Proceedings of the 12th International INQUA meeting on paleoseismology, active tectonic and archaeoseismology

394 PATA Days 2024 R E F E R E N C E S Anderson, M., Alvarado, P., Zandt, G., Beck, S., 2007. Geometry and brittle deformation of the subducting Nazca Plate, Central Chile and Argentina. Geophys. J. Int. 171(1), 419–434. ISSN 0956540X. https: //doi.org/10.1111/ j .1365-246X.2007.03483.x. Armijo, R., Rauld, R., Thiele, R., Vargas, G., Campos, J., Lacassin, R., Kausel, E., 2010. The West Andean Thrust, the San Ramón Fault, and the seismic hazard for Santiago, Chile. Tectonics 29, TC2007. https: //doi. org/10.1029/2008TC002427. Charrier, R., Pinto, L., Rodríguez, M.P., 2007. Tectonostratigraphic evolution of the Andean Orogen in Chile. In: Moreno, T., Gibbons, W. (Eds.), The Geology of Chile. Geol. Soc. Spec. Publ., London, UK, 21–114. ISBN 9781862392199. https: //doi.org/10.1144/GOCH. Cristallini, E.O., Ramos, V.A., 2000. Thick-skinned and thin-skinned thrusting in the La Ramada fold and thrust belt: crustal evolution of the High Andes of San Juan, Argentina (32°SL). Tectonophysics 317(3-4), 205–235. Estay, J., 2019. Tectónica activa en el borde occidental de la Cordillera Principal de Chile Central (29°- 36°S). MSc Thesis (Unpublished), Departamento de Geología, Universidad de Chile, 181 pp. Estay, J., Pinto, L., Easton, G., De Pascale, G.P., Troncoso, M., Carretier, S., Forman, S.L., en prensa. Active thrust tectonics along the western slope of the Central Andes southernmost Pampean flat- slab segment (~33°S, Chile): The Cariño Botado fault system. Geomorphology. https://doi. org/10.1016/j.geomorph.2023.108801. Farías, M. , Comte, D. , Charrier, R. , Mar t inod, J. , David, C. , Tassara, A. , Tapia, F. , Fock, A. , 2010. Crustal-scale architecture in central Chi le based on seismicity and surface geology: Impl icat ions for Andean Mountain bui lding. Tectonics 29, TC3006. https: //doi . org/10.1029/2009TC002480. Figueroa, R., Viguier, B., Taucare, M., Yáñez, G., Arancibia, G., Sanhueza, J., Daniele, L., 2021. Deciphering groundwater f low-paths in fault-controlled semiarid mountain front zones (Central Chile). Sci. Total Environ. 771, 145456. ISSN 0048- 9697. https: //doi.org/10.1016/j . scitotenv.2021.145456. Gutscher, M.A., 2002. Andean subduction styles and their effect on thermal structure and interplate coupling. J. South Am. Earth Sci. 15(1), 3‑10. https: //doi.org/10.1016/S0895- 9811(02)00002-0. Gutscher, M.A., Sparkman, W., Bijwaard, H., Engdahl, E.R., 2000. Geodynamics of f lat subduction: seismicity and tomographic constraints from the Andean margin. Tectonics 19(5), 814–833. Jara, P., Charrier, R., 2014. Nuevos antecedentes estratigráficos y geocronológicos para el Meso– Cenozoico de la Cordillera Principal de Chile entre 32° y 32°30’S. Implicancias estructurales y paleogeográficas. Andean Geol. 41(1), 174–209. http: //dx.doi.org/10.5027/ andgeoV41n1-a07. Jordan, T.E., Isacks, B., Ramos, V.A., Allmendinger, R.W., 1983a. Mountain building in the Central Andes. Episodes 1983(3), 20–26. Martinod, J., Gérault, M., Husson, L., Regard, V., 2020. Widening of the Andes: an interplay between subduction dynamics and crustal wedge tectonics.

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