Assessment of an ensemble of ocean–atmosphere coupled and uncoupled regional climate models to reproduce the climatology of Mediterranean cyclones

This study aims to assess the skill of regional climate models (RCMs) at reproducing the climatology of Mediterranean cyclones. Seven RCMs are considered, five of which were also coupled with an oceanic model. All simulations were forced at the lateral boundaries by the ERA-Interim reanalysis for a...

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Bibliographic Details
Published in:Climate dynamics 2018-08, Vol.51 (3), p.1023-1040
Main Authors: Flaounas, Emmanouil, Kelemen, Fanni Dora, Wernli, Heini, Gaertner, Miguel Angel, Reale, Marco, Sanchez-Gomez, Emilia, Lionello, Piero, Calmanti, Sandro, Podrascanin, Zorica, Somot, Samuel, Akhtar, Naveed, Romera, Raquel, Conte, Dario
Format: Article
Language:English
Subjects:
Atmosphere
Atmospheric models
Climate
Climate models
Climatology
Computer simulation
Cyclogenesis
Cyclone tracks
Cyclones
Earth and Environmental Science
Earth Sciences
Environmental aspects
Geophysics/Geodesy
Modelling
Mountains
Ocean models
Ocean-atmosphere interaction
Oceanography
Oceans
Regional analysis
Regional climate models
Regional climates
Seasonal variation
Simulation
Temperature (air-sea)
Tracking
Tropical cyclones
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Summary:This study aims to assess the skill of regional climate models (RCMs) at reproducing the climatology of Mediterranean cyclones. Seven RCMs are considered, five of which were also coupled with an oceanic model. All simulations were forced at the lateral boundaries by the ERA-Interim reanalysis for a common 20-year period (1989–2008). Six different cyclone tracking methods have been applied to all twelve RCM simulations and to the ERA-Interim reanalysis in order to assess the RCMs from the perspective of different cyclone definitions. All RCMs reproduce the main areas of high cyclone occurrence in the region south of the Alps, in the Adriatic, Ionian and Aegean Seas, as well as in the areas close to Cyprus and to Atlas mountains. The RCMs tend to underestimate intense cyclone occurrences over the Mediterranean Sea and reproduce 24–40 % of these systems, as identified in the reanalysis. The use of grid nudging in one of the RCMs is shown to be beneficial, reproducing about 60 % of the intense cyclones and keeping a better track of the seasonal cycle of intense cyclogenesis. Finally, the most intense cyclones tend to be similarly reproduced in coupled and uncoupled model simulations, suggesting that modeling atmosphere–ocean coupled processes has only a weak impact on the climatology and intensity of Mediterranean cyclones.
ISSN:0930-7575
1432-0894
DOI:10.1007/s00382-016-3398-7