Risk assessment of geological disasters in Nyingchi, Tibet

• Main Authors: Wu Chenshuang, Guo Yonggang, Su Libin
• Format: Article
• Language: English
• Published: De Gruyter 2021-02-01
• Series: Open Geosciences
• Subjects: nyingchi; risk assessment; fuzzy analytic hierarchy process; gis
• Online Access: https://doi.org/10.1515/geo-2020-0208

To reduce the adverse effects of geological disasters on Nyingchi, this article selected nine highly correlated risk assessment factors for the types of geological disasters such as landslides and debris flows and used two methods of analytic hierarchy process and fuzzy analytic hierarchy process for analysis and comparison. The spatial overlay analysis of each factor with weight is carried out in ArcGIS to make a classification map of geological hazards in Nyingchi. Risk assessment of geological disasters such as collapses, landslides, and mudslides indicates that the slope, distance from the faults, and relative elevation difference of topography have severe impact on natural disasters; at least more than 60% of the areas belong to medium-, high-, and extremely high-risk areas, and it is urgent to strengthen protection and governance; the evaluation results of the fuzzy analytic hierarchy process are more in line with the actual survey situation and are more suitable for Tibet. This research is able to provide a basis for ecological protection, ecological restoration, and geological disaster prevention and management in southeastern Tibet. It also has important reference value for the coordinated development of urban and the environmental projects.