Bibliographie LMDZ 2024

[1]   Bram Van Leer. Towards the ultimate conservative difference scheme : IV. a new approach to numerical convection. J. Computational Phys., 23 :276–299, 1977.

[2]   T. Yamada. Simulations of nocturnal drainage flows by a q²l turbulence closure model. J. Atmos. Sci., 40 :91–106, 1983.

[3]   Saloua Balhane, Frédérique Cheruy, Fatima Driouech, Khalid Elrhaz, Abderrahmane Idelkadi, Adriana Sima, Etienne Vignon, Philippe Drobinski, and A. Chehbouni. Towards an advanced representation of precipitation over morocco in a global climate model with resolution enhancement and empirical run-time bias corrections. International Journal of Climatology, 44, 02 2024.

[4]   H. Bellenger, E. Guilyardi, J. Leloup, M. Lengaigne, and J. Vialard. ENSO representation in climate models : from CMIP3 to CMIP5. Climate Dynamics, 42 :1999–2018, Apr 2014.

[5]   Rémy Bonnet, Olivier Boucher, Julie Deshayes, Guillaume Gastineau, Frédéric Hourdin, Juliette Mignot, Jérôme Servonnat, and Didier Swingedouw. Presentation and evaluation of the IPSL-CM6A-LR Ensemble of extended historical simulations. Journal of Advances in Modeling Earth Systems, 13(9) :e2021MS002565, September 2021.

[6]   Olivier Boucher, Jérôme Servonnat, Anna Lea Albright, Olivier Aumont, Yves Balkanski, Vladislav Bastrikov, Slimane Bekki, Rémy Bonnet, Sandrine Bony, Laurent Bopp, Pascale Braconnot, Patrick Brockmann, Patricia Cadule, Arnaud Caubel, Frédérique Cheruy, Francis Codron, Anne Cozic, David Cugnet, Fabio d’Andrea, Paolo Davini, Casimir de Lavergne, Sébastien Denvil, Julie Deshayes, Marion Devilliers, Agnès Ducharne, Jean-Louis Dufresne, Eliott Dupont, Christian Éthé, Laurent Fairhead, Lola Falletti, Simona Flavoni, Marie-Alice Foujols, Sébastien Gardoll, Guillaume Gastineau, Josefine Ghattas, Jean-Yves Grandpeix, Bertrand Guenet, Lionel Guez, Éric Guilyardi, Matthieu Guimberteau, Didier Hauglustaine, Frédéric Hourdin, Abderrahmane Idelkadi, Sylvie Joussaume, Masa Kageyama, Myriam Khodri, Gerhard Krinner, Nicolas Lebas, Guillaume Levavasseur, Claire Lévy, Laurent Li, François Lott, Thibaut Lurton, Sebastiaan Luyssaert, Gurvan Madec, Jean-Baptiste Madeleine, Fabienne Maignan, Marion Marchand, Olivier Marti, Lidia Mellul, Yann Meurdesoif, Juliette Mignot, Ionela Musat, Catherine Ottle, Philippe Peylin, Yann Planton, Jan Polcher, Catherine Rio, Nicolas Rochetin, Clément Rousset, Pierre Sepulchre, Adriana Sima, Didier Swingedouw, Rémi Thiéblemont, Abdoul Khadre Traore, Martin Vancoppenolle, Jessica Vial, Jérôme Vialard, Nicolas Viovy, and Nicolas N. Vuichard. Presentation and evaluation of the IPSL-CM6A-LR climate model. Journal of Advances in Modeling Earth Systems, 12(7) :e2019MS002010, May 2020.

[7]   P. Braconnot, F. Hourdin, S. Bony, J.-L. Dufresne, J.-Y. Grandpeix, and O. Marti. Impact of different convective cloud schemes on the simulation of the tropical seasonal cycle in a coupled ocean-atmosphere model. Clim. Dyn., 29 :501–520, 2007.

[8]   R. Chadwick, G. M. Martin, D. Copsey, G. Bellon, M. Caian, F. Codron, C. Rio, and R. Roehrig. Examining the West African Monsoon circulation response to atmospheric heating in a GCM dynamical core. Journal of Advances in Modeling Earth Systems, 9(1) :149–167, March 2017.

[9]   Frédérique Cheruy, Agnès Ducharne, Frédéric Hourdin, Ionela Musat, Étienne Vignon, Guillaume Gastineau, Vladislav Bastrikov, Nicolas Vuichard, Binta Diallo, Jean-Louis Dufresne, Josefine Ghattas, Jean-Yves Grandpeix, Abderrahmane Idelkadi, Lidia Mellul, Fabienne Maignan, Martin Ménégoz, Catherine Ottle, Philippe Peylin, Jérôme Servonnat, Fuxing Wang, and Yanfeng Zhao. Improved Near-Surface Continental Climate in IPSL-CM6A-LR by Combined Evolutions of Atmospheric and Land Surface Physics. Journal of Advances in Modeling Earth Systems, 12(10) :e2019MS002005, October 2020.

[10]   J. L. Dufresne, M. A. Foujols, S. Denvil, A. Caubel, O. Marti, O. Aumont, Y. Balkanski, S. Bekki, H. Bellenger, R. Benshila, S. Bony, L. Bopp, P. Braconnot, P. Brockmann, P. Cadule, F. Cheruy, F. Codron, A. Cozic, D. Cugnet, N. de Noblet, J. P. Duvel, C. Ethé, L. Fairhead, T. Fichefet, S. Flavoni, P. Friedlingstein, J. Y. Grandpeix, L. Guez, E. Guilyardi, D. Hauglustaine, F. Hourdin, A. Idelkadi, J. Ghattas, S. Joussaume, M. Kageyama, G. Krinner, S. Labetoulle, A. Lahellec, M. P. Lefebvre, F. Lefevre, C. Levy, Z. X. Li, J. Lloyd, F. Lott, G. Madec, M. Mancip, M. Marchand, S. Masson, Y. Meurdesoif, J. Mignot, I. Musat, S. Parouty, J. Polcher, C. Rio, M. Schulz, D. Swingedouw, S. Szopa, C. Talandier, P. Terray, N. Viovy, and N. Vuichard. Climate change projections using the IPSL-CM5 Earth System Model : from CMIP3 to CMIP5. Climate Dynamics, 40 :2123–2165, May 2013.

[11]   Jean Philippe Duvel, Hugo Bellenger, Gilles Bellon, and Marine Remaud. An event-by-event assessment of tropical intraseasonal perturbations for general circulation models. Climate Dynamics, 40 :857–873, Feb 2013.

[12]   Magdalena Falco, Andrea F. Carril, Laurent Z. X. Li, Carlos Cabrelli, and Claudio G. Menéndez. The potential added value of Regional Climate Models in South America using a multiresolution approach. Climate Dynamics, 54 :1553–1569, 2019.

[13]   Guillaume Gastineau, François Lott, Juliette Mignot, and Frédéric Hourdin. Alleviation of an Arctic Sea Ice Bias in a Coupled Model Through Modifications in the Subgrid-Scale Orographic Parameterization. Journal of Advances in Modeling Earth Systems, 12(9), September 2020.

[14]   Lianyi Guo, Zhihong Jiang, Deliang Chen, Hervé Le Treut, and Laurent Li. Projected precipitation changes over China for global warming levels at 1.5 °C and 2 °C in an ensemble of regional climate simulations : impact of bias correction methods. Climatic Change, 162(2) :623–643, September 2020.

[15]   F. Hourdin, M.-A. Foujols, F. Codron, V. Guemas, J.-L. Dufresne, S. Bony, S. Denvil, L. Guez, F. Lott, J. Ghattas, P. Braconnot, O. Marti, Y. Meurdesoif, and L. Bopp. Impact of the LMDZ atmospheric grid configuration on the climate and sensitivity of the IPSL-CM5A coupled model. Clim. Dyn., 40 :2167–2192, May 2013.

[16]   F. Hourdin, J.-Y. Grandpeix, C. Rio, S. Bony, A. Jam, F. Cheruy, N. Rochetin, L. Fairhead, A. Idelkadi, I. Musat, J.-L. Dufresne, A. Lahellec, M.-P. Lefebvre, and R. Roehrig. LMDZ5B : the atmospheric component of the IPSL climate model with revisited parameterizations for clouds and convection. Clim. Dyn., 40 :2193–2222, May 2013.

[17]   F. Hourdin, I. Musat, S. Bony, P. Braconnot, F. Codron, J.-L. Dufresne, L. Fairhead, M.-A. Filiberti, P. Friedlingstein, J.-Y. Grandpeix, G. Krinner, P. Levan, Z.-X. Li, and F. Lott. The LMDZ4 general circulation model : climate performance and sensitivity to parametrized physics with emphasis on tropical convection. Climate Dynamics, 27 :787–813, 2006.

[18]   Frédéric Hourdin, Catherine Rio, Jean-Yves Grandpeix, Jean-Baptiste Madeleine, Frédérique Cheruy, Nicolas Rochetin, Arnaud Jam, Ionela Musat, Abderrahmane Idelkadi, Laurent Fairhead, Marie-Alice Foujols, Lidia Mellul, Abdoul-Khadre Traore, Jean-Louis Dufresne, Olivier Boucher, Marie-Pierre Lefebvre, Ehouarn Millour, Etienne Vignon, Jean Jouhaud, F. Bint Diallo, François Lott, Guillaume Gastineau, Arnaud Caubel, Yann Meurdesoif, and Josefine Ghattas. LMDZ6A : The Atmospheric Component of the IPSL Climate Model With Improved and Better Tuned Physics. Journal of Advances in Modeling Earth Systems, 12(7) :e2019MS001892, July 2020.

[19]   Shan Li, Laurent Li, and Hervé Le Treut. An idealized protocol to assess the nesting procedure in regional climate modelling. International Journal of Climatology, August 2020.

[20]   Thibaut Lurton, Yves Balkanski, Vladislav Bastrikov, Slimane Bekki, Laurent Bopp, Pascale Braconnot, Patrick Brockmann, Patricia Cadule, Camille Contoux, Anne Cozic, David Cugnet, Jean-Louis Dufresne, Christian Éthé, Marie-Alice Foujols, Josefine Ghattas, Didier Hauglustaine, Rong-Ming Hu, Masa Kageyama, Myriam Khodri, Nicolas Lebas, Guillaume Levavasseur, Marion Marchand, Catherine Ottle, Philippe Peylin, Adriana Sima, Sophie Laval-Szopa, Rémi Thiéblemont, Nicolas N. Vuichard, and Olivier Boucher. Implementation of the CMIP6 Forcing Data in the IPSL-CM6A-LR Model. Journal of Advances in Modeling Earth Systems, 12(4) :e2019MS001940, March 2020.

[21]   G. M. Martin, P. Peyrille, R. Roehrig, C. Rio, M. Caian, G. Bellon, F. Codron, J.-P. Lafore, D. E. Poan, and A. Idelkadi. Understanding the West African Monsoon from the analysis of diabatic heating distributions as simulated by climate models. Journal of Advances in Modeling Earth Systems, 9(1) :239–270, March 2017.

[22]   Juliette Mignot, Frédéric Hourdin, Julie Deshayes, Olivier Boucher, Guillaume Gastineau, Ionela Musat, Martin Vancoppenolle, Jérôme Servonnat, Arnaud Caubel, Frederique Cheruy, Sébastien Denvil, Jean-Louis Dufresne, Christian Éthé, Laurent Fairhead, Marie-Alice Foujols, Jean-Yves Grandpeix, Guillaume Levavasseur, Olivier Marti, Matthew B Menary, Catherine Rio, Clément Rousset, and Yona Silvy. The Tuning Strategy of IPSL-CM6A-LR. Journal of Advances in Modeling Earth Systems, 13(5), May 2021.

[23]   Tristan Vadsaria, Laurent Li, Gilles Ramstein, and Jean-Claude Dutay. Development of a sequential tool, LMDZ-NEMO-med-V1, to conduct global-to-regional past climate simulation for the Mediterranean basin : an Early Holocene case study. Geoscientific Model Development, 13(5) :2337–2354, 2020.

[24]   Sarvesh Dubey, Thomas Dubos, Hourdin Frédéric, and Harish Upadhyaya. On the inter-comparison of two tracer transport schemes on icosahedral grids. Applied Mathematical Modelling, 39 :4828–4847, 2015.

[25]   T. Dubos, S. Dubey, M. Tort, R. Mittal, Y. Meurdesoif, and F. Hourdin. DYNAMICO-1.0, an icosahedral hydrostatic dynamical core designed for consistency and versatility. Geosc. Model Dev., 8 :3131–3150, October 2015.

[26]   F. Hourdin and A. Armengaud. The use of finite-volume methods for atmospheric advection of trace species. part i : Test of various formulations in a general circulation model. Mon. Wea. Rev., 127 :822–837, 1999.

[27]   S. Aït-Mesbah, J. L. Dufresne, F. Cheruy, and F. Hourdin. The role of thermal inertia in the representation of mean and diurnal range of surface temperature in semiarid and arid regions. GRL, 42 :7572–7580, sep 2015.

[28]   A. Berg, K. Findell, B. Lintner, A. Giannini, S.I. Seneviratne, B. van den Hurk, R. Lorenz, A. Pitman, S. Hagemann, A. Meier, F. Cheruy, A. Ducharne, S. Malyshev, and P. C. D. Milly. Land-atmosphere feedbacks amplify aridity increase over land under global warming. Nature Climate Change, 6 :869–874, 2016.

[29]   A. Campoy, A. Ducharne, F. Cheruy, F. Hourdin, J. Polcher, and J. C. Dupont. Response of land surface fluxes and precipitation to different soil bottom hydrological conditions in a general circulation model. Journal of Geophysical Research : Atmospheres, 118(19) :10,725–10,739, 2013.

[30]   F. Cheruy, A. Campoy, J.-C. Dupont, A. Ducharne, F. Hourdin, M. Haeffelin, M. Chiriaco, and A. Idelkadi. Combined influence of atmospheric physics and soil hydrology on the simulated meteorology at the SIRTA atmospheric observatory. Clim. Dyn., 40 :2251–2269, May 2013.

[31]   F. Cheruy, J. L. Dufresne, S. Ait Mesbah, J. Y. Grandpeix, and F. Wang. Role of soil thermal inertia in surface temperature and soil moisture-temperature feedback. Journal of Advances in Modeling Earth Systems, 9(8) :2906–2919, 2017.

[32]   Gerhard Krinner. Impact of lakes and wetlands on boreal climate. Journal of Geophysical Research (Atmospheres), 108 :4520, Aug 2003.

[33]   Gerhard Krinner, Olivier Boucher, and Yves Balkanski. Ice-free glacial northern Asia due to dust deposition on snow. Climate Dynamics, 27 :613–625, Nov 2006.

[34]   Gerhard Krinner, Chris Derksen, Richard Essery, Mark Flanner, Stefan Hagemann, Martyn Clark, Alex Hall, Helmut Rott, Claire Brutel-Vuilmet, Hyungjun Kim, Cécile B. Ménard, Lawrence Mudryk, Chad Thackeray, Libo Wang, Gabriele Arduini, Gianpaolo Balsamo, Paul Bartlett, Julia Boike, Aaron Boone, Frédérique Chéruy, Jeanne Colin, Matthias Cuntz, Yongjiu Dai, Bertrand Decharme, Jeff Derry, Agnès Ducharne, Emanuel Dutra, Xing Fang, Charles Fierz, Josephine Ghattas, Yeugeniy Gusev, Vanessa Haverd, Anna Kontu, Matthieu Lafaysse, Rachel Law, Dave Lawrence, Weiping Li, Thomas Marke, Danny Marks, Martin Ménégoz, Olga Nasonova, Tomoko Nitta, Masashi Niwano, John Pomeroy, Mark S. Raleigh, Gerd Schaedler, Vladimir Semenov, Tanya G. Smirnova, Tobias Stacke, Ulrich Strasser, Sean Svenson, Dmitry Turkov, Tao Wang, Nand er Wever, Hua Yuan, Wenyan Zhou, and Dan Zhu. ESM-SnowMIP : assessing snow models and quantifying snow-related climate feedbacks. Geoscientific Model Development, 11 :5027–5049, Dec 2018.

[35]   Zhao Li, Philippe Ciais, Jonathon S Wright, Yong Wang, Shu Liu, Jingmeng Wang, Laurent Z X Li, Hui Lu, Xiaomeng Huang, Lei Zhu, Daniel S Goll, and Wei Li. Increased precipitation over land due to climate feedback of large-scale bioenergy cultivation. Nature Communications, 14(1) :4096, December 2023.

[36]   R. Lorenz, D. Argueso, M. G. Donat, A. J. Pitman, B. Hurk, A. Berg, D. M. Lawrence, F. Cheruy, A. Ducharne, S. Hagemann, A. Meier, P. C. D. Milly, and S. I. Seneviratne. Influence of land ? ? ?atmosphere feedbacks on temperature and precipitation extremes in the glace ? ? ?cmip5 ensemble. Journal of Geophysical Research : Atmospheres, 121(2) :607–623, 2016.

[37]   H.-Y. Ma, S. A. Klein, S. Xie, C. Zhang, S. Tang, Q. Tang, C. J. Morcrette, K. Van Weverberg, J. Petch, M. Ahlgrimm, L. K. Berg, F. Cheruy, J. Cole, R. Forbes, W. I. Gustafson, M. Huang, Y. Liu, W. Merryfield, Y. Qian, R. Roehrig, and Y.-C. Wang. Causes : On the role of surface energy budget errors to the warm surface air temperature error over the central u.s. Journal of Geophysical Research : Atmospheres, pages n/a–n/a, 2018. 2017JD027194.

[38]   M. Ménégoz, G. Krinner, Y. Balkanski, O. Boucher, A. Cozic, S. Lim, P. Ginot, P. Laj, H. Gallée, P. Wagnon, A. Marinoni, and H. W. Jacobi. Snow cover sensitivity to black carbon deposition in the Himalayas : from atmospheric and ice core measurements to regional climate simulations. Atmospheric Chemistry & Physics, 14 :4237–4249, Apr 2014.

[39]   C. J. Morcrette, K. Van Weverberg, H.-Y. Ma, M. Ahlgrimm, E. Bazile, L. K. Berg, A. Cheng, F. Cheruy, J. Cole, R. Forbes, W. I. Gustafson Jr, M. Huang, W.-S. Lee, Y. Liu, L. Mellul, W. Merryfield, Y. Qian, R. Roehrig, Y.-C. Wang, S. Xie, K.-M. Xu, C. Zhang, S. Klein, and J. Petch. Introduction to causes : Description of weather and climate models and their near-surface temperature errors in 5-day hindcasts near the southern great plains. Journal of Geophysical Research : Atmospheres, 2018. 2017JD027199.

[40]   H. J. Punge, H. Gallée, M. Kageyama, and G. Krinner. Modelling snow accumulation on Greenland in Eemian, glacial inception, and modern climates in a GCM. Climate of the Past, 8 :1801–1819, Nov 2012.

[41]   S.I Seneviratne and 18 co authors. Impact of soil-moisture climate feedbacks on cmip5 projections : First results from the glace-cmip5 experiment. Geophys. Res. Lett., 40 :5212 5217, 2013.

[42]   Shuchang Tang, Anouk Vlug, Shilong Piao, Fei Li, Tao Wang, Gerhard Krinner, Laurent Li, Xuhui Wang, Guangjian Wu, Yue Li, Yuan Zhang, Xu Lian, and Tandong Yao. Regional and tele-connected impacts of the Tibetan Plateau surface darkening. Nature Communications, 14(1) :32, December 2023.

[43]   B. van den Hurk, H. Kim, G. Krinner, S. I. Seneviratne, C. Derksen, T. Oki, H. Douville, J. Colin, A. Ducharne, F. Cheruy, N. Viovy, M. J. Puma, Y. Wada, W. Li, B. Jia, A. Alessandri, D. M. Lawrence, G. P. Weedon, R. Ellis, S. Hagemann, J. Mao, M. G. Flanner, M. Zampieri, S. Materia, R. M. Law, and J. Sheffield. Ls3mip (v1.0) contribution to cmip6 : the land surface, snow and soil moisture model intercomparison project – aims, setup and expected outcome. Geoscientific Model Development, 9(8) :2809–2832, 2016.

[44]   K. Van Weverberg, C. J. Morcrette, J. Petch, S. A. Klein, H.-Y. Ma, C. Zhang, S. Xie, Q. Tang, W. I. Gustafson Jr, Y. Qian, L. K. Berg, Y. Liu, M. Huang, M. Ahlgrimm, R. Forbes, E. Bazile, R. Roehrig, J. Cole, W. Merryfield, W.-S. Lee, F. Cheruy, L. Mellul, Y.-C. Wang, K. Johnson, and M. M. Thieman. Causes : Attribution of surface radiation biases in nwp and climate models near the u.s. southern great plains. Journal of Geophysical Research : Atmospheres, pages n/a–n/a, 2018. 2017JD027188.

[45]   E. Vignon, F. Hourdin, C. Genthon, H. Gallée, E. Bazile, M.-P. Lefebvre, J.-B. Madeleine, and B. J. H. Van de Wiel. Antarctic boundary layer parametrization in a general circulation model : 1-D simulations facing summer observations at Dome C. J. Geophys. Res., 122 :6818–6843, July 2017.

[46]   E. Vignon, F. Hourdin, C. Genthon, B. J. H. Van de Wiel, H. Gallée, J.-B. Madeleine, and J. Beaumet. Modeling the Dynamics of the Atmospheric Boundary Layer Over the Antarctic Plateau With a General Circulation Model. J. of Adv. in Modeling Earth Systems, 10 :98–125, January 2018.

[47]   M. M. Vogel, R. Orth, F. Cheruy, S. Hagemann, R. Lorenz, B. J. J. M. Hurk, and S. I. Seneviratne. Regional amplification of projected changes in extreme temperatures strongly controlled by soil moisture-temperature feedbacks. Geophysical Research Letters, 44(3) :1511–1519, 2017.

[48]   F. Wang, F. Cheruy, and J.-L. Dufresne. The improvement of soil thermodynamics and its effects on land surface meteorology in the ipsl climate model. Geoscientific Model Development, 9(1) :363–381, 2016.

[49]   Fuxing Wang, Agnès Ducharne, Frédérique Cheruy, Min-Hui Lo, and Jean-Yves Grandpeix. Impact of a shallow groundwater table on the global water cycle in the ipsl land–atmosphere coupled model. Climate Dynamics, Jul 2017.

[50]   Jie Wu, Yu Feng, Laurent Z.X. Li, Philippe Ciais, Shilong Piao, Anping Chen, and Zhenzhong Zeng. Earth greening mitigates hot temperature extremes despite the effect being dampened by rising CO2. One Earth, December 2023.

[51]   Yuan Zhang, Devaraju Narayanappa, Philippe Ciais, Wei Li, Daniel Goll, Nicolas Vuichard, Martin G de Kauwe, Laurent Li, and Fabienne Maignan. Evaluating the vegetation–atmosphere coupling strength of ORCHIDEE land surface model (v7266). Geoscientific Model Development, 15(24) :9111 – 9125, December 2022.

[52]   F. Hourdin, F. Couvreux, and L. Menut. Parameterisation of the dry convective boundary layer based on a mass flux representation of thermals. J. Atmos. Sci., 59 :1105–1123, 2002.

[53]   C. Rio and F. Hourdin. A thermal plume model for the convective boundary layer : Representation of cumulus clouds. J. Atmos. Sci., 65 :407–425, 2008.

[54]   C. Rio, F. Hourdin, F. Couvreux, and A. Jam. Resolved Versus Parametrized Boundary-Layer Plumes. Part II : Continuous Formulations of Mixing Rates for Mass-Flux Schemes. Boundary-layer Meteorol., 135 :469–483, June 2010.

[55]   S. Bony and K. A. Emanuel. A parameterization of the cloudiness associated with cumulus convection ; evaluation using TOGA COARE data. J. Atmos. Sci., 58 :3158–3183, 2001.

[56]   A. Jam, F. Hourdin, C. Rio, and F. Couvreux. Resolved Versus Parametrized Boundary-Layer Plumes. Part III : Derivation of a Statistical Scheme for Cumulus Clouds. Boundary-layer Meteorol., 147 :421–441, June 2013.

[57]   J. Jouhaud, J.-L. Dufresne, J.-B. Madeleine, F. Hourdin, F. Couvreux, N. Villefranque, and A. Jam. Accounting for vertical subgrid-scale heterogeneity in low-level cloud fraction parameterizations. J. of Adv. in Modeling Earth Systems, 10(11) :2686–2705, 2018.

[58]   Marie-Laure Roussel, Valentin Wiener, Christophe Genthon, Etienne Vignon, Eric Bazile, Cécile Agosta, Alexis Berne, Claudio Durán-Alarcón, Jean-Louis Dufresne, and Chantal Claud. Assessing the simulation of snowfall at dumont d’urville, antarctica, during the yopp-sh special observing campaign. Quarterly Journal of the Royal Meteorological Society, 149(753) :1391–1406, 2023.

[59]   J.-Y. Grandpeix and J.-P. Lafore. A Density Current Parameterization Coupled with Emanuel’s Convection Scheme. Part I : The Models. Journal of Atmospheric Sciences, 67 :881–897, April 2010.

[60]   J.-Y. Grandpeix, J.-P. Lafore, and F. Cheruy. A Density Current Parameterization Coupled with Emanuel’s Convection Scheme. Part II : 1D Simulations. Journal of Atmospheric Sciences, 67 :898–922, April 2010.

[61]   C. Rio, J.-Y. Grandpeix, F. Hourdin, F. Guichard, F. Couvreux, J.-P. Lafore, A. Fridlind, A. Mrowiec, R. Roehrig, N. Rochetin, M.-P. Lefebvre, and A. Idelkadi. Control of deep convection by sub-cloud lifting processes : the ALP closure in the LMDZ5B general circulation model. Clim. Dyn., 40 :2271–2292, May 2013.

[62]   Nicolas Rochetin, Fleur Couvreux, Jean-Yves Grandpeix, and Catherine Rio. Deep Convection Triggering by Boundary Layer Thermals. Part I : LES Analysis and Stochastic Triggering Formulation. J. Atmos. Sci., 71 :496–514, February 2014.

[63]   Nicolas Rochetin, Jean-Yves Grandpeix, Catherine Rio, and Fleur Couvreux. Deep Convection Triggering by Boundary Layer Thermals. Part II : Stochastic Triggering Parameterization for the LMDZ GCM. J. Atmos. Sci., 71 :515–538, February 2014.

[64]   A. de la Cámara and F. Lott. A stochastic parameterization of the gravity waves emitted by fronts and jets. Geophys. Res. Lett., 42 :2071–2078, 2015.

[65]   A. de La Cámara, F. Lott, and M. Abalos. Climatology of the middle atmosphere in LMD z : Impact of source-related parameterizations of gravity wave drag. Journal of Advances in Modeling Earth Systems, 8(4) :1507–1525, November 2016.

[66]   A. de la Cámara, F. Lott, and M. Abalos. Climatology of the middle atmosphere in lmdz : Impact of source-related parameterizations of gravity wave drag. J. of Adv. in Modeling Earth Systems, 8(4) :1507–1525, 2016.

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