康磊, 刘生荣, 张海迪, 王国灿, 郭伟立, 罗彦军, 任广利, 吕鹏瑞, 曹凯. 戈壁荒漠浅覆盖区1:5万区域地质填图技术方法探索——以东天山哈密地区为例[J]. 地质通报, 2023, 42(4): 616-630. DOI: 10.12097/j.issn.1671-2552.2023.04.010
    引用本文: 康磊, 刘生荣, 张海迪, 王国灿, 郭伟立, 罗彦军, 任广利, 吕鹏瑞, 曹凯. 戈壁荒漠浅覆盖区1:5万区域地质填图技术方法探索——以东天山哈密地区为例[J]. 地质通报, 2023, 42(4): 616-630. DOI: 10.12097/j.issn.1671-2552.2023.04.010
    KANG Lei, LIU Shengrong, ZHANG Haidi, WANG Guocan, GUO Weili, LUO Yanjun, REN Guangli, LYU Pengrui, CAO Kai. Exploration of 1:50000 geological mapping in Gobi desert shallow covered area: a practice in Hami area of East Tianshan[J]. Geological Bulletin of China, 2023, 42(4): 616-630. DOI: 10.12097/j.issn.1671-2552.2023.04.010
    Citation: KANG Lei, LIU Shengrong, ZHANG Haidi, WANG Guocan, GUO Weili, LUO Yanjun, REN Guangli, LYU Pengrui, CAO Kai. Exploration of 1:50000 geological mapping in Gobi desert shallow covered area: a practice in Hami area of East Tianshan[J]. Geological Bulletin of China, 2023, 42(4): 616-630. DOI: 10.12097/j.issn.1671-2552.2023.04.010

    戈壁荒漠浅覆盖区1:5万区域地质填图技术方法探索——以东天山哈密地区为例

    Exploration of 1:50000 geological mapping in Gobi desert shallow covered area: a practice in Hami area of East Tianshan

    • 摘要: 为了更好地服务生态文明建设和经济社会高质量发展,区域地质填图工作亟需从基岩区向盆山结合带、盆地等覆盖区进行拓展。戈壁荒漠浅覆盖区是研究中国北方中小城市和大城市边缘干旱区找水、隐伏区找矿、盆地基底性质、盆山耦合演化的关键地区,但一直缺乏针对性的区域地质填图技术方法。以东天山哈密地区觉罗塔格山与吐哈盆地结合部位的戈壁荒漠浅覆盖区为例,利用地质、物探、遥感、钻探等多技术手段,采用由“已知”到“未知”的思路,从调查内容、调查方法、技术手段、成果表达等方面,针对不同覆盖层深度、覆盖层结构和地质矿产目标,通过大量方法实验和实践,开展适用性、经济性和分辨率的综合分析,完善优化了地球物理和钻探的技术方法组合。利用GeoModeller软件,实现了戈壁荒漠浅覆盖区三维地质结构的可视化表达,建立了从地表、覆盖层到覆盖区基岩的立体式透明化的区域地质填图技术方法体系,查明了地质填图区域的三维地质结构及其成矿地质背景,满足戈壁荒漠浅覆盖区1:5万区域地质填图的目标,也为东天山大草滩断裂带性质、吐哈盆地基底性质及其中新生代盆地构造环境演化等关键地质问题提供了重要信息。

       

      Abstract: In order to better serve the construction of ecological civilization and high-quality economic and social development, geological mapping is urgently needed to be expanded from the bedrock area to covered area containing the basin-mountain combination zone and basin cover areas.Gobi desert shallow covered area is the key for investigating water, prospecting in hidden areas, and studying basin base properties, basin-mountain tectonic relationships and evolution in the midde-small cities and margin of metropotis of North China.However, there has been lack of systematic geological mapping techniques and methods for Gobi desert shallow covered area.In this paper, taking the Gobi desert shallow cover area in the joint part of Jueluotage Mountain and Turpan-Hami Basin in Hami area of East Tianshan Mountains as an example, using multiple technical methods such as geology, geophysics, remote sensing and drilling, and adopting the idea from "known" to "unknown", the geological mapping technology method which consist of the content, method, technical means of geological survey and achievement expression is systematically summarized.In particular, on the basic of experiment and practice, for different cover depth, different cover structure and different geological and mineral targets, the combination of geophysical and drilling technology were summed up on the main evaluation indicators of applicability, economy and resolution.Moreover, by GeoModeller software, the technical method of 3D geological structure modeling was explored in Gobi desert cover.Through the above work, a three-dimensional and transparent geological survey technology and method system has been established from the surface, the overburden and the bedrock, and the geological structure and its metallogenic geological background have been identified, which fully meet the expected goal of 1:50000 regional geological mapping in Gobi desert shallow covered area.At the same time, it provides important information for the nature of the Dacaotan fault zone, the structural evolution of the Turpan-Hami Basin, and the basement nature of the Turpan-Hami Basin.

       

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