C.1 Alvarado, P., Barrientos, S., Sáez, M., Astroza, M., & Beck, S. (2009).  Source study and tectonic implications of the historic 1958 Las Melosas crustal  earthquake, Chile, compared to earthquake damage. Physics of the Earth and  Planetary Interiors, 175(1), 26-36.

       C.2 Armijo, R., Rauld, R., Thiele, R., Vargas, G., Campos, J., Lacassin, R., &  Kausel, E. (2010). The West Andean thrust, the San Ramon fault, and the seismic  hazard for Santiago, Chile. Tectonics, 29(2).

       C.3 Aron, F., Allmendinger, R. W., Cembrano, J., González, G., & Yáñez, G. (2013). Permanent fore-arc extension and seismic segmentation: Insights from the 2010 Maule earthquake, Chile. Journal of Geophysical Research: Solid Earth, 118(2), 724-739. doi:10.1029/2012JB009339

       C.4Aron, F., Cembrano, J., Astudillo, F., Allmendinger, R. W., & Arancibia, G. (2015). Constructing forearc architecture over megathrust seismic cycles: Geological snapshots from the Maule earthquake region, Chile. Geological Society of America Bulletin, 127(3-4), 464-479

       C.5 Barrientos, S., Vera, E., Alvarado, P., & Monfret, T. (2004). Crustal seismicity  in central Chile. Journal of South American Earth Sciences, 16(8), 759-768.

       C.6 Farías, M., Comte, D., Charrier, R., Martinod, J., David, C., Tassara, A., … &  Fock, A. (2010). Crustal‐scale structural architecture in central Chile based on  seismicity and surface geology: Implications for Andean mountain building.Tectonics,  29(3).

       C.7Farías, M., Charrier, R., Carretier, S., Martinod, J., Fock, A., Campbell, D., …  & Comte, D. (2008). Late Miocene high and rapid surface uplift and its erosional  response in the Andes of central Chile (33–35 S). Tectonics, 27(1).

       C.7 Farías, M., Comte, D., Roecker, S., Carrizo, D., & Pardo, M. (2011). Crustal  extensional faulting triggered by the 2010 Chilean earthquake: The Pichilemu  Seismic Sequence. Tectonics, 30(6).

       C.8 Giambiagi, L. B. (2003), Deformación cenozoica de la faja plegada y corrida  del Aconcagua y Cordillera Frontal, entre los 33°30′ y 33°45′S, Asoc. Geol. Argent.  Rev., 58, 85–96.

       C.9 Heinze, B. (2003), Active Intraplate Faulting in the Forearc of North Central  Chile (30°-31° S). Implications from Neotectonic Field Studies, GPS Data, and  Elastic Dislocation Modeling, Free University, Berlin, March.

       C.10 Klotz, J., Abolghasem, A., Khazaradze, G., Heinze, B., Vietor, T., Hackney,  R., … & Perdomo, R. (2006). Long-term signals in the present-day deformation field  of the Central and Southern Andes and constraints on the viscosity of the Earth’s  upper mantle. In The Andes (pp. 65-89). Springer Berlin Heidelberg..

       C.11 Klotz, J., Khazaradze, G., Angermann, D., Reigber, C., Perdomo, R., &  Cifuentes, O. (2001). Earthquake cycle dominates contemporary crustal deformation  in Central and Southern Andes. Earth and Planetary Science Letters, 193(3), 437-  446

       C.10 Lavenu, A., & Cembrano, J. (1999). Compressional-and transpressional-  stress pattern for Pliocene and Quaternary brittle deformation in fore arc and intra-  arc zones (Andes of Central and Southern Chile). Journal of Structural  Geology,21(12), 1669-1691.

       C.12 Madariaga, R., Métois, M., Vigny, C., & Campos, J. (2010). Central Chile  finally breaks. Science, 328(5975), 181-182.

       C.13 Moreno, M. S., Klotz, J., Melnick, D., Echtler, H., & Bataille, K. (2008).  Active faulting and heterogeneous deformation across a megathrust segment  boundary from GPS data, south central Chile (36–39 S). Geochemistry, Geophysics,  Geosystems, 9(12).

       C.14 Pérez Estay, N. A. (2016). Peligro sísmico asociado a fallas corticales: caso de estudio Falla San Ramón (33.2°-33.7° S).

       C.15 Rauld, R. (2011). Deformación cortical y peligro sísmico asociado a la falla  San Ramón en el frente cordillerano de Santiago, Chile Central (33 S) (Doctoral  dissertation, Tesis para el grado de Doctor en Ciencias, mención Geología (Inédito),  Departamento de Geología, Universidad de Chile: 311 p. Santiago).

       C.16 Ruiz, J. A., Hayes, G. P., Carrizo, D., Kanamori, H., Socquet, A., & Comte,  D. (2014). Seismological analyses of the 2010 March 11, Pichilemu, Chile Mw 7.0  and Mw 6.9 coastal intraplate earthquakes. Geophysical Journal  International,197(1), 414-434.

       C.17 Santibanez, I., Cembrano, J. M., González, G., Aron, F., & Yañez, G. A.  (2013, December). Crustal Faults in the Chilean Andes: Tectonic significance and  implications for geologic hazard. In AGU Fall Meeting Abstracts (Vol. 1, p. 2614).

       C.18 Sepúlveda, S.; Astroza, M.; Kausel, E.; Campos, J.; Casas, E.; Rebolledo, S.; Verdugo, R. 2008. New findings on the 1958 Las Melosas earthquake sequence, Central Chile: implications for seismic hazard related to shallow crustal earthquake in subduction zones. J. Earthquake Eng. 12, 432–455

       C.19 Vargas, G., y Rebolledo, S. (2012). Paleosismología de la Falla San Ramón e implicancias para el peligro sísmico de Santiago. XIII Congreso Geologico Chileno, T9, 851–853.

       C.20 Vargas, G., Klinger, Y., Rockwell, T. K., Forman, S. L., Rebolledo, S., Baize,  S., … & Armijo, R. (2014). Probing large intraplate earthquakes at the west flank of  the Andes. Geology, 42(12), 1083-1086.