A decrease in rockfall probability under  climate change conditions in Germany

Nissen, Katrin M.; Wilde, Martina; Kreuzer, Thomas M.; Wohlers, Annika; Damm, Bodo; Ulbrich, Uwe

doi:10.5194/nhess-23-2737-2023

Nat. Hazards Earth Syst. Sci.

2023

DOI: 10.5194/nhess-23-2737-2023

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A decrease in rockfall probability under climate change conditions in Germany

Katrin M. Nissen¹,

Martina Wilde

Thomas M. Kreuzer³

et al.

Abstract: Abstract. The effect of climate change on rockfalls in the German low mountain regions is investigated following two different approaches. The first approach uses a logistic regression model that describes the combined effect of precipitation, freeze–thaw cycles, and fissure water on rockfall probability. The climate change signal for the past 6 decades is analysed by applying the model to meteorological observations. The possible effect of climate change until the end of the century is explored by applying th… Show more

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2024

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Cited by 4 publications

References 49 publications

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A preliminary investigation of the small rockfall triggering conditions along a road network in Slovenia

Šegina,

Jemec Auflič,

Mikoš

et al. 2024

Landslides

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Rockfalls are among the natural hazards that endanger infrastructure, cause major economic disruptions, and threaten human lives. These phenomena result from long-term geological processes such as tectonic rock deformation or weathering, but the actual rockfall itself occurs suddenly, usually without warning. The triggering mechanisms are complex and difficult to trace. In this study, we investigated the triggering mechanisms of more than 2100 small rockfalls that occurred in 2021 in Slovenia, Europe, along the 51,000 km long national road network. We analyzed their spatial and temporal characteristics, as well as the triggering mechanisms of their occurrence, based on different weather scenarios. Multiple data mining methods were used to investigate triggering conditions, and scenario analyses were used to understand the triggering mechanisms. Most small rockfalls in 2021 were recorded in winter and spring at a density of 1 rockfall per 10 km2. The results show that winter weather conditions have the greatest potential for triggering small rockfalls in Slovenia, both in terms of spatial extent and frequency of triggering weather conditions. The analysis showed that summer storms are an important but indeterminant factor for the occurrence of small rockfalls. Among the scenarios tested, the winter scenario, which includes a combination of antecedent precipitation, snowmelt, and freeze‒thaw cycles a few days before the event, was able to predict 72% of the events in the colder season.

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A preliminary investigation of the small rockfall triggering conditions along a road network in Slovenia

Šegina,

Jemec Auflič,

Mikoš

et al. 2024

Landslides

View full text Add to dashboard Cite

show abstract

Seasonality of rockfall triggers and conditioning factors interpreted from a lidar-derived rockfall database

Malsam,

Walton

2024

Engineering Geology

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Climate sensitivity of natural hazards processes in mountain regions: A fuzzy logic approach

Mani,

Allen,

Kotlarski

et al. 2024

Geomorphology

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A decrease in rockfall probability under climate change conditions in Germany

Cited by 4 publications

References 49 publications

A preliminary investigation of the small rockfall triggering conditions along a road network in Slovenia

A preliminary investigation of the small rockfall triggering conditions along a road network in Slovenia

Seasonality of rockfall triggers and conditioning factors interpreted from a lidar-derived rockfall database

Climate sensitivity of natural hazards processes in mountain regions: A fuzzy logic approach

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