|
|
Research and compilation progress of “Annals of Geology of Mineral Resources of China” (2018-2021) |
HUANG Fan1, WANG Denghong1, WANG Yan1, CHEN Yuchuan2, ZHU Mingyu2, CHEN Zhenghui1, ZHAO Zhi1, ZHAO Ruyi1,3, GAO Yanfeng1,4 |
1. Key Laboratory of Mineralization and Resource Evaluation, Ministry of Natural Resources, Institute of Mineral Resources, Chinese Academy of Geological Sciences, Beijing 100037, China; 2. Chinese Academy of Geological Sciences, Beijing 100037, China; 3. State Key Laboratory of Nuclear Resources and Environment, East China University of Technology, Jiangxi Nanchang 330013, China; 4. Hebei Institute of Geological Survey, Hebei Shijiazhuang 050081, China |
|
|
Abstract The research and compilation work of “Annals of Geology of Mineral Resources of China” have been through 10 years, with review of more than 180 annals and publication of 50 books. The compilation work content cover four aspects: provincial annals, national mineral (or minerals group) annals, regional annals and thematic research. The distribution characteristics of mineral resources in China has been basically identified through the compilation work, and new metallogenic theoretical understanding of REE, scattered elements, tungsten and other mineral groups has been obtained, which has enriched the research content of typical deposits. The metallogenic regularity of mineral resources in China have been summarized from multi-level and multi-dimensional dimensions, and a new generation of “five-in-one” metallogenic regularity maps have been compiled to reflect the spatial and temporal distribution of evolution regularity of strata, structure, magmatism and mineralization. The mineral deposits theory of minerogenetic series has been delved to put forward 6 orders metallogenic series sequence, which has added the highest level from previous 5 orders sequence: metallogenic system. Besides, it is proposed the systematically study of metallogenic system should be from two dimensions of time and space, so as to better explore the spatial and temporal distribution, mutual relationship and evolution of minerogenetic series for mineral deposits.
|
Received: 20 February 2022
|
|
|
|
|
[1] 顾琅,周树人.中国矿产志[M].上海:普及书局,1906:1-109. Gu L,Zhou S R.Mineral Resources of China[M].Shanghai:Popu-lar Book Company,1906:1-109. [2] 黄凡,王登红,陈毓川,等.百年勘查成果与成矿规律之集大成——首部《中国矿产地质志》研编阶段性进展概述[J].地质学报,2020,94(1):1-17. Huang F,Wang D H,Chen Y C,et al.An overview of over 100 years of research achievements and compilation of the first “Annals of Geology of Mineral Resources of China”[J].Acta Geol Sin,2020,94(1):1-17. [3] 中国矿产地质志项目办公室.中国矿产地质志省级矿产地质志研编技术要求[R].北京:中国矿产地质志项目办公室,2016:1-232. Project Office of “Annals of Geology of Mineral Resources of China”.Technical Requirements for Research and Compilation of Provincial Annals of “Annals of Geology of Mineral Resources of China”[M].Beijing:China Mineral Geology Project Office,2016:1-232. [4] 王岩,王登红,黄凡.中国矿产地质志·中国矿产地分省图集(2020)[M].北京:地质出版社,2020. Wang Y,Wang D H,Huang F.Provincial Atlas of Mineral Occurrences in China of “Annals of Geology of Mineral Resources of China”[M].Beijing:Geological Publishing House,2020. [5] Zhao Z,Wang D H,Bagas L,et al.Geochemical and REE mineralogical characteristics of the Zhaibei granite in Jiangxi Province,Southern China,and a model for the genesis of ion-adsorption REE deposits[J].Ore Geol Rev,2022,140:104579,doi:10.1016/j.oregeorev.2021.104579. [6] 赵芝,王登红,邹新勇.“寨背式”离子吸附型稀土矿床多类型稀土矿化及其成因[J].岩石学报,2022,38(2):356-370. Zhao Z,Wang D H,Zou X Y.The genesis and diversity of ion adsorption REE mineralization in the Zhaibei deposit,Jiangxi Province,South China[J].Acta Petrol Sin,2022,38(2):356-370. [7] 王登红.关键矿产的研究意义、矿种厘定、资源属性、找矿进展、存在问题及主攻方向[J].地质学报,2019,93(6):1189-1209. Wang D H.Study on critical mineral resources:significance of research,determination of types,attributes of resources,progress of prospecting,problems of utilization,and direction of exploita-tion[J].Acta Geol Sin,2019,93(6):1189-1209. [8] 侯增谦,陈骏,翟明国.战略性关键矿产研究现状与科学前沿[J].科学通报,2020,65(33):3651-3652. Hou Z Q,Chen J,Zhai M G.Current status and frontiers of research on critical mineral resources[J].Chin Sci Bull,2020,65(33):3651-3652. [9] John D A,Seal II R R,Polyak D E.Rhenium[M]//Schulz K J,DeYoung J H Jr,Seal II R R,et al.Critical Mineral Resources of the United States-Economic and Environmental Geology and Prospects for Future Supply.Reston:U.S.Geological Survey,2017:1-49,doi:10.3133/pp1802P. [10] 黄凡,王登红,王岩,等.中国铼矿成矿规律和找矿方向研究[J].地质学报,2019,93(6):1252-1269. Huang F,Wang D H,Wang Y,et al.Study on metallogenic regularity rhenium deposits in China and their prospecting direction[J].Acta Geol Sin,2019,93(6):1252-1269. [11] Vinogradov A P.Average content of chemical elements in major igneous rocks of the Earth's crust[J].Geokhimiya,1962,7:555-571. [12] 刘英俊,曹励明,李兆麟,等.元素地球化学[M].北京:科学出版社,1984:1-548. Liu Y J,Cao L M,Li Z L,et al.Element Geochemistry[M].Beijing:Science Press,1984:1-548. [13] Voudouris P,Melfos V,Spry P G,et al.Extremely Re-rich molybdenite from porphyry Cu-Mo-Au prospects in northeastern Greece:mode of occurrence,causes of enrichment, and implications for gold exploration[J].Minerals,2013,3(2):165-191,doi:10.3390/min3020165. [14] 蔡长金. 分散元素矿物鉴定表[M].北京:地质出版社,1977:1-247. Cai C J.Identification Table of Dispersed Element Minerals[M].Beijing:Geological Publishing House,1977:1-247. [15] 涂光炽,高振敏,胡瑞忠,等.分散元素地球化学及成矿机制[M].北京:地质出版社,2004:1-424. Tu G C,Gao Z M,Hu R Z,et al.The Geochemistry and Ore-Forming Mechanism of the Dispersed Elements[M].Beijing:Geological Publishing House,2004:1-424. [16] Zhao H,Huang F,Zheng S H,et al.A new type of ion-adsorbed rhenium deposit in Wuliping,Guizhou Province,China[J].2022(unpublished). [17] 盛继福,王登红.中国矿产地质志·钨矿卷[M].北京:地质出版社,2018:1-1523. Sheng J F,Wang D H.Geology of Mineral Resources in ChinaVolume of Tungsten Ore[M].Beijing:Geological Publishing House,2018:1-1523. [18] 赵如意,王登红,秦锦华,等.粤北石人嶂钨矿侧伏“五层楼”模式与找矿方向分析[J].东华理工大学学报:自然科学报,2022(待刊). Zhao R Y,Wang D H,Qin J H,et al.The lateral trending “Five levels” model of Shirenzhang tungsten deposit and its prospecting direction analysis[J].Journal of East China Uniuersity of Technology:Natural Science,2022(in press). [19] 王登红,王岩.中国矿产地质志·南岭卷[M].北京:地质出版社,2022(待印刷). Wang D H,Wang Y.The Volume of Nanling of “Annals of Geo-logy of Mineral Resources of China”[M].Beijing:Geological Publishing House,2022(in press). [20] 徐志刚,王岩,陈郑辉,等.中国矿产地质志省级“矿产地质图”和“成矿规律图”的编图思路和编图方法[J].地质学报,2020,94(1):303-325. Xu Z G,Wang Y,Chen Z H,et al.Mapping ideas and methods for the provincial “Mineral Geological Map” and “Minerogenic Map” in the “Geology of Mineral Resources of China”[J].Acta Geol Sin,2020,94(1):303-325. [21] 武跃勇,李雪娇,安艳丽,等.中国矿产地质志·内蒙古卷·矿产地质图(1:500 000)[M].北京:地质出版社,2022(待印刷). Wu Y Y,Li X J,An Y L,et al.Mineral Geologic Map (1:500 000) of the Volume of Inner Mongolia of “Annals of Geology of Mineral Resources of China”[M].Beijing:Geological Publishing House,2022(in press). [22] 高岩峰,宋立军.中国矿产地质志·河北卷·成矿规律图(1:500 000)[M].北京:地质出版社,2022(待印刷). Gao Y F,Song L J. Metallogenetic Map (1:500 000) of the Volume of Hebei of “Annals of Geology of Mineral Resources of China”[M].Beijing:Geological Publishing House,2022(in press). [23] 陈毓川,裴荣富,王登红,等.论地球系统四维成矿及矿床学研究趋向——七论矿床的成矿系列[J].矿床地质,2020,39(5):745-753. Chen Y C,Pei R F,Wang D H,et al.Four-dimensional metallogeny in earth system and study trends of mineral deposits:a discussion on minerogenetic series (Ⅶ)[J].Miner Deposits,2020,39(5):745-753. [24] 程裕淇,陈毓川,赵一鸣,等.初论矿床的成矿系列问题[J].地球学报,1979,1(1):32-58. Cheng Y Q,Chen Y C,Zhao Y M,et al.Preliminary discussion on the problems of minerogenetic series of mineral deposits[J].Acta Geosci Sin,1979,1(1):32-58. [25] 陈毓川,裴荣富,王登红,等.八论矿床的成矿系列[J].地质学报,2022,96(1):123-130. Chen Y C,Pei R F,Wang D H,et al.A discussion on minerogenetic series of mineral deposits(Ⅷ)[J].Acta Geolo Sin,2022,96(1):123-130. |
[1] |
WANG Gongmin, WANG Chuanjian, ZHOU Jianfei, GUAN Xiaoyi, HUANG Baoan, PANG Caixin, JIANG Zhilong. Research of metallogenic regularity of antimony deposits in Guangxi[J]. , 2022, 9(2): 25-38. |
[2] |
WU Kanglin, YANG Bin, ZHANG Zengqi, TIAN Jingxiang, XIAO Bingjian, LUO Wenqiang. A study of metallogenic regularity and geological characteristics of primary diamond deposits in Shandong Province[J]. , 2022, 9(2): 39-49. |
[3] |
FU Shengyun, CHEN Qiliang, DENG Lei. Geological characteristics and metallogenic regularity of lead-zinc-gold-silver polymetallic deposits in Hunan Province[J]. , 2022, 9(2): 50-62. |
[4] |
WANG Yingwei, ZHAO Duanchang, DU Biao, ZHANG Zhenkai. Geological characteristics and metallogenic regularity of typical gold deposits in Fengtai ore concentration area, Shaanxi Province[J]. , 2022, 9(2): 63-72. |
[5] |
YUAN He, WANG Denghong. Metallogenic regularity and series of gold deposits in Liaoning Province[J]. , 2022, 9(2): 73-82. |
[6] |
FAN Guoqiang, QIN Yulong, ZHAN Hanyu, XIONG Changli, CHEN Deyun, HUANG Shifa, PENG Yi. Metallization regularity and prospecting target area in Panzhihua-Xichang area of Sichuan Province[J]. , 2022, 9(1): 23-31. |
|
|
|
|