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Sampling of the large climate model ensemble for climate change adaptation strategies planning
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SYSNO ASEP 0508558 Document Type A - Abstract R&D Document Type The record was not marked in the RIV R&D Document Type Není vybrán druh dokumentu Title Sampling of the large climate model ensemble for climate change adaptation strategies planning Author(s) Skalák, P. (CZ)
Štěpánek, P. (CZ)
Meitner, J. (CZ)
Lhotka, Ondřej (UFA-U) RID, ORCID
Trnka, M. (CZ)
Dubrovský, Martin (UFA-U) RID, ORCID
Zahradníček, P. (CZ)Number of authors 7 Source Title EMS Annual Meeting Abstracts, Vol. 16. - Berlin : European Meteorological Society, 2019 Number of pages 1 s. Publication form Online - E Action EMS Annual Meeting 2019 Event date 09.09.2019 - 13.09.2019 VEvent location Copenhagen Country DK - Denmark Event type WRD Language eng - English Country DE - Germany Keywords climate change ; regional climate model ; climate models ensemble Subject RIV DG - Athmosphere Sciences, Meteorology OECD category Climatic research Institutional support UFA-U - RVO:68378289 Annotation Availability of high number of climate model simulations, e.g., from CMIP5 or CORDEX ensembles, helps in
capturing uncertainties related to the future climate development. On the other hand, a big ensemble of climate
model projection poses a challenge when it comes to decision which particular simulated trajectory of the climate
development should be followed and translated into very specific actions to adapt to the future climate conditions.
We present a method of sampling of the Euro-Cordex EUR-11ensemble of regional climate model (RCM)
simulations to define a small subset of RCMs that will be then used for climate change impact assessment and
adaptation measures design. RCMs are selected in two steps. The first selection is done thought the validation
of the GCM-driven control runs against the high density station observation dataset and it reduce the number of
RCM simulations from 19 to 12. The magnitude of climate change signal in RCP8.5 bias corrected simulation is
then used to further narrow down this number to 1, 3, 5 or 7 RCMs that are afterwards used for the adaptation
strategies planning.
When evaluating RCM control runs, we considered the following validation criteria: annual course of monthly
precipitation and air temperatures (mean, minimum, maximum), spatial correlation and variability of their
seasonal values. Except of air temperatures and precipitation we also take into account validation scores of relative
humidity, global solar radiation and wind speed.
To evaluate magnitude of the climate change signal in RCP8.5 simulations we used the square of Euclidean
distance from the centroid that is defined as the average of values over all models.
The final RCM subset is derived from RCP8.5 simulation analysis and it is composed from:
1) one central RCM that represents and “ensemble mean” of projected changes of temperature and precipitation,
2) two warmer and colder RCMs representing above and below average warming during the 21st century,
3) two wetter and drier RCMs representing above and below average change of the annual precipitation during the
21st century,
4) two other RCMs representing wider range of driving GCMs and also having some distinct features, e.g., high
number of tropical days.Workplace Institute of Atmospheric Physics Contact Kateřina Adamovičová, adamovicova@ufa.cas.cz, Tel.: 272 016 012 ; Kateřina Potužníková, kaca@ufa.cas.cz, Tel.: 272 016 019 Year of Publishing 2020
Number of the records: 1