ISSN 0495-5331

CN 11-2043/P

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��.��ɽͭ�󴲰��ϡɢ��[J].��뿱̽,2022,58(3):514-531

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Mineralization of associated dispersed elements in the Chengmenshan copper deposit of Jiangxi Province and its geological significance

Ͷ��ʱ�䣺2021-05-17 �޶��ڣ�2022-04-12

DOI��10.12134/j.dzykt.2022.03.005

��Ĺؼ��: �󻯹�� ɿ�ģʽ ϡɢ�� ɽͭ��

Ӣ�Ĺؼ��: mineralization regularity, enrichment mechanism, metallogenic model, dispersed elements, Chengmenshan copper deposit, Jiangxi Province

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The Chengmengshan deposit in Jiangxi Province is an important part of the middle-lower Yangtze River Belt, which has been intensively explored in recent years. This deposit has reserves of main metals such as copper, zinc, lead and silver, and also contains associated dispersed elements with a large or superlarge scale. The dispersed elements of tellurium, thallium, cadmium and selenium have been comprehensively recycled, but have been little documented. Based on previous drilling logging and testing data, this work analyzed the mineralization and distribution rules of the dispersed elements, and discussed the enrichment mechanism and controlling factors for this deposit. The dispersed elements of the Chengmengshan deposit tend to be enriched in layered sulfide-type ores, and mainly occur in independent rare metal minerals or sulfide lattice of pyrite, chalcopyrite and sphalerite. The contents of dispersed elements vary with the content of metal sulfides. The Cd content in the ores correlates well with that of Zn content (R2=0.65), and other dispersed contents are weakly positively correlated with Cu content. Tellurium and thallium are closely related to layered sulfide ores. The extraordinary enrichment of cadmium is mainly related to zinc mineralization. They have been relatively less separated in the process of hydrothermal fluid extraction, migration and precipitation. Magmatic crystallization differentiation led to the reduction of indium content in hydrothermal fluids, and rhenium is mainly hosted in molybdenite, which is closely related to the participation of mantle-derived materials. This work also established the metallogenic model of the Chengmenshan dispersed element-bearing copper deposit.

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