Estimates ofQin central Asia as a function of frequency and depth using the coda of locally recorded earthquakes

Abstract

Digital recordings of microearthquake codas from shallow and intermediate depth earthquakes in the Hindu Kush region of Afghanistan were used to determine the attenuation factors of the S-wave coda (Q_c) and primary S waves (Q_β). An anomalously rapid decay of the coda shortly after the S-wave arrival, observed also in a study of coda in central Asia by Rautian and Khalturin (1978), seems to be due primarily to depth-dependent variations in Q_c. In particular, we deduce the average Q_c in the crust and uppermost mantle (Q_c generally increases with frequency at any depth, the degree of frequency dependence of Q_c depends on depth. Except at the highest frequency studied here (∼48 Hz), the magnitude of Q_c at a particular frequency increases with depth while its frequency dependence decreases. For similar depths, determinations of Q_β and Q_c agree, suggesting a common wave composition and attenuation mechanism for S waves and codas. Comparison of these determinations of Q_c in Afghanistan with those in other parts of the world shows that the degree of frequency dependence of Q_c correlates with the expected regional heterogeneity. Such a correlation supports the prejudice that Q_c is primarily influenced by scattering and suggests that tectonic processes such as folding and faulting are instrumental in creating scattering environments.