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Projekte

Loss ratio [per thousand] accumulated over Germany for winter storm events from 1997-2016.

ClimXtreme - Module C Coordination (COO)

Uwe Ulbrich

Module C coordination and index clustering (COO) ClimXtreme Module C focuses on extreme events that have an impact on socio-economic systems. This means that it is not only a local extreme value of a meteorological parameter that is of interest, but the combination of specific environmental attributes that make it impact relevant. Module C includes nine projects and two associated projects covering different impacts and hazard types. The project COO coordinates Module C, supports individual projects to meet overarching module and ClimXtreme research questions and synthesizes results. Furthermore, the project COO aims to build and continuously expand a database on damaging weather conditions on the basis of past and recent observational datasets (reanalysis data) as well as recent and future climate model projections. This starts from well-established extreme indices and integrating novel extreme indices through collaboration with the other projects from Module C focusing on impacts of multiple hazards considered in Module C. The database allows to evaluate compound events of different types. The analysis of multivariate compounds, here the co-occurrence of extreme wind and precipitations shows the increased impact of such events in comparison to single extremes. As a key scientific question, the project COO will address such damaging weather events which are particularly relevant in the (re)insurance context. Further information : https://climxtreme.net/

ClimXtreme

ArcClimEx (ClimXtreme)

Uwe Ulbrich, Henning Rust

Das Projekt zielt auf ein verbessertes Verständnis der Mechanismen ab, die die Verbindungen zwischen den arktischen Klimaänderungen, Veränderungen der großräumigen atmosphärischen Zirkulation (bezüglich der Variabilität und Häufigkeit und Stärke von Wettersystemen) und den ...

Example IDF curve that shows the return levels of statistical return periods (colors) and a specific event (black).

IDF-AF (ClimXtreme)

Uwe Ulbrich, Henning Rust

Precipitation Extremes: Linking Consistent Intensity-Duration-Frequency Relation to Large Scale Atmospheric Flow (IDF-AF) Precipitation events can have very different characteristics, from long-lasting light drizzle to short but intense precipitation. For every precipitation event duration, ...

XPreCCC (ClimXtreme)

Uwe Ulbrich, Henning Rust

The frequency and intensity of extreme precipitation are critical factors for the assessment of future impacts due to rainfall extremes. Other event characteristics can also play an important role: for example, the duration, spatial extent and areal precipitation volume of the event. To fully ...

Difference in % between the simulation periods 1971-2000 and 2071-2100 for the number of days showing a probability for rockfall that is higher than the climatological probability. Hatching denotes regions for which the signal is statistically signi

LASLI (ClimXtreme)

Uwe Ulbrich, Bodo Damm

Slope failure processes (e.g. landslides, rockfall) in Central Europe are associated with high damage on road, railway and building infrastructure as well as casualties. While the general susceptibility for such events is determined by geological and geophysical conditions, meteorological factors frequently determine the triggering of the hazard. High moisture preconditions, intensive precipitation and processes related to frost have been identified as important triggers. Based on landslide and rockfall records, the contribution of the meteorological factors on the frequency of slope failure events in the German low mountain regions was determined. Changes in the occurrence probabilities of such events under climate change conditions are investigated using multi-model ensemble of regional climate scenario simulations. Under RCP8.5 scenario conditions rockfall probability in the study region is likely to decrease while landslides are expected to become more frequent. LASLI is a subproject within ClimXtreme. It is conducted in collaboration with the research group  Applied Physical Geography at the University of Vechta. Publications: K.M. Nissen, S. Rupp, T.M. Kreuzer, B. Guse, B. Damm and U. Ulbrich, 2022: Quantification of meteorological conditions for rockfall triggers in Germany, Nat. Hazards Earth Syst. Sci., 22, 2117–2130, https://doi.org/10.5194/nhess-22-2117-2022 . K.M. Nissen, M., Wilde, M., Kreuzer, T. M., Wohlers, A., Damm, B., and Ulbrich, U.: A decrease in rockfall probability under climate change conditions in Germany, EGUsphere [preprint], https://doi.org/10.5194/egusphere-2023-94 , 2023. (under review)

WIND (ClimXreme)

Uwe Ulbrich, Nico Becker, Marc Hanewinkel

Winter windstorms are among the most dangerous and costly natural hazards in Central Europe. Compared to convective events, the large extent of affected areas makes them particularly relevant in terms of the risks from both an insurance and an economic point of view. The idea of this project is to improve the analysis of weather patterns and -sequences leading to wind-induced damages using a common approach for three different types of storm impacts, namely building damages, forestry damages and railway disruption risks as an example for (secondary) damages due to wind throw. WIND is a subproject within ClimXtreme. It is conducted in collaboration with the research group Forestry Economics and Forest Planning at the University of Freiburg.

Variabilität des stündlichen Niederschlags im Gebietsmittel für Berlin in einem Ensemble aus Modellsimulationen.

Climate and Water under Change

Uwe Ulbrich

Die Einstein Research Unit Climate and Water under Change (CliWaC) ist eine transdisziplinäre Forschungsinitiative der Berlin University Alliance.Diese untersucht wasserbezogene Risiken des Klimawandels im Raum Berlin-Brandenburg.   Am Institut für Meteorologie untersuchen wir die ...

NFDI4Earth

Uwe Ulbrich, Stephan Pfahl, Dr. Ingo Kirchner

01.10.2022 — 26.04.2026

Die deutsche Earth-System-Science-Community mit derzeit über 50 Partnern aus Universitäten, Forschungseinrichtungen, Infrastrukturanbietern und Behörden hat sich zum Ziel gesetzt, in den nächsten Jahren bestehende und zukünftige Strategien und Services für Forschungsdatenmanagement in den Geowissenschaften zu vereinheitlichen und an den Grundsätzen von Offenheit und den FAIR-Prinzipien zu orientieren. NFDI4Earth arbeitet mit der Earth-System-Science-Community zusammen - sei es mit Studenten, Fachleuten, Dienstleistern oder Wissenschaftler*innen. Damit wird garantiert, dass sich die Entwicklung von NFDI4Earth ganz nach den Bedürfnissen und Anforderungen der Gemeinschaft richtet. NFDI4Earth ist Teil der Nationalen Forschungsdateninfrastruktur (NFDI). Diese soll die Datenbestände von Wissenschaft und Forschung systematisch erschließen, nachhaltig sichern und zugänglich machen sowie (inter-)national vernetzen.

SpreeWasser:N

Uwe Ulbrich

SpreeWasser:N zielt auf die Entwicklung innovativer Werkzeuge, Strategien und Handlungsoptionen (Best-Practice-Beispiele) für ein integriertes Wasserressourcenmanagement in der Region Berlin-Brandenburg ab. Die Region weist eines der höchsten Wasserdefizite in Deutschland auf. Ziel des ...

Sturmklima Hessen

Uwe Ulbrich

In a changing climate, with increasing temperatures and moisture, the extratropical circulation will likely change, and so will the dynamics of North Atlantic windstorms. Extratropical storms may take different paths than in the past, and show modified characteristics such as their frequency, intensity, lifetime, or extent. However, these changes of storm characteristics and impacts, especially on the regional scale, still exhibit substantial uncertainties due to low confidence in the underlying changes of the circulation and storm tracks in a changing climate - partly because the interannual variability is larger than climate change related trends but also because previous analyses are based coarse resolution simulations and/or single model studies. This project “Sturmklima Hessen”, funded by HLNUG (Hessisches Landesamt für Naturschutz, Umwelt und Geologie), aims to address these issues. It aims to estimate the spread of possible developments regarding the storm risk and its impacts for the federal state of Hessen, Germany in a changing climate. A multitude of global and regional climate simulations is evaluated, including spatially and temporally higher resolved models preferably in large ensembles, to draw robust conclusions on expected changes using different warming scenarios. In cooperation with the GDV (Gesamtverband der Deutschen Versicherungswirtschaft) the storm induced loss on residential buildings will be related to the wind speed of model and observation based data using deterministic and probabilistic statistical models. The impact of the resolution of the model on the representation of the storm climate is explored and particularly ruinous episodes as well as categorized storm events are downscaled to estimate the range of losses. Seasonal and decadal predictions are considered as well as high resolved (regional) climate experiments.

WEXICOM

Uwe Ulbrich

Mit einem inter- und transdisziplinären Ansatz betrachten Meteorologen  und Sozialwissenschaftler Wetterwarnungen und ihre Wahrnehmung und Nutzung durch Akteure des Bevölkerungsschutzes, Behörden und betroffene Bürger. Der Schwerpunkt in der ersten Förderphase liegt auf Sturm- und Gewitterereignissen für die Stadt Berlin. Unser Ziel ist es, den Warnprozess und die Kommunikation von Warnungen  zu verbessern, um wetterbedingte Schäden zu vermindern. Ein Schwerpunkt hierbei ist der Umgang mit der Unsicherheit von Wetterwarnungen. In Zusammenarbeit mit dem DWD und Nutzern der Warnungen erarbeiten wir Empfehlungen für endnutzerorientierte Informationsprodukte. Das Projekt WEXICOM bearbeitet als Teil des " Hans-Ertel-Zentrum für Wetterforschung " des Deutschen Wetterdienstes den Themenbereich 5: "Optimale Anwendung von Wettervorhersagen". Projektwebseite: http://www.geo.fu-berlin.de/met/wexicom/index.html

Natrisk

Natural Hazards and Risks in a Changing World

Uwe Ulbrich, Henning Rust

A graduate research school with the University of Potsdam, Potsdam Institute for Climate Impact Research (PIK), Helmholtz Centre Potsdam German Research Centre for Geosciences GFZ. The central goal of NatRiskChange is to pursue the development of methods to improve hazard and risk analysis and ...