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    中国新疆及其邻区地质矿产对比研究

    Comparative study of the geology and mineral resources in Xinjiang, China, and its adjacent regions

    • 摘要: 提要:笔者初步总结了中亚主要成矿带的基本特征,并探讨了新疆邻区矿带在新疆境内的可能延伸。研究者对新疆邻区成矿带的划分、成矿建造类型和特征的认识不断在变化,因此,笔者强调,在与邻区地质矿产对比时,必须系统了解其研究历史并力求在查明控矿基本要素的基础上进行。此外,在中亚地区,与早古生代陆壳增生相关的成矿作用相当重要,而晚古生代的大规模成矿更多地表现为对已有成矿物质的继承、改造和新成矿物质的叠加,形成了多阶段成矿作用的复合,这些都属于中亚成矿域的特征,也是在对比研究中必须予以充分考虑的。通过分析和对比研究,故认为在中亚成矿域中控制大型、超大型矿床的主要成矿环境可初步概括为以下6种:(1)夹杂于显生宙造山带中的众多前寒武纪地块,在其内部形成了重要的原生铀矿和稀有金属矿床;(2)形成于早古生代陆缘增生带、成矿时代为加里东晚期的科克切塔夫东缘和北准噶尔(境外)的别斯图贝、玛依卡因、捷克利等重要的金、铜多金属矿床;(3)在加里东和前加里东陆壳围限的环巴尔喀什湖地区,具有多个峰期和在空间上相互叠加或有一定迁移规律的成矿作用;(4)境外中天山地块南部存在一条重要的成矿带,代表性的矿种是Au-Cu-Mo-W,该成矿带线性特征明显并与一个活动延续的时间长达70 Ma的巨型水热系统相关;(5)南哈萨克斯坦及其以南地区,中、新生代盆地中的可地浸型铀矿及晚古生代超大型砂岩铜矿等大都形成于碰撞后的陆内环境,其成矿作用还可能与深部来源的成矿物质有关;(6)中亚的重要矿床大都产在有所谓大型“横向构造”与成矿带交叉的部位,造成呈串珠状分布的矿结。

       

      Abstract: Abstract:This paper primarily summarizes the basic characteristics of the major metallogenic belts in Central Asia and discusses the possible extensions of the major metallogenic belts from the adjacent regions of Xinjiang to Xinjiang. With the constantly changing knowledge of the division of metallogenic belts and types and characteristics of metallogenic formations in adjacent regions of Xinjiang, the authors emphasize that in comparing the geology and mineral resources in Xinjiang with those in its adjacent regions it is necessary to gain knowledge of their research histories and seek to make such comparison based on ascertaining basic ore-controlling elements. In addition, in Central Asia mineralization related to Early Paleozoic continental crustal accretion is quite important, while Late Paleozoic large-scale mineralization is more markedly manifested by inheritance and reworking of pre-existing ore-forming material and superimposition of new ore-forming material, thus forming compounding of multi-stage mineralizations. All these belong to the characteristics of the Central Asian metallogenic megaprovince and must be fully considered in the comparative study. Analysis and comparative study in the paper suggest the following six metallogenic environments as the major factors controlling the formation of large and superlarge deposits in the Central Asian metallogenic megaprovince: 1) numerous Precambrian blocks in Phanerozoic orogenic belts, in which important primary uranium deposits and rare metal deposits are formed; 2) Early Paleozoic continental-margin accretionary wedge and late Caledonian eastern Kokchetav and northern Junggar (beyond the territory of China), where there occur important gold and copper polymetallic deposits; 3) the circum-Balkhash Lake region surrounded by Caledonia and pre-Caledonian continental crust, where ore-forming processes show several peaks and superimposition on each other or certain regular migration; 4) an important Au-Cu-Mo-W metallogenic belt in the southern part of the Central Tianshan (beyond the territory of China), which shows distinct linear features and is related to a huge hydrothermal system that was active for ~70 Ma; 5) the post-collisional intracontinental environment in South Kazakhstan and areas south of it, where most U deposits in Meso-Cenozoic basins and Late Paleozoic superlarge sandstone-type copper deposits were formed and their ore-forming materials probably have deep sources; and 6) sites of intersection between the so-called large-scale “transverse structures” and metallogenic belts, where most important deposits in Central Asia occur.

       

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