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Changes of hydro-meteorological trigger conditions for debris flows in a future alpine climate

Roland Kaitna, David Prenner, Matthew B. Switanek, Douglas Maraun, Markus Stoffel, Markus Hrachowitz

2023The Science of The Total Environment26 citationsDOIOpen Access PDF

Abstract

Debris-flow activity is strongly controlled by hydro-meteorological trigger conditions, which are expected to change in a future climate. In this study we connect a regional hydro-meteorological susceptibility model for debris flows with climate projections until 2100 to assess changes of the frequency of critical trigger conditions for different trigger types (long-lasting rainfall, short-duration storm, snow-melt, rain-on-snow) in six regions in the Austrian Alps. We find limited annual changes of the number of days critical for debris-flow initiation when averaged over all regions, but distinct changes when separating between hydro-meteorological trigger types and study region. Changes become more evident at the monthly/seasonal scale, with a general trend of critical debris-flow trigger conditions earlier in the year. The outcomes of this study serve as a basis for the development of adaption strategies for future risk management.

Topics & Concepts

DebrisDebris flowEnvironmental scienceSnowStormClimate changeClimatologyHydrology (agriculture)MeteorologyGeographyGeologyGeotechnical engineeringOceanographyLandslides and related hazardsFire effects on ecosystemsCryospheric studies and observations
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