Extreme rainfall characteristics in the Ecuadorian Andes are analyzed using high-resolution radar data, identifying different rainfall patterns for 3 classes of extreme events.r
Assessing the Added Value of Convection-Permitting Climate Models for Hydrological Extremes in Western Norway
We evaluate CPRCMs for flood simulations in Western Norway, showing improved precipitation representation but highlighting the need for bias correction to enhance flood prediction in mountainous basin
The role of the Sonnblick Observatory within European Research Infrastructure Consortiums (ERICs) and its potential for eLT(S)ER
Insight into the potential of the Sonnblick Observatory as a research hub for ERICs with new approaches to altitude gradient studies in the context of eLT(S)ER. A potential for cooperations.
Summer intense precipitations in the Alpine region: altitudinal effects
Intense summer precipitation has increased over recent decades, with a more pronounced enhancement over the Alpine slopes compared to the Po Valley
The paradox of choice: Evaluating climate change projections for hydrological impact models considering uncertainty and spatiotemporal aspects.
The best projection is neither feasible nor foreseen, but this methodology aims to guide a coherent selection of available products or to identify the need to develop new ones
Deplete and Retreat: The Future of Andean Water Towers
Deplete and Retreat: the Future of Andean Water Towers aims to upskill our capability to project water resource changes, by combining state-of-the-art models and new observations.
Storm-scale impacts on seasonal snow droughts: A case study in the Pacific Northwest, United States
The impact of a combined rain-on-snow and mid-winter heatwave event is analyzed in the Pacific Northwest, United States to better understand storm-scale impacts on snow droughts.
Snow cover and precipitation extremes in the Andean mountains
We investigate climatic forcings and future changes in snow and precipitation extremes across the Andes, using the WRF model.
Assessing climate variability with a high resolution reanalysis over High Mountain Asia
A high-resolution, century-long reanalysis over High Mountain Asia has been generated using the Modèle Atmosphérique Régional (MAR) to investigate climate variability and long term trends.