Grenville-age metamorphism in the Larsemann Hills: P-T evolution of the felsic orthogneiss in the Broknes Peninsula, East Antarctica

• Published in: International geology review Vol. 63; no. 7; pp. 866 - 881
• Main Authors: Zong, Shi, Ren, Liudong, Wu, Meiqian
• Format: Journal Article
• Language: English
• Published: Philadelphia Taylor & Francis 03.05.2021; Taylor & Francis Ltd
• Subjects: East Antarctica; Evolution; Feldspars; felsic gneisses; Garnet; Gneiss; Grenvillian event; Ilmenite; Isotopes; Metamorphism; Metamorphism (geology); Mineral assemblages; Orogeny; Phase equilibria; Plagioclase; pseudosection modelling; Sillimanite; Tectonics; Thickening; Zircon; zircon REE and Lu-Hf characteristics; zircon U-Pb geochronology; Antarctica
• ISSN: 0020-6814; 1938-2839
• DOI: 10.1080/00206814.2020.1734973

The gneisses outcropping in the Larsemann Hills of East Antarctica are ideal for studying the composition and evolution of the Prydz tectonic belt. In this study, detailed petrological analyses, phase equilibrium modelling, and zircon analyses were performed on a felsic orthogneiss from the Broknes Peninsula in the Larsemann Hills. The study results show that the protolith of the felsic gneiss is granite, which is further identified to have been an S-type granitoid. The felsic orthogneiss intruded into the basement complex at ~976 Ma. The magmatic zircons in the felsic orthogneiss have lower LREE and higher HREE contents than those of the metamorphic zircons in the same rock. The felsic gneiss consists of the mineral assemblage garnet +ilmenite+ plagioclase +K-feldspar + sillimanite + quartz and underwent granulite facies metamorphism in the Grenvillian period (～899 Ma), with peak conditions of ～870°C and ～9.5 kbar. The Larsemann Hills should be categorized as the orogenic process from arc-continent collision to continent-continent collision during the Grenvillian period, crust thickening(~899 Ma) and subsequent collapse(550-500 Ma).