Browse > Article
http://dx.doi.org/10.9727/jmsk.2019.32.1.71

New Geochronological and Lead Isotopic Data for Porphyry-Skarn Cu-Mo-Au Deposits in the Andahuaylas-Yauri Batholith, Southeastern Part of Peru  

Acosta, Jorge (Instituto Geologico Minero y Metalurgico - INGEMMET)
Heo, Chul-Ho (Mineral Resources Development Research Center, Mineral Resources Research Division, Korea Institute of Geoscience and Mineral Resources)
Villarreal, Eder (Instituto Geologico Minero y Metalurgico - INGEMMET)
Yauli, Synthia (Universidad Nacional Mayor de San Marcos - UNMSM. Facultad de Ingenieria Geologica)
Salazar, Carlos (Hudbay Peru S.A.C.)
Yang, Seok-Jun (Mineral Resources Development Research Center, Mineral Resources Research Division, Korea Institute of Geoscience and Mineral Resources)
Ortega, Moises (Universidad Nacional Mayor de San Marcos - UNMSM. Facultad de Ingenieria Geologica)
Zorrilla, Braulio (Mineral Resources Development Research Center, Mineral Resources Research Division, Korea Institute of Geoscience and Mineral Resources)
Publication Information
Journal of the Mineralogical Society of Korea / v.32, no.1, 2019 , pp. 71-77 More about this Journal
Abstract
New geochronological data of U-Pb, Re-Os and the lead isotope analysis of the Cu-Mo-Au mineral deposits are reported in the Trapiche and Constancia around Apurimac province, southeastern part of Peru. The measured ages were the first regional pulse of previously reported mineralization age between 28 and 33 Ma. The lead isotopic results indicate two sources of mineralization. The first source is thought to be derived from the upper crust and the second one is thought to be derived from a mixture of the upper crust and the lower crust.
Keywords
U-Pb geochronology; Re-Os; metallogeny. Andahuaylas-Yauri Batholith; Peru;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 Carlier, G., Lorand, J.P., Bonhomme, M., and Carlotto, V. (1996) A repprasail of the cenozoic inner arc magmatism in Southern Peru: Consequences for the evolution of the central Andes fot the past 50 Ma. Third International Symposium on Andean Geodynamics, St. Malo, France, Extended Abstracts, 551-554.
2 Carlotto, V. (1998) Evolution andine et raccourcissement au niveau de Cusco ($13^{\circ}-16^{\circ}S$), Perou: Enregistrement sedimentaire, chronologie, controles, paleogeographiques, evolution cinemematique. These de Doctorat. Universite De Grenoble, Grenoble, 159p.
3 Clark, A.H., Farrar, E., Kontak, D.J., Langridge, R.J., Arenas, M.J., France, L.J., McBride, S.L., Woodman, P.L., Wasteneys, H.A., Sandeman, H.A., and Archibald, D.A. (1990) Geologic and geochronologic constraints on the metallogenic evolution of the Andes of Southeastern Peru. Econmic Geology, 85, 1520-1583.   DOI
4 Grant, J.N., Halls, C., Sheppard, S.M.F., and Avila, W. (1980) Evolution of the porphyry tin deposits of Bolivia. Mining Geology Special, 8, 151-173.
5 Heo, C.H. and Kim, E.J. (2010) Mineralization in the cotabambas-apurimac project, southwest of Cuzco, Peru. Journal of Mineralogical Society of Korea, 23, 273-280.
6 Llosa, F., Veliz, J., and Ito, B. (2013) Descubrimiento y Geologia del Porfido Cu Mo Trapiche. Apurimac Peru. Perumin, 31.
7 Mlynarczyk, M.S.J. and Williams-Jones, A.E. (2005) The role of collisional tectonics in the metallogeny of the Central Andean tin belt. Earth and Planetary Science Letters, 240, 656-667.   DOI
8 Perello, J., Carlotto, V., Zarate, A., Caballero, A., Fuster, N., and Murh R. (2003) Porphyry-style alteration and mineralization of the middle Eocene to early Oligocene Andahuaylas-Yauri belt, Cuzco region, Peru. Economic Geology, 98, 1575-1605.   DOI
9 Quispe, J., Carlotto, V., Acosta, J., Machare, J., Chirif, H., Rivera, R., Romero, D., Huanacuni, D., and Rodriguez, R. (2008) Mapa Metalogenetico del Peru 2008. CD Resumenes del XIV Congreso Peruano de Geologia. Codigo C-27.
10 Rivera, R., Acosta, J., Heo, C.H., Ryoo, C.R., Bustamante, A., Villarreal, E., and Santisteban, A. (2011) Metallogeny of Andahuaylas - Yauri Batholith and their Implications in the Exploration of Cu - Au Porphyry Systems. Perumin, 30.
11 Rosenbaum, G., Giles, D., Saxon, M., Bettes, P.G., Weinberg, R.F., and Duboz, C. (2005) Subduction of the Nazca ridge and the Inca Plateau: Insights into the formation of ore deposits in Peru. Earth and Planetary Science Letters, 239, 18-32.   DOI
12 Ryoo, C.R., Heo, C.H., Michael, V.M., Raymon, R.C., and Alexander, S.A. (2012) Geology and polymetallic mineralization in the Cusco area, Peru. Journal of Mineralogical Society of Korea, 25, 41-50.   DOI
13 Stacey, J.S. and Kramers, J.D. (1975) Approximation of terrestrial lead isotope evolution by a 2-stage model. Earth and Planetary Science Letters, 26, 207-221.   DOI
14 Stoll, W.C. (1965) Metallogenic provinces of South America. Mining Magazine, 112, 22-33 and 90-99.
15 Yang, S.J., Heo, C.H., and Kim, Y.D. (2015) Geology and mineralization in the Trapiche Cu-Mo deposit, Apurimac state in southeastern Peru. Economic and Environmental Geology, 48, 525-536.   DOI
16 Yang, S.J. and Heo, C.H. (2016) Geology and mineralization in Constancia Porphyry Cu-Mo mine, Cusco state, southeastern Peru. Economic and Environmental Geology, 49, 193-199.   DOI
17 Zartman R. E. and Doe, B. R. (1981) Plumbotectonic - The model. Tectophysics, 75, 135-162.   DOI
18 Bustamante, A. (2008) Geocronologia, Petrografia, Alteraciones e Isotopos de Pb y Sr del Complejo Porfiritico de (Cu - Au) Utupara, Aplicaciones a la Exploracion Minera, Antabamba - Apurimac - Peru. Tesis de maestria, 126p.
19 Bonhomme, M.G. and Carlier, G. (1990) Realtions entre magmatisme et mineralisations dans le Batholite d'Andahuaylas-Yauri(Sud Perou). Donnees geochronologiques. 2nd International Symposium on Andean Geodynamics, Grenoble, France, 329-331.