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FANG Xiang, TANG Ju-xing, LI Yan-bo, WANG Qing, DING Shuai, ZHANG Zhi, YANG Chao, LI Yu-bing, CHEN Hong-qi, WEI Lu-jie, NI Ma. Metallogenic element spatial distribution of the Naruo copper (gold) deposit in the Duolong ore concentration area of Tibet and its geochemical exploration model[J]. GEOLOGY IN CHINA, 2014, 41(3): 936-950.
Citation: FANG Xiang, TANG Ju-xing, LI Yan-bo, WANG Qing, DING Shuai, ZHANG Zhi, YANG Chao, LI Yu-bing, CHEN Hong-qi, WEI Lu-jie, NI Ma. Metallogenic element spatial distribution of the Naruo copper (gold) deposit in the Duolong ore concentration area of Tibet and its geochemical exploration model[J]. GEOLOGY IN CHINA, 2014, 41(3): 936-950.
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Metallogenic element spatial distribution of the Naruo copper (gold) deposit in the Duolong ore concentration area of Tibet and its geochemical exploration model

  • 1.

    Chengdu University of Technology, Chengdu 610059, Sichuan, China

  • 2.

    Institute of Mineral Resources, Chinese Academy of Geological Sciences, Beijing 100037, China

  • 3.

    No. 5 Geological Party, Tibet Bureau of Geology and Mineral Exploration and Development, Golmud 816000, Qinghai, China

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  • Abstract:After the discovery of Duobuzha and Bolong copper (gold) deposit, the exploration of the Naruo copper (gold) deposit, a large porphyry deposit, is a major breakthrough in the Dolong ore district. Based on the prospecting engineering analysis data, the authors studied the spatial distribution of metallogenic elements. The vertical zonation of metallogenic elements is not obvious, but the zoning in the plane is fairly clear: from the center of ZK0001 southwestward there exists zonation of Cu+Au→Cu(Au, Ag)→Cu(Ag, Au)→Cu(Ag). According to the soil geochemical survey, from No. 0 to No. 31 exploration line (from northeast to southwest), the zonation is Mo, Cu→Mo (Cu, Au)→Cu, Au(Ag, Mo, Pb)→Pb→Pb, Zn, suggesting that the migration direction of ore-forming fluid was from No. 0 and No. 7 line to the surrounding areas (mainly from northeast to southwest), and its materials and heat sources were near No. 0 line. Finally, through the study of geological features and element zonation, the authors established a geochemical exploration model of the Naruo ore district.
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