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Chang, Jia, Li, Jian-Wei, Selby, David, Liu, Jia-Cheng, Deng, Xiao-Dong (2017) Geological and Chronological Constraints on the Long-Lived Eocene Yulong Porphyry Cu-Mo Deposit, Eastern Tibet: Implications for the Lifespan of Giant Porphyry Cu Deposits. Economic Geology, 112 (7) 1719-1746 doi:10.5382/econgeo.2017.4527

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Reference Type	Journal (article/letter/editorial)
Title	Geological and Chronological Constraints on the Long-Lived Eocene Yulong Porphyry Cu-Mo Deposit, Eastern Tibet: Implications for the Lifespan of Giant Porphyry Cu Deposits
Journal	Economic Geology
Authors	Chang, Jia		Author
	Li, Jian-Wei		Author
	Selby, David		Author
	Liu, Jia-Cheng		Author
	Deng, Xiao-Dong		Author
Year	2017 (November 1)	Volume	112
Issue	7
Publisher	Society of Economic Geologists
DOI	doi:10.5382/econgeo.2017.4527Search in ResearchGate
	Generate Citation Formats
Mindat Ref. ID	224656	Long-form Identifier	mindat:1:5:224656:1
GUID	0
Full Reference	Chang, Jia, Li, Jian-Wei, Selby, David, Liu, Jia-Cheng, Deng, Xiao-Dong (2017) Geological and Chronological Constraints on the Long-Lived Eocene Yulong Porphyry Cu-Mo Deposit, Eastern Tibet: Implications for the Lifespan of Giant Porphyry Cu Deposits. Economic Geology, 112 (7) 1719-1746 doi:10.5382/econgeo.2017.4527
Plain Text	Chang, Jia, Li, Jian-Wei, Selby, David, Liu, Jia-Cheng, Deng, Xiao-Dong (2017) Geological and Chronological Constraints on the Long-Lived Eocene Yulong Porphyry Cu-Mo Deposit, Eastern Tibet: Implications for the Lifespan of Giant Porphyry Cu Deposits. Economic Geology, 112 (7) 1719-1746 doi:10.5382/econgeo.2017.4527
In	(2017, November) Economic Geology Vol. 112 (7) Society of Economic Geologists
Abstract/Notes	Abstract The Yulong porphyry Cu-Mo deposit, the third largest porphyry Cu deposit in China, contains proven reserves of > 6.5 million metric tons (Mt) Cu and 0.4 Mt Mo. Previous radiometric dating studies have provided numerous ages for this deposit, but the timing and duration of the process governing the deposition of Cu and Mo remains not well constrained. In this paper, we first document multiple stages of mineralization and hydrothermal alteration associated with distinct magmatic pulses at Yulong by field and textural relationships, and then present high-precision molybdenite Re-Os ages of 14 quartz-molybdenite ± chalcopyrite veins representing these stages to precisely constrain the timing and duration of Cu-Mo mineralization. The ore-hosting Yulong composite stock consists of three successive porphyry intrusions: (1) monzonitic granite porphyry (MGP), (2) K-feldspar granite porphyry (KGP), and (3) quartz albite porphyry (QAP). The vein formation, Cu-Mo mineralization, and ore-related alteration are grouped into early, transitional, and late stages with respect to the intrusive history. The first two porphyry intrusions are followed by cyclical sequences of veining that are mainly associated with potassic alteration and have formed (1) ME vein/USTT, (2) EBE/T veins, (3) A1E/T veins, (4) A2E/BT veins, and (5) A3E/T veins. A2E/BT and A3E/T veins of the early and transitional stages are dominated by quartz and chalcopyrite ± pyrite, respectively, and represent the main Cu-Mo mineralization events. More than 80% of Cu and Mo at Yulong were deposited in the early stage with the remainder being formed in the transitional stage. The late-stage pyrite-quartz veins (DL), which are characterized by sericitic alteration halos, postdate the intrusion of QAP dikes and have no economic significance. Molybdenite Re-Os ages of A2E and BT veins indicate that sulfide deposition at Yulong was episodic over a prolonged history lasting over 5.13 ± 0.23 m.y. (1σ). However, the bulk Cu-Mo ores formed in a shorter time interval of 1.36 ± 0.24 m.y. (1σ) with most Cu precipitated in a more restricted timespan of 0.82 ± 0.24 m.y. (1σ) in the early stage. These results, combined with geochronologic data from porphyry copper deposits elsewhere, confirm that multiple magmatic-hydrothermal pulses with a lifespan of tens to hundreds of thousands of years are sufficient to form a giant porphyry copper deposit. Factors such as metal concentration, volume, and focusing efficiency of ore-forming fluids could have played important roles in producing a giant porphyry Cu deposit regardless of a short- or long-lived magmatic-hydrothermal system.

👁 Image	Li, Yang, Selby, David, Condon, Daniel, Tapster, Simon (2017) Cyclic Magmatic-Hydrothermal Evolution in Porphyry Systems: High-Precision U-Pb and Re-Os Geochronology Constraints on the Tibetan Qulong Porphyry Cu-Mo Deposit. Economic Geology*, 112 (6) 1419-1440 doi:10.5382/econgeo.2017.4515
👁 Image	Delibaş, Okan, Moritz, Robert, Selby, David, Göç, Deniz, Revan, Mustafa Kemal (2019) Multiple Porphyry Cu-Mo Events in the Eastern Pontides Metallogenic Belt, Turkey: From Early Cretaceous Subduction to Eocene Postcollision Evolution. Economic Geology, 114 (7) 1285-1300 doi:10.5382/econgeo.4663
👁 Image	Chang, Jia; Li, Jian-Wei; Zhou, Lian (2020) Molybdenum isotopic fractionation in the Tibetan Yulong Cu-Mo deposit and its implications for mechanisms of molybdenite precipitation in porphyry ore systems. Ore Geology Reviews, 123. doi:10.1016/j.oregeorev.2020.103571
👁 Image	Piquer, José, Cooke, David, Chen, Jing, Zhang, Lejun (2017) Synextensional Emplacement of Porphyry Cu-Mo and Epithermal Mineralization: The Zijinshan District, Southeastern China. Economic Geology, 112 (5) doi:10.5382/econgeo.2017.4501
👁 Image	Chang, Jia, Li, Jian-Wei, Audétat, Andreas (2018) Formation and evolution of multistage magmatic-hydrothermal fluids at the Yulong porphyry Cu-Mo deposit, eastern Tibet: Insights from LA-ICP-MS analysis of fluid inclusions. Geochimica et Cosmochimica Acta, 232. 181-205 doi:10.1016/j.gca.2018.04.009
👁 Image	Audétat, Andreas; Chang, Jia; Gaynor, Sean P. (2025) Depth of Magma Crystallization and Fluid Exsolution Beneath the Porphyry-Skarn Cu Deposits at Santa Rita and Hanover-Fierro, New Mexico, USA. Economic Geology, 120 (7). doi:10.5382/econgeo.5197
👁 Image	Cao, Kang, Yang, Zhi-Ming, White, Noel C., Hou, Zeng-Qian (2022) Generation of the Giant Porphyry Cu-Au Deposit by Repeated Recharge of Mafic Magmas at Pulang in Eastern Tibet. Economic Geology, 117 (1) 57-90 doi:10.5382/econgeo.4860
👁 Image	Li, Yang, Li, Xian-Hua, Selby, David, Li, Jian-Wei (2018) Pulsed magmatic fluid release for the formation of porphyry deposits: Tracing fluid evolution in absolute time from the Tibetan Qulong Cu-Mo deposit. Geology, 46 (1) 7-10 doi:10.1130/g39504.1
👁 Image	*Skarmeta, Jorge, Ortiz, Fernando, Solé, Marco (2024) Geology and Structure of the Río Blanco Cu-Mo Porphyry Deposit, Central Chile. Economic Geology, 119 (2) 251-278 doi:10.5382/econgeo.5043*
👁 Image	Zhang, Daohan, Audétat, Andreas (2017) What Caused the Formation of the Giant Bingham Canyon Porphyry Cu-Mo-Au Deposit? Insights from Melt Inclusions and Magmatic Sulfides. Economic Geology, 112 (2) 221-244 doi:10.2113/econgeo.112.2.221
👁 Image	Ouyang, Hegen, Mao, Jingwen, Hu, Ruizhong, Caulfield, John, Zhou, Zhenhua (2021) CONTROLS ON THE METAL ENDOWMENT OF PORPHYRY Mo DEPOSITS: INSIGHTS FROM THE LUMING PORPHYRY Mo DEPOSIT, NORTHEASTERN CHINA. Economic Geology, 116 (7) 1711-1735 doi:10.5382/econgeo.4850

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