{"title":"利用电阻率断层成像法确定Vítor山谷Pie de Cuesta大型活动滑坡的内部三维几何形状和主要径流方向","authors":"Yasmine Huayllazo, Rosmery Infa, Jorge Soto, Krover Lazarte, Joseph Huanca, Yovana Alvarez, Teresa Teixidó","doi":"10.3390/geosciences13110342","DOIUrl":null,"url":null,"abstract":"Pie de Cuesta is a large landslide with a planar area of 1 km2 located in the Vítor district, in the Arequipa department (Peru), and constitutes an active phenomenon. It belongs to the rotational/translational type, which concerns cases that are very susceptible to reactivation because any change in the water content or removal of the lower part can lead to a new instability. In this context, a previous geological study has been decisive in recognizing the lithologies present and understanding their behavior when they are saturated. But it is also necessary to know the inner “landslide geometry” in order to gusset a geotechnical diagnosis. The present study shows how the deep electrical profiles (ERT, electrical resistivity tomography method), supported by two Vp seismic refraction tomography lines (SVP), have been used to create a 3D cognitive model that would allow the identification of the inner landslide structure: the 3D rupture surface, the volume of the sliding mass infiltration sectors or fractures, and the preferred runoff directions. Moreover, on large landsides, placing the geophysical profiles is a crucial aspect because it greatly depends on the accessibility of the area and the availability of the physical space required. In our case, we need to extend profiles up to 1100 m long in order to obtain data at greater depths since this landslide is approximately 200 m tall. Based on the geophysical results and geologic information, the 3D final model of the inner structure of this landslide is presented. Additionally, the main runoff water directions and the volume of 90.5 Hm3 of the sliding mass are also estimated.","PeriodicalId":38189,"journal":{"name":"Geosciences (Switzerland)","volume":" 30","pages":"0"},"PeriodicalIF":2.4000,"publicationDate":"2023-11-09","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Using Electrical Resistivity Tomography Method to Determine the Inner 3D Geometry and the Main Runoff Directions of the Large Active Landslide of Pie de Cuesta in the Vítor Valley (Peru)\",\"authors\":\"Yasmine Huayllazo, Rosmery Infa, Jorge Soto, Krover Lazarte, Joseph Huanca, Yovana Alvarez, Teresa Teixidó\",\"doi\":\"10.3390/geosciences13110342\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Pie de Cuesta is a large landslide with a planar area of 1 km2 located in the Vítor district, in the Arequipa department (Peru), and constitutes an active phenomenon. 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Moreover, on large landsides, placing the geophysical profiles is a crucial aspect because it greatly depends on the accessibility of the area and the availability of the physical space required. In our case, we need to extend profiles up to 1100 m long in order to obtain data at greater depths since this landslide is approximately 200 m tall. Based on the geophysical results and geologic information, the 3D final model of the inner structure of this landslide is presented. 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引用次数: 0
摘要
Pie de Cuesta是一个平面面积为1平方公里的大型滑坡,位于秘鲁阿雷基帕省Vítor地区,是一个活跃的现象。它属于旋转/平移类型,这涉及到非常容易再活化的情况,因为含水量的任何变化或下部的去除都可能导致新的不稳定性。在这种情况下,以前的地质研究在识别现有岩性和了解它们饱和时的行为方面具有决定性作用。但为了进行岩土诊断,还需要了解内部的“滑坡几何”。本研究展示了深部电剖面(ERT,电阻率层析成像方法)如何在两条Vp地震折射层析成像线(SVP)的支持下,用于创建三维认知模型,该模型将允许识别内部滑坡结构:三维破裂面,滑动体渗透区域或裂缝的体积,以及首选径流方向。此外,在大型陆地上,放置地球物理剖面是一个至关重要的方面,因为它在很大程度上取决于该地区的可达性和所需物理空间的可用性。在我们的案例中,我们需要将剖面扩展到1100米长,以便在更深的深度获得数据,因为这个滑坡大约有200米高。根据地球物理结果和地质信息,建立了该滑坡内部结构的三维最终模型。此外,还估算了主要径流方向和滑坡体的90.5 Hm3体积。
Using Electrical Resistivity Tomography Method to Determine the Inner 3D Geometry and the Main Runoff Directions of the Large Active Landslide of Pie de Cuesta in the Vítor Valley (Peru)
Pie de Cuesta is a large landslide with a planar area of 1 km2 located in the Vítor district, in the Arequipa department (Peru), and constitutes an active phenomenon. It belongs to the rotational/translational type, which concerns cases that are very susceptible to reactivation because any change in the water content or removal of the lower part can lead to a new instability. In this context, a previous geological study has been decisive in recognizing the lithologies present and understanding their behavior when they are saturated. But it is also necessary to know the inner “landslide geometry” in order to gusset a geotechnical diagnosis. The present study shows how the deep electrical profiles (ERT, electrical resistivity tomography method), supported by two Vp seismic refraction tomography lines (SVP), have been used to create a 3D cognitive model that would allow the identification of the inner landslide structure: the 3D rupture surface, the volume of the sliding mass infiltration sectors or fractures, and the preferred runoff directions. Moreover, on large landsides, placing the geophysical profiles is a crucial aspect because it greatly depends on the accessibility of the area and the availability of the physical space required. In our case, we need to extend profiles up to 1100 m long in order to obtain data at greater depths since this landslide is approximately 200 m tall. Based on the geophysical results and geologic information, the 3D final model of the inner structure of this landslide is presented. Additionally, the main runoff water directions and the volume of 90.5 Hm3 of the sliding mass are also estimated.