地球物理方法在矿化结构识别和钻探区域排序中的应用,以 Alto Guaporé 造山黄金省为例

IF 2.2 4区 地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS Minerals Pub Date : 2024-07-31 DOI:10.3390/min14080788
Jorge Echague, Marcelo Leão-Santos, Rodrigo Melo, Thiago Mendes, Welitom Borges
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引用次数: 0

摘要

位于巴西亚马孙克拉通西南地区的上瓜波雷黄金省(AGGP)的矿产勘探工作面临着世界上许多黄金省所面临的挑战,即新的经济矿床发现率下降和勘探成本增加。地面地球物理方法与结构分析和地质绘图相结合,是一种宝贵的工具,有可能提高选择勘探目标和确定钻探地点的准确性。AGGP 矿床主要与区域性 N20°-W50°逆断层和中新生代硅碎屑变质岩与中新生代基底(花岗岩和火山沉积岩序列)之间的剪切地质接触有关。该省中部地区目前正在进行的采矿活动推动了对该地区许多现有目标的勘探工作。其中,ABP 目标位于 Pau-a-Pique 矿以北几公里处,是最有前景的目标之一。在 ABP 目标区,金矿与位于剪切接触面和褶皱变质岩序列铰链区的热液蚀变有关。热液相包括铁氧化物、硫化物(py)、褐铁矿和石英脉。在这项研究中,我们利用磁力和地电(感应极化)勘测以及结构和地质绘图来确定 ABP 目标内的潜在足迹。诱导极化(IP)剖面的结果成功地绘制出了 ABP 目标区约 350 米处主要结构的形状和走向,指出了热液蚀变含金的潜在位置。此外,三维磁数据反演显示了与剪切带结构和孤立磁体相关的磁感应强度和磁化矢量的分布。磁性数据突出显示了变质岩与花岗岩接触处的断层带,而 IP 数据则确定了与金矿化硫化带相关的高电荷率区域。这些研究结果表明,金矿床是通过与区域断层相连的深部结构运移的金属成矿模式,这意味着构造和结构对金沉积具有重要的控制作用。这些结果凸显了多参数地球物理在确定和描述深部和走向矿床方面的潜力,从而推进了我们对该地区矿藏的了解,并加强了对新矿化带的寻找。
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Application of Geophysical Methods in the Identification of Mineralized Structures and Ranking of Areas for Drilling as Exemplified by Alto Guaporé Orogenic Gold Province
Mineral exploration works conducted in the Alto Guaporé Gold Province (AGGP), situated in the southwest region of the Amazon Craton in Brazil, faces the challenges of many gold provinces around the world, i.e., declines in the discoveries of new economic deposits and increases in exploration costs. Ground geophysical methods, combined with structural analyses and geological mapping, are valuable tools that have potential to improve accuracy in selecting exploration targets and in determining drilling locations. AGGP deposits are primarily associated with regional N20°–W50° inverse faulting and sheared geologic contacts between Meso-Neoproterozoic siliciclastic metasedimentary rocks and Mesoproterozoic basement (granite and volcano–sedimentary sequences). Mining currently occurring in the central portion of the province drives exploration works towards the many existing targets at the area. Among them, the ABP target is one of the most promising for being located few kilometers north of the Pau-a-Pique mine. At the ABP target, gold is associated with hydrothermal alteration located in the sheared contacts and in the hinge zone of folded metasedimentary sequence. Hydrothermal phases include Fe-oxides, sulfide (py), muscovite and quartz veins. In this study, we use magnetic and geoelectric (induced polarization) surveys coupled with structural and geological mapping to identify potential footprints within the ABP target. The results from induced polarization (IP) profiles successfully mapped the shape and orientation of the main structures down to approximately 350 m at the ABP target, indicating potential locations for hydrothermal alteration hosting gold. Additionally, 3D magnetic data inversions illustrated the distribution of magnetic susceptibilities and magnetization vectors associated with shear zone structures and isolated magnetic bodies. Magnetic data highlighted fault zones along the contacts between metamorphic rocks and granites, while IP data identified areas with high chargeability, correlating with sulfidation zones mineralized with gold. These findings suggest a metallogenic model where gold deposits are transported through deep structures connected to regional faults, implying significant tectonic and structural control over gold deposition. The results underscore the potential of multiparameter geophysics in identifying and characterizing deposits in both deep and strike, thereby advancing our understanding of mineral occurrences in the region and enhancing the search for new mineralized zones.
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来源期刊
Minerals
Minerals MINERALOGY-MINING & MINERAL PROCESSING
CiteScore
4.10
自引率
20.00%
发文量
1351
审稿时长
19.04 days
期刊介绍: Minerals (ISSN 2075-163X) is an international open access journal that covers the broad field of mineralogy, economic mineral resources, mineral exploration, innovative mining techniques and advances in mineral processing. It publishes reviews, regular research papers and short notes. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. There is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced.
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