Registro:

Referencias:

• Aaron, F., Allmendinger, R.W., Cembrano, J., González, G., Yáñez, G., Permanent fore-arc extension and seismic segmentation: Insights from the 2010 Maule earthquake, Chile (2013) J. Geophys. Res. Solid Earth, 118, pp. 724-739
• Allmendinger, R.W., Gubbels, T., Pure and simple shear plateau uplift, Altiplano-Puna, Argentina and Bolivia (1996) Tectonophysics, 259, p. 1
• Armijo, R., Rauld, R., Thiele, R., Vargas, G., Campos, J., Lacassin, R., Kausel, E., The west andean thrust, the san Ramón fault, and the seismic hazard for Santiago, Chile (2007) Tectonics, 29, p. TC2007
• Arriagada, C., Arancibia, G., Cembrano, J., Martínez, F., Carrizo, D., Van Sint Jan, M., Sáez, E., Yañez, G., Nature and tectonic significance of co-seismic structures associated with the Mw 8.8 Maule earthquake, central-southern Chile forearc (2011) J. Struct. Geology, 33, pp. 891-897
• Asch, G., Schurr, B., Bohm, M., Yuan, X., Haberland, C., Heit, B., Kind, R., Giese, P., Seismological studies of the Central and Southern Andes (2006) Frontiers in Earth Sciences, p. 567. , Springer, Oncken (Ed.) The Andes
• Baby, P., Rochat, P., Mascle, G., Herail, G., Neogene shortening contribution to crustal thickening in the back arc of the Central Andes (1997) Geology, 25 (10), pp. 883-886
• Baker, S., Gosse, J., McDonald, E., Evenson, E., Martínez, O., (2009) J. South Am. Earth Sci., 28, pp. 54-73
• Bastías, H., Tello, G., Perucca, L., Paredes, J., Peligro sísmico y neotectónica. 12° Congreso Geológico Argentino y 2o Congreso de Exploración de Hidrocarburos (1993) Relatorio, 6 (1), pp. 645-658. , V.A. Ramos (Ed.) Geología y Recursos Naturales de Mendoza
• Bezerra, F., Ferreira, J., Sousa, M., Review of seismicity and Neogene tectonics in northeastern Brazil (2006) Rev. Asoc. Geológica Argent., 61 (4), pp. 525-535
• Breitsprecher, K., Thorkelson, D., Neogene kinematic history of Nazca-Antarctic-Phoenix slab windows beneath Patagonia and the Antarctic Peninsula (2009) Tectonophysics, 464, pp. 10-20
• Brooks, B.A., Bevis, M., Smalley, R., Kendrick, E., Manceda, R., Lauría, E., Maturana, R., Araujo, M., Crustal motion in the Southern Andes (26°-36°S): do the Andes behave like a microplate? (2003) Geochem. Geophys. Geosystems, 4
• Brooks, B., Bevis, M., Whipple, K., Arrowsmith, R., Foster, J., Zapata, T., Kendrik, E., Smalley, R., Orogenic-wedge deformation and potential for great earthquakes in the central Andean backarc (2011) Nat. Geosci.
• Brooks, B., Smalley, R., Bevis, M., Foster, J., Blanco, M., Pollitz, F., Folguera, A., Distante, C., Megathrust seismic Events, post seismic deformation and mountain building: andean deformation and the maule earthquake (2010) Chapman Conference, Abstracts, Concepción
• Brune, S., Heine, C., Pérez-Gussinyé, M., Sobolev, S., Rift migration explains continental margin asymmetry and crustal hyper-extension (2014) Nat. Commun., 5
• Burd, A.I., Booker, J.R., Mackie, R., Favetto, A., Pomposiello, M.C., Three-dimensional electrical conductivity in the mantle beneath the Matru Volcanic Field in the Andean back-arc of Argentina Pay un near 36. 5 S: Decapitation of a mantle plume by resurgent upper mantle shear during slab steepening? (2014) Geophys. J. Int., 1, pp. 1-12
• Cahill, T., Isacks, B., Seismicity and shape of the subducted Nazca plate (1992) J. Geophys. Res., 97 (B12), pp. 17503-17529
• Calixto, F., Sandvol, E., Kay, S., Mulcahy, P., Heit, B., Yuan, X., Coira, B., Alvarado, P., Velocity structure beneath the southern Puna plateau: evidence for delamination (2013) Geochem. Geophys. Geosystems, 14
• Cande, S., Leslie, R., Late Cenozoic tectonics of the Southern Chile trench (1986) J. Geophys. Res., 91, pp. 47-496
• Charrier, R., Pinto, L., Rodríguez, M.P., Tectono-stratigraphic evolution of the andean orogen Chile (2007) Geology of Chile, pp. 21-116. , The Geological Society, London, Special Publication, W. Gibbons, T. Moreno (Eds.)
• Cobbold, P., Ruffet, G., Leith, H., Loeseth, H., Rodrigues, N., Leanza, H., Zanella, A., Radial patterns of bitumen dykes around quaternary volcanoes, provinces of Neuquén and southernmost Mendoza, Argentina (2014) J. South Am. Earth Sci., 56, pp. 454-467
• Codignotto, J., Cuaternario y dinámica costera (1996) 13° Congreso Geológico Argentino y 3° Congreso de Exploración de Hidrocarburos. Relatorio, 2, pp. 17-28. , V.A. Ramos, M. Turic (Eds.) Geología y Recursos Naturales de la Plataforma Continental Argentina
• Cogné, N., Gallagher, K., Cobbold, P., Riccomini, C., Gautheron, C., Post-breakup tectonics in southeast Brazil from thermochronological data and combined inverse-forward thermal history modeling (2012) J. Geophys. Res., 117, p. B11413
• Contreras-Reyes, E., Becerra, J., Kopp, H., Reichert, C., Díaz-Naveas, J., Seismic structure of the north-central Chile convergent margin: subduction erosion of a paleomagmatic arc (2014) Geophys. Res. Lett., 41 (5), pp. 1523-1529
• Cortés, J., Fallas cuaternarias oblicuas al frente montañoso en la cordillera Frontal de Mendoza (34-34°30'S) (1999) Rev. Cuaternario Ciencias Ambient., , Publicación Especial no4
• Costa, C., Vita-Finzi, C., Late Holocene faulting in the southeast Sierras Pampeanas of Argentina (1996) Geology, 24 (12), pp. 1127-1130
• Costa, C.H., Audemard, M.F.A., Bezerra, F.H.R., Lavenu, A., Machette, M.N., París, G., An overview of the main Quaternary deformation of South America (2006) Rev. la Asoc. Geológica Argent., 61, pp. 461-479
• Costa, C., Smalley, R., Schwartz, D., Stenner, H., Ellis, M., Ahumada, E., Velasco, M., Paleoseismic observations of an onshore transform boundary: the Magallanes-Fagnano fault, Tierra del Fuego, Argentina (2006) Rev. la Asoc. Geológica Argent., 61 (4), pp. 647-657
• Dávila, F., Gimenez, M., Nóbile, J., Martínez, P., The evolution of the high-elevated depocenters of the northern Sierras Pampeanas (ca. 28° SL), Argentine broken foreland, South-Central Andes: the Pipanaco Basin (2012) Basin Res., 24, pp. 1-22
• Darwin, C.R., Geological Observations on South America (1846) Being the Third Part of the Geology of the Voyage of the Beagle, under the Command of Capt. Fitzroy, R.N. During the Years 1832 to 1836, p. 279. , Smith Elder and Co., London
• Delouis, B., Philip, H., Dorbath, L., Cisternas, A., Recent crustal deformation in the Antofagasta region (northern Chile) and the subduction process (1998) Geophys. J. Int., 132 (2), pp. 302-338
• Díaz, D., Maksymowicz, A., Vargas, G., Vera, E., Contreras-Reyes, E., Rebolledo, S., Exploring the shallow structure of the San Ramón thrust fault in Santiago, Chile (33.5°S), using active seismic and electric methods (2014) Solid Earth Discuss., 6, pp. 339-375
• Dietrich, R., Ivins, E., Casassa, G., Lange, H., Wendt, H., Fritsche, M., Rapid crustal uplift in Patagonia due to enhanced ice loss (2010) Earth Planet. Sci. Lett.
• Dore, T., Lundin, E., Hyper-extended continental margins-Knowns an unknowns (2015) Geology, 43 (1), pp. 95-96
• Dyhr, C., Holm, P., Llambías, E., Scherstén, A., Subduction controls on Miocene back-arc lavas from Sierra de Huantraico and La Matancilla and new 40Ar/39Ar dating from the Mendoza Region, Argentina (2013) Lithos
• Dyhr, C., Holm, P., Llambías, E., Geochemical constraints on the relationship between the Miocene-Pliocene volcanism and tectonics in the Palaoco and Fortunoso volcanic fields, Mendoza Region, Argentina: new insights from 40Ar/39Ar dating, Sr-Nd-Pb isotopes and trace elements (2013) J. Volcanol. Geotherm. Res., 266, pp. 50-68
• Dzierma, Y., Thorwart, M., Rabbel, W., Moho topography and subducting oceanic slab of the Chilean continental margin in the maximum slip segment of the 1960 Mw 9.5 Valdivia (Chile) earthquake from P-receiver functions (2012) Tectonophysics, pp. 180-192
• Echavarría, L., Hernández, R., Allmendinger, R., Reynolds, J., Subandean thrust and fold belt of northwestern Argentina: geometry and timing of the Andean evolution (2003) AAPG Bull., 87 (6), pp. 965-985
• Farías, M., Charrier, R., Comte, D., Martinod, J., Herail, G., Late Cenozoic deformation and uplift of the western flank of the Altiplano: evidence from the depositional, tectonic, and geomorphologic evolution and shallow seismic activity (northern Chile at 19°30'S) (2005) Tectonics, 24, p. TC4001
• Farías, M., Comte, D., Roecker, S., Carrizo, D., Pardo, M., Crustal extensional faulting triggered by the 2010 Chilean earthquake: the Pichilemu Seismic Sequence (2011) Tectonics, 30
• Feruglio, E., Levantamiento de la costa Atlántica durante el Cuaternario (1950) Descripción geológica de la Patagonia, tomo, 3, pp. 180-181. , (Buenos Aires)
• Folguera, A., Ramos, V., Hermanns, R., Naranjo, J., Neotectonics in the foothills of the Southernmost Central Andes (37°-38°S). Evidence of the strike-slip displacement along the Antiñir-Copahue fault zone (2004) Tectonics, 23, p. TC 5008
• Folguera, A., Zapata, T., Ramos, V.A., Late Cenozoic Extension and the evolution of the Neuquén Andes (2006) Geological Society of America, Special Paper, 407, pp. 267-285. , S.M. Kay, V.A. Ramos (Eds.) Late Cretaceous to Recent Magmatism and Tectonism of the Southern Andean Margin at the Latitude of the Neuquen Basin (36-39°S)
• Folguera, A., Ramos, V., González Díaz, E., Hermanns, R., Miocene to Quaternary deformation of the Guañacos fold and thrust belt in the Neuquén Andes between 37° and 37° 30'S (2006) Geological Society of America, Special Paper 407, pp. 247-266. , S.M. Kay, V.A. Ramos (Eds.) Late Cretaceous to Recent Magmatism and Tectonism of the Southern Andean Margin at the Latitude of the Neuquen Basin (36-39°S)
• Folguera, A., Introcaso, A., Giménez, M., Ruiz, F., Martínez, P., Tunstall, C., García Morabito, E., Ramos, V.A., Crustal attenuation in the Southern Andean retroarc determined from gravimetric studies (38°-39°30'S): the Lonco-Luán astenospheric anomaly (2007) Tectonophysics, 439, pp. 129-147
• Folguera, A., Bottesi, G., Ramos, V., Zapata, T., Crustal collapse at the retroarc zone (2-0 Ma): Tromen volcanic plateau, Southern Central Andes (36°40'-37°30'S) (2008) Tectonophysics, 459, pp. 140-160. , ISAG 2005 Special Issue
• Folguera, A., Ramos, V., Collision of the Mocha fracture zone and a less than 4 Ma old wave of orogenic uplift in the Andes (36°-38°S) (2009) Lithosphere, Geological Soc. Am., 1 (6)
• Folguera, A., Naranjo, J.A., Orihashi, Y., Sumino, H., Nagao, K., Polanco, E., Ramos, V.A., Retroarc volcanism in the Northern San Rafael block (34°-35°30'S) (2009) J. Volcanol. Geotherm. Res., 186, pp. 169-185
• Folguera, A., Rojas Vera, E., Bottesi, G., Zamora Valcarce, G., Ramos, V.A., The Loncopué trough: a Cenozoic basin produced by extension in the southern Central Andes (2010) J. Geodyn., 49, pp. 287-295
• Galland, O., Hallot, E., Cobbold, P.R., Ruffet, G., De Bremond d'Ars, J., Volcanism in a compressional Andean setting: a structural and geochronological study of Tromen volcano (Neuquén province, Argentina) (2007) Tectonics, 26
• Geersen, J., Behrmann, J., Volker, D., Krastel, S., Ranero, C., Diaz-Naveas, J., Weinrebe, W., Active tectonics of the South Chilean marine fore arc (35°S-40°S) (2011) Tectonics, 30, p. TC3006
• Gephart, J.W., Topography and subduction geometry in the central Andes: clues to the mechanics of a non-collisional orogen (1994) J. Geophys. Res., 99, pp. 12279-12288
• Glodny, J., Gräfe, K., Echtler, H., Rosenau, M., Mesozoic to Quaternary continental margin dynamics in South-Central Chile (36°-42°S): the apatite and zircon fission track perspective (2007) Int. J. Earth Sci.
• Guillaume, B., Martinod, J., Husson, L., Roddaz, M., Riquelme, R., Neogene uplift of central eastern Patagonia: dynamic response to active spreading ridge subduction? (2009) Tectonics, 28
• Guillaume, B., Gautheron, C., Simon-Labric, T., Martinod, J., Roddaz, M., Douville, E., Dynamic topography control on Patagonian relief evolution as inferred from low temperature thermochronology (2013) Earth Planet. Sci. Lett., 364, pp. 157-167
• Guzmán, C., Cristallini, E., Bottesi, G., Contemporary stress orientations in the Andean retroarc between 34°S and 39°S from borehole breakout analysis (2007) Tectonics, 26
• Heidbach, O., Tingay, M., Barth, A., Reinecker, J., Kurfeß, D., Müller, B., (2008) The World Stress Map Database Release 2008, , http://dx.doi.org/10.1594/GFZ.WSM.Rel2008
• 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 Modelling, , Scientific technical report, GeoForschungszentrum Potsdam
• Hervé, F., Faundez, V., Calderón, M., Massonne, H.-J., Willner, A.P., Metamorphic and plutonic basement complexes (2007) The Geology of Chile, pp. 231-261. , Geological Society of London, London, T. Moreno, W. Gibbons (Eds.)
• Hindle, D., Kley, J., Oncken, O., Sobolev, S., Crustal balance and crustal flux from shortening estimates in the Central Andes (2005) Earth Planet. Sci. Lett., 230, pp. 113-124
• Introcaso, A., Pacino, M.C., Guspi, F., The Andes of Argentina and Chile: Crustal Configuration, Isostasy, Shortening and Tectonic Features from Gravity Data (2000) Temas de Geociencias N° 5, p. 31. , UNR Editora
• Isacks, B.L., Uplift of the Central Andean Plateau and bending of the Bolivian Orocline (1988) J. Geophys. Res., 93 (B4), pp. 3211-3231
• Ivins, E.R., James, T.S., Simple model for late Holocene and present-day Patagonian glacier fluctuations and predictions of a geodetically detectable isostatic response (2002) J. Geophys. Int., 138, pp. 601-624
• Ivins, E.R., James, T.S., Bedrock response to Llanquihue Holocene and present-day glaciations in southernmost South America (2004) Geophys. Res. Lett., 31, p. L24613
• Juez-Larré, J., Kukowski, N., Dunai, T.J., Hartley, A.J., Andriessen, P., Thermal and exhumation history of the Coastal Cordillera area of the northern Chile revealed by thermochronological dating (2010) Tectonophysics, 49, pp. 48-66
• Kay, R., Kay, S., Delamination and delamination magmatism (1993) Tectonophysics, 219 (1-3), pp. 177-189
• Kay, S.M., Burns, W.M., Copeland, P.C., Mancilla, O., Upper Cretaceous to Holocene magmatism and evidence for transient Miocene shallowing of the Andean subduction zone under the northern Neuquén Basin (2006) Evolution of an Andean Margin: a Tectonic and Magmatic View from the Andes to the Neuquén Basin (35°-39°S Lat): Geological Society of America, Special Paper, 407, pp. 19-60. , S.M. Kay, V.A. Ramos (Eds.)
• Kendrick, E.C., Bevis, M., Smalley, R.F., Cifuentes, O., Galban, F., Current rates of convergence across the central Andes: estimates from continuous GPS observations (1999) Geophys. Res. Lett., 26, pp. 541-544
• Lagabrielle, Y., Suárez, M., Malavieille, J., Morata, D., Espinoza, F., Maury, R.C., Scalabrino, B., Bellon, H., Pliocene extensional tectonics in the Eastern Central Patagonian Cordillera: geochronological constraints and new field evidence (2007) Terra Nova, 19, pp. 413-424
• Lavenu, A., Cembrano, J., Compressional- and transpressional-stress pattern for Pliocene and Quaternary brittle deformation in fore-arc and intra-arc zones (Andes of Central and Southern Chile) (1999) J. Struct. Geol., 21, pp. 1669-1691
• Lieser, K., Grevemeyer, I., Lange, D., Flueh, E., Tilmann, F., Contreras-Reyes, E., Splay fault activity revealed by aftershocks of the 2010 Mw 8.8 Maule earthquake, central Chile (2014) Geology
• Maksymowicz, A., Contreras-Reyes, E., Grevemeyer, I., Flueh, E., Structure and geodynamics of the post-collision zone between the Nazca-Antarctic spreading center and South America (2012) Earth Planet. Sci. Lett., pp. 27-37
• Martinod, J., Regard, V., Letourmy, Y., Henry, H., Hassani, R., Baratchart, S., Carretier, S., How do subduction processes contribute to forearc Andean uplift? Insights from numerical models (2015) J. Geodyn., , (in press)
• McQuarrie, N., Horton, B.K., Zandt, G., Beck, S., DeCelles, P.G., Lithospheric evolution of the Andean fold-thrust belt, Bolivia, and the origin of the central Andean plateau (2005) Tectonophysics, 399 (1-4), pp. 15-37
• Melnick, D., Bookhagen, B., Echtler, H., Strecker, M., Coastal deformation and great subduction earthquakes, Isla Santa María, Chile (37°S) (2006) Geological Soc. Am. Bull., 118 (11-12), pp. 1463-1480
• Messager, G., Nivière, B., Martinod, J., Lacan, P., Xavier, J.-P., Geomorphic evidence for Plio-Quaternary compression in the Andean foothills of the southern Neuquén Basin, Argentina (2010) Tectonics, 29
• Murdie, R., Prior, D., Styles, P., Flint, S., Pearce, R., Agar, S., Seismic responses to ridge-transform subduction: Chile triple junction (1993) Geology, 21, pp. 1095-1098
• Nieviere, B., Messager, G., Carretier, S., Lacan, P., Geomorphic expression of the southern Central Andes forebulge (37°S, Argentina) (2013) Terra Nova, 25, pp. 361-367
• Oncken, O., Hindle, D., Kley, J., Elger, K., Victor, P., Schemmann, K., Deformation of the Central andean upper plate system - Facts, Fiction, and constraints for plateau models (2006) The Andes, pp. 1-25. , Springer, Berlin Heidelberg, J.-P. Brun, O. Oncken, H. Weissert (Eds.)
• Orts, D., Folguera, A., Gimenez, M., Ruiz, F., Rojas Vera, E., Lince Klinger, F., Cenozoic building and deformational processes in the North Patagonian Andes (2015) J. Geodyn., 86, pp. 26-41
• Ota, Y., Miyauchi, T., Paskoff, R., Koba, M., Plio-quaternary terraces and their deformation along the Altos de Talinay, North-Central Chile (1995) Rev. Geol. Chile, 22, pp. 89-102
• Ouimet, W., Cook, K., Building the central Andes through axial lower crustal flow (2010) Tectonics, 29, p. 15. , TC3010
• Pedoja, K., Regard, V., Husson, L., Martinod, J., Guillaume, B., Fucks, E., Iglesias, M., Weill, P., (2011) Geomorphology, 127, pp. 121-142
• Pesicek, J.D., Engdahl, E.R., Thurber, C.H., DeShon, H.R., Lange, D., Mantle subducting slab structure in the region of the 2010 M8.8 Maule earthquake (30-40°S), Chile (2012) Geophys. J. Int., 191, pp. 317-324
• Ramos, V.A., Kay, S.M., Southern Patagonian plateau basalts and deformation: back-arc testimony of ridge collision (1992) Tectonophysics, 205, pp. 261-282
• Ramos, V.A., Folguera, A., Payenia volcanic province (Southern Andes): an exceptional quaternary tectonic setting (2011) J. Volcanol. Geotherm. Res., 201, pp. 53-64
• Ramos, V., Alonso, R., Strecker, M., Estructura y neotectónica de las Lomas de Olmedo, zona de transición entre los sistemas Subandino y de Santa Bárbara Provincia de Salta (2006) Rev. la Asoc. Geológica Argent., 61 (4), pp. 579-588
• Ramos, V.A., Tomas, Z., Cristallini, E., Introcaso, A., The andean thrust system- latitudinal variations in structural styles and orogenic shortening (2004) AAPG Memoir, 82, pp. 30-50. , K.R. McClay (Ed.) Thrust Tectonics and Hydrocarbon Systems
• Rehak, K., Strecker, M., Echtler, M., Morphotectonic segmentation of an active forearc, 37-41°S, Chile (2008) Geomorphology, 94, pp. 98-116
• Riccomini, C., Assumpcao, M., Quaternary tectonics in Brazil (1999) Episodes, 22 (3), pp. 221-225
• Rodríguez, M., Carretier, S., Charrier, R., Sailard, M., Regard, V., Herail, G., Hall, S., Audin, L., Geochronology of pediments and marine terraces in north-central Chile and their implications for quaternary uplift in the Western Andes (2013) Geomorphology, pp. 33-46
• Rojas Vera, E., Folguera, A., Gímenez, M., Martínez, P., Ruiz, F., Ramos, V.A., Evolución tectonica de la fosa de Loncopué: Estructura del depocentro cuaternario del Huecú y su relación con la sedimentación y el volcanismo (2009) Rev. Asoc. Geológica Argent., 64 (2), pp. 214-230
• Rojas Vera, E.A., Folguera, A., Valcarce, G.Z., Giménez, M., Ruiz, F., Martínez, P., Bottesi, G., Ramos, V.A., Neogene to quaternary extensional reactivation of a fold and thrust belt: the Agrio belt in the Southern Central Andes and its relation to the Loncopué trough (38°-39°S) (2010) Tectonophysics, 492, pp. 279-294
• Rojas Vera, E.A., Selles, D., Folguera, A., Gímenez, M., Ruíz, F., Orts, D., Zamora Valcarce, G., Ramos, V.A., The origin of the Loncopué trough in the retroarc of the Southern Central Andes from field, geophysical and geochemical data (2014) Tectonophysics, 637, pp. 1-19
• Rosenau, M., Melnick, D., Echtler, H., Kinematic constraints on intra-arc shear and strain partitioning in the Southern Andes bteween 38° and 42°S latitude (2006) Tectonics, 25, p. TC4013
• Rossetti, D., Souza, L., Prado, R., Elis, V., Neotectonics in the northern equatorial Brazilian margin (2012) J. South Am. Earth Sci., 37, pp. 175-190
• Ruegg, J.C., Rudloff, A., Vigny, C., Madariaga, R., de Chabalier, J.B., Campos, J., Kausel, E., Dimitrov, D., Interseismic strain accumulation measured by GPS in the seismic gap between Constitución and Concepción in Chile (2009) Phys. Earth Planet. Inter., 175, pp. 78-85
• Russo, R., Subduction of the Chile Ridge: upper mantle structure and flow (2010) GSA Today, 20 (9). , 10.1130
• Russo, R.M., Silver, P.G., Trench-parallel flow beneath the Nazca plate from seismic anisotropy (1994) Science, 263, pp. 1105-1111
• Sagripanti, L., Rojas Vera, E., Gianni, G., Folguera, A., Harvey, J., Farías, M., Ramos, V.A., Neotectonic reactivation of the western section of the Malargüe fold and thrust belt (Tromen volcanic plateau, Southern Central Andes) (2014) Geomorphology, 232, pp. 164-181
• Scalabrino, B., Lagabrielle, Y., Malavieille, J., Dominguez, S., Melnick, D., Espinoza, F., Suarez, M., Rossello, E., A morphotectonic analysis of central Patagonian Cordillera: negative inversion of the Andean belt over a buried spreading center? (2010) Tectonics, 29, p. TC2010
• Schellart, W.P., Freeman, J., Stegman, D.R., Moresi, L., May, D., Evolution and diversity of subduction zones controlled by slab width (2007) Nature, 446, pp. 308-311
• Schellart, W., Stegman, D., Farrington, R., Moresi, L., Influence of lateral slab edge distance on plate velocity, trench velocity and subduction partitioning (2011) J. Geophys. Res., 116, p. B10408
• Siame, L., Bourles, D., Sebrier, M., Bellier, O., Castano, J., Araujo, M., Pérez, M., Yiou, F., Cosmogenic dating ranging from 20 to 700 ka of a series of alluvial fan surfaces affected by the El Tigre fault, Argentina (1997) Geology, 25 (11), pp. 975-978
• Sobolev, S.V., Babeyko, A.Y., What drives orogeny in the Andes? (2005) Geology, 33 (8), pp. 617-620
• Spagnuolo, M., Litvak, V., Folguera, A., Bottesi, G., Ramos, V.A., Neogene magmatic expansion and mountain building precesses at the southern Central Andes, 36°-37°S, Argentina (2012) J. Geodyn., 53, pp. 81-95
• Stefer, S., Moernaut, J., Melnick, D., Echtler, H., Arz, H., Lamy, F., Batist, M., Haug, G., Forearc uplift rates deduced from sediment cores of two coastal lakes in south-central Chile (2009) Tectonophysics
• Stern, C.R., Subduction erosion: rates, mechanisms, and its role in arc magmatism and the evolution of the continental crust and mantle (2011) Gondwana Res.
• Søager, N., Holm, P.M., Llambías, E.J., Payenia volcanic province, southern Mendoza, Argentina: OIB mantle upwelling in a backarc environment (2013) Chem. Geol., pp. 36-53
• Tobal, J., Folguera, Andrés, Naipauer, M., Sellés, D., Likerman, Jeremías, Boedo, F., Gimenez, M., Ramos Víctor, A., Late miocene extensional relaxation of the North patagonian Andes (41°30'-42°S) (2015) Tectonophysics, , (in press)
• Tong, X., Sandwell, D., Luttrell, K., Brooks, B., Bevis, M., Shimada, M., Foster, J., Caccamise, D.J., The 2010 Maule, Chile earthquake: downdip rupture limit revealed by space geodesy (2010) Geophys. Res. Lett., 37
• Turienzo, M., Dimieri, L., Frisicale, C., Araujo, V., Sánchez, N., Cenozoic structural evolution of the Argentinean Andes at 34°40'S: a close relationship between thick and thin-skinned deformation (2012) Andean Geol., 39 (2), pp. 317-357
• Varekamp, J., Hesse, A., Mandeville, C., Back-arc basalts from the Loncopue graben (Province of Neuquen, Argentina) (2010) J. Volcanol. Geotherm. Res., 197, pp. 313-328
• Vargas, G., Rebolledo, S., Sepúlveda, S., Lahsen, A., Thiele, R., Townley, B., Padilla, C., Lara, M., Submarine earthquake rupture, active faulting and volcanism along the major Liquiñe-Ofqui Fault Zone and implications for seismic hazard assessment in the Patagonian Andes (2013) Andean Geol., 40 (1), pp. 141-171
• Vergés, J., Ramos, V., Meigs, A., Cristallini, E., Bettini, F., Cortés, J., Crustal wedging triggering recent deformation in the Andean thrust front between 31°S and 33°S: Sierras Pampeanas-Precordillera interaction (2006) J. Geophys. Res., 112, p. B03S15
• Vogt, H., Vogt, T., Calmes, A., Influence of the post-Miocene tectonic activity on the geomorphology between Andes and Pampa Deprimida in the area of Provincia de la Pampa, Argentina (2010) Geomorphology, 121, pp. 152-166
• von Huene, R., Ranero, C., Vannucchi, P., Generic model of subduction erosion (2004) Geology, 32, pp. 913-916
• Wang, K., Hu, Y., Bevis, M., Kendrick, E., Smalley, B., Barriga Vargas, R., Lauría, E., Crustal motion in the zone of the 1960 Chile earthquake: detangling earthquake-cycle deformation and forearc-sliver translation (2007) Geochem. Geophys. Geosystems, 8 (10), p. Q10010
• Wang, L., Shum, C., Simons, F., Tassara, A., Erkan, K., Jekeli, C., Braun, A., Yuan, D., Coseismic slip of the 2010 Mw 8.8 Great Maule, Chile, earthquake quantified by the inversion of GRACE observations (2012) Earth Planet. Sci. Lett., pp. 167-179
• Yuan, X., Asch, G., Bataile, K., Bohm, M., Echtler, H., Kind, R., Onchen, O., Wölbern, I., Deep seismic images of the Southern Andes (2006) Special Paper Geologival Society of America, 407, pp. 61-72. , S.M. Kay, V.A. Ramos (Eds.) Evolution of an Andean Margin: a Tectonic and Magmatic View from the Andes to the Neuquén Basin (35-39°S)

Citas:

---------- APA ----------

---------- CHICAGO ----------

---------- MLA ----------

---------- VANCOUVER ----------