Articles | Volume 25, issue 20
https://doi.org/10.5194/acp-25-12955-2025
https://doi.org/10.5194/acp-25-12955-2025
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20 Oct 2025
Research article | Highlight paper |  | 20 Oct 2025

MOSAiC studies of long-lasting mixed-phase cloud events and analysis of the liquid-phase properties of Arctic clouds

Cristofer Jimenez, Albert Ansmann, Kevin Ohneiser, Hannes Griesche, Ronny Engelmann, Martin Radenz, Julian Hofer, Dietrich Althausen, Daniel A. Knopf, Sandro Dahlke, Johannes Bühl, Holger Baars, Patric Seifert, and Ulla Wandinger

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Cited articles

Achtert, P., O'Connor, E. J., Brooks, I. M., Sotiropoulou, G., Shupe, M. D., Pospichal, B., Brooks, B. J., and Tjernström, M.: Properties of Arctic liquid and mixed-phase clouds from shipborne Cloudnet observations during ACSE 2014, Atmos. Chem. Phys., 20, 14983–15002, https://doi.org/10.5194/acp-20-14983-2020, 2020. a, b, c
Alpert, P. A. and Knopf, D. A.: Analysis of isothermal and cooling-rate-dependent immersion freezing by a unifying stochastic ice nucleation model, Atmos. Chem. Phys., 16, 2083–2107, https://doi.org/10.5194/acp-16-2083-2016, 2016. a
Ansmann, A., Wandinger, U., Riebesell, M. A., Weitkamp, C., and Michaelis, W.: Independent measurement of extinction and backscatter profiles in cirrus clouds by using a combined Raman elastic-backscatter lidar, Appl. Opt., 31, 7113–7131, https://doi.org/10.1364/AO.31.007113, 1992. a
Ansmann, A., Tesche, M., Althausen, D., Müller, D., Seifert, P., Freudenthaler, V., Heese, B., Wiegner, M., Pisani, G., Knippertz, P., and Dubovik, O.: Influence of Saharan dust on cloud glaciation in southern Morocco during the Saharan Mineral Dust Experiment, J. Geophys. Res.-Atmos., 113, https://doi.org/10.1029/2007JD008785, 2008. a, b
Ansmann, A., Tesche, M., Seifert, P., Althausen, D., Engelmann, R., Fruntke, J., Wandinger, U., Mattis, I., and Müller, D.: Evolution of the ice phase in tropical altocumulus: SAMUM lidar observations over Cape Verde, J. Geophys. Res.-Atmos., 114, https://doi.org/10.1029/2008JD011659, 2009. a, b, c, d, e, f
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Executive editor
Mixed phase clouds are difficult to model drivers of the climate system. This study presents novel, long-term observations of mixed-phase clouds in the Arctic using advanced remote sensing techniques, offering unprecedented insights into cloud microphysics and aerosol-cloud interactions. Leveraging the unique MOSAiC expedition measurements, for the first time, it provides height-resolved statistical analysis of mixed-phase cloud properties, with a particular focus on the characteristics of liquid phase clouds. The combination of novel lidar and radar retrieval techniques enables precise monitoring of phase transitions, ice formation via immersion freezing, and the influence of aerosol activation. Given the key role of mixed-phase cloud in regulating the Arctic energy balance and their significance in climate models, this study provides essential empirical data to help improve cloud representation and parameterizations. Based on these observations, the authors recommend to implement time-dependent parameterization schemes to properly account for the evolution of long-lasting mixed-phase cloud layers in models.
Short summary
We studied the water and ice phases of Arctic mixed-phase clouds (MPCs) using dual FOV polarization lidar and Doppler radar on board Polarstern during the MOSAiC expedition. Two long-lasting Arctic MPCs and year-round statistics show persistent droplet activation and dominant immersion freezing, indicating well-filled cloud condensation nuclei and ice-nucleating particle reservoirs. These findings help explain MPC longevity and may improve cloud life cycle representation in weather and climate models.
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