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Gold Science and Technology >

2024 , Vol. 32 >Issue 6: 949 - 964

DOI: https://doi.org/10.11872/j.issn.1005-2518.2024.06.155

Study of Deep Morphology of Linglong Complex Rock Mass and Its Geological Significance Based on Gravity-Magnetic Joint Inversion and 3D Visualization Technology

  • Chunyan HE , 1, 2, 3 ,
  • Runsheng WANG 1, 2, 3 ,
  • Yintao WEI 1, 2, 3 ,
  • Mingchun SONG 3, 4 ,
  • Hongbo LIU 1, 2, 3 ,
  • Chencheng LIU 1, 2, 3 ,
  • Ran WANG 1 ,
  • Guoqiang GUO 1, 2, 3 ,
  • Zhentao LI 1, 3 ,
  • Na LI 1
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  • 1. Shandong Institute of Geophysical and Geochemical Exploration,Jinan 250013,Shandong,China
  • 2. Shandong Engineering Research Center of Underground Resources and Environment High Precision Detection,Jinan 250013,Shandong,China
  • 3. Shandong Provincial Engineering Research Center for Geological Prospecting,Jinan 250013,Shandong,China
  • 4. Hebei GEO University,Shijiazhuang 050031,Hebei,China

Received date: 2024-05-30

  Revised date: 2024-07-19

  Online published: 2024-12-20

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Abstract

The Linglong complex rock mass,a prominent large granite body located in the northwest of Jiaodong,serves as the principal ore-hosting rock within the Jiaodong gold concentration area.Notably,gold deposits associated with granite as the primary wall rock constitute over 90% of the total metal reserves in this region.This complex primarily comprises the Late Jurassic Linglong intrusive rock,along with the Early Cretaceous Guojialing,Weideshan,Laoshan,and Yushan intrusive rocks,among others.The Linglong complex rock mass,a significant intrusive rock formation in eastern China,is crucial for understanding regional geological structures and informing mineral resource development.Utilizing high-precision gravity and magnetic data at a 1∶50 000 scale from the Jiaodong area,collected since the early 21st Century,and constrained by existing geological,drilling,and deep geophysical survey profiles,the 2D geological characteristics of 47 sections in the northwest of Jiaodong were comprehensively interpreted by using the gravity and magnetic inversion method with man-machine interaction.Based on this foundation,a three-dimensional model of the Linglong composite rock mass has been developed utilizing a 3D visualization platform.Comprehensive ana-lysis reveals that the Linglong composite rock mass exhibits an irregular mushroom cloud-like morphology,with a central thickness measuring approximately 15 kilometers.The predominant component of this complex is the Late Jurassic Linglong intrusive rocks,while the core may contain a substantial Cretaceous A-type granite intrusion.Although these formations appear sporadically on the Earth’s surface,they are interconnected at depth and exhibit a significant scale of occurrence.Drawing upon findings from prior studies concerning the erosion degree of intrusive rocks,as well as the age and rate of large-scale crustal uplift,it is inferred that the Linglong complex rock mass was situated at a depth of approximately 30 km to 35 km during the Late Jurassic period.This research holds significant reference value for comprehending the post-mineralization alteration and preservation of the Jiaodong gold deposit,as well as for predicting and assessing deep gold resources.

Key words: Jiaodong gold mine; Linglong complex rock mass; gravity-magnetic joint inversion; 3D visua-lization; erosion depth

Cite this article

Chunyan HE , Runsheng WANG , Yintao WEI , Mingchun SONG , Hongbo LIU , Chencheng LIU , Ran WANG , Guoqiang GUO , Zhentao LI , Na LI . Study of Deep Morphology of Linglong Complex Rock Mass and Its Geological Significance Based on Gravity-Magnetic Joint Inversion and 3D Visualization Technology[J]. Gold Science and Technology, 2024 , 32(6) : 949 -964 . DOI: 10.11872/j.issn.1005-2518.2024.06.155

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http://www.goldsci.ac.cn/article/2024/1005-2518/1005-2518-2024-32-6-949.shtml

References

Publishing order | Descend order by publishing year | Descend order by cited within
Chen Dalei Wang Runsheng He Chunyan,et al,2022.Application of integrated geophysical exploration in deep spatial structures:A case study of Jiaodong gold ore concentration area[J].Geophysical and Geochemical Exploration46(1):70-77.

Chen Jianping Li Jing Xie Shuai,et al,2017.China geological big data research status[J].Journal of Geology41(3):353-366.

Chen Jianping Yu Miao Yu Pingping,et al,2014.Method and practice of 3D geological modeling at key metallogenic belt with large and medium scale[J].Acta Geologica Sinica88(6):1187-1195.

Chen Lei Liu Hongbo Dong Jian,et al,2023.Application and Research of Geophysics Exploration Technology in Jiaodong[M].Beijing:China Science Publishing and Media Ltd.

Chen Yunhuan Tan Zhong Ding Mengsan,et al,1992.Regional petrophysical property investigation in Jiaodong area,Shandong Province[R].Jinan:Geophysical and Geochemical Exploration Institute of Shandong Province.

Dou Jingzhao2016.Formation and Exhumation of Mesozoic Granitoids Responding to Lithospheric Destruction in Western Jiaodong Peninsula,North China Craton[D].Beijing:China University of Geosciences(Beijing).

He Chunyan Yao Zheng Chen Dalei,et al,2021.3D geological modeling and deep exploration demonstration of geophysics in Jiaodong mine concentration area[R].Jinan:Shandong Provincial Bureau of Geology& Mineral Resources.

He Chunyan Yao Zheng Guo Guoqiang,et al,2022.Deep structural features of the Jiaobei terrane of Jiaodong and the North Sulu orogenic belt:The inspiration from deep exploration of the geophysics[J].Progress in Geophysics37(4):1392-1404.

Lan Xueyi Du Jianguo Yan Jiayong,et al,2015.3D gravity and magnetic interactive inversion modeling based on prior information:A case study of the Tongling ore concentration area[J].Chinese Journal of Geophysics58(12):4436-4449.

Li Hongkui Li Yifan Liang Taitao,et al,2017.The concept and characteristics of Jiaodong type gold deposits,Shandong Province[J].Gold Science and Technology25(1):1-8.

Li Hongkui Shi Wenge Li Yifan,et al,2013.Study on gold mineralization ages in Jiaodong area,Shandong Province[J].Gold Science and Technology21(3):1-9.

Ma Wei Li Shibin Xu Xinxue,et al,2014.Application of gravity-magnetic-resistivity joint inversion on the research of the bedrock geological structure in Tianjin area[J].Geological Survey and Research37(3):212-216.

Niu Rubao1995.Using remnent gravity auormalies to study the geomorphic forms of Linglong main granite body[J].Shandong Geology,(2):63-67.

Pan Suzhen Wang Fuyun Zheng Yanpeng,et al,2015.Crustal velocity structure beneath Jiaodong Peninsula and its tectonic implications[J].Chinese Journal of Geophysics58(9):3251-3263.

Qi Guang Qingtian Yan Jiayong,et al,2012.Geologic constrained 3D gravity and magnetic modeling of Nihe deposit —A case study[J].Chinese Journal of Geophysics55(12):4194-4206.

Qi Guang Qingtian Yan Jiayong,et al,2014.3D geological modeling of Luzong ore district:Based on priori information constrained[J].Acta Geologica Sinica88(4):466-477.

Shan Wei Yu Xuefeng Li Hongkui,et al,2018.The deep structural characteristics under the middle of Zhaoping Fault Zone—Evidences coming from seismic section survey[J].Shandong Land and Resources34(5):49-58.

Song Mingchun Song Yingxin Ding Zhengjiang,et al,2018.Jiaodong gold deposits:Essential characteristics and major controversy[J].Gold Science and Technology26(4):406-422.

Wang Hongjun Xiong Yuxin2020.The application of wide field electromagnetic method to deep exploration in Jiaoxibei (northwest Shandong) gold concentration area[J].Geophysical and Geochemical Exploration44(5):1039-1047.

Wang Jianping Liu Jun Liu Jiajun,et al,2009.The denudation degree of Linglong granitic complex in northwestern Jiaodong is estimated by using biotite all-aluminum pressure gauge[J].Acta Mineralogica Sinica29(Supp.1):481-482.

Wang Shijin Wang Laiming Wan Yusheng,et al,2009.Study on intrusive rocks forming period and stages division in Ludong area[J].Shandong Land and Resources25(12):8-20,25.

Yang L Q Dilek Y D Wang Z L,et al,2017.Late Jurassic,high Ba-Sr Linglong granites in the Jiaodong Peninsula,East China:Lower crustal melting products in the eastern North China Craton[J].Geological Magazine154(2):1-23.

Yi Fei Ma Lixin Gao Lianyu,et al,2024.Gravity magnetic field characteristics and geological interpretation in Jiao-dong area[J].Shandong Land and Resources40(1):9-17.

Yu Xiaowei Wang Laiming Liu Handong,et al,2023.The relationship between Mesozoic granite,gold deposits and the division of metallogenic period in eastern Shandong[J].Acta Geologica Sinica97(6):1848-1873.

Yu Xuefeng Tian Jingxiang Li Dapeng,et al,2023.Study on gold mineralization mechanism based on transcrust strike-slip fault structural system in Jiaoxi gold concentrating area—Evidence from deep reflection seismic exploration[J].Shandong Land and Resources39(11):1-9.

Zeng Hualin Wan Tianfeng Teyssier C,et al,1999.Gravity simulation of 3D geometry of Linglong granitic complex in Shandong Province[J].Earth Science24(6):607-612.

Zhang Huafeng Li Shengrong Zhai Mingguo,et al,2006.Crust uplift and its implications in the Jiaodong Peninsula,eastern China[J].Acta Petrologica Sinica22(2):285-295.

Zhang K Q T Yan J Y,et al,2018.Crustal structure beneath the Jiaodong Peninsula,North China,revealed with a 3D inversion model of magnetotelluric data[J].Journal of Geophysics and Engineering415(6):2442-245.

陈大磊,王润生,贺春艳,等,2022.综合地球物理探测在深部空间结构中的应用——以胶东金矿集区为例[J].物探与化探46(1):70-77.

陈建平,李靖,谢帅,等,2017.中国地质大数据研究现状[J].地质学刊41(3):353-366.

陈建平,于淼,于萍萍,等,2014.重点成矿带大中比例尺三维地质建模方法与实践[J].地质学报88(6):1187-1195.

陈磊,刘洪波,董健,等,2023.胶东地球物理勘探技术应用与研究[M].北京:科学出版社.

陈运环,谭忠,丁孟三,等,1992.山东省胶东地区区域岩石物性调查成果报告[R].济南:山东省物化探勘查院.

豆敬兆,2016.胶西北中生代花岗岩的形成与隆升剥蚀对华北克拉通岩石圈减薄的响应[D].北京:中国地质大学(北京).

贺春艳,姚铮,陈大磊,等,2021.胶东矿集区地球物理三维地质建模及深部探测示范[R].济南:山东省地质矿产勘查开发局.

贺春艳,姚铮,郭国强,等,2022.胶东胶北地体与北苏鲁造山带深部结构特征——来自地球物理深部探测的启示[J].地球物理学进展37(4):1392-1404.

兰学毅,杜建国,严加永,等,2015.基于先验信息约束的重磁三维交互反演建模技术——以铜陵矿集区为例[J].地球物理学报58(12):4436-4449.

李洪奎,李逸凡,梁太涛,等,2017.山东胶东型金矿的概念及其特征[J].黄金科学技术25(1):1-8.

李洪奎,时文革,李逸凡,等,2013.山东胶东地区金矿成矿时代研究[J].黄金科学技术21(3):1-9.

马为,李世斌,徐新学,等,2014.重磁电联合反演方法在天津基岩构造研究中的应用[J].地质调查与研究37(3):212-216.

牛如宝,1995.用剩余重力异常对玲珑大岩体几何形体的研究[J].山东地质,(2):63-67.

潘素珍,王夫运,郑彦鹏,等,2015.胶东半岛地壳速度结构及其构造意义[J].地球物理学报58(9):3251-3263.

祁光,吕庆田,严加永,等,2012.先验地质信息约束下的三维重磁反演建模研究——以安徽泥河铁矿为例[J].地球物理学报55(12):4194-4206.

祁光,吕庆田,严加永,等,2014.基于先验信息约束的三维地质建模:以庐枞矿集区为例[J].地质学报88(4):466-477.

单伟,于学峰,李洪奎,等,2018.招平断裂带中段深部结构构造——来自地震剖面的证据[J].山东国土资源34(5):49-58.

宋明春,宋英昕,丁正江,等,2018.胶东金矿床:基本特征和主要争议[J].黄金科学技术26(4):406-422.

王洪军,熊玉新,2020.广域电磁法在胶西北金矿集中区深部探测中的应用研究[J].物探与化探44(5):1039-1047.

王建平,刘俊,刘家军,等,2009.黑云母全铝压力计估算胶东西北部玲珑花岗质杂岩剥蚀程度[J].矿物学报29(增1):481-482.

王世进,王来明,万渝生,等,2009.鲁东地区侵入岩形成时代和期次划分——锆石SHRIMP U-Pb年龄的证据 [J].山东国土资源25(12):8-20,25.

伊飞,马丽新,高莲玉,等,2024.胶东地区重磁场特征及地质解释[J].山东国土资源40(1):9-17.

于晓卫,王来明,刘汉栋,等,2023.胶东中生代花岗岩与金矿关系及成矿期划分[J].地质学报97(6):1848-1873.

于学峰,田京祥,李大鹏,等,2023.胶西北金矿集区基于超壳走滑断裂构造体系的金成矿机制探讨——来自深反射地震探测的证据[J].山东国土资源39(11):1-9.

曾华霖,万天丰, Teyssier C,等,1999.山东玲珑花岗质杂岩体三维形态的重力模拟[J].地球科学24(6):607-612.

张华锋,李胜荣,翟明国,等,2006.胶东半岛早白垩世地壳隆升剥蚀及其动力学意义[J].岩石学报22(2):285-295.

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