Contrasting sources and P-T crystallization conditions of epidote-bearing granitic rocks, northeastern Brazil: O, Sr, and Nd isotopes

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• 作者：V.P. Ferreira ; A.N. Sial ; M.M. Pimentel ; R. Armstrong ; M.J. Spicuzza ; I.P. Guimar&#xe3 ; es ; A.F. da Silva Filho
• 关键词：Magmatic epidote ; Nd isotopes ; Sr isotopes ; O isotopes ; SHRIMP U– ; Pb ages ; Granitoids
• 刊名：Lithos
• 出版年：2011
• 出版时间：January 2011
• 年：2011
• 卷：121
• 期：1-4
• 页码：189-201
• 全文大小：1421 K

文摘

The 618 Ma Curral de Cima tonalite and 577 Ma Lourenço monzodiorite, northeastern Brazil, are magmatic epidote-bearing plutons that carry ferrohornblende, biotite, titanite, and epidote. Major, trace, and isotope chemistry suggests that the major magmas of the two plutons followed similar differentiation trends but derived from source rocks that differed in age and isotopic composition. The mineral phases of the Curral de Cima tonalite, the presence of amphibole-rich clots, and juvenile component (average εNd = −3.55) point to an I-type source for these rocks. These data and high calculated δ¹⁸O(w.r.) (10.0‰) for the tonalite and high δ¹⁸O value for a clot (9.3‰) argue that the clots are fragments of a metabasaltic source rock that has been hydrothermally altered at a low temperature. In contrast, average calculated δ¹⁸O(w.r.) for the Lourenço monzodiorite = 7.8‰, ⁸⁷Sr/⁸⁶Sr = 0.7083, εNd = −14.6, and T_DM = 1.92 Ga. These data are compatible with a long crustal residence time of lower crust amphibolites source. Epidote in the Curral de Cima pluton crystallized close to the NNO buffer, and hornblende chemistry, due to Al reequilibration, yielded sub-solidus temperature and pressure. In contrast, in the Lourenço pluton epidote crystallized close to the HM buffer and Al-in-hornblende points to near-solidus solidification (685 °C) around 4.4 Kbar. This study confirms that magmatic epidote in granitic plutons can crystallize at pressures lower than 5.5 Kbar under higher fO₂ as experimentally foreseen. Rapid magma transportation through hot continental crust during the peak of metamorphism in early stages of an orogenic cycle prevents epidote dissolution.