Abstract
Mediterranean explosive cyclogenesis is the result of the interaction between upper level baroclinic and low level diabatic processes. This interaction presents significant differences in specific Mediterranean sub-areas and in different cases of rapid deepening, especially regarding the evolution of the diabatic processes. In this study, the regional atmospheric model COSMO-GR is used for the evaluation of the spatial and temporal variations of low level diabatic heating in a case of explosive cyclogenesis in the north Aegean Sea. Model runs were performed for a series of different values of the model parameter sea roughness, which has proved to significantly affect the simulation of the diabatic processes. It was found that smaller values of the above parameter compared to the default parameterization, lead to significant enhancement of the model calculated surface turbulent fluxes and the respective surface deepening rates during the explosive deepening period and thus to lower minimum pressures, which are closer to ERA-Interim reanalysis values. Moreover, the intrusion of the diabatic heating in the middle troposphere due to latent heat release was also examined, demonstrating the necessity for the determination of the most suitable parameterization of the model physics.
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References
Bellprat O, Kotlarski S, Lüthi D, Schär C (2012) Objective calibration of regional climate models. J Geophys Res 117:D23
Buzzi M (2008) Challenges in operational numerical weather prediction at high resolution in complex terrain. PhD ETH No 17714
Khain P, Carmona I, Voudouri A, Avgoustoglou E, Bettems JM, Grazzini F (2015) The proof of the parameters calibration method. CALMO progress report
Kouroutzoglou J, Flocas HA, Hatzaki M, Keay K, Simmonds I (2015) On the dynamics of a case of explosive cyclogenesis over Mediterranean. Meteorol Atmos Phys 127:49–73
Lolis CJ, Bartzokas A, Katsoulis BD (2004) Relation between sensible and latent heat fluxes in the Mediterranean and precipitation in the Greek area during winter. Int J Climatol 24:1803–1816
Metaxas DA (1978) In Archiv für Meteorologie, Geophysik und Bioklimatologie. Serie A 27:69–80. doi:10.1007/bf02246462
Nissen KM, Leckebusch GC, Pinto JG, Renggli D, Ulbrich S, Ulbrich U (2010) Cyclones causing wind storms in the Mediterranean: characteristics, trends and links to large-scale patterns. Nat Hazard Earth Syst Sci 10:1379–1391
Reed RJ, Albright MD, Simmons AJ, Undén P (1988) The role of latent heat release in explosive cyclogenesis: three examples based on ECMWF operational forecasts. Wea Forcast 3:217–229
Shay-El Y, Alpert P (1991) A diagnostic study of winter diabatic heating in the Mediterranean in relation to cyclones. Q J R Meteorol Soc 117:715–0747
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Kouroutzoglou, J. et al. (2017). Assessing the Sensitivity of COSMO/GR Atmospheric Model to Effectively Simulate the Influence of Diabatic Heating on Eastern Mediterranean Explosive Cyclogenesis Under Different Parameterizations of the Model Physics. In: Karacostas, T., Bais, A., Nastos, P. (eds) Perspectives on Atmospheric Sciences. Springer Atmospheric Sciences. Springer, Cham. https://doi.org/10.1007/978-3-319-35095-0_2
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DOI: https://doi.org/10.1007/978-3-319-35095-0_2
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