期刊
LITHOS
卷 114, 期 3-4, 页码 293-306出版社
ELSEVIER
DOI: 10.1016/j.lithos.2009.09.005
关键词
High Sr/Y rock; Petrogenesis; Magma source; Continental subduction; Lhasa terrane
资金
- Natural Science Foundation of China [40773019, 40821061]
- Ministry of Education of China
- State Administration of Foreign Expert Affairs of China [B07039]
Post-collisional (26-10 Ma) high Sr/Y and HREE-depleted intrusive rocks occur in an E-W trending belt paralleling the Yarlung-Zangbo suture in south Tibet. Their petrogenesis has been a subject of debate. Here, we present chronological, geochemical and Sr-Nd-Hf isotopic data for two newly discovered large-volume high Sr/Y granitoids (the Pagu granodiorite and the Nanmuqie granite) and three high Sr/Y porphyries intruding the granitoids in the Lhasa terrane. LA-ICP-MS zircon U-Pb dating for the Pagu granodiorite and Nanmuqie granite yielded identical magma crystallization ages of 14.0-14.4 Ma, which is indistinguishable from their associated high Sr/Y porphyries (14.2-14.6 Ma). The granitoid was intruded at middle-crust depth, whereas the porphyry was intruded at upper-crust depth, indicating that the Lhasa terrane has experienced a rapid crustal uplift during the high Sr/Y magma emplacement. Zircon Hf isotopic and where-rock Sr-Nd isotopic compositions for these granitoids and porphyries suggest that their magmas were dominantly derived from partial melting of crustal materials. The granitoids and porphyries have E-Hf(t) values overlapping with the mafic granulites in the Himalayan terrane (Indian plate). Their Sr-Nd isotopic compositions show two-endmember mixing between the Himalayan mafic lower crust and the ultrapotassic lavas/the Lhasa lower crust. We suggest that the high Sr/Y magmas in the Lhasa terrane could be derived from partial melting of subducted Indian mafic lower crust with incorporation of the ultrapotassic lava and/ or the Lhasa lower crust components. Our study suggests a new model for the high Sr/Y magma generation in the Lhasa terrane and provides a line of geochemical evidence that the Indian continental crust was subducted beneath the southern Lhasa terrane in the early-middle Miocene. (C) 2009 Elsevier B.V. All rights reserved.
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