A new scenario free procedure to determine flood peak changes in the Harz Mountains in response to climate change projections

authored by

Marcus Beylich, Uwe Haberlandt, Frido Reinstorf

Abstract

Study area: Six catchments of different hydrological characteristics in the Harz Mountains, Germany. Study focus: A new scenario free method for determining changes of flood peaks considering climate change is developed. Compared to existing methods, it accounts for heavy rainfall changes by a newly developed factor with two seasons and establishes a numerical relationship to a greater number of relevant climate predictors. For easier application, it is based on frequently available daily measurements. A functional test of the factor for heavy rainfall changes and its adjustment algorithm for the precipitation time series is performed. Using a regional AR5 ensemble, for the first time the error and the uncertainty of a new scenario free method are estimated and compared with an existing method. The new method is applied in the Harz Mountains, where the sensitivity of the region to different climate predictors is investigated. New hydrological insights for the region: The adjusting algorithm for precipitation is able to adjust the time series while maintaining mass balance. The new method has a lower error than the reference method, with better matches of changes in the median of the climate ensemble as well as the most ensemble members. In general, the uncertainty of the seasonal results is below the climate uncertainty of the AR5 ensemble. Regarding future flood peaks, the regional catchments are most sensitive to mean precipitation changes, followed by heavy rainfall changes especially in the winter season. Mean temperature changes are of minor significance, but the catchments characteristics are important. The new method can be recommended for assessments of climate change impacts on floods in low to average mountain regions in Germany and Europe.

Organisation(s)

Institute of Hydrology and Water Resources Management

External Organisation(s)

Magdeburg-Stendal University of Applied Sciences

Type

Article

Journal

Journal of Hydrology: Regional Studies

Volume

54

No. of pages

18

Publication date

08.2024

Publication status

Published

Peer reviewed

Yes

ASJC Scopus subject areas

Water Science and Technology, Earth and Planetary Sciences (miscellaneous)

Sustainable Development Goals

SDG 13 - Climate Action

Electronic version(s)

https://doi.org/10.1016/j.ejrh.2024.101864 (Access: Open)