Post-collisional strongly peraluminous granites |
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Authors: | Paul J Sylvester |
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Institution: | Research School of Earth Sciences, The Australian National University, Canberra, ACT 0200, Australia |
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Abstract: | Strongly peraluminous (SP) granites have formed as a result of post-collisional processes in various orogens. In ‘high-pressure' collisions such as the European Alps and Himalayas, post-collisional exhumation of overthickened crust (>50 km), heated by radiogenic decay of K, U and Th during syn-collisional thickening, produced small- to moderate-volume, cool (<875°C) SP granite melts with high Al2O3/TiO2 ratios. In ‘high-temperature' collisions such as the Hercynides and Lachlan Fold Belt (LFB), there was less syn-collisional crustal thickening (≤50 km). Crustal anatexis was related to post-collisional lithospheric delamination and upwelling of hot asthenosphere, forming large-volume, hot (≥875°C) SP granite melts with low Al2O3/TiO2 ratios. Both clay-rich, plagioclase-poor (<5%) pelitic rocks and clay-poor, plagioclase-rich (>25%) psammitic rocks have been partially melted in high-pressure and high-temperature collisional orogens, with the pelite-derived SP granites tending to have lower CaO/Na2O ratios (<0.3) than their psammite-derived counterparts. The predominance of pelite-derived SP granites in the Himalayas and psammite-derived SP granites in the LFB suggests that mature continental platforms made up more of the accreted crust in the Himalayan collision than in the LFB. |
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Keywords: | Granites Plate collision Suture zones Orogeny Anatexis |
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