Micrometeorological and thermal control of frost flower growth on young sea ice

Frost flowers are transient crystal structures that form on new and young sea ice surfaces. They have been implicated in a variety of biological, chemical and physical processes and interactions with the atmosphere at the sea ice surface. We describe the atmospheric and radiative conditions and the...

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Published in:ARCTIC
Main Authors: Galley, R.J., Else, B.G.T., Geilfus, Nicolas-Xavier, Hare, A.A., Babb, D., Papakyriakou, T.N., Barber, D.G., Rysgaard, Søren
Format: Article in Journal/Newspaper
Language:English
Published: 2015
Subjects:
Arctic
Sea ice
Online Access:https://pure.au.dk/portal/da/publications/micrometeorological-and-thermal-control-of-frost-flower-growth-on-young-sea-ice(a734e996-508a-444b-8aed-b3e9dd42c58f).html
https://doi.org/10.14430/arctic4457
https://pure.au.dk/ws/files/85587524/Galley2015b_Micromet_thermal_control_frost_flower_growth_decay.pdf
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spelling ftuniaarhuspubl:oai:pure.atira.dk:publications/a734e996-508a-444b-8aed-b3e9dd42c58f 2023-05-15T14:26:12+02:00 Micrometeorological and thermal control of frost flower growth on young sea ice Galley, R.J. Else, B.G.T. Geilfus, Nicolas-Xavier Hare, A.A. Babb, D. Papakyriakou, T.N. Barber, D.G. Rysgaard, Søren 2015 application/pdf https://pure.au.dk/portal/da/publications/micrometeorological-and-thermal-control-of-frost-flower-growth-on-young-sea-ice(a734e996-508a-444b-8aed-b3e9dd42c58f).html https://doi.org/10.14430/arctic4457 https://pure.au.dk/ws/files/85587524/Galley2015b_Micromet_thermal_control_frost_flower_growth_decay.pdf eng eng info:eu-repo/semantics/restrictedAccess Galley , R J , Else , B G T , Geilfus , N-X , Hare , A A , Babb , D , Papakyriakou , T N , Barber , D G & Rysgaard , S 2015 , ' Micrometeorological and thermal control of frost flower growth on young sea ice ' , Arctic Institute of North America. Research Paper , vol. 68 , no. 1 , pp. 79-92 . https://doi.org/10.14430/arctic4457 article 2015 ftuniaarhuspubl https://doi.org/10.14430/arctic4457 2023-03-08T23:55:37Z Frost flowers are transient crystal structures that form on new and young sea ice surfaces. They have been implicated in a variety of biological, chemical and physical processes and interactions with the atmosphere at the sea ice surface. We describe the atmospheric and radiative conditions and the physical and thermal properties of the sea ice and atmosphere that form, decay and destroy frost flowers on young sea ice. Frost flower formation occurred during a high-pressure system that caused air temperatures to drop to -30°C, with relative humidity of 70% (an under saturated atmosphere), and very calm wind conditions. The sea ice surface temperature at the time of frost flower initiation was 10-13°C warmer than the air temperature. Frost flowers grew on nodules raised above the mean surface height by 5 mm, which were 4-6°C colder than the bare, brine-wetted, highly saline sea ice surface that provided the necessary moisture. The cold nodules created potential water vapour super saturation zones above them with respect to air over the brine skim. Frost flowers formed and grew overnight in the absence of shortwave radiation, while the net long wave radiation was negative and dominated the net all-wave radiation balance at the surface. The observed crystal habits of the frost flowers were long needles, betraying their origin from the vapour phase at temperatures between -20°C and -30°C. After a night of growth, frost flowers decayed associated with increased solar radiation, a net surface radiation balance of 0 W m-2, increased air and surface temperatures, increased wind speed, and decreased relative humidity. We hypothesize that these conditions increased vertical mixing, which eroded near-surface water vapour saturation and initiated sublimation. The frost flowers were finally rapidly destroyed by snowfall. Article in Journal/Newspaper Arctic Sea ice Aarhus University: Research ARCTIC 68 1 79
institution Open Polar
collection Aarhus University: Research
op_collection_id ftuniaarhuspubl
language English
description Frost flowers are transient crystal structures that form on new and young sea ice surfaces. They have been implicated in a variety of biological, chemical and physical processes and interactions with the atmosphere at the sea ice surface. We describe the atmospheric and radiative conditions and the physical and thermal properties of the sea ice and atmosphere that form, decay and destroy frost flowers on young sea ice. Frost flower formation occurred during a high-pressure system that caused air temperatures to drop to -30°C, with relative humidity of 70% (an under saturated atmosphere), and very calm wind conditions. The sea ice surface temperature at the time of frost flower initiation was 10-13°C warmer than the air temperature. Frost flowers grew on nodules raised above the mean surface height by 5 mm, which were 4-6°C colder than the bare, brine-wetted, highly saline sea ice surface that provided the necessary moisture. The cold nodules created potential water vapour super saturation zones above them with respect to air over the brine skim. Frost flowers formed and grew overnight in the absence of shortwave radiation, while the net long wave radiation was negative and dominated the net all-wave radiation balance at the surface. The observed crystal habits of the frost flowers were long needles, betraying their origin from the vapour phase at temperatures between -20°C and -30°C. After a night of growth, frost flowers decayed associated with increased solar radiation, a net surface radiation balance of 0 W m-2, increased air and surface temperatures, increased wind speed, and decreased relative humidity. We hypothesize that these conditions increased vertical mixing, which eroded near-surface water vapour saturation and initiated sublimation. The frost flowers were finally rapidly destroyed by snowfall.
format Article in Journal/Newspaper
author Galley, R.J.
Else, B.G.T.
Geilfus, Nicolas-Xavier
Hare, A.A.
Babb, D.
Papakyriakou, T.N.
Barber, D.G.
Rysgaard, Søren
spellingShingle Galley, R.J.
Else, B.G.T.
Geilfus, Nicolas-Xavier
Hare, A.A.
Babb, D.
Papakyriakou, T.N.
Barber, D.G.
Rysgaard, Søren
Micrometeorological and thermal control of frost flower growth on young sea ice
author_facet Galley, R.J.
Else, B.G.T.
Geilfus, Nicolas-Xavier
Hare, A.A.
Babb, D.
Papakyriakou, T.N.
Barber, D.G.
Rysgaard, Søren
author_sort Galley, R.J.
title Micrometeorological and thermal control of frost flower growth on young sea ice
title_short Micrometeorological and thermal control of frost flower growth on young sea ice
title_full Micrometeorological and thermal control of frost flower growth on young sea ice
title_fullStr Micrometeorological and thermal control of frost flower growth on young sea ice
title_full_unstemmed Micrometeorological and thermal control of frost flower growth on young sea ice
title_sort micrometeorological and thermal control of frost flower growth on young sea ice
publishDate 2015
url https://pure.au.dk/portal/da/publications/micrometeorological-and-thermal-control-of-frost-flower-growth-on-young-sea-ice(a734e996-508a-444b-8aed-b3e9dd42c58f).html
https://doi.org/10.14430/arctic4457
https://pure.au.dk/ws/files/85587524/Galley2015b_Micromet_thermal_control_frost_flower_growth_decay.pdf
genre Arctic
Sea ice
genre_facet Arctic
Sea ice
op_source Galley , R J , Else , B G T , Geilfus , N-X , Hare , A A , Babb , D , Papakyriakou , T N , Barber , D G & Rysgaard , S 2015 , ' Micrometeorological and thermal control of frost flower growth on young sea ice ' , Arctic Institute of North America. Research Paper , vol. 68 , no. 1 , pp. 79-92 . https://doi.org/10.14430/arctic4457
op_rights info:eu-repo/semantics/restrictedAccess
op_doi https://doi.org/10.14430/arctic4457
container_title ARCTIC
container_volume 68
container_issue 1
container_start_page 79
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