Identification and Verification of the Movement of the Hidden Active Fault Using Electrical Resistivity Tomography and Excavation

R. Arjwech, Sutatcha Hongsresawat, Suriyachai Chaisuriya, Jetsadarat Rattanawannee, P. Kanjanapayont, W. Youngme
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Abstract

Identifying the movement of the branches of the hidden Thakhek fault in Thailand is challenging due to the absence of evident landforms indicating an active fault. In this study, we analyzed a digital elevation model (DEM) to identify potential landforms. A 2D Electrical Resistivity Tomography (ERT) survey was conducted to locate the hidden Thakhek fault. The results reveal vivid images of resistivity contrast, interpreted as two reverse faults, with mudstone exhibiting low resistivity in the middle, flanked by thick sediment layers with higher resistivity. Three trenches were excavated perpendicular to the two interpreted reverse faults. The displacement of reverse faulting appears to have shifted mudstone over Quaternary sediments, with vertical offsets revealed in trenches NWY-1, NWY-2, and NWY-3. This movement could be identified as a positive flower structure. Additionally, lakes are identified as a negative flower structure along the traces. These features result from strike-slip strains under a locally appropriate compressional and extensional environment in a shearing strike-slip fault.
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利用电阻率断层扫描和挖掘技术识别并验证隐藏的活动断层的移动情况
由于没有明显的地貌显示活跃的断层,因此识别泰国隐藏的塔克断层分支的运动具有挑战性。在这项研究中,我们分析了数字高程模型 (DEM),以确定潜在的地貌。为了找到隐藏的 Thakhek 断层,我们进行了二维电阻率层析成像 (ERT) 勘测。结果显示了生动的电阻率对比图像,可解释为两个反向断层,中间是电阻率较低的泥岩,两侧是电阻率较高的厚沉积层。挖掘了三条壕沟,与两条被解释为逆断层的壕沟垂直。在 NWY-1、NWY-2 和 NWY-3 号沟槽中发现,逆断层的位移似乎使泥岩在第四纪沉积物上发生了移动,并出现了垂直偏移。这种移动可被确定为正花结构。此外,湖泊也被确定为迹线上的负花结构。这些特征是在剪切走向滑动断层中局部适当的压缩和延伸环境下产生的走向滑动应变所致。
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