What question did this study set out to answer?

This research aims to examine how warm air intrusion impacts the supersaturation conditions in cirrus clouds.

April 16, 2026

Changes in Supersaturation Inside and Around Arctic Cirrus during Warm Air Intrusion Events

Key Points

This research aims to examine how warm air intrusion impacts the supersaturation conditions in cirrus clouds.
Conducted airborne lidar measurements of cirrus clouds in the Arctic during the HALO-(AC)3 campaign.
Distinguished between WAI cirrus formed during warm air intrusions and AC cirrus under stable conditions.
Analyzed relative humidity over ice (RHi) in cloud and near-cloud regions.
WAI cirrus exhibit more frequent high RHi values exceeding nucleation thresholds.
Higher absolute RHi values observed in WAI cirrus compared to AC cirrus.
Findings suggest WAI cirrus may be younger clouds with ongoing ice nucleation.

Abstract

Cirrus clouds play a significant role in the radiative processes in the upper troposphere. Depending on the ambient conditions during their formation their micro- and macro-physical characteristics might differ, leading to different and potentially stronger radiative effects. In this study, we use airborne lidar measurements of cirrus clouds performed in the arctic during the HALO-(AC)3 campaign. We distinguish between two cirrus types depending on the ambient conditions during their formation. WAI cirrus, formed during a Warm Air Intrusion and AC cirrus under undisturbed arctic conditions. For these two groups we analyze the distribution of Relative Humidity over ice (RHi) for in-cloud and near-cloud data. We find that WAI cirrus are more frequently detected with high RHi over the threshold for homogeneous nucleation and also reach higher absolute values of RHi, both in the in-cloud and near-cloud regions. This could be indicative of younger clouds where ice nucleation is still ongoing.

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