2021
DOI: 10.1080/00206814.2021.1885504
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The tectonic links between Palaeozoic eclogites and mafic magmatic Cu-Ni-Co mineralization in East Kunlun orogenic belt, western China

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Cited by 12 publications
(2 citation statements)
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“…460 Ma causing the late Ordovician-middle Silurian magmatism in the NKT and thrusted basement rocks (Dong et al, 2018). The South Kunlun Terrane (SKT), which developed as an inner-oceanic island arc, consisted of the Wanbaogou Group basalts and large amounts of multistage felsic magmatic rocks (Cai and Wei, 2007;Zhang et al, 2010;Kong et al, 2014;Chen et al, 2016;Yu et al, 2020). Xu et al (2016) got a zircon SIMS dating age of 762 ± 2 Ma for the Wanbaogou basalts, and their geochemical features are similar to those of oceanic island basalt.…”
Section: Geological Settingmentioning
confidence: 99%
“…460 Ma causing the late Ordovician-middle Silurian magmatism in the NKT and thrusted basement rocks (Dong et al, 2018). The South Kunlun Terrane (SKT), which developed as an inner-oceanic island arc, consisted of the Wanbaogou Group basalts and large amounts of multistage felsic magmatic rocks (Cai and Wei, 2007;Zhang et al, 2010;Kong et al, 2014;Chen et al, 2016;Yu et al, 2020). Xu et al (2016) got a zircon SIMS dating age of 762 ± 2 Ma for the Wanbaogou basalts, and their geochemical features are similar to those of oceanic island basalt.…”
Section: Geological Settingmentioning
confidence: 99%
“…The granite‐MME associations have been widely documented in many complexes from Middle Permian to Late Triassic: the Naomuhun granodiorites and their MMEs (Xiong et al, 2012), the Qianwadaqiao granodiorites and their MMEs (G. C. Chen, Pei, Li, Li, Pei, et al, 2018), the Qushi'ang granodiorites and their MMEs (G. C. Chen, Pei, Li, Li, Liu, Chen, et al, 2017), the Harizha granodiorites and their MMEs (Xin et al, 2019), the Saishitang granodiorites and their MMEs (J. Y. Zhang, Yang, et al, 2017), and the Xiangride porphyritic granodiorites and their MMEs (Xiong, Ma, Zhang, Liu, & Jiang, 2014). The EKOB in the Qinghai‐Tibetan Plateau is considered to undergo multi‐stages of tectonic‐magmatic evolution (Y. X. Chen, Pei, Li, Li, Liu, & Wang, 2017; Y. P. Dong et al, 2018; Du et al, 2017; J. J. Kong, Niu, He, Zhang, & Shao, 2020; Z. C. Li, Pei, et al, 2017; Y. G. Liu et al, 2018, 2019; X. Xu et al, 2020; Z. W. Zhang et al, 2018; M. J. Zhang et al, 2021). The evolutionary history of the Palaeo‐Tethys within the EKOB has attracted considerable attention over the past decades (Y. P. Dong et al, 2018; Gao & Sun, 2021; Hu et al, 2016; Huang et al, 2014; J. J. Kong et al, 2020; H. L. Kong et al, 2021; Y. Y. Liang, Xia, Ma, Zhao, & Guo, 2020; Richards, 2015; Shao et al, 2017; Song et al, 2020; Tian et al, 2021; J. Y. Zhang, Ma, Xiong, & Liu, 2012; Zhao et al, 2019).…”
Section: Introductionmentioning
confidence: 99%