Journal of Jilin University(Earth Science Edition) ›› 2023, Vol. 53 ›› Issue (6): 1706-1721.doi: 10.13278/j.cnki.jjuese.20230232

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In-Situ Trace Elements Characteristics of the Scheelite and Metallogenic Significance on Skarn Tungsten Deposits in Eastern Jilin and Heilongjiang Province, NE China

Ren Yunsheng1,2,Li Jingmou2,Hao Yujie3,Xu Wentan1   

  1. 1. School of Earth Science, Institute of Disaster Prevention,Langfang 065201, Hebei, China
    2. School of Earth Sciences and Resources, China University of Geosciences, Beijing 100083, China
    3. Key Laboratory of Mineral Resources Evaluation in Northeast Asia, Ministry of Natural Resources of China, 
    Changchun 130061, China

  • Online:2023-11-26 Published:2023-12-12
  • Supported by:
    the National Key R&D Program of China (2017YFC0601304)

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Abstract: The skarn-type scheelite deposit is an important type of tungsten deposits in eastern Jilin and Heilongjiang of Northeast (NE) China. The large-scale Cuihongshan Wo-polymetallic deposit in Xunke area of Heilongjiang Province and medium-scale Baishilazhi scheelite deposit in Wangqing area of Jilin Province are two representative skarn deposits. To determine their ore-forming fluid characteristics and metallogenic mechanism, scheelite single minerals were selected from these two representative deposits for in-situ LA-ICP-MS trace elements analysis. The results show that the scheelite in Cuihongshan deposit was formed in a Na- and Nb-rich ore-forming fluid system with left-dipped rare earth element (REE) distribution patterns and weak positive Eu anomalies. The substitution of REE3+ for Ca2+ in scheelite from Cuihongshan deposit can be accounted for the substitution mechanism: 2Ca2+ = REE3+ + Na+ and Ca2+ + W6+ = REE3+ + Nb5+. The scheelite in Baishilazi deposit was formed in a Na- and Nb-poor ore-forming fluid system with right-dipped REE distribution patterns and positive Eu anomalies. The substitution mechanism of REE3+ for Ca2+ in scheelite of Baishilazi deposit is 3Ca2+ = 2REE3+ + □Ca (where □ is a site vacancy). The obvious correlation between EuN and Eu*N and the high Mo content in scheelite samples indicates that the ore-forming fluids in two skarn-type tungsten (-polymetallic) deposits in eastern Jilin and Heilongjiang are oxidizing fluids. The Eu anomalies of scheelite in these two deposits are higher than those of their ore-forming intrusions, indicating that water-rock reaction occurred during the fluid evolution. The obvious correlation of Y and Ho contents between the scheelite in different deposits and their ore-forming intrusions, as well as the differences between Y/Ho and La/Ho, reveal that their initial ore-forming fluids are derived from magmatism, and water-rock reaction and fluid mixing occurred during the fluid evolution. Due to data from this studies and previous references, it can be concluded that the water-rock reaction and fluid mixing during ascending of the magmatic hydrothermal are major mechanisms of scheelite mineralization in the skarn-type tungsten (-polymetallic) deposit in eastern Jilin and Heilongjiang.

Key words: ore-forming fluid, metallogenic mechanism, in-situ trace elements, scheelite, skarn-type tungesten deposit, Cuihongshan Wo-polymetallic deposit, Baishilazhi scheelite deposit, Eastern Jilin and Heilongjiang Provinces 

CLC Number: 

  • P611.1
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