S. J. Abel, J. M. Haywood, E. J. Highwood, J. Li, and P. R. Buseck, Evolution of biomass burning aerosol properties from an agricultural fire in southern Africa, Geophys. Res. Lett, vol.30, p.1783, 2003.

S. Ackerman, O. B. Toon, D. E. Stevens, A. J. Heymsfield, V. Ramanathan et al., Reduction of Tropical Cloudiness by Soot, Science, vol.288, issue.5468, pp.1042-1047, 2000.

A. A. Adebiyi, P. Zuidema, and S. J. Abel, The Convolution of Dynamics and Moisture with the Presence of Shortwave Absorbing Aerosols over the Southeast Atlantic, Journal of Climate, vol.28, issue.5, pp.1997-2024, 2015.

R. J. Allen and S. C. Sherwood, Aerosol-cloud semi-direct effect and land-sea temperature contrast in a GCM, Geophysical Research Letters, vol.37, issue.7, pp.n/a-n/a, 2010.

R. J. Allen, A. Amiri-farahani, J. Lamarque, C. Smith, D. Shindell et al., Observationally constrained aerosol?cloud semi-direct effects, npj Climate and Atmospheric Science, vol.2, issue.1, 2019.

N. Benas, S. Finkensieper, M. Stengel, G. Van-zadelhoff, T. Hanschmann et al., The MSG-SEVIRI-based cloud property data record CLAAS-2, Earth System Science Data, vol.9, issue.2, pp.415-434, 2017.

M. A. Bollasina, Y. Ming, V. Ramaswamy, M. D. Schwarzkopf, and V. Naik, Contribution of local and remote anthropogenic aerosols to the twentieth century weakening of the South Asian Monsoon, Geophysical Research Letters, vol.41, issue.2, pp.680-687, 2014.

B. Bourlès, M. Araujo, M. J. Mcphaden, P. Brandt, G. R. Foltz et al., PIRATA: A Sustained Observing System for Tropical Atlantic Climate Research and Forecasting, Earth and Space Science, vol.6, issue.4, pp.577-616, 2019.

E. Darbyshire, W. T. Morgan, J. D. Allan, D. Liu, M. J. Flynn et al., Supplementary material to "The vertical distribution of biomass burning pollution over tropical South America from aircraft in situ measurements during SAMBBA", 2018.

F. Marenco, B. T. Johnson, S. Bauguitte, J. M. Haywood, J. F. Brito et al., The vertical distribution of biomass burning pollution over tropical South America from aircraft in situ measurements during SAMBBA, Atmos. Chem. Phys, vol.19, pp.5771-5790, 2019.

C. Denjean, T. Bourrianne, F. Burnet, M. Mallet, N. Maury et al., Light absorption properties of aerosols over Southern West Africa, Atmos. Chem. Phys. Discuss, 2019.

O. Dubovik and M. D. King, A flexible inversion algorithm for retrieval of aerosol optical properties from Sun and sky radiance measurements, Journal of Geophysical Research: Atmospheres, vol.105, issue.D16, pp.20673-20696, 2000.

T. F. Eck, B. N. Holben, J. S. Reid, M. M. Mukelabai, S. J. Piketh et al., A seasonal trend of single scattering albedo in southern African biomass-burning particles: Implications for satellite products and estimates of emissions for the world's largest biomass-burning source, Journal of Geophysical Research: Atmospheres, vol.118, issue.12, pp.6414-6432, 2013.

O. Dubovik, A. Sinyuk, J. S. Schafer, D. M. Giles, M. Sorokin et al., A seasonal trend of single scattering albedo in southern African biomass-burning particles: Implications for satellite products and estimates of emissions for the world's largest biomass-burning source, J. Geophys. Res.-Atmos, vol.118, pp.6414-6432, 2013.

L. Fierce, T. C. Bond, S. E. Bauer, F. Mena, and N. Riemer, Black carbon absorption at the global scale is affected by particle-scale diversity in composition, Nature Communications, vol.7, issue.1, p.12361, 2016.

R. J. Herbert, N. Bellouin, E. J. Highwood, and A. A. Hill, Diurnal cycle of the semi-direct effect from a persistent absorbing aerosol layer over marine stratocumulus in large-eddy simulations, Atmospheric Chemistry and Physics, vol.20, issue.3, pp.1317-1340, 2020.

C. Flamant, P. Knippertz, A. H. Fink, A. Akpo, B. Brooks et al.,

N. Kalthoff, A. Konaré, C. Liousse, F. Lohou, C. Mari et al.,

J. Aryee, M. Ayoola, A. M. Batenburg, G. Bessardon, S. Borrmann et al., The Dynamics-Aerosol-Chemistry-Cloud Interactions in West Africa field campaign: Overview and research highlights, vol.99, pp.83-104, 2018.
URL : https://hal.archives-ouvertes.fr/insu-01564453

A. Inness, M. Ades, A. Agustí-panareda, J. Barré, A. Benedictow et al., The CAMS reanalysis of atmospheric composition, Atmospheric Chemistry and Physics, vol.19, issue.6, pp.3515-3556, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02090480

B. T. Johnson, K. P. Shine, and P. M. Forster, The semi-direct aerosol effect: Impact of absorbing aerosols on marine stratocumulus, Quarterly Journal of the Royal Meteorological Society, vol.130, issue.599, pp.1407-1422, 2004.

B. T. Johnson, S. R. Osborne, J. M. Haywood, and M. A. Harrison, Aircraft measurements of biomass burning aerosol over West Africa during DABEX, Journal of Geophysical Research, vol.113, pp.0-06, 2008.

D. Koch and A. D. Del-genio, Black carbon semi-direct effects on cloud cover: review and synthesis, Atmospheric Chemistry and Physics, vol.10, issue.16, pp.7685-7696, 2010.

S. J. Ghan, Technical Note: Estimating aerosol effects on cloud radiative forcing, Atmospheric Chemistry and Physics, vol.13, issue.19, pp.9971-9974, 2013.

F. Giorgi, E. Coppola, F. Solmon, L. Mariotti, M. B. Sylla et al., RegCM4: model description and preliminary tests over multiple CORDEX domains, Climate Research, vol.52, pp.7-29, 2012.

H. Gordon, P. R. Field, S. J. Abel, B. T. Johnson, M. Dalvi et al., Supplementary material to "Large simulated radiative effects of smoke in the south-east Atlantic", 2018.

M. Yoshioka and K. S. Carslaw, Large simulated radiative effects of smoke in the south-east Atlantic, Atmos. Chem. Phys, vol.18, pp.15261-15289, 2018.

X. Jiang, D. E. Waliser, W. S. Olson, W. Tao, T. S. L?ecuyer et al., Vertical Diabatic Heating Structure of the MJO: Intercomparison between Recent Reanalyses and TRMM Estimates, Monthly Weather Review, vol.139, issue.10, pp.3208-3223, 2011.

S. Kinne, Aerosol radiative effects with MACv2, Atmospheric Chemistry and Physics, vol.19, issue.16, pp.10919-10959, 2019.

S. A. Klein and D. L. Hartmann, The Seasonal Cycle of Low Stratiform Clouds, Journal of Climate, vol.6, issue.8, pp.1587-1606, 1993.

M. Labonne, F. Bréon, and F. Chevallier, Injection height of biomass burning aerosols as seen from a spaceborne lidar, Geophysical Research Letters, vol.34, issue.11, p.11806, 2007.
URL : https://hal.archives-ouvertes.fr/hal-02946364

R. Laprise, L. Hernández-díaz, K. Tete, L. Sushama, L. ?eparovi? et al., Climate projections over CORDEX Africa domain using the fifth-generation Canadian Regional Climate Model (CRCM5), Climate Dynamics, vol.41, issue.11-12, pp.3219-3246, 2013.

C. Dyn, , 2013.

K. M. Lau, M. K. Kim, and K. M. Kim, Asian summer monsoon anomalies induced by aerosol direct forcing: the role of the Tibetan Plateau, Climate Dynamics, vol.26, issue.7-8, pp.855-864, 2006.

K. M. Lau, K. M. Kim, Y. C. Sud, and G. K. Walker, A GCM study of the response of the atmospheric water cycle of West Africa and the Atlantic to Saharan dust radiative forcing, Annales Geophysicae, vol.27, issue.10, pp.4023-4037, 2009.

L. V. Leahy, T. L. Anderson, T. F. Eck, and R. W. Bergstrom, A synthesis of single scattering albedo of biomass burning aerosol over southern Africa during SAFARI 2000, Geophysical Research Letters, vol.34, issue.12, p.12814, 2007.

F. Malavelle, V. Pont, M. Mallet, F. Solmon, B. Johnson et al., Simulation of aerosol radiative effects over West Africa during DABEX and AMMA SOP-0, Journal of Geophysical Research, vol.116, issue.D8, p.8205, 2011.

M. Mallet, F. Solmon, L. Roblou, F. Peers, S. Turquety et al., Simulation of Optical Properties and Direct and Indirect Radiative Effects of Smoke Aerosols Over Marine Stratocumulus Clouds During Summer 2008 in California With the Regional Climate Model RegCM, Journal of Geophysical Research: Atmospheres, vol.122, issue.19, pp.10,312-10,337, 2017.

M. Mallet, P. Nabat, P. Zuidema, J. Redemann, A. M. Sayer et al., Simulation of the transport, vertical distribution, optical properties and radiative impact of smoke aerosols with the ALADIN regional climate model during the ORACLES-2016 and LASIC experiments, 2018.
URL : https://hal.archives-ouvertes.fr/hal-02352584

R. Ferrare, K. Meyer, P. Saide, H. Jethva, O. Torres et al., Simulation of the transport, vertical distribution, optical properties and radiative impact of smoke aerosols with the ALADIN regional climate model during the ORACLES-2016 and LASIC experiments, Atmos. Chem. Phys, vol.19, p.4963
URL : https://hal.archives-ouvertes.fr/hal-02352584

M. Mallet, F. Solmon, P. Nabat, N. Elguindi, F. Waquet et al., Direct and semi-direct radiative forcing of biomass burning aerosols over the Southeast Atlantic (SEA) and its sensitivity to absorbing properties: a regional climate modeling study, 2020.
URL : https://hal.archives-ouvertes.fr/insu-02619284

M. E. Marlier, R. S. Defries, A. Voulgarakis, P. L. Kinney, J. T. Randerson et al., El Niño and health risks from landscape fire emissions in southeast Asia, Nature Climate Change, vol.3, issue.2, pp.131-136, 2012.

B. Marticorena and G. Bergametti, Modeling the atmospheric dust cycle: 1. Design of a soil-derived dust emission scheme, Journal of Geophysical Research, vol.100, issue.D8, p.16415, 1995.
URL : https://hal.archives-ouvertes.fr/hal-02324491

E. J. Mlawer, S. J. Taubman, P. D. Brown, M. J. Iacono, and S. A. Clough, Radiative transfer for inhomogeneous atmospheres: RRTM, a validated correlated-k model for the longwave, Journal of Geophysical Research: Atmospheres, vol.102, issue.D14, pp.16663-16682, 1997.

V. Masson, P. Le-moigne, E. Martin, S. Faroux, A. Alias et al., The SURFEXv7.2 land and ocean surface platform for coupled or offline simulation of earth surface variables and fluxes, Geoscientific Model Development, vol.6, issue.4, pp.929-960, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00968042

E. Brousseau, J. Brun, D. Calvet, B. Carrer, C. Decharme et al.,

F. Giordani, M. Habets, G. Jidane, E. Kerdraon, M. Kourzeneva et al., 2013 : The SURFEXv7.2 land and ocean surface platform for coupled or offline simulation of Earth surface variables and fluxes, Geoscientific Model Development, vol.6, pp.929-960

J. Morcrette, O. Boucher, L. Jones, D. Salmond, P. Bechtold et al., Aerosol analysis and forecast in the European Centre for Medium-Range Weather Forecasts Integrated Forecast System: Forward modeling, Journal of Geophysical Research, vol.114, issue.D6, p.6206, 2009.

L. Menut, C. Flamant, S. Turquety, A. Deroubaix, P. Chazette et al., Impact of biomass burning on pollutants surface concentrations in megacities of the Gulf of Guinea, Atmos. Chem. Phys, vol.18, pp.2687-2702, 2017.
URL : https://hal.archives-ouvertes.fr/insu-01591070

K. Meyer, S. Platnick, and Z. Zhang, Simultaneously inferring above-cloud absorbing aerosol optical thickness and underlying liquid phase cloud optical and microphysical properties using MODIS, J. Geophys. Res.-Atmos, vol.119, pp.5104-5114, 2015.

M. Michou, P. Nabat, and D. Saint-martin, Development and basic evaluation of a prognostic aerosol scheme (v1) in the CNRM Climate Model CNRM-CM6, Geoscientific Model Development, vol.8, issue.3, pp.501-531, 2015.

P. Nabat, S. Somot, M. Mallet, M. Michou, F. Sevault et al., Dust aerosol radiative effects during summer 2012 simulated with a coupled regional aerosol?atmosphere?ocean model over the Mediterranean, Atmospheric Chemistry and Physics, vol.15, issue.6, pp.3303-3326, 2015.

P. Nabat, S. Somot, C. Cassou, M. Mallet, M. Michou et al., Modulation of radiative aerosols effects by atmospheric circulation over the Euro-Mediterranean region, 2020.

D. Martin, Modulation of radiative aerosols effects by atmospheric circulation over the Euro-Mediterranean region, Atmos. Chem. Phys. Discuss, 2020.

C. Nam, S. Bony, J. Dufresne, and H. Chepfer, The ?too few, too bright? tropical low-cloud problem in CMIP5 models, Geophysical Research Letters, vol.39, issue.21, pp.n/a-n/a, 2012.
URL : https://hal.archives-ouvertes.fr/hal-01115803

F. Peers, F. Waquet, C. Cornet, P. Dubuisson, F. Ducos et al., Absorption of aerosols above clouds from POLDER/PARASOL measurements and estimation of their direct radiative effect, Atmospheric Chemistry and Physics, vol.15, issue.8, pp.4179-4196, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01819346

T. A. O'brien, P. Y. Chuang, L. C. Sloan, I. C. Faloona, and D. L. Rossiter, Coupling a new turbulence parametrization to RegCM adds realistic stratocumulus clouds, Geoscientific Model Development, vol.5, issue.4, pp.989-1008, 2012.

M. Petrenko, R. Kahn, M. Chin, A. Soja, T. Kucsera et al., The use of satellite-measured aerosol optical depth to constrain biomass burning emissions source strength in the global model GOCART, Journal of Geophysical Research: Atmospheres, vol.117, issue.D18, pp.n/a-n/a, 2012.

J. P. Perlwitz and R. L. Miller, Cloud cover increase with increasing aerosol absorptivity: A counterexample to the conventional semidirect aerosol effect, Journal of Geophysical Research, vol.115, issue.D8, p.8203, 2010.

N. Philippon, G. Cornu, L. Monteil, V. Gond, V. Moron et al., The light-deficient climates of western Central African evergreen forests, Environmental Research Letters, vol.14, issue.3, p.034007, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02080499

C. A. Randles and V. Ramaswamy, Direct and semi-direct impacts of absorbing biomass burning aerosol on the climate of southern Africa: a Geophysical Fluid Dynamics Laboratory GCM sensitivity study, Atmospheric Chemistry and Physics, vol.10, issue.20, pp.9819-9831, 2010.

C. A. Randles, A. M. Da-silva, V. Buchard, P. R. Colarco, A. Darmenov et al., The MERRA-2 Aerosol Reanalysis, 1980 Onward. Part I: System Description and Data Assimilation Evaluation, Journal of Climate, vol.30, issue.17, pp.6823-6850, 2017.

C. L. Reddington, D. V. Spracklen, P. Artaxo, D. A. Ridley, L. V. Rizzo et al., Analysis of particulate emissions from tropical biomass burning using a global aerosol model and long-term surface observations, Atmospheric Chemistry and Physics, vol.16, issue.17, pp.11083-11106, 2016.

J. S. Reid, T. F. Eck, S. A. Christopher, R. Koppmann, O. Dubovik et al., A review of biomass burning emissions part III: intensive optical properties of biomass burning particles, Atmospheric Chemistry and Physics Discussions, vol.4, issue.5, pp.5201-5260, 2004.
URL : https://hal.archives-ouvertes.fr/hal-00295639

J. Zhang, A review of biomass burning emissions part III: intensive optical properties of biomass burning particles, Atmos. Chem. Phys, vol.5, pp.827-849, 2005.
URL : https://hal.archives-ouvertes.fr/hal-00295639

J. Rissler, A. Vestin, E. Swietlicki, G. Fisch, J. Zhou et al., Size distribution and hygroscopic properties of aerosol particles from dry-season biomass burning in Amazonia, Atmospheric Chemistry and Physics, vol.6, issue.2, pp.471-491, 2006.
URL : https://hal.archives-ouvertes.fr/hal-00295846

N. Sakaeda, R. Wood, and P. J. Rasch, Direct and semidirect aerosol effects of southern African biomass burning aerosol, Journal of Geophysical Research, vol.116, issue.D12, p.12205, 2011.

A. M. Sayer, N. C. Hsu, C. Bettenhausen, J. Lee, J. Redemann et al., Extending ?Deep Blue? aerosol retrieval coverage to cases of absorbing aerosols above clouds: Sensitivity analysis and first case studies, Journal of Geophysical Research: Atmospheres, vol.121, issue.9, pp.4830-4854, 2016.

A. M. Sayer, N. C. Hsu, J. Lee, W. V. Kim, S. Burton et al., Two decades observing smoke above clouds in the south-eastern Atlantic Ocean: Deep Blue algorithm updates and validation with ORACLES field campaign data, Atmospheric Measurement Techniques, vol.12, issue.7, pp.3595-3627, 2019.

C. Seethala, J. F. Meirink, Á. Horváth, R. Bennartz, and R. Roebeling, Evaluating the diurnal cycle of South Atlantic stratocumulus clouds as observed by MSG SEVIRI, Atmospheric Chemistry and Physics, vol.18, issue.17, pp.13283-13304, 2018.

Y. Shinozuka, P. E. Saide, G. A. Ferrada, S. P. Burton, R. Ferrare et al., Modeling the smoky troposphere of the southeast Atlantic: a comparison to ORACLES airborne observations from September of 2016, p.23, 2019.

Y. Zhang, L. Pfister, J. Ryoo, J. Redemann, R. Wood et al., Modeling the smoky troposphere of the southeast Atlantic: a comparison to ORACLES airborne observations from, Atmos. Chem. Phys. Discuss, 2016.

F. Solmon, F. Giorgi, and C. Liousse, Aerosol modelling for regional climate studies: application to anthropogenic particles and evaluation over a European/African domain, Tellus B, vol.58, issue.1, pp.51-72, 2006.

F. Solmon, M. Mallet, N. Elguindi, F. Giorgi, A. Zakey et al., Dust aerosol impact on regional precipitation over western Africa, mechanisms and sensitivity to absorption properties, Geophysical Research Letters, vol.35, issue.24, p.24705, 2008.
URL : https://hal.archives-ouvertes.fr/hal-00342301

F. Solmon, N. Elguindi, and M. Mallet, Radiative and climatic effects of dust over West Africa, as simulated by a regional climate model, Climate Research, vol.52, pp.97-113, 2012.
URL : https://hal.archives-ouvertes.fr/hal-01021260

F. S. Solmon, V. S. Nair, and M. Mallet, Increasing Arabian dust activity and the Indian summer monsoon, Atmospheric Chemistry and Physics, vol.15, issue.14, pp.8051-8064, 2015.

P. Stier, N. A. Schutgens, N. Bellouin, H. Bian, O. Boucher et al., Host model uncertainties in aerosol radiative forcing estimates: results from the AeroCom Prescribed intercomparison study, Atmospheric Chemistry and Physics, vol.13, issue.6, pp.3245-3270, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01096290

X. Ma, G. Myhre, J. E. Penner, C. A. Randles, B. Samset et al., Host model uncertainties uncertainties in aerosol radiative forcing estimates: results from the Aero-Com Prescribed intercomparison study, Atmos. Chem. Phys, vol.13, pp.3245-3270, 2013.

C. W. Stjern, B. H. Samset, G. Myhre, P. M. Forster, Ø. Hodnebrog et al., Rapid Adjustments Cause Weak Surface Temperature Response to Increased Black Carbon Concentrations, Journal of Geophysical Research: Atmospheres, vol.122, issue.21, pp.11,462-11,481, 2017.

G. D. Thornhill, C. L. Ryder, E. J. Highwood, L. C. Shaffrey, and B. T. Johnson, The effect of South American biomass burning aerosol emissions on the regional climate, Atmospheric Chemistry and Physics, vol.18, issue.8, pp.5321-5342, 2018.

M. G. Tosca, J. T. Randerson, and C. S. Zender, Global impact of smoke aerosols from landscape fires on climate and the Hadley circulation, Atmos. Chem. Phys, vol.13, pp.5227-5241, 2013.

M. G. Tosca, D. J. Diner, M. J. Garay, and O. V. Kalashnikova, Human-caused fires limit convection in tropical Africa: First temporal observations and attribution, Geophysical Research Letters, vol.42, issue.15, pp.6492-6501, 2015.

F. Tummon, F. Solmon, C. Liousse, and M. Tadross, Simulation of the direct and semidirect aerosol effects on the southern Africa regional climate during the biomass burning season, Journal of Geophysical Research, vol.115, issue.D19, p.19206, 2010.
URL : https://hal.archives-ouvertes.fr/hal-00563632

V. Vakkari, J. P. Beukes, M. Dal-maso, M. Aurela, M. Josipovic et al., Major secondary aerosol formation in southern African open biomass burning plumes, Historic global biomass burning emissions for CMIP6 (BB4CMIP) based on merging satellite observations with proxies and fire models, vol.11, pp.3329-3357, 2017.

M. A. Vaughan, K. A. Powell, D. M. Winker, C. A. Hostetler, R. E. Kuehn et al., Fully Automated Detection of Cloud and Aerosol Layers in the CALIPSO Lidar Measurements, Journal of Atmospheric and Oceanic Technology, vol.26, issue.10, pp.2034-2050, 2009.

F. Waquet, F. Peers, F. Ducos, P. Goloub, S. Platnick et al., Global analysis of aerosol properties above clouds, Geophysical Research Letters, vol.40, issue.21, pp.5809-5814, 2013.

E. M. Wilcox, Stratocumulus cloud thickening beneath layers of absorbing smoke aerosol, Atmospheric Chemistry and Physics, vol.10, issue.23, pp.11769-11777, 2010.

D. M. Winker, W. H. Hunt, and M. J. Mcgill, Initial performance assessment of CALIOP, Geophysical Research Letters, vol.34, issue.19, p.19803, 2007.

H. Wu, J. W. Taylor, K. Szpek, J. Langridge, P. I. Williams et al., Vertical variability of the properties of highly aged biomass burning aerosol transported over the southeast Atlantic during CLARIFY-2017, Atmos. Chem. Phys. Discuss, 2020.

H. Xu, J. P. Guo, X. Ceamanos, J. L. Roujean, M. Min et al., On the influence of the diurnal variations of aerosol content to estimate direct aerosol radiative forcing using MODIS data, Atmospheric Environment, vol.141, pp.186-196, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01728992

A. S. Zakey, F. Giorgi, and X. Bi, Modeling of sea salt in a regional climate model: Fluxes and radiative forcing, Journal of Geophysical Research, vol.113, issue.D14, p.14221, 2008.

J. Zhang and P. Zuidema, The diurnal cycle of the smoky marine boundary layer observed during August in the remote southeast Atlantic, Atmospheric Chemistry and Physics, vol.19, issue.23, pp.14493-14516, 2019.

Y. Zou, Y. Wang, Y. Qian, H. Tian, J. Yang et al., Using CESM-RESFire to understand climate?fire?ecosystem interactions and the implications for decadal climate variability, Atmospheric Chemistry and Physics, vol.20, issue.2, pp.995-1020, 2020.

P. Zuidema, J. Redemann, J. Haywood, R. Wood, S. Piketh et al., Smoke and Clouds above the Southeast Atlantic: Upcoming Field Campaigns Probe Absorbing Aerosol?s Impact on Climate, Bulletin of the American Meteorological Society, vol.97, issue.7, pp.1131-1135, 2016.

P. Zuidema, A. J. Sedlacek, C. Flynn, S. Springston, R. Delgadillo et al., The Ascension Island Boundary Layer in the Remote Southeast Atlantic is Often Smoky, Geophysical Research Letters, vol.45, issue.9, pp.4456-4465, 2018.

C. R. Zeisse, Relative Spectral Responsivity of Two AGEMA Infrared Scanning Cameras. Models 900 SW/ST and 900 LW/ST., Radiative Transfer Scheme FMR (SW) / RRTM (LW) RRTM (SW & LW) Period of simulations, 1995.

B. Bán and G. Zsebeházi, Impacts of different RCP scenarios on ALADIN-Climate regional climate model projections over Hungary, 2020.

J. Grytczuk, A. P. Kisielewicz, and K. Przes?awski, Minimal Partitions Of A Box Into Boxes, COMBINATORICA, vol.24, issue.4, pp.605-614, 2004.

, Figure 10: Linear models fitted to the collagen mass loss obtained in groups CCO and CCT., p.28

S. Ivatek-sahdan and B. Ivancan-picek, Effects of different initial and boundary conditions in ALADIN/HR simulations during MAP IOPs, Meteorologische Zeitschrift, vol.15, issue.2, pp.187-197, 2006.

, Figure 2: Satellite image (MODIS Aqua) showing the concentration of chlorophyll a on Mar 23, 2015., Figure 5. Seasonal (JAS) mean of the total ACAOD (550 nm) averaged over the box_O. RegCM, p.31

M. Williams and J. Lynn, En route pour Paris Climat 2015 : 12e Forum International de la Météo et du Climat, La Météorologie, vol.8, issue.90, p.13, 2015.

, 5. UP, DOWN, LEFT, RIGHT, FRONT, BACK, AND MIDDLE, Cantonese Primer

D. J. Szumigala, Map of prospective mineral areas and significant mineral resources of Alaska, 1999.

, Figure 5?figure supplement 2. Distributions of orientation preferences in each hemisphere., RegCM (middle, period 2003-2015), and the MACv2 climatology (right, year 2005), vol.34, pp.1372-1376

, Figure 1: Mean seasonal vertical profiles of environmental variables., Figure 9

A. Jaczewski, B. Brzoska, and J. Wibig, Comparison of temperature indices for three IPCC SRES scenarios based on RegCM simulations for Poland in 2011?2030 period, Meteorologische Zeitschrift, vol.24, issue.1, pp.99-106, 2015.

, Figure 3?figure supplement 2. RSA results for the right and left V4 (left and middle column, respectively), and the corresponding ROI size control analysis (right column)., Figure, vol.11

, Figure 1: Mean seasonal vertical profiles of environmental variables., Figure, vol.12

, Regional equations for estimating mean annual and mean seasonal runoff for natural basins in Texas, base period 1961-90, Figure 13, 2000.