Shear-assisted water-fluxed melting and AFC processes in the foreland of the Early Paleozoic Famatinian orogen: petrogenesis of leucogranites and pegmatites from the Sierras de Córdoba, Argentina

• Published in: International journal of earth sciences : Geologische Rundschau Vol. 110; no. 7; pp. 2495 - 2517
• Main Authors: Demartis, Manuel, Jung, Stefan, Hauff, Folkmar, Aragón, Eugenio, D’Eramo, Fernando Javier, Coniglio, Jorge Enrique, Pinotti, Lucio Pedro, Boffadossi, María Alejandra, Muratori, María Eugenia, Coniglio, Joaquín
• Format: Journal Article
• Language: English
• Published: Berlin/Heidelberg Springer Berlin Heidelberg 01.10.2021; Springer Nature B.V
• Subjects: Alkalis; Amphibolites; Assimilation; Composition; Crystallization; Deformation; Earth and Environmental Science; Earth Sciences; Evolution; Ferric oxide; Fractional crystallization; Fractionation; Geochemistry; Geology; Geophysics/Geodesy; Isotope composition; Isotopes; Lava; Magma; Mass transfer; Melting; Melts; Mineral Resources; Monazite; Ordovician; Original Paper; Orogeny; Paleozoic; Pegmatite; Petrogenesis; Plagioclase; Ratios; Rock; Rocks; Sedimentology; Shear zone; Silica; Silicon dioxide; Strontium 87; Strontium isotopes; Structural Geology; Titanium dioxide; Trace elements; Argentina; Famatinian orogen; Granitic pegmatite; Assimilation and fractional crystallization; Leucogranite; Sr nd isotopes
• ISSN: 1437-3254; 1437-3262
• DOI: 10.1007/s00531-020-01961-2

In the Comechingones pegmatitic field, central Argentina, leucogranite and pegmatite bodies crop out in a relatively narrow (25 × 10 km) belt, and were emplaced synkinematically with the main deformational event of the crustal-scale Guacha Corral shear zone during the Early Ordovician (~ 475 Ma). These leucogranites and pegmatites are geochemically evolved rocks with high silica and alkalis, low Fe 2 O 3 , MgO, TiO 2 and CaO, and high ASI values. The leucogranites display quite variable Sr and Nd isotope compositions (initial 87 Sr/ 86 Sr ratios from 0.7048 to 0.7170, and ε Nd values from + 2.0 to − 3.1), some of which do not overlap with almost any other pre-Famatinian rock from the Sierras de Córdoba. The major and trace element geochemistry and the particular Sr and Nd isotope compositions of the leucogranites are here explained by the following processes: (1) water-fluxed partial melting of amphibolites at relatively low P–T conditions generating currently unexposed granodioritic melts with unradiogenic 87 Sr/ 86 Sr ratios and radiogenic ε Nd values; (2) fractionation of mostly plagioclase and monazite leading to compositions close to the leucogranite melts; and (3) assimilation of metasedimentary rocks with crustal isotopic signatures, modelled by assimilation and fractional crystallization processes. The major, trace and isotope compositions of the pegmatites suggest a derivation from partial melting of the same metasedimentary protoliths of the Sierras de Córdoba that were assimilated by leucogranite melts. We propose a feedback relationship among deformation, anatexis, magma evolution and mass transfer in the context of such a crustal-scale shear zone in the foreland of the Famatinian orogen.