贵州区域成矿规律与百年勘查成果及新一轮找矿建议——《中国矿产地质志·贵州卷》研编 |
投稿时间:2024-05-20 修订日期:2024-07-18 |
关键词:Metallogenic regularity, Century, Achievements, Proposals, Guizhou Province |
基金项目:本文由中国地质调查局“中国矿产地质志·贵州矿产地质志续编与产品服务项目”(编号: DD20221965-27)、中央引导地方科技发展资金项目“锰矿资源深部预测勘查技术研发基地”(编号: [2021]4027); 贵州省找矿突破战略行动重大协同创新项目“贵州磷、锰、铝优势资源成矿规律与快速高效智慧化勘查技术研究及示范”(编号: [2022]ZD003)和贵州省高层次创新人才项目(编号: [2018]5631-2; [2020]6019)联合资助。 |
|
摘要点击次数: 202 |
全文下载次数: 0 |
摘要: |
Regional Metallogenic Regularity and Centennial Exploration Achievements in Guizhou and Suggestions for A New Round of Mineral Exploration—A Compilation of "Geology of Mineral Resources in China (Guizhou Volume)" |
Guizhou stands as an important province China, renowned for its abundant mineral resources. We classified Guizhou’s major mineralization zones by compiling "Geology of Mineral Resources in China (Guizhou Volume)". Expanding upon the existing four Level-III mineralization zones of China, our work has progressed into the following dimensions. Firstly, we divided five Level-IV mineralization zones and twelve sub-zones, from which we summarized their spatial distribution patterns. Secondly, we summarized regional mineralization patterns in Guizhou, leading to the identification of (1) five regional mineralization cycles and sub-cycles, (2) fourteen mineralization series and four sub-series. In addition, we also integrated the regional mineralization characteristics. Thirdly, following a chronological order, we compiled Guizhou’s major mineral exploration achievements over the past century. The dedicated efforts of generations of geologists have elevated Guizhou to the forefront of mineralization resource reserves in China. This array of resources shows a broad spectrum, including but not limited to, coal, phosphorus, aluminum, manganese, gold, mercury, antimony, and barite. Notably, the generations of works have marked Guizhou with distinct comparative and geographical advantages. Building upon this foundation, we propose suggestions for implementing a new round of strategic actions to facilitate additional breakthroughs in mineral exploration. |
|
查看/发表评论 下载PDF阅读器 |
|
|
|
|
|