2018
DOI: 10.5027/andgeov46n1-3067
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Crustal faults in the Chilean Andes: geological constraints and seismic potential

Abstract: The Chilean Andes, as a characteristic tectonic and geomorphological region, is a perfect location to unravel the geologic nature of seismic hazards. The Chilean segment of the Nazca-South American subduction zone has experienced mega-earthquakes with Moment Magnitudes (Mw) >8.5 (e.g., Mw 9.5 Valdivia, 1960; Mw 8.8 Maule, 2010) and many large earthquakes with Mw >7.5, both with recurrence times of tens to hundreds of years. By contrast, crustal faults within the overriding South American plate commonly h… Show more

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Cited by 39 publications
(51 citation statements)
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References 162 publications
(301 reference statements)
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“…Demonstrating where active faults are located through careful mapping, and to determine how fast they accommodate tectonic deformation and their seismic and fault rupture hazards are key questions in neotectonics. Recently Santibáñez et al (2019) explore active fault systems in the Chilean Andes. In their paper they outline active and potentially seismogenic (i.e., earthquake producing) fault systems in the Chilean Andes through a review of the literature, seismicity, case studies (earthquakes), and modeling data and then they define potential tectonic domains for subdivision of Chile.…”
mentioning
confidence: 99%
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“…Demonstrating where active faults are located through careful mapping, and to determine how fast they accommodate tectonic deformation and their seismic and fault rupture hazards are key questions in neotectonics. Recently Santibáñez et al (2019) explore active fault systems in the Chilean Andes. In their paper they outline active and potentially seismogenic (i.e., earthquake producing) fault systems in the Chilean Andes through a review of the literature, seismicity, case studies (earthquakes), and modeling data and then they define potential tectonic domains for subdivision of Chile.…”
mentioning
confidence: 99%
“…In their paper they outline active and potentially seismogenic (i.e., earthquake producing) fault systems in the Chilean Andes through a review of the literature, seismicity, case studies (earthquakes), and modeling data and then they define potential tectonic domains for subdivision of Chile. These domains were suggested to allow "a first-order approach for seismic potential assessment" (Santibáñez et al, 2019). The three subdivisions they suggest, i.e., domains are the External Forearc, Inner Forearc and Volcanic Arc, were proposed based on several fault parameters (e.g., fault length), case studies, the morphotectonic setting and seismicity.…”
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confidence: 99%
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“…Valparaíso (33°S, Quintay and Valparaíso faults), near the Arauco Peninsula (36°-39°S, Santa María and Lanalhue faults), and in between (Topocalma, Pichilemu, Carranza, and Pelluhue faults) (Ota et al, 1995;Melnick et al, 2009;Santibáñez et al, 2019;Maldonado et al, 2020;Melnick et al, 2020 https://doi.org/10.5194/essd-2020-385 In the 50-to 180-km-wide coastal area of the Ecuadorian Andes, where the Western Cordillera is flanked by a structural depression, relief is relatively low (< 300 m asl). The Gulf of Guayaquil (3°S) and the Dolores-Guayaquil megashear separate the northern from the southern forearc units.…”
Section: Major Continental Fault Systems In the Coastal Realmmentioning
confidence: 99%
“…We compared the deformation patterns of marine terraces along the coast of South America with proxies that included crustal faults, bathymetric anomalies, trench-sediment thickness, and distance to the trench. control of climatic parameters in the morphology of marine terraces, we compared our data set with wave heights, tidal range, mean annual precipitation rate, and the azimuth of the coastline (Schweller et al, 1981;Bangs and Cande, 1997;von Huene et al, 1997;Collot et al, 2002;Ceccherini et al, 2015;Hayes et al, 2018;Santibáñez et al, 2019; GEBCO Bathymetric Compilation Group, 2020) ( Fig. 1).…”
Section: Tectonic Parameters Of the South American Convergent Marginmentioning
confidence: 99%