Response of hurricane-type vortices to global warming as simulated by ARPEGE-Climat at high resolution (original) (raw)
References
Ayrault F (1998) Environnement, structure et évolution des dépressions météorologiques: réalité climatologique et modèles types. Ph.D. thesis. Université Paul Sabatier Toulouse, France, pp 328. [Available from Université Paul Sabatier, 118 Route de Narbonne, 31062, Toulouse, France]
Ayrault F, Joly A (2000) Une nouvelle typologie des dépresssions météorologiques: classification des phases de maturation. Compte-Rendus à l’Académie des Sciences, Sciences de la Terre et des planètes 330:167–172 Google Scholar
Bengtsson L, Bottger H, Kanamitsu M (1982) Simulation of hurricane-type vortices in a general circulation model. Tellus 34:440–457 Article Google Scholar
Bengtsson L, Botzet M, Esch M (1995) Hurricane-type vortices in a general circulation model. Tellus 47A:175–196 Google Scholar
Bougeault P (1985) A simple parameterization of the large-scale effects of cumulus convection. Mon Weather Rev 113:2108–2121 Article Google Scholar
Broccoli A, Manabe S (1990) Can existing climate models be used to study anthropogenic changes in tropical cyclone climate? Geophys Res Lett 17:1917–1920 Article Google Scholar
Camargo S, Zebiak S (2002) Improving the detection and tracking of tropical cyclones in atmospheric general circulation models. Weather Forcast 17:1152–1162 Article Google Scholar
Courtier P, Geleyn JF (1988) A global numerical weather prediction model with variable resolution: application to a shallow water equation. Quart J R Meteor Soc 114:1321–1346 Article Google Scholar
Courtier P, Freydier C, Geleyn JF, Rabier F, Rochas M (1991) The ARPEGE project at METEO-FRANCE. In: ECMWF seminar proceedings, reading, 9–13 Sept 1991, Volume II, pp 193–221
Déqué M (1999) Documentation ARPEGE-CLIMAT. Tech report Centre National de Recherches Météorologiques, Météo-France, Toulouse, France
Déqué M, Piédelièvre JP (1995) High resolution climate simulation over Europe. Clim Dyn 11:321–339 Article Google Scholar
Déqué M, Dreveton C, Braun A, Cariolle D (1994) The ARPEGE/IFS atmospheric model: a contribution to the French community climate modelling. Clim Dyn 10:249–266 Article Google Scholar
Déqué M, Marquet P, Jones R (1998) Simulation of climate change over Europ using a global variable resolution general circulation model. Clim Dyn 14:173–189 Article Google Scholar
Douville H (2003) Assessing the influence of soil moisture on seasonal climate variability with AGCMS. J Clim 4:1044–1066 Google Scholar
Frank W (1977a) The structure and energetics of the tropical cyclone. I. Storm structure. Mon Weather Rev 105:1119–1135 Article Google Scholar
Frank W (1977b) The structure and energetics of the tropical cyclone. II. Dynamics and energetics. Mon Weather Rev 105:1136–1150 Article Google Scholar
Geleyn JF, Bazile E, Bougeault P, Déqué M, Ivanovici V, Joly A, Labbé L, Piédelièvre JP, Piriou JM, Royer JF (1995) Atmospheric parameterization schemes in Météo-France’s Arpege NWP model. In: Proceedings of the ECMWF seminar parametrization of sub-grid scale physical processes, 5–9 Sept 1994, ECMWF, Reading, pp 385–402
Goldenberg SB, Landsea CW, Mestas-Nuñez AM, Gray WM (2001) The recent increase in Atlantic hurricane activity: causes and implications. Science 293(5529):474–479 ArticlePubMed Google Scholar
Gray W (1975) Tropical cyclone genesis. Deptartmant of Atmospheric Science Paper, No. 234, Colorado State University, Fort Collins, CO, p 121
Haarsma R, Mitchell J, Senior C (1993) Tropical disturbances in a GCM. Clim Dyn 8:247–257 Article Google Scholar
Henderson-Sellers A, Zhang H, Berz G, Emanuel K, Gray W, Landsea C, Holland G, Lighthill J, Shieh SL, Webster P, McGuffie K (1998) Tropical cyclones and global climate change: a post IPCC assessment. Bull Am Meteor Soc 79:19–38 Article Google Scholar
Hodges K (1994) A general method for tracking analysis and its application to meteorological data. Mon Weather Rev 122:2573–2586 Article Google Scholar
Houghton J, Ding Y, Griggs D, Noguer M, van der Linden P, Dai X, Maskell K, Johnson CA (eds) (2001) IPCC 2001: the scientific basis. Contribution of Working Group I to the Third Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA, pp 881
Johns T, Gregory J, Ingram W, Johnson C, Jones A, Mitchell J, Roberts D, Sexton D, Stevenson D, Tett S, Woodage M (2001) Anthropogenic climate change for 1860 to 2100 simulated with the HadCM3 model under updated emission scenarios. Technical Note 22, Hadley Centre, p 22
Landman WA, Seth A, Camargo SJ (2005) The effect of regional climate model domain choice on the simulation of tropical cyclone-like vortices in the Southwestern Indian Ocean. J Clim 18:1263–1274 Article Google Scholar
Landsea C, Anderson C, Charles N, Clark G, Dunion J, Partagas J, Hungerford P, Neumann C, Zimmer M (2003) The Atlantic hurricane database re-analysis project: documentation for the 1851–1910 alterations and additions to the HURDAT database. Hurricanes and typhoons: past, present, and future. Murnane RJ, Liu K-B (eds), Columbia University Press pp 177–221
Lorant V, Royer J (2001) Sensitivity of equatorial convection to horizontal resolution in aqua-planet simulations with a variable-resolution GCM. Mon Weather Rev 129:2730–2745 Article Google Scholar
Louis JF, Tiedtke M, Geleyn JF (1981) A short history of the operational PBL-parameterization at ECMWF. In: ECMWF workshop planetary boundary layer parameterization, 25–27 Nov 1981, ECMWF, Reading, UK, pp 59–80
Mahfouf JF, Manzi AO, Noilhan J, Giordani H, Déqué M (1995) The land surface scheme ISBA within the Météo-France climate model ARPEGE. Part I: implementation and preliminary results. J Clim 8:2039–2057 Article Google Scholar
Manabe S, Holloway JL Jr, Stone H (1970) Tropical circulation in a time-integration of a global model of the atmosphere. J Atmos Sci 27:580–613 Article Google Scholar
Masson V, Champeaux JL, Chauvin F, Meriguet C, Lacaze R (2003) A global database of land surface parameters at 1-km resolution in meteorological and climate models. J Clim 16:1261–1282 Google Scholar
McDonald RE, Bleaken DG, Cresswell DR, Pope VD, Senior CA (2005) Tropical storms: representation and diagnosis in climate models and the impacts of climate change. Clim Dyn 25:19–36 Article Google Scholar
Morcrette JJ (1990) Impact of changes to the radiation transfer parameterizations plus cloud optical properties in the ECMWF model. Mon Weather Rev 118:847–873 Article Google Scholar
Moustaoui M, Royer JF, Chauvin F (2002) African easterly wave activity in a variable resolution GCM. Clim Dyn 19:289–301 Article Google Scholar
Noilhan J, Planton S (1989) A simple parameterization of land surface processes for meteorological models. Mon Weather Rev 117:536–549 Article Google Scholar
Reynolds R, Smith T (1994) Improved global sea surface temperature analyses using optimum interpolation. J Clim 7:929–948 Article Google Scholar
Ricard JL, Royer JF (1993) A statistical cloud scheme for use in an AGCM. Ann Geophys 11:1095–1115 Google Scholar
Royer JF, Chauvin F, Timbal B, Araspin P, Grimal D (1998) A GCM study of the impact of greenhouse gas increase on the frequency of occurrence of tropical cyclones. Clim Change 38:307–343 Article Google Scholar
Royer JF, Cariolle D, Chauvin F, Déqué M, Douville H, Hu R, Planton S, Rascol A, Ricard J, y Mélia DS, Sevault F, Simon P, Somot S, Tyteca S, Terray L, Valcke S (2002) Simulation des changements climatiques au cours du 21-ème siècle incluant l’ozone stratosphérique. Computes rendus de l’ académie des sciences, série IIa. Géosciences 3343:147–154 Article Google Scholar
Suji M, Noda A, Sato N (2002) Influence of the global warming on tropical cyclone climatology: an experiment with the JMA global model. J Meteor Soc Jpn 80:249–272 Article Google Scholar
Tang B, Neelin J (2004) ENSO influence on Atlantic hurricanes via tropospheric warming. Geophys Res Lett 31:1–4 Google Scholar
Walsh K (1997) Objective detection of tropical cyclones in high-resolution analyses. Mon Weather Rev 125:1767–1779 Article Google Scholar
Wu G, Lau NC (1992) A GCM simulation of the relationship between tropical-storm formation and ENSO. Mon Weather Rev 120:958–977 Article Google Scholar