中国四川汶川县强震后泥石流灾害的动态易感性评估

IF 5.8 2区 工程技术 Q1 ENGINEERING, GEOLOGICAL
Xianzheng Zhang, Chenxiao Tang, Yongbo Tie, Xiaojuan Li, Chuan Tang, Jiang Xiong, Ming Chen, Lingfeng Gong
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引用次数: 0

摘要

强震发生后,大量的同震滑坡提供了丰富的泥石流源,并容易在强降雨下引发和产生泥石流。评估它们在主震后数年内的易感性及其移动的驱动因素尚未尝试过,这主要是因为缺乏多时空泥石流清单。本研究利用 2008 年汶川地震后的多时空泥石流清单(2008-2021 年)和一组条件因素(泥石流源、地形和水文)进行了统计分析。利用逻辑回归建立了动态易损性评估模型。解释了这些影响泥石流流出的因素的时间演变。我们的研究结果表明,地震后地形变量迅速增长,而泥石流源因素在灾后七年内占据主导地位,之后逐渐下降为零。这些发现可能会对以同震滑坡为主要泥石流源的地区的传统易损性评估模型产生重大影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Dynamic susceptibility assessment of debris flow hazard after a strong earthquake, Wenchuan County, Sichuan, China

Dynamic susceptibility assessment of debris flow hazard after a strong earthquake, Wenchuan County, Sichuan, China

Large amounts of co-seismic landslides provide abundant debris sources following a strong earthquake and are prone to initiate and generate debris flow under heavy rainfall. Assessing the susceptibility they pose and what drives their movement in the years following the mainshock has not yet been attempted, primarily because multitemporal debris flow inventories are lacking. This study conducted statistical analyses using the multitemporal debris flow inventory (2008–2021) following the 2008 Wenchuan earthquake and a set of conditional factors (debris source, terrain, and hydrology). The dynamic susceptibility evaluation model was created using logistic regression. The temporal evolution of these factors affecting debris flow runout was explained. Our findings suggest that topography variables grew rapidly after the earthquake, while debris source factors dominated for seven years after the disaster before declining progressively to zero. These findings may have significant consequences for traditional susceptibility assessment models in regions where co-seismic landslides are the dominant debris flow source.

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来源期刊
Landslides
Landslides 地学-地球科学综合
CiteScore
13.60
自引率
14.90%
发文量
191
审稿时长
>12 weeks
期刊介绍: Landslides are gravitational mass movements of rock, debris or earth. They may occur in conjunction with other major natural disasters such as floods, earthquakes and volcanic eruptions. Expanding urbanization and changing land-use practices have increased the incidence of landslide disasters. Landslides as catastrophic events include human injury, loss of life and economic devastation and are studied as part of the fields of earth, water and engineering sciences. The aim of the journal Landslides is to be the common platform for the publication of integrated research on landslide processes, hazards, risk analysis, mitigation, and the protection of our cultural heritage and the environment. The journal publishes research papers, news of recent landslide events and information on the activities of the International Consortium on Landslides. - Landslide dynamics, mechanisms and processes - Landslide risk evaluation: hazard assessment, hazard mapping, and vulnerability assessment - Geological, Geotechnical, Hydrological and Geophysical modeling - Effects of meteorological, hydrological and global climatic change factors - Monitoring including remote sensing and other non-invasive systems - New technology, expert and intelligent systems - Application of GIS techniques - Rock slides, rock falls, debris flows, earth flows, and lateral spreads - Large-scale landslides, lahars and pyroclastic flows in volcanic zones - Marine and reservoir related landslides - Landslide related tsunamis and seiches - Landslide disasters in urban areas and along critical infrastructure - Landslides and natural resources - Land development and land-use practices - Landslide remedial measures / prevention works - Temporal and spatial prediction of landslides - Early warning and evacuation - Global landslide database
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