Modelling atmospheric structure, cloud and their response to CCN in the central Arctic: ASCOS case studies

Observations made during late summer in the central Arctic Ocean, as part of the Arctic Summer Cloud Ocean Study (ASCOS), are used to evaluate cloud and vertical temperature structure in the Met Office Unified Model (MetUM). The observation period can be split into 5 regimes; the first two regimes h...

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Published in:Atmospheric Chemistry and Physics
Main Authors: C. E. Birch, I. M. Brooks, M. Tjernström, M. D. Shupe, T. Mauritsen, J. Sedlar, A. P. Lock, P. Earnshaw, P. O. G. Persson, S. F. Milton, C. Leck
Format: Article in Journal/Newspaper
Language:English
Published: Copernicus Publications 2012
Subjects:
Physics
QC1-999
Chemistry
QD1-999
Arctic
Arctic Ocean
albedo
Online Access:https://doi.org/10.5194/acp-12-3419-2012
https://doaj.org/article/e3e2da70185f4ddcaf9a0a9b9d47ee88
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spelling ftdoajarticles:oai:doaj.org/article:e3e2da70185f4ddcaf9a0a9b9d47ee88 2023-05-15T13:11:26+02:00 Modelling atmospheric structure, cloud and their response to CCN in the central Arctic: ASCOS case studies C. E. Birch I. M. Brooks M. Tjernström M. D. Shupe T. Mauritsen J. Sedlar A. P. Lock P. Earnshaw P. O. G. Persson S. F. Milton C. Leck 2012-04-01T00:00:00Z https://doi.org/10.5194/acp-12-3419-2012 https://doaj.org/article/e3e2da70185f4ddcaf9a0a9b9d47ee88 EN eng Copernicus Publications http://www.atmos-chem-phys.net/12/3419/2012/acp-12-3419-2012.pdf https://doaj.org/toc/1680-7316 https://doaj.org/toc/1680-7324 doi:10.5194/acp-12-3419-2012 1680-7316 1680-7324 https://doaj.org/article/e3e2da70185f4ddcaf9a0a9b9d47ee88 Atmospheric Chemistry and Physics, Vol 12, Iss 7, Pp 3419-3435 (2012) Physics QC1-999 Chemistry QD1-999 article 2012 ftdoajarticles https://doi.org/10.5194/acp-12-3419-2012 2022-12-31T13:56:24Z Observations made during late summer in the central Arctic Ocean, as part of the Arctic Summer Cloud Ocean Study (ASCOS), are used to evaluate cloud and vertical temperature structure in the Met Office Unified Model (MetUM). The observation period can be split into 5 regimes; the first two regimes had a large number of frontal systems, which were associated with deep cloud. During the remainder of the campaign a layer of low-level cloud occurred, typical of central Arctic summer conditions, along with two periods of greatly reduced cloud cover. The short-range operational NWP forecasts could not accurately reproduce the observed variations in near-surface temperature. A major source of this error was found to be the temperature-dependant surface albedo parameterisation scheme. The model reproduced the low-level cloud layer, though it was too thin, too shallow, and in a boundary-layer that was too frequently well-mixed. The model was also unable to reproduce the observed periods of reduced cloud cover, which were associated with very low cloud condensation nuclei (CCN) concentrations (<1 cm −3 ). As with most global NWP models, the MetUM does not have a prognostic aerosol/cloud scheme but uses a constant CCN concentration of 100 cm −3 over all marine environments. It is therefore unable to represent the low CCN number concentrations and the rapid variations in concentration frequently observed in the central Arctic during late summer. Experiments with a single-column model configuration of the MetUM show that reducing model CCN number concentrations to observed values reduces the amount of cloud, increases the near-surface stability, and improves the representation of both the surface radiation fluxes and the surface temperature. The model is shown to be sensitive to CCN only when number concentrations are less than 10–20 cm −3 . Article in Journal/Newspaper albedo Arctic Arctic Ocean Directory of Open Access Journals: DOAJ Articles Arctic Arctic Ocean Atmospheric Chemistry and Physics 12 7 3419 3435
institution Open Polar
collection Directory of Open Access Journals: DOAJ Articles
op_collection_id ftdoajarticles
language English
topic Physics
QC1-999
Chemistry
QD1-999
spellingShingle Physics
QC1-999
Chemistry
QD1-999
C. E. Birch
I. M. Brooks
M. Tjernström
M. D. Shupe
T. Mauritsen
J. Sedlar
A. P. Lock
P. Earnshaw
P. O. G. Persson
S. F. Milton
C. Leck
Modelling atmospheric structure, cloud and their response to CCN in the central Arctic: ASCOS case studies
topic_facet Physics
QC1-999
Chemistry
QD1-999
description Observations made during late summer in the central Arctic Ocean, as part of the Arctic Summer Cloud Ocean Study (ASCOS), are used to evaluate cloud and vertical temperature structure in the Met Office Unified Model (MetUM). The observation period can be split into 5 regimes; the first two regimes had a large number of frontal systems, which were associated with deep cloud. During the remainder of the campaign a layer of low-level cloud occurred, typical of central Arctic summer conditions, along with two periods of greatly reduced cloud cover. The short-range operational NWP forecasts could not accurately reproduce the observed variations in near-surface temperature. A major source of this error was found to be the temperature-dependant surface albedo parameterisation scheme. The model reproduced the low-level cloud layer, though it was too thin, too shallow, and in a boundary-layer that was too frequently well-mixed. The model was also unable to reproduce the observed periods of reduced cloud cover, which were associated with very low cloud condensation nuclei (CCN) concentrations (<1 cm −3 ). As with most global NWP models, the MetUM does not have a prognostic aerosol/cloud scheme but uses a constant CCN concentration of 100 cm −3 over all marine environments. It is therefore unable to represent the low CCN number concentrations and the rapid variations in concentration frequently observed in the central Arctic during late summer. Experiments with a single-column model configuration of the MetUM show that reducing model CCN number concentrations to observed values reduces the amount of cloud, increases the near-surface stability, and improves the representation of both the surface radiation fluxes and the surface temperature. The model is shown to be sensitive to CCN only when number concentrations are less than 10–20 cm −3 .
format Article in Journal/Newspaper
author C. E. Birch
I. M. Brooks
M. Tjernström
M. D. Shupe
T. Mauritsen
J. Sedlar
A. P. Lock
P. Earnshaw
P. O. G. Persson
S. F. Milton
C. Leck
author_facet C. E. Birch
I. M. Brooks
M. Tjernström
M. D. Shupe
T. Mauritsen
J. Sedlar
A. P. Lock
P. Earnshaw
P. O. G. Persson
S. F. Milton
C. Leck
author_sort C. E. Birch
title Modelling atmospheric structure, cloud and their response to CCN in the central Arctic: ASCOS case studies
title_short Modelling atmospheric structure, cloud and their response to CCN in the central Arctic: ASCOS case studies
title_full Modelling atmospheric structure, cloud and their response to CCN in the central Arctic: ASCOS case studies
title_fullStr Modelling atmospheric structure, cloud and their response to CCN in the central Arctic: ASCOS case studies
title_full_unstemmed Modelling atmospheric structure, cloud and their response to CCN in the central Arctic: ASCOS case studies
title_sort modelling atmospheric structure, cloud and their response to ccn in the central arctic: ascos case studies
publisher Copernicus Publications
publishDate 2012
url https://doi.org/10.5194/acp-12-3419-2012
https://doaj.org/article/e3e2da70185f4ddcaf9a0a9b9d47ee88
geographic Arctic
Arctic Ocean
geographic_facet Arctic
Arctic Ocean
genre albedo
Arctic
Arctic Ocean
genre_facet albedo
Arctic
Arctic Ocean
op_source Atmospheric Chemistry and Physics, Vol 12, Iss 7, Pp 3419-3435 (2012)
op_relation http://www.atmos-chem-phys.net/12/3419/2012/acp-12-3419-2012.pdf
https://doaj.org/toc/1680-7316
https://doaj.org/toc/1680-7324
doi:10.5194/acp-12-3419-2012
1680-7316
1680-7324
https://doaj.org/article/e3e2da70185f4ddcaf9a0a9b9d47ee88
op_doi https://doi.org/10.5194/acp-12-3419-2012
container_title Atmospheric Chemistry and Physics
container_volume 12
container_issue 7
container_start_page 3419
op_container_end_page 3435
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