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De Silva SL, Kay SM Turning up the Heat: High-Flux Magmatism in the Central Andes De Silva and Kay (2018) Elements 14: 245-250 Supplemental References Allmendinger RW, Jordan TE, Kay SM, Isacks BL (1997) The evolution of the Altiplano-Puna plateau of the Central Andes. Annual Reviews of Earth and Planetary Sciences 25: 139-174 Beck SL, Zandt G, Ward KM, Scire A (2015) Multiple styles and scales of lithospheric foundering beneath the Puna Plateau, central Andes. Geological Society of American Memoire 212: 43-60 Brandmeier M, Wörner G (2016) Compositional variations of ignimbrite magmas in the Central Andes over the past 26 Ma — a multivariate statistical perspective. Lithos 262: 713-728 Bryan SE, Riley TR, Jerram DA, Stephens CJ, Leat PT (2002) Silicic volcanism: an undervalued component of large igneous provinces and volcanic rifted margins. Geological Society of America Special Paper 362: 97-118 Coney PJ (1978) Mesozoic-Cenozoic Cordilleran plate tectonics. In: Smith RB, Eaton GP (eds) Cenozoic Tectonics and Regional Geophysics of the Western Cordillera: Geological Society of America Memoir 152: p. 33-50 Delph JR, Ward KM, Zandt G, Ducea MN, Beck SL (2017). Imaging a magma plumbing system from MASH zone to magma reservoir. Earth and Planetary Science Letters 457: 313-324 Folkes CB, de Silva SL, Schmitt AK, Raymond AFC (2011) A reconnaissance of U-Pb zircon ages in the Cerro Galán System, NW Argentina: prolonged magma residence, crystal recycling, and crustal assimilation. Journal of Volcanology and Geothermal Research 206: 136-147 Francis PW, Baker MCW (1978) Sources of two large volume ignimbrites in the Central Andes: some Landsat evidence. Journal of Volcanology and Geothermal Research 4: 81-87 Francis PW, Sparks RSJ, Hawkesworth CJ, Thorpe RS, Pyle DM, Tait SR, Mantovani MS, McDermott F (1989) Petrology and geochemistry of volcanic rocks of the Cerro Galan caldera, northwest Argentina. Geological Magazine 126: 515-547 Gardeweg M, Ramírez CF (1987) The La Pacana caldera and the Atana ignimbrite — a major ash-flow and resurgent caldera complex in the Andes of northern Chile. Bulletin of Volcanology 49: 547-566 Guest JE (1969) Upper Tertiary ignimbrites in the Andean Cordillera of part of the Antofagasta Province, Northern Chile. Geological Society of America Bulletin 80: 337-362 Supplemental References de Silva & Kay (2018) Elements 14: 245-250 P a g e | 1 Gregg PM, de Silva SL, Grosfils EB, Parmigiani JP (2012) Catastrophic caldera- forming eruptions: thermomechanics and implications for eruption triggering and maximum caldera dimensions on Earth. Journal of Volcanology and Geothermal Research 214- 242: 1-12 Grocke SB, de Silva SL, Wallace PJ, Cottrell E, Schmitt AK (2018) Catastrophic caldera- forming (CCF) monotonous silicic magma reservoirs: constraints from volatiles in melt inclusions from the 3.49 Ma Tara supereruption, Guacha II Caldera, SW Bolivia. Journal of Petrology 58: 2115-2142 Guzmán S, Grosse P, Montero-López C, Hongn F, Pilger R, Petrinovic I,Seggario R, Aramayo A (2014) Spatial-temporal distribution of explosive volcanism in the 25-28° S segment of the Andean Central Volcanic Zone. Tectonophysics 636: 170-189 Hildreth W (1981) Gradients in silicic magma chambers: Implications for lithospheric magmatism. Journal of Geophysical Research 86: 10153-10192 Hollingworth SE, Rutland RWR (1968) Studies of Andean uplift, Part I. Post Cretaceous evolution of the San Bartolo Arica, Northern Chile. Geological Journal 6: 49-62 Isacks BL (1988) Uplift of the central Andean plateau and bending of the Bolivian orocline. Journal of Geophysical Research 93:3211-3231 Jicha BR, Scholl DW, Singer BS, Yogodzinski GM, Kay SM (2006) Revised age of Aleutian Island Arc formation implies high rate of magma production. Geology 34: 661-664 Kaiser JF, de Silva SL, Schmitt AK, Economos R (2017) Million-year melt-presence in monotonous intermediate magma for a volcanic-plutonic assemblage in the Central Andes: contrasting histories of crystal-rich and crystal-poor super-sized magmas. Earth and Planetary Science Letters 457: 73-86 Kay SM, Coira B, Wörner G, Kay RW, Singer BS (2011) Geochemical, isotopic and single crystal 40Ar/39Ar age constraints on the evolution of the Cerro Galán ignimbrites, Bulletin of Volcanology 73: 1487-1511 Kay SM, Mpodozis C, Coira B (1999) Magmatism, tectonism, and mineral deposits of the Central Andes 22°-33°S latitude. In Skinner B (ed) Geology and Ore Deposits of the Central Andes. Society of Economic Geology Special Publication 7: 27-59 Kay SM, Mpodozis C, Gardeweg M (2014) Magma sources and tectonic setting of Central Andean andesites (25.5°-28°S) related to crustal thickening, forearc subduction erosion and delamination. In: Gomez-Tuena A, Straub SM, Zellmer GF (eds) Orogenic Andesites and Crustal Growth, Geological Society, London, Special Publications 385, 303-334 Roperch P, Guillaume B, Espurt N (2010) Horizontal subduction zones, convergence velocity and the building of the Andes. Earth and Planetary Science Letters 299: 299-309 Paterson S, Ducea M (2015). Arc magmatic tempos: gathering the evidence. Elements 11: 91-98 Supplemental References de Silva & Kay (2018) Elements 14: 245-250 P a g e | 2 Pichler H, Zeil VW (1972) The Cenozoic rhyolite-andesite association of Chilean Andes. Bulletin of Volcanology 35: 424-452 Russo RM, Silver PG (1994) Cordillera formation, mantle dynamics, and the Wilson cycle. Geology 24: 511-514 Salisbury MJ, Jicha BR, de Silva SL, Singer BS, Jimenez NC, Ort MH (2011) 40Ar/39Ar chronostratigraphy of Altiplano-Puna volcanic complex ignimbrites reveals the development of a major magmatic province. Geological Society of America Bulletin, 123(5-6), 821-840 Schmitt AK (2001). Gas-saturated crystallization and degassing in large-volume, crystal- rich dacitic magmas from the Altiplano-Puna, northern Chile. Journal of Geophysical Research 106(B12): 30561-30578 Sobolev SV, Babeyko AY, Koulakov I, Oncken O (2006) Mechanism of the Andean orogeny: insight from numerical modeling. In: Oncken O et al. (eds) The Andes: Active Subduction Orogeny. Spinger, p 513-535 Soler MM, Caffe PJ, Coira BL, Onoe AT, Kay SM (2007) Geology of the Vilama caldera: a new interpretation of a large scale explosive event in the Central Andean plateau during the Upper Miocene. Journal of Volcanology and Geothermal Research 164: 27-53 Thorpe RS (1982) Andesites: Orogenic Andesites And Related Rocks. Wiley, pp 72 Trumbull RB, Wittenbrink R, Hahne K, Emmermann R, Büsch W, Gerstenberger H, Siebel W (1999) Evidence for late Miocene to Recent contamination of arc andesites by crustal melts in the Chilean Andes (25-26°S) and its geodynamic implications. Journal of South American Earth Sciences 12: 135-155 van Zalinge ME, Sparks RSJ, Blundy JD (2017) Petrogenesis of the large-volume Cardones Ignimbrite, Chile; development and destabilization of a complex magma-mush system. Journal of Petrology 58: 1975-2006 Ward KM, Zandt G, Beck SL, Christensen D, McFarlin H (2014) Seismic imaging of the magmatic underpinnings beneath the Altiplano-Puna volcanic complex from the joint inversion of surface wave dispersion and receiver functions. Earth and Planetary Science Letters 404: 43-53 Supplemental References de Silva & Kay (2018) Elements 14: 245-250 P a g e | 3 .
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