应用电阻率测量探测埋藏的活动断层:韩国南部梁山断层案例研究

IF 1 4区 地球科学 Q4 GEOSCIENCES, MULTIDISCIPLINARY Geosciences Journal Pub Date : 2024-05-02 DOI:10.1007/s12303-024-0010-8
Samgyu Park, Youngbeom Cheon, Myeong-Jong Yi, Changwan Sun
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引用次数: 0

摘要

活动断层勘测的主要目标是通过开挖沟槽获得第四纪断层活动的证据。为了实现这一目标,电阻率测量被广泛应用于精确探测埋藏在冲积层下的断层。本研究在阳山断层南部的 Miho 地点进行了二维和三维电阻率勘测,该第四纪活动断层区已通过沟槽勘测得到了充分研究。通过将电阻率分布与坑道日志中的数据进行比较,检验了电阻率勘测在断层探测方面的功效。在 Miho 遗址,为二维电阻率勘测安装了三条测线,为三维电阻率勘测在 27 × 27 米的正方形区域内设置了 22 条测线。每条测量线的长度为 27 米,电极间距为 1 米。采用偶极-偶极阵列,使用相同的传输电流和电压测量每个测量电极之间的电位差。为了从野外获取的数据中得出二维和三维电阻率分布,使用了反演程序 DC_2DPRO 和 DC_3DPRO。二维电阻率分布与坑道测井数据的对比显示,第四纪断层面以西的黑云母焊接凝灰岩区电阻率相对较高,而第四纪断层面以东由沉积岩衍生的叶状角砾岩和角砾岩区电阻率较低,小于 40 Ω-m。从这些结果可以看出,该方法是有效的,尤其是当不同类型的岩石分布在断层边界两侧或断层带内存在高导电性物质(如富含粘土的断层冲沟)时。三维勘测区域内的电阻率分布可通过块图和特定深度切片来描述,有助于从空间上了解断层(或断裂)带的连续性。因此,这项研究表明,三维勘测比二维勘测具有许多优势,它能准确捕捉平面结构,并能根据三维电阻率分布进行空间解释。
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Application of electrical resistivity surveys to detect buried active fault: a case study of the southern Yangsan Fault, Korea

The main goal of active fault investigation is obtaining evidence of the Quaternary fault activity through trenching. To accomplish this, electrical resistivity surveys are widely utilized to accurately detect faults buried beneath alluvium. In this study, 2D and 3D electrical resistivity surveys were conducted at the Miho site of the southern Yangsan Fault, the Quaternary active fault area already well-studied via trench investigations. The efficacy of electrical resistivity surveys for fault detection was examined by comparing the resistivity distributions against data in the trench logs. At the Miho site, three lines were installed for the 2D electrical resistivity survey and 22 lines were set within a 27 × 27 m square area for the 3D electrical resistivity survey. The length of each survey line was 27 m with an electrode spacing of 1 m. A dipole-dipole array was used to measure the potential difference between each measurement electrode using the same transmitted current and voltage. To derive the 2D and 3D resistivity distributions from the data acquired in the field, the inversion programs DC_2DPRO and DC_3DPRO were employed. Comparison of the 2D resistivity distribution with trench log data shows that the zone of dacitic welded tuff west of the Quaternary fault plane has relatively high resistivity, while the zone of foliate gouge and breccia derived from sedimentary rocks east of the Quaternary fault plane has a low resistivity of less than 40 Ω·m. From these results, it is evident that the method is effective, particularly when different rock types are distributed on either side of the fault boundary or when highly conductive materials, such as clay-rich fault gouges, are present within the fault zone. The resistivity distribution in the 3D survey area can be depicted using both block diagrams and depth-specific slices, facilitating a spatial understanding of the continuity of fault (or fracture) zones. Consequently, this study demonstrates that 3D surveys offer numerous advantages over 2D surveys by accurately capturing planar structures and enabling spatial interpretation based on 3D resistivity distribution.

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来源期刊
Geosciences Journal
Geosciences Journal 地学-地球科学综合
CiteScore
2.70
自引率
8.30%
发文量
33
审稿时长
6 months
期刊介绍: Geosciences Journal opens a new era for the publication of geoscientific research articles in English, covering geology, geophysics, geochemistry, paleontology, structural geology, mineralogy, petrology, stratigraphy, sedimentology, environmental geology, economic geology, petroleum geology, hydrogeology, remote sensing and planetary geology.
期刊最新文献
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