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Ore fluid evolution in the giant Marcona Fe-(Cu) deposit, Peru: Evidence from in-situ sulfur isotope and trace element geochemistry of sulfides
Rucao Li;  Huayong Chen;  Xiaoping Xia;  Qing Yang;  Ling Li;  Jian Xu;  Chao Huang;  Leonid V.Danyushevsky
2017
Source PublicationOre Geology Reviews
Volume86Pages:624-638
Abstract

The Marcona magnetite deposit, located in the iron oxide copper-gold (IOCG) province of southern Peru, is an important Fe deposit with sub-economic Cu and Zn mineralization. Three generations of sulfides were identified at the Marcona alteration/mineralization Stages IV, V and VW Magnetite, pyrrhotite, pyrite and minor chalcopyrite started to form at Stage IV. Sulfides in Stage V are dominated by chalcopyrite and pyrite, whereas only pyrite was present in Stage VII. In-situ SIMS sulfur isotope and LA-ICP-MS trace element analyses were conducted on the sulfides of these stages. Stage IV sulfides contain et largely in the range of 0 to +4.0%o, indicating a dominantly magmatic origin. In particular, delta S-34 values of Stage IV pyrite increase from core to rim, and the corresponding trace elements concentrations vary along with delta S-34. Positive delta S-34 vs. Se/S correlation of Stage IV pyrite indicates that the ore-forming system was open. The Stage V pyrite are rich in Mn, Cu, Ag, Sb, Te, Pb and Bi, and all Stage V sulfides have also elevated delta(34)5 (up to +7.8%0), indicative of possible seawater incursion during its formation. The delta S-34 values of Stage VII pyrite are highly variable from 13.4 to 5.4%0. This, together with ubiquitous disseminated voids, low Co/Ni ratios and enrichments of Mn, Se, Sb, Te, Tl and Pb, suggests that Stage VII pyrite may have formed by sulfate reduction associated with organic materials. We propose that the ore-forming fluids of Stage IV are initially magmatic with involvement of external (e.g., seawater) at late, where the fluids of Stage V are likely mainly exotic. The external fluids, together with organic matter, may have contributed to the ore-forming fluids of Stage VII, indicating a complex fluid evolution history for this giant Fe (-Cu) deposit.

Indexed BySCI
Language英语
Document Type期刊论文
Identifierhttp://ir.gyig.ac.cn/handle/42920512-1/8093
Collection矿床地球化学国家重点实验室
Affiliation1.State Key Laboratory of Isotope Geochemistry, Guangzhou Institute of Geochemistry, University of Chinese Academy of Sciences, Guangzhou 510604, China
2.Graduate University of Chinese Academy of Sciences, Beijing 100049, China
3.Key Laboratory of Mineralogy and Metallogeny, Guangzhou Institute of Geochemistry, Chinese Academy of Sciences, Guangzhou 510604, China
4.State Key Laboratory of Ore Deposit Geochemistry, Institute of Geochemistry, Chinese Academy of Sciences, Guiyang 550002, China
5.ARC Centre for Excellence in Ore Deposits (CODES), University of Tasmania, Hobart 7001, Australia
Recommended Citation
GB/T 7714
Rucao Li;Huayong Chen;Xiaoping Xia;Qing Yang;Ling Li;Jian Xu;Chao Huang;Leonid V.Danyushevsky. Ore fluid evolution in the giant Marcona Fe-(Cu) deposit, Peru: Evidence from in-situ sulfur isotope and trace element geochemistry of sulfides[J]. Ore Geology Reviews,2017,86:624-638.
APA Rucao Li;Huayong Chen;Xiaoping Xia;Qing Yang;Ling Li;Jian Xu;Chao Huang;Leonid V.Danyushevsky.(2017).Ore fluid evolution in the giant Marcona Fe-(Cu) deposit, Peru: Evidence from in-situ sulfur isotope and trace element geochemistry of sulfides.Ore Geology Reviews,86,624-638.
MLA Rucao Li;Huayong Chen;Xiaoping Xia;Qing Yang;Ling Li;Jian Xu;Chao Huang;Leonid V.Danyushevsky."Ore fluid evolution in the giant Marcona Fe-(Cu) deposit, Peru: Evidence from in-situ sulfur isotope and trace element geochemistry of sulfides".Ore Geology Reviews 86(2017):624-638.
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