预测地震后落石活动

IF 1.2 Q4 REMOTE SENSING Journal of Applied Geodesy Pub Date : 2022-11-22 DOI:10.1515/jag-2022-0045
Michael J. OlsenM.J. Olsen, C. Massey, B. Leshchinsky, J. Wartman, A. Senogles
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引用次数: 1

摘要

公路或铁路等重要基础设施穿越世界上许多山区和风景区的不稳定地形。落石和山体滑坡导致频繁的维护需求、频繁的关闭和限制导致的系统不可靠性以及安全隐患。地震活动通过产生大型落石和山体滑坡以及削弱地形,大大放大了这些负面的经济和社区影响。本文询问了坎特伯雷-新西兰地震序列期间收集的重复陆地激光雷达扫描的丰富数据库,以记录地貌过程,并量化随时间变化的落石活动率。根据落石活动指数(RAI)形态分类,观察了活动率(空间分布)和破坏深度(大小)的变化。预测模型可以从这些关系中开发出来,交通机构可以利用这些关系来估计碎片清除的维护需求增加,以最大限度地减少地震事件后落石造成的道路封闭。
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Forecasting post-earthquake rockfall activity
Abstract Important infrastructure such as highways or railways traverse unstable terrain in many mountainous and scenic parts of the world. Rockfalls and landslides result in frequent maintenance needs, system unreliability due to frequent closures and restrictions, and safety hazards. Seismic activity significantly amplifies these negative economic and community impacts by generating large rockfalls and landslides as well as weakening the terrain. This paper interrogates a rich database of repeat terrestrial lidar scans collected during the Canterbury New Zealand Earthquake Sequence to document geomorphic processes as well as quantify rockfall activity rates through time. Changes in the activity rate (spatial distribution) and failure depths (size) were observed based on the Rockfall Activity Index (RAI) morphological classification. Forecasting models can be developed from these relationships that can be utilized by transportation agencies to estimate increased maintenance needs for debris removal to minimize road closures from rockfalls after seismic events.
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来源期刊
Journal of Applied Geodesy
Journal of Applied Geodesy REMOTE SENSING-
CiteScore
2.30
自引率
7.10%
发文量
30
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