Abstract
Located in the eastern part of the Tethyan tectonic domain, the Jinshajiang Suture Belt (JSB), northwestern Yunnan, China, is notable for its large-scale distribution of Jurassic to Triassic granitoids that are genetically related to the evolution of the Paleo-Tethys Ocean and polymetallic mineralization. In this study, geochronological and geochemical analyses were conducted on three samples of these granite porphyries (GPs) using laser ablation inductively coupled plasma mass spectrometry and zircon U–Pb aging to reveal ages of 213±15, 198.4±8.6, and 195.3±6.4 Ma, respectively. These ages are younger than the emplacement ages of the granodiorites, at 208–239 Ma, suggesting that magmatic activities in the Yangla mining district likely continued for ~44 Ma. These GPs are rich in large-ion lithophile elements such as Rb, Ba, Th, U, K, and La but are deficient in high field strength elements such as Ta, Nb, Ce, Zr, Hf, and Ti. Significant Pb enrichment and P depletion were noted, as were varying degrees of metallogenic element enrichment in the order of Cu>Pb>Zn. The total content of rare earth elements (ΣREEs) of the GPs is in the range of 50.41–127.27 ppm and the LREE/HREE ratio is in the rage of 4.46–10.54. The GPs are rich in LREEs, with a high degree of differentiation noted between the LREEs and HREEs. The δEu (EuN/Eu∗) and δCe (CeN/Ce∗) values, at 0.53–0.86 and 0.79–0.98, indicate weak and slightly weak negative anomalies, respectively. The geochemical characteristics of the GPs indicate that these bodies are slightly metaluminous to peraluminous S-type granites in a calc–alkaline series that formed in a late-collisional or postcollisional tectonic setting. Three-component mixing of magmas including those of upper crust, lower crust, and mantle materials in addition to subsequent partial melting could have been responsible for the generation of these GPs in an epithermal low-pressure setting at <5 kbar.
Highlights
The Sanjiang Metallogenic Belt (SMB), including the Jinshajiang, Lancangjiang, and Nujiang rivers, is an economic skarn–porphyry Cu polymetallic metallogenic belt situated in SW China (Figures 1(a) and 1(b))
We combined zircon U–Pb age dating, whole-rock geochemical data, and rare earth elements (REEs) data to constrain the geochronology, tectonic setting, and petrogenesis of the Granitic porphyries (GPs) analyzed in this study
The results suggest that the collision was completed during the Early Jurassic and that the magmatic activities occurring in the Yangla mining district might have lasted for ~44 Ma, during 239–195 Ma
Summary
The Sanjiang Metallogenic Belt (SMB), including the Jinshajiang, Lancangjiang, and Nujiang rivers, is an economic skarn–porphyry Cu polymetallic metallogenic belt situated in SW China (Figures 1(a) and 1(b)). The metallogenic processes in the SMB occurred mainly during a Mesozoic (~230 Ma) late-collisional or postcollisional tectonic setting [1,2,3] This belt consists mainly of seven geotectonic units including the Ganzi–Litang Suture Belt, Zhongzan–Zhongdian Plates, Jinshajiang Suture Belt (JSB), Qamdo–Simao Terranes, Nujiang Suture Belt, Lancangjiang Suture Belt, and Lhasa Terranes from east to west [2, 4]. Granitic porphyries (GPs) closely associated with Cu mineralization were discovered in 2014 by geological prospectors of the Yunnan Copper Industry Group in a tunnel at depths of 3250 m and 3275 m. The locations of these GPs suggest the potential contribution of porphyry plutons to the Cu deposits at depth. Previous studies have shown that the JSB and its surrounding district contain the Sanjiang
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