Trace Elements in Olivines from the Giant Jinchuan Ni-Cu-(
  PGE)
   Deposit,
   NW China,
   and Its Geological Implication

doi:10.11867/j.issn.1001-8166.2019.04.0382

Advances in Earth Science ›› 2019, Vol. 34 ›› Issue (4): 382-398. doi: 10.11867/j.issn.1001-8166.2019.04.0382

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Trace Elements in Olivines from the Giant Jinchuan Ni-Cu-( PGE) Deposit, NW China, and Its Geological Implication

Jian Kang ^1, ²( ),Liemeng Chen ¹( ),Xieyan Song ¹,Zhihui Dai ¹,Wenqin Zheng ¹

1. State Key Laboratory of Ore Deposit Geochemistry, Institude of Geochemistry, Chinese Academy of Sciences, Guiyang 550081, China
2. University of Chinese Academy of Sciences, Beijing 100049, China

Received:2018-12-25 Revised:2019-02-03 Online:2019-04-10 Published:2019-05-27
Contact: Liemeng Chen E-mail:kaingjian@mail.gyig.ac.cn;chenliemeng@vip.gyig.ac.cn
About author: Kang Jian （1994-）， male， Tianshui City， Gansu Province， Master student. Research areas include magma sulfide deposits. E-mail: kaingjian@mail.gyig.ac.cn | Kang Jian （1994-）， male， Tianshui City， Gansu Province， Master student. Research areas include magma sulfide deposits. E-mail: kaingjian@mail.gyig.ac.cn
Supported by:
Project supported by the National Key Research and Development Program "The evolution law of typical metallogenic system and its spatio-temporal self-similar structure"(No.2016YFC0600503);The National Natural Science Foundation of China "Restriction of Mg-Fe isotope on source area of Ni-Cu sulfide deposits in Xiarihamu and Shitoukengde in east Kunlun orogenic belt"(No.41873026)

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Jian Kang,Liemeng Chen,Xieyan Song,Zhihui Dai,Wenqin Zheng. Trace Elements in Olivines from the Giant Jinchuan Ni-Cu-( PGE) Deposit, NW China, and Its Geological Implication[J]. Advances in Earth Science, 2019, 34(4): 382-398.

The giant Jinchuan magmatic sulfide deposit in China is the third largest mining deposits in the world. Although many research have been done, there still exist some debates in the genesis of deposit. This study using the LA-IC-MS to obtain the trace elements concentrations of the olivine in order to discuss the mechanism of influence the element variability and illustrate the process of magmatism and ore-forming. The analytical results show that Ni, Co correlate negatively with Fo in the olivine, Mn/Fe is positively correlate with Fo, while Mn/Zn and Zn/Fe show no obvious correlation with Fo. The primitive mantle olivine-normalized trace element patterns of the Jinchuan olivine show that Jinchuan Ⅰ, Ⅱ intrusions have the same trace elements characteristics, which display negative Cr, V, Ni, Co and Ti anomalies and enrichment of Zr, Y, Ti, Sc and Ca. The multi-element patterns of the Jinchuan olivine imply same parental magma in the intrusion Ⅰ and Ⅱ. The spinel which cocrystallization with the olivine make it display negative Cr, V and Ti anomalies. The contents of Ni and Co in olivine are influenced by the process of sulfide segregation and the reaction between sulfide and olivine. The lower content of Cr and V in olivine of the intrusion Ⅱ compared with the intrusion Ⅰ imply that the parental magma of the intrusion Ⅱ was more evolved. Higher Mn/Zn (>13) ratios and lower Zn/Fe (<11) ratios indicate that the magma of Jinchuan intrusion likely originate from partial melting of peridotite mantle possibly, instead of pyroxene mantle sources.

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