Reinitialised versus continuous regional climate simulations using ALARO-0 coupled to the land surface model SURFEXv5
Dynamical downscaling in a continuous approach using initial and boundary conditions from a reanalysis or a global climate model is a common method for simulating the regional climate. The simulation potential can be improved by applying an alternative approach of reinitialising the atmosphere, comb...
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| Series: | Geoscientific Model Development |
| Online Access: | http://www.geosci-model-dev.net/10/223/2017/gmd-10-223-2017.pdf |
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doaj-2c94fe644f9b4e23abad82475433bd5f2020-11-25T00:18:26ZengCopernicus PublicationsGeoscientific Model Development1991-959X1991-96032017-01-0110122323810.5194/gmd-10-223-2017Reinitialised versus continuous regional climate simulations using ALARO-0 coupled to the land surface model SURFEXv5J. Berckmans0O. Giot1R. De Troch2R. Hamdi3R. Ceulemans4P. Termonia5Royal Meteorological Institute, Brussels, BelgiumRoyal Meteorological Institute, Brussels, BelgiumRoyal Meteorological Institute, Brussels, BelgiumRoyal Meteorological Institute, Brussels, BelgiumCentre of Excellence PLECO (Plant and Vegetation Ecology), Department of Biology, University of Antwerp, Antwerp, BelgiumRoyal Meteorological Institute, Brussels, BelgiumDynamical downscaling in a continuous approach using initial and boundary conditions from a reanalysis or a global climate model is a common method for simulating the regional climate. The simulation potential can be improved by applying an alternative approach of reinitialising the atmosphere, combined with either a daily reinitialised or a continuous land surface. We evaluated the dependence of the simulation potential on the running mode of the regional climate model ALARO coupled to the land surface model Météo-France SURFace EXternalisée (SURFEX), and driven by the ERA-Interim reanalysis. Three types of downscaling simulations were carried out for a 10-year period from 1991 to 2000, over a western European domain at 20 km horizontal resolution: (1) a continuous simulation of both the atmosphere and the land surface, (2) a simulation with daily reinitialisations for both the atmosphere and the land surface and (3) a simulation with daily reinitialisations of the atmosphere while the land surface is kept continuous. The results showed that the daily reinitialisation of the atmosphere improved the simulation of the 2 m temperature for all seasons. It revealed a neutral impact on the daily precipitation totals during winter, but the results were improved for the summer when the land surface was kept continuous. The behaviour of the three model configurations varied among different climatic regimes. Their seasonal cycle for the 2 m temperature and daily precipitation totals was very similar for a Mediterranean climate, but more variable for temperate and continental climate regimes. Commonly, the summer climate is characterised by strong interactions between the atmosphere and the land surface. The results for summer demonstrated that the use of a daily reinitialised atmosphere improved the representation of the partitioning of the surface energy fluxes. Therefore, we recommend using the alternative approach of the daily reinitialisation of the atmosphere for the simulation of the regional climate.http://www.geosci-model-dev.net/10/223/2017/gmd-10-223-2017.pdf |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
J. Berckmans O. Giot R. De Troch R. Hamdi R. Ceulemans P. Termonia |
| spellingShingle |
J. Berckmans O. Giot R. De Troch R. Hamdi R. Ceulemans P. Termonia Reinitialised versus continuous regional climate simulations using ALARO-0 coupled to the land surface model SURFEXv5 Geoscientific Model Development |
| author_facet |
J. Berckmans O. Giot R. De Troch R. Hamdi R. Ceulemans P. Termonia |
| author_sort |
J. Berckmans |
| title |
Reinitialised versus continuous regional climate simulations using ALARO-0 coupled to the land surface model SURFEXv5 |
| title_short |
Reinitialised versus continuous regional climate simulations using ALARO-0 coupled to the land surface model SURFEXv5 |
| title_full |
Reinitialised versus continuous regional climate simulations using ALARO-0 coupled to the land surface model SURFEXv5 |
| title_fullStr |
Reinitialised versus continuous regional climate simulations using ALARO-0 coupled to the land surface model SURFEXv5 |
| title_full_unstemmed |
Reinitialised versus continuous regional climate simulations using ALARO-0 coupled to the land surface model SURFEXv5 |
| title_sort |
reinitialised versus continuous regional climate simulations using alaro-0 coupled to the land surface model surfexv5 |
| publisher |
Copernicus Publications |
| series |
Geoscientific Model Development |
| issn |
1991-959X 1991-9603 |
| publishDate |
2017-01-01 |
| description |
Dynamical downscaling in a continuous approach using initial and boundary
conditions from a reanalysis or a global climate model is a common method for
simulating the regional climate. The simulation potential can be improved by
applying an alternative approach of reinitialising the atmosphere, combined
with either a daily reinitialised or a continuous land surface. We evaluated
the dependence of the simulation potential on the running mode of the
regional climate model ALARO coupled to the land surface model
Météo-France SURFace EXternalisée (SURFEX), and driven by the
ERA-Interim reanalysis. Three types of downscaling simulations were carried
out for a 10-year period from 1991 to 2000, over a western European domain at
20 km horizontal resolution: (1) a continuous simulation of both the
atmosphere and the land surface, (2) a simulation with daily
reinitialisations for both the atmosphere and the land surface and (3) a
simulation with daily reinitialisations of the atmosphere while the land
surface is kept continuous. The results showed that the daily
reinitialisation of the atmosphere improved the simulation of the 2 m
temperature for all seasons. It revealed a neutral impact on the daily
precipitation totals during winter, but the results were improved for the
summer when the land surface was kept continuous. The behaviour of the three
model configurations varied among different climatic regimes. Their seasonal
cycle for the 2 m temperature and daily precipitation totals was very
similar for a Mediterranean climate, but more variable for temperate and
continental climate regimes. Commonly, the summer climate is characterised by
strong interactions between the atmosphere and the land surface. The results
for summer demonstrated that the use of a daily reinitialised atmosphere
improved the representation of the partitioning of the surface energy fluxes.
Therefore, we recommend using the alternative approach of the daily
reinitialisation of the atmosphere for the simulation of the regional
climate. |
| url |
http://www.geosci-model-dev.net/10/223/2017/gmd-10-223-2017.pdf |
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