Gold Science and Technology
img

Wechat

Adv. Search
Online Submission Peer Review Office Work

Gold Science and Technology ›› 2016, Vol. 24 ›› Issue (2): 37-43.doi: 10.11872/j.issn.1005-2518.2016.02.037

Previous Articles     Next Articles

Zoning Characteristics of the Primary Halos and Geological Significance in Huaishuping Gold Deposit,Henan Province

ZHANG Hongjun1,GUO Aisuo2,3,YANG Xiandao1,XU Dong2   

  1. 1.No.2 Institute of Geological & Mineral Resources Survey of Henan,Zhengzhou   450002,Henan,China;
    2.Institute of Resources and Environment,Henan Polytechnic University,Jiaozuo   454000,Henan,China;
    3.No.1 Institute of Geological & Mineral Resources Survey of Henan,Luoyang   471000,Henan,China
  • Received:2015-11-12 Revised:2016-03-03 Online:2016-04-28 Published:2016-05-30

PDF (PC)

904

Abstract:

Huaishuping gold deposit is a new large gold deposit discovered in western Xionger mountain and Waifang mountain,orebody occurrence in Xionger Group of Jidanping Formation in intermediate-acid volcanic rock,while in accord with andesite surrounding rock.Summarizing axial primary halo zoning laws would be helpful to the  prospective predict of deep deposit metallogenic and regional prospecting.Through primary halo zoning calculating and multivariate statistical analysis of the main ore body samples,we come to the results that primary halos of  K23 ore body zoning sequence from top to bottom is Cu-Mo-Au-Bi-Pb-Hg-W-As-Ag-Sb-Zn,the element of front halo and tail halo is superimposed,primary halos of  K23 have the character of inverse zoning,speculate the possibility of exists deep blind ore bodies;K24 ore body consists of several small end-to-end alignment ore body in the same phase,primary halos of K24 ore body zoning sequence from top to bottom is Sb-Au-Ag- Bi-Mo-Hg-As-Pb-Cu-W-Zn,it is not obvious elements of primary halos superposition phenomenon,and constitute a complete normal axial zoning relatively.There are still prospecting space to deep deposit.The zoning sequence have reference meaning looking for the same type deposits on the area. 

Key words: primary halo, zoning, geological significance, Huaishuping gold deposit, Henan Province

CLC Number: 

  • P618.51

[1] 汪在聪,李胜荣,申俊峰.河南省前河构造蚀变岩型金矿的矽卡岩化及其找矿意义[J].矿床地质,2008,27(6):751-761.
[2] 杨立强,王中亮,吴发富,等.河南前河金矿床成矿流体特征与来源:流体包裹体地球化学与同位素约束[J].矿物学报,2009,29(增):259-260.
[3] 翟雷,叶会寿,周珂,等.河南嵩县庙岭金矿地质特征与钾长石40Ar/39Ar定年[J].地质通报,2012,31(4):569-576.
[4] 杨贺杰,庞绪成,侯广顺,等.河南省九丈沟金矿地质特征及找矿标志浅析[J].地质与资源,2009,18(4):284-287,249.
[5] 范宏瑞,胡芳芳,杨奎锋,等.豫西祁雨沟金矿床成矿流体岩浆来源的流体包裹体和稳定同位素证据[J].矿物学报,2009,29(增):212.
[6] 李诺,赖勇,鲁颖淮,等.河南祁雨沟金矿流体包裹体及矿床成因类型研究[J].中国地质,2008,35(6):1230-1239.
[7] 梅秀杰,张参辉,杨显道,等.豫西次级拆离断层对金矿成矿的控制作用——以河南槐树坪金矿为例[J].黄金科学技术,2014,22(2):7-12.
[8] 徐红伟,杨九鼎,王国库.河南省嵩县槐树坪金矿成矿地质特征及成因分析[J].河南理工大学学报(自然科学版),2009,28(6):7190-7206.
[9] 谢小峰,孙华山,刘浏,等.豫西熊耳山地区槐树坪金矿M29-Ⅰ矿体黄铁矿标型特征及其找矿意义[J].地质科技情报,2013,32(3):147-151.
[10] 张参辉,庞绪成,梅秀杰,等.河南省槐树坪金矿土壤地球化学分带模式研究[J].长春工程学院学报(自然科学版),2013,14(3):57-60.
[11] 黎世美,黄建军,苏振邦,等.小秦岭金矿地质与成矿预测[M].北京:地质出版社,1996:1-245.
[12] 倪师军,李朝阳,张诚,等.中基性脉岩对金矿成矿的贡献——以小秦岭金矿区为例[J].成都理工学院院报,1994,21(3):70-78.
[13] 徐九华,谢玉玲,刘建明,等.小秦岭文峪—东闯金矿床包裹体微量元素及成因意义[J].地质与勘探,2004,40(4):1-6.
[14] 辛志刚.河南下蒿坪金矿床成矿地质特征[J].黄金科学技术,2010,18(3):28-32.
[15] 庞绪成,辛志刚,侯广顺.河南嵩县东湾金矿田地质特征及找矿远景[J].地质与勘探,2011,47(5):765-771.
[16] 梅秀杰,耿怡智,庞绪成,等.嵩县南部古火山机构控矿作用及找矿方向[J].河南理工大学学报(自然科学版),2008,27(4):410-413.
[17] 李云,赵玉.河南嵩县南部熊耳群古火山构造与成矿关系研究[J].华南地质与矿产,2009(3):28-36.
[18] 左景勋,燕长海.汝阳付店熊耳群古火山构造地质特征[J].河南地质,1992,10(3):182-190.
[19] 任富根,李维明,李增慧,等.熊耳山—崤山地区金矿成矿地质条件和找矿综合评价模型[M].北京:地质出版社,1996:38-39.
[20] 严海麒,赵五洲,云辉.河南汝阳熊耳群古火山机构地质特征及意义[J].中国地质,2007,34(2):300-305.
[21] 程广国.河南熊耳山地区中生代花岗岩成因及构造环境与成矿关系[J].有色金属矿产与勘查,1994,3(1):15-21.
[22] 黎世美,黄建军,王小生,等.小秦岭金矿地质和成矿预测[M].北京:地质出版社,1996:1-250.
[23] 卢欣祥,尉向东,董有,等.小秦岭熊耳山地区金矿特征与地幔流体[M].北京:地质出版社,2004:1-126.
[24] 邢利琦,刘炳璋.矿床原生地球化学晕分带性研究[J].四川地质学报,2011,31(4):489-495.
[25] 李惠,张文华,刘宝林,等.中国主要类型金矿床的原生晕轴向分带序列研究及其应用准则[J].地质与勘探,1999,35(1):32-35.
[26] 庞绪成,王路,陈丽娜,等.嵩县东湾金矿床原生晕垂直分带特征及其意义[J].河南理工大学学报(自然科学版),2012,31(2):165-171.
[27] 李惠,禹斌,李德亮,等.构造叠加晕找盲矿法的创新与找矿新突破[J].黄金科学技术,2014,22(4):7-13.
[1] CHEN Maohong, XIE Xianyang, MA Kezhong. Research on Lithology and Stratigraphy Conditions of Fault-controlled Ore-body in Nibao Carlin-type Gold Deposit,Guizhou Province [J]. Gold Science and Technology, 2018, 26(2): 131-142.
[2] QU Hui, WANG Baiyi, WANG Jianmin, LI Chenglu, XU Guozhan, WANG Zhuo. Application of Soil Geochemical Survey in the Exploration of Yongxin Gold Deposit and Its Prospecting Effect [J]. Gold Science and Technology, 2018, 26(2): 143-152.
[3] ZHANG Jian,YANG Xingke,CHAO Huixia,HE Hujun,HAN Ke,YANG Longwei,LI Bin. Mineralization and Alteration Characteristics of Northern Shiquan-Hanyin Gold Belt in South Qinling [J]. Gold Science and Technology, 2017, 25(6): 21-30.
[4] ZHENG Muting,ZHANG Shugen,HE Zhongchun. Occurrence of Gold and Silver and Their Relation to Metallogenic Evolution in Kangjiawan Au-Ag Polymetallic Deposit,Hunan Province [J]. Gold Science and Technology, 2017, 25(6): 31-42.
[5] LIANG Yongke,WANG Degong,ZHAO Jie. Geological Characteristics and Prospecting Potential of Yuhengtang Gold Deposit in Hunan Province [J]. Gold Science and Technology, 2017, 25(6): 43-51.
[6] GAO Shuai1,2,ZENG Qingdong1,YU Changming,XING Baoshan,JING Linhai,YE Jie,FAN Hongrui,YANG Kuifeng. Application of Remote Sensing and Comprehensive Geophysical Methods in Spatial Localization of Hidden Metallogenic Intrusions in South Zhaoyuan,Shandong Province [J]. Gold Science and Technology, 2017, 25(5): 1-10.
[7] HAN Ke,YANG Xingke,ZHANG Jian,HU Guochao. Characteristics of Brittle-ductile Shear Zone and Its Control Effect on Gold Mineralization in the Huanglong Gold Deposit,Hanyin,South Shaanxi Province [J]. Gold Science and Technology, 2017, 25(5): 18-29.
[8] WANG Xiaoqing,YANG Xingke,RUI Huichao. The Crystal Form Typomorphism of Pyrite and Its Variation Regularity and Prospecting Significance in Daiwangshan Gold Deposit, Inner Mongolia [J]. Gold Science and Technology, 2017, 25(5): 39-46.
[9] CHEN Caihua,SUN Bing,CHEN Ji,CHEN Lizi. Prospecting Effect of Stream Sediment Survey in Zhongzhai-Shilipu Area of West Qinling Mountains [J]. Gold Science and Technology, 2017, 25(4): 1-9.
[10] ZHANG Lei,TONG Yu,YANG Zhendong,BAI Yunlong,LIU Xing,ZHAO Yongtao. Metallogenic Mechanism and Prospecting Direction of Gold-Copper Poly-metallic Deposits in Weizigou Area,Liaoning Province [J]. Gold Science and Technology, 2017, 25(4): 10-17.
[11] SONG Yingxin,SONG Mingchun,DING Zhengjiang,WEI Xufeng,XU Shaohui,LI Jie,TAN Xianfeng,LI Shiyong,ZHANG Zhaolu,JIAO Xiumei,HU Hong,CAO Jia. Major Advances on Deep Prospecting in Jiaodong Gold Ore Cluster and Its Metallogenic Characteristics [J]. Gold Science and Technology, 2017, 25(3): 4-18.
[12] SONG Guozheng,YAN Chunming,CAO Jia,GUO Zhifeng,BAO Zhongyi,LIU Guodong,LI Shan,FAN Jiameng,LIU Caijie. Breakthrough and Significance of Exploration at Depth More than 1 000 m in Jiaojia Metallogenic Belt,Jiaodong:A Case of #br# Shaling Mining Area [J]. Gold Science and Technology, 2017, 25(3): 19-27.
[13] XU Zhonghua,WANG Fujiang,ZHOU Mingling,BAI Yina,ZHAO Chengle,HU Bingqian. Study on the Mineralogical Characteristics of Main Metallic Minerals and Ore Genesis of Moshan Gold Deposit in Eastern Shandong [J]. Gold Science and Technology, 2017, 25(3): 28-37.
[14] LIU Guodong,WEN Guijun,LIU Caijie,BAO Zhongyi,SUN Zhongquan,FAN Jiameng,LI Shan,YAN Chunming,GUO Zhifeng. Discovery,Characteristics and Prospecting Direction of Shuiwangzhuang Deep Super-large Gold Deposit in the Northern Section of Zhaoping Fault [J]. Gold Science and Technology, 2017, 25(3): 38-45.
[15] WAN Peng,DING Zhengjiang,HU Hong,WU Fengping,CHENG Rongrong,ZOU Jian. Deep Metallogenic Characteristics of Denggezhuang Gold Deposit in Jiaodong and Its Prospecting Method Combinations [J]. Gold Science and Technology, 2017, 25(3): 46-53.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
No Suggested Reading articles found!

©2018 Gold Science and Technology 

Telephone:0931-8277791 

E-mail: hjkx@lzb.ac.cn Postcode:730000 

Powered by Beijing Magtech Co. Ltd

陇ICP备17001318号-1