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高校地质学报 ›› 2026, Vol. 32 ›› Issue (03): 334-338.DOI: 10.16108/j.issn1006-7493.2026053

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花岗质火山—侵入杂岩成因研究的探索、开拓与创新

徐夕生1,贺振宇2,夏 炎1   

  1. 1. 南京大学 关键地球物质循环与成矿全国重点实验室,南京大学 地球科学与工程学院,南京 210023;
    2. 北京科技大学 资源与安全工程学院,北京 100083
  • 出版日期:2026-06-20 发布日期:2026-06-20

Exploration, Pioneering and Innovation for the Genesis of Granitic Volcanic Plutonic Complexes

XU Xisheng1,HE Zhenyu2,XIA Yan1   

  1. 1. State Key Laboratory of Critical Earth Material Cycling and Mineral Deposits, School of Earth Sciences and Engineering, Nanjing University, Nanjing 210023, China;
    2. School of Resources and Safety Engineering, University of Science and Technology Beijing, Beijing 100083, China
  • Online:2026-06-20 Published:2026-06-20

摘要: 中国东南部花岗质火山—侵入杂岩是开展火山岩和侵入岩成因联系、壳—幔相互作用、构造动力学背景和晶体—熔体分离等研究的天然实验室。王德滋院士、周新民教授带领团队进行了半个世纪的研究,提出了花岗质火山-侵入杂岩的概念,以次火山花岗岩为纽带,从“时、空、源”三方面研究其成因及分布规律,并总结出地质地球化学判别标志;在综合岩石—构造—盆地—地球物理等研究的基础上,将中国东南部花岗质火山—侵入杂岩的成因归结为洋壳俯冲消减、玄武质岩浆底侵和中、下地壳深熔三方面综合作用的构造—岩浆模式;在精细岩浆结晶过程方面,识别和揭示了一系列相关的岩浆补给、晶体堆积、晶粥活化、熔体抽离等关键证据,进一步揭示了花岗质火山—侵入杂岩的岩浆系统演化及其与大陆地壳成分垂向分异的关系。

关键词: 花岗岩, 火山岩, 构造环境, 壳—幔相互作用, 晶体—熔体分离

Abstract: The granitic volcanic-plutonic complexes in southeastern China constitute a natural laboratory for investigating the
genetic links between volcanic and plutonic rocks, crust-mantle interaction, tectonic geodynamic settings, and crystal-melt separation. Over the past half century, Academician Dezi Wang and Professor Xinmin Zhou led a research team in carrying out systematic studies, through which they proposed the concept of granitic volcanic-plutonic complexes. Using subvolcanic granites as the key link, they examined their genesis and distribution patterns in terms of temporal, space, and source affinities, and established a set of geological and geochemical discriminant criteria. On the basis of integrated studies of petrology, tectonics, sedimentary basins, and geophysics, they proposed a tectono-magmatic model attributing the origin of the granitic volcanicplutonic complexes in southeastern China to the combined effects of oceanic slab subduction, basaltic magma underplating, and partial melting of the middle to lower crust. In terms of detailed magmatic crystallization processes, they identified and revealed a series of key evidences for magma recharge, crystal accumulation, mush rejuvenation, and melt extraction, thereby further elucidating the magmatic evolution of granitic volcanic-plutonic complexes, as well as their relationship to the vertical compositional differentiation of the continental crust. 

Key words: granite, volcanic rocks, tectonic setting, crust-mantle interaction, crystal-melt separation

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