Spatiotemporal variation of landslide using the projected rainfall data from climate change scenario

Q4 Engineering

Disaster Advances Pub Date : 2022-12-15 DOI:10.25303/1601da036041

T. ., D. Wangmo, V. Sharma, K. Choden

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Abstract

The adverse change in weather increases landslide risk every year due to climate change. Consequently, developmental activities were hampered due to the landslide. This study aimed at developing past landslides (1997, 2007, 2017) using national rainfall data and projected landslides for the years 2027, 2037, 2050 and 2100 using the projected rainfall data in three districts of Bhutan namely Zhemgang, Mongar and Bumthang. The study uses elevation, aspect, slope, curvature, TWI, SPI, NDVI, distance from the river, distance from road, lithology and flow accumulation as influencing factors apart from different year rainfall data. The frequency ratio was employed for data analysis. Kappa index and accuracy were used to validate the landslide map for the year 2017. The landslide risk zones are classified into very low, low, moderate, high and very high. It is observed that the total area of the very low zone decreased from 1997 to 2100 while the area of the very high-risk zone increases from 1997 to 2100. Among the districts, the Zhemgang dzongkhag was highly susceptible to landslides. On the other hand, Bumthang district is least impacted by the landslides.

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基于气候变化预估降雨数据的滑坡时空变化

由于气候变化，天气的不利变化每年都会增加滑坡的风险。因此，滑坡阻碍了发展活动。本研究旨在利用国家降雨量数据开发过去的山体滑坡（1997年、2007年、2017年），并利用不丹三个地区（即哲姆冈、蒙加尔和邦唐）的预测降雨量数据开发2027年、2037年、2050年和2100年的预测山体滑坡。除了不同年份的降雨数据外，本研究还采用了高程、坡向、坡度、曲率、TWI、SPI、NDVI、距河距离、距道路距离、岩性和流量积累等因素作为影响因素。采用频率比进行数据分析。Kappa指数和精度用于验证2017年的滑坡图。滑坡危险区分为极低、低、中、高和极高。据观察，从1997年到2100年，极低区的总面积减少，而极高风险区的面积从1997年增加到2100年。在这些地区中，Zhemgang dzongkhag极易发生山体滑坡。另一方面，Bumtang地区受山体滑坡影响最小。

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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