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  • Baker PE, Rea WJ, Skarmeta J, Caminos R, Rex DC. 1981. Igneous history of the Andean Cordillera and Patagonian Plateau around latitude 46°S. Philosophical Transactions of the Royal Society of London A 303: 105149. Gran Bretaña, Boulder, CO: Geological Society of America Special Paper265: 1–12.
  • Barrio C. 1990. Late Cretaceous–Early Tertiary sedimentation in a semi-arid foreland basin (Neuquén Basin, Western Argentina). Sedimentary Geology 66: 255275.
  • Bermúdez A, Delpino D, Frey F, Saal A. 1993. Los basaltos de retroarco extraandinos. In: RamosVA, ed. Geología y recursos naturales de Mendoza. Actas del 7° Congreso Geológico Argentino y 2° Congreso de Exploración de Hidrocarburos, Relatorio I-13, Buenos Aires . Buenos Aires: Instituto Argentino del Petróleo, 161172.
  • Bruce R, Nelson E, Weaver S, Lux D. 1991. Temporal and spatial variations in the southern Patagonian batholith. Constraints on magmatic arc development. Geological Society of America Special Paper 265: 112.
  • Cande S, Leslie R. 1986. Late Cenozoic tectonics of the Southern Chile trench. Journal of Geophysical Research 91: 471496.
  • Cazau L, Mancini D, Cangini J, Spalletti L. 1989. Cuenca de Ñirihuau. In: ChebliW, SpalletiL, eds. Cuencas sedimentarias argentinas. Tucumán: Instituto Superior de Correlación Geológica, 299318.
  • Charrier R, Pinto L, Rodríguez M. 2007. Tectonostratigraphic evolution of the Andean orogen in Chile. In: MorenoT, GibbonsW, eds. The geology of Chile. London: The Geological Society, 21114.
  • Chelotti L. 2004. Cuenca del Golfo de San Jorge en el Cretácico y Terciario: algunas observaciones desde la interpretación sísmica. Boletín de Informaciones Petroleras 217: 6382.
  • Cingolani C, Dalla Salda L, Hervé F, Munizaga F, Pankhurst R, Parada M, Rapela C. 1991. The magmatic evolution of northern Patagonia: new impressions of pre-Andean and Andean tectonics. Geological Society of America Special Paper 265: 2944.
  • Cobbold P, Rossello E. 2003. Aptian to Recent compressional deformation in the foothills of the Neuquén basin, Argentina. Marine and Petroleum Geology 20: 429443.
  • Contreras-Reyes E. 2008. Evolution of the seismic structure of the incoming/subducting oceanic Nazca plate off south central Chile. PhD Thesis, Christian-Albrechts-Universität, Kiel.
  • DeCelles P, Ducea M, Kapp P, Zandt G. 2009. Cyclicity in Cordilleran orogenic systems. Nature Geoscience 2: 17.
  • De Ignacio C, López I, Oyarzun R, Márquez A. 2001. The northern Patagonia Somuncura plateau basalts: a product of slab-induced, shallow asthenospheric upwelling? Terra Nova 13: 117121.
  • Espinoza F, Morata D, Lagabrielle Y. 2007. Chemical similarities between Miocene Patagonia calc-alkaline magmatism and some ‘flat-slab’ volcanics: a first approach. GEOSUR Abstracts 55.
  • Ferello R. 1969. Intento de sistematización geocronológica de las rocas eruptivas básicas en sectores del Chubut y Santa Cruz Norte. 4° Jornadas Geológicas Argentinas, Actas 1. Buenos Aires: 293310.
  • Fidalgo F. 1973. Hoja Llancanelo, 1 sheet 1 : 250,000. Provincia de Mendoza: Servicio Nacional Minero Geológico, Boletín, Unpublished.
  • Foix N, Paredes J, Giacosa R. 2008. Paleo-earthquakes in passive-margin settings, an example from the Paleocene of the Golfo de San Jorge Basin, Argentina. Sedimentary Geology 205: 6778.
  • Folguera A, Iannizzotto N. 2004. The Lagos La Plata and Fontana fold and thrust belt. Long lived orogenesis at the edge of western Patagonia. Journal of South American Earth Sciences 16: 541566.
  • Folguera A, Naranjo JA, Orihashi Y, Sumino H, Nagao K, Polanco E, Ramos VA. 2009. Retroarc volcanism in the northern San Rafael Block (34°–35°30′S), southern Central Andes: occurrence, age, and tectonic setting. Journal of Volcanology and Geothermal Research 186: 169185.
  • Folguera A, Ramos VA. 2009. Collision of the Mocha fracture zone and a less than 4 Ma old wave of orogenic uplift in the Andes (36°–38°S). Lithosphere 1: 364369.
  • Folguera A, Ramos VA. In press. The long-term pattern of Andean uplift, sedimentation and magmatism in the Southern Andes. Journal of South American Earth Sciences.
  • Franchi M, Page R. 1980. Los basaltos cretácicos y la evolución magmática del Chubut occidental. Revista de la Asociación Geológica Argentina 35: 208229.
  • Franchini MB, López Escobar L, Shalamuk IBA, Meinert LD. 2003. Paleocene calc-alkaline subvolcanic rocks from Nevazón Hill area (NW Chos Malal Fold Belt), Neuquén, Argentina, and comparison with granitoids of the Neuquén-Mendoza volcanic province. Journal of South American Earth Sciences 16: 399422.
  • Giacosa R, Heredia N. 2004. Structure of the North Patagonian thick-skinned fold and thrust belt, southern Central Andes, Argentina (41°–42°S). Journal of South American Earth Sciences 18: 6172.
  • Glodny J, Gräfe K, Echtler H, Rosenau M. 2008. Mesozoic to Quaternary continental margin dynamics in South-Central Chile (36°–42°S): the apatite and zircon fission track perspective. International Journal of Earth Sciences 97: 12711291.
  • González Díaz EF. 1964. Rasgos geológicos y evolución geomorfológica de la Hoja 27 d (San Rafael) y zona occidental vecina (Provincia de Mendoza). Revista de la Asociación Geológica Argentina 19: 151188.
  • González Díaz EF. 1972. Descripción geológica de la Hoja 30d Payún-Matrú, Provincia de Mendoza. Dirección Nacional de Geología y Minería, Boletín 130: 188.
  • González Díaz EF. 1979. La edad de la Formación Ventana, en el área al norte y al este del lago Nahuel Huapí. Revista de la Asociación Geológica Argentina 34: 113124.
  • González Díaz EF. 1982. Chronological zonation of granitic plutonism in the Northern Patagonian Andes of Argentina: the migration of intrusive cycles. Earth Science Reviews 18: 365393.
  • Groeber P. 1946. Observaciones geológicas a lo largo del paralelo 70°. 1. Hojas Chos Malal, Sosneado, Maipo, Domuyo, Mari Mahuida, Huarhuarco y Parte de Epulafquen. Revista de la Asociación Geológica Argentina 1(3): 177208; 2(2): 141–176; 2(4): 348–433.
  • Gutscher M, Spakman W, Biijward H, Engdahl E. 2000. Geodynamics of flat subduction: seismicity and tomographic constraints from the Andean margin. Tectonics 19: 814833.
  • Hervé F, Pankhurst RJ, Drake R, Beck ME. 1995. Pillow basalts in a mid-Tertiary extensional basin adjacent to the Liquiñe Ofqui fault zone: the Isla Magdalena area, Aysén, Chile. Journal of South American Earth Sciences 8: 3346.
  • Hervé F, Pankhurst R, Drake R, Beck M, Mpodozis C. 1993. Granite generation and rapid unroofing related to strike–slip faulting, Aysén, Chile. Earth and Planetary Science Letters 120: 375386.
  • Hervé F, Pankhurst R, Fanning C, Calderón M, Yaxley G. 2007. The South Patagonian batholith: 150 my of granite magmatism on a plate margin. Lithos 97: 373394.
  • Homovc JF, Constantini LA. 2001. Hydrocarbon exploration potential within intraplate shear-related depocenters, Deseado and San Julián basins, southern Argentina. American Association of Petroleum Geologists, Bulletin 85: 17951816.
  • James DE, Sacks S. 1999. Cenozoic formation of the Central Andes: a geophysical perspective. In: SkinnerBJ, ed. Geology and mineral deposits of central Andes. London: Society of Economic Geology, Special Publication, 125.
  • Jordan TE, Burns WM, Veiga R, Pángaro F, Copeland P, Kelley S, Mpodozis C. 2001. Extension and basin formation in the southern Andes caused by increased convergence rate: a mid-Cenozoic trigger for the Andes. Tectonics 20: 308324.
  • Kay S, Coira B. 2009. Shallowing and steepening subduction zones, continental lithospheric loss, magmatism, and crustal flow under the Central Andean Altiplano-Puna Plateau. In: KayS, RamosVA, DickinsonW, eds. Backbone of the Americas: shallow subduction, plateau uplift, and ridge and terrane collision. Memoir 204 . Boulder : Geological Society of America, 229259.
  • Kay SM, Copeland P. 2006. Early to Middle Miocene backarc magmas of the Neuquén Basin: geochemical consequences of slab shallowing and the westward drift of South America. In: KaySM, RamosVA, eds. Late Cretaceous to Recent magmatism and tectonism of the Southern Andean margin at the latitude of the Neuquen basin (36–39°S). Special Paper 407 . Boulder: Geological Society of America, 185213.
  • Kay SM, Burns M, Copeland P. 2006. Upper Cretaceous to Holocene magmatism over the Neuquén basin: evidence for transient shallowing of the subduction zone under the Neuquén Andes (36°S to 38°S latitude). In: KaySM, RamosVA, eds. Late Cretaceous to Recent magmatism and tectonism of the Southern Andean margin at the latitude of the Neuquen basin (36–39°S). Special Paper 407 . 3300 Penrose Place, P.O. Box 9140, Boulder, Colorado 80301-9140, USA: Geological Society of America, 1960.
  • Krawczyk C, Mechie J, Tašárová Z, Lüth S, Stiller M, Brasse H, Echtler HP, Bataille K, Wigger P, Araneda M. 2006. Geophysical signatures and active tectonics at the southern central Chilean margin. In: OnckenO, ChongG, FranzG, GieseP, GötzeH-J, RamosVA, StreckerMR, WiggerP , eds. The Andes – active subduction orogeny, Frontiers in Earth Sciences, Vol. 1. Berlin, Heidelberg, New York: Springer Verlag, 171192.
  • Lagabrielle Y, Suárez M, Malavieille J, Morata D, Espinoza F, Maury R, Scalabrino B, Barbero L, De La Cruz R, Rossello E, Bellon H. 2007. Pliocene extensional tectonics in the Eastern Central Patagonian Cordillera: geochronological constraints and new field evidence. Terra Nova 19: 413424.
  • 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: 16691691.
  • Litvak V, Forguera A, Ramos V. 2008. Determination of an arc-related signature in Late Miocene volcanism over the San Rafael Block, Southern Central Andes (34°30′–37°) Argentina: the Payenia shallow subduction zone. 7° International Symposium on Andean Geodynamics, Niza, Extended Abstracts . Paris: IRD Éditions Institut de recherche pour le développement, 289291.
  • Llambías E, Rapela C. 1989. Las vulcanita de Collipilli, Neuquen (37°S) y su relación con otras unidades paleógenas de la cordillera. Revista de la Asociación Geológica Argentina 44: 224236.
  • Madden R, Bellosi E, Carlini A, Heizler M, Vilas J, Re G, Kay R, Vucetich M. 2005. In: LlambíasE, de BarrioR, GonzálezP, LealP, eds. Geochronology of the Sarmiento Formation at Gran Barranca and elsewhere in Patagonia: calibrating middle Cenozoic mammal evolution in South America. La Plata: 16° Congreso Geológico Argentino, 4. 411412.
  • Mahlburg Kay SM, Ardolino AA, Gorring ML, Ramos VA. 2007. The Patagonian Somuncura large igneous province: Interaction of a late Oligocene hotspot-like anomaly with a subducted slab. Journal of Petrology 48: 4377.
  • Marshall L, Butler R, Drake R, Curtis G. 1981. Calibration of the beginning of the age of Mammals. Patagoniain Science 212: 4345.
  • Marshall L, Salinas P. 1990. Stratigraphy of the Río Frías Formation (Miocene) along Río Cisnes, Aysen. Chilein Revista Geológica de Chile 17: 5787.
  • Mazzoni M. 1994. Conos de cinder y facies volcaniclásticas miocenas en la meseta del Canquel (Scarrit Pocket), provincia del Chubut, Argentina. Revista de la Asociación Argentina de Sedimentología 1: 1531.
  • Mazzoni M, Benvenuto A. 1990. Radiometric ages of Tertiary ignimbrites and the Collón Cura Formation, northwestern Patagonia. In: BordonaroO, ed. 11° Congreso Geológico Argentino, San Juan, Actas 1. Buenos Aires: Asociación Geológica Argentina, 8790.
  • Mazzoni M, Kawashita K, Harrison S, Aragón E. 1991. Edades radimétricas eocenas. Borde occidental del Macizo Nordpatagónico. Revista de la Asociación Geológica Argentina 46: 150158.
  • Munizaga F, Huete C, Hervé F. 1985. Geocronología K–Ar y razones iniciales Sr87/Sr86 de la ‘Faja Pacífica’ de ‘Desarrollos hidrotermales’. 4° Congreso Geológico Chileno, Abstracts 3 . Antofagasta, 357379.
  • Muñoz J, Troncoso R, Duhart P, Crignola P, Farmer L, Stern CR. 2000. The relation of the mid-Tertiary coastal magmatic belt in south-central Chile to the late Oligocene increase in plate convergence rate. Revista Geológica de Chile 27: 177203.
  • Nullo F. 1978. Descripción Geológica de la Hoja 56 a-b, cerro Fitz Roy. Servicio Geológico Nacional, Buenos Aires. Unpublished.
  • Nullo F, Stephens G, Otamendi J, Baldauf P. 2002. El volcanismo del Terciario superior del sur de Mendoza. Revista de la Asociación Geológica Argentina 57: 119132.
  • Nur A, Ben-Avraham Z. 1981. Volcanic gaps and the consumption of aseismic ridges in South America, in Nazca Plate. In: KulmL et al., eds. Crustal formation and Andean convergence. Boulder, CO: Geological Society of America, 729740.
  • Oncken O, Hindle D, Kley J, Elger K, Victor P, Schemmann K. 2006. Deformation of the central Andean upper plate system—facts, fiction, and constraints for plateau models. In: OnckenO, ChongG, FranzG, GieseP, GötzeH-J, RamosVA, StreckerMR, WiggerP, eds. The Andes, active subduction orogeny. Berlin: Springer, 727.
  • Pankhurst R, Weaver S, Hervé F, Larrondo P. 1999. Mesozoic–Cenozoic evolution of the North Patagonian Batholith in Aysén, southern Chile. Journal of the Geological Society of London 156: 673694.
  • Paredes J, Colombo F, Foix N, Allard J, Nillni A, Allo M. 2008. Basaltic explosive volcanism in a tuff dominated intraplate setting, Sarmiento Formation (Middle Eocene–Lower Miocene), Patagonia, Argentina. Latin American Journal of Sedimentology and Basin Analysis 15: 7792.
  • Pezzutti N, Villar LM. 1979. Los complejos alcalinos en la zona de Sarmiento, provincia de Chubut. 7° Congreso Geológico Argentino. Neuquén, Abstracts 2 . Buenos Aires: 511520.
  • Pilger R. 1981. Plate reconstructions, aseismic ridges, and low angle subduction beneath the Andes. Geological Society of America Bulletin 92: 448456.
  • Pindell J, Kennan L, Maresch W, Stanek W, Draper G, Higgs R. 2005. Plate-kinematics and crustal dynamics of circum-Caribbean arc–continent interactions: tectonic controls on basin development in Proto-Caribbean margins. In: LallemantA, SissonV, eds. Caribbean-South American plate interactions. Boulder, Colorado: Geological Society of America, Special Paper 394, 752.
  • Ploszkiewicz J, Ramos VA. 1977. Estratigrafía y tectónica de la Sierra de Payaniyeu, prov. de Chubut. Revista de la Asociación Geológica Argentina 32: 209226.
  • Polanski J. 1963. Estratigrafía, neotectónica y geomorfología del Pleistoceno pedemontano, entre los ríos Diamante y Mendoza. Revista de la Asociación Geológica Argentina 17: 127349.
  • Ramos V. 1982. Descripción Geológica de la Hoja 53a Monte San Lorenzo y 53b Monte Belgrano, provincia de Santa Cruz. Servicio Geológico Nacional, Buenos Aires. Unpublished.
  • Ramos VA. 2002. Evolución Tectónica de la Provincia de Santa Cruz. In: HallerM, ed. Geología y recursos naturales de Santa Cruz, Relatorio del 15° Congreso Geológico Argentino, El Calafate, Vol. 1. Buenos Aires: Asociación Geológica Argentina, 365387.
  • Ramos VA. 2009a. Anatomy and global context of the Andes: main geological features and the Andean orogenic cycle. In: KayS, RamosV, DickinsonW, eds. Backbone of the Americas: shallow subduction, plateau uplift and ridge and terrane collision. Boulder, Colorado: The Geological Society of America, Memoir 204, 3165.
  • Ramos VA. 2009b. The tectonic regime along the Andes: present day and Mesozoic regimes. Geological Journal 45: 225.
  • Ramos VA, Barbieri M. 1989. El volcanismo cenozoico de Huantraico: edad y relaciones isotópicas iniciales, provincia del Neuquén. Revista de la Asociación Geológica Argentina 43: 210223.
  • Ramos VA, Cristallini E, Pérez DJ. 2002. The Pampean flat-slab of the Central Andes. Journal of South American Earth Sciences 15: 5978.
  • Ramos V, Folguera A. 2005. Tectonic evolution of the Andes of Neuquén: Constraints derived from the magmatic arc and foreland deformation. In: VeigaG, SpallettiL, HowellJ and SchwarzE, eds. The Neuquén Basin: A case study in sequence stratigraphy and basin dynamics. Geological Society of London, Special Publication 252: 1535.
  • Ramos VA, Folguera A. 2009. Andean flat subduction through time. In: MurphyB, KeppieJ, HynesA, eds. Ancient orogens and modern analogues. London: Geological Society of London, Special Publication 327, 3154.
  • Ramos VA, Kay S. 1992. Southern Patagonia plateau basalts and deformation: backarc testimony of ridge collisions. Tectonophysics 205: 261282.
  • Ramos VA, Niemeyer H, Skarmeta J, Muñoz J. 1982. Magmatic evolution of the Austral Patagonian Andes. Earth Science Reviews 18: 411443.
  • Rapela C, Spalletti L, Merodio J, Aragón E. 1988. Temporal evolution and spatial variation of early Tertiary volcanism in the Patagonian Andes (40°S–42°30′S). Journal of South American Earth Sciences 1: 7588.
  • Ré G, Geuna S, López Martínez M. 2000. Geoquímica y geocronología de los basaltos neógenos de la region de Aluminé (Neuquén Argentina), 9° Congreso Geológico Chileno Abstracts, 2 . Puerto Varas: 6266.
  • Re G, Madden R, Heizler M, Vilas J, Rodríguez M, Kay R, Carlini A. 2005. Polaridad magnética preliminar de las sedimentitas de la Formación Sarmiento (Gran Barranca del lago Colhué Huapí, Chubut, Argentina. In: Luis A, ed. 16° Congreso Geológico A, Abstracts 4. Sociedad Geológica de Chile: 387394.
  • Rojas Vera E, Folguera A, Zamora Valcarce G, Giménez M, Ruiz F, Martínez P, Bottesi G, Ramos VA. 2010. 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). Tectonophysics 92: 279294.
  • Sanchez A, Hervé F, Saint-Blanquat M. 2008. Relations between plutonism in the back-arc region in southern Patagonia and Chile Rise subduction: a geochronological review. In: CollotJ-Y, MonfretT, SempereT, DelouisB, TricE, HérailG, eds. 7° International Symposium on Andean Geodynamics, Abstracts. Paris: IRD Éditions Institut de recherche pour le développement, 485488.
  • Sanchez A, Saint-Blanquat M, Polvé M, Hervé F. 2009. Different plutonic events in extra-Andean southern Patagonia, Chile. In: MiguelAP, ed. 12° Congreso Geológico Chileno, Santiago, Chile, 2009, Abstracts S8_026. Santiago de Chile: Universidad de Chile.
  • Schellart W, Freeman J, Stegman D, Moresi L, May D. 2007. Evolution and diversity of subduction zones controlled by slab width. Nature 446: 308311.
  • Silvestro J, Atencio M. 2010. La cuenca Cenozoica del Río Grande y Palauco: edad, evolución y control estructural. Faja plegada de Malargüe (36°S). Revista de la Asociación Geológica Argentina 65: 154169.
  • Silvestro J, Kraemer P, Achilli F, Brinkworth W. 2005. Evolución de las cuencas sinorogénicas de la cordillera principal entre 35° y 36°S, Malargüe. Revista de la Asociación Geológica Argentina 60: 627643.
  • Somoza R, Zaffarana C. 2008. Mid-Cretaceous polar standstill of South America, motion of the Atlantic hotspots and the birth of the Andean cordillera. Earth and Planetary Science Letters 271: 267277.
  • Soria M. 1984. Vertebrados fósiles y edad de la Formación Aisol, provincia de Mendoza. Revista de la Asociación Geológica Argentina 38: 299306.
  • Stern C. 1989. Pliocene to present migration of the volcanic front, Andean Southern Volcanic Front. Revista Geológica de Chile 16: 145162.
  • Suárez M, De La Cruz R. 2000. Tectonics in the eastern Central Patagonian Cordillera (45°30′–47°30′S). Journal of the Geological Society of London 157: 9951001.
  • Suárez M, De La Cruz R. 2001. Jurassic to Miocene K–Ar dates from eastern central Patagonian Cordillera plutons, Chile (45°–48°S). Geological Magazine 138: 5366.
  • Suárez M, Emparán C. 1995. The stratigraphy, geochronology and paleophysiography of a Miocene fresh-water interarc basin, southern Chile. Journal of South American Earth Science 8: 1731.
  • Thomson S, Brandon M, Tomkin J, Reiners P, Vásquez C, Wilson N. 2010. Glaciation as a destructive and constructive control on mountain building. Nature 467: 213317.
  • Tunik M, Folguera A, Naipauer M, Pimentel M, Ramos VA. 2010. Early uplift and orogenic deformation in the Neuquén basin: constraints on the Andean uplift from U/Pb and Hf analyses of detrital zircons. Tectonophysics 489: 258273.
  • Tunik M, Vietto M, Sciutto J, Estrada E. 2004. Procedencia de areniscas del Grupo Chubut en el área central de la Sierra de San Bernardo. Análisis preliminar. Revista de la Asociación Geológica Argentina 59: 601606.
  • Vogt H, Vogt T, Calmels A. 2010. Influence of the post-Miocene tectonic activity on the geomorphology between Andes and Pampa Deprimida in the area of Provincia de La Pampa, Argentina. Geomorphology 121: 152166.
  • Yrigoyen M. 1994. Revisión estratigráfica del Neógeno de las Huayquerías de Mendoza septentrional, Argentina. Ameghiniana 31: 125138.
  • Zamora Valcarce G, Zapata T, Ramos VA, Rodríguez F, Bernardo L. 2009. Evolución tectónica del frente andino en Neuquén. Revista de la Asociación Geológica Argentina 65: 192203.