UAV-towed scalar magnetic gradiometry: A case study in relation to iron oxide copper-gold mineralization, Nautanen (Arctic Sweden)

Q2 Earth and Planetary Sciences

Leading Edge Pub Date : 2023-02-01 DOI:10.1190/tle42020103.1

A. Døssing, M. Kolster, T. Rasmussen, J. T. Petersen, Eduardo L. S. da Silva

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引用次数: 0

Abstract

Scalar magnetic surveying using unmanned aerial vehicle (UAV) platforms is slowly gaining momentum within geophysical applications. So far, only a handful of studies have dealt with UAV-towed scalar field measurements, while even fewer have considered towed scalar difference measurements (or gradients). In this paper, we demonstrate the possibilities and benefits of deploying precisely positioned noise-minimized UAV-towed scalar transverse horizontal difference (THD) measurements for mineral exploration purposes. UAV-towed gradiometry bird data are presented from the Nautanen area in northern Sweden and compared with ground magnetic surveys. This area is known for its iron oxide copper-gold mineralizations. The UAV survey spans a total area of 2.5 km2. It was covered using an average line spacing of 30 m and a constant flight altitude above ground level of 30 m. High-quality scalar total-field and THD data were collected with a dynamic noise level of the raw scalar data of about ±0.05 nT. Comparison with the ground magnetic data shows a strong correlation between magnetic anomaly lows and highs across the survey areas. A map with new structural information is presented based on subtle magnetic structures identified in discrete derivatives of the total magnetic intensity anomaly and THD data. Such systems may replace high-quality heliborne systems and reduce costs of the geophysical exploration phase. However, mapping with UAV-towed systems is not straightforward. With typical UAV flight speeds of only 10–12 m/s, the wind often disturbs the 3D attitude of the bird during flights. Hence, advanced processing is required to obtain the intended gradients. Similar challenges are less important in surveying, where the survey speed often greatly exceeds the wind speed.

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无人机拖曳标量磁梯度法:与氧化铁铜金矿化有关的案例研究，Nautanen(北极瑞典)

利用无人机(UAV)平台的标量磁测量在地球物理应用中正慢慢获得动力。到目前为止，只有少数研究涉及无人机拖曳标量场测量，而考虑拖曳标量差测量(或梯度)的研究就更少了。在本文中，我们展示了用于矿产勘探目的的精确定位最小化噪声无人机拖曳标量横向水平差(THD)测量的可能性和好处。介绍了瑞典北部Nautanen地区的无人机拖曳梯度测量鸟类数据，并与地面磁测量进行了比较。该地区以氧化铁铜金矿化而闻名。无人机调查的总面积为2.5平方公里。它采用平均线距30米和高于地面30米的恒定飞行高度进行覆盖。原始标量数据的动态噪声水平约为±0.05 nT，获得了高质量的标量总场和THD数据。与地面磁资料对比发现，各测区磁异常低、高具有较强的相关性。根据总磁强异常和THD数据的离散导数识别出的细微磁结构，给出了具有新构造信息的磁结构图。这种系统可以取代高质量的直升机系统，降低地球物理勘探阶段的成本。然而，使用无人机牵引系统进行测绘并不简单。典型的无人机飞行速度只有10-12米/秒，在飞行过程中，风经常会干扰鸟的三维姿态。因此，需要进行高级处理以获得预期的梯度。在测量中，类似的挑战就不那么重要了，因为测量速度往往大大超过风速。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Leading Edge Earth and Planetary Sciences-Geology

CiteScore

3.10

自引率

0.00%

发文量

180

期刊介绍： THE LEADING EDGE complements GEOPHYSICS, SEG"s peer-reviewed publication long unrivalled as the world"s most respected vehicle for dissemination of developments in exploration and development geophysics. TLE is a gateway publication, introducing new geophysical theory, instrumentation, and established practices to scientists in a wide range of geoscience disciplines. Most material is presented in a semitechnical manner that minimizes mathematical theory and emphasizes practical applications. TLE also serves as SEG"s publication venue for official society business.