waves can be attributed to the different attenuation effects
between P and S waves in the unconsolidated sediments. The spectral r
atio between the low-frequency S wave and the high-frequency converted
S(p) wave from the bottom of the sediments can be used to yield a rel
ationship between Q(p) and Q(s) in the sediments. Results from PANDA s
tations with well-constrained spectral ratios in the frequency range f
rom 2 to 25 Hz give the Q(p) value ranging from 25 to 60 and Q(s) from
25 to 30 for the sedimentary basin in the upper Mississippi Embayment
.