SciELO - Scientific Electronic Library Online

SciELO - Scientific Electronic Library Online

Referencias del artículo

GUADALUPE, Maro  y  CAFFE, Pablo J. Volcanismo máfico terciario de la Puna jujeña, los Cerros Negros de Jama. Ser. correl. geol. [online]. 2012, vol.28, n.1, pp. 51-72. ISSN 1666-9479.

    1. Aquater, S.A. 1980. [Exploración geotérmica en el área del Cerro Tuzgle, Provincia de Jujuy, República Argentina. Estudio de Prefactibilidad. Dirección de Minería de la Provincia de Jujuy, Argentina. 123 pp Inédito]. [ Links ]

    2. Barclay, J. y Carmichael, I.S.E. 2004. A hornblende basalt from western Mexico: water-saturated phase relations constrain a pressure-temperature window of eruptibility. Journal of Petrology, 45: 485-506. [ Links ]

    3. Blatter, D.L. y Carmichael, I.S.E. 1998. Plagioclase-free andesites from Zitacuaro (Michoacan), Mexico: petrology and experimental constraints. Contributions to Mineralogy and Petrology, 132: 121-138. [ Links ]

    4. Branney, M.J., Barry, T.L. y Godcheaux, M. 2004. Sheathfolds in rheomorphic ignimbrites. Bulletin of Volcanology, 66: 485-491. [ Links ]

    5. Bryant, J.A., Yogodzinski, G.M. y Churikova, T.G. 2011 High-Mg# andesitic lavas of the Shisheisky Complex, Northern Kamchatka: implications for primitive calc-alkaline magmatism. Contributions to Mineralogy and Petrology, 161:791-810. [ Links ]

    6. Cabrera, A.P. y Caffe, P.J. 2009. The Cerro Morado Andesites: Volcanic history and eruptive styles of a ma?c volcanic ?eld from northern Puna, Argentina. Journal of South American Earth Sciences, 28: 113-131. [ Links ]

    7. Caffe, P.J., Trumbull, R.B., Coira, B.L. y Romer, R.L. 2002. Petrogenesis of Early Neogene magmatism in the Northern Puna; implications for magma genesis and crustal processes in the Central Andean Plateau. Journal of Petrology, 43: 907-942. [ Links ]

    8. Cervantes P. y Wallace P.J. 2003. Role of H2O in subduction-zone magmatism: New insights from melt inclusions in high-Mg basalts from central Mexico. Geology, 31: 235-238. [ Links ]

    9. Coira, B. y Kay, S.M. 1993. Implications of Quaternary volcanism at Cerro Tuzgle for crustal and mantle evolution of the Puna Plateau, Central Andes, Argentina. Contributions to Mineralogy and Petrology, 113: 40-58. [ Links ]

    10. Coira, B., Caffe, P., Mahlburg Kay, S., Diaz, A. y Ramirez, A. 1996. Complejo volcánico de Vilama - Sistema caldérico del Cenozoico superior en Puna, Jujuy. XIII Congreso Geológico Argentino, Buenos Aires, Actas 3: 603-620. [ Links ]

    11. Coira, B., Kay, S.M. y Viramonte, J.G. 1993. Upper Cenozoic magmatic evolution of the Argentine Puna - A model for changing subduction geometry. International Geology Review, 35: 677-720. [ Links ]

    12. Conte, A.M., Perinelli, C. y Triglia, R. 2006. Cooling kinetics experiments on different Stromboli lavas: Effects on crystal morphologies and phases composition. Journal of Volcanology and Geothermal Research, 155: 179- 200. [ Links ]

    13. Davidson, J., Turner, S., Handely, H., Macpherson, C. y Dosseto, A. 2007. Amphibole "sponge'' in arc crust? Geology, 35: 787-790. [ Links ]

    14. Defant, M.J. y Drummond, M.S. 1990. Derivation of some modern arc magmas by melting of young subducted lithosphere. Nature, 347: 662-665. [ Links ]

    15. Donaldson, C.H. 1985. The rate of dissolution of olivine, plagioclase and quartz in a basalt melt. Mineralogical Magazine, 69: 683-693. [ Links ]

    16. Drew, S.T., Ducea, M.N. y Schoenbolhm, L.M. 2009. Mafic volcanism on the Puna Plateau, NW Argentina: Implications for lithospheric composition and evolution with an emphasis on lithospheric foundering. Lithosphere, 1: 305-318. [ Links ]

    17. Faure, F., Trolliard, G., Nicollet, C. y Montel, J. 2002. A developmental model of olivine morphology as a function of the cooling rate and the degree of undercooling. Contributions to Mineralogy and Petrology, 145: 251-263. [ Links ]

    18. Guzmán, S.R., Petrinovic, I.A. y Brod, J.A. 2006. Pleistocene mafic volcanoes in the Puna-Cordillera Oriental boundary, NW-Argentina. Journal of Volcanology and Geothermal Research, 158: 51-69. [ Links ]

    19. Guzmán, S.R., Petrinovic, I.A., Brod, J.A., Hongn, F.D., Seggiaro, R.E., Montero, C., Carniel, R., Dantas, E.L. y Sudo, M. 2011. Petrology of the Luingo caldera (SE margin of the Puna plateau): A middle Miocene window of the arc-back arc configuration. Journal of Volcanology and Geothermal Research, 200: 171-191. [ Links ]

    20. Har, N. 2005. Reaction coronas around quartz xenocrysts in the basaltic andesite from Detunata (Apuseni Mountains, Romania). Geologica Carpathica, 54: 369-378. [ Links ]

    21. Huppert, H.E. y Sparks, R.S.J. 1985. Cooling and contamination of mafic and ultramafic magmas during ascent through continental crust. Earth and Planetary Science Letters, 74: 371-386. [ Links ]

    22. Kay, S.M., Coira, B. y Viramonte, J. 1994. Young mafic back arc volcanic rocks as indicators of continental lithospheric delamination beneath the Argentine Puna plateau, central Andes. Journal of Geophysical Research, 99: 24323-24339. [ Links ]

    23. Kay, S.M., Mpodozis, C. y Coira, B. 1999. Magmatism, tectonism, and mineral deposits of the Central Andes (22-33S latitude). Geology and Ore Deposits of the Central Andes, Society of Economic Geology Special Publication, 7: 27-59. [ Links ]

    24. Kay, S.M., Coira, B., Caffe, P.J. y Chen, C-H. 2010. Regional chemical diversity, crustal and mantle sources and evolution of central Andean Puna Plateau Ignimbrites. Journal of Volcanology and Geothermal Research, 198: 81-111. [ Links ]

    25. Kelemen, P.B., Hanghj, K. y Greene, A.R. 2004. One view of the geochemistry of subduction-related magmatic arcs, with an emphasis on primitive andesite and lower crust. Treatise on Geochemistry, 3: 593-659. [ Links ]

    26. Kilburn, C.R.J. 2000. Lava flows and flow fields. En: Sigurdsson, H., Houghton, B., McNutt, S.R., Rymer, H. y Stix, J. (Eds.), Encyclopedia of Volcanoes. Academic Press, San Diego, 291-305. [ Links ]

    27. Knox, W.J., Kay, S.M. y Coira, B. 1989. Geochemical evidence on the origin of quaternary basaltic andesites of the Puna, northwestern Argentina. Revista de la Asociación Geológica Argentina, 44: 194-206. [ Links ]

    28. Krallmann, A. 1994. [Petrographische und geochemische unter-suchungen an jungen, basischen vulkaniten im bereich des Calama-Olacapato-El Toro lineamentes ostlich der vulkankette, NW.Argentinien. Clausthaler Geowissenschaftliche Dissertationen, Technischen Universitat Clausthal, 160 pp Inédito]. [ Links ]

    29. Le Maitre, R.W., Bateman, P., Dudek, A., Keller, J., Lameyre, J., Le Bas, M.J., Sabine, P.A., Schmid, R., Sorensen, H., Strekeisen, A., Woolley, A.R. y Zanettin, B. 1989. A classification of igneous rocks and glossary of terms. Blackwell Scientific Publications, London, 193 pp. [ Links ]

    30. Mattioli, M., Renzulli, A., Menna, M. y Holm, P.M. 2006. Rapid ascent and contamination of magmas through the thick crust of the CVZ (Andes, Ollage region): Evidence from a nearly aphyric high-K andesite with skeletal olivines. Journal of Volcanology and Geothermal Research, 158: 87-105. [ Links ]

    31. McDonough, W.F. y Sun, S. 1995. The composition of the Earth. Chemical Geology, 120: 223-254. [ Links ]

    32. Parfitt, E.A. 2004. A discussion of the mechanisms of explosive basaltic eruptions. Journal of Volcanology and Geothermal Research, 134: 77-107. [ Links ]

    33. Peccerillo, R. y Taylor, S.R. 1976. Geochemistry of Eocene calc-alkaline volcanic rocks from the Kastamonu area, northern Turkey. Contributions to Mineralogy and Petrology, 58: 63-81. [ Links ]

    34. Pichavant, M., Martel, C. Bourdier, J. y Scaillet, B. 2002. Physical conditions, structure, and dynamics of a zoned magma chamber: Mount Pelé (Martinique, Lesser Antilles Arc). Journal of Geophysical Research, 107: 1-25. [ Links ]

    35. Pioli, L., Erlund, E., Johnson, E., Cashman, K., Wallace, P., Rosi, M. y Delgado Granados, H. 2008. Explosive dynamics of violent Strombolian eruptions: The eruption of Parícutin Volcano 1943-1952 (Mexico). Earth and Planetary Science Letters, 271: 359-368. [ Links ]

    36. Presta, J.F. 2011. [Volcanismo máfico de la región de El Toro (2305'S - 6642'O), Puna jujeña. Trabajo final, Universidad Nacional de Córdoba, Facultad de Ciencias Exactas, Físicas y Naturales, Escuela de Geología, 317 pp Inédito]. [ Links ]

    37. Prezzi, C.B. y Gotze, H. 2009. Estructura litosférica de los Andes Centrales a partir de un modelo gravimétrico 3D. Revista de la Asociación Geológica Argentina, 65: 81-96. [ Links ]

    38. Riggs, N.R. y Duffield, W.A. 2008. Interaction of cone destruction and conduit processes in a monogenetic scoria cone, Red Mountain, San Francisco Volcanic Field, northern Arizona, USA. Volcanic and Magmatic Studies Group, 2008 meeting, Dublin Ireland, Actas, 112. [ Links ]

    39. Risse, A., Trumbull, R.B., Coira, B., Kay, S.M. y Van den Bogaard, P. 2008. 40Ar/39Ar geochronology of mafic volcanism in the back-arc region of the southern Puna plateau, Argentina. Journal of South American Earth Sciences, 26: 1-15. [ Links ]

    40. Robinson, J.A.C. y Wood, B.J. 1998. The depth of the spinel to garnet transition at the peridotite solidus. Earth and Planetary Science Letters, 164: 277-284. [ Links ]

    41. Straub, S.M., LaGatta, A.B., Martin-Del Pozzo, A.L. y Langmuir, C.H. 2008. Evidence from high-Ni olivines for a hybridized peridotite/pyroxenite source for orogenic andesites from the central Mexican Volcanic Belt. Geochemistry, Geophysics and Geosystems, 9: 1-33. [ Links ]

    42. Sumner, J.M. 1998. Formation of clastogenic lava flows during fissure eruption and scoria cone collapse: the 1986 eruption of Izu-Oshima Volcano, eastern Japan. Bulletin of Volcanology, 60:195-212. [ Links ]

    43. Sumner, J.M., Blake, S., Matela, R.L. y Wolff, J.A. 2005. Spatter. Journal of Volcanology and Geothermal Research, 142: 49-65. [ Links ]

    44. Sun, S.S. y McDonough, W.F. 1989. Chemical and isotopic systematics of oceanic basalts: implications for mantle composition and processes. En: Saunders, A.D. y Norry, M.J. (Eds.), Magmatism in Oceans Basins. Geolical Society of London, 42: 313-345. [ Links ]

    45. Turner, J.C.M. 1964. Descripción geológica de la Hoja 2c Santa Victoria (Provincias de Salta y Jujuy). Boletín del Instituto Nacional de Geología y Minería, 104: 83 pp. [ Links ]

    46. Valentine, G.A., Krier, D., Perry, F.V. y Heiken, G. 2005. Scoria cone construction mechanisms, Lathrop Wells volcano, southern Nevada, USA. Geology, 33: 629-632. [ Links ]

    47. Valentine, G.A., Perry, F.V., Krier, D., Keating, G.N., Kelley, R.E. y Cogbill, A.H. 2006. Small-volume basaltic volcanoes: Eruptive products and processes, and posteruptive geomorphic evolution in Crater Flat (Pleistocene), southern Nevada. Bulletin of the Geological Society of America, 18: 1313-1330. [ Links ]

    48. Vernon, R.H. 2004. A practical guide for rock microstructure. Cambridge University Press. 594 pp. [ Links ]

    49. Vespermann, D. y Schmincke, H.U. 2000. Scoria cones and tuff rings. En: Sigurdsson, H., Houghton, B., McNutt, S.R., Rymer, H. y Stix, J. (Eds.), Encyclopedia of Volcanoes. Academic Press, San Diego, 683-694. [ Links ]

    50. Wallace, P.J. y Carmichael, I.S.E. 1999. Quaternary volcanism near the Valley of Mexico: implications for subduction zone magmatism and the effects of crustal thickness variations on primitive magma compositions. Contributions to Mineralalogy and Petrology, 135: 291-314. [ Links ]

    51. Wood, B.J. y Turner, S.P. 2009. Origin of primitive high-Mg andesite: Constraints from natural examples and experiments. Earth and Planetary Science Letters, 283: 59-66. [ Links ]