Abteilung Klimaphysik

Unsere Forschung ist darauf fokussiert, zu verstehen wie das Klimasystem vom atmosphärischen Wassergehalt abhängt. Wir bemühen uns Fragen der Art zu beantworten wie Wolkenprozesse die planetare Albedo bestimmen, wie Feuchtigkeit die Struktur der Troposphäre beeinflusst, und wie ‘wasser-getriebene’ Zirkulationssysteme mit Erdoberfläche und Stratosphäre wechselwirken. Während der letzten Jahre haben diese Bemühungen zu neuen Entwicklungen sowohl in unserer Modellierung als auch in unseren Beobachtungskapazitäten geführt – Entwicklungen, die nicht nur für uns und unsere speziellen wissenschaftlichen Fragestellungen, sondern für das gesamte Forschungsfeld neue Perspektiven eröffnen.

Wir halten die Entwicklungen in der Modellierung für einen entscheidende Transformation. Es ist nun möglich für sehr große Gebiete, oder sogar global, Simulationen mit horizontalen Auflösungen auf der Kilometerskala (’sturm-auflösend’) durchzuführen, was für die Kopplung von Feuchteprozessen und Zirkulation von wesentlicher Bedeutung ist. Unsere globale gekoppelte 5-Kilometer Simulation über ein Jahr ist die erste ihrer Art, ebenso wie die globalen atmosphärischen Simulationen im von uns geleiteten DYAMOND-Projekt. Diese technischen Möglichkeiten erlauben uns nun Feuchteprozess und ihre Interaktion mit der globalen Zirkulation und dem Klimasystem ganzheitlich zu studieren; sie reduzieren  den Einflussbereich von schlecht bestimmbaren Modellannahmen (notwendig bleiben nur noch Parametrisierungen von Mikrophysik und Turbulenz); und beruhen auf der Nutzung beobachtbarer Größen, was eine natürliche Verbindung zu Messungen schafft. In Bezug auf die Fragen, die uns interessieren, führen diese Eigenschaften zu klarer formulierbaren Problemstellungen und besseren Kooperationsmöglichkeiten mit anderen Forscher*innen. Begleitet wurde dieser wesentliche Fortschritt in der Modellierung von der Entwicklung neuer Beobachtungsmethoden, genutzt insbesondere in der EUREC4A-Messkampagne, und der inzwischen sehr ausgereiften Wolkenbeobachtungsstation “Barbados Cloud Observatory”. Diese Entwicklungen ermöglichen uns zu beobachten wie Wasser, in der Form von Wolken oder durch andere Feuchteprozesse, und Zirkulation interagieren.               

Beobachtungen

FESSTVaL

FESSTVaL: ein Festival von fast 300 Instrumenten, die zusammenkommen, um einen Blick auf die Entstehung von Gewittern in den mittleren Breiten zu werfen.
Voll entwickelte Gewitter erscheinen als beeindruckende Wetterphänomene: Gewittercluster können sich in der Horizontalen über Hunderte von Kilometern erstrecken und in der Vertikalen bis zur Tropopause, etwa 10 km hoch, reichen. ...

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EUREC4A

Im Januar und Februar 2020 fand auf und um die Karibikinsel Barbados unter Federführung des Max-Planck-Instituts für Meteorologie in Hamburg und dem CNRS der Sorbonne Universität zu Paris eine internationale Messkampagne in der Passatregion statt. Sie hatte das Ziel zu verstehen, wie die Passatbewölkung auf die Klimaerwärmung reagiert und eventuell zu ihr beiträgt.

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Seminare in der Abteilung Klimaphysik

Sofern nicht anders vermerkt findet das Seminar immer montags um 9.00 Uhr im Raum 22/23 statt. Für Änderungen der Vortragstermine, des Chairs oder auch für Vortragsvorschläge bitten wir um eine E-Mail an Sebastian Ortega (sebastian.ortega@we dont want spammpimet.mpg.de) oder Romain Fievet (romain.fievet@we dont want spammpimet.mpg.de).

Ziel des AES Seminars ist es, einen Einblick zu geben, woran man gerade arbeitet. Es handelt sich um eine Veranstaltung der Abteilung „Atmosphäre im Erdsystem“, in der man Gelegenheit hat, neue Ideen mit Kolleginnen und Kollegen zu teilen und zu diskutieren. Weitere Informationen zum AES Seminar finden sich hier.

Marius Winkler
08.04.2024
09:00 Uhr
Romain Fiévet
Janina Tschirschwitz
29.04.2024
09:00 Uhr
Hauke Schmidt
Hauke Schmidt
06.05.2024
09:00 Uhr
TBD
Luca Schmidt
13.05.2024
09:00 Uhr
Helene Marie Glöckner
Hans Mikhail Segura Cajachagua
27.05.2024
09:00 Uhr
TBD
Lukas Kluft
03.06.2024
09:00 Uhr
TBD
Leonidas Linardakis
10.06.2024
09:00 Uhr
Hans Segura
Jairo Segura
17.06.2024
21:30–22:30 Uhr
Arim Yoon

Zeige Ergebnisse 1 bis 8 von 9

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Abteilungsmitglieder und Publikationen

Name
Email
Gruppe
Position
Telefon
Raum
Globale Zirkulation und Klima
Stud. Hilfskraft
B 402
Beobachtung tropischer Wolken
Stud. Hilfskraft
G 1805
Antriebe tropischer Zirkulation
Doktorand*in
B 421
Wellengetriebene Zirkulation
Techniker*in
G 1706
Beobachtung tropischer Wolken
Techniker*in
G 1806
Antriebe tropischer Zirkulation
Doktorand*in
B 412
Stratosphärischer Antrieb und Klima
Gast
Antriebe tropischer Zirkulation
Doktorand*in
B 424
Globale Zirkulation und Klima
Doktorand*in
B 412
Wellengetriebene Zirkulation
Wiss. Programmierer*in
B 315
Forschungsgruppe des Direktors (CPH)
Gast
S 1.01
Wellengetriebene Zirkulation
Doktorand*in
B 405
Wellengetriebene Zirkulation
Gruppenleiter*in
B 408
Globale Zirkulation und Klima
Doktorand*in
B 421
Globale Zirkulation und Klima
Doktorand*in
B 429
Forschungsgruppe des Direktors (CPH)
Assistenz
B 413
Globale Zirkulation und Klima
Doktorand*in
B 307
Globale Zirkulation und Klima
Stud. Hilfskraft
Beobachtung tropischer Wolken
Gruppenleiter*in
B 402
Climate Surface Interaction
Gruppenleiter*in
B 411
Beobachtung tropischer Wolken
Techniker*in
G 1821
Forschungsgruppe des Direktors (CPH)
Wissenschaftler*in
B 422
Climate Surface Interaction
Wissenschaftler*in
B 406
Beobachtung tropischer Wolken
Wissenschaftler*in
105
403
Beobachtung tropischer Wolken
Postdoc
B 403
Antriebe tropischer Zirkulation
Gruppenleiter*in
B 417
Stratosphärischer Antrieb und Klima
Wissenschaftler*in
B 418
Wellengetriebene Zirkulation
Wissenschaftler*in
B 427
Forschungsgruppe des Direktors (CPH)
Wissenschaftler*in
B 422
Climate Surface Interaction
Wissenschaftler*in
B 417
Globale Zirkulation und Klima
Wiss. Programmierer*in
B 428
Climate Surface Interaction
Doktorand*in
B 419
Globale Zirkulation und Klima
Gruppenleiter*in
B 416
Climate Surface Interaction
Wissenschaftler*in
B 430
Globale Zirkulation und Klima
Stud. Hilfskraft
B 402
Beobachtung tropischer Wolken
Wissenschaftler*in
G 1811
Forschungsgruppe des Direktors (CPH)
Direktor*in
B 414
Stratosphärischer Antrieb und Klima
Gruppenleiter*in
B 407
Wellengetriebene Zirkulation
Doktorand*in
B 424
Beobachtung tropischer Wolken
Stud. Hilfskraft
B 402
Beobachtung tropischer Wolken
Gruppenleiter*in
B 431
Climate Surface Interaction
Doktorand*in
B 430
Beobachtung tropischer Wolken
Wissenschaftler*in
B 106
Climate Surface Interaction
Doktorand*in
B 429
  • Achatz, U., Alexander, M., Becker, E., Chun, H.-Y., Dörnbrack, A., Holt, L., Plougonven, R., Polichtchouk, I., Sato, K., Sheshadri, A., Stephan, C., van Niekerk, A. & Wright, C. (2024). Atmospheric gravity waves: processes and parameterization. Journal of the Atmospheric Sciences, 81, 237-262. doi:10.1175/JAS-D-23-0210.1 [publisher-version]
  • Andreasen, L., Cornér, J., Abbott, P., Sinclair, V., Riede, F. & Timmreck, C. (2024). Changes in Northern Hemisphere extra-tropical cyclone frequency following volcanic eruptions. Environmental research: climate, 3: 025002. doi:10.1088/2752-5295/ad2c0e [publisher-version]
  • Bao, J., Stevens, B., Kluft, L. & Muller, C. (2024). Intensification of tropical precipitation extremes from more organized convection. Science Advances, 10: eadj6801. doi:10.1126/sciadv.adj6801 [supplementary-material][publisher-version]
  • Fons, E., Naumann, A., Neubauer, D., Lang, T. & Lohmann, U. (2024). Investigating the sign of stratocumulus adjustments to aerosols in the global storm-resolving model ICON. Under open review for Atmospheric Chemistry and Physics. Atmospheric Chemistry and Physics. doi:10.5194/egusphere-2024-195 [Preprint]
  • Günther, M., Schmidt, H., Timmreck, C. & Toohey, M. (2024). Why does stratospheric aerosol forcing strongly cool the warm pool? Under open review.. EGUsphere, . doi:10.5194/egusphere-2024-429 [Preprint] [pre-print]
  • Kroll, C., Fueglistaler, S., Schmidt, H., Dauhut, T. & Timmreck, C. (2024). The impact of stratospheric aerosol heating on the frozen hydrometeor transport pathways in the tropical tropopause layer. Environmental Research Letters, 19: 044039. [supplementary-material][publisher-version]
  • Lee, J. & Hohenegger, C. (2024). Weaker land-atmosphere coupling in storm-resolving simulation. Proceedings of the National Academy of Sciences, 121: e2314265121. doi:10.1073/pnas.231426512 [publisher-version]
  • Morfa Avalos, Y. (2024). The role of inertia-gravity waves in the atmospheric energy spectrum: insights from global storm-resolving simulations. Phd Thesis, Berichte zur Erdsystemforschung, 276. doi:10.17617/2.3565958 [publisher-version]
  • Schäfer, M., Wolf, K., Ehrlich, A., Jäkel, E., Luebke, A., Müller, J., Thoböll, J., Stevens, B. & Wendisch, M. (2024). Introduction to the new airborne thermal infrared imager VELOX for remote sensing of cloud and surface properties. AIP Conference Proceedings, 2988(Radiation Processes in the Atmosphere and Ocean): 050001. doi:10.1063/5.0183450 [publisher-version]
  • Schmidt, H., Rast, S., Bao, J., Fang, S.-W., Jiménez de la Cuesta Otero, D., Keil, P., Kluft, L., Kroll, C., Lang, T., Niemeier, U., Schneidereit , A., Williams , A. & Stevens, B. (2024). Effects of vertical grid spacing on the climate simulated in the ICON-Sapphire global storm-resolving model. Geoscientific Model Development, 17, 1563-1584. doi:10.5194/egusphere-2023-1575 [supplementary-material][publisher-version]
  • Schnitt, S., Foth, A., Kalesse-Los, H., Mech, M., Acquistapace, C., Jansen, F., Löhnert, U., Pospichal, B., Röttenbacher, J., Crewell, S. & Stevens, B. (2024). Ground- and ship-based microwave radiometer measurements during EUREC4A. Earth System Science Data, 16, 681-700. doi:10.5194/essd-16-681-2024 [publisher-version]
  • Stevens, B., Adami, S., Ali, T., Anzt, H., Aslan, Z., Attinger, S., Bäck, J., Baehr, J., Bauer, P., Bernier, N., Bishop, B., Bockelmann, H., Bony, S., Bouchet, V., Brasseur, G., Bresch, D., Breyer, S., Brunet, G., Buttigieg, P., Cao, J., Castet, C., Cheng, Y., Dey Choudhury, A., Coen, D., Crewell, S., Dabholkar, A., Dai, Q., Doblas-Reyes, F., Durran, D., El Gaidi, A., Ewen, C., Exarchou, E., Eyring, V., Falkinhoff, F., Farrell, D., Forster, P., Frassoni, A., Frauen, C., Fuhrer, O., Gani, S., Gerber, E., Goldfarb, D., Grieger, J., Gruber, N., Hazeleger, W., Herken, R., Hewitt, C., Hoefler, T., Hsu, H.-H., Jacob, D., Jahn, A., Jakob, C., Jung, T., Kadow, C., Kang, I.-S., Kang, S., Kashinath, K., Kleinen-von Königslöw, K., Klocke, D., Kloenne, U., Klöwer, M., Kodama, C., Kollet, S., Kölling, T., Kontkanen, J., Kopp, S., Koran, M., Kulmala, M., Lappalainen, H., Latifi, F., Lawrence, B., Lee, J., Lejeun, Q., Lessig, C., Li, C., Lippert, T., Luterbacher, J., Manninen, P., Marotzke, J., Matsouoka, S., Merchant, C., Messmer, P., Michel, G., Michielsen, K., Miyakawa, T., Müller, J., Munir, R., Narayanasetti, S., Ndiaye, O., Nobre, C., Oberg, A., Oki, R., Özkan-Haller, T., Palmer, T., Posey, S., Prein, A., Primus, O., Pritchard, M., Pullen, J., Putrasahan, D., Quaas, J., Raghavan, K., Ramaswamy, V., Rapp, M., Rauser, F., Reichstein, M., Revi, A., Saluja, S., Satoh, M., Schemann, V., Schemm, S., Schnadt Poberaj, C., Schulthess, T., Senior, C., Shukla, J., Singh, M., Slingo, J., Sobel, A., Solman, S., Spitzer, J., Stammer, D., Stier, P., Stocker, T., Strock, S., Su, H., Taalas, P., Taylor, J., Tegtmeier, S., Teutsch, G., Tompkins, A., Ulbrich, U., Vidale, P.-L., Wu, C.-M., Xu, H., Zaki, N., Zanna, L., Zhou, T. & Ziemen, F. (in press). Earth Virtualization Engines (EVE). Earth System Science Data. doi:10.5194/essd-2023-376
  • Stevens, B. (2024). A perspective on the future of CMIP. AGU Advances, 5: e2023AV001086. doi:10.1029/2023AV001086 [publisher-version]
  • Stubenrauch, C., Kinne, S., Mandorli, G., Rossow, W., Winker, D., Ackerman, S., Chepfer, H., Di Girolamo, L., Garnier, A., Heidinger, A., Karlsson, K.-G., Meyer, K., Minnis, P., Platnick, S., Stengel, M., Sun-Mack, S., Veglio, P., Walther, A., Cai, X., Young, A. & Zhao, G. (2024). Lessons learned from the updated GEWEX cloud assessment database. Surveys in Geophysics: early access. doi:10.1007/s10712-024-09824-0 [publisher-version]
  • Timmreck, C., Olonscheck, D., Ballinger, A., D’Agostino, R., Fang, S.-W., Schurer, A. & Hegerl, G. (2024). Linearity of the climate response to increasingly strong tropical volcanic eruptions in a large ensemble framework. Journal of Climate, 37. doi:10.1175/JCLI-D-23-0408.1 [supplementary-material]
  • Weber, A., Kölling, T., Pörtge, V., Baumgartner, A., Rammeloo, C., Zinner, T. & Mayer, B. (2024). Polarization upgrade of specMACS: calibration and characterization of the 2D RGB polarization-resolving cameras. Atmospheric Measurement Techniques, 17, 1419-1439. doi:10.5194/amt-17-1419-2024 [publisher-version]
  • Windmiller, J. & Stevens, B. (2024). The inner life of the Atlantic Intertropical Convergence Zone. Quarterly Journal of the Royal Meteorological Society: early view. doi:10.1002/qj.4610
  • Yoon, A., Kim, J., Lee, J., Min Sung, H., Hong, J.-W., Min, S.-K., Lee, J. & Hong, J. (2024). Factor analysis of recent major heatwaves in East Asia. Geoscience Frontiers, 15: 101730. doi:10.1016/j.gsf.2023.101730 [publisher-version]
  • Albright, A., Stevens, B., Bony, S. & Vogel, R. (2023). A new conceptual picture of the trade wind transition layer. Journal of the Atmospheric Sciences, 80, 1547-1563. doi:10.1175/JAS-D-22-0184.1 [publisher-version]
  • Aminzadeh, M., Or, D., Stevens, B., AghaKouchak, A. & Shokri, N. (2023). Upper bounds of maximum land surface temperatures in a warming climate and limits to plant growth. Earth's Future, 11: e2023EF003755. doi:10.1029/2023EF003755 [publisher-version]
  • Bailey, A., Aemisegger, F., Villiger, L., Los, S., Reverdin, G., Meléndez, E., Acquistapace, C., Baranowski, D., Böck, T., Bony, S., Bordsdorff, T., Coffman, D., de Szoeke, S., Diekmann, C., Dütsch, M., Ertl, B., Galewsky, J., Henze, D., Makuch, P., Noone, D., Quinn, P., Rösch, M., Schneider, A., Schneider, M., Speich, S., Stevens, B. & Thompson, E. (2023). Isotopic measurements in water vapor, precipitation, and seawater during EUREC4A. Earth System Science Data, 15, 465-495. doi:10.5194/essd-15-465-2023 [publisher-version][supplementary-material]
  • Bauer, P., Dueben, P., Chantry, M., Doblas-Reyes, F., Hoefler, T., McGovern, A. & Stevens, B. (2023). Deep learning and a changing economy in weather and climate prediction. Nature Reviews Earth & Environment, 4, 507-509. doi:10.1038/s43017-023-00468-z
  • Blanco, J., Caballero, R., Datseris, G., Stevens, B., Bony, S., Hadas, O. & Kaspi, Y. (2023). A cloud-controlling factor perspective on the hemispheric asymmetry of extratropical cloud albedo. Journal of Climate, 36, 1793-1804 . doi:10.1175/JCLI-D-22-0410.1 [publisher-version]
  • Bruckert, J., Hoshyaripour, G., Hirsch, L., Horvath, A., Kahn, R., Kölling, T., Muser, L., Timmreck, C., Vogel, H., Wallis, S. & Vogel, B. (2023). Dispersion and aging of volcanic aerosols after the La Soufriere eruption in April 2021. Journal of Geophysical Research: Atmospheres, 128: e2022JD037694. doi:10.1029/2022JD037694 [publisher-version]
  • Chen, Y., Ji, D., Zhang, Q., Moore, J., Boucher, O., Jones, A., Lurton, T., Mills, M., Niemeier, U., Séférian, R. & Tilmes, S. (2023). Northern-high-latitude permafrost and terrestrial carbon response to two solar geoengineering scenarios. Earth System Dynamics, 14, 55-79. doi:10.5194/esd-14-55-2023 [publisher-version]
  • Crueger, T., Schmidt, H. & Stevens, B. (2023). Hemispheric albedo asymmetries across three phases of CMIP. Journal of Climate, 36, 5267-5280. doi:10.1175/JCLI-D-22-0923.1 [publisher-version]
  • Ehrlich, A., Zöger, M., Giez, A., Nenakhov, V., Mallaun, C., Maser, R., Röschenthaler, T., Luebke, A., Wolf, K., Stevens, B. & Wendisch, M. (2023). A new airborne broadband radiometer system and an efficient method to correct thermal offsets. Atmospheric Measurement Techniques, 16, 1563-1581. doi:10.5194/amt-16-1563-2023 [publisher-version]
  • Fang, S.-W., Sigl, M., Toohey, M., Jungclaus, J., Zanchettin, D. & Timmreck, C. (2023). The role of small to moderate volcanic eruptions in the early 19th century climate. Geophysical Research Letters, 50: e2023GL105307. doi:10.1029/2023GL105307 [publisher-version]
  • Franke, H., Preusse, P. & Giorgetta, M. (2023). Changes of tropical gravity waves and the quasi-biennial oscillation in storm-resolving simulations of idealized global warming. Quarterly Journal of the Royal Meteorological Society, 149, 2838-2860. doi:10.1002/qj.4534 [publisher-version]
  • Freychet, N., Schurer, A., Ballinger, A., Suarez-Gutierrez, L. & Timmreck, C. (2023). Assessing the impact of very large volcanic eruptions on the risk of extreme climate events. Environmental Research: Climate, 2: 035015 . doi:10.1088/2752-5295/acee9f [publisher-version]
  • George, G., Stevens, B., Bony , S., Vogel, R. & Naumann, A. (2023). Widespread shallow mesoscale circulations observed in the trades. Nature Geoscience, 16, 584-589. doi:10.1038/s41561-023-01215-1 [publisher-version][supplementary-material]
  • Gettelman, A., Fox-Kemper, B., Flato, G., Klocke, D., Stammer, D., Stevens, B. & Vidale, P. (2023). Kilometre-scale modelling of the earth system: A new paradigm for climate prediction. WMO Bulletin, 72, 14-18.
  • Ghosh, R., Putrasahan, D., Manzini, E., Lohmann, K., Keil, P., Hand, R., Bader, J., Matei, D. & Jungclaus, J. (2023). Two distinct phases of North Atlantic eastern subpolar gyre and warming hole evolution under global warming. Journal of Climate, 36, 1881-1894. doi:10.1175/JCLI-D-22-0222.1 [publisher-version][supplementary-material]
  • Hadas, O., Datseris, G., Blanco, J., Bony, S., Caballero, R., Stevens, B. & Kaspi, Y. (2023). The role of baroclinic activity in controlling Earth’s albedo in the present and future climates. Proceedings of the National Academy of Sciences of the United States of America, 120: e2208778120. doi:10.1073/pnas.2208778120 [publisher-version][supplementary-material]
  • Hoefler, T., Stevens, B., Prein, A., Baehr, J., Schulthess, T., Stocker, T., Taylor, J., Klocke, D., Manninen, P., Forster, P., Kölling, T., Gruber, N., Anzt, H., Frauen, C., Ziemen, F., Klöwer, M., Kashinath, K., Schär, C., Fuhrer, O. & Lawrence, B. (2023). Earth Virtualization Engines - A Technical Perspective. Computing in Science and Engineering, 25, 50-59. doi:10.1109/MCSE.2023.3311148 [pre-print]
  • Hohenegger, C., Ament, F., Beyrich, F., Löhnert, U., Rust, H., Bange, J., Böck, T., Böttcher, C., Boventer, J., Burgemeister, F., Clemens, M., Detring, C., Detring, I., Dewani, N., Bastak-Duran, I., Fiedler, S., Göber, M., van Heerwaarden, C., Heusinkveld, B., Kirsch, B., Klocke, D., Knist, C., Lange, I., Lauermann, F., Lehmann, V., Lehmke, J., Leinweber, R., Lundgren, K., Masbou, M., Mauder, M., Mol, W., Nevermann, H., Nomokonova, T., Päschke, E., Platis, A., Reichardt, J., Rochette, L., Sakradzija, M., Schlemmer, L., Schmidli, J., Shokri, N., Sobottke, V., Speidel, J., Steinheuer, J., Turner, D., Vogelmann, H., Wedemeyer, C., Weide-Luiz, E., Wiesner, S., Wildmann, N., Wolz, K. & Wetz, T. (2023). FESSTVaL: The Field Experiment on Submesoscale Spatio-Temporal Variability in Lindenberg. Bulletin of the American Meteorological Society, 104, E1875-E1892. doi:10.1175/BAMS-D-21-0330.1 [publisher-version]
  • 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., Paccini, L., Peinado, A., Praturi, D., Putrasahan, D., Rast, S., Riddick, T., Roeber, N., Schmidt, H., Schulzweida, U., Schütte, F., Segura, H., Shevchenko, R., Singh, V., Specht, M., Stephan, C., von Storch, J., Vogel, R., Wengel, C., Winkler, M., Ziemen, F., Marotzke, J. & Stevens, B. (2023). ICON-Sapphire: simulating the components of the Earth System and their interactions at kilometer and subkilometer scales. Geoscientific Model Development, 16, 779-811. doi:10.5194/gmd-16-779-2023 [publisher-version]
  • Hu, Y., Lin, Y., Deng, Y. & Bao, J. (2023). Summer extreme rainfall over the middle and lower reaches of Yangtze River: Role of synoptic patterns in historical changes and future projections. Journal of Geophysical Research: Atmospheres, 128: e2023JD039608. doi:10.1029/2023JD039608
  • Jansson, F., Janssens, M., Grönqvist, J., Siebesma, A., Glassmeier, F., Attema, J., Azizi, V., Satoh, M., Sato, Y., Schulz, H. & Kölling, T. (2023). Cloud botany: Shallow cumulus clouds in an ensemble of idealized large-domain large-eddy simulations of the trades. Journal of Advances in Modeling Earth Systems, 15: e2023MS003796. doi:10.1029/2023MS003796 [publisher-version]
  • Jiménez de la Cuesta Otero, D. (2023). The varying earth’s radiative feedback connected to the ocean energy uptake: A theoretical perspective from conceptual frameworks. Journal of Climate, 36, 2367-2385. doi:10.1175/JCLI-D-22-0345.1 [publisher-version]
  • Jungandreas, L., Hohenegger, C. & Claussen, M. (2023). How does the explicit treatment of convection alters the precipitation-soil hydrology interaction in the mid-Holocene African humid period?. Climate of the Past, 19, 637-664. doi:10.5194/cp-19-637-2023 [publisher-version]
  • Keil, P., Schmidt, H., Stevens, B., Byrne, M., Segura, H. & Putrasahan, D. (2023). Tropical tropospheric warming pattern explained by shifts in convective heating in the Matsuno-Gill Model. Quarterly Journal of the Royal Meteorological Society, 149, 2678-2695. doi:10.1002/qj.4526 [publisher-version]
  • Kirsch, B., Hohenegger, C. & Ament, F. (2023). Morphology and growth of convective cold pools observed by a dense station network in Germany. Quarterly Journal of the Royal Meteorological Society: early view. doi:10.1002/qj.4626
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  • Shin, J., Ahn, J., Chowdhry Beeman, J., Lee, H.-G., Seo, J. & Brook, E. (2022). Millennial variations in atmospheric CO2 during the early Holocene (11.7-7.4 ka). Climate of the Past, 18, 2063-2075. doi:10.5194/cp-18-2063-2022 [publisher-version][supplementary-material]
  • Sinnhuber, M., Nesse Tyssøy, H., Asikainen, T., Bender, S., Funke, B., Hendrickx, K., Pettit, J., Reddmann, T., Rozanov, E., Schmidt, H., Smith-Johnsen, C., Sukhodolov, T., Szeląg, M., van de Kamp, M., Verronen, P., Wissing, J. & Yakovchuk, O. (2022). Heppa III intercomparison experiment on electron precipitation impacts: 2. Model-measurement intercomparison of Nitric Oxide (NO) during a geomagnetic storm in April 2010. Journal of Geophysical Research: Space Physics, 127: e2021JA029466. doi:10.1029/2021JA029466 [publisher-version]
  • Slingo, J., Bates, P., Bauer, P., Belcher, S., Palmer, T., Stephens, G., Stevens, B., Stocker, T. & Teutsch, G. (2022). Ambitious partnership needed for reliable climate prediction.. Nature Climate Change, 12, 499-503. doi:10.1038/s41558-022-01384-8 [any-fulltext]
  • Stephan, C., Duras, J., Harris, L., Klocke, D., Putman, W., Taylor, M., Wedi, N., Žagar, N. & Ziemen , F. (2022). Atmospheric energy spectra in global kilometre-scale models. Tellus Series A-Dynamic Meteorology and Oceanography, 74, 280-299. doi:10.16993/tellusa.26 [publisher-version]
  • Stevens, B. (2022). The path to km-scale climate modelling. In Festschrift in honour of Tim Palmer (pp.49-50). ECMWF / University of Oxford.
  • Tilmes, S., Visioni, D., Jones, A., Haywood, J., Seferian, R., Nabat, P., Boucher, O., Bednarz, E. & Niemeier, U. (2022). Stratospheric ozone response to sulfate aerosol and solar dimming climate interventions based on the G6 Geoengineering Model Intercomparison Project (GeoMIP) simulations. Atmospheric Chemistry and Physics, 22, 4557-4579. doi:10.5194/acp-22-4557-2022 [publisher-version]
  • Trumbore, S., Barros, A., Becker, T., Davidson, E., Ehlmann, B., Gruber, N., Hofmann, E., Hudson, M., Illangasekare, T., Kang, S., Montanari, A., Nimmo, F., Parsons, T., Salters, V., Schimel, D., Stevens, B., Wuebbles, D., Zeitler, P. & Zhu, T. (2022). Thank You to Our 2021 peer reviewers. AGU Advances, 3: e2022AV000716.
  • van Dijk, E., Jungclaus, J., Lorenz, S., Timmreck, C. & Krueger, K. (2022). Was there a volcanic-induced long-lasting cooling over the Northern Hemisphere in the mid-6th-7th century?. Climate of the Past, 18, 1601-1623. doi:10.5194/cp-18-1601-2022 [publisher-version]
  • Vogel, A., Alessa, G., Scheele, R., Weber, L., Dubovik, O., North, P. & Fiedler, S. (2022). Uncertainty in aerosol optical depth from modern aerosol-climate models, reanalyses, and satellite products. Journal of Geophysical Research: Atmospheres, 127: e2021JD035483. doi:10.1029/2021JD035483 [publisher-version]
  • Vogel, R., Albright, A., Vial, J., George, G., Stevens, B. & Bony, S. (2022). Strong cloud–circulation coupling explains weak trade cumulus feedback. Nature, 612, 696-700. doi:10.1038/s41586-022-05364-y [publisher-version]
  • Wang, X., Wang, C., Zhao, G., Ding, H. & Yu, M. (2022). Research progress of forest fires spread trend forecasting in Heilongjiang Province. Atmosphere, 13: 2110. doi:10.3390/atmos13122110 [publisher-version]
  • Weisenstein, D., Visioni, D., Franke, H., Niemeier, U., Vattioni, S., Chiodo, G., Peter, T. & Keith, D. (2022). An interactive stratospheric aerosol model intercomparison of solar geoengineering by stratospheric injection of SO2 or accumulation-mode sulfuric acid aerosols. Atmospheric Chemistry and Physics, 22, 2955-2973. doi:10.5194/acp-22-2955-2022 [publisher-version]
  • Xue, H., Giorgetta, M. & Guo, J. (2022). The daytime trapped lee wave pattern and evolution induced by two small-scale mountains of different heights. Quarterly Journal of the Royal Meteorological Society, 148, 1300-1318. doi:10.1002/qj.4262 [publisher-version]
  • Zanchettin, D., Timmreck, C., Khodri, M., Schmidt, A., Toohey, M., Abe, M., Bekki, S., Cole, J., Fang, S.-W., Feng, W., Hegerl, G., Johnson, B., Lebas, N., Legrande, A., Mann, G., Marshall, L., Rieger, L., Robock, A., Rubinetti, S., Tsigaridis, K. & Weierbach, H. (2022). Effects of forcing differences and initial conditions on inter-model agreement in the VolMIP volc-pinatubo-full experiment. Geoscientific Model Development, 15, 2265-2292. doi:10.5194/gmd-15-2265-2022 [publisher-version]
  • Abbott, P., Niemeier, U., Timmreck, C., Riede, F., McConnell, J., Severi, M., Fischer, H., Svensson, A., Toohey, M., Reinig, F. & Sigl, M. (2021). Volcanic climate forcing preceding the inception of the Younger Dryas: Implications for tracing the Laacher See eruption. Quaternary Science Reviews, 274: 107260. doi:10.1016/j.quascirev.2021.107260 [publisher-version]
  • Aemisegger, F., Vogel, R., Graf, P., Dahinden, F., Villiger, L., Jansen, F., Bony, S., Stevens, B. & Wernli, H. (2021). How Rossby wave breaking modulates the water cycle in the North Atlantic trade wind region. Weather and Climate Dynamics, 2, 281-309. doi:10.5194/wcd-2-281-2021 [publisher-version][supplementary-material]
  • Azoulay, A., Schmidt, H. & Timmreck, C. (2021). The Arctic polar vortex response to volcanic forcing of different strengths. Journal of Geophysical Research: Atmospheres, 126: e2020JD034450. doi:10.1029/2020JD034450 [supplementary-material][publisher-version]
  • Ban, N., Caillaud, C., Coppola, E., Pichelli, E., Sobolowski, S., Adinolfi, M., Ahrens, B., Alias, A., Anders, I., Bastin, S., Belušić, D., Berthou, S., Brisson, E., Cardoso, R., Chan, S., Christensen, O., Fernández, J., Fita, L., Frisius, T., Gašparac, G., Giorgi, F., Goergen, K., Haugen, J., Hodnebrog, Ø., Kartsios, S., Katragkou, E., Kendon, E., Keuler, K., Lavin-Gullon, A., Lenderink, G., Leutwyler, D., Lorenz, T., Maraun, D., Mercogliano, P., Milovac, J., Panitz, H.-J., Raffa, M., Remedio, A., Schär, C., Soares, P., Srnec, L., Steensen, B., Stocchi, P., Tölle, M., Truhetz, H., Vergara-Temprado, J., de Vries, H., Warrach-Sagi, K., Wulfmeyer, V. & Zander, M. (2021). The first multi-model ensemble of regional climate simulations at kilometer-scale resolution. Part I: Evaluation of precipitation. Climate Dynamics, 57, 275-302. doi:10.1007/s00382-021-05708-w [publisher-version]
  • Bao , J. & Stevens, B. (2021). The elements of the thermodynamic structure of the tropical atmosphere. Journal of the Meteorological Society of Japan, 99, 1483-1499. doi:10.2151/jmsj.2021-072 [publisher-version]
  • Bao , J., Stevens, B., Kluft, L. & Jiménez de la Cuesta, D. (2021). Changes in the tropical lapse rate due to entrainment and their impact on climate sensitivity. Geophysical Research Letters, 48: e2021GL094969. doi:10.1029/2021GL094969 [supplementary-material][publisher-version]
  • Bao , J. & Windmiller, J. (2021). Impact of microphysics on tropical precipitation extremes in a global storm-resolving model. Geophysical Research Letters, 48: e2021GL094206. doi:10.1029/2021GL094206 [publisher-version][supplementary-material]
  • Bauer, P., Stevens, B. & Hazeleger, W. (2021). A digital twin of Earth for the green transition. Nature Climate Change, 11, 80-83. doi:10.1038/s41558-021-00986-y
  • Becker, T. & Hohenegger, C. (2021). Entrainment and its dependency on environmental conditions and convective organization in convection-permitting simulations. Monthly Weather Review, 121, 537-550 . doi:10.1175/MWR-D-20-0229.1 [supplementary-material][publisher-version]
  • Bock, O., Bosser, P., Flamant, C., Doerflinger, E., Jansen, F., Fages, R., Bony, S. & Schnitt, S. (2021). Integrated water vapour observations in the caribbean arc from a network of ground-based gnss receivers during eurec4a. Earth System Science Data, 13, 2407-2436. doi:10.5194/essd-13-2407-2021 [publisher-version][supplementary-material]
  • Bourdin, S., Kluft, L. & Stevens, B. (2021). Dependence of climate sensitivity on the given distribution of relative humidity. Geophysical Research Letters, 48: e2021GL092462. doi:10.1029/2021GL092462 [publisher-version]
  • Brenna, H., Kutterolf, S., Mills, M., Niemeier, U., Timmreck, C. & Krüger, K. (2021). Decadal disruption of the QBO by tropical volcanic supereruptions. Geophysical Research Letters, 48: e2020GL089687. doi:10.1029/2020GL089687 [publisher-version]
  • Clyne, M., Lamarque, J.-F., Mills, M., Khodri, M., Ball, W., Bekki, S., Dhomse, S., Lebas, N., Mann, G., Marshall, L., Niemeier, U., Poulain, V., Robock, A., Rozanov, E., Schmidt, A., Stenke, A., Sukhodolov, T., Timmreck, C., Toohey, M., Tummon, F., Zanchettin, D., Zhu, Y. & Toon, O. (2021). Model physics and chemistry causing intermodel disagreement within the VolMIP-Tambora Interactive Stratospheric Aerosol ensemble. Atmospheric Chemistry and Physics, 31, 3317-3343. doi:10.5194/acp-21-3317-2021 [publisher-version][supplementary-material]
  • Datseris, G. & Stevens, B. (2021). Earth’s albedo and its symmetry. AGU Advances, 2: e2021AV000440. doi:10.1029/2021AV000440 [publisher-version]
  • Dion, I.-A., Dallet, C., Ricaud, P., Carminati, F., Dauhut, T. & Haynes, P. (2021). Ice injected into the tropopause by deep convection - Part 2: Over the Maritime Continent. Atmospheric Chemistry and Physics, 21, 2191-2210. doi:10.5194/acp-21-2191-2021 [publisher-version]
  • Fang, S.-W., Khodri, M., Timmreck, C., Zanchettin, D. & Jungclaus, J. (2021). Disentangling internal and external contributions to Atlantic multidecadal variabilityover the past millennium. Geophysical Research Letters, 48: e2021GL095990. doi:10.1029/2021GL095990 [publisher-version]
  • Franke, H., Niemeier, U. & Visioni, D. (2021). Differences in the QBO response to stratospheric aerosol modification depending on injection strategy and species. Atmospheric Chemistry and Physics, 21, 8615-8635. doi:10.5194/acp-21-8615-2021 [supplementary-material][publisher-version][supplementary-material]
  • George , G., Stevens, B., Bony, S., Klingebiel, M. & Vogel, R. (2021). Observed impact of meso-scale vertical motion on cloudiness. Journal of the Atmospheric Sciences, 78, 2413-2427. doi:10.1175/JAS-D-20-0335.1 [publisher-version]
  • George, G. (2021). Observations of meso-scale circulation and its relationship with cloudiness in the Tropics. Phd Thesis, Hamburg: Universität Hamburg. Berichte zur Erdsystemforschung, 246. doi:10.17617/2.3340355 [publisher-version]
  • George, G., Stevens, B., Bony, S., Pincus, R., Fairall, C., Schulz, H., Kölling, T., Kalen, Q., Klingebiel, M., Konow, H., Lundry, A., Prange, M. & Radtke, J. (2021). JOANNE: Joint dropsonde Observations of the Atmosphere in tropical North atlaNtic mesoscale Environments. Earth System Science Data, 13, 5253-5272. doi:10.5194/essd-13-5253-2021 [publisher-version]
  • Hirsch, L. & Stevens, B. (2021). EUREC4A - ein Feldexperiment. Jahrbuch / Max-Planck-Gesellschaft, 2021. [publisher-version]
  • Jones, C., Hickman, J., Rumbold, S., Walton, J., Lamboll, R., Skeie, R., Fiedler, S., Forster, P., Rogelj, J., Abe, M., Botzet, M., Calvin, K., Cassou, C., Cole, J., Davini, P., Deushi, M., Dix, M., Fyfe, J., Gillett, N., Ilyina, T., Kawamiya, M., Kelley, M., Kharin, S., Koshiro, T., Li, H., Mackallah, C., Müller, W., Nabat, P., van Noije, T., Nolan, P., Ohgaito, R., Olivié, D., Oshima, N., Parodi, J., Reerink, T., Ren, L., Romanou, A., Séférian, R., Tang, Y., Timmreck, C., Tjiputra, J., Tourigny, E., Tsigaridis, K., Wang, H., Wu, M., Wyser, K., Yang, S., Yang, Y. & Ziehn, T. (2021). The climate response to emissions reductions due to COVID-19: Initial results from CovidMIP. Geophysical Research Letters, 48: e2020GL091883. doi:10.1029/2020GL091883 [publisher-version]
  • Judt, F., Klocke, D., Rios-Berrios, R., Vanniere, B., Ziemen, F., Auger, L., Biercamp, J., Bretherton, C., Chen, X., Düben, P., Hohenegger, C., Khairoutdinov, M., Kodama, C., Kornblueh, L., Lin, S.-J., Nakano, M., Neumann, P., Putman, W., Röber, N., Roberts, M., Satoh, M., Shibuya, R., Stevens, B., Vidale, P., Wedi, N. & Zhou, L. (2021). Tropical cyclones in global storm-resolving models. Journal of the Meteorological Society of Japan, 99, 579-602. doi:10.2151/jmsj.2021-029 [publisher-version]
  • Jung, H., Naumann, A. & Stevens, B. (2021). Convective self-aggregation in a mean flow. Atmospheric Chemistry and Physics, 21, 10337-10345. doi:10.5194/acp-21-10337-2021 [publisher-version]
  • Jungandreas, L., Hohenegger, C. & Claussen, M. (2021). Influence of the representation of convection on the mid-Holocene West African Monsoon. Climate of the Past, 17, 1665-1684. doi:10.5194/cp-17-1665-2021 [supplementary-material][publisher-version]
  • Karpechko, A., Tyrrell, N. & Rast, S. (2021). Sensitivity of QBO teleconnection to model circulation biases. Quarterly Journal of the Royal Meteorological Society, 147, 2147-2159. doi:10.1002/qj.4014
  • Keil, P., Schmidt, H., Stevens, B. & Bao , J. (2021). Variations of tropical lapse rates in climate models and their implications for upper tropospheric warming. Journal of Climate, 34, 9747-9761. doi:10.1175/JCLI-D-21-0196.1 [publisher-version]
  • Khabbazan, M., Stankoweit, M., Roshan, E., Schmidt, H. & Held, H. (2021). How can solar geoengineering and mitigation be combined under climate targets?. Earth System Dynamics, 12, 1529-1542. doi:10.5194/esd-12-1529-2021 [publisher-version]
  • Kim, S.-M., Koo, J.-H., Lee, H., Mok, J., Choi, M., Go, S., Lee, S., Cho, Y., Hong, J., Seo, S., Lee, J., Hong, J.-W. & Kim, J. (2021). Comparison of pm2.5 in Seoul, Korea estimated from the various ground-based and satellite aod. Applied Sciences (Switzerland), 11. doi:10.3390/app112210755 [publisher-version]
  • Kirsch, B., Ament, F. & Hohenegger, C. (2021). Convective cold pools in long-term boundary layer mast observations. Monthly Weather Review, 149, 811-820. doi:10.1175/MWR-D-20-0197.1 [publisher-version]
  • Klingebiel, M., Konow, H. & Stevens, B. (2021). Measuring shallow convective mass flux profiles in the trade wind region. Journal of the Atmospheric Sciences, 78, 3205-3214. doi:10.1175/JAS-D-20-0347.1 [publisher-version]
  • Kluft, L., Dacie, S., Brath, M., Buehler, S. & Stevens, B. (2021). Temperature-dependence of the clear-sky feedback in radiative-convective equilibrium. Geophysical Research Letters, 48: e2021GL094649. doi:10.1029/2021GL094649 [publisher-version]
  • Knapp, M., Kleinschek, R., Hase, F., Agustí-Panareda, A., Inness, A., Barré, J., Landgraf, J., Borsdorff, T., Kinne, S. & Butz, A. (2021). Shipborne measurements of XCO2, XCH4, and XCO above the Pacific Ocean and comparison to CAMS atmospheric analyses and S5P/TROPOMI. Earth System Science Data, 13, 199-211. doi:10.5194/essd-13-199-2021 [publisher-version]
  • Knizhnik, K., Leake, J., Linton, M. & Dacie, S. (2021). The rise and emergence of untwisted toroidal flux ropes on the sun. Astrophysical Journal, 907: 19. doi:10.3847/1538-4357/abccc0 [publisher-version]
  • Konow, H., Ewald, F., George, G., Jacob, M., Klingebiel, M., Kölling, T., Luebke, A., Mieslinger, T., Pörtge, V., Radtke, J., Schäfer, M., Schulz, H., Vogel, R., Wirth, M., Bony, S., Crewell, S., Ehrlich, A., Forster, L., Giez, A., Gödde, F., Groß, S., Gutleben, M., Hagen, M., Hirsch, L., Jansen, F., Lang, T., Mayer, B., Mech, M., Prange, M., Schnitt, S., Vial, J., Walbröl, A., Wendisch, M., Wolf, K., Zinner, T., Zöger, M., Ament , F. & Stevens, B. (2021). EUREC4A's HALO. Earth System Science Data, 13, 5545-5563. doi:10.5194/essd-13-5545-2021 [publisher-version][supplementary-material]
  • Kraemer, K., Datseris, G., Kurths, J., Kiss, I., Ocampo-Espindola, J. & Marwan, N. (2021). A unified and automated approach to attractor reconstruction. New Journal of Physics, 23: 033017. doi:10.1088/1367-2630/abe336 [publisher-version]
  • Kravitz, B., MacMartin, D., Visioni, D., Boucher, O., Cole, J., Haywood, J., Jones, A., Lurton, T., Nabat, P., Niemeier, U., Robock, A., Séférian, R. & Tilmes, S. (2021). Comparing different generations of idealized solar geoengineering simulations in the Geoengineering Model Intercomparison Project (GeoMIP). Atmospheric Chemistry and Physics, 21, 4231-4247. doi:10.5194/acp-21-4231-2021 [publisher-version]
  • Kroll , C., Dacie, S., Azoulay, A., Schmidt, H. & Timmreck, C. (2021). The impact of volcanic eruptions of different magnitude on stratospheric water vapour in the tropics. Atmospheric Chemistry and Physics, 21, 6565-6591. doi:10.5194/acp-21-6565-2021 [supplementary-material][publisher-version]
  • Lang, T., Naumann, A., Stevens, B. & Buehler, S. (2021). Tropical free-tropospheric humidity differences and their effect on the clear-sky radiation budget in global strom-resolving models. Journal of Advances in Modeling Earth Systems, 13: e2021MS002514. doi:10.1029/2021MS002514 [publisher-version]
  • Leutwyler, D., Imamovic, A. & Schär, C. (2021). The continental-scale soil-moisture precipitation feedback in Europe with parameterized and explicit convection. Journal of Climate, 34, 5303-5320. doi:10.1175/JCLI-D-20-0415.1 [supplementary-material][publisher-version]
  • Leutwyler, D. & Hohenegger, C. (2021). Weak cooling of the troposphere by tropical islands in simulations of the radiative-convective equilibrium. Quarterly Journal of the Royal Meteorological Society, 147, 1788-1800. doi:10.1002/qj.3995 [supplementary-material][publisher-version]
  • Li, C., Brasseur, G., Schmidt, H. & Mellado, J. (2021). Error induced by neglecting subgrid chemical segregation due to inefficient turbulent mixing in regional chemical-transport models in urban environments. Atmospheric Chemistry and Physics, 21, 483-503. doi:10.5194/acp-21-483-2021 [supplementary-material][publisher-version]
  • Malinina, E., Rozanov, A., Niemeier, U., Peglow, S., Arosio, C., Wrana, F., Timmreck, C., von Savigny, C. & Burrows, J. (2021). Changes in stratospheric aerosol extinction coefficient after the 2018 Ambae eruption as seen by OMPS-LP and ECHAM5-HAM. Atmospheric Chemistry and Physics, 21, 14871-14891. doi:10.5194/acp-21-14871-2021 [publisher-version][supplementary-material]
  • Mieslinger, T. (2021). Small and optically thin clouds in the trades. Phd Thesis, Hamburg: Universität Hamburg. Berichte zur Erdsystemforschung, 249. doi:10.17617/2.3357892 [publisher-version]
  • Moon, S., Baik, J.-J. & Seo, J. (2021). Chaos synchronization in generalized Lorenz systems and an application to image encryption. Communications in Nonlinear Science and Numerical Simulation, 96: 105708. doi:10.1016/j.cnsns.2021.105708 [publisher-version]
  • Moon, S., Baik, J.-J., Seo, J. & Han, B.-S. (2021). Effects of density affecting scalar on the onset of chaos in a simplified model of thermal convection: a nonlinear dynamical perspective. The European Physical Journal Plus, 136: 92. doi:10.1140/epjp/s13360-020-01047-7
  • Niemeier, U., Riede, F. & Timmreck, C. (2021). Simulation of ash clouds after a Laacher See-type eruption. Climate of the Past, 17, 633-652. doi:10.5194/cp-17-633-2021 [publisher-version][supplementary-material]
  • Paccini, L., Hohenegger, C. & Stevens, B. (2021). Explicit versus parameterized convection in response to the Atlantic Meridional Mode. Journal of Climate, 34, 3343-3354. doi:10.1175/JCLI-D-20-0224.1 [supplementary-material][publisher-version]
  • Park, J., Moon, S., Seo, J. & Baik, J.-J. (2021). Systematic comparison between the generalized Lorenz equations and DNS in the two-dimensional Rayleigh–Bénard convection. Chaos, 31: 073119. doi:10.1063/5.0051482 [publisher-version]
  • Quinn, P., Thompson, E., Coffman, D., Baidar, S., Bariteau, L., Bates, T., Bigorre, S., Brewer, A., de Boer, G., de Szoeke, S., Drushka, K., Foltz, G., Intrieri, J., Iyer, S., Fairall, C., Gaston, C., Jansen, F., Johnson, J., Krüger, O., Marchbanks, R., Moran, K., Noone, D., Pezoa, S., Pincus, R., Plueddemann, A., Pöhlker, M., Pöschl, U., Melendez, E., Royer, H., Szczodrak, M., Thomson, J., Upchurch, L., Zhang, C., Zhang, D. & Zuidema, P. (2021). Measurements from the RV Ronald H. Brown and related platforms as part of the Atlantic Tradewind Ocean-Atmosphere Mesoscale Interaction Campaign (ATOMIC). Earth System Science Data, 13, 1759-1790. doi:10.5194/essd-13-1759-2021 [publisher-version]
  • Radtke, J., Mauritsen, T. & Hohenegger, C. (2021). Shallow cumulus cloud feedback in large eddy simulations - Bridging the gap to storm resolving models. Atmospheric Chemistry and Physics, 21, 3278-3288. doi:10.5194/acp-21-3275-2021 [publisher-version]
  • Ricchi, A., Bonaldo, D., Cioni, G., Carniel, S. & Miglietta, M. (2021). Simulation of a flash-flood event over the Adriatic Sea with a high-resolution atmosphere–ocean–wave coupled system. Scientific Reports, 11: 9388. doi:10.1038/s41598-021-88476-1 [publisher-version]
  • Röber, N., Böttinger, M. & Stevens, B. (2021). Visualization of climate science simulation data. IEEE Computer Graphics and Applications, 41, 42-48: 9325132. doi:10.1109/MCG.2020.3043987 [publisher-version]
  • Rochetin, N., Hohenegger, C., Touzé-Peiffer, L. & Villefranque, N. (2021). A physically based definition of convectively generated density currents: detection and characterization in convection-permitting simulations. Journal of Advances in Modeling Earth Systems, 13: e2020MS002402. doi:10.1029/2020MS002402 [publisher-version]
  • Roh, W., Satoh, M. & Hohenegger, C. (2021). Intercomparison of cloud properties in DYAMOND simulations over the Atlantic Ocean. Journal of the Meteorological Society of Japan, 99, 1439-1451. doi:10.2151/jmsj.2021-070 [publisher-version]
  • Schulz, H. (2021). Meso-scale patterns of shallow convection in the trades. Phd Thesis, Hamburg: Universität Hamburg. Berichte zur Erdsystemforschung, 248. doi:10.17617/2.3357904 [publisher-version]
  • Schulz, H., Eastman, R. & Stevens, B. (2021). Characterization and evolution of organized shallow convection in the downstream North Atlantic trades. Journal of Geophysical Research: Atmospheres, 126: e2021JD034575. doi:10.1029/2021JD034575 [publisher-version]
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  • Sakradzija, M., Senf, F., Scheck, L., Ahlgrimm, M. & Klocke, D. (2020). Local impact of stochastic shallow convection on clouds and precipitation in the tropical Atlantic. Monthly Weather Review, 148, 5041-5062. doi:10.1175/MWR-D-20-0107.1 [supplementary-material][publisher-version]
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  • Schemann, V., Ebell, K., Pospichal, B., Neggers, R., Moseley, C. & Stevens, B. (2020). Linking Large-Eddy Simulations to local cloud observations. Journal of Advances in Modeling Earth Systems, 12: e2020MS002209. doi:10.1029/2020MS002209 [publisher-version]
  • Schröder, T. (2020). Riskante Kühlung. MaxPlanckForschung, 3/20, 70-77. [publisher-version]
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  • Siebesma, A., Bony, S., Jakob, C. & Stevens, B. (Eds.). (2020). Clouds and climate: Climate science's greatest challenge. Cambridge: Cambridge University Press.
  • Stephan, C. (2020). Why and how do clouds form in particular locations?. Latest Thinking. doi:10.21036/LTPUB10825
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  • Stephan, C. (2020). Seasonal modulation of trapped gravity and their imprints on trade wind clouds. Journal of the Atmospheric Sciences, 77, 2993-3009. doi:10.1175/JAS-D-19-0325.1 [publisher-version]
  • Stephan, C., Schmidt, H., Zülicke, C. & Matthias, V. (2020). Oblique gravity wave propagation during sudden stratospheric warmings. Journal of Geophysical Research: Atmospheres, 125: e2019JD031528. doi:10.1029/2019JD031528 [supplementary-material][publisher-version]
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  • Stevens, B. (2020). How cloudy is the earth?. Latest Thinking. doi:10.21036/LTPUB10822
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  • Trumbore, S., Barros, A., Davidson, E., Ehlmann, B., Famiglietti, J., Gruber, N., Hudson, M., Illangasekare, T., Kang, S., Parsons, T., Rizzoli, P., Salters, V., Stevens, B., Wuebbles, D., Zeitler, P. & Zhu, T. (2020). AGU Advances goes online. AGU Advances, 1: e2019AV000105. doi:10.1029/2019AV000105
  • Tyrrell, N., Karpechko, A. & Rast, S. (2020). Siberian snow forcing in a dynamically bias-corrected model. Journal of Climate, 33, 10455-10467. doi:10.1175/JCLI-D-19-0966.1 [publisher-version][supplementary-material]
  • Vogel, R., Nuijens, L. & Stevens, B. (2020). Influence of deepening and mesoscale organization of shallow convection on stratiform cloudiness in the downstream trades. Quarterly Journal of the Royal Meteorological Society, 146, 174-185. doi:10.1002/qj.3664 [publisher-version]
  • Vogel, R., Bony, S. & Stevens, B. (2020). Estimating the shallow convective mass flux from the subcloud-layer mass budget. Journal of the Atmospheric Sciences, 77, 1559-1574. doi:10.1175/JAS-D-19-0135.1 [publisher-version]
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  • Akinlabi, E., Wacławczyk, M., Malinowski, S. & Mellado, J.-P. (2019). Fractal reconstruction of sub-grid scales for Large Eddy Simulation. Flow, Turbulence and Combustion, 103, 293-322. doi:10.1007/s10494-019-00030-2 [publisher-version]
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  • Bony, S. & Stevens, B. (2019). Measuring area-averaged vertical motions with dropsondes. Journal of the Atmospheric Sciences, 76, 767-783. doi:10.1175/JAS-D-18-0141.1 [publisher-version]
  • Borchert, S., Zhou, G., Baldauf, M., Schmidt, H., Zängl, G. & Reinert, D. (2019). The upper-atmosphere extension of the ICON general circulation model (version: Ua-icon-1.0). Geoscientific Model Development, 12, 3541-3569. doi:10.5194/gmd-12-3541-2019 [publisher-version][supplementary-material]
  • Dacie, S., Kluft, L., Schmidt, H., Stevens, B., Buehler, S., Nowack, P., Dietmüller, S., Abraham, L. & Birner, T. (2019). A 1D RCE study of some factors which might affect the tropical tropopause layer and surface climate. Journal of Climate, 32, 6769-6782. doi:10.1175/JCLI-D-18-0778.1 [publisher-version]
  • Ewald, F., Groß, S., Hagen, M., Hirsch, L., Delanoë, J. & Bauer-Pfundstein, M. (2019). Calibration of a 35 GHz airborne cloud radar: Lessons learned and intercomparisons with 94 GHz cloud radars. Atmospheric Measurement Techniques, 12, 1815-1839. doi:10.5194/amt-12-1815-2019 [publisher-version]
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  • Fiedler, S., Stevens, B., Gidden, M., Smith, S., Riahi, K. & van Vuuren, D. (2019). First forcing estimates from the future CMIP6 scenarios of anthropogenic aerosol optical properties and an associated Twomey effect. Geoscientific Model Development, 12, 989-1007. doi:10.5194/gmd-12-989-2019 [publisher-version][supplementary-material]
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  • Haufschild, T. (2019). Stratospheric controls on northern hemisphere storm tracks. Phd Thesis, Hamburg: Universität Hamburg. Berichte zur Erdsystemforschung, 216. doi:10.17617/2.3065565 [publisher-version]
  • Heale, C., Snively, J., Bhatt, A., Hoffmann, L., Stephan, C. & Kendall, E. (2019). Multilayer observations and modeling of thunderstorm-generated gravity waves over the Midwestern United States. Geophysical Research Letters, 46, 14164-14174. doi:10.1029/2019GL085934 [publisher-version]
  • Hodnebrog, O., Myhre, G., Samset, B., Alterskjær, K., Andrews, T., Boucher, O., Faluvegi, G., Fläschner, D., M Forster, P., Kasoar, M., Kirkeväg, A., Lamarque, J., Olivié, D., B Richardson, T., Shawki, D., Shindell, D., P Shine, K., Stier, P., Takemura, T., Voulgarakis, A. & Watson-Parris, D. (2019). Water vapour adjustments and responses differ between climate drivers. Atmospheric Chemistry and Physics, 19, 12887-12899. doi:10.5194/acp-19-12887-2019 [publisher-version][supplementary-material]
  • Jiménez de la Cuesta, D. & Mauritsen, T. (2019). Emergent constraints on Earth's transient and equilibrium response to doubled CO2 by post-1970s global warming. Nature Geoscience, 12, 902-905. doi:10.1038/s41561-019-0463-y [supplementary-material]
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  • Klingebiel, M., Ghate, V., Naumann, A., Ditas, F., Pöhlker, M., Pöhlker, C., Kandler, K., Konow, H. & Stevens, B. (2019). Remote sensing of sea salt aerosol below trade wind clouds. Journal of the Atmospheric Sciences, 76, 1189-1202. doi:10.1175/JAS-D-18-0139.1 [publisher-version]
  • Kluft, L., Dacie, S., Buehler, S., Schmidt, H. & Stevens, B. (2019). Re-examining the first climate models: Climate sensitivity of a modern radiative-convective equilibrium model. Journal of Climate, 32, 8111-8125. doi:10.1175/JCLI-D-18-0774.1 [publisher-version]
  • Kodama, C., Stevens, B., Mauritsen , T., Seiki, T. & Satoh, M. (2019). A new perspective for future precipitation change from intense extratropical cyclones. Geophysical Research Letters, 46, 12435-12444. doi:10.1029/2019GL084001 [publisher-version]
  • Konow, H., Jacob, M., Ament, F., Crewell, S., Ewald, F., Hagen, M., Hirsch, L., Jansen, F., Mech, M. & Stevens, B. (2019). A unified data set of airborne cloud remote sensing using the HALO Microwave Package (HAMP). Earth System Science Data, 11, 921-934. doi:10.5194/essd-11-921-2019 [publisher-version]
  • Lammert, A., Hansen, A., Ament, F., Crewell, S., Dick, G., Grützun, V., Klein-Baltink, H., Lehmann, V., Macke, A., Pospichal, B., Schubotz, W., Seifert, P., Stamnas, E. & Stevens, B. (2019). A Standardized Atmospheric Measurement Data (SAMD) Archive for distributed cloud and precipitation process-oriented observations in Central Europe. Bulletin of the American Meteorological Society, 100, 1299-1314. doi:10.1175/BAMS-D-18-0174.1 [publisher-version]
  • Maher, N., Milinski, S., Suarez-Gutierrez, L., Botzet, M., Kornblueh, L., Takano, Y., Kröger, J., Ghosh, R., Hedemann, C., Li, C., Li, H., Manzini, E., Notz, D., Putrasahan, D., Boysen, L., Claussen, M., Ilyina, T., Olonscheck, D., Raddatz, T., Stevens, B. & Marotzke, J. (2019). The Max Planck Institute Grand Ensemble - Enabling the Exploration of Climate System Variability. Journal of Advances in Modeling Earth Systems, 11, 2050-2069. doi:10.1029/2019MS001639 [publisher-version][supplementary-material]
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  • McCoy, D., Field, P., Elsaesser, G., Bodas-Salcedo, A., Kahn, B., Zelinka, M., Kodama, C., Mauritsen, T., Vanniere, B., Roberts, M., Vidale, P., Saint-Martin, D., Voldoire, A., Haarsma, R., Hill, A., Shipway, B. & Wilkinson, J. (2019). Cloud feedbacks in extratropical cyclones: insight from long-term satellite data and high-resolution global simulations. Atmospheric Chemistry and Physics, 19, 1147-1172. doi:10.5194/acp-19-1147-2019 [publisher-version][supplementary-material]
  • Mieslinger, T., Horváth, Á., Buehler, S. & Sakradzija, M. (2019). The dependence of shallow cumulus macrophysical properties on large-scale meteorology as observed in ASTER imagery. Journal of Geophysical Research: Atmospheres. doi:10.1029/2019JD030768 [publisher-version]
  • Misios, S., Gray, L., Knudsen, M., Karoff, C., Schmidt, H. & Haigh, J. (2019). Slowdown of the Walker circulation at solar cycle maximum. Proceedings of the National Academy of Sciences, 116, 7186-7191. doi:10.1073/pnas.1815060116 [publisher-version]
  • Moseley, C., Henneberg, O. & Haerter , J. (2019). A statistical model for isolated convective precipitation events. Journal of Advances in Modeling Earth Systems, 11, 360-375. doi:10.1029/2018MS001383 [publisher-version][supplementary-material]
  • Müller, S. (2019). Convectively generated gravity waves and convective aggregation in numerical models of tropical dynamics. Phd Thesis, Hamburg: Universität Hamburg. Berichte zur Erdsystemforschung, 214. doi:10.17617/2.3025587 [publisher-version]
  • Naumann, A., Stevens, B. & Hohenegger, C. (2019). A moist conceptual model for the boundary layer structure and radiatively driven shallow circulations in the trades. Journal of the Atmospheric Sciences, 76, 1289-1306. doi:10.1175/JAS-D-18-0226.1 [supplementary-material][publisher-version]
  • Neumann, P., Dueben, P., Adamidis, P., Bauer, P., Brueck, M., Kornblueh, L., Klocke, D., Stevens, B., Wedi, N. & Biercamp, J. (2019). Assessing the scales in numerical weather and climate predictions: Will Exascale be the rescue?. Philosophical Transactions of the Royal Society A, 377: 201848. doi:10.1098/rsta.2018.0148 [publisher-version]
  • Niemeier, U., Timmreck, C. & Krüger , K. (2019). Revisiting the Agung 1963 volcanic forcing: Impact of one or two eruptions. Atmospheric Chemistry and Physics, 19, 10379-10390. doi:10.5194/acp-19-10379-2019 [publisher-version][supplementary-material]
  • Palmer, T. & Stevens, B. (2019). The scientific challenge of understanding and estimating climate change. Proceedings of the National Academy of Sciences of the United States of America, 116, 24390-24395. doi:10.1073/pnas.1906691116 [publisher-version]
  • Peña-Ortiz, C., Manzini, E. & Giorgetta, M. (2019). Tropical deep convection impact on southern winter stationary waves and its modulation by the Quasi-Biennial Oscillation. Journal of Climate, 32, 7453-7467. doi:10.1175/JCLI-D-18-0763.1 [publisher-version]
  • Peters, K., Hohenegger, C. & Klocke, D. (2019). Different representation of mesoscale convective systems in convection-permitting and convection-parameterizing NWP models and its implications for large-scale forecast evolution. Atmosphere, 10: 503. doi:10.3390/atmos10090503 [publisher-version]
  • Pfrommer, T., Goeschl, T., Proelss, A., Carrier, M., Lenhard, J., Martin, H., Niemeier, U. & Schmidt, H. (2019). Establishing causation in climate litigation: admissibility and reliability. Climatic Change, 152, 67-84. doi:10.1007/s10584-018-2362-4
  • Pscheidt, I., Senf, F., Heinze, R., Deneke, H., Trömel, S. & Hohenegger, C. (2019). How organized is deep convection over Germany?. Quarterly Journal of the Royal Meteorological Society, 145, 2366-2384. doi:10.1002/qj.3552 [publisher-version]
  • Reichstein, M., Camps-Valls, G., Stevens, B., Jung, M., Denzler, J., Carvalhais, N. & Prabhat, . (2019). Deep learning and process understanding for data-driven Earth system science. Nature, 566, 195-204. doi:10.1038/s41586-019-0912-1
  • Retsch, M., Mauritsen, T. & Hohenegger, C. (2019). Climate change feedbacks in aquaplanet experiments with explicit and parametrized convection for horizontal resolutions of 2,525 up to 5 km. Journal of Advances in Modeling Earth Systems, 11, 2070-2088. doi:10.1029/2019MS001677 [publisher-version]
  • Ricchi, A., Miglietta, M., Bonaldo, D., Cioni, G., Rizza, U. & Carniel, S. (2019). Multi-physics ensemble versus atmosphere-ocean coupled model simulations for a tropical-like cyclone in the Mediterranean Sea. Atmosphere, 10: 202. doi:10.3390/atmos10040202 [publisher-version]
  • Richardson, T., Forster, P., Smith, C., Maycock, A., Wood, T., Andrews, T., Boucher, O., Faluvegi, G., Fläschner, D., Hodnebrog, O., Kasoar, M., Kirkevag, A., Larnarque, J., Muelmenstaedt, J., Myhre, G., Olivie, D., Portmann, R., Samset, B., Shawki, D., Shindell, D., Stier, P., Takemura, T., Voulgarakis, A. & Watson-Parris, D. (2019). Efficacy of climate forcings in PDRMIP models. Journal of Geophysical Research: Atmospheres, 124, 12824-12844. doi:10.1029/2019JD030581 [publisher-version]
  • Rohrschneider, T., Stevens, B. & Mauritsen, T. (2019). On simple representations of the climate response to external radiative forcing. Climate Dynamics, 53, 3131-3145. doi:10.1007/s00382-019-04686-4 [publisher-version]
  • Ruppert, J. & Klocke, D. (2019). The two diurnal modes of tropical upward motion. Geophysical Research Letters, 46, 2911-2921. doi:10.1029/2018GL081806 [supplementary-material][publisher-version][supplementary-material][supplementary-material]
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  • Medeiros, B., Nuijens, L., Antoniazzi, C. & Stevens, B. (2010). Low-latitude boundary layer clouds as seen by CALIPSO. Journal of Geophysical Research - Atmospheres, 115: D23207. doi:10.1029/2010JD014437 [publisher-version]
  • Meier, C. (2010). Wettkampf mit Wind und Wolken. MaxPlanckForschung, 4/10, 80-87. [publisher-version]
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  • Mellado, J.-P., Stevens, B., Schmidt, H. & Peters, N. (2010). Investigation of latent heat effects at the stratocumulus top using direct numerical simulations. In Oberwolfach Report, 7 (34), 2010 (pp.2061-2063). Mathematisches Forschungsinstitut Oberwolfach. [publisher-version]
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  • Peña-Ortiz, C., Schmidt, H., Giorgetta, M. & Keller, M. (2010). QBO modulation of the semiannual oscillation in MAECHAM5 and HAMMONIA. Journal of Geophysical Research - Atmospheres, 115: D21106. doi:10.1029/2010JD013898 [publisher-version]
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  • Quaas, J., Stevens, B., Stier, P. & Lohmann, U. (2010). Interpreting the cloud cover - aerosol optical depth relationship found in satellite data using the general circulation model. Atmospheric Chemistry and Physics, 10, 6129-6135. doi:10.5194/acp-10-6129-2010 [publisher-version]
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  • Schmidt, H., Brasseur, G. & Giorgetta, M. (2010). Solar cycle signal in a general circulation and chemistry model with internally generated quasi-biennial oscillation. Journal of Geophysical Research: Atmospheres, 115: D00I14. doi:10.1029/2009JD012542 [publisher-version]
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  • Seifert, A. & Stevens, B. (2010). Microphysical scaling relations in a kinematic model of isolated shallow cumulus clouds. Journal of the Atmospheric Sciences, 67, 1575-1590. doi:10.1175/2009JAS3319.1 [publisher-version]
  • Seifert, A., Nuijens, L. & Stevens, B. (2010). Turbulence effects on warm-rain autoconversion in precipitating shallow convection. Quarterly Journal of the Royal Meteorological Society, 136, 1753-1762. doi:10.1002/qj.684
  • Seiffert, R. & von Storch, J.-S. (2010). A stochastic analysis of the impact of small-scale fluctuations on the tropospheric temperature response to CO2 doubling. Journal of Climate, 23, 2307-2319. doi:10.1175/2009JCLI3043.1 [publisher-version]
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  • Stevens, B. (2010). Cloud-top entrainment instability. Journal of Fluid Mechanics, 660, 1-4. doi:10.1017/S0022112010003575
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  • Zhang, K., Wan, H., Wang, B., Zhang, M., Feichter, J. & Liu, X. (2010). Tropospheric aerosol size distributions simulated by three online global aerosol models using the M7 microphysics module. Atmospheric Chemistry and Physics, 10, 6409-6434. doi:10.5194/acp-10-6409-2010 [publisher-version]
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Tel.: +49 (0)40 41173-421
bjorn.stevens@we dont want spammpimet.mpg.de


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Fax: +49 (0)40 41173-430
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