Petrogenesis and tectonic implications of the early Mesozoic granitoids in the northern Alxa region, Central Asian Orogenic Belt

The northern Alxa region is located in the central segment of the southern Central Asian Orogenic Belt. Many controversies and deficiencies still exist regarding the magma source characteristics, petrogenesis and tectonic regimes during the late Palaeozoic – early Mesozoic period within this region....

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Published inGeological magazine Vol. 160; no. 3; pp. 601 - 622
Main Authors Zhao, Xiaochen, Liu, Chiyang, Wang, Jianqiang, Niu, Yazhuo, Huang, Lei, Zhang, Shaohua, Du, Fangpeng, Peng, Heng, Chen, Yingtao, Peng, Tao, Mao, Zhengzheng
Format Journal Article
LanguageEnglish
Published Cambridge, UK Cambridge University Press 01.03.2023
Subjects
Affinity
Age
Belts
Composition
Geology
Granite
Igneous rocks
Isotopes
Juveniles
Lava
Lead isotopes
Magma
Mesozoic
Original Article
Orogeny
Palaeozoic
Paleozoic
Petrogenesis
Plutons
Recycled materials
Segments
Subduction
Subduction (geology)
Tectonics
Triassic
Zircon
Mongolia
U–Pb geochronology
northern Alxa region
Central Asian Orogenic Belt
geochemistry
granitoids
Hf isotopic composition
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Summary:The northern Alxa region is located in the central segment of the southern Central Asian Orogenic Belt. Many controversies and deficiencies still exist regarding the magma source characteristics, petrogenesis and tectonic regimes during the late Palaeozoic – early Mesozoic period within this region. This study presents whole-rock compositions and zircon U–Pb and Lu–Hf isotopic data for three early Mesozoic I- and A-type granitic plutons occurring in the northern Alxa region. The Haerchaoenji and Chahanhada I-type granitoids yielded zircon 206Pb–238U ages of 245 ± 5 Ma and 245 ± 2 Ma, respectively. The variable positive zircon ϵHf(t) values between +1.8 and +11.8, with young TDM ages of 425–837 Ma, indicate that these I-type granitoids were mainly derived from juvenile crustal materials. The Wulantaolegai pluton has a zircon 206Pb–238U age of 237 ± 2 Ma and is classified as having high-K calc-alkaline A-type affinity. Furthermore, the positive zircon ϵHf(t) values of the Wulantaolegai granite range from +3.3 to +8.7 with young TDM ages of 545–778 Ma, suggesting the involvement of a juvenile crustal source as well. Furthermore, the major-element compositions of the Chahanhada and Wulantaolegai granites suggest the input of metasedimentary components. Geochemically, the Haerchaoenji and Chahanhada I-type granitoids show an arc affinity, while the Wulantaolegai granite exhibits a post-collisional affinity. However, with regional data, we suggest that the Haerchaoenji and Chahanhada I-type granitoids were also emplaced in a post-collisional setting, and the arc affinity was probably inherited from recycled subduction-related materials. These lines of evidence obtained in this study enable us to argue that the Palaeo-Asian Ocean in the central segment of the Central Asian Orogenic Belt closed before Middle Triassic time.
ISSN:0016-7568
1469-5081
DOI:10.1017/S0016756822001157