Stage-dependent glacier entrainment in the 2025 Blatten rock-ice avalanche
编号:25 访问权限:仅限参会人 更新:2026-07-13 11:58:31 浏览:1次 口头报告

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摘要
High-mountain rock-ice avalanches pose increasing hazards in glacierized regions under climate warming, as illustrated by the 2025 Blatten disaster in the Swiss Alps (Büntgen et al., 2025). This study investigates how glacier entrainment affected the mobility of the 28 May 2025 Blatten rock-ice avalanche by integrating multi-source remote sensing, digital elevation model differencing, video interpretation, and three-dimensional material point method simulations. The model reproduces the observed runout footprint, with a simulated swept area of 2.85 square kilometres, an observed area of 2.69 square kilometres, and an intersection-over-union value of 0.82. The simulated motion evolved through five stages: rock destabilization, rock-ice interaction, channelized propagation, impact-induced diversion, and deposition. Glacier entrainment increased the moving volume from approximately 5.6 to 8.4 million cubic metres; however, its influence on mobility was stage-dependent rather than monotonically enhancing. During early rock-ice interaction, shear, compression, and interfacial friction dissipated rock kinetic energy and reduced motion efficiency. As the glacier body was progressively mobilized, ice velocity approached rock velocity and the entrained ice contributed momentum and gravitational potential energy to the coupled mass. Compared with a pure-rock scenario, total swept area increased from 2.16 to 2.85 square kilometres, whereas swept area per unit volume decreased from 0.386 to 0.339 square kilometres per million cubic metres. We therefore propose a stage-controlled entrainment model in which glacier ice shifts from an energy sink to an active moving component, complementing process-based rock-ice avalanche mechanics (Pudasaini & Krautblatter, 2014).
 
关键词
Ice-rock avalanche; Dynamic entrainment; Stage-dependent dynamics; Glacier entrainment; Material Point Method
报告人
Jianchao Chen
Doctoral Student Chang'an University

稿件作者
Jianchao Chen Chang'an University
Wei Shen Department of Geological Engineering, Chang'an University
Jian Guo Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences
Shifeng Lin Chang'an University
Yuqi Chen Chang'an University
Zhanghui Zhai Shaanxi Engineering Technology Research Center for Urban Geology and Underground Space;Shaanxi Hydrogeology Engineering Geology and Environment Geology Survey Center
Ping Li Chang'an University;Water Cycle and Geological Environment Observation and Research Station for the Chinese Loess Plateau
Tonglu Li Chang'an University
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重要日期
  • 会议日期

    08月09日

    2026

    08月12日

    2026

  • 08月09日 2026

    初稿截稿日期

  • 08月12日 2026

    注册截止日期

主办单位
香港理工大学
承办单位
The Hong Kong Polytechnic University
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