Zircon Hf-O isotope and whole-rock geochemical constraints on origin of postcollisional mafic to felsic dykes in the Sulu orogen

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• 作者：Juan Zhang^a ; Zi-Fu Zhao^a ; ^{zfzhao@ustc.edu.cn} ; Yong-Fei Zheng^a ; Xiaoming Liu^b ; Liewen Xie^c
• 关键词：Crust&ndash ; mantle interaction ; Continental subduction ; Postcollisional igneous rocks ; Petrogenesis ; Orogenic lithospheric mantle
• 刊名：Lithos
• 出版年：2012
• 期刊代码：54_00244937
• 类别：ear
• 出版时间：April, 2012
• 卷：136-139
• 期：Complete
• 页码：225-245
• 文件大小：3455 K

摘要

Postcollisional mafic to felsic dykes in the western part of the Sulu orogen consist of monzogranite, diorite, plagioclase-bearing hornblendite and gabbro. LA-ICPMS zircon U-Pb dating yielded broadly consistent ages of 111 卤 3 to 129 卤 1 Ma for their crystallization, with Neoproterozoic ages of 743 卤 9 to 773 卤 9 Ma for residual cores. The mafic to felsic dykes are characterized by the arc-like patterns of trace element distribution with positive LILE and LREE anomalies but negative HFSE anomalies in the spidergram. They have high initial ⁸⁷Sr/⁸⁶Sr ratios of 0.7079 to 0.7100 and variably negative 蔚_Nd(t) values of 鈭?#xA0;21.6 to 鈭?#xA0;13.6 for whole-rock. Zircons also have highly negative 蔚_Hf(t) values of 鈭?#xA0;36.7 to 鈭?#xA0;10.6, with two-stage Hf model ages of 1.84 to 3.47 Ga. The zircons exhibit relatively consistent 未¹⁸O values of 4.57 to 5.98鈥? only some of them being slightly deviated from those for the normal mantle. The radiogenic isotope signatures for the mafic dykes require their derivations from isotopically enriched mantle sources, whereas the trace element compositions suggest that the mantle sources were metasomatized by arc-like crustal melts. Thus, the mantle sources may be generated by the reaction between the mantle-wedge peridotite and the felsic melts from the subducting continental crust during the Triassic continental collision. Nevertheless, there are significant differences in some element contents and slight differences in Nd-Hf isotope compositions between the gabbro and hornblendite, suggesting their derivation from different compositions of orogenic lithospheric mantle. The gabbro has relatively high MgO, Cr and Ni contents but low Al₂O₃ contents, indicating its derivation from an orthopyroxene-rich mantle source. The hornblendite displays relatively high Al₂O₃ and K₂O contents but low MgO, Cr and Ni contents, suggesting its derivation from a hydrous (amphibole-rich) mantle source. On the other hand, there are general similarities in element and isotope characteristics between the felsic-intermediate dykes (monzogranite and diorite) and the widespread postcollisional Early Cretaceous granitoids in the Dabie-Sulu orogenic belt. This indicates their derivation from similar crustal sources, i.e. the subducted continental crust of the South China Block. Therefore, the mafic to felsic dykes originated from partial melting of the orogenic lithosphere that included ultramafic pyroxenite and hornblendite which acted as sources for the mafic magmatism.