Risk Assessment of Debris Flows Along the Karakoram Highway (Kashgar-Khunjerab Section) in the Context of Climate Change

被引:0
作者
Yamei Li
Qiang Zou
Jiansheng Hao
Lijun Su
机构
[1] Chinese Academy of Sciences,State Key Laboratory of Tibetan Plateau Earth System, Environment and Resources (TPESER), Institute of Tibetan Plateau Research
[2] Chinese Academy of Sciences,Key Laboratory of Mountain Hazards and Earth Surface Process, Institute of Mountain Hazards and Environment
[3] China-Pakistan Joint Research Center on Earth Sciences,Key Laboratory of Land Surface Pattern and Simulation, Institute of Geographic Sciences and Natural Resources Research
[4] Chinese Academy of Sciences,undefined
[5] University of Chinese Academy of Sciences,undefined
来源
International Journal of Disaster Risk Science | 2023年 / 14卷
关键词
Climate change; Debris flows; Karakoram highway; Risk assessment;
D O I
暂无
中图分类号
学科分类号
摘要
The Karakoram highway (KKH) is renowned for its complex natural environment and geological conditions. The climate changes drastically and directly influences the frequency and magnitude of debris flows in this region, resulting in significant casualties and economic losses. However, the risk assessment of debris flows along the KKH in the context of climate change has been rarely explored. Therefore, in this study we used the debris flow data, historical meteorological data and future climate prediction data to assess the debris flow risk of the study region during the baseline period (2009–2018), 2025s (2021–2030), 2035s (2031–2040) and 2045s (2041–2050) under the Representative Concentration Pathway 8.5 scenario. The results show that the risk of debris flows increases with climate change, with the highest risk level in the 2025s. Among different parts of this highway, the upper reaches of the Ghez River and the second half of Tashkorgan-Khunjerab are the sections with the highest risk. These findings are helpful for debris flow prevention and can offer coping strategies for the existing line of the KKH. They also provide some reference for the renovation, improvement, operation, and maintenance of the KKH.
引用
收藏
页码:586 / 599
页数:13
相关论文
共 184 条
[11]  
Mortara G(2016)Source model of the 2015 Mw 6.4 Pishan earthquake constrained by interferometric synthetic aperture radar and GPS: Insight into blind rupture in the western Kunlun Shan Geophysical Research Letters 43 1511-1519
[12]  
Deline P(2018)Global-scale hydrological response to future glacier mass loss Nature Climate Change 8 135-140
[13]  
Donat MG(2014)Debris flows: Behaviour and hazard assessment Geology Today 30 15-20
[14]  
Lowry AL(1982)Geomorphological effects on the slopes of Longyear Valley, Spitsbergen, after a heavy rainstorm in July 1972 Geografiska Annaler 64A 105-125
[15]  
Alexander LV(1994)Regularity of strong earthquakes in Pamir-West Kunlun seismic zone Inland Earthquake 8 134-140
[16]  
O’Gorman PA(2016)The 2015 Mw 6.4 Pishan earthquake: Seismic hazards of an active blind wedge thrust system at the western Kunlun range front, northwest Tibetan Plateau Seismological Research Letters 87 601-608
[17]  
Maher N(2020)Characterizing precipitation in high altitudes of the western Tibetan Plateau with a focus on major glacier areas International Journal of Climatology 40 5114-5127
[18]  
Evans SG(2012)Key point of bridge damage caused by glacial debris flows along international Karakorum highway, Pakistan Applied Mechanics and Materials 256–259 2713-2723
[19]  
Clague JJ(2005)Equilibrium-line altitudes of the last glacial maximum for the Himalaya and Tibet: An assessment and evaluation of results Quaternary International 138–139 55-78
[20]  
Fuchs MC(1989)The Karakoram glacial depositional system Zeitschrift für Geomorphologie 76 33-74
12345678910