内蒙古额济纳旗半岛山金锑矿区地质特征及成矿潜力

郝智慧; 胡二红; 张善明; 王跃飞; 张克俭; 邓晓宁; 王江; 苏海霞; 丁禹升; 李文

doi:10.19388/j.zgdzdc.2022.01.05

内蒙古额济纳旗半岛山金锑矿区地质特征及成矿潜力

1.
鄂尔多斯市地质调查监测院,内蒙古鄂尔多斯 017000
2.
内蒙古第八地质矿产勘查开发有限责任公司,内蒙古乌海 016000
3.
中国地质大学(北京)地球科学与资源学院,北京 100083
4.
鄂尔多斯市自然资源局,内蒙古鄂尔多斯 017000

基金项目: 内蒙古自治区自然资源厅“内蒙古自治区额济纳旗平台山等二幅1:5万区域矿产地质调查(编号: NMKD2016-06)”与“内蒙古自治区额济纳旗微波山稀有稀土多金属矿普查(编号: 20-1-KC01)”项目联合资助

详细信息

作者简介:
郝智慧(1986—),女,工程师,主要从事矿区地质调查及矿山储量管理工作。Email: 114202844@qq.com。

通信作者:
胡二红(1986—),男,工程师,主要从事区域矿产地质调查工作。Email: nmhuerhong@126.com。

中图分类号: P618
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出版历程
- 收稿日期: 2021-07-28
- 修回日期: 2021-10-11
- 刊出日期: 2022-02-19

Geological characteristics and metallogenic potential of Bandaoshan gold-antimony ore area in Ejina Banner of Inner Mongolia

1.
Ordos Geological Survey and Monitoring Institute, Inner Mongolia Ordos 017000, China
2.
Inner Mongolia No.8 Geological and Mineral Exploration and Development Co., Ltd, Inner Mongolia Wuhai 016000, China
3.
School of Earth Sciences and Resources, China University of Geosciences (Beijing), Beijing 100083, China
4.
Ordos Natural Resources Bureau, Inner Mongolia Ordos 017000, China

摘要

摘要: 内蒙古额济纳旗半岛山金锑矿区位于北山成矿带南带,宏观上具有寻找中—大型金矿的潜力。运用地质-地球物理-地球化学综合找矿方法进行分析,认为半岛山金锑矿区矿源层为长城系古硐井群下岩性组变质岩系,矿(化)体分布于脆-韧性构造控制的蚀变带内,区内石英细网脉或大脉发育,后期多次的变形变质作用叠加改造,使金进一步富集成矿,具典型造山型金矿特征,成矿潜力很大。对该区成矿特征研究既可指导下一步找矿方向,同时也可为在北山南带韧性剪切带内寻找同类型矿产开拓思路、提供借鉴。
- 金锑矿 /
- 地质特征 /
- 综合找矿方法 /
- 造山型金矿 /
- 成矿潜力 /
- 内蒙古额济纳旗
Abstract: The Bandaoshan gold-antimony ore area in Ejina Banner of Inner Mongolia is located in the southern belt of Beishan metallogenic belt, with the medium-large gold deposits metallogenic potential from macroscopic scale. The source bed of the gold-antimony deposit in Bandaoshan is identified as metamorphic rock series of the Lower Lithologic Formation of the Gudongjing Group in Changchengian System, using the comprehensive prospecting method of geology, geophysics and geochemistry. The ore bodies are distributed in the alteration zone controlled by the brittle ductile structure, with fully developed quartz veinlets or veins. The gold is further enriched and mineralized by the superimposition of deformation and metamorphism in the later stage, which shows typical characteristics of orogenic type gold ore and great metallogenic potential. The research of metallogenic characteristics in this area would provide guides on the next prospecting direction, and references for the exploration of mine-rals with the same type in the ductile shear zone of the southern Beishan belt.
- gold-antimony ore /
- geological characteristics /
- comprehensive prospecting method /
- orogenic type gold ore /
- metallogenic potential /
- Ejina Banner of Inner Mongolia

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参考文献(43)

[1]	朱江. 北山造山带南带构造-岩浆建造与金多金属成矿[D].武汉:中国地质大学,2013:1-216. Zhu J.Tectono-Magmatic Formation and Gold-polymetallic Mineralization in South Beishan Area,NW China[D].Wuhan:China University of Geosciences,2013:1-216.
[2]	朱江,吕新彪,莫亚龙,等.甘肃拾金坡金矿床成因:来自⁴⁰Ar/³⁹Ar定年、成矿流体及H-O-S同位素证据[J].吉林大学学报:地球科学版,2013,43(2):427-439. Zhu J,Lyu X B,Mo Y L,et al.Ore genesis of the Shijinpo gold deposit in Gansu province,NW China:⁴⁰Ar/³⁹Ar dating,ore-forming fluid and H-O-S isotopes constrains[J].J Jilin Univ:Earth Sci Ed,2013,43(2):427-439.
[3]	朱江,吕新彪,彭三国,等.甘肃拾金坡金矿床成矿过程中流体-岩石反应[J].矿物岩石地球化学通报,2014,33(3):334-341. Zhu J,Lyu X B,Peng S G,et al.Fluid-rock interaction during mineralization of the Shijinpo gold deposit,Gansu,China[J].Bull Mineral, Petrol Geochem,2014,33(3):334-341.
[4]	胡朋. 北山南带构造岩浆演化与金的成矿作用[D].北京:中国地质科学院,2007:1-155. Hu P.Tectonomagmatic Evolution and Gold Metallogeny in South Beishan Mountain,Northwest China[D].Beijing:Chinese Academy of Geological Sciences,2007:1-155.
[5]	张善明,贺中银,韩志敏,等.北山内蒙新发现的黑山咀南金多金属矿带地质特征及找矿潜力[J].地质与勘探,2018,54(5):890-901. Zhang S M,He Z Y,Han Z M,et al.Geological characteristics and prospecting potential of newly discovered gold - polymetallic ore belts in South Heishanju,Beishan,Inner Mongolia[J].Geol Explor,2018,54(5):890-901.
[6]	张善明,王根厚,赵士宝,等.北山内蒙新发现的黑山咀金多金属矿区四级构造系统及其控矿规律研究[J].大地构造与成矿学,2020,44(3):367-384. Zhang S M,Wang G H,Zhao S B,et al.Four-level ore-controlling structural system in the newly discovered Heishanju Gold Polymetallic Orefield,Beishan,Inner Mongolia[J].Geotecton Metall,2020,44(3):367-384.
[7]	钱建平,符有江,周永宁,等.内蒙古额济纳旗老硐沟金多金属矿区成矿构造系统解析和构造控矿规律[J].大地构造与成矿学,2018,42(6):1046-1063. Qian J P,Fu Y J,Zhou Y N,et al.Analysis of the metallogenic structure system and the regularities of tectonic ore control of the Laodonggou Gold Polymetallic Mining Area,Ejinaqi,Inner Mongolia[J].Geotecton Metall,2018,42(6):1046-1063.
[8]	冯罡,杨崇文.内蒙古交叉沟地区金矿成矿地质特征及找矿方向[J].内蒙古科技与经济,2010(12):42-43,45. Feng G,Yang C W.Metallogenic geological characteristics and prospecting direction of gold deposits in Jiaochagou area,Inner Mongolia[J].Inner Mongolia Sci Technol Econ,2010(12):42-43,45.
[9]	丁建华,邢树文,肖克炎,等.东天山—北山Cu-Ni-Au-Pb-Zn成矿带主要成矿地质特征及潜力分析[J].地质学报,2016,90(7):1392-1412. Ding J H,Xing S W,Xiao K Y,et al.Geological characteristics and resource potential analysis of the Dongtianshan-Beishan Cu-Ni-Au-Pb-Zn Metallogenic Belts[J].Acta Geol Sin,2016,90(7):1392-1412.
[10]	聂凤军,江思宏,白大明.北山地区金属矿床成矿规律及找矿方向[M].北京:地质出版社,2002:1-408. Nie F J,Jiang S H,Bai D M.Metallogenic Studies and Ore Prospecting in the Conjunction Area of Inner Mongolia Autonomous Region,Gansu Province and Xinjiang Uygur Autonomous Region (Beishan Mt.),Northwest China[M].Beijing:Geological Publishing House,2002:1-408.
[11]	聂凤军,江思宏,赵省民,等.北山北带古生代岩浆活动与金矿床的形成[J].矿物岩石地球化学通报,2000,19(4):228. Nie F J,Jiang S H,Zhao S M,et al.Paleozoic magmatic activity and the formation of gold deposits in the northern belt of Beishan area[J].Bull Mineral,Petrol Geochem,2000,19(4):228.
[12]	张善明,贺中银,胡二红,等.内蒙古额济纳旗疙瘩井金矿区构造-蚀变-地球化学综合方法找矿研究[J].大地构造与成矿学,2018,42(2):266-278. Zhang S M,He Z Y,Hu E H,et al.Integrated structure-alteration-geochemistry prospecting of the Gedajing Gold Mining Area in Ejin Banner,Inner Mongolia[J].Geotecton Metall,2018,42(2):266-278.
[13]	高永伟,曹新志,张旺生.新疆北山210金矿床断裂构造控矿作用及成因机制[J].矿产与地质,2012,26(2):114-118,125. Gao Y W,Cao X Z,Zhang W S.Ore-controlling role of fault and genetic mechanism of the 210 gold ore deposit in Beishan area,Xinjiang Province[J].Miner Resour Geol,2012,26(2):114-118,125.
[14]	陈柏林,吴淦国,叶得金,等.甘-新北山金窝子金矿田构造控矿解析[J].地球学报,2003,24(4):305-310. Chen B L,Wu G G,Ye D J,et al.An analysis of ore-controlling structures in the Jinwozi Gold Orefield,Beishan Area,Gansu and Xingjiang[J].Acta Geosci Sin,2003,24(4):305-310.
[15]	内蒙古煤炭建设工程(集团)总公司.内蒙古自治区额济纳旗半岛山东金多金属矿普查[R].2018:1-85. Inner Mongolia Coal Construction Engineering (Group) Corporation.Gold polymetallic Ore Survey in the East of Bandaoshan,Ejina Banner,Inner Mongolia Autonomous Region[R].2018:1-85.
[16]	杨建国,杨合群,杨林海,等.北山地区北东向构造对金钨锡钼(稀土)矿床控制作用初探[J].大地构造与成矿学,2004,28(4):404-412. Yang J G,Yang H Q,Yang L H,et al.Preliminary discussion on the controlling effect of the northeast-trending structure on the mineralization of Au-W-Sn-Mo(REE)deposits in Beishan,Gansu and Inner Mongolia[J].Geotecton Metall,2004,28(4):404-412.
[17]	贾元琴,赵志雄,许海,等.北山风雷山地区白山组流纹岩LA-ICP-MS锆石U-Pb年龄及构造环境[J].中国地质,2016,43(1):91-98. Jia Y Q,Zhao Z X,Xu H,et al.Zircon LA-ICP-MS U-Pb dating of and tectonic setting of rhyolites from Baishan Formation in Fengleishan area of the Beishan orogenic belt[J].Geol China,2016,43(1):91-98.
[18]	胡二红,张善明,贺中银,等.内蒙古额济纳旗微波山地区土壤地球化学特征及找矿潜力[J].现代地质,2020,34(6):1303-1317. Hu E H,Zhang S M,He Z Y,et al.Soil geochemical characteristics and metallogenic potential in Weibo Mountain Area of Ejina Banner,Inner Mongolia[J].Geoscience,2020,34(6):1303-1317.
[19]	杨建国,王磊,王小红,等.内蒙古北山额济纳旗小红山钒钛磁铁矿床SHRIMP锆石U-Pb定年及其意义[J].地质通报,2015,34(9):1699-1705. Yang J G,Wang L,Wang X H,et al.SHRIMP zircon U-Pb dating of the Xiaohongshan vanadium-titanium magnetite deposit,Ejin Banner,Beishan,Inner Mongolia,and its geological implications[J].Geol Bull China,2015,34(9):1699-1705.
[20]	天津市地质调查研究院,河北省区域地质矿产调查研究所.内蒙古1:5万1524.6高地(K47E017013)、二龙包西2016:1-352. Tianjin Institute of Geological Survey,Hebei Provincial Institute of Regional Geology and Mineral Survey.Regional Geological and Mineral Survey of 1:50000 1524.6 Highland (K47E017013),West Erlongbao (K47E017014),1580.8 Highland (K47E018013) and West Paotai Mountain (K47E018014) in Inner Mongo-lia[R].2016:1-352.
[21]	陈衍景. 造山型矿床、成矿模式及找矿潜力[J].中国地质,2006,33(6):1181-1196. Chen Y J.Orogenic-type deposits and their metallogenic model and exploration potential[J].Geol China,2006,33(6):1181-1196.
[22]	赵鹏彬,李维成,罗乾周,等.内蒙北山鹰嘴红山花岗岩体形成时代及构造环境分析[J].西北地质,2019,52(4):1-13. Zhao P B,Li W C,Luo Q Z,et al.Formation age and tectonic environment of Yingzuihongshan granite in Beishan,Inner Mongo-lia[J].Northwestern Geol,2019,52(4):1-13.
[23]	杜泽忠,于晓飞,李永胜.内蒙古额济纳旗老硐沟金矿床地质特征[J].矿物学报,2015,35(S1):996-997. Du Z Z,Yu X F,Li Y S.Geological characteristics of Laodonggou gold deposit in Ejin Banner,Inner Mongolia[J].Acta Miner Sin,2015,35(S1):996-997.
[24]	内蒙古自治区第八地质矿产勘查开发院.内蒙古自治区额济纳旗老硐沟矿区铅银金矿生产详查报告[R].2013:1-278. The Eighth Branch of Inner Mongolia Bureau of Geology and Mineral Resources Exploration & Development.Detailed Investigation Report of Lead-silver-gold Mine in Laodonggou Mining Area, Ejina Banner,Inner Mongolia Autonomous Region[R].2013:1-278.
[25]	陕西省地质调查中心.内蒙古自治区阿拉善盟二龙包等四幅1:5万区域地质矿产调查报告[R].2012:1-334. Shaanxi Geological Survey Center.1:50000 Regional Geological and Mineral Survey Report of Erlongbao in Alxa League,Inner Mongolia Autonomous Region[R].2012:1-334.
[26]	高峰,刘向伟,菅坤坤,等.内蒙古北山盘陀山—古硐井地区金矿矿床成因及远景评价[J].西部资源,2017(1):8-10. Gao F,Liu X W,Jian K K,et al.Ore genesis and prospective evaluation of the gold deposits in the Pantuoshan-Gudongjing area,Inner Mongolia Beishan[J].Western Resour,2017(1):8-10.
[27]	陕西省地矿局地质调查院.内蒙古额济纳旗二龙包西等四幅1:5万区域矿产地质调查成果报告[R].2011:1-363. Geological Survey Institute of Shaanxi Bureau of Geology and Mineral Resources. Geological survey Report of 1:50000 Regional Mineral Resources in Erlong Baoxi,Ejin Banner,Inner Mongolia[R].2011:1-363.
[28]	罗照华,卢欣祥,王秉璋,等.造山后脉岩组合与内生成矿作用[J].地学前缘,2008,15(4):1-12. Luo Z H,Lu X X,Wang B Z,et al.Post-orogenic dike complexes and implications for metallogenesis[J].Earth Sci Front,2008,15(4):1-12.
[29]	王军. 甘肃北山南带韧性剪切带型金矿床(点)地质特征及找矿方向[J].地质找矿论丛,2005,20(S1):33-35,39. Wang J.Geological characteristics of ductile shearing zone type Au deposits and ore-seaching direction in the South Belt,Beishan region,Gansu Province[J].Contrib Geol Miner Resour Res,2005,20(S1):33-35,39.
[30]	陈柏林,杨农,吴淦国,等.甘肃北山南带韧性剪切带型金矿床构造控矿解析[J].矿床地质,2002,21(2):149-158. Chen B L,Yang N,Wu G G,et al.Analysis of ore-controlling structure in ductile shear zone type gold deposits in southern Bei-shan area,Gansu Province[J].Miner Deposits,2002,21(2):149-158.
[31]	翟裕生,林新多.矿田构造学[M].北京:地质出版社,1993. Zhai Y S,Lin X D.Ore Field Tectonics[M].Beijing:Geological Publishing House,1993.
[32]	Bonnemaison M,Marcoux E.Auriferous mineralization in some shear-zones:A three-stage model of metallogenesis[J].Miner Deposita,1990,25(2):96-104.
[33]	Goldfarb R,Baker T,Dubé B,et al.Distribution, character and genesis of gold deposits in metamorphic terranes[M]//Hedenquist J W,Thompson J F H,Goldfarb R G,et al.Economic Geo-logy 100th Anniversary Volume.Littleton,Colorado,USA:Society of Economic Geologists,2005:407-450.
[34]	张忠义,贺昕宇,肖文进.东天山中段晚古生代剪切带叠加特征及构造控矿作用[J].矿产勘查,2020,11(11):2341-2346. Zhang Z Y,He X Y,Xiao W J.Superposition of Late Paleozoic shear zones and its structural ore-controlling function in the central of Eastern Tianshan[J].Miner Explora,2020,11(11):2341-2346.
[35]	何绍勋,段嘉瑞,刘继顺,等.韧性剪切带与成矿[M].北京:地质出版社,1996. He S X,Duan J R,Liu J S,et al.Ductile Shear Zone Structure and Metallogeny[M].Beijing:Geological Publishing House,1996.
[36]	Eisenlohr B N,Groves D,Partington G A.Crustal-scale shear zones and their significance to Archaean gold mineralization in Western Australia[J].Miner Deposita,1989,24(1):1-8.
[37]	Vearncombe J R.Shear zones,fault networks,and Archean gold[J].Geology,1998,26(9):855-858.
[38]	Davis B K,Hippertt J F M.Relationships between gold concentration and structure in quartz veins from the Hodgkinson Province,northeastern Australia[J].Miner Deposita,1998,33(4):391-405.
[39]	李晓峰,华仁民,冯佐海.韧性剪切带变形变质作用与金的矿化富集[J].桂林工学院学报,2001,21(3):207-212. Li X F,Hua R M,Feng Z H.Deformation-metamorphism and gold mineralization in ductile shear zone[J].J Guilin Inst Tech-nol,2001,21(3):207-212.
[40]	Goldfarb R J,Groves D I,Gardoll S.Orogenic gold and geologic time:a global synthesis[J].Ore Geol Rev,2001,18(1/2):1-75.
[41]	Groves D I,Goldfarb R J,Gebre-Mariam M,et al.Orogenic gold deposits:A proposed classification in the context of their crustal distribution and relationship to other gold deposit types[J].Ore Geol Rev,1998,13(1/2/3/4/5):7-27.
[42]	Kerrich R,Goldfarb R,Groves D,et al.The characteristics,origins,and geodynamic settings of supergiant gold metallogenic provinces[J].Sci China Ser D:Earth Sci,2000,43(1):1-68.
[43]	卢焕章,池国祥,朱笑青,等.造山型金矿的地质特征和成矿流体[J].大地构造与成矿学,2018,42(2):244-265. Lu H Z,Chi G X,Zhu X Q,et al.Geological characteristics and ore forming fluids of orogenic gold deposits[J].Geotecton Metall,2018,42(2):244-265.

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