Atmospheric Chemistry and Physics (Mar 2020)

Small ice particles at slightly supercooled temperatures in tropical maritime convection

  • G. Lloyd,
  • G. Lloyd,
  • T. Choularton,
  • K. Bower,
  • J. Crosier,
  • J. Crosier,
  • M. Gallagher,
  • M. Flynn,
  • J. Dorsey,
  • J. Dorsey,
  • D. Liu,
  • J. W. Taylor,
  • O. Schlenczek,
  • O. Schlenczek,
  • O. Schlenczek,
  • J. Fugal,
  • J. Fugal,
  • J. Fugal,
  • S. Borrmann,
  • S. Borrmann,
  • R. Cotton,
  • P. Field,
  • P. Field,
  • A. Blyth

DOI
https://doi.org/10.5194/acp-20-3895-2020
Journal volume & issue
Vol. 20
pp. 3895 – 3904

Abstract

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In this paper we show that the origin of the ice phase in tropical cumulus clouds over the sea may occur by primary ice nucleation of small crystals at temperatures just between 0 and −5 ∘C. This was made possible through use of a holographic instrument able to image cloud particles at very high resolution and small size (6 µm). The environment in which the observations were conducted was notable for the presence of desert dust advected over the ocean from the Sahara. However, there is no laboratory evidence to suggest that these dust particles can act as ice nuclei at temperatures warmer than about −10 ∘C, the zone in which the first ice was observed in these clouds. The small ice particles were observed to grow rapidly by vapour diffusion, riming, and possibly through collisions with supercooled raindrops, causing these to freeze and potentially shatter. This in turn leads to the further production of secondary ice in these clouds. Hence, although the numbers of primary ice particles are small, they are very effective in initiating the rapid glaciation of the cloud, altering the dynamics and precipitation production processes.