A regional climate emulator to estimate glacial-interglacial changes over the Alps
- 1ETH Zurich, Institute for Atmospheric and Climate Science, Climate and Environmental Physics, Zurich, Switzerland (emmanuele.russo@env.ethz.ch)
- 2University of Bern, Climate and Environmental Physics, Bern, Switzerland
- 3Oeschger Centre for Climate Change Research, Bern, Switzerland
- 4University of Zurich, Institute of Geography, Zurich, Switzerland
- 5CoSci LLC, Placitas, New Mexico, USA
- 6New Mexico Tech, Department of Earth and Environmental Science, Socorro, New Mexico, USA.
Glacier modelling of the Alpine region during past ice ages has received increasing attention in the recent years. Considering the complexity of the Alpine topography, high spatial resolution climate information is required for running glacier models over the area. However, continuous climatic signal at resolution higher than 10 km and covering several hundred thousand of years cannot be directly derived using dynamical climate models. Alternative strategies must be considered.
Here, a climate emulator providing monthly temperature and precipitation over the Alpine region, with a horizontal resolution of 2x2 km and covering the last 400’000 years at intervals of 100 years, is presented. The emulatorcombines a dynamical modelling chain of Earth System Models (ESMs) and a Regional Climate Model (RCM) with different statistical modelling methods. The dynamical modelling chain delivers climate information at highest accuracy based upon physical prognostic equations for specific time slices. The subsequent statistical modelling uses these time slices as physically consistent boundaries and estimates the climate conditions in between them, thus generatinga long-term climate evolution.
A total of 19 climate model experiments are conducted for different time-slices of the considered study period, including also sensitivity tests with changes in the ice sheet height of the Northern Hemisphere and land cover type. Starting from a simple linear regression, a series of different statistical approaches is tested for building the emulator. An evaluation of the different versions is then conducted against one of the RCM time-slice experiments, left out in turns from the training set of the statistical model.
Results show robust skills of the emulator in the representation of temperature, whose changes are mainly driven by smooth variations in the seasonal pattern of insolation at different time-steps, already using a simple linear regression. For precipitation, non-linearities associated to changes in the large-scale atmospheric circulation seem to dominate, making the use of more complex statistical approaches more appropriate. Additional evaluation tests conducted using glacier modelling driven by the outputs of the developed emulator confirm its potential for reconstructing the ice extent over the Alpine region during the last ice ages.
How to cite: Russo, E., Buzan, J., Jouvet, G., Cohen, D., and Raible, C. C.: A regional climate emulator to estimate glacial-interglacial changes over the Alps, EGU General Assembly 2022, Vienna, Austria, 23–27 May 2022, EGU22-11514, https://doi.org/10.5194/egusphere-egu22-11514, 2022.