拉平塔达山体滑坡——发生在墨西哥格雷罗州的复杂的双阶段极端事件

M. Ramírez-Herrera, K. Gaidzik
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引用次数: 5

摘要

摘要极端风暴通常会在潮湿、温暖的热带气候地区引发山体滑坡,造成生命损失和经济破坏。墨西哥西南部格雷罗的热带山区经常受到极端飓风和气旋的袭击,因此容易发生山体滑坡。2013年9月16日,一场巨大的山体滑坡导致71人死亡,并摧毁了La Pintada村的大部分地区。我们应用了遥感技术,使用激光雷达DEM和拉平塔达地区的高分辨率图像,滑坡后的实地调查,滑坡崩积层材料的岩土工程实验室测试,以及边坡稳定性分析。我们还采访了目击者对事件的描述。我们的研究结果表明,2013年拉平塔达滑坡是一个复杂的两阶段事件。与飓风曼努埃尔登陆有关的为期四天的强降雨导致土壤过饱和,这是导致滑坡的主要因素。250米高的斜坡上缺乏高大茂密的植被,加剧了降雨的影响。植被的缺乏和路堑下的边坡可能是导致边坡稳定性下降的原因之一。我们认为,极端风暴强度的增加导致了该地区山体滑坡的增加。此外,在热带气候地区,大多数发展中国家都有大量人口,这些现象的结合使它们极易受到极端风暴和滑坡灾害的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
La Pintada landslide—A complex double-staged extreme event, Guerrero, Mexico
Abstract Extreme storms commonly trigger landslides in regions of humid, warm tropical climate causing loss of life and economic devastation. The tropical mountainous areas of Guerrero in southwest Mexico are frequently hit by extreme hurricanes and cyclones and thus prone to landslides. On 16 September 2013, a huge landslide resulted in 71 fatalities and destroyed a large part of La Pintada Village. We applied remote sensing techniques using the LIDAR DEM and high-resolution images of the La Pintada area, a post-landslide field survey, geotechnical laboratory tests of colluvium material from the landslide, and a slope stability analysis. We also interviewed eyewitnesses accounts of the event. Our results suggest that the 2013 La Pintada landslide was a complex and two-stage event. An intense four-day-long rainfall event related to the landfall of Hurricane Manuel resulted in the oversaturation of soil, which was the main factor that caused the landslide. The effect of rainfall was amplified by the lack of high and dense vegetation on the 250-m-high slope. The lack of vegetation and slope-under-cutting likely contributed to the decreased slope stability. We suggest that increased intensity of extreme storms has contributed to increased landslides in this area. Furthermore, in tropical climate areas, where significant population lives in mostly developing countries, the combination of these phenomena makes them highly vulnerable to extreme storms and landslide hazards.
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Cogent Geoscience
Cogent Geoscience GEOSCIENCES, MULTIDISCIPLINARY-
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