Articles | Volume 23, issue 16
https://doi.org/10.5194/acp-23-9365-2023
© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.
the Creative Commons Attribution 4.0 License.
https://doi.org/10.5194/acp-23-9365-2023
© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.
the Creative Commons Attribution 4.0 License.
Investigating the development of clouds within marine cold-air outbreaks
Rebecca J. Murray-Watson
CORRESPONDING AUTHOR
Space and Atmospheric Physics Group, Department of Physics, Imperial College London, London, SW7 2BX, UK
Edward Gryspeerdt
Space and Atmospheric Physics Group, Department of Physics, Imperial College London, London, SW7 2BX, UK
Tom Goren
Department of Geography and Environment, Bar-Ilan University, Ramat Gan 52900, Israel
Institute for Meteorology, Leipzig University, Stephanstr. 3, 04103 Leipzig, Germany
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Cited
13 citations as recorded by crossref.
- Clouds and precipitation in the initial phase of marine cold-air outbreaks as observed by airborne remote sensing I. Schirmacher et al. 10.5194/acp-24-12823-2024
- Cloud Characteristics during Intense Cold Air Outbreaks over the Barents Sea Based on Satellite Data A. Narizhnaya & A. Chernokulsky 10.3390/atmos15030317
- Thermodynamic and cloud evolution in a cold-air outbreak during HALO-(AC)3: quasi-Lagrangian observations compared to the ERA5 and CARRA reanalyses B. Kirbus et al. 10.5194/acp-24-3883-2024
- Overview: quasi-Lagrangian observations of Arctic air mass transformations – introduction and initial results of the HALO–(𝒜 𝒞)3 aircraft campaign M. Wendisch et al. 10.5194/acp-24-8865-2024
- A stratocumulus to cumulus transition during a cold-air outbreak: The role of aerosols E. Bossioli et al. 10.1016/j.atmosres.2025.108211
- Diabatic heating, moisture uptake, and albedo evolution observed in a HALO-(AC)3 cold air outbreak B. Kirbus et al. 10.1088/1755-1315/1522/1/012009
- Unveiling Cloud Microphysics of Marine Cold Air Outbreaks Through A-Train’s Active Instrumentation K. Mroz et al. 10.3390/atmos16050518
- Air mass history linked to the development of Arctic mixed-phase clouds R. Murray-Watson & E. Gryspeerdt 10.5194/acp-24-11115-2024
- Estimation of the radiation budget during MOSAiC based on ground-based and satellite remote sensing observations C. Barrientos-Velasco et al. 10.5194/acp-25-3929-2025
- Airborne observations of cloud properties during their evolution from organized streets to isotropic cloud structures along an Arctic cold-air outbreak M. Klingebiel et al. 10.5194/acp-25-9787-2025
- A comprehensive in situ and remote sensing data set collected during the HALO–(𝒜 𝒞)3 aircraft campaign A. Ehrlich et al. 10.5194/essd-17-1295-2025
- High ice-nucleating particle concentrations associated with Arctic haze in springtime cold-air outbreaks E. Raif et al. 10.5194/acp-24-14045-2024
- Analysis of an Arctic cold air outbreak during autumn and related air mass transformations forced by surface changes and advection in higher altitudes B. Kirbus et al. 10.1525/elementa.2023.00079
13 citations as recorded by crossref.
- Clouds and precipitation in the initial phase of marine cold-air outbreaks as observed by airborne remote sensing I. Schirmacher et al. 10.5194/acp-24-12823-2024
- Cloud Characteristics during Intense Cold Air Outbreaks over the Barents Sea Based on Satellite Data A. Narizhnaya & A. Chernokulsky 10.3390/atmos15030317
- Thermodynamic and cloud evolution in a cold-air outbreak during HALO-(AC)3: quasi-Lagrangian observations compared to the ERA5 and CARRA reanalyses B. Kirbus et al. 10.5194/acp-24-3883-2024
- Overview: quasi-Lagrangian observations of Arctic air mass transformations – introduction and initial results of the HALO–(𝒜 𝒞)3 aircraft campaign M. Wendisch et al. 10.5194/acp-24-8865-2024
- A stratocumulus to cumulus transition during a cold-air outbreak: The role of aerosols E. Bossioli et al. 10.1016/j.atmosres.2025.108211
- Diabatic heating, moisture uptake, and albedo evolution observed in a HALO-(AC)3 cold air outbreak B. Kirbus et al. 10.1088/1755-1315/1522/1/012009
- Unveiling Cloud Microphysics of Marine Cold Air Outbreaks Through A-Train’s Active Instrumentation K. Mroz et al. 10.3390/atmos16050518
- Air mass history linked to the development of Arctic mixed-phase clouds R. Murray-Watson & E. Gryspeerdt 10.5194/acp-24-11115-2024
- Estimation of the radiation budget during MOSAiC based on ground-based and satellite remote sensing observations C. Barrientos-Velasco et al. 10.5194/acp-25-3929-2025
- Airborne observations of cloud properties during their evolution from organized streets to isotropic cloud structures along an Arctic cold-air outbreak M. Klingebiel et al. 10.5194/acp-25-9787-2025
- A comprehensive in situ and remote sensing data set collected during the HALO–(𝒜 𝒞)3 aircraft campaign A. Ehrlich et al. 10.5194/essd-17-1295-2025
- High ice-nucleating particle concentrations associated with Arctic haze in springtime cold-air outbreaks E. Raif et al. 10.5194/acp-24-14045-2024
- Analysis of an Arctic cold air outbreak during autumn and related air mass transformations forced by surface changes and advection in higher altitudes B. Kirbus et al. 10.1525/elementa.2023.00079
Latest update: 17 Sep 2025
Short summary
Clouds formed in Arctic marine cold air outbreaks undergo a distinct evolution, but the factors controlling their transition from high-coverage to broken cloud fields are poorly understood. We use satellite and reanalysis data to study how these clouds develop in time and the different influences on their evolution. The aerosol concentration is correlated with cloud break-up; more aerosol is linked to prolonged coverage and a stronger cooling effect, with implications for a more polluted Arctic.
Clouds formed in Arctic marine cold air outbreaks undergo a distinct evolution, but the factors...
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