Carlos I. Huerta scite author profile

We studied the seismic attenuation of body waves in the south-central region of the Gulf of California (GoC) with records from the Network of Autonomously Recording Seismographs of Baja California (NARS-Baja), from the Centro de Investigación Científica y de Educación Superior de Ensenada's Broadband Seismological Network of the GoC (RESBAN), and from the ocean-bottom seismographs (OBS) deployed as part of the Sea of Cortez Ocean Bottom Array experiment (SCOOBA). We examine 27 well-located earthquakes reported in Sumy et al. (2013) that occurred from October 2005 to October 2006 with magnitudes (M w ) between 3.5 and 4.8. We estimated S-wave site effects by calculating horizontal-to-vertical spectral ratios and determined attenuation functions with a nonparametric model by inverting the observed spectral amplitudes of 21 frequencies between 0.13 and 12.59 Hz for the SCOOBA (OBS) stations and 19 frequencies between 0.16 and 7.94 Hz for NARS-Baja and RESBAN stations. We calculated the geometrical spreading and the attenuation (1=Q) factors for two distance intervals (10-120 and 120-220 km, respectively) for each frequency considered. The estimates of Q obtained with the SCOOBA (OBS) records for the interval 10-120 km indicate that the P waves attenuate more than S waves (Q P 34 1:2f 0:820:10 , Q S 59 1:1f 0:900:03 ) for frequencies between 0.6 and 12.6 Hz; whereas for the 120-220 km interval, where ray paths travel deeper, S waves attenuate more than P waves (Q P 117 1:3f 0:440:19 , Q S 51 1:2f 1:120:11 ). The estimates of Q obtained using NARS-Baja and RESBAN records, within 10-120 km, indicate that P waves attenuate more than S waves (Q P 69 1:2f 0:870:16 , Q S 176 1:4f 0:610:26 ) at frequencies between 0.3 and 6.3 Hz; whereas at the 120-220 km distance interval S waves attenuate slightly more than P waves (Q P 39 1:1f 0:640:06 , Q S 48 1:1f 0:370:07 ) at high frequencies (f > 3 Hz). These results, based on a unique OBS dataset, provide an indirect mean to constrain future models of the thermal structure beneath the GoC.

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Body-wave attenuation near the rupture of the 1887 Sonora, México, earthquake (Mw 7.5)

Castro

Huerta

Romero

et al. 2009

GeofInt

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Analizamos ondas de cuerpo de sismos locales y regionales registrados por la Red Sísmica del Noreste de Sonora, México (RESNES) usadas para determinar funciones empíricas de atenuación para las ondas P y S que describen el decaimiento de las amplitudes espectrales a frecuencias discretas entre 0.4 y 63 Hz. Los sismos seleccionados tienen su fuente cerca de la ruptura superficial del sismo de Sonora del 3 de mayo de 1887 (Mw 7.5), ubicado en la porción sur de la provincia tectónico-fisiográfica de cuencas y cordilleras. Nuestros datos provienen de las componentes verticales y horizontales de sismogramas registrados a distancias hipocentrales de 25 a 150 km. Usamos funciones de atenuación obtenidas por Castro et al. (2008) con un modelo no-paramétrico invirtiendo amplitudes espectrales observadas. Las curvas de atenuación reportadas indican que las amplitudes espectrales decaen más rápido durante los primeros 40 km de las trayectorias fuente-estación y muestran otro cambio en el porcentaje de decaimiento a aproximadamente 80 km. En este artículo separamos el efecto de Q de la corteza superior e inferior de la atenuación total: usamos los primeros 40 km de las curvas de atenuación para estimar Q de la corteza superior y el segmento de 40-80 km para estimar Q de la corteza inferior. Encontramos que en la corteza superior la dependencia exponencial de Q con la frecuencia es la misma para ambas ondas P y S, específicamente Q ~ f 1.1, pero QS es un factor de 3 mayor, indicando que las ondas P experimentan mayor atenuación que las ondas S. En la corteza inferior Q es más compleja, ya que muestra una dependencia con la frecuencia más fuerte a bajas frecuencias (f < 3 Hz) y una débil dependencia con la frecuencia para las altas frecuencias (f > 6 Hz).

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Cecilio Javier Rebollar Bustamante

Huerta¹,

Munguía²

2007

Seismological Research Letters

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Carlos I. Huerta

The Spectral Decay Parameter Kappa in Northeastern Sonora, Mexico

An Attenuation Study of Body Waves in the South-Central Region of the Gulf of California, Mexico

Body-wave attenuation near the rupture of the 1887 Sonora, México, earthquake (Mw 7.5)

Cecilio Javier Rebollar Bustamante

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