| Citation: |
HAO Xing-zhong, XIAO Ke-yan, WANG Qiao-yun, ZHU Xue-qiang, LI Ying-ping, ZHI Yun-bao, ZHANG Wen, ZHANG Zhi-gang, PENG Guan-feng, LIU Fang, LIU Bin-bin. 2023. Metallogenic Regularity and Potential Analysis of Iron Ore in Shandong Province. Acta Geoscientica Sinica, 44(5): 834-848. doi: 10.3975/cagsb.2023.012902
|
Metallogenic Regularity and Potential Analysis of Iron Ore in Shandong Province
-
Abstract
Shandong Province is located in the east of China and has experienced a long history of geological evolution. It is divided into two main blocks of western Shandong and eastern Shandong. The geology andmineral resources have their own distinct characteristics. Among these, the iron ore-forming geological conditions in the area are superior, the genetic types are diverse, the deposits are widely distributed, and the resources reserves are abundant. It is an important iron ore development base in China. The purpose of this study is to summarize the geological and mineral data of the province, analyze the iron metallogenic regularity of the province from the aspects of stratigraphic ore-hosting, structural ore-controlling, magmatic ore-forming and geophysical anomaly prospecting, and further study the iron ore resource potential of the province. This study found that the iron ore types in the province are divided into 14 ore deposit types, including Cangyi type, Laiwu type, Lianziwang type, and Zhuya type, etc. The study on the metallogenic regularity of iron ore showed that each type of iron ore is controlled by geological structure evolution, strata, magmatic rock and structure; For example, in terms of strata ore-controlling, sedimentary metamorphic type and chemical sedimentary type are more prominent; in terms of magmatic rock ore-controlling, magmatic type iron ore is the most prominent; while contact metasomatic type iron ore is the result of the combined ore-controlling of strata, magmatic rock and structure. With the continuous advancement of deep prospecting, the focus of future exploration work is to summarize geophysical anomalies prospecting carefully, and the exploration of low slow magnetic anomaly areas is the key to making great progress.Based on the comparative analysis of the temporal and spatial distribution characteristics of iron ore in the whole region and the study of metallogenic regularity, the metallogenic series of iron ore in the whole province are divided, and the comprehensive prospecting prediction model was summarized. The study established a comprehensive iron ore exploration technology system in the study area. The study has delineated 36 iron ore prospecting areas, including Cangyi iron ore prospecting area, Laiwu iron ore prospecting area, Zihe iron ore prospecting area and Laiyang West iron ore prospecting area; Among them, there are 15 sedimentary metamorphic type iron ores, 9 contact metasomatic type iron ores, 4 magmatic hydrothermal type iron ores and 8 magmatic type iron ores. There are 18 class A prospecting areas, 13 class B prospecting areas and 5 class C prospecting areas in the 36 iron ore prospecting area above. In the future exploration of various iron ore types, sedimentary metamorphic iron ore and contact metasomatic iron ore are the focus of future exploration. This study provides the deployment basis and exploration direction for the future iron ore prospecting work in the province. -
-
References
安茂国. 2019. 山东省苍峄铁矿带成矿规律与找矿方向研究[D].北京: 中国地质大学(北京): 1-83. 陈伟军, 刘红涛, 刘建明, 曾庆栋, 于昌明, 叶杰. 2008. 隐伏矿床定位预测常用的综合物化探方法[J]. 有色矿冶, 24(2):2-7. 陈毓川, 裴荣富, 王登红, 黄凡. 2016. 矿床成矿系列--五论矿床的成矿系列问题[J]. 地球学报, 37(5): 519-527. 陈毓川, 裴荣富, 王登红. 2006. 三论矿床的成矿系列问题[J].地质学报, 10: 1501-1508. 陈毓川. 1994. 矿床的成矿系列[J]. 地学前缘, 1(3-4): 90-94. 段壮. 2019. 山东莱芜地区矽卡岩型铁矿床成矿作用与成矿机制研究[D]. 武汉: 中国地质大学: 1-190. 樊铭静, 肖克炎, 徐旸 . 2022. 全球关键矿产资源潜力评价理论方法的发展趋势与进展[J]. 科学技术与工程, 22(1): 1-17. 郭延明, 郝兴中, 钟伟杰, 汝亮, 赵诚亮. 2017. 地面高精度磁测在隐伏铁矿勘查中的应用: 以山东省禹城市李屯地区铁矿为例[J]. 山东国土资源, 33(10): 53-57. 韩鎏. 2014. 山东莱芜含矿岩体成因及其与铁矿的关系[D]. 北京: 中国地质大学: 8-53. 韩润生, 赵冻. 2022. 初论岩浆热液成矿系统控岩控矿构造深延格局研究方法[J]. 地学前缘, 29(5): 420-437. 郝兴中, 李洪奎, 李英平, 王巧云. 2017. 山东单县地区BIF 型铁矿成矿时代-SHRIMP U-Pb 锆石定年[J]. 山东国土资源, 33(3): 1-7. 郝兴中, 李洪奎, 彭观峰, 王巧云, 智云宝, 张华平, 张春池.2022. 鲁西苍峄铁矿带西延隐伏区BIF 型铁矿成矿预测[J].山东国土资源, 38(3): 1-7. 郝兴中, 李英平, 杨毅恒, 王英鹏. 2014. 山东单县覆盖区铁矿特征及找矿方向研究[J]. 山东国土资源, 30(3): 56-61. 郝兴中, 刘伟, 臧凯, 张学松. 2018b. 鲁西潘店地区矽卡岩型铁矿成矿规律初探[J]. 山东国土资源, 34(7): 27-33. 郝兴中, 王巧云. 2016. 鲁中隆起区中北部矽卡岩型铁矿成矿预测[J]. 地质学刊, 40(3): 443-449. 郝兴中, 杨毅恒, 李洪奎, 李英平. 2018a. 鲁西地区“杨庄式”铁矿的命名与预测模型[J]. 科学技术与工程, 18(6): 65-72. 郝兴中, 杨毅恒, 李英平, 高华丽. 2013b. 山东省苍峄铁矿带预测模型[J]. 吉林大学学报(地球科学版), 43(4): 1136-1142. 郝兴中, 杨毅恒, 李英平, 王巧云, 王英鹏, 王立功. 2013a. 综合找矿方法在覆盖区的应用--以山东省单县大刘庄铁矿勘查为例[J]. 吉林大学学报(地球科学版), 43(2): 641-648. 郝兴中, 杨毅恒, 李英平, 王巧云. 2018d. 山东成武-曹县地区磁异常特征及铁矿预测[J]. 地球物理学进展, 33(2):613-619. 郝兴中, 杨毅恒, 刘伟. 2018c. 山东潘店地区矽卡岩型铁矿地质特征及找矿意义[J]. 科学技术与工程, 18(20): 51-58. 郝兴中, 郑金明, 刘伟, 王润生, 王巧云, 张贵丽. 2020. 山东省齐河-禹城地区矽卡岩型铁矿成矿预测[J]. 地球学报, 41(2): 293-302. 郝兴中. 2014. 鲁西地区铁矿成矿规律与预测研究[D]. 北京:中国地质大学(北京). 华仁民, 毛景文. 1999. 试论中国东部中生代成矿大爆发[J]. 矿床地质, 18(4): 300-308. 黄旭钊, 范正国, 何敬梓, 葛藤菲, 王思浔, 满毅, 王鹏, 李军, 王恒. 2022. 隐伏岩浆型铜镍矿空-地-井协同勘查技术体系[J]. 物探与化探, 46(3): 597-607. 贾逸卿, 张艳飞, 陈小荣, 陈其慎, 龙涛, 齐刚, 陈升立. 2021.京津冀地区铁矿石需求预测[J]. 地球学报, 42(2): 217-222. 江彪, 王登红, 马玉波, 蒲秀浪, 刘建宏, 樊新祥, 赵吉昌, 叶红刚, 胡小春, 陈晔, 徐沛斌, 范宗福. 2022. 北山及其相邻地区主要矿床类型、找矿新进展及方向[J]. 地质学报, 96(6): 2206-2216. 金子梁. 2017. 矽卡岩型富铁矿成因研究--以鲁西淄博和莱芜铁矿为例[D]. 北京: 中国地质大学(北京): 1-102. 孔庆友, 张天祯, 于学峰, 徐军祥, 潘元林, 李献水.2006. 山东矿床[M]. 济南: 山东科学技术出版社: 291-346. 赖小东, 杨晓勇. 2012. 鲁西杨庄条带状铁建造特征及锆石年代学研究[J]. 岩石学报, 28(11): 3612-3622. 蓝廷广, 范宏瑞, 胡芳芳, 杨奎锋, 郑小礼, 张华东. 2012.鲁东昌邑古元古代BIF 铁矿矿床地球化学特征及矿床成因讨论[J]. 岩石学报, 28(11): 3595-3611. 郎兴海, 崔志伟, 王旭辉, 邓煜霖, 谢富伟, 韩鹏, 杨宗耀, 张忠, 黄勇, 李志军, 尹青, 张金树, 丁枫, 董树义, 王子正, 张丽. 2017. 西藏谢通门县雄村矿集区综合信息找矿模型及靶区预测[J]. 地球学报, 38(5): 790-802. 李洪奎, 耿科, 李逸凡, 禚传源. 2011. 沂南县铜井金矿床锆石SHRIMP U-Pb 年龄及其地质意义[J].矿床地质, 30(3):497-503. 李洪奎, 郝兴中.2016. 鲁西地区铁矿成矿规律研究[M]. 北京:地质出版社: 156-173. 李厚民, 陈毓川, 李立兴, 王登红.2012b. 中国铁矿成矿规律[M]. 北京: 地质出版社: 142-182. 李厚民, 王登红, 李立兴, 陈靖, 杨秀清, 刘明军. 2012a. 中国铁矿成矿规律及重点矿集区资源潜力分析[J]. 中国地质, 39(3): 559-580. 李俊建, 党智财, 彭翼, 张彤, 宋立军, 倪振平, 郭国海. 2022.华北地区铁矿资源成矿规律初探[J]. 华北地质, 45(1):79-91. 马吉宇. 2017. 铁矿石国际贸易研究综述[J]. 中国矿业, 26(增刊2): 102-107. 马明, 高继雷. 2018. 莱芜三岔河铁金矿床的发现及其特征[J].山东国土资源, 34(10): 43-48. 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]. 济南: 山东科学技术出版社: 61-124. 史蕊, 张颖慧, 卢民杰, 匡海阳, 张国利. 2018. 基于地质与重磁数据集成的河北迁安铁矿集区三维成矿预测[J]. 地球学报, 39(6): 762-770. 宋明春, 焦秀美, 张成基, 张增奇, 胡树庭, 李世勇, 李哲, 李培远. 2016. 山东省济宁群的地层序列和形成环境[J]. 地层学杂志, 40(1): 26-40. 宋明春, 王沛成.2003. 山东省区域地质[M]. 济南: 山东省地图出版社: 1-356. 万渝生, 董春艳, 颉颃强, 王世进, 宋明春, 徐仲元, 王世炎, 周红英, 马铭株, 刘敦一. 2012. 华北克拉通早前寒武纪条带状铁建造形成时代--SHRIMP 锆石U Pb 定年[J]. 地质学报, 86(9): 1447-1478. 汪青松, 张金会, 张顺林, 张家嘉, 产思维, 程培生, 崔先文, 张凯. 2021. 厚覆盖区找矿“循环渐近式勘查技术体系”与应用[J]. 地质论评, 67(4): 1129-1146. 王安建, 高芯蕊. 2020. 中国能源与重要矿产资源需求展望[J].中国科学院院刊, 35(3): 338-344. 王登红, 陈毓川, 徐志刚, 陈郑辉, 沈保丰, 汤中立, 裴荣富.2011. 成矿体系的研究进展及其在成矿预测中的应用[J].地球学报, 32(4): 385-395. 王世进, 万渝生, 张成基, 杨恩秀, 宋志勇, 王立法, 王金光.2009. 山东早前寒武纪变质地层形成年代--锆石SHRIMP U-Pb 测年的证据[J]. 山东国土资源, 25(10):18-24. 王伟, 王世进, 刘敦一, 李培远, 董春艳, 颉颃强, 马铭株, 万渝生. 2010. 鲁西新太古代济宁群含铁岩系形成时代--SHRIMP U-Pb 锆石定年[J]. 岩石学报, 26(4): 1175-1181. 王玉往, 解洪晶, 石煜, 周国超. 2017. 山东省齐河-禹城地区接触交代型富铁矿综合信息找矿预测地质模型[R]. 北京:北京矿产地质研究院: 15-55. 肖克炎, 程松林, 娄德波, 孙莉. 2010a. 区域矿产定量评价的矿床综合信息评价模型[J]. 地质通报, 29(10): 1430-1444. 肖克炎, 李楠, 王琨, 孙莉, 范建福, 丁建华. 2015. 大数据思维下的矿产资源评价[J]. 地质通报, 34(7): 1266-1272. 肖克炎, 叶天竺, 李景朝, 杨毅恒, 丁建华, 娄德波. 2010b. 矿床模型综合地质信息预测资源量的估算方法[J]. 地质通报, 29(10): 1404-1412. 谢承祥, 李厚民, 王瑞江, 肖克炎. 2009. 中国查明铁矿资源储量的数量、分布及保障程度分析[J]. 地球学报, 30(3):387-394. 杨承海, 许文良, 杨德彬, 刘长春, 柳小明, 胡兆初. 2005. 鲁西济南辉长岩的形成时代: 锆石LA-ICP-MSU-Pb 定年证据[J].地球学报, 26(4): 321-325. 叶天竺, 吕志成, 庞振山.2014. 勘查区找矿预测理论与方法(总论)[M]. 北京: 地质出版社: 186-190. 叶天竺, 韦昌山, 王玉往, 祝新友, 庞振山.2017. 勘查区找矿预测理论与方法(各论)[M]. 北京: 地质出版社: 319-352. 于学峰, 张天祯, 王虹.2015. 山东矿床成矿系列[M]. 北京: 地质出版社: 13-631. 曾广湘, 吕昶, 徐金芳.1998. 山东铁矿地质[M]. 济南: 山东科学技术出版社: 49-84. 张岩, 张尚坤, 陈文韬, 张文佳, 孙雨沁. 2018. 山东省东阿县单庄铁矿床地质特征及找矿前景[J]. 山东国土资源, 34(5):74-80. 张艳飞, 郑国栋, 陈其慎, 陈小荣, 邢佳韵, 王琨, 阴秀琦, 覃升. 2021. 后疫情时期全球铁矿资源格局分析[J]. 地球学报, 42(2): 209-216. 张增奇, 李英平, 王怀洪, 刘兴旺. 2016. 山东省齐河禹城地区发现大型富铁矿[J]. 山东国土资源, 32(5): 94. 赵蕻, 谢兴友, 王士党, 纪晓阳. 2016. 综合物探方法在航磁查证中的应用--以济宁梁山东丁庄铁矿勘查为例[J]. 山东国土资源, 32(6): 71-74. 赵一鸣, 林文蔚, 毕承思, 李大新. 1986. 中国矽卡岩矿床基本地质特征[J]. 地球学报, 8(3): 59-87. AN Mao-guo. 2019. Study on metallogenic regularity and prospecting direction of Cangyi iron ore belt in Shandong Province[D]. Beijign: China University of Geosciences (Beijing):1-83(in Chinese with English abstract). CHEN Wei-jun, LIU Hong-tao, LIU Jian-ming, ZENG Qing-dong, YU Chang-ming, YE Jie. 2008. Comprehensive geophysical and geochemical prospecting method for concealed deposit localization prediction[J]. Nonferrous Mining and Metallurgy, 24(2): 2-7(in Chinese with English abstract). CHEN Yu-chuan, PEI Rong-fu, WANG Deng-hong, HUANG Fan 2016. Minerogenetic Series for Mineral Deposits:Discussion on Minerogenetic Series (V)[J]. Acta Geoscientica Sinica, 37(5): 519-527. CHEN Yu-chuan, PEI Rong-fu, WANG Deng-hong. 2006. On minerogenetic (metallogenetic) series: Third discussion[J].Acta Geologica Sinica, 80(10): 1501-1508(in Chinese with English abstract). CHEN Yu-chuan. 1994. Metallogenic series of ore deposits[J].Earth Sciences Frontiers, 1(3-4): 90-94(in Chinese with English abstract). DUAN Zhuang. 2019. The mineralization and mechanism of the iron skarn deposits in Laiwu district, Shandong Province[D].Wuhan: China University of Geosciences(Wuhan): 1-190(in Chinese with English abstract). FAN Ming-jing, XIAO Ke-yan, XU Yang. 2022. Development trend and progress of theories and methods for potential evaluation of global critical mineral resources[J]. Science Technology and Engineering, 22(1): 1-17(in Chinese with English abstract). GUO Yan-ming, HAO Xing-zhong, ZHONG Wei-jie, RU Liang, ZHAO Cheng-liang. 2017. Application of high precision magnetic measurement in exploration of hidden iron deposit:setting iron deposits in Litun area of Yucheng city in Shandong Province as an example[J]. Shandong Land and Resources, 33(10): 53-57(in Chinese with English abstract). HAN Liu. 2014. Genesis and Relationship with the Iron Mine of Ore-Bearing Rock Mass in Laiwu of Shandong Province[D].Beijing: China University of Geosciences(Beijing): 8-53(in Chinese with English abstract). HAN Run-sheng, ZHAO Dong. 2022. Research methods for the deep extension pattern of rock/ore-controlling structures of magmatic-hydrothermal ore deposits-a preliminary study[J].Earth Science Frontiers, 29(5): 420-437(in Chinese with English abstract). HAO Xing-zhong, LI Hong-kui, LI Ying-ping, WANG Qiao-yun.2017. Formation age of BIF iron ore deposit of Shanxian Area in Shandong Province- Constraints from SHRIMP Zircon U-Pb Dating[J]. Shandong Land and Resources, 33(3): 1-7(in Chinese with English abstract). HAO Xing-zhong, LI Hong-kui, PENG Guan-feng, WANG Qiao-yun, ZHI Yun-bao, ZHANG Hua-ping, ZHANG Chun-chi. 2022. Metallogenic prediction of BIF type iron deposit in hidden area in the western extension of Cangyi iron ore belt in western Shandong Province[J]. Shandong Land and Resources, 38(3): 1-7(in Chinese with English abstract). HAO Xing-zhong, LI Ying-ping, YANG Yi-heng, WANG Ying-peng. 2014. Study on characteristics and prospecting direction of iron deposit in Shanxian coverage area in Shandong Province[J]. Shandong Land and Resources, 30(3):56-61(in Chinese with English abstract). HAO Xing-zhong, LIU Wei, ZANG Kai, ZHANG Xue-song.2018b. Primary study on metallogenic regularity of skarn type iron deposit in Pandian area in western Shandong Province[J].Shandong Land and Resources, 34(7): 27-33(in Chinese with English abstract). HAO Xing-zhong, WANG Qiao-yun. 2016. Metallogenic prospec-tion of sharn type iron ore in the central and northern Luzhong uplift, east China[J]. Journal of Geology, 40(3): 443-449(in Chinese with English abstract). HAO Xing-zhong, YANG Yi-heng, LI Hong-kui, LI Ying-ping.2018a. Proposal of “Yangzhuang type” iron ore and prediction model in Luxi area[J]. Science Technology and Engineering, 18(6): 65-72(in Chinese with English abstract). HAO Xing-zhong, YANG Yi-heng, LI Ying-ping, GAO Hua-li.2013b. Prospecting model of the Cangyi iron metallogenic belt in Shandong Province, China[J]. Journal of Jilin University (Earth Science Edition), 43(4): 1136-1142(in Chinese with English abstract). HAO Xing-zhong, YANG Yi-heng, LI Ying-ping, WANG Qiao-yun, WANG Ying-peng, WANG Li-gong. 2013a. Application of the integrated ore prognosis method in coverage area: a case study of Shanxian iron deposit in Shandong Province, China[J]. Journal of Jilin University (Earth Science Edition), 43(2): 641-648(in Chinese with English abstract). HAO Xing-zhong, YANG Yi-heng, LI Ying-ping, WANG Qiao-yun. 2018d. Magnetic anomaly characteristics and iron ore prediction of Chengwu-Caoxian county area in Shandong Province, China[J]. Progress in Geophysics, 33(2): 613-619(in Chinese with English abstract). HAO Xing-zhong, YANG Yi-heng, LIU Wei. 2018c. Geological characteristics and prospecting significance of skarn type iron deposit in Pandian area, Shandong Province[J]. Science Technology and Engineering, 18(20): 51-58(in Chinese with English abstract). HAO Xing-zhong, ZHENG Jin-ming, LIU Wei, WANG Run-sheng, WANG Qiao-yun, ZHANG Gui-li. 2020. Metallogenic prognosis of skarn-type iron ore deposits in Qihe–Yucheng area, Shandong Province[J]. Acta Geoscientica Sinica, 41(2):293-302(in Chinese with English abstract). HAO Xing-zhong. 2014. Study on metallogenic regularities and prognosis of iron deposits in western Shandong Province[D].Beijing: China University of Geosciences(Beijing)(in Chinese with English abstract). HUA Ren-min, MAO Jing-wen. 1999. A preliminary discussion on the Mesozoic metallogenic explosion in east China[J]. Mineral Deposits, 18(4): 300-308(in Chinese with English abstract). HUANG Xu-zhao, FAN Zheng-guo, HE Jing-zi, GE Teng-fei, WANG Si-xun, MAN Yi, WANG Peng, LI Jun, WANG Heng.2022. A collaborative airborne, ground, and borehole exploration technology system for concealed magmatic copper-nickel deposits[J]. Geophysical and Geochemical Exploration, 46(3): 597-607(in Chinese with English abstract). JIA Yi-qing, ZHANG Yan-fei, CHEN Xiao-rong, CHEN Qi-shen, LONG Tao, QI Gang, CHEN Sheng-li. 2021. Forecast of iron ore demand in the Beijing–Tianjin–Hebei region[J]. Acta Geoscientica Sinica, 42(2): 217-222(in Chinese with English abstract). JIANG Biao, WANG Deng-hong, MA Yu-bo, PU Xiu-lang, LIU Jian-hong, FAN Xin-xiang, ZHAO Ji-chang, YE Hong-gang, HU Xiao-chun, CHEN Ye, XU Pei-bin, FAN Zong-fu. 2022.Main deposit types, new developments and new directions of prospecting in Beishan region and its adjacent areas[J]. Acta Geologica Sinica, 96(6): 2206-2216(in Chinese with English abstract). JIN Zi-liang. 2017. Genesis of high-grade Fe skarns: a case study of Zibo and Laiwu iron deposits in western Shandong[D].Beijing: China University of Geosciences (Beijing): 1-102(in Chinese with English abstract). KONG Qing-you, ZHANG Tian-zhen, YU Xue-feng, XU Jun-xiang, PAN Yuan-lin, LI Xian-shui.2006. Deposits in Shandong province[M]. Jinan: Shandong Science & Technology Press: 291-346(in Chinese). LAI Xiao-dong, YANG Xiao-yong. 2012. Characteristics of the banded iron formation (BIF) and its Zircon chronology in Yangzhuang, western Shandong[J]. Acta Petrologica Sinica, 28(11): 3612-3622(in Chinese with English abstract). LAN Ting-guang, FAN Hong-rui, HU Fang-fang, YANG Kui-feng, ZHENG Xiao-li, ZHANG Hua-dong. 2012. Geological and geochemical characteristics of Paleoproterozoic Changyi banded iron formation deposit, Jiaodong Peninsula of eastern China[J]. Acta Petrologica Sinica, 28(11): 3595-3611(in Chinese with English abstract). LANG Xing-hai, CUI Zhi-wei, WANG Xu-hui, DENG Yu-lin, XIE Fu-wei, HAN Peng, YANG Zong-yao, ZHANG Zhong, HUANG Yong, LI Zhi-jun, YIN Qing, ZHANG Jin-shu, DING Feng, DONG Shu-yi, WANG Zi-zheng, ZHANG Li.2017. Comprehensive information prospecting model and target prediction for the Xiongcun area, Xietongmen county, Xizang[J]. Acta Geoscientica Sinica, 38(5): 790-802(in Chinese with English abstract). LI Hong-kui, GENG Ke, LI Yi-fan, ZHUO Chuan-yuan. 2011.Zircon SHRIMP U-Pb age of Tongjing gold deposit in Yinan County, Shandong and its geological significance[J]. Mineral Deposits, 30(3): 497-503(in Chinese with English abstract). LI Hong-kui, HAO Xing-zhong.2016. Study on metallogenic regularity of iron ore in Luxi area[M]. Beijing: Geological Publishing House: 156-173(in Chinese). LI Hou-min, CHEN Yu-chuan, LI Li-xing, WANG Deng-hong.2012a. Metallogenic law of iron ore in China[M]. Beijing:Geological Publishing House: 142-182(in Chinese). LI Hou-min, WANG Deng-hong, LI Li-xing, CHEN Jing, YANG Xiu-qing, LIU Ming-jun. 2012a. Metallogeny of iron deposits and resource potential of major iron minerogenetic units in China[J]. Geology in China, 39(3): 559-580(in Chinese with English abstract). LI Jun-jian, DANG Zhi-cai, PENG Yi, ZHANG Tong, SONG Li-jun, NI Zhen-ping, GUO Guo-hai. 2022. Preliminary Study on the iron resources and the metallogenic regularity in North China[J]. North China Geology, 45(1): 79-91(in Chinese with English abstract). MA Ji-yu. 2017. Summary of research on international trade of iron ore[J]. China Mining, 26(Sup.2): 102-107(in Chinese with English abstract). MA Ming, GAO Ji-lei. 2018. Discovery and characteristics of Sanchahe iron ore gold deposit in Laiwu city[J]. Shandong Land and Resources, 34(10): 43-48(in Chinese with English abstract). NI Zhen-ping, TIAN Jing-xiang, WANG Lai-ming, LI Qing-ping.2016. Metallogenic law of important mineral regions in Shandong Province[M]. Jinan: Shandong Science and Technology Press: 61-124(in Chinese). SHI Rui, ZHANG Ying-hui, LU Min-jie, KUANG Hai-yang, ZHANG Guo-li. 2018. 3D metallogenic prediction based on geological and gravity-magnetic data integration in the Qian’an iron ore concentration area, Hebei Province[J]. Acta Geoscientica Sinica, 39(6): 762-770(in Chinese with English abstract). SONG Ming-chun, JIAO Xiu-mei, ZHANG Cheng-ji, ZHANG Zeng-qi, HU Shu-ting, LI Shi-yong, LI Zhe, LI Pei-yuan.2016. Stratigraphic sequence and tectonic setting of the Jining group in Shandong Province[J]. Journal of Stratigraphy, 40(1):26-40(in Chinese with English abstract). SONG Ming-chun, WANG Pei-cheng.2003. Regional geology of Shandong Province[M]. Jinan: Map Publishing House of Shandong: 1-356(in Chinese). WAN Yu-sheng, DONG Chun-yan, XIE Hang-qiang, WANG Shijin, SONG Min-chun, XU Zhong-yuan, WANG Shi-yan, ZHOU Hong-ying, MA Ming-zu, LIU Dun-Yi. 2012. Formation ages of early Precambrian BIFs in the north China craton:SHRIMP zircon U-Pb dating[J]. Acta Geoscientica Sinica, 86(9): 1447-1478(in Chinese with English abstract). WANG An-jian, GAO Xin-rui. 2020. China’s energy and important mineral resources demand perspective[J]. Journal of the Chinese Academy of Sciences, 35(3): 338-344(in Chinese with English abstract). WANG Deng-hong, CHEN Yu-chuan, XU Zhi-gang, CHEN Zheng-hui, SHEN Bao-feng, TANG Zhong-li, PEI Rong-fu.2011. Advance in the study of mineralization system and its application to assessment of mineral resources[J]. Acta Geoscientica Sinica, 32(4): 385-395(in Chinese with English abstract). WANG Qing-song, ZHANG Jin-hui, ZHANG Shun-lin, ZHANG Jia-jia, CHAN Si-wei, CHENG Pei-sheng, CUI Xian-wen, ZHANG Kai. 2021. “Cycle asymptotic exploration technology system” and its application in thick overburden area[J]. Geological Review, 67(4): 1129-1146(in Chinese with English abstract). WANG Shi-jin, WAN Yu-sheng, ZHANG Cheng-ji, YANG En-xiu, SONG Zhi-yong, WANG Li-fa, WANG Jin-guang. 2009.Forming ages of early Precambrian metamorphic strata in Shandong Province: proofs of zircon SHRIMP U-Pb dating[J].Shandong Land and Resources, 25(10): 18-24(in Chinese with English abstract). WANG Wei, WANG Shi-jin, LIU Dun-yi, LI Pei-yuan, DONG Chun-yan, XIE Hang-qian, MA Ming-zhu, WAN Yu-sheng.2010. Formation age of the Neoarchaean Jining group (banded iron formation) in the western Shandong Province: constraints from SHRIMP zircon U-Pb dating[J]. Acta Petrologica Sinica, 26(4): 1175-1181(in Chinese with English abstract). WANG Yu-wang, XIE Hong-jing, SHI Yu, ZHOU Guo-chao. 2017.The comprehensive information prospecting geological model of contact metasomatic type rich iron ore in Qihe-Yucheng area, Shandong Province[R]. Beijing: Beijing Institute of Geology for Mineral Resources: 15-55(in Chinese). XIAO Ke-yan, CHENG Song-lin, LOU De-bo, SUN Li. 2010a.Comprehensive information evaluation model of regional mineral quantitative evaluation[J]. Geological Bulletin of China, 29(10): 1430-1444(in Chinese with English abstract). XIAO Ke-yan, LI Nan, WANG Kun, SUN Li, FAN Jian-fu, DING Jian-hua. 2015. Mineral resource evaluation under big data thinking[J]. Geological Bulletin of China, 34(7): 1266-1272(in Chinese with English abstract). XIAO Ke-yan, YE Tian-zhu, LI Jing-chao, YANG Yi-heng, DING Jian-hua, LOU De-bo. 2010b. Estimation method of comprehensive geological information of deposit model to predict resource amount[J]. Geological Bulletin of China, 29(10):1404-1412(in Chinese with English abstract). XIE Cheng-xiang, LI Hou-min, WANG Rui-jiang, XIAO Ke-yan.2009. Analysis of the quantity and distribution of the total identified iron resources in China and their supply capability[J]. Acta Geoscientica Sinica, 30(3): 387-394(in Chinese with English abstract). YANG Cheng-hai, XU Wen-liang, YANG De-bin, LIU Chang-chun, LIU Xiao-ming, HU zhao-chu. 2005. Chronology of the Jinan gabbro in western Shandong: evidence from LA-ICP-MS zircon U-Pb dating[J]. Acta Geoscientifica Sinica, 26(4): 321-325(in Chinese with English abstract). YE Tian-zhu, LÜ Zhi-cheng, PANG Zhen-shan.2014. The theory and method of prospecting and prediction in the exploration area(General Theory)[M]. Beijing: Geological Publishing House: 186-190(in Chinese). YE Tian-zhu, WEI Chang-shan, WANG Yu-wang, ZHU Xin-you, PANG Zhen-shan.2017. The theory and method of prospecting and prediction in the exploration area (Each Theory)[M].Beijing: Geological Publishing House: 319-356(in Chinese). YU Xue-feng, ZHANG Tian-zhen, WANG Hong.2015. Metallogenic series of Shandong deposits[M]. Beijing: Geological Publishing House: 13-631(in Chinese). ZENG Guang-xiang, LÜ Chang, XU Jin-fang.1998. Shandong iron ore geology[M]. Jinan: Shandong Science and Technology Press: 49-84(in Chinese). ZHANG Yan, ZHANG Shang-kun, CHEN Wen-tao, ZHANG Wen-jia, SUN Yu-qin. 2018. Geological characteristics and prospecting prospects of Shanzhuang iron deposit in Dong'e County, Shandong Province[J]. Shandong Land and Resources, 34(5): 74-80(in Chinese with English abstract). ZHANG Yan-fei, ZHENG Guo-dong, CHEN Qi-shen, CHEN Xiao-rong, XING Jia-yun, WANG Kun, YIN Xiu-qi, QIN Sheng. 2021. An analysis of global iron ore resource market trend in the post-COVID-19 period[J]. Acta Geoscientica Sinica, 42(2): 209-216(in Chinese with English abstract). ZHANG Zeng-qi, LI Ying-ping, WANG Huai-hong, LIU Xing-wang. 2016. The discovery of large type rich iron ore in Yucheng-Qihe area, Shandong Province[J]. Shandong Land and Resources, 32(5): 94(in Chinese). ZHAO Hong, XIE Xing-you, WANG Shi-dang, JI Xiao-yang. 2016.Application of comprehensive geophysical exploration in aeromagenetic anomaly area-setting Dongdingzhuang iron deposit in Liangshan couty in Jining city as an example[J].Shandong Land and Resources, 32(6): 71-74(in Chinese with English abstract). ZHAO Yi-ming, LIN Wen-wei, BI Cheng-si, LI Da-xin. 1986.Basic geological characteristics of Skarn deposits in China[J].Acta Geoscientica Sinica, 8(3): 59-87(in Chinese with English abstract). -
Access History
Export File
Citation
HAO Xing-zhong, XIAO Ke-yan, WANG Qiao-yun, ZHU Xue-qiang, LI Ying-ping, ZHI Yun-bao, ZHANG Wen, ZHANG Zhi-gang, PENG Guan-feng, LIU Fang, LIU Bin-bin. 2023. Metallogenic Regularity and Potential Analysis of Iron Ore in Shandong Province. Acta Geoscientica Sinica, 44(5): 834-848. doi: 10.3975/cagsb.2023.012902
DownLoad: