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A regional ground motion excitation/attenuation model for the San Francisco region (2007)

Malagnini, L. ; Mayeda, K. ; Uhrhammer, R. ; [et al.]

Seismological Society of America

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Publication Date: 2017-04-04

Description: By using small-to-moderate-sized earthquakes located within ~200 km of San Francisco, we characterize the scaling of the ground motions for frequencies ranging between 0.25 and 20 Hz, obtaining results for geometric spreading, Q(f), and site parameters using the methods of Mayeda et al. (2005) and Malagnini et al. (2004). The results of the analysis show that, throughout the Bay Area, the average regional attenuation of the ground motion can be modeled with a bilinear geometric spreading function with a 30 km crossover distance, coupled to an anelastic function exp(-pi*f*r/V*Q(f)) , where: Q(f)=180f^0.42. A body-wave geometric spreading, g(r)= r^-1.0, is used at short hypocentral distances (r 〈 30 km), whereas g(r)= r^-0.6 fits the attenuation of the spectral amplitudes at hypocentral distances beyond the crossover. The frequency-dependent site effects at 12 of the Berkeley Digital Seismic Network (BDSN) stations were evaluated in an absolute sense using coda-derived source spectra. Our results show: i) the absolute site response for frequencies ranging between 0.3 Hz and 2.0 Hz correlate with independent estimates of the local magnitude residuals (dML) for each of the stations; ii) moment-magnitudes (MW) derived from our path and site-corrected spectra are in excellent agreement with those independently derived using full-waveform modeling as well as coda-derived source spectra; iii) we use our weak-motion-based relationships to predict motions region wide for the Loma Prieta earthquake, well above the maximum magnitude spanned by our data set, on a completely different set of stations. Results compare well with measurements taken at specific NEHRP site classes; iv) an empirical, magnitude-dependent scaling was necessary for the Brune stress parameter in order to match the large magnitude spectral accelerations and peak ground velocities with our weak-motion-based model.

Description: Published

Description: 843-862

Description: 4.1. Metodologie sismologiche per l'ingegneria sismica

Description: JCR Journal

Description: partially_open

Keywords: ground motion San Francisco site effects ; 04. Solid Earth::04.06. Seismology::04.06.04. Ground motion

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: article

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Separation of depth-dependent intrinsic and scattering seismic attenuation in the northeastern sector of the Italian Peninsula (2005)

Bianco, F. ; Del Pezzo, E. ; Malagnini, L. ; [et al.]

Blackwell Scientific Publications

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Publication Date: 2017-04-04

Description: We investigated the intrinsic dissipation and scattering properties of the lithosphere under the Friuli region (northeastern Italy) using two hypotheses: (i) a uniform earth model and (ii) wo 'reasonable' non-uniform, layered crustal models. For case (i) we measured the coda Q, and used the multiple-lapse time window analysis (MLTWA) technique to obtain separate estimates of intrinsic absorption and scattering attenuation. Results for the uniform earth model show that the lithosphere in northeastern Italy is characterized by a low-scattering attenuation (small scattering Q-inverse, Q1s), and by a relatively high intrinsic attenuation (high intrinsic Q-inverse, Q1i). A comparison between the investigated region and other areas around the world shows that both Q1i and Q1s for the Friuli region are among the lowest values ever measured, with the exception of the southern Apennines, which has the lowest measured Q1s. For case (ii), numerical simulation of the energy envelopes was performed using two-layered earth models, where the values of the intrinsic and scattering attenuation coefficients are both within 'reasonable ranges' when compared with the geological information. The theoretical envelopes calculated for the homogeneous model give a good fit to the synthetic envelopes calculated for the layered models; the best fit is obtained for scattering attenuation coefficients of the uniform model always greater than those of the layered model. The main result is consequently that scattering Q1s obtained using the MLTWA under the assumption of a uniform medium is overestimated, on average, by a factor 2. Finally, coda Q1 appears to be closer to the total Q1 than to the intrinsic Q1i, as predicted by the theory.

Description: Published

Description: 130-142

Description: partially_open

Keywords: Attenuation ; Coda waves ; Scattering ; Seismic heterogeneity ; 04. Solid Earth::04.06. Seismology::04.06.09. Waves and wave analysis

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: article

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