Landslide susceptibility mapping of Penang Island, Malaysia, using remote sensing and multi-geophysical methods

IF 0.7 4区 地球科学 Q4 GEOSCIENCES, MULTIDISCIPLINARY
Siti Nurkhalidah Husainy, Andy Anderson Bery, Ismail Ahmad Abir, Wien Lestari, Adedibu Sunny Akingboye
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引用次数: 0

Abstract

Malaysia is one of the countries in the world experiencing landslides yearly due to natural events and human activities. Penang Island is Malaysia’s second most developed state and the largest by population. It is prone to landslides with devastating environmental impacts. Hence, the need to characterize its near-surface soil-rock conditions. This study uses remotely sensed data via frequency ratio (FR) techniques to identify landslide-prone areas based on different categories of landslide causative factors. To further understand the conditions and hydrodynamics of the soil-rock profiles causing landslides, electrical resistivity tomography and seismic refraction tomography were carried out at a landslide-suspected section in the study area. Also, the satellite-derived Bouguer gravity anomaly modeling was performed to map the varied gravity anomalies associated with landslide-triggering factors in lithologic units. The multi-geophysical models offer strongly correlated results with the causative remote sensed maps and the landslide susceptibility index (LSI) map. The likelihood of landslides occurring in the area, as suggested by the area under curve modeling of LSI data, yielded a high predicted success rate of 83.47%. Hence, prospective landslides were identified at the hilly and elevated sections, while the less susceptible sections were identified on flat reliefs. Landslides may also be triggered, for instance, at steep sections with varied contractive soil bodies and shallow structures. Most importantly, leveraging the LSI map would help the necessary agencies to forestall and mitigate future landslide occurrences in the area.
利用遥感和多地球物理方法绘制马来西亚槟城岛滑坡易感性图
由于自然事件和人类活动,马来西亚是世界上每年经历山体滑坡的国家之一。槟城岛是马来西亚第二发达的州,也是人口最多的州。它容易发生滑坡,对环境造成破坏性影响。因此,有必要描述其近地表土壤-岩石条件。本研究利用遥感数据,通过频率比(FR)技术,根据不同类型的滑坡成因识别滑坡易发区域。为进一步了解滑坡发生的条件和水动力,在研究区某滑坡疑似断面进行了电阻率层析成像和地震折射层析成像。此外,还进行了卫星衍生的布格重力异常建模,以绘制岩性单元中与滑坡触发因素相关的各种重力异常。多地球物理模型与成因遥感图和滑坡易感性指数(LSI)图具有较强的相关性。根据LSI数据曲线建模下的面积,该区域发生滑坡的可能性预测成功率高达83.47%。因此,在丘陵和高架路段确定了可能发生滑坡的路段,而在平坦的地形上确定了不太容易发生滑坡的路段。例如,在具有各种收缩土体和浅层结构的陡峭路段,也可能引发滑坡。最重要的是,利用LSI地图将有助于必要的机构预防和减轻该地区未来发生的山体滑坡。
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来源期刊
Earth Sciences Research Journal
Earth Sciences Research Journal 地学-地球科学综合
CiteScore
1.50
自引率
0.00%
发文量
0
审稿时长
>12 weeks
期刊介绍: ESRJ publishes the results from technical and scientific research on various disciplines of Earth Sciences and its interactions with several engineering applications. Works will only be considered if not previously published anywhere else. Manuscripts must contain information derived from scientific research projects or technical developments. The ideas expressed by publishing in ESRJ are the sole responsibility of the authors. We gladly consider manuscripts in the following subject areas: -Geophysics: Seismology, Seismic Prospecting, Gravimetric, Magnetic and Electrical methods. -Geology: Volcanology, Tectonics, Neotectonics, Geomorphology, Geochemistry, Geothermal Energy, ---Glaciology, Ore Geology, Environmental Geology, Geological Hazards. -Geodesy: Geodynamics, GPS measurements applied to geological and geophysical problems. -Basic Sciences and Computer Science applied to Geology and Geophysics. -Meteorology and Atmospheric Sciences. -Oceanography. -Planetary Sciences. -Engineering: Earthquake Engineering and Seismology Engineering, Geological Engineering, Geotechnics.
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