从岩崩观测到操作解决方案:勃朗峰地块近20年低温重力危害研究

IF 0.2 4区 社会学 Q4 GEOGRAPHY
Florence Magnin, Ludovic Ravanel, Matan Ben-Asher, Josué Bock, Maëva Cathala, Pierre-Allain Duvillard, Pierrick Jean, Jean-Yves Josnin, Suvrat Kaushik, André Revil, Philip Deline
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引用次数: 0

摘要

自2000年代以来,首次在欧洲阿尔卑斯山发现的岩崩频率增加(V bbb100 m3)激发了对高山岩壁和岩壁永久冻土的调查。由于通过连续的研究项目获得了大量关于岩崩和永久冻土动力学的数据和知识,勃朗峰地块(MBM)已成为一个试点研究区域。对落石分布的统计分析(2007年至2021年期间记录的100 000次落石事件)表明,它们与永久冻土分布和不断升高的大气温度有关,这为开发预测工具以支持山区从业人员的风险缓解战略开辟了有希望的前景。然而,了解岩壁失稳如何发展受到各种可能涉及的热-水-机械过程的挑战。为了应对这些挑战,目前在MBM中开展的研究重点是通过结合先进的数值模拟方法和临时现场调查,研究冻结岩壁中的水渗透和循环过程。模拟热和水输送的模型与地电成像方法的耦合可以评估地下水/冰的分布和含量,这与岩土工程的目的高度相关。同时,将获得的数据和知识结合在景观变化和涉及永久冻土退化、冰川退缩、可能的湖泊形成和岩壁不稳定的危害的综合方法中,似乎是土地规划问题的重要基础。最后,岩壁永久冻土与岩石表面(冰围裙和悬挂冰川)上的冰体之间的热水文相互作用是另一个跨学科研究方向。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
From Rockfall Observation to Operational Solutions: Nearly 20 years of Cryo-gravitational Hazard Studies in Mont-Blanc Massif
The enhanced rockfall frequency (V > 100 m3) first noticed in the European Alps, has motivated investigations on high mountain rock walls and rock wall permafrost since the 2000s. Mont-Blanc massif (MBM) has become a pilot study area thanks to the wealth of data and knowledge on rockfall and permafrost dynamics acquired through successive research projects. Statistical analysis of rockfall distribution (> 1300 events inventoried between 2007 and 2021) shows that they are related to permafrost distribution and increasing atmospheric temperature, opening promising perspective for developing forecasting tools to support mountain practitioners in their risk mitigation strategy. However, understanding how rock wall destabilizations develop is challenged by the variety of potentially involved thermo-hydro-mechanical processes. To face these challenges, research currently carried out in the MBM focuses on water infiltration and circulation processes in frozen rock walls by combining advanced numerical modelling approaches and ad hoc field surveys. The coupling of models simulating heat and water transport with geoelectrical imaging methods could allow assessment of ground water/ice distributions and contents that is highly relevant for geotechnical purposes. Concurrently, the combination of acquired data and knowledge in integrative approaches of landscape changes and hazards involving permafrost degradation, glacier retreat, possible lake formation and rock wall destabilization appears as an essential basis for land-planning concerns. Finally, thermal and hydrological interactions between rock wall permafrost and ice bodies nestled on rock faces (ice aprons and hanging glaciers) is another direction of research to be pursued with cross-disciplinary implications.
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来源期刊
CiteScore
0.70
自引率
25.00%
发文量
25
审稿时长
40 weeks
期刊介绍: La Revue de Géographie alpine / Journal of Alpine Research est une revue internationale et pluridisciplinaire, elle publie des articles scientifiques inédits concernant les problématiques territoriales et environnementales sur l’Arc alpin et les montagnes d’Europe ; les autres montagnes du monde peuvent prendre place dans des dossiers thématiques à orientation comparative. La revue publie simultanément les articles en français et en anglais.
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