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构造体制转换与流体多层循环成矿动力学
引用本文:邓军 杨立强. 构造体制转换与流体多层循环成矿动力学[J]. 地球科学, 2000, 25(4): 397-403
作者姓名:邓军 杨立强
作者单位:1.中国地质大学地球科学与资源学院,北京 100083
基金项目:国家重点基础研究发展规划项目!(No .G19990 43 2 0 6),国土资源部“百名跨世纪科技人才培养计划”基金!(No .980 8),国家攀登计
摘    要:基于成矿系统动力学研究进展的综合分析, 认为构造体制转换与流体多层循环成矿动力学研究是地球科学跨世纪的重要前沿领域之一, 进而提出这一领域的研究主题和关键问题、研究思路及方法, 阐释其重要意义, 指出构造体制转换与流体多层循环成矿动力学研究以构造演化、流体活动及区域地球化学和地球物理不均一性为基础, 通过变形-流动高温高压实验及计算机数值模拟再现成矿作用过程和机理, 解析构造体制转换与流体多层循环成矿动力学特征, 揭示成矿界面时-空演化规律, 建立成矿系统物质和能量交换-反馈耦合成矿的定量模型.这是深化矿床成因认识的重要基础和实现科学找矿的有效途径, 对地球系统科学和大陆动力学的研究也具有重要意义. 

关 键 词:构造体制转换   流体多层循环   界面演化   成矿动力学
文章编号:1000-2383(2000)04-0397-07
收稿时间:2000-03-26

ORE-FORMING DYNAMICS OF TECTONIC REGIME TRANSFORMATION AND MULTI-LAYER FLUID CIRCULATION
Deng Jun Yang Liqiang Sun Zhongshi Peng Runmin Chen Xueming Du Zitu. ORE-FORMING DYNAMICS OF TECTONIC REGIME TRANSFORMATION AND MULTI-LAYER FLUID CIRCULATION[J]. Earth Science-Journal of China University of Geosciences, 2000, 25(4): 397-403
Authors:Deng Jun Yang Liqiang Sun Zhongshi Peng Runmin Chen Xueming Du Zitu
Affiliation:Deng Jun(Faculty of Earth Sciences and Mineral Resources, China University of Geosciences, Beijing 100083, China)Yang Liqiang(Institute of Geology and Geophysics, Chinese Academy of Sciences, Beijing 100101, China)Sun Zhongshi(Changchun University of Sciences and Technology, Changchun 130061, China)Peng Runmin,Chen Xueming,Du Zitu(Faculty of Earth Sciences and Mineral Resources, China University of Geosciences, Beijing 100083, China)
Abstract:The comprehensive analysis of advances in the research into the ore forming dynamics concludes in this paper that the research into the ore forming dynamics of the tectonic regime transformation and multi layer circulation is on the cutting edge of the earth sciences in the 21st century. Then the paper presents the theme, key issues, methodology, and important significance of this research. In addition, this paper also proposes that the research into the ore forming dynamics of the tectonic regime transformation and the multi layer fluid circulation centers around the heterogeneities in the structural evolution, fluid activity, regional geochemistry and geophysics. The experiments on the deformation fluid high temperature and high pressure, the method for numerical simulation to reappear the ore forming process and mechanism, to analyze the ore forming dynamics of the tectonic regime transformation and multi layer fluid circulation, to reveal tempo spatial evolutionary patterns of the ore forming interfaces, and finally to construct the quantitative model of the exchange between material and energy feedback coupling mineralization in the mineralization system. This research, an important basis of the deeper understanding of the mineralization origin, and an effective approach to the scientific mineral prospecting, is of great significance to the research into the earth system science and continental dynamics.
Keywords:tectonic regime transformation  multi layer fluid circulation  evolution of ore forming interface  mineralization dynamics.
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