Lanfang He , Liang Li , Yun Liu , Zhanfeng Yang , Yonggang Zhao , Kuifang Yang , Rujun Chen , Hongrui Fan
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The small and mid scale study were conducted using audio-magnetotelluric (AMT). This study revealed the controlling structure using geoelectrical characteristics. AMT data were acquired from more than 590 stations, and the petro-electromagnetism of several samples was analyzed to understand the geoelectrical features of the ore deposits and their surrounding rocks. The data were interpreted using Bostick transformation and generalized least-squares inversions. We obtained the geoelectrical structure of the BO complex down to a maximum depth of 3500 <!--> <!-->m, and we present two-dimensional imaging based on the AMT conversion results. The results show that the BO deposit developed at the transition of the high- and low-resistivity geoelectrical structure from south to north. Our AMT results indicate that the tectonic setting of the BO deposit is the transition zone between the rift edge and craton margin slope. The ore geology is presently controlled by the complex slope and the rift remnant, the ore-bearing dolostone in the profiles is Y-shaped. It goes downward from south to north and potentially features a great mineral prospect deep in the BO deposit.</p></div>","PeriodicalId":19644,"journal":{"name":"Ore Geology Reviews","volume":null,"pages":null},"PeriodicalIF":3.2000,"publicationDate":"2024-08-18","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.sciencedirect.com/science/article/pii/S016913682400341X/pdfft?md5=675ae008e215568f2d33b41966101d37&pid=1-s2.0-S016913682400341X-main.pdf","citationCount":"0","resultStr":"{\"title\":\"Audio magnetotelluric view of the giant carbonatite-hosted Bayan Obo REE deposit, Inner Mongolia, northern China\",\"authors\":\"Lanfang He , Liang Li , Yun Liu , Zhanfeng Yang , Yonggang Zhao , Kuifang Yang , Rujun Chen , Hongrui Fan\",\"doi\":\"10.1016/j.oregeorev.2024.106208\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>As critical minerals in low-carbon economies, rare-earth elements (REEs) are crucial for modern industry, technology, and medicine. 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引用次数: 0
摘要
稀土元素 (REE) 是低碳经济的关键矿物,对现代工业、技术和医药至关重要。世界上已知最大的稀土元素资源是位于中国北部的巴彦鄂博(BO)矿床。然而,巴彦鄂博的矿物成分复杂,并经历了多次地质事件。因此,关于巴彦鄂博 REE 的成因和富集机制仍存在争议,而关于这一巨大矿床的控制结构也争论不休。我们对 BO 矿床进行了多尺度电磁学研究。多尺度研究包括样品的微尺度研究、针对矿床的小尺度研究和针对矿区的中尺度研究。小尺度和中尺度研究是通过音频-磁位(AMT)进行的。这项研究利用地电特征揭示了控制结构。从 590 多个站点获取了 AMT 数据,并对多个样本的岩石电磁学进行了分析,以了解矿床及其周围岩石的地质电气特征。我们利用博斯蒂克变换和广义最小二乘反演对数据进行了解释。我们获得了最大深度达 3500 米的 BO 复合体的地质电学结构,并根据 AMT 转换结果展示了二维成像。结果表明,BO 矿床发育在由南向北的高电阻率和低电阻率地质电学结构的过渡地带。我们的 AMT 结果表明,BO 矿床的构造背景是裂谷边缘和克拉通边缘斜坡之间的过渡带。矿石地质目前受复杂斜坡和裂谷残余的控制,剖面中的含矿白云岩呈 Y 型。剖面中的含矿白云岩呈 "Y "字形,由南向北向下延伸,在BO矿床深处可能蕴藏着巨大的矿产资源。
Audio magnetotelluric view of the giant carbonatite-hosted Bayan Obo REE deposit, Inner Mongolia, northern China
As critical minerals in low-carbon economies, rare-earth elements (REEs) are crucial for modern industry, technology, and medicine. The largest known REE resource in the world is the Bayan Obo (BO) deposit in northern China. However, BO features as complicated mineral compositions and has experienced several geological events. As a reuslt, controversy remains about the BO REE genesis and enrichment mechanism, and debates are also ongoing about the controlling structure of this giant deposit. We carried out an multiscale electromagnetism study on BO mineral deposits. The multiscale study consists a microscale on samples, a small scale targeting mineral deposits and a mid scale concerning the mine field. The small and mid scale study were conducted using audio-magnetotelluric (AMT). This study revealed the controlling structure using geoelectrical characteristics. AMT data were acquired from more than 590 stations, and the petro-electromagnetism of several samples was analyzed to understand the geoelectrical features of the ore deposits and their surrounding rocks. The data were interpreted using Bostick transformation and generalized least-squares inversions. We obtained the geoelectrical structure of the BO complex down to a maximum depth of 3500 m, and we present two-dimensional imaging based on the AMT conversion results. The results show that the BO deposit developed at the transition of the high- and low-resistivity geoelectrical structure from south to north. Our AMT results indicate that the tectonic setting of the BO deposit is the transition zone between the rift edge and craton margin slope. The ore geology is presently controlled by the complex slope and the rift remnant, the ore-bearing dolostone in the profiles is Y-shaped. It goes downward from south to north and potentially features a great mineral prospect deep in the BO deposit.
期刊介绍:
Ore Geology Reviews aims to familiarize all earth scientists with recent advances in a number of interconnected disciplines related to the study of, and search for, ore deposits. The reviews range from brief to longer contributions, but the journal preferentially publishes manuscripts that fill the niche between the commonly shorter journal articles and the comprehensive book coverages, and thus has a special appeal to many authors and readers.