ISBN
Electrónico
979-13-87631-38-3
Fecha de publicación
28-12-2024
Licencia
D. R. © copyright 2024. Jose Rubén Melchor Meza, Francisco Antonio Valle Campos y Luis Angel Ahumada Aguilar.
Autores
Jose Rubén Melchor Meza
Universidad Autónoma de Occidente
0000-0002-0672-7089
Francisco Antonio Valle Campos
Universidad Autónoma de Occidente
0009-0001-9371-4189
Luis Angel Ahumada Aguilar
Universidad Autónoma de Occidente
0009-0004-1886-7718
Acerca de
En este estudio de investigación, se aborda la evaluación del peligro sísmico en la zona noroeste de México mediante un análisis de peligro sísmico probabilístico (APSP).
A pesar de su categorización como una zona sísmica de moderada a alta en el contexto nacional, la investigación en esta área ha sido limitada.
Referencias
Romeo, R., Paciello, A. and Rinaldis, D., Seismic hazard maps of Italy including site effects. Soil Dynamics and Earthquake Engineering, 20, pp. 85-92, 2000. DOI: 10.1016/S0267-7261(00)00040-3
McGuire, R. K. (1995). probabilistic seismic hazard analysis (PSHA) is conducted because there is a perceived earthquake threat: active seismic sources in the region may produce a moderate-to-large earthquake. The analysis considers a multitude of earthquake occurrences and grou. Bulletin of the Seismological Society of America, 1275-1284.
Francesco Mulargia, P. B. (2017). Why is Probabilistic Seismic Hazard Analysis (PSHA) still used? Physics of the Earth and Planetary Interiors, 63-75.
Buenrostro, A. M., Gómez Bernal, A., & Juárez García, H. (2021). ANÁLISIS DE PELIGRO SÍSMICO Y EFECTOS DE SITIO PARA LA ZONA METROPOLITANA DE GUADALAJARA. Revista Internacional De Ingeniería De Estructuras, 26(1), 89–123. (R. Ramkrishnan, 2021).
R. Ramkrishnan, S. K. (2021). Probabilistic seismic hazard analysis of North and Central Himalayas using regional ground motion prediction equations. Bulletin of Engineering Geology and the Environment, 80, 8137-8157.
SERVICIO SISMOLÓGICO NACIONAL. [En línea]. Disponible en: http://www.ssn.unam.mx/sismicidad/reportes-especiales/2010/SSNMX_rep_esp_20100404_bajacalifornia_M72.pdf
UDIAS, A. (1998). Introducción: sismicidad y sismotectónica de América central y del sur. Departamento de Geofísica y Meteorología. Universidad Complutense de Madrid, 10-17.
Esteva L. (1968), “Criterios para la construcción de espectros de diseño sísmico”, Publicación 198, Serie Azul del Instituto de Ingeniería, UNAM
Esteva L (1970), “Regionalización sísmica de México para fines de ingeniería”, Publicación 246, Serie Azul del Instituto de Ingeniería, UNAM.
McGuire R. (2007), “Probabilistic Seismic hazard analysis: Early history”, Earthquake Engineering and Structural Dynamics, No 37, pp. 329-338.
Frez, J., & González, J. J. (1989). Sismicidad y mecanismos focales en el Valle Mexicali-Imperial (1973-1985). Geofísica Internacional, 28(4), 643–691. (Jing Qian, 2020) PELIGRO ZONA NOROESTE.
Jing Qian, Y. D. (2020). Multi-criteria decision making for seismic intensity measure selection considering uncertainty. Earhquake Engineering Structural Dynamics, 1095-1114. MEIDIDA DE INTENSIDAD.
Shome, N., & Cornell, C. A. (1999). Probabilistic seismic demand analysis of nonlinear structures. Stanford, CA.: Reability of Marine Structures Program, Report No. RMS-35, Dept. of Civil Eng., Stanford University.
Bradley, B., Cubrinovski, M., & Wentz, F. (2022). Probabilistic seismic hazard analysis of peak ground acceleration for major regional New Zealand locations. Bulletin of the New Zealand Society for Earthquake Engineering, 55(1), 15–24.
Nevena Šipčić, Mohsen Kohrangi, Athanasios N. Papadopoulos, Warner Marzocchi, Paolo Bazzurro; The Effect of Seismic Sequences in Probabilistic Seismic Hazard Analysis. Bulletin of the Seismological Society of America 2022;; 112 (3): 1694–1709.
Ali Rodríguez-Castellanos, S. E.-S. (2020). Influence of spectral acceleration correlation models on conditional mean spectra and probabilistic seismic hazard analysis. Earhquake Engineering Structural Dynamics, 309-328.
Reiter, L. (1990). Earthquake hazard analysis – issues and insights. Columbia University Press, New York, 254.
Kramer, S.L. (1996). Geotechnical Earthquake Engineering. Prentice Hall.
Wallace., R. (1981). Active faults, paleoseismology, and earthquake hazards in the western United States. . American Geophysical Union, Washington, D.C., 209-216.
Adair, M. (1979). Geological evaluation of a site for a nuclear power plant. Geological Society of America Reviews in Engineering Geology, 27-39.
Smith, S. (1976). Determination of maximum earthquake magnitude. Geophysical Research Letters, 351-354.
Consultants, W.-C. (1979). Report of the evaluation of maximum earthquake and site ground motion parameters associated with the Offshore Zone of deformation, San Onofre Nuclear Generating Station. Report to Southern California Edison Company, Woodward-Clyde, San Francisco, 1-50.
Idriss, I. (1985). Evaluating seismic risk in engineering practice. Conference on Soil Mechanics and Foundation Engineering, (págs. 255-320). San Francisco.
L. Ruff y H. Kanamori. (1980). Seismicity and subduction processes. Physics of the Earth and Planetary Interiors. , 240-252.
T.H. Heaton y H. Kanamori. (1984). Seismic potential associated with subduction in the northwestern United Stated. Bulletin of the Seismological Society of America. , 933-941.
Atwater, B. (1987). Evidence for great Holocene Earthquake along the outer coast of Washington state. Science., 942-944.
B. Gutenberg y C.F. Richter. (1944). Frequency of earthquakes in California. Bulletin of the Seismological Society of America., 1985-1988.
H.A. Merz y C.A. Cornell. (1973). Aftershocks in engineering seismic risk analysis. Report R73-25, Department of Civil Engineering, Massachusetts Institute of Technology, Cambridge, Massachusetts.
Stepp, J. (1972). Analysis of completeness in the earthquake sample in the Puget Sound area and its effect on statistical estimates of earthquake hazard. Proceedings, International Conference on Microzonation, Seattle, Washington. , 897-910.
Weichert, D. (1980). Estimation of the earthquake recurrence parameters for unequal observation periods for different magnitudes. Bulletin of the Seismological Society of America., 1337-1347.
EPRI. (1986). Seismic hazard methodology for the central and eastern United Stated. Report NP-4726, Electric Power Research Institute, Palo Alto, California.
Zuñiga. (2018). A first-order seismotectonic regionalization of Mexico for seismic hazard and risk estimation. J Seismol (2017) CrossMark, 1295-1322.
Reyes A, Brune JN, Lomnitz C (1979) Source mechanism and aftershock study of the Colima, Mexico, earthquake of January 10, 1973. Bull Seismol Soc Am 69:1819–1840.
David M. Boore, Jonathan P. Stewart, M.EERI, Emel Seyhan, M.EERI, and Gail M. Atkinson, M.EERI Measurement (2014), NGA-West2 Equations for Predicting PGA, PGV, and 5% Damped PSA for Shallow Crustal Earthquakes, Earthquake Spectra, Volume 30, No. 3, pages 1057–1085, August 2014; © 2014, Earthquake Engineering Research Institute.
Boore, D. M., and Atkinson, G. M., 2008. Ground motion prediction equations for the average horizontal component of PGA, PGV, and 5% damped PSA at spectral periods between 0.01 s and 10.0 s, Earthquake Spectra 24, 99–138.
Seyhan, E., and Stewart, J. P., 2014. Semi-empirical nonlinear site amplification from NGA-West2 data and simulations, Earthquake Spectra 30, 1241–1256. SS14
TAPIA HERNANDEZ, E., & REDDY, E. A. (2017). Retos e incertidumbres en la predicción y prevención del riesgo sísmico. Ingeniería sísmica, 66-87.
Vitor Silva, Desmond Amo-Oduro, Alejandro Calderon, Catarina Costa, Jamal Dabbeek, Venetia Despotaki, Luis Martins, Marco Pagani, Anirudh Rao, Michele Simionato, Daniele Viganò, Catalina Yepes-Estrada, Ana Acevedo, Helen Crowley, Nick Horspool, Kishor Jaiswal, Murray Journeay, Massimiliano Pittore; Development of a global seismic risk model. Earthquake Spectra 2020;; 36 (1_suppl): 372–394.
Julian J. Bommer; Review of Seismic Hazard and Risk Analysis. Seismological Research Letters 2021;; 92 (5): 3248–3250.
ZHOU Yun, LI YuQing, WANG WeiMin, WANG Xun, PAN ZhengYang, HE JianKun. 2021. Source characteristics of the 2020 Alaska MW7.8 earthquake and seismic risk analysis of adjacent areas. Chinese Journal of Geophysics (in Chinese), 64(2): 498-506