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Local knowledge of emerging hazards: Instability above an Icelandic glacier

Stephanie Matti, Helga Ögmundardóttir

2021International Journal of Disaster Risk Reduction22 citationsDOIOpen Access PDF

Abstract

Climate change is contributing to shifts in the magnitude and scale of hazards, and the emergence of risks in areas where they were previously unknown. In south-east Iceland, a fracture in the mountainside of Svínafellsheiði threatens to cause between 60 and 100 million cubic metres of rock to fall onto the glacier below. A large landslide could break up the surface of the glacier, crash into the proglacial lake, and affect people and infrastructure downhill. In addition to the unprecedented scale, the Svínafellsheiði fracture represents the first time people and infrastructure have been exposed to this type of hazard in Iceland. In this article we examine the role of local knowledge in disaster risk reduction and management for communities that are facing a particular type of hazard for the first time. We argue that even when a community lacks experience with a specific type of hazard, local knowledge can still play a valuable role in hazard identification and risk management.

Topics & Concepts

HazardGlacierScale (ratio)Hazard analysisLandslideRockfallDisaster risk reductionGeographyPhysical geographyGeologyEnvironmental resource managementForensic engineeringEnvironmental planningEnvironmental scienceEngineeringGeomorphologyCartographyEcologyBiologyAerospace engineeringLandslides and related hazardsDisaster Management and ResilienceCryospheric studies and observations
Local knowledge of emerging hazards: Instability above an Icelandic glacier | Litcius