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Ricaud, P., Durand, P., Grigioni, P., Del Guasta, M., Camporeale, G., Roy, A., et al. (2024) In Situ Observations of Supercooled Liquid Water Clouds over Dome C, Antarctica, by Balloon-Borne Sondes. Atmospheric Measurement Techniques, 17, 5071-5089.
https://doi.org/10.5194/amt-17-5071-2024

has been cited by the following article:

• TITLE: A Warming Arctic Will Not Affect Supercooling Levels of Cloud Water Droplets

  AUTHORS: Alma Calow, Michaiah Sands, Diego D’Amato, Caleb Hope, Mathilde Forrest, Benji McGregor, Ainsley Shore, Peter W. Wilson

  KEYWORDS: Arctic, Supercooling, Water, Droplets, Freezing

  JOURNAL NAME: Atmospheric and Climate Sciences, Vol.16 No.3, May 29, 2026

  ABSTRACT: It is now well understood that Arctic regions are warming more rapidly than other areas of Earth. Cloud formation and levels of supercooling of water droplets in clouds might be thought vulnerable to such change. We discuss here the lack of affect the highest temperature reached by the droplets has on the supercooling ability and so show that the warming Arctic is unable to affect the actual freezing temperature of clouds, at a given level of supercooling and so with a given level of nucleation site(s).