Synthetic seismicity distribution in Guerrero–Oaxaca subduction zone, Mexico, and its implications on the role of asperities in Gutenberg–Richter law

Synthetic seismicity distribution in Guerrero–Oaxaca subduction zone, Mexico, and its implications on the role of asperities in Gutenberg–Richter law

<p>Seismicity and magnitude distributions are fundamental for seismic hazard analysis. The Mexican subduction margin along the Pacific Coast is one of the most active seismic zones in the world, which makes it an optimal region for observation and experimentation analyses. Some remarkable seis...

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Main Authors: M. Monterrubio-Velasco, F. R. Zúñiga, Q. Rodríguez-Pérez, O. Rojas, A. Aguilar-Meléndez, J. de la Puente
Format: Article
Language:English
Published: Copernicus Publications 2020-12-01
Series:Geoscientific Model Development
Online Access:https://gmd.copernicus.org/articles/13/6361/2020/gmd-13-6361-2020.pdf
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spelling doaj-83026304521f4f2aa99be58191eb37ca2020-12-18T13:57:15ZengCopernicus PublicationsGeoscientific Model Development1991-959X1991-96032020-12-01136361638110.5194/gmd-13-6361-2020Synthetic seismicity distribution in Guerrero–Oaxaca subduction zone, Mexico, and its implications on the role of asperities in Gutenberg–Richter lawM. Monterrubio-Velasco0F. R. Zúñiga1Q. Rodríguez-Pérez2Q. Rodríguez-Pérez3O. Rojas4O. Rojas5A. Aguilar-Meléndez6A. Aguilar-Meléndez7J. de la Puente8Barcelona Supercomputing Center – Centro Nacional de Supercomputación, Jordi Girona 29, 08034 Barcelona, SpainUniversidad Nacional Autónoma de México, Centro de Geociencias, Juriquilla, Querétaro, 76226, MexicoUniversidad Nacional Autónoma de México, Centro de Geociencias, Juriquilla, Querétaro, 76226, MexicoConsejo Nacional de Ciencia y Tecnología, Mexico City, 03940, MexicoBarcelona Supercomputing Center – Centro Nacional de Supercomputación, Jordi Girona 29, 08034 Barcelona, SpainEscuela de Computación, Facultad de Ciencias, Universidad Central de Venezuela, Caracas, 1040, VenezuelaBarcelona Supercomputing Center – Centro Nacional de Supercomputación, Jordi Girona 29, 08034 Barcelona, SpainFacultad de Ingeniería Civil,Universidad Veracruzana, Poza Rica, Veracruz, 93390, MexicoBarcelona Supercomputing Center – Centro Nacional de Supercomputación, Jordi Girona 29, 08034 Barcelona, Spain<p>Seismicity and magnitude distributions are fundamental for seismic hazard analysis. The Mexican subduction margin along the Pacific Coast is one of the most active seismic zones in the world, which makes it an optimal region for observation and experimentation analyses. Some remarkable seismicity features have been observed on a subvolume of this subduction region, suggesting that the observed simplicity of earthquake sources arises from the rupturing of single asperities. This subregion has been named SUB3 in a recent seismotectonic regionalization of Mexico. In this work, we numerically test this hypothesis using the TREMOL (sThochastic Rupture Earthquake MOdeL) v0.1.0 code. As test cases, we choose four of the most significant recent events (6.5 <span class="inline-formula">&lt;</span> <span class="inline-formula"><i>M</i><sub>w</sub></span> <span class="inline-formula">&lt;</span> 7.8) that occurred in the Guerrero–Oaxaca region (SUB3) during the period 1988–2018, and whose associated seismic histories are well recorded in the regional catalogs. Synthetic seismicity results show a reasonable fit to the real data, which improves when the available data from the real events increase. These results give support to the hypothesis that single-asperity ruptures are a distinctive feature that controls seismicity in SUB3. Moreover, a fault aspect ratio sensitivity analysis is carried out to study how the synthetic seismicity varies. Our results indicate that asperity shape is an important modeling parameter controlling the frequency–magnitude distribution of synthetic data. Therefore, TREMOL provides appropriate means to model complex seismicity curves, such as those observed in the SUB3 region, and highlights its usefulness as a tool to shed additional light on the earthquake process.</p>https://gmd.copernicus.org/articles/13/6361/2020/gmd-13-6361-2020.pdf
collection DOAJ
language English
format Article
sources DOAJ
author M. Monterrubio-Velasco
F. R. Zúñiga
Q. Rodríguez-Pérez
Q. Rodríguez-Pérez
O. Rojas
O. Rojas
A. Aguilar-Meléndez
A. Aguilar-Meléndez
J. de la Puente
spellingShingle M. Monterrubio-Velasco
F. R. Zúñiga
Q. Rodríguez-Pérez
Q. Rodríguez-Pérez
O. Rojas
O. Rojas
A. Aguilar-Meléndez
A. Aguilar-Meléndez
J. de la Puente
Synthetic seismicity distribution in Guerrero–Oaxaca subduction zone, Mexico, and its implications on the role of asperities in Gutenberg–Richter law
Geoscientific Model Development
author_facet M. Monterrubio-Velasco
F. R. Zúñiga
Q. Rodríguez-Pérez
Q. Rodríguez-Pérez
O. Rojas
O. Rojas
A. Aguilar-Meléndez
A. Aguilar-Meléndez
J. de la Puente
author_sort M. Monterrubio-Velasco
title Synthetic seismicity distribution in Guerrero–Oaxaca subduction zone, Mexico, and its implications on the role of asperities in Gutenberg–Richter law
title_short Synthetic seismicity distribution in Guerrero–Oaxaca subduction zone, Mexico, and its implications on the role of asperities in Gutenberg–Richter law
title_full Synthetic seismicity distribution in Guerrero–Oaxaca subduction zone, Mexico, and its implications on the role of asperities in Gutenberg–Richter law
title_fullStr Synthetic seismicity distribution in Guerrero–Oaxaca subduction zone, Mexico, and its implications on the role of asperities in Gutenberg–Richter law
title_full_unstemmed Synthetic seismicity distribution in Guerrero–Oaxaca subduction zone, Mexico, and its implications on the role of asperities in Gutenberg–Richter law
title_sort synthetic seismicity distribution in guerrero–oaxaca subduction zone, mexico, and its implications on the role of asperities in gutenberg–richter law
publisher Copernicus Publications
series Geoscientific Model Development
issn 1991-959X
1991-9603
publishDate 2020-12-01
description <p>Seismicity and magnitude distributions are fundamental for seismic hazard analysis. The Mexican subduction margin along the Pacific Coast is one of the most active seismic zones in the world, which makes it an optimal region for observation and experimentation analyses. Some remarkable seismicity features have been observed on a subvolume of this subduction region, suggesting that the observed simplicity of earthquake sources arises from the rupturing of single asperities. This subregion has been named SUB3 in a recent seismotectonic regionalization of Mexico. In this work, we numerically test this hypothesis using the TREMOL (sThochastic Rupture Earthquake MOdeL) v0.1.0 code. As test cases, we choose four of the most significant recent events (6.5 <span class="inline-formula">&lt;</span> <span class="inline-formula"><i>M</i><sub>w</sub></span> <span class="inline-formula">&lt;</span> 7.8) that occurred in the Guerrero–Oaxaca region (SUB3) during the period 1988–2018, and whose associated seismic histories are well recorded in the regional catalogs. Synthetic seismicity results show a reasonable fit to the real data, which improves when the available data from the real events increase. These results give support to the hypothesis that single-asperity ruptures are a distinctive feature that controls seismicity in SUB3. Moreover, a fault aspect ratio sensitivity analysis is carried out to study how the synthetic seismicity varies. Our results indicate that asperity shape is an important modeling parameter controlling the frequency–magnitude distribution of synthetic data. Therefore, TREMOL provides appropriate means to model complex seismicity curves, such as those observed in the SUB3 region, and highlights its usefulness as a tool to shed additional light on the earthquake process.</p>
url https://gmd.copernicus.org/articles/13/6361/2020/gmd-13-6361-2020.pdf
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