Landslide Hazard Mapping: GIS Based Susceptibility Assessment of Leoutikhola Watershed, Dhankuta, Nepal

The Third Pole: Journal of Geography Education Pub Date : 2019-12-31 DOI:10.3126/ttp.v18i0.28008

Tika Ram Linkha, D. Rai, Furbe Lama

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引用次数: 2

Abstract

This article examines the landslide hazard mapping in Leoutikhola watershed of Dhankuta district, eastern hills of Nepal. The hills are regarded as one of the most vulnerable areas in the world. The area is prone to different types of natural hazards such as landslide, debris flow, gully erosion, mass wasting, and flooding. Various studies pointed out biophysical and socioeconomic factors are more responsible to landslide hazards in the hill-slope environment. This paper argues that the rainfall intensity, unscientific methods of cultivation and lack of environment friendly developmental activities in steep slope are some of the major driving factors to landslide in the Leoutikhola watershed area. Leoutikhola watershed area has been suffering from different types of natural hazards such as landslide, debris flow, gully erosion, mass wasting and flooding. Field verification and satellite imageries are the major sources for the information to analyze. Due to its fragile and very weak geological condition, geomorphic hazard is considered more common than other types of hazards which lose massive lives and property in the study area. The field observation and local people perception indicate a large amount of budget required to mitigate natural hazards in this area especially for landslide. In this context, this paper attempts to portray the landslide hazard zonation and susceptibility mapping correlated with various factors. For this purpose, bivariate statistical index and Geographic Information System (GIS) and Remote Sensing (RS) tools are used to calculate weighted values. The overall parameters indicate that in the series (-4.2 to 4.58) of five different hazard zones like very low, low, moderate, high and very high. The paper concludes that hazard determination calculated values indicate to 4.2 to -2.09, -2.09 to -1.0, -1.0 to-0.05, -0.05 to 1.24 and 1.24 to 4.58 respectively in the range of quartile series.

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滑坡灾害制图:基于GIS的尼泊尔Leoutikhola流域易感性评价

本文研究了尼泊尔东部山区丹库塔地区Leoutikhola流域的滑坡灾害测绘。这些山丘被认为是世界上最脆弱的地区之一。该地区容易发生不同类型的自然灾害，如滑坡、泥石流、沟壑侵蚀、大规模浪费和洪水。各种研究指出，生物物理和社会经济因素对边坡环境中滑坡灾害的影响更大。本文认为，降雨强度、不科学的耕作方法和缺乏环境友好型开发活动是造成Leoutikhola流域滑坡的主要驱动因素。Leoutikhola流域一直遭受不同类型的自然灾害，如滑坡、泥石流、沟壑侵蚀、大规模浪费和洪水。现场验证和卫星图像是分析信息的主要来源。由于其脆弱的地质条件，地貌灾害被认为是最常见的灾害类型，在研究区造成巨大的生命财产损失。现场观测和当地民众的感知表明，该地区减轻自然灾害特别是滑坡灾害需要大量的预算。在此背景下，本文试图描绘与各种因素相关的滑坡灾害区划和易感性图。为此，使用二元统计指数和地理信息系统(GIS)和遥感(RS)工具来计算加权值。总体参数表明，在-4.2至4.58的系列中，有5个不同的危险区，分别是极低、低、中、高和极高。得出在四分位数序列范围内，危害判定计算值分别为4.2 ~ -2.09、-2.09 ~ -1.0、-1.0 ~ 0.05、-0.05 ~ 1.24、1.24 ~ 4.58。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Third Pole: Journal of Geography Education

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