Zircon Ce 4+ /Ce 3+ ratios and ages for Yulong ore-bearing porphyries in eastern Tibet
Date
2006
Authors
Liang, Hua-Ying
Campbell, Ian
Allen, Charlotte M
Sun, Weidong
Liu, Cong-Qiang
Yu, Heng-Xiang
Xie, Ying-Wen
Zhang, Yu-Qiang
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Springer
Abstract
Yulong ore-bearing porphyries, along the northwestern extension of the Red River-Ailao Shan fault system in eastern Tibet, consist of five porphyry deposits, containing a total of more than 8 million tons of copper resources. U-Th-Pb laser inductively coupled plasma mass spectrometry dating of zircon shows that the porphyries were emplaced in Early Tertiary (41.2-36.9 Ma), covering a period of ∼4.3 Ma, with formation ages decreasing systematically from northwest to southeast. The start of porphyry magmatism coincided with the onset of transpressional movement along the Red River-Ailao Shan fault system, implying a close link between these two events. Age sequence in intrusions can be plausibly explained by assuming that a region of melting in the lower northwestern plate moved southeasternward along the Tuoba-Mangkang fault relative to the upper plate. Zircon grains from the Yulong ore-bearing porphyries have higher Ce4+/Ce3+ than those from barren porphyries in the region. This suggests that the ore-bearing porphyries crystallized from a relatively oxidized magma, which has important implications for future ore exploration in the region and other Cu deposits in convergent margin environments in general.
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Keywords: fault zone; geochronology; inductively coupled plasma method; magmatism; melting; ore deposit; porphyry; subduction zone; tectonic setting; zircon; Ailao Mountains; Asia; China; Eurasia; Far East; North America; Red River [United States]; United States; X Continental subduction; Geochronology; Laser ablation ICP-MS; Porphyry copper deposits; Tibet; Zircon
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Mineralium Deposita
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Journal article
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2037-12-31
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