Super Storm Desmond: a process-based assessment
Super Storm Desmond: a process-based assessment
'Super' Storm Desmond broke meteorological and hydrological records during a record warm year in the British–Irish Isles (BI). The severity of the storm may be a harbinger of expected changes to regional hydroclimate as global temperatures continue to rise. Here, we adopt a process-based approach to investigate the potency of Desmond, and explore the extent to which climate change may have been a contributory factor. Through an Eulerian assessment of water vapour flux we determine that Desmond was accompanied by an atmospheric river (AR) of severity unprecedented since at least 1979, on account of both high atmospheric humidity and high wind speeds. Lagrangian air-parcel tracking and moisture attribution techniques show that long-term warming of North Atlantic sea surface temperatures has significantly increased the chance of such high humidity in ARs in the vicinity of the BI. We conclude that, given exactly the same dynamical conditions associated with Desmond, the likelihood of such an intense AR has already increased by 25% due to long-term climate change. However, our analysis represents a first-order assessment, and further research is needed into the controls influencing AR dynamics.
Matthews, T.
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Murphy, C
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McCarthy, G
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Broderick, C
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Wilby, R L
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January 2018
Matthews, T.
adbcf0d5-a999-4d95-86fe-ffa71fd8e5b2
Murphy, C
eaf927cf-86e6-4cdc-b9a7-68ebc5eab4b2
McCarthy, G
99241bcb-5667-469d-b7ae-4d308d516bd6
Broderick, C
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Wilby, R L
1879695d-96c4-42cb-bd73-31a21fe41cb2
Matthews, T., Murphy, C, McCarthy, G, Broderick, C and Wilby, R L
(2018)
Super Storm Desmond: a process-based assessment.
Environmental Research Letters, 13 (1), [014024].
(doi:10.1088/1748-9326/aa98c8).
Abstract
'Super' Storm Desmond broke meteorological and hydrological records during a record warm year in the British–Irish Isles (BI). The severity of the storm may be a harbinger of expected changes to regional hydroclimate as global temperatures continue to rise. Here, we adopt a process-based approach to investigate the potency of Desmond, and explore the extent to which climate change may have been a contributory factor. Through an Eulerian assessment of water vapour flux we determine that Desmond was accompanied by an atmospheric river (AR) of severity unprecedented since at least 1979, on account of both high atmospheric humidity and high wind speeds. Lagrangian air-parcel tracking and moisture attribution techniques show that long-term warming of North Atlantic sea surface temperatures has significantly increased the chance of such high humidity in ARs in the vicinity of the BI. We conclude that, given exactly the same dynamical conditions associated with Desmond, the likelihood of such an intense AR has already increased by 25% due to long-term climate change. However, our analysis represents a first-order assessment, and further research is needed into the controls influencing AR dynamics.
Text
Matthews_2018_Environ._Res._Lett._13_014024
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Accepted/In Press date: 7 November 2017
e-pub ahead of print date: 18 January 2018
Published date: January 2018
Identifiers
Local EPrints ID: 417743
URI: http://eprints.soton.ac.uk/id/eprint/417743
ISSN: 1748-9326
PURE UUID: c4a11311-e7f2-4afe-9231-8dd5a77af7da
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Date deposited: 13 Feb 2018 17:30
Last modified: 15 Mar 2024 18:25
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Author:
T. Matthews
Author:
C Murphy
Author:
G McCarthy
Author:
C Broderick
Author:
R L Wilby
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