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黄金科学技术 ›› 2023, Vol. 31 ›› Issue (2): 252-261.doi: 10.11872/j.issn.1005-2518.2023.02.125

• 关键金属矿产勘查进展专栏 • 上一篇    下一篇

湖南安化大溶溪白钨矿床侧伏规律研究及意义

余应龙1(),周岳强2(),董玉宁3,时承华1   

  1. 1.湖南有色产业投资集团有限责任公司,湖南 长沙 410129
    2.湖南省地质灾害调查监测所,湖南 长沙 410004
    3.湖南辰州矿业有限责任公司,湖南 怀化 419605
  • 收稿日期:2022-09-20 修回日期:2022-11-14 出版日期:2023-04-30 发布日期:2023-04-27
  • 通讯作者: 周岳强 E-mail:546728736@qq.com;271164104@qq.com
  • 作者简介:余应龙(1988-),男,湖北黄石人,工程师,从事有色金属(侧重于金锑钨)地质勘查与找矿方法研究工作。546728736@qq.com
  • 基金资助:
    湖南省自然资源厅科技项目“湘东北金矿深部成矿规律及找矿方向研究”(2020-13);国家自然科学基金项目“江南古陆金(多金属)大规模成矿的机理研究”(41930428)

Study on the Lateral Trending Regularity and Its Significance of Darongxi Scheelite Deposit in Anhua,Hunan Province

Yinglong YU1(),Yueqiang ZHOU2(),Yuning DONG3,Chenghua SHI1   

  1. 1.Hunan Nonferrous Metal Industry & Investment Group Co. , Ltd. , Changsha 410129, Hunan, China
    2.Hunan Institute of Geological Disaster Investigation and Monitoring, Changsha 410004, Hunan, China
    3.Hunan Chenzhou Mining Co. , Ltd. , Huaihua 419605, Hunan, China
  • Received:2022-09-20 Revised:2022-11-14 Online:2023-04-30 Published:2023-04-27
  • Contact: Yueqiang ZHOU E-mail:546728736@qq.com;271164104@qq.com

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摘要:

湖南安化大溶溪白钨矿床位于湘西金锑钨成矿带,赋存于大神山岩体外接触带,是湘西地区最为重要的大型钨矿床。为了深入了解大溶溪白钨矿的矿床成因类型,以大溶溪白钨矿床开发期收集的大量基础资料和9个中段1 997个钨样品测试数据为基础,通过对数据进行统计和可视化分析,研究大溶溪白钨矿的矿体侧伏规律,并据此进行反向推演,探讨了大溶溪白钨矿的成矿作用过程及其与大神山岩体之间的关系。研究表明:大溶溪白钨矿的矿体侧伏方向为NE(42°),受大神山岩体控制;成矿物质主要来源于南沱砂岩组,大神山岩体为其活化、迁移和再富集提供了热力场和动力场。结合前人研究成果,认为大神山岩体北部界山区域和南部白沙溪区域均位于大神山岩体热力场范围内,成矿条件与大溶溪白钨矿床相似,具有良好的成矿前景,建议进一步探寻深部隐伏矿体。

关键词: 白钨矿床, 侧伏规律, 岩浆热力场, 矿床成因, 湘西金锑钨成矿带, 江南古陆

Abstract:

It is very important to study the lateral trending regularity of orebodies for metallogenic prediction,especially the factors controlling the lateral direction.However,previous studies mostly focused on orebodies controlled by faults,and regularity of orebodies controlled by stratum remains poorly understood. The Darongxi scheelite deposit in Anhua,Hunan Province is the most economically important scheelite deposit in the Au-Sb-W metallogenic belt in western Hunan,the historical mining and current reserves are 38 146 t WO3. This deposit occurs in Sinian Nantuo sandstone in the outer contact zone of the Dashenshan rock mass.The thickness of four scheelite orebodies in the deposit is 1.12~5.96 m,and the grade is 0.12%~1.02% WO3,which is similar to the occurrence wall rock of the Sinian Nantuo sandstone.The lateral trending regularity of the orebodies is still unclear,and the genesis of this deposit has been controversial.Based on comprehensive analysis of statistics,visualization and analysis on a large number of original basic data during the development and utilization period of the Darongxi scheelite deposit and 1 997 scheelite samples from 9 middle sections,the lateral trending regularity of orebodies was studied,and the mineralization process of Darongxi scheelite deposit and its relationship with Dashenshan rock mass were discussed. It is considered that the pitch direction of orebody is NE (42°) and it is controlled by Dashenshan rock mass.The western boundary of the scheelite enrichment area shows a similar shape to that of the Dashenshan rock mass.The slope at the west boundary is more disordered,while those at the east boundary fall off a cliff from ≥0.4% in the west of the boundary to <0.2% in the east.Moreover,the eastern boundary of the enriched orebodies is more than 200 meters away from the Dashenshan rock mass.The ore-forming materials of the Darongxi scheelite deposit are considered to be mainly derived from the sandstone of Nantuo Formation,and the Dashenshan rock mass provides a thermal and dynamic field for the activation,migration and re-enrichment of ore-forming materials.Combined with previous research,Jieshan area and Baishaxi area located respectively in north and in south of the Dashenshan rock mass are considered to have a good metallogenic prospect and suggested to be prospected for concealed orebodies in deep,because they are located in the thermal field of the Dashenshan rock and have similar metellogenic conditions wtih Darongxi scheelite deposit.

Key words: scheelite deposit, lateral trending regularity, magma thermal field, genesis of deposit, gold-antimony-tungsten metallogenic belt of western Hunan, Jiangnan ancient continent

中图分类号: 

  • P614

图1

湘西雪峰隆起区地质图(修改自柏道远等,2021;文静等,2022)1.古近—第四系;2.三叠—白垩系;3.泥盆—二叠系;4.奥陶—志留系;5.震旦—寒武系;6.新元古界板溪群;7.新元古界冷家溪群;8.花岗岩;9.断裂(FⅠ-怀化—沃溪断裂;FⅡ-溆浦—靖州断裂;FⅢ-城步—江口断裂);10.金锑钨矿点;11.锑钨矿点;12.锑矿点;13.大溶溪白钨矿床;14.找矿靶区"

图2

大溶溪白钨矿床地质图1.灯影组硅质岩;2.南沱冰碛岩组冰碛砾泥岩;3.南沱砂岩组砂岩;4.五强溪组板岩;5.大神山花岗岩;6.霏细斑岩脉;7.Ⅰ矿层(体)地表露头;8.断层及编号"

图3

大溶溪白钨矿区第三勘探线地质剖面图(修改自包正相,1987)1.灯影组硅质岩;2.南沱冰碛岩组冰碛砾泥岩;3.南沱砂岩组砂岩;4.五强溪组板岩;5.大神山花岗岩;6.断层及编号;7.矿层(体)及编号;8.钻孔及编号"

图4

大溶溪白钨矿床矿体侧伏规律1.灯影组硅质岩;2.南沱冰碛岩组冰碛砾泥岩;3.南沱砂岩组砂岩;4.五强溪组板岩;5.大神山花岗岩;6.地层界线;7.矿区侧伏线;8.矿区富集矿体边界线;9.取样点(WO3品位≥0.4%);10.取样点(0.3%≤WO3品位<0.4%);11.取样点(0.2%≤WO3品位<0.3%);12.取样点(WO3品位<0.2%);13.矿区沿脉巷道及中段编号;14.大神山岩体西边界线;15.断层及编号;16.倒转向斜轴"

图5

大溶溪白钨矿成矿示意图1.南沱冰碛岩组冰碛砾泥岩与南沱砂岩组砂岩接触面;2.南沱砂岩组砂岩五强溪组板岩接触面;3.含矿热液示意图;4.含矿热液运动方向示意图;5.活化含矿热液再富集示意图;6.Ⅰ号矿层示意图; 7.Ⅳ号矿层示意图;8.Ⅱ号和Ⅲ号矿层示意图;9.底板透镜状矿体"

Ai Guodong, Dai Tagen, Chen Minghui,et al,2011.Metallogeny and ore-control factors of Darongxi strata bound skarn scheelite deposit[J].Contributions to Geology and Mineral Resources Research,26(1):12-17.
Bai Daoyuan, Li Bin, Wu Mengjun,et al,2021.Deformation sequences,ore forming epoch and attributes of ore-bearing structurals in the Zhazixi Sb-W deposit,Hunan Province[J].Geotectonica et Metallogenia.DOI:10.16539/j.ddgzyckx.2021.05.016 .
doi: 10.16539/j.ddgzyckx.2021.05.016
Bao Zhengxiang,1986.An inquiry about the general pattern of concentration and geological characteristics of the Darongxi stratabound scheelite ore deposit of Anhua County,Hunan Province[J].Hunan Geology,5(1):43,44-50.
Bao Zhengxiang,1987.Geological features and mineralizationg of stratabound scheelite deposits in western Hunan[J].Mineral Depoist,6(4):455-463.
Bao Zhengxiang,1994.New horizons of stratabound sheelite deposits and their geologilcal features[J].Geological Review,30(4):595-599.
Chang Jiang, Zhao Jing, Li Yizhi,et al,2015.Ore fluid migration and orebody pitch direction of Jianzhupo lead-zinc-polymetallic deposit,Guangxi[J].Mineral Exploration,6(6):732-738.
Chen Guoda,1985.Method of Metallogenic Tectonics[M].Beijing:Geological Press.
Chen Xinyue, Yin Ping, Kuang Wenlong,et al,2012.Advance research of Au multi-metal metallogenic belt in Xuefeng region,western Hunan Province[J].Geological Science and Technology Information,31(3):82-88.
Chen Yupeng,2020.An analysis of the geological characteristics and genesis of Darongxi cheelite deposit in Hunan Province[J].Mineral Resources,(5):119-120.
Cheng Shunbo, Fu Jianming, Ma Liyan,et al,2014.Some discrimination criterions of W/Sn mineralization related granitoids in Nanling Range[J].Geology and Mineral Resources of South China,30(4):352-360.
Feng Youku,1996.Research method for pitch of vein gold orebody and its application[J].Gold Geology,2(2):37-41.
Guo Tengfei, Liu Hu, Cai Minghai,et al,2013.Ore-controlling structural characteristics and prospecting potential of Jinya gold deposit in Guangxi[J].Mineral Resources and Geology,27(1):12-20.
Li W, Xie G Q, Mao J W,et al,2022.Precise age constraints for the Woxi Au-Sb-W deposit,South China[J]. Economic Geology,DOI:10.5382/econgeo.4971 .
doi: 10.5382/econgeo.4971
Liu Yanbing, Qu Hailang, Hu Boxin,et al,2021.Enrichment regularities of Au element in T4 orebody of the Paishanlou gold deposit in Liaoning Province and its indicative significance for prospecting[J].Gold Science and Technology,29(3):325-333.
Liu Zhongwei, Chen Hanzhong,1983.Geological structure characteristics and ore-controlling effect of Situpu scheelite deposit in Anhua County[J].Hunan Geology,2(1):114.
Luo Xianlin, Yi Shijun, Liang Jincheng,1984.Ore genesis of the Woxi gold-antimony-tungsten deposit in western Hunan[J].Geology and Prospecting,20(3):1-10.
Roberts M P, Clemens J D,1993.Origin of high-potassium,calkaline,I-type granitoids[J].Geology,21:825-828.
Sun Jimao, Lou Yali, Huang Jie,et al,2013.Geological feature and prospecting potential of scheelite deposits in surrounding of Chenshan intrusion[J].Contributions to Geology and Mineral Resources Research,28(1):85-94.
Taylor S R, McLennan S M,1985.The Continental Crust:Its Composition and Evolution[M].London:Blackwell.
Tu Guangzhi, Wang Xiuzhang, Chen Xianpei,et al,1987.Geochemistry of Stratabound Tungsten Deposit Geochemistry of Stratabound Deposit in China(the Part 2)[M].Beijing:Science Press.
Wang Feng,1993.Genesis and geological characteristic of scheelite deposit in Darongxi,Anhua[J].Hunan Geology,12(3):182-184.
Wang Fuquan,1991.The influence of magmatism on regional metallogenic processes[J].Geology and Exploration,(5):6-12.
Wang Jincao, Wang Rongrong, Zhou Yao,et al,2006. Regularity and geological significance for lateral trending of orebodies[J].Journal of Guilin University of Technology,26(3):305-309.
Wen Jing, Hu A’xiang, Peng Jiantang,2022.Geochemistry of scheelite in the Xi’an tungsten deposit,western Hunan,and its implications for its ore genesis[J].Geological Review,68(5):1772-1788.
Xu D R, Deng T, Chi G X,et al,2017.Gold mineralization in the Jiangnan orogenic belt of South China:Geological,geochemical and geochronological characteristics,ore deposit-type and geodynamic setting[J].Ore Geology Reviews,88:565-618.
Yang Chong,2012.Analysis on Ore-controlling Structure and Research on Prospecting Direction of Gold-Antimony in Xuefeng Arc Structure Belt[D].Xiangtan:Hunan University of Science and Technology.
Yang J H, Fu Y, Wu F Y,et al,2007.Tracing magma mixing in granite genesis:In situ U-Pb dating and Hf-isotope analysis of zircons[J].Contributions to Mineralogy and Petrology,53:177-190.
Yang Xie,1992.Source of ore material and paragenesis of ore-building elements in Woxi Au-Sb-W deposit,Hunan[J].Journal of Chengdu Institute of Geology,19(2):20-28.
Zhang Caisen, Tang Gaolin,2020. A brief talk on the laterality of the Liwu copper-zinc ore body and its geological significance[J].China Metal Bulletin,(9): 59- 60.
Zhang L, Yang L Q, Groves D,et al,2019.An overview of timing and structural geometry of gold, gold-antimony and antimony mineralization in the Jiangnan orogen,southern China[J].Ore Geology Reviews,115:103-173.
Zhang Longsheng, Peng Jiantang, Hu A’xiang,et al,2014.Re-Os dating of molybdenite from Darongxi tungsten deposit in Western Hunan and its geological implications[J].Mineral Deposits,33(1):181-189.
Zhang Longsheng, Peng Jiantang, Lin Fangmei,2020.Mineralogical,geochemical characteristics and formation mechanism of skarn minerals in the Darongxi tungsten deposit,western Hunan[J].Geological Review,66(1):113-139.
Zhang Longsheng, Peng Jiantang, Zhang Dongliang,et al,2012.Geochemistry and petrogenesis of the Indosinian Dashenshan granite,western Hunan,South China[J].Geotectonica et Metallogenia,36(1):137-148.
Zhang Qi, Jiao Shoutao, Li Chengdong,et al,2017.Granite and continental tectonics,magma thermal field and metallgenesis[J]. Acta Petrologica Sinica,33(5):1524-1540.
Zhang Qi, Jin Weijun, Li Chengdong,et al,2014a.The theory of “magma theramal field” and its metallogenic signficance[J].Gansu Geology,23(1):1-18.
Zhang Qi, Jin Weijun, Li Chengdong,et al,2014b.The theory of“magma theramal field” and its metallogenic signficance[J].Gansu Geology,23(2):1-20.
Zhang Zhengen,1979.Formation conditions of skarn and its major minerals[J].Geology Geochemistry,(4):1-3.
Zhou Xiaoyan,2008.Petrological and geochemical characteristics of the Chenshan intrusion and its tectonic environment significance[J].Land and Resources Herald,5(1):37-41.
艾国栋,戴塔根,陈明辉,等,2011.大溶溪层控矽卡岩型白钨矿床之成矿与控矿因素[J].地质找矿论丛,26(1):12-17.
柏道远,李彬,吴梦君,等,2021.湖南渣滓溪锑钨矿区变形序列、成矿时代及含矿构造属性[J].大地构造与成矿学,DOI:10.16539/j.ddgzyckx.2021.05.016 .
doi: 10.16539/j.ddgzyckx.2021.05.016
包正相,1986.安化县大溶溪层控白钨矿床地质特征及富集规律的探讨[J].湖南地质,5(1):43,44-50.
包正相,1987.湘西层控白钨矿床地质特征及其成矿作用[J].矿床地质,6(4):455-463.
包正相,1994.层控白钨矿床新层位及其地质特征[J].地质论评,30(4):595-599.
常江,赵京,李益智,等,2015.广西箭猪坡铅锌锑多金属矿床矿液运移及矿体侧伏方向研究[J].矿产勘查,6(6):732-738.
陈国达,1985.成矿构造研究法[M].北京:地质出版社.
陈新跃,尹萍,匡文龙,等,2012.湘西雪峰地区金多金属成矿带研究进展[J].地质科学情报,31(3):82-88.
陈宇鹏,2020.分析湖南大溶溪白钨矿床地质特征及成因[J].矿产资源,(5):119-120.
程顺波,付建明,马丽艳,等,2014.南岭地区成钨、成锡花岗岩组合的几个判别标志[J].华南地质与矿产,30(4):352-360.
冯友库,1996.脉金矿体侧伏研究方法及应用[J].黄金地质,2(2):37-41.
郭腾飞,刘虎,蔡明海,等,2013.广西金牙金矿床控矿构造特征及找矿前景[J].矿产与地质,27(1):12-20.
刘彦兵,屈海浪,胡博心,等,2021.辽宁排山楼金矿T4 矿体Au元素富集规律及其对找矿的指示意义[J].黄金科学技术,29(3):325-333.
刘钟伟,陈汉中,1983.安化县司徒铺白钨矿区地质构造特征及其控矿作用[J].湖南地质,2(1):1-14.
罗献林,易诗军,梁金城,1984.论湘西沃溪金锑钨矿床的成因[J].地质与勘探,20(3):1-10.
孙际茂,娄亚利,黄杰,等,2013.辰山岩体周边白钨矿床地质与找矿前景[J].地质找矿论丛,28(1):85-94.
涂光炽,王秀璋,陈先沛,等,1987.层控钨矿床的地球化学[M].中国层控矿床地球化学(第2 卷).北京:科学出版社.
王峰,1993.安化县大溶溪白钨矿床地质特征及成因[J].湖南地质,12(3):182-184.
王伏泉,1991.岩浆作用对区域内生成矿过程的影响[J].地质与勘探,(5):6-12.
汪劲草,王蓉嵘,周瑶,等,2006.矿体的侧伏规律及其地质意义[J].桂林工学院学报,26(3):305-309.
文静,胡阿香,彭建堂,2022.湘西西安钨矿床白钨矿的地球化学特征及对矿床成因的指示[J].地质评论,68(5):1772-1788.
杨冲,2012.雪峰弧形构造带金(锑)控矿构造分析及找矿方向[D].湘潭:湖南科技大学.
杨燮,1992.湖南沃溪金—锑—钨矿床成矿物质来源及成矿元素的共生机制[J].成都地质学院学报,19(2):20- 28.
张才森,唐高林,2020.浅谈里伍铜锌矿矿体侧伏规律及其地质意义[J].中国金属通报,(9): 59- 60.
张龙升,彭建堂,胡阿香,等,2014.湘西大溶溪钨矿床中辉钼矿Re-Os 同位素定年及其地质意义[J].矿床地质,33(1):181-189.
张龙升,彭建堂,林芳梅,2020.湘西大溶溪钨矿床矽卡岩矿物的矿物学、地球化学特征及其形成机制[J].地质论评,66(1):113-139.
张龙升,彭建堂,张东亮,等,2012.湘西大神山印支期花岗岩的岩石学和地球化学特征[J].大地构造与成矿学,36(1):137-148.
张旗,焦守涛,李承东,等,2017.花岗岩与大陆构造、岩浆热场与成矿[J].岩石学报,33(5):1524-1540.
张旗,金惟浚,李承东,等,2014a.“岩浆热场”说及其成矿意义(上)[J].甘肃地质,23(1):1-18.
张旗,金惟浚,李承东,等,2014b.“岩浆热场”说及其成矿意义(下)[J].甘肃地质,23(2):1-20.
章振根,1979.矽卡岩及其主要矿物的形成条件[J].地质地球化学,(4):1-3.
周晓岩,2008.辰山岩体岩石学地球化学特征及其大地构造环境意义[J].国土资源导刊,5(1):37-40.
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