Skip to Main Content
Skip Nav Destination

Evidence for Great Tsunamigenic Earthquakes (M 8.6) along the Mexican Subduction Zone

Bulletin of the Seismological Society of America (2009) 99 (2A): 892–896.
This article has been cited by the following articles in journals that are participating in CrossRef Cited-by Linking.
Teotihuacan ancient culture affected by megathrust earthquakes during the early Epiclassic Period (Mexico)
Journal of Archaeological Science: Reports (2024) 55: 104528.
Social and seismic structural vulnerability in Zihuatanejo, Guerrero, Mexico
Natural Hazards (2024) 120 (5): 4925.
Repeating Large Earthquakes along the Mexican Subduction Zone
Seismological Research Letters (2024) 95 (1): 458.
Using the SPRC methodology to assess tsunami risk in Zihuatanejo, Mexico
Coastal Engineering Journal (2023) 65 (2): 256.
Environmental effects caused by the Mw 8.2, September 8, 2017, and Mw 7.4, June 23, 2020, Chiapas-Oaxaca (Mexico) subduction events: Comparison of large intraslab and interface earthquakes
Quaternary International (2023) 651: 62.
Tsunami modeling and inundation maps of the ∼M8.6, 1787 earthquake along the Oaxacan coast
Journal of South American Earth Sciences (2022) 119: 103982.
Seismogenic width in the Guerrero-Oaxaca subduction zone of Mexico
Journal of South American Earth Sciences (2022) 117: 103885.
Integrated Analysis of the 2020 Mw 7.4 La Crucecita, Oaxaca, Mexico, Earthquake from Joint Inversion of Geodetic and Seismic Observations
Bulletin of the Seismological Society of America (2022) 112 (3): 1271.
The influence of fluids in the unusually high-rate seismicity in the Ometepec segment of the Mexican subduction zone
Geophysical Journal International (2021) 226 (1): 524.
Large earthquakes in the Tehuantepec subduction zone: evidence of a locked plate interface and large-scale deformation of the slab
Journal of Seismology (2021) 25 (2): 449.
Source Characteristics of the 2020 Mw 7.4 Oaxaca, Mexico, Earthquake Estimated from GPS, InSAR, and Teleseismic Waveforms
Seismological Research Letters (2021) 92 (3): 1900.
Energetic Rupture and Tsunamigenesis during the 2020 Mw 7.4 La Crucecita, Mexico Earthquake
Seismological Research Letters (2021) 92 (1): 140.
Regional Probabilistic Tsunami Hazard Analysis for the Mexican Subduction Zone From Stochastic Slip Models
Journal of Geophysical Research: Solid Earth (2021) 126 (6)
Western Mexico seismic source model for the seismic hazard assessment of the Jalisco-Colima-Michoacán region
Natural Hazards (2021) 105 (3): 2819.
Numerical Simulation of Tsunami Coastal Amplitudes in the Pacific Coast of Mexico Based on Non-Uniform $$k^{-2}$$ Slip Distributions
Pure and Applied Geophysics (2021) 178 (9): 3291.
Segmentation and supercycles: A catalog of earthquake rupture patterns from the Sumatran Sunda Megathrust and other well-studied faults worldwide
Quaternary Science Reviews (2020) 241: 106390.
Combination of school evacuation drill with tsunami inundation simulation: Consensus-making between disaster experts and citizens on an evacuation strategy
International Journal of Disaster Risk Reduction (2020) 51: 101803.
Uncertainty of probabilistic tsunami hazard assessment of Zihuatanejo (Mexico) due to the representation of tsunami variability
Coastal Engineering Journal (2020) 62 (3): 413.
Empirical Analysis of Global-Scale Natural Data and Analogue Seismotectonic Modelling Data to Unravel the Seismic Behaviour of the Subduction Megathrust
Frontiers in Earth Science (2020) 8
A Simple Model to Relate the Elastic Ratio Gamma of a Critically Self-Organized Spring-Block Model with the Age of a Lithospheric Downgoing Plate in a Subduction Zone
Entropy (2020) 22 (8): 868.
Catalog of Preinstrumental Earthquakes in Central Mexico: Epicentral and Magnitude Estimations Based on Macroseismic Data
Bulletin of the Seismological Society of America (2020) 110 (6): 3021.
Sand deposits reveal great earthquakes and tsunamis at Mexican Pacific Coast
Scientific Reports (2020) 10 (1)
Geometric controls on megathrust earthquakes
Geophysical Journal International (2020) 222 (2): 1270.
Nucleation and Kinematic Rupture of the 2017 Mw 8.2 Tehuantepec Earthquake
Geophysical Research Letters (2019) 46 (7): 3745.
Journal of Japan Society of Civil Engineers, Ser. B2 (Coastal Engineering) (2019) 75 (2): I_367.
Seismic and Aseismic Fault Slip Associated with the 2017 Mw 8.2 Chiapas, Mexico, Earthquake Sequence
Seismological Research Letters (2019) 90 (3): 1111.
An updated and unified earthquake catalog from 1787 to 2018 for seismic hazard assessment studies in Mexico
Scientific Data (2019) 6 (1)
A Study of Ground Motion Excitation Based on the Earthquake of September 8, 2017: Evidence that Normal Faults Influence the Stress Parameter
Pure and Applied Geophysics (2019) 176 (4): 1359.
Rapid Geodetic Analysis of Subduction Zone Earthquakes Leveraging a 3‐D Elastic Green's Function Library
Geophysical Research Letters (2019) 46 (5): 2475.
Large scale lithospheric detachment of the downgoing Cocos plate: The 8 September 2017 earthquake (M 8.2)
Earth and Planetary Science Letters (2019) 509: 9.
Global Megathrust Earthquake Hazard—Maximum Magnitude Assessment Using Multi-Variate Machine Learning
Frontiers in Earth Science (2019) 7
The Mexican Earthquake Source Parameter Database: A New Resource for Earthquake Physics and Seismic Hazard Analyses in Mexico
Seismological Research Letters (2018) 89 (5): 1846.
Deep embrittlement and complete rupture of the lithosphere during the Mw 8.2 Tehuantepec earthquake
Nature Geoscience (2018) 11 (12): 955.
Journal of Japan Society of Civil Engineers, Ser. B2 (Coastal Engineering) (2018) 74 (2): I_427.
Subduction zone megathrust earthquakes
Geosphere (2018) 14 (4): 1468.
Long‐Lived Tsunami Edge Waves and Shelf Resonance From the M8.2 Tehuantepec Earthquake
Geophysical Research Letters (2018) 45 (22)
Bend Faulting at the Edge of a Flat Slab: The 2017 Mw7.1 Puebla‐Morelos, Mexico Earthquake
Geophysical Research Letters (2018) 45 (6): 2633.
A Seismogeodetic Amphibious Network in the Guerrero Seismic Gap, Mexico
Seismological Research Letters (2018) 89 (4): 1435.
Magnetic signature of the 22 June 1932 tsunami deposits (Jalisco, Mexican Pacific coast)
Geochemistry, Geophysics, Geosystems (2017) 18 (6): 2370.
A first-order seismotectonic regionalization of Mexico for seismic hazard and risk estimation
Journal of Seismology (2017) 21 (6): 1295.
Probabilistic Tsunami Hazard Analysis of the Pacific Coast of Mexico: Case Study Based on the 1995 Colima Earthquake Tsunami
Frontiers in Built Environment (2017) 3
Historic and ancient tsunamis uncovered on the Jalisco-Colima Pacific coast, the Mexican subduction zone
Geomorphology (2016) 259: 90.
An earthquake-event-based method for mapping tsunami hazards
Proceedings of the Institution of Civil Engineers - Maritime Engineering (2016) 169 (4): 148.
U–Th dating of broken speleothems from Cacahuamilpa cave, Mexico: Are they recording past seismic events?
Journal of South American Earth Sciences (2015) 57: 23.
Great (≥Mw8.0) megathrust earthquakes and the subduction of excess sediment and bathymetrically smooth seafloor
Geosphere (2015) 11 (2): 236.
Seismic response of bridges with massive foundations
Soil Dynamics and Earthquake Engineering (2015) 71: 88.
Unearthing earthquakes and their tsunamis using multiple proxies: the 22 June 1932 event and a probable fourteenth-century predecessor on the Pacific coast of Mexico
International Geology Review (2014) 56 (13): 1584.
GPS constraints on the Mw = 7.5 Ometepec earthquake sequence, southern Mexico: coseismic and post-seismic deformation
Geophysical Journal International (2014) 199 (1): 200.
Assessment of tsunami hazards for the Central American Pacific coast from southern Mexico to northern Peru
Natural Hazards and Earth System Sciences (2014) 14 (7): 1889.
GPS constraints on the 2011-2012 Oaxaca slow slip event that preceded the 2012 March 20 Ometepec earthquake, southern Mexico
Geophysical Journal International (2014) 197 (3): 1593.
Close Modal

or Create an Account

Close Modal
Close Modal