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ICON-Sapphire: Simulating the Components of the Earth System and Their Interactions at Kilometer and Subkilometer Scales. Geoscientific Model Development

Hohenegger C., Korn P., Linardakis L., Redler R., Schnur R., Adamidis P., Bao J., Bastin S., Behravesh M., Bergemann M., Biercamp J., Bockelmann H., Brokopf R., Brüggemann N., Casaroli L., Chegini F., Datseris G., Esch M., George G., Giorgetta M., Gutjahr O., Haak H., Hanke M., Ilyina T., Jahns T., Jungclaus J., Kern M., Klocke D., Kluft L., Kölling T., Kornblueh L., Kosukhin S., Kroll C., Lee J., Mauritsen T., Mehlmann C., Mieslinger T., Naumann A.K., Paccini L., Peinado A., Praturi D.S., Putrasahan D., Rast S., Riddick T., Roeber N., Schmidt H., Schulzweida U., Schütte F., Segura H., Shevchenko R., Singh V., Specht M., Stephan C.C., von Storch J.S., Vogel R., Wengel C., Winkler M., Ziemen F., Marotzke J. and Stevens B. 2023. ICON-Sapphire: Simulating the Components of the Earth System and Their Interactions at Kilometer and Subkilometer Scales. Geoscientific Model Development. 16(2), pp.779-811. DOI: 10.5194/gmd-16-779-2023.

Robust Evidence for Reversal of the Trend in Aerosol Effective Climate Forcing

Quaas J., Jia H., Smith C., Albright A.L., Aas W., Bellouin N., Boucher O., Doutriaux-Boucher M., Forster P.M., Grosvenor D., Jenkins S., Klimont Z., Loeb N.G., Ma X., Naik V., Paulot F., Stier P., Wild M., Myhre G. and Schulz M. 2022. Robust Evidence for Reversal of the Trend in Aerosol Effective Climate Forcing. Atmospheric Chemistry and Physics. 22(18), pp.12221-12239. DOI: 10.5194/acp-22-12221-2022.

Convection Self-Aggregation in CNRM-CM6-1: Equilibrium and Transition Sensitivity to Surface Temperature

Coppin D. and Roehrig R. 2022. Convection Self-Aggregation in CNRM-CM6-1: Equilibrium and Transition Sensitivity to Surface Temperature. Journal of Advances in Modeling Earth Systems. 14(12), pe2022MS003064. DOI: 10.1029/2022MS003064.

Pathfinder v1.0.1: A Bayesian-Inferred Simple Carbon-Climate Model to Explore Climate Change Scenarios

Bossy T., Gasser T. and Ciais P. 2022. Pathfinder v1.0.1: A Bayesian-Inferred Simple Carbon-Climate Model to Explore Climate Change Scenarios. Geoscientific Model Development. 15(23), pp.8831-8868. DOI: 10.5194/gmd-15-8831-2022.

Early Development and Tuning of a Global Coupled Cloud Resolving Model, and its Fast Response to Increasing CO2

Mauritsen T., Redler R., Esch M., Stevens B., Hohenegger C., Klocke D., Brokopf R., Haak H., Linardakis L., Röber N. and Schnur R. 2022. Early Development and Tuning of a Global Coupled Cloud Resolving Model, and its Fast Response to Increasing CO2. Tellus A: Dynamic Meteorology and Oceanography. 74(1), pp.346–363. DOI: 10.16993/tellusa.54.

Net Zero Targets in Science and Policy

Rogelj J. 2023. Net Zero Targets in Science and Policy. Environmental Research Letters. 18(2), p021003. DOI: 10.1088/1748-9326/acb4ae.

Cloud Transition Across the Daily Cycle Illuminates Model Responses of Trade Cumuli to Warming

Vial J., Albright A.L., Vogel R., Musat I. and Bony S. 2023. Cloud Transition Across the Daily Cycle Illuminates Model Responses of Trade Cumuli to Warming. Proceedings of the National Academy of Sciences. 120(8), pe2209805120. DOI: 10.1073/pnas.2209805120.

Causes of the Weak Emergent Constraint on Climate Sensitivity at the Last Glacial Maximum

Renoult M., Sagoo N., Zhu J. and Mauritsen T. 2023. Causes of the Weak Emergent Constraint on Climate Sensitivity at the Last Glacial Maximum. Climate of the Past. 19(2), pp.323-356. DOI: 10.5194/cp-19-323-2023.

Northern-High-Latitude Permafrost and Terrestrial Carbon Response to Two Solar Geoengineering Scenarios

Chen Y., Ji D., Zhang Q., Moore J.C., Boucher O., Jones A., Lurton T., Mills M.J., Niemeier U., Séférian R. and Tilmes S. 2023. Northern-High-Latitude Permafrost and Terrestrial Carbon Response to Two Solar Geoengineering Scenarios. Earth System Dynamics. 14(1), pp.55-79. DOI: 10.5194/esd-14-55-2023.

Trade Wind Boundary Layer Turbulence and Shallow Precipitating Convection: New Insights Combining SAR Images, Satellite Brightness Temperature, and Airborne In Situ Measurements

Brilouet P.-E., Bouniol D., Couvreux F., Ayet A., Granero-Belinchon C., Lothon M. and Mouche A. 2023. Trade Wind Boundary Layer Turbulence and Shallow Precipitating Convection: New Insights Combining SAR Images, Satellite Brightness Temperature, and Airborne In Situ Measurements. Geophysical Research Letters. 50(2), pe2022GL102180. DOI: 10.1029/2022GL102180.