Metamorphic evolution of the Río Santa Rosa Granulites,northern Sierra de Comechingones,Argentina |
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| Institution: | 1. I.M. Systems Group, Rockville, MD, United States;2. Center for Satellite Applications and Research, National Oceanic and Atmospheric Administration, College Park, MD, United States;3. Department of Natural Resources and Environmental Management, University of Hawaii at Manoa, Honolulu, HI, United States;4. Northrop Grumman Aerospace Systems, Redondo Beach, CA, United States;1. National Environmental Engineering Research Institute, Water Technology and Management Division, Nehru Marg, Nagpur, India;2. Department of Fuel & Mineral Engineering, ISM, Dhanbad, India;1. Department of Soil Science, Faculty of Agriculture, University of Tabriz, Tabriz, Iran;2. Department of Statistics, Faculty of Mathematical Science, University of Tabriz, Iran |
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| Abstract: | Highly anhydrous granulites from Río Santa Rosa in the eastern Sierras Pampeanas of Argentina occur as a thick lens surrounded by melt-depleted migmatites. Grt–Crd granulite composed of Qtz+Pl+Grt+Crd+Ilm±Spl±Ath±Phl is the dominant rock, whereas Opx–Grt granulite appears as discontinuous lenses in the center of the granulite body. Grt–Crd granulite includes blocks of metabasite that are relics of refractory lithologic beds interlayered in the supracrustal sequence. A distinct assemblage composed of Qtz, Pl, Grt, Crd, Opx, Spl, Crn, Sil, Bt, Phl, Ath, and Fe–Ti oxides in different combinations was generated in a reaction zone between Grt–Crd granulites and metabasites at peak metamorphism (850–900 °C and 7.6±0.5 kbar). The P–T trajectory of Grt–Crd granulites suggests an early prograde garnet-forming stage followed by nearly isothermal decompression that caused garnet breakdown. Melting and melt draining accompanying garnet growth was active during heating (to 900 °C) at intermediate pressures (~7.6 kbar). Peak P–T estimates for Opx–Grt granulites are similar to those obtained with Grt–Crd granulites, which indicates that both granulites passed through the highest thermal stage. These results constrain the late evolution of Opx–Grt granulite to a garnet-consuming stage. Furthermore, they imply that garnet formation in Opx–Grt granulite happened at an early prograde P–T trajectory. Garnet growth in Opx–Grt granulite cannot result from heating at high pressure, which would lead to an apparent contradiction in the prograde P–T paths of the two granulites. This discrepancy may be solved by demonstrating that Opx–Grt granulite is the product of synmetamorphic mafic magmatism that was contaminated while cooling. The Río Santa Rosa granulites are inferred to have formed in a thickened crust in which mafic magmatic activity providing a local heat input. |
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