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List of the presentations
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Speakers
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MISSTERRE, CMIP5 et « issue spéciale climate dynamics »
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Pascale Braconnot & al. |
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The CNRM‐CM5 global climate model: description and basic evaluation?
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Voldoire A. & al. |
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The IPSL‐CM5A Earth System Model: general description and climate change projections
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Dufresne J.L. & al. |
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Synthèse exercice en cours dans les 2 groupes + premiers résultats CERFACS
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Cassous C. |
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| Diffusion des données (cmor, base de données, accès, etc.) |
Denvil S. |
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| The impact of the inclusion of new sea ice processes on the simulation of sea ice by CNRM‐CM5 global coupled model |
Salas y Mélia D. and M. Chevallier |
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Day‐to‐day evaluation with respect Sirta measurements of the various physics of the LMDZ model with a streched grid and nudging
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Cheruy F., J‐C Dupont, A. Campoy, A. Ducharne, F. Hourdin, L. Fairhead et al. |
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| Model‐data comparison of Heat and momentum fluxes over tropical oceans |
Gainusa‐Bogdan et al. |
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Evaluation of the LMDZ/IPSL climate model in a weather prediction mode; Comparison with single column model evaluations
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S. Fermepin, S. Bony and L. Fairhead |
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On the control of deep convection by subcloud processes in the LMDZNP model through the Available Lifting Power
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Rio C., J.‐Y. Grandpeix, F. Hourdin, N. Rochetin, S. Bony + CNRM + GISS et al. |
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LMDZ5 « New Physics » : principles and impact on the climate of theIPSL coupled model of a complete refundation of the boundary layer/convection/cloud parameterization
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Hourdin F., J‐Y Grandpeix, C. Rio, S. Bony, A. Jam, N. Rochetin, L. Fairhead, A. Idelkadi, I. Musat, J‐L Dufresne, et al. |
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| Changes in tropospheric aerosoland reactive gases burdens and concentrations under IPCC‐AR5 emission scenarios for1850‐2100 |
Szopa S. A. Cozic, M. Shulz, Y. Balkanski, D. Hauglustaine. al. |
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| Analysis of the physical mechanisms controlling tropical low‐cloud feedbacks in the IPSL climate model through a hierarchy of model configurations |
F. Brient, S. Bony, I Musat, J‐L Dufresne |
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| ENSO‐Indian monsoon teleconnection in the CNRMand IPSL historical simulations |
Kamala K., Y. Peings, P. Terray, H. Douville |
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| Tropical variability and stratospheric equatorial waves in the IPSLCM5 model |
Maury P., F. Lott, L. Guez, et J.‐P. Duvel |
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| North‐Atlantic weather regimes and European temperatures in the IPSL model: sensitivity to atmospheric resolution |
Cattiaux J., B. Quesada, F. Codron, C. Déandreis, R. Vautard, P.Yiou et al. |
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| Impact of horizontal resolution on the eddy‐driven jets: mean state and variability |
Codron F., A. Arakelian, V. Guémas. |
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| Multidecadal variability and air‐sea interactions in the subpolar North Atlantic |
Escudier R., J. Mignot and D. Swingedouw |
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| Initialisation and predictability of the AMOC in the IPSLCM5 model over the last 60 years |
Swingedouw D, Mignot J., Labetoule S, Guilyardi E. |
| Perfect model predictability with IPSLCM5 |
Persechino A., Mignot J., Swingedouw D., Labetoule S., Guilyardi E. |
| Decadal predictability in the thermohaline circulation and climate in the IPSLCM5 model |
Persechino A., Mignot J., Swingedouw D., Labetoulle, S. and Guilyardi E.
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| Atmospheric response to the North Atlantic oceanic variability on seasonal to decadal time scale |
Gastineau G., F. D’Andrea, C. Frankignoul
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| High southern latitudes and Antarctic atmospheric circulation / climate in the IPSL‐CM5 model |
Parouty S., C. Genthon, G. Krinner, C. Brutel
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| Climate sensitivity and radiative feedbacks in the CNRM‐CM5 climate model |
Geoffroy, O., A. Voldoire, D. Saint‐Martin, D. Salas‐Mélia |
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| Analysis of the tropical precipitation response to climate change predicted by the IPSL climate model |
Bony S. |
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| Mid‐Holocene and Last Glacial Maximum climate simulations with the IPSL model: new features with the IPSL_CM5 version |
Kageyama M. et al. |
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| Present‐day biases and future changes in European temperatures: a pilot study with CNRM and IPSL models |
J Cattiaux, H Douville, F Chauvin, C Planté |
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| Carbon-climate feedbacks: comparison bewteen IPSL-CM4-LOOP and IPSLCM5A-C |
P. Cadule, L. Bopp et al. |
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| Simulating marine biogeochemitry in coupled climate models: evaluation and intercomparison of IPSL‐CM and CNRM‐CM |
Seferian et al. |
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| Differences between anthropogenic perturbations in heat, CO2, and CFC in the IPSL‐CM and CNRM‐CM earth system models |
Orr J.C. , R. Seferian, L. Bopp, et al. |
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| Does the integration of dynamic N cycle in land surface model improve the long‐term trend of LAI and the land surface CO2 exchange in the atmosphere? |
Guenet B, Cadule P, Zaehle, Piao, Peylin, Maignan, Ciais, Friedlingstein |
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| Performance of LMDz global CMIP5 historical climate simulations versus downscaled regional simulations using WRF |
A. Colette, O. Tripathi, L. Menut, R. Vautard, G. Clain, S. Szopa, B. Bessagnet, F. Meleux, T. Noël, L. Li, M. Vrac, J. Cattiaux, S. Denvil, S. Joussaume, P. Braconnot |
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| Detection attribution in the mediteranean basin |
Ribes A., Mounier F. ad Planton S. |
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| Simulations CORDEX CNRM |
S. Somot |
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| Simulations CORDEX IPSL |
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