| China Geological Survey Chinese Academy of Geological Sciences | Host |
| 科学出版社 | Publish |
| Citation: |
YAN Lingya, GAO Shuxue, CHEN Zhengguo, JIAO Lixiang, SUN Li, LIU Yanfei, ZHOU Wen. 2018. Metallogenic characteristics and metallogenic zoning of graphite deposits in China[J]. Geology in China, 45(3): 421-440. doi: 10.12029/gc20180301
|
Metallogenic characteristics and metallogenic zoning of graphite deposits in China
-
Abstract
Graphite is widely used in such fields as metallurgy, machinery, aviation, aerospace, electronic information, and new energy vehicles, and has become an important raw material in the high technology. In recent years, Chahanmuhulu deposit in Inner Mongolia, Nanjiang deposit in Sichuan and and some other large-sized metamorphic graphite ore deposits have been found, especially the discovery of the Huangyangshan magmatic type crystalline graphite deposit in Xinjing has indicated a new direction for the study of the metallogenic regularity of graphite deposits. Based on the extensive collection and study of the past graphite achievements, combined with field research and latest graphite exploration results, the authors systematically summed up temporal and spatial distribution regularity and metallogenic factors of graphite deposits, and divided the metallogenic zone of graphite deposits. In China, the graphite ore deposits are dominated by regional metamorphic type, and the main metallogenic period is Precambrian; the deposits formed in this period have large graphite scale, high crystallinity and great economic significance. The host rock of magmatic rock type graphite deposit is Hercynian alkaline granite, whose metallogenic age is the same as the age of magma invasion; the contact metamorphic graphite ore deposits are mainly concentrated in the Permian Jurassic period, and their mineralization was closely related to the intermediate acid magmatism of the Hercynian period. The large fold structure and the transitional end of the large fold structure in the stable uplift area are favorable structural units for the formation of graphite. The authors preliminarily divided the country into 21 graphite metallogenic zone, and pointed out that Jiamusi-Xingkai (massif) graphite metallogenic belt, middle northern margin of North China block graphite metallogenic belt, Jiabei uplift metallogenic belt, Junggar massif metallogenic belt, southern margin of the North China continental block, Qinling and some other graphite metallogenic belts are especially important. The summary of the metallogenic regularity of the graphite deposits and the preliminary division of metallogenic belts are of significance for guiding the prospecting and exploration of graphite deposits.
-
-
References
An Jianghua, Tang Fenpei, Li Jie. 2016. Analysis on the metallogenic regularity and resource potential of graphite in Hunan[J]. Geological Journal, 30(3):434-437(in Chinese with English abstract). Bai Jianke, Chen Junlu, Peng Suxia. 2017. Characteristics and metallogenic regularity of graphite resources in Xinjiang[J]. Journal of Geology, 91(12):2828-2840(in Chinese with English abstract). Cao Fangfang, Wang Xiliang, Geng Tongsheng. 2012. Geological Characteristics and Genesis Analysis of Wuliliang Graphite Mine in Xichuan[J]. China Non-Metallic Minerals Industry, (94):43-44 (in Chinese with English abstract). Chen Juanlu, Bai Jianke. 2016. The discovery of Large crystalline graphite ore belt in East Junggar region Xinjiang[J]. News of the achievements of China's Geological Survey, 2016 (9):15-17. Cheng Fei, Liu Xueqing, Huang Jingyu. 2012. Analysis of the causes of tuobie Graphite Deposit of Qinghe County in Xinjiang[J].WestChina Exploration Engineering, (8):177-178. Guo Qiaoling, Wang Deming, Wei Jun. 2013. The geological characteristics and metallogenic conditions of dabsan graphite of Qinghe County in Xinjian[J]. West-China Exploration Engineering, 6:119-122. Li Chao, Wang Denghong, Zhao Hong, Pei Haoxiang, Li Xinwei, Zhou Limin, Du Andao 2015. Minerogenetic regularity of graphite deposits in China[J]. Mineral Deposits, 36(6).1223-1236. Li Hanbin, Zhang Bing. 2014. Metamorphism and its signifi-cance of Yunshan Graphite Deposit in Heilongjiang[J]. China NonMetallic Minerals Industry, (108):45-46(in Chinese with English abstract). Li Hongwei. 2015. Discussion on the genesis of Baiyunebo group graphite deposit-Taking Dawudian graphite deposit as an example[J]. Heilongjiang Science and Technology Information, (30):104 (in Chinese with English abstract). Li Zuowu, Zhang Xiaolin, Guo Zhiyun, Zhang Lei, Wu Yalun. 2017. Report on Prospecting Results of Huang Yangshan Crystalline graphite of Qitai Province in Xinjiang(2015-2017)[R]: 78-84(in Chinese). Liang Ke, Zhao Qichao, Yuan Yuqiang, Zhao Shengjun, Zhou Xun. 2012. Detailed Investigation Report of Graphite ore, Kaolin Ore and Iron Mine in the Yandiratu Mining Area of Alashan Zuoqi, Inner Mongolia autonomous Region[R]. 33-37(in Chinese). Lin Guoxuan, Lin Zihua, Zhang Ning. 2018. General survey of graphite ore in Taoqi mining area of Wuyishan City, Fujian Province[C]//New Progress of Geological Science and Technology in China and Compilation of New Results of Geological Prospecting in 2008. 239. Liu Jingdang, Xiao Rongge, Zhang Yanfei, Liang Shuai, Zhao Qing, Bai Fengjun, Zhang Yongxing, Wang Jichun, Yang Peiqi, Liu Jian. 2017. The crystalline graphite deposit in north China[M].Beijing, Science Press, 324-328(in Chinese). Ministry of Land and Resources of the People's Republic of China. 2015. Reserve Bulletin of Mineral Resources, China (2015)[R]. Beijing:Ministry of Land and Resources of the People's Republic of China, 147-148(in Chinese). Mo Rujue, Liu Shaobin, Huang Cuirong, Zhang Guangrong, Tan Guangmin, Wang Baoxian, Xiao Xiangzhang.1989. The Geology of Graphite Deposits in China[M]. Beijing:China Building Industry Press, 66-85(in Chinese). Ni Zhengping, Tian Jingxiang, Wang Laiming. 2016. Metallogenic Regularity of Important Mineral area in Shandong Province[M]. 234-238(in Chinese). Qi Xinguo, Tan Jun, Wang Zhigang, Wang Likao. 2017. Analysis of metallogenic geological conditions of graphite ore in Yi hade of Zhangbei County[J]. China Non-Metallic Minerals Industry, (2):33-39(in Chinese with English abstract). Qiu Feng, Gao Jianying, Pei Yin, Zhang Meiyun. 2016. Geological characteristics and metallogenic regularity of graphite deposit in Huangling anticline[J]. Resource Environment and Engineering, 29(3):280-281(in Chinese with English abstract). Shen Baofeng, Zhai Anmin, Yang Chunliang. 2010. Paleoproterozoic important metallogenic epoch in China[J]. Geological Survey and Research, 33(4):241-256(in Chinese with English abstract). Song Ruixian, Wei Minghui, He Yuqing. 2013. Zhangjiakou Geology and Mineral Resources[M]. Beijing, Geological Publishing House:5-18(in Chinese). Song Shuhe, Kang Yongfu, Zheng Zhi, Tu Guangzhi, Cheng Yuqi, Du Letian, Ye Lianjun, Chen Yuchuan, Tang Jingxuan. 1996. China Deposit(Ⅲ)[M]. Beijing:Geological Publishing House, 476-477(in Chinese). Sun Qingsong. 2012. Cause of formation and prospecting sign of TRAMO Oboo Ore deposit in Inner Mongolia. Public Communication of Science & Technology, 2(Ⅰ): 163-164(in Chinese). Wang Li, Fan Junlei, Feng Yangwei. 2017. Graphite resources status Quo and distribution of graphite deposits in China[J]. Coal Geology of China, 29(7):5-9(in Chinese with English abstract). Wang Lijun. 2015. Geological characteristics and resources of graphite ore in Dutun area, north town, Liaoning Province[J]. Earth, (5):106. Wang Lin. 2016. Influence of igneous rocks on the quality of graphite ore in the three great bay areas of Panzhihua City[J]. Green Building Materials, 206:235-236(in Chinese with English abstract). Wang Shilin. 1989. Characteristics of ore-bearing construction and genesis of deposit of graphite in Xinghe County Inner Mongolia[J]. Ore Deposit Geology, 8(1):85-96. Wei Junqi, Lu Li, Bian Zhihong, Zhou Liangliang, Wang Fang, Zhu Dan. 2017. Study on the geological characteristics and mineral composition of the graphite deposit in Luhua bay, Guangshui City, Hubei Province[J]. Resource Environment and Engineering, 31(1):102-115(in Chinese with English abstract). Wu Peishui, Ai Peng, Yang Liantao, Shou Li Yong. 2016. The metallogenic characteristics and prospecting direction of graphite deposits in Shanxi province[J]. China Non-metallic Minerals Industry Guide, (123):5-6(in Chinese with English abstract). Xia Hui, Dai Xiaolong, Liu Xueqing, Xie Mingyong, Zhang Baoguo.2013. A preliminary study on induced electrical abnormal characteristics and prospecting results of Alatuobie graphite mine in Xinjiang Province[J]. Western Exploration Project, (11):150-152(in Chinese with English abstract). Xia Jinsheng, Sun Li, Xiao Keyan, Zhu Yusheng. 2017. Geological characteristics and genetic analysis of graphite deposits in Pinghe, Nanjiang County, Sichuan Province[J]. Modern Mining, (573):57-59(in Chinese with English abstract). Xiao Keyan, Sun Li, Li Siyuan, Huang An. 2016. Geological characteristics and mineralization potential of graphite resource in China[J]. Acta Geoscientica Sinica, 37(5):607-614(in Chinese with English abstract). Xu Zhigang, Chen Yuchuan, Wang Denghong, Chen Zhenghui. 2008.Classification Scheme of China Metallogenic Zone[M]. Beijing:Geological Publishing House:2-5(in Chinese). Xue Tianchuang, Yang Shihui, Shen Kun, Qin Xiao. 2016. distuibution characteristics of graphite ore deposit and prospecting direction of henan Province[J]. Zhongzhou Coal, (429):155-158(in Chinese with English abstract). Yan Lingya, Chen Junyuan, Sun Shuxian, Zhou Wen. 2012. Geological characteristics and prospecting criteria of the Liu Gezhuang Graphite Deposit of Pingdu City in Shandong Province[J]. Land and Resources in Shandong, 28(2):11-17(in Chinese with English abstract). Yu Lei. 2012. Characteristics of graphite deposit in baishan village, Xinrong district, Datong City, Shanxi Province[J].Friend of Science Amateurs, (9):119-120.(in Chinese with English abstract). Yu Shijun. 2012. The geological characteristics and prospecting direction of Jiangxi Jinxi area graphite deposit[J]. Non-Metallic Mines, 35(3):74-77(in Chinese with English abstract). Zeng Qingbin. 2015. Geological characteristics and genesis of the crystal graphite deposit of Shuangxing six team in Jian City[J]. China Non-metallic Minerals Industry Guide, (114):42-45(in Chinese with English abstract). Zhang Guoxin, Hu Aiqin, Zhang Hongbin, Zhang Qianfeng, Shen Youlin.1996. Carbon isotope evidence for ogenesis of graphite deposit of Sujiquan in Xinjiang Province[J]. Geochemistry, 25(4):379-385 (in Chinese with English abstract). Zhang Qingping, Tian Chengsheng. 2012. Analysis on geological characteristics and genesis of Sanchaya graphite mine in Hubei Province[J]. China Non-Metallic Mining Industry Herald, (90):5-7. Zhang Tianyu, Zhang Zhongliang, Li Jinqian. 2014. Review of research on regional metamorphic graphite deposits in China[J]. China Non-Metallic Mining Industry Herald, (111):36-38(in Chinese with English abstract). Zhang Xiaolin, Fan Wenjun, Li Zuowu, Chen Zhengguo, Chen Junyuan. 2017. Super large crystalline graphite deposit was found in Huangyang mountain, Qitai County, Xinjiang[J]. Geology in China, 44(5):1033-1034(in Chinese with English abstract). Zhang Xinhu, Tang Zhongli, Liu Jianhong, Ren Shoufeng, Zhao Yanqing. 2012. Study on Mineralization Series in Gansu province[J]. Gansu Geology, 16(4):4-5(in Chinese with English abstract). Zhang Zengqi, Liu Mingwei, Song Zhiyong, Zhang Shufang, Luan Hengyan, Chishouxiang, Xu Lijun, Zhao Guanghua, Gao Meixia, Chipeixing. 1996. Rock Formations in Shandong Province[M]. Beijing:China University of Geosciences Press, 58-59(in Chinese). Zhao Ranran, Song Shouyong. 2013. Metallogenic condition of graphite ore in Heilongjiang[J]. Industry and Technology BBS, 12(6):64-65. Zhao Xiangan. 2015. Characteristics and genetic analysis of the deposit in the Dulan Province[J]. China Non-Metallic Mining Industry Herald, (114):54-55. Zheng Yongtao, Gao Jie, Sun li, Hao Peiyao. Geological characteristics and prospecting indicators of the Chahanmuhulu crystalline graphite deposit in Alxa Left Banner of Inner Mongolia[J]. Journal of Geology, 40(4): 695-700. Zhou Di, He Wei. 2013. Geological characteristics and genetic analysis of Xiuyan rich graphite in Liaoning Province[J]. Groundwater, 35(5):151-153 (in Chinese with English abstract). 安江华, 唐分配, 李杰. 2016.湖南石墨成矿规律与资源潜力分析[J].地质学刊, 30(3):434-437. 白建科, 陈隽璐, 彭素霞. 2017.新疆石墨资源特征及成矿规律[J].地质学报, 91(12):2828-2840. doi: 10.3969/j.issn.0001-5717.2017.12.017 曹芳芳, 王喜亮, 耿同升. 2012.淅川县五里梁石墨矿区地质特征及成因浅析[J].中国非金属矿工业导刊, (94):43-44. 陈隽璐, 白建科. 2016.新疆东准噶尔地区发现大型晶质石墨矿带[J].中国地质调查成果快讯, (9):15-17. 成飞, 刘学清, 黄静宇. 2012.新疆青河县阿拉托别石墨矿矿床成因分析[J].西部探矿工程, (8):177-178. 郭巧玲, 王德明, 魏军. 2013.新疆青河县达布逊石墨矿床地质特征及成矿条件分析[J].西部探矿工程, 6:119-122. 国土资源部. 2016. 全国矿产资源储量通报(2016年)[R]. 北京: 国土资源部. 147-148. 李超, 王登红, 赵鸿, 裴浩翔, 李欣尉, 周利敏, 杜安道, 屈文俊. 2015.中国石墨矿床成矿规律概要[J].矿床地质, 36(6):1223-1236. 李寒滨, 张冰. 2014.黑龙江云山石墨矿床变质作用及其意义[J].中国非金属矿工业导刊, (108):45-46. 李洪卫. 2015.白云鄂博群石墨矿成因探讨——以大乌店石墨矿为例[J].黑龙江科技信息, (30):104. doi: 10.3969/j.issn.1673-1328.2015.30.089 李作武, 张小林, 郭志云, 张磊. 吴亚伦. 2017. 新疆奇台县黄羊山晶质石墨矿找矿成果报告(2015-2017)[R]: 78-84 梁柯, 赵起超, 员玉强, 赵生俊, 周勋. 2012. 内蒙古自治区阿拉善左旗闫地拉图矿区石墨矿、高岭土矿、铁矿详查报告[R]. 33-37. 林国宣, 林子华, 张宁. 2018. 福建省武夷山市桃棋矿区石墨矿普查[C]//2008年中国地质科技新进展和地质找矿新成果资料汇编: 239. 刘敬党, 肖荣阁, 张艳飞, 梁帅, 赵青, 白凤军, 张永兴, 王继春, 杨培奇.刘剑. 2017.华北显晶质石墨矿床[M].北京:科学出版社, 324-328. 莫如爵, 刘绍斌, 黄翠蓉, 张光荣, 谭冠民, 王宝娴, 肖祥章. 1989.中国石墨矿床地质[M].北京:中国建筑工业出版社, 66-85. 倪振平, 田京祥, 王来明, 李庆平. 2016. 山东省重要矿产区域成矿规律[M]. 234-238. 齐新国, 谭均, 王志刚, 王立考. 2017.张北县义哈德一带石墨矿成矿地质条件分析[J].中国非金属矿工业导刊, (2):33-39. 邱风, 高建营, 裴银, 张美云. 2016.黄陵背斜石墨矿地质特征及成矿规律[J].资源环境与工程, 29(3):280-281. 沈保丰, 翟安民, 杨春亮. 2010.古元古代——中国重要成矿期[J].地质调查与研究, 33(4):241-256. 宋瑞先, 魏明辉, 何宇青. 2013.张家口地质矿产[M].北京:地质出版社.5-18. 宋叔和, 康永孚, 郑直, 涂光炽, 程裕淇, 杜乐天, 叶连俊, 陈毓川, 唐静轩.1996.中国矿床(下册)[M].北京:地质出版社, 476-477. 孙青松. 2012.内蒙古扎木敖包矿区矿床成因与找矿标志[J].科技传播, 2(上):163-164. 王力, 樊俊雷, 冯杨伟. 2017.石墨资源现状及中国石墨矿床分布[J].中国煤炭地质, 29(7):5-9. 王立君. 2015.辽宁省北镇市杜屯地区石墨矿地质特征及资源概况[J].地球, (5):106. 王林. 2016.攀枝花三大湾地区岩浆岩对石墨矿质量的影响[J], 绿色环保建材, 206:235-236. 王时麒. 1989.内蒙兴和石墨矿含矿建造特征与矿床成因[J].矿床地质, 8(1):85-96. 魏均启, 鲁力, 边智虹, 周亮亮, 王芳, 朱丹. 2017.湖北省广水市芦花湾石墨矿地质特征及矿石物质组成研究[J].资源环境与工程, 31(1):102-115. 吴培水, 艾蓬, 杨联涛, 寿立永. 2016.陕西省石墨矿床成矿特征及找矿方向[J].中国非金属矿工业导刊, (123):5-6. 夏辉, 代晓龙, 刘学清, 谢名永, 张保国. 2013.新疆阿拉托别石墨矿激电异常特征及找矿效果的初步研究[J].西部探矿工程, (11):150-152. doi: 10.3969/j.issn.1004-5716.2013.11.047 夏錦胜, 孙莉, 肖克炎, 朱裕生. 2017.四川省南江县坪河石墨矿床地质特征及成因分析[J].现代矿业, (573):57-59. 肖克炎, 孙莉, 李思远, 黄安. 2016.我国石墨矿产地质特征及资源潜力分析[J].地球学报, 37(5):607-614. doi: 10.3975/cagsb.2016.05.08 薛天闯, 杨士辉, 沈坤, 秦潇. 2016.河南省石墨矿床分布特征及找矿方向[J].中州煤炭, (9):155-158. 徐志刚, 陈毓川, 王登红, 陈郑辉. 2008.中国成矿区带划分方案[M].北京:地质出版社, 2-5. 颜玲亚, 陈军元, 杜华中, 孙淑贤, 周雯. 2012.山东平度刘戈庄石墨矿地质特征及找矿标志[J].山东国土资源, 28(02):11-17. doi: 10.3969/j.issn.1672-6979.2012.02.004 于雷. 2012.山西省大同市新荣区白山村石墨矿床特征浅析[J].科学之友, (9):119-120. 余仕军. 2012.江西金溪地区石墨矿床地质特征及找矿方向[J].中国非金属矿工业导刊, 35(3):74-77. 曾庆彬. 2015.集安市双兴六队晶质石墨矿床地质特征及成因[J].中国非金属矿工业导刊, (114):42-45. 张国新, 胡霭琴, 张鸿斌, 张前峰, 申佑林. 1996.新疆苏吉泉石墨矿床成因的碳同位素证据[J].地球化学, 25(4):379-385. 张清平, 田成胜. 2012.湖北三岔娅石墨矿地质特征及成因分析[J].中国非金属矿工业导刊, (90):5-7. 张天宇, 张忠良, 李金钱. 2014.我国区域变质型石墨矿床研究现状综述[J].中国非金属矿工业导刊, (111):36-38. 张小林, 樊文军, 李作武, 陈正国.陈军元. 2017.新疆奇台县黄羊山发现超大型晶质石墨矿床[J].中国地质, 44(5):1033-1034. 张新虎, 汤中立, 刘建宏, 任丰寿, 赵延庆.2012.甘肃省矿床成矿系列研究[J].甘肃地质, 16(4):4-5. 张增奇, 刘明渭, 宋志勇, 张淑芳, 栾恒彦, 迟守祥, 徐立军, 赵光华, 高美霞, 迟培星. 1996.山东省岩石地层[M].北京:中国地质大学出版社, 58-59. 赵然然, 宋守永. 2013.黑龙江省石墨矿成矿条件探究[J].产业与科技论坛, 12(6):64-65. 赵想安. 2015.都兰县查汗达洼特石墨矿矿床特征及成因分析[J].中国非金属矿工业导刊, (114):54-55. 郑永涛, 高洁, 孙莉, 郝培珧. 2016.内蒙古阿拉善左旗查汗木胡鲁晶质石墨矿地质特征及找矿标志[J].地质学刊, 40(4):695-700. 周頔, 何伟. 2013.辽宁岫岩丰富石墨矿地质特征及成因分析[J].地下水, 35(5):151-153. -
Access History
Figures(9)
Tables(13)
Export File
Citation
YAN Lingya, GAO Shuxue, CHEN Zhengguo, JIAO Lixiang, SUN Li, LIU Yanfei, ZHOU Wen. 2018. Metallogenic characteristics and metallogenic zoning of graphite deposits in China[J]. Geology in China, 45(3): 421-440. doi: 10.12029/gc20180301
Format
Content
DownLoad:
-
Figure 1.
Reserves of crystalline and amorphous graphite from 2008 to 2016 in China
-
Figure 2.
Graphite deposits and the stratigraphic distribution of Archeozoic-Proterozoic strata in China
-
Figure 3.
Proportion of resource reserves distribution of crystalline graphite deposits in different metallogenic epochs in China
-
Figure 4.
Resource distribution of contact metamorphism type (cryptic graphite deposits) in different metallogenic epochs in China
-
Figure 5.
Metallogenic belts of graphite deposits in China
-
Figure 6.
Geological map of graphite deposits of Liugezhuang(after Yan Lingya et al.2012)
-
Figure 7.
Geological map of graphite deposit of Chahanmuhulu(after Zheng Yongtao, 2016)
-
Figure 8.
Geological sketch map of No. ② graphite orebody(after Li Zuowu et al., 2017)
-
Figure 9.
Structural morphological characteristics of surface graphite of No. ②(after photos in the field)