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Time-resolved triggering and runout analysis of rainfall-induced shallow landslides

Giulia La Porta, Alessandro Leonardi, Marina Pirulli, Francesco Cafaro, Francesco Castelli

2023Acta Geotechnica16 citationsDOIOpen Access PDF

Abstract

Abstract Rainfall-induced shallow landslides often turn into flows. These phenomena occur worldwide and pose severe hazard to infrastructure and human lives on mountainous areas. Risk assessment, and the design of mitigation measures, can both be informed by back-analysis of previous events. However, shallow instabilities are frequently spread over a large area, with the generated flows occurring in sequences, or surges. Conventionally, back-analysis exercises tackle the problem by simulating runout as a single event, with all surges happening simultaneously. This simplification has repercussions that have not been explored in the literature so far, and whose impact in hazard assessment practice is unclear. Therefore, a novel time-resolving procedure is proposed in this paper, which can for the first time be applied to resolve instability sequences of arbitrary duration. The methodology discretizes the event, detecting instabilities at equally spaced time intervals as a function of rainfall. Thanks to this, the post-failure behaviour of each surge can be tracked by a runout model, with a separate simulation performed every time a new instability is detected. The methodology robustness is tested on two documented case studies. The results reveal that, under some conditions, the time-resolving procedure can lead to significantly different results in terms of runout path, flooded area, and flow heights. This leads to criticism on how back-analysis is conventionally applied, prompting for a review of historical cases.

Topics & Concepts

LandslideSurgeHazard analysisHazardGeologyRobustness (evolution)InstabilityNatural hazardEvent (particle physics)Debris flowMeteorologyComputer scienceSeismologyGeotechnical engineeringEngineeringMechanicsGeographyReliability engineeringDebrisGeomorphologyOrganic chemistryChemistryPhysicsGeneOceanographyQuantum mechanicsBiochemistryLandslides and related hazardsDam Engineering and SafetyFlood Risk Assessment and Management
Time-resolved triggering and runout analysis of rainfall-induced shallow landslides | Litcius