留言板

尊敬的读者、作者、审稿人, 关于本刊的投稿、审稿、编辑和出版的任何问题, 您可以本页添加留言。我们将尽快给您答复。谢谢您的支持!

姓名
邮箱
手机号码
标题
留言内容
验证码

EH4在深部隐伏岩(矿)体探测中的应用−以东炉房铜钼多金属矿为例

李忠 张小兵 汪金明 肖高强 张有荣 段召艳

李忠,张小兵,汪金明,等,2023. EH4在深部隐伏岩(矿)体探测中的应用:以东炉房铜钼多金属矿为例[J]. 地质力学学报,29(1):48−59 doi: 10.12090/j.issn.1006-6616.2022037
引用本文: 李忠,张小兵,汪金明,等,2023. EH4在深部隐伏岩(矿)体探测中的应用:以东炉房铜钼多金属矿为例[J]. 地质力学学报,29(1):48−59 doi: 10.12090/j.issn.1006-6616.2022037
LI Z,ZHANG X B,WANG J M,et al.,2023. Application of EH4 in deep concealed rock (ore) body detection: A case study of the Donglufang copper-molybdenum polymetallic deposit, Shangri-la, China[J]. Journal of Geomechanics,29(1):48−59 doi: 10.12090/j.issn.1006-6616.2022037
Citation: LI Z,ZHANG X B,WANG J M,et al.,2023. Application of EH4 in deep concealed rock (ore) body detection: A case study of the Donglufang copper-molybdenum polymetallic deposit, Shangri-la, China[J]. Journal of Geomechanics,29(1):48−59 doi: 10.12090/j.issn.1006-6616.2022037

EH4在深部隐伏岩(矿)体探测中的应用−以东炉房铜钼多金属矿为例

doi: 10.12090/j.issn.1006-6616.2022037
基金项目: 中国地质调查局地调项目(DD20160016-14)
详细信息
    作者简介:

    李忠(1982—),男,硕士,高级工程师,从事地球物理与地球化学研究工作。E-mail: 278618901@qq.com

    通讯作者:

    肖高强(1983—),男,硕士,高级工程师,从事地球物理与地球化学研究工作。E-mail: 13057980@qq.com

  • 中图分类号: P319.3+2

Application of EH4 in deep concealed rock (ore) body detection: A case study of the Donglufang copper-molybdenum polymetallic deposit, Shangri-la, China

Funds: This research is financially supported by the Geological Survey Program of the China Geological Survey (Grant DD20160016-14).
  • 摘要: 采用音频大地电磁测深(EH4)对东炉房铜钼多金属矿区深部地质构造进行探测分析,有效确定了矿区地下的空间电性和结构特征。通过构建音频大地电磁法(EH4)找矿标志,总结了EH4剖面视电阻率异常特征与矿体关系:浅部呈脉状或柱状低阻体对应中低温热液型金、铅、锌多金属矿体,呈柱状中阻体或中低阻体对应矽卡岩型或斑岩型铜钼多金属矿体,中阻体对应中酸性岩浆岩(玢岩、斑岩)。圈定了矿区深部隐伏矿体11处,其中5处与钻孔吻合,其余6处找矿前景良好;进一步推断在深部岩体中形成规模较大的斑岩型铜钼矿。研究表明音频大地电磁测深法针对东炉房铜钼多金属矿或者该类型矿床寻找隐伏岩(矿)体是有效的地球物理方法。

     

  • 图  1  东炉房铜钼多金属矿区地质图

    a—矿区位置图;b—矿区地质图

    Figure  1.  Geological map of the Donglufang copper–molybdenum polymetallic mining area

    (a) Location sketch map of the mining area; (b) Geological map of the mining area

    图  2  围岩与矿石、矿化岩石电阻率箱线图

    a—大理岩;b—灰岩;c—冰碛砂砾;d—石英闪长玢岩/石英二长斑岩;e—黄铜矿化矽卡岩;f—铅锌矿;g—含金褐铁矿、赤铁矿;n—样品数

    Figure  2.  Boxplot of resistivity of surrounding rock, ore, and mineralized rock

    a–marble; b–limestone; c–moraine grit; d–quartz diorite porphyrite/beschtauite; e–chalcopyrite skarn; f–lead–zinc ore; g–gold-bearing limonite and hematite; n–number of samples

    图  3  EH4 资料处理流程图(Li et al., 2021)

    Figure  3.  Flow chart of the EH4 data processing (Li et al., 2021)

    图  4  视电阻率曲线图

    Figure  4.  Graphs of apparent resistivity

    图  5  7线视电阻率及相位−频率测深拟断面图

    a—视电阻率−频率测深拟断面图;b—相位−频率测深拟断面图

    Figure  5.  Pseudo-section maps of the apparent resistivity–frequency and phase–frequency soundings of Line 7

    (a) Pseudo-section map of the apparent resistivity–frequency sounding ; (b) Pseudo-section map of the phase–frequency sounding

    图  6  15线视电阻率及相位−频率测深拟断面图

    a—视电阻率−频率测深拟断面图;b—相位−频率测深拟断面图

    Figure  6.  Pseudo-section maps of the apparent resistivity–frequency and phase–frequency soundings of Line 15

    (a) Pseudo-section map of the apparent resistivity–frequency sounding ; (b) Pseudo-section map of the phase–frequency sounding

    图  7  东炉房铜钼多金属矿床成矿多样性模式图(据段召艳等,2021修改)

    Figure  7.  Metallogenic diversity pattern of the Donglufang copper–molybdenum polymetallic deposit(modified from Duan et al.,2021

    图  8  7线物探综合剖面图

    a—EH4剖面反演结果图;b—地质及物探推断断面图

    Figure  8.  Comprehensive geophysical profile of Line 7

    (a) Profile inversion results by the EH4 method; (b) Sectional map inferred by the geological and geophysical explorations

    图  9  15线物探综合剖面图

    a—EH4剖面反演结果图; b—地质及物探推断断面图

    Figure  9.  Comprehensive geophysical profile of Line 15

    (a) Profile inversion results by the EH4 method; (b) Sectional map inferred by the geological and geophysical explorations

  • CAO D H, WANG A J, LI W C, et al. , 2009. Magma mixing in the Pulangporphyry copper deposit: evidence from petrology and element geochemistry[J]. ActaGeologicaSinica, 83(2): 166-175. (in Chinese with English abstract)
    DU R G, HU B, 2006. Application of continuous imaging system of EH4 conductance in geological exploration in Yinchangpo[J]. Mineral Resources and Geology, 20(4-5): 534-537. (in Chinese with English abstract)
    DUAN Z Y, DONG T, DU B, et al. , 2021. Characteristics of porphyry-hydrothermal mineralization and prospecting prediction of the Donglufang Cu-Mo deposit in the Shangri-La area, northwestern Yunnan Province[J]. Geology and Exploration, 57(4): 837-851. (in Chinese with English abstract)
    HUANG Y Y, XIN T L, CHEN Q, et al. , 2017. Test effect of the EH-4 low frequency models for shale gas geological survey at the Chuxiong Basin, Yunnan[J]. Journal of Yunnan University (Natural Sciences Edition), 39(S2): 30-38. (in Chinese with English abstract)
    JIA R, WANG H R, WANG G W, et al. , 2021. Three-dimensional geological modeling and deep prospectivity of the Xigou Pb-Zn-Ag-Au deposit, Henan Province[J]. Earth Science Frontiers, 28(3): 156-169. (in Chinese with English abstract)
    JIANG X, HUANG X X, 2011. Application of EH4 system for prospecting concealed ore deposit in the overburden area[J]. Mineral Exploration, 2(6): 784-788. (in Chinese with English abstract)
    LENG C B, ZHANG X C, WANG S X, et al. , 2007. Geochemical characteristics of porphyry copper deposits in the Zhongdian area, Yunnan as exemplified by the Xuejiping and Pulang porphyry copper deposits[J]. ActaMineralogicaSinica, 27(3-4): 414-422. (in Chinese with English abstract)
    LI T C, FANG W X, WANG L, et al. , 2022. Application of integrated geophysical method in prospecting: a case study of the magnetite-type IOCG deposits in the Moon Mountain exploration area, Copiapo, Chile[J]. JournalofGeomechanics, 28(1): 22-35. (in Chinese with English abstract)
    LI W C, ZENG P S, 2007. Characteristics and metallogenic model of the Pulangsuperlargeporphyry copper deposit in Yunnan, China[J]. Journal of Chengdu University of Technology (Science&Technology Edition), 34(4): 436-446. (in Chinese with English abstract)
    LI W C, ZENG P S, HOU Z Q, et al. , 2011. The Pulang porphyry copper deposit and associated felsic intrusions in Yunnan province, southwest China[J]. Economic Geology, 106(1): 79-92. doi: 10.2113/econgeo.106.1.79
    LI Y B, LI Y, ZHANG Z B, et al. , 2019. The application effect of EH-4 under different geological backgrounds[J]. Geophysical and Geochemical Exploration, 43(3): 529-535. (in Chinese with English abstract)
    LI Y L, XING L J, BAI Z H, et al. , 2018. The application of comprehensive geophysical prospecting method to the exploration of the Yuejinshan iron deposit in Qinghai[J]. Geophysical and Geochemical Exploration, 42(5): 889-895. (in Chinese with English abstract)
    LI Z, XIAO G Q, XU J, 2017. EH-4 conductivity imaging and geochemical comprehensive method in Fangyang hill of Zhenkang exploration the application of lead and zinc iron mining area[J]. Journal of Yunnan University (Natural Sciences Edition), 39(S2): 105-109. (in Chinese with English abstract)
    LI Z, WU Z H, WANG J M, et al. , 2021. Using EH4 audio-magnetotelluric sounder to detect the gigantic Qiaojiapaleo-landslide and its structural characteristics[J]. Journal of Geomechanics, 27(2): 317-325. (in Chinese with English abstract)
    LIU G D, 2007. The new progress of electrognetic method and instruments[M]. Beijing: Earthquake Press. (in Chinese)
    LIU J X, JIANG L X, YAN J B, et al. , 2008. Application of EH4 electromagnetic image system in survey of tunnels engineering for expressways[J]. Chinese Journal of Engineering Geophysics, 5(6): 652-656. (in Chinese with English abstract)
    OUYANG N, 2009. Analysis of anomalies of No 2, 3, 4 low resistance on EH-4 high frequency magnetotelluric depth in deep prospecting in Tongshankou ore district[J]. Resources Environment&Engineering, 23(4): 500-503. (in Chinese with English abstract)
    SHEN P, SHEN Y C, LIU T B, et al. , 2007. Application of stratagem EH4 system to prediction of hidden ore bodies[J]. Mineral Deposits, 26(1): 70-78. (in Chinese with English abstract)
    SHEN X Q, YANG B N, HE S, et al. , 2021. Application of audio magnetotelluric method in prospecting for deep hidden manganese ore: a case study in the Pujue manganese mine in Songtao, Guizhou, China[J]. Journal of Geomechanics, 27(6): 987-997. (in Chinese with English abstract)
    TAN H Y, LV J C, LIU G X, et al. , 2011. Application of the audio-frequency magnetotelluric method to search for concealed ore bodies in southeastern Hubei province[J]. Geology and Exploration, 47(6): 1133-1141. (in Chinese with English abstract)
    WANG B, CHEN X Q, FAN Z J, et al. , 2014. Application of EH4 continuousconductivity meter to the study of ore-controlling structures in the Jinlongshan gold deposit of Zhen’an country, Shaanxi Province[J]. Geology and Exploration, 50(3): 564-571. (in Chinese with English abstract)
    WANG S X, ZHANG X C, LENG C B, et al. , 2008. Stable isotopic compositions of the Hongshanskarn copper deposit in the Zhongdian area and its implication for the copper mineralization process[J]. ActaPetrologicaSinica, 24(3): 480-488. (in Chinese with English abstract)
    WANG Z, 2013. Soil geochemical characteristics and prospecting direction of copper polymetallic mine area in Laba-Donglufang, Zhongdian[D]. Kunming: Kunming University of Science and Technology. (in Chinese)
    WU J J, YANG L M, DUAN Z Y, 2015. The characteristics and prospecting criteriaof Donglufang Cu-Mo deposit, Xianggelila[J]. Yunnan Geology, 34(3): 209-214. (in Chinese with English abstract)
    XIAO Z Y, HUANG Q T, ZHANG S J, et al. , 2011. Application of EH4 electromagnetic image systemin mineral resource exploration: an example from the Huangjindong gold ore deposit[J]. GeotectonicaetMetallogenia, 35(2): 242-248. (in Chinese with English abstract)
    XU X W, CAI X P, QU W J, et al. , 2006. Later cretaceous granitic porphyritic Cu-Mo mineralization system in theHongshan area, Northwestern Yunnan and its significances for tectonics[J]. ActaGeologicaSinica, 80(9): 1422-1433. (in Chinese with English abstract)
    XUE J L, PANG Z S, CHENG Z Z, et al. , 2020. Basic problems and methods of deep mineral exploration[J]. Geological Bulletin of China, 39(8): 1125-1136. (in Chinese with English abstract)
    YANG L Q, DENG J, GAO X, et al. , 2017. Timing of formation and origin of the Tongchanggouporphyry-skarn deposit: implications for Late Cretaceous Mo-Cu metallogenesisinthe southern YidunTerrane, SE Tibetan Plateau[J]. Ore Geology Reviews, 81: 1015-1032. doi: 10.1016/j.oregeorev.2016.03.015
    YAO D W, ZHU W, WANG D Y, et al. , 2015. The effect of applying audio-frequency magnetotelluric method to the deep geological exploration: a case study of Wushan periphery in the Jiurui ore concentration area[J]. Geophysical and Geochemical Exploration, 39(1): 100-103. (in Chinese with English abstract)
    YU H J, LI W C, YIN G H, et al. , 2014. Zircon U-Pb Ages of the Granodioritic Porphyry in the Laba Molybdenum Deposit, Yunnan, SW China and its geological implication[J]. ActaGeologicaSinica(English Edition), 88(4): 1183-1194.
    YU H J, 2018. Compositemetallogenic system and exploration research of the Geza porphyry Belt, SW China[D]. Wuhan: China University of Geosciences. (in Chinese with English abstract)
    ZENG P S, WANG H P, MO X X, et al. , 2004. Tectonic setting and prospects of porphyry copper deposits in Zhongdian Island Arc Belt[J]. ActaGeoscienticaSinica, 25(5): 535-540. (in Chinese with English abstract)
    ZHANG J C, WANG T, 2015. Application of EH4 conductivity imaging system in exploration of deep buried landslide deformation[J]. Geotechnical Investigation& Surveying, 43(2): 94-98. (in Chinese with English abstract)
    ZHANG X B, XIAO G Q, ZHANG Y R, et al. , 2017. Geophysical-geochemical characteristics and prospecting potential analysis of Donglufang Cu polymetallic deposit in Shangri-la, Yunnan province[J]. Journal of Yunnan University (Natural Sciences Edition), 39(S2): 23-29. (in Chinese with English abstract)
    ZHAO J, XIANG L Z, LI Z, et al. , 2017. Application of integrated geophysical prospecting in the hydrogeology investigation and it’s applicability analysis[J]. Journal of Yunnan University (Natural Sciences Edition), 39(S2): 110-115. (in Chinese with English abstract)
    曹殿华, 王安建, 李文昌, 等, 2009. 普朗斑岩铜矿岩浆混合作用: 岩石学及元素地球化学证据[J]. 地质学报, 83(2): 166-175.
    杜荣光, 胡斌, 2006. EH4电导率连续成像系统在银厂坡地质勘查中的应用[J]. 矿产与地质, 20(4-5): 534-537.
    段召艳, 董涛, 杜斌, 等, 2021. 滇西北香格里拉东炉房铜钼矿床斑岩-热液成矿特征及找矿预测[J]. 地质与勘探, 57(4): 837-851.
    黄元有, 信太岭, 陈强, 等, 2017. EH-4低频模式在楚雄盆地页岩气地质调查中的试验效果[J]. 云南大学学报(自然科学版), 39(S2): 30-38.
    贾然, 王浩然, 王功文, 等, 2021. 河南栾川西沟铅锌银金矿床三维地质建模与深部找矿预测评价[J]. 地学前缘, 28(3): 156-169.
    蒋鑫, 黄小喜, 2011. EH4在覆盖区寻找隐伏矿床中的应用[J]. 矿产勘查, 2(6): 784-788.
    冷成彪, 张兴春, 王守旭, 等, 2007. 云南中甸地区两个斑岩铜矿容矿斑岩的地球化学特征: 以雪鸡坪和普朗斑岩铜矿床为例[J]. 矿物学报, 27(3-4): 414-422.
    李天成, 方维萱, 王磊, 等, 2022. 综合地球物理方法找矿应用: 以智利科皮亚波地区月亮山磁铁矿型IOCG矿床为例[J]. 地质力学学报, 28(1): 22-35. doi: 10.12090/j.issn.1006-6616.20222802
    李文昌, 曾普胜, 2007. 云南普朗超大型斑岩铜矿特征及成矿模型[J]. 成都理工大学学报(自然科学版), 34(4): 436-446.
    李英宾, 李毅, 张占彬, 等, 2019. 不同地质背景下EH-4的应用效果[J]. 物探与化探, 43(3): 529-535.
    李玉录, 邢利娟, 拜占红, 等, 2018. 综合物探方法在青海省跃进山铁矿勘查中的应用[J]. 物探与化探, 42(5): 889-895.
    李忠, 肖高强, 许晶, 2017. EH-4电导率成像技术和化探综合方法在镇康放羊山铅锌铁矿区勘查中的应用[J]. 云南大学学报(自然科学版), 39(S2): 105-109.
    李忠, 吴中海, 汪金明, 等, 2021. 利用EH4音频大地电磁测深仪探测巧家巨型古滑坡及其结构面特征[J]. 地质力学学报, 27(2): 317-325. doi: 10.12090/j.issn.1006-6616.2021.27.02.029
    刘国栋, 2007. 电磁法和电磁法仪器新进展[M]. 北京: 地震出版社.
    柳建新, 蒋玲霞, 严家斌, 等, 2008. EH4电磁成像系统在高速公路隧道工程勘察中的应用[J]. 工程地球物理学报, 5(6): 652-656.
    欧阳南, 2009. 铜山口矿区深部找矿EH-4高频大地电磁测深低阻2、3、4异常解析[J]. 资源环境与工程, 23(4): 500-503.
    申萍, 沈远超, 刘铁兵, 等, 2007. EH4连续电导率成像仪在隐伏矿体定位预测中的应用研究[J]. 矿床地质, 26(1): 70-78.
    沈小庆, 杨炳南, 何帅, 等, 2021. 音频大地电磁法在深部隐伏锰矿找矿中的应用: 以贵州松桃普觉锰矿为例[J]. 地质力学学报, 27(6): 987-997.
    谭红艳, 吕骏超, 刘桂香, 等, 2011. EH4音频大地电磁测深方法在鄂东南地区寻找隐伏矿体的应用[J]. 地质与勘探, 47(6): 1133-1141.
    王斌, 陈孝强, 樊战军, 等, 2014. EH4连续电导率仪在陕西省镇安县金龙山矿区控矿构造研究中的应用[J]. 地质与勘探, 50(3): 564-571.
    王守旭, 张兴春, 冷成彪, 等, 2008. 中甸红山矽卡岩铜矿稳定同位素特征及其对成矿过程的指示[J]. 岩石学报, 24(3): 480-488.
    王紫, 2013. 中甸拉巴—东炉房矿区土壤地球化学特征与找矿方向[D]. 昆明: 昆明理工大学.
    伍建兢, 杨丽梅, 段召艳, 2015. 香格里拉县东炉房铜钼矿特征及找矿标志[J]. 云南地质, 34(3): 209-214.
    肖朝阳, 黄强太, 张绍阶, 等, 2011. EH4电磁成像系统在金矿勘探中的应用: 以黄金洞金矿为例[J]. 大地构造与成矿学, 35(2): 242-248.
    徐兴旺, 蔡新平, 屈文俊, 等, 2006. 滇西北红山晚白垩世花岗斑岩型Cu-Mo成矿系统及其大地构造学意义[J]. 地质学报, 80(9): 1422-1433.
    薛建玲, 庞振山, 程志中, 等, 2020. 深部找矿基本问题及方法[J]. 地质通报, 39(8): 1125-1136.
    姚大为, 朱威, 王大勇, 等, 2015. 音频大地电磁法在武山外围深部勘查中的应用[J]. 物探与化探, 39(1): 100-103.
    余海军, 2018. 格咱斑岩带复合成矿系统及找矿方向[D]. 武汉: 中国地质大学.
    曾普胜, 王海平, 莫宣学, 等, 2004. 中甸岛弧带构造格架及斑岩铜矿前景[J]. 地球学报, 25(5): 535-540. doi: 10.3321/j.issn:1006-3021.2004.05.008
    张建成, 王通, 2015. EH4电磁法在深埋滑坡变形体探测中的应用[J]. 工程勘察, 43(2): 94-98.
    张小兵, 肖高强, 张有荣, 等, 2017. 云南省香格里拉县东炉房铜多金属矿区物化探异常特征及找矿潜力分析[J]. 云南大学学报(自然科学版), 39(S2): 23-29.
    赵俊, 向龙洲, 李忠, 等, 2017. 综合物探在水文地质调查中的应用及适用性分析[J]. 云南大学学报(自然科学版), 39(S2): 110-115.
  • 加载中
图(9)
计量
  • 文章访问数:  505
  • HTML全文浏览量:  243
  • PDF下载量:  85
  • 被引次数: 0
出版历程
  • 收稿日期:  2022-03-30
  • 修回日期:  2022-07-18
  • 录用日期:  2022-08-16

目录

    /

    返回文章
    返回