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高校地质学报 ›› 2026, Vol. 32 ›› Issue (03): 354-370.DOI: 10.16108/j.issn1006-7493.2026078

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皖赣沿江地区壳幔岩浆作用及其区域成矿效应

杜杨松1,曹 毅1*,秦新龙2,庞振山3   

  1. 1. 中国地质大学(北京)地球科学与资源学院,北京 100083;
    2. 江苏省矿产地质调查大队,南京 210012;
    3. 中国地质调查局发展研究中心,北京 100037
  • 出版日期:2026-06-20 发布日期:2026-06-20

Crust-Mantle Magmatism in the Jiangxi to Anhui Segment of the Yangtze River and Its Constraints on Regional Metallogeny

DU Yangsong1,CAO Yi1*,QIN Xinlong2,PANG Zhenshan3   

  1. 1. School of Earth Science and Resources, China University of Geosciences, Beijing 100083, China;
    2. Brigade of Mineral and Geological Survey of Jiangsu Province, Nanjing 210012, China;
    3. Development and Research Center, China Geological Survey, Beijing 100037, China
  • Online:2026-06-20 Published:2026-06-20

摘要: 皖赣沿江地区广泛发育中生代中—浅成小侵入岩体,这些岩体中分布有多种岩石包体。在侵入岩及其包体岩石中分布有一些矿物包晶,而在各类矿物中发育有熔浆包裹体及其出溶矿物。文章在野外调研和镜下观察的基础上,将区内侵入岩分为与碰撞后金矿、金铜叠加矿化、铜矿相关的侵入岩,和与造山后金矿、稀散矿化、铜矿、铁矿相关的侵入岩,以及无矿侵入岩八类;侵入岩中的包体岩石分为混杂岩、地幔岩、堆积岩、聚晶岩和变质岩五类;侵入岩及其包体岩石中的包晶矿物分为幔晶、巨晶、堆晶和聚晶四类;侵入岩及其包体岩石中各类矿物内熔浆包裹体出溶矿物分为氧化物和硫化物两类。对区内侵入岩、包体岩石以及其中的各类矿物进行了矿物学和地球化学研究。结果表明,皖赣沿江地区发生了元古代和中生代两期壳幔岩浆作用。元古代壳幔岩浆作用主要涉及元古代幔源岩浆底侵作用和壳幔混源岩浆作用,此后还经历了区域变质作用;而中生代壳幔岩浆作用主要涉及三期中生代幔源岩浆底侵作用和壳幔混源岩浆作用。元古代和中生代壳幔岩浆作用引发了一系列碰撞后到造山后壳幔岩浆事件,导致了碰撞后到造山后壳幔岩浆演化,主要表现为侵入岩及其包体的岩石组合、形成时间、形成条件、矿物组合和化学成分方面的变化。从成矿效应来看,区内壳幔岩浆作用不仅影响区域成矿作用而且影响区域成矿规律。在区域成矿作用方面主要涉及区域矿床成矿物质来源,金属元素获取和富集机制,输运通道和动力,以及保存环境和条件四个方面,而在成矿规律方面主要涉及时空分布和成因叠合两个方面。

关键词: 壳幔岩浆作用, 区域成矿效应, 包体和包晶, 皖赣沿江地区

Abstract: Numerous Mesozoic meso-epizonal small intrusions, hosting various rock enclaves, are widely distributed in the Jiangxi to Anhui segment of the Yangtze River. Some mineral peritectics occur in both the intrusions and their enclaves, while exsolved phases from melt inclusions are present in various mineral grains of these rocks. Based on comprehensive field investigations and detailed petrographic observations, the intrusions in the study area are classified into eight groups: those associated with postcollisional gold, gold-copper and copper deposits, those related to post-orogenic gold deposits, dispersed element mineralization, copper and iron deposits, and barren intrusions. The rock enclaves within the intrusions are divided into five types: hybrid rocks, mantle-derived xenoliths, cumulates, polycrystalline aggregates, and metamorphic xenoliths. The peritectic minerals in the intrusions and their enclaves are categorized into four types: mantle-derived crystals, megacrysts, cumulus crystals, and polycrystals. The exsolved phases from melt inclusions in various minerals of the intrusions and enclaves are grouped into two categories: oxides and sulfides. Systematic mineralogical and geochemical investigations were conducted on the intrusions, their rock enclaves, and various minerals within them. The results demonstrate that two major episodes of crust-mantle magmatism occurred in the Jiangxi to Anhui segment of the Yangtze River: the Proterozoic and Mesozoic episodes. The Proterozoic crustmantle magmatism was dominated by mantle-derived magma underplating and crust-mantle hybrid magmatism, followed by regional metamorphism. In contrast, the Mesozoic crust-mantle magmatism comprised three distinct phases of mantle-derived magma underplating and crust-mantle hybrid magmatism. These two episodes of crust-mantle magmatism triggered a series of post-collisional to post-orogenic magmatic events, driving the corresponding crust-mantle magma evolution. This evolution is primarily recorded in the variations of intrusion-enclave assemblages, formation ages, physicochemical conditions, mineral associations, and geochemical compositions. With respect to metallogenic effects, the crust-mantle magmatism in the study area exerts a fundamental control on both regional mineralization processes and metallogenic regularity. The regional mineralization processes are governed by four key factors: sources of ore-forming materials, mechanisms of metal acquisition and enrichment, fluid/melt transport pathways and driving forces, and post-mineralization preservation environments and conditions. The regional metallogenic regularity is mainly characterized by the temporal-spatial distribution of ore deposits and the genetic superposition of multiple mineralization events. 

Key words: crust-mantle magmatism, regional metallogenic effect, rock enclaves and peritectic minerals, Jiangxi to Anhui
segment of the Yangtze River

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