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Variability of hydrological extreme events in East Asia and their dynamical control: a comparison between observations and two high-resolution global climate models

Variability of hydrological extreme events in East Asia and their dynamical control: a comparison between observations and two high-resolution global climate models
Variability of hydrological extreme events in East Asia and their dynamical control: a comparison between observations and two high-resolution global climate models
This work investigates the variability of extreme weather events (drought spells, DS15, and daily heavy rainfall, PR99) over East Asia. It particularly focuses on the large scale atmospheric circulation associated with high levels of the occurrence of these extreme events. Two observational datasets (APHRODITE and PERSIANN) are compared with two high-resolution global climate models (HiRAM and HadGEM3-GC2) and an ensemble of other lower resolution climate models from CMIP5. We first evaluate the performance of the high resolution models. They both exhibit good skill in reproducing extreme events, especially when compared with CMIP5 results. Significant differences exist between the two observational datasets, highlighting the difficulty of having a clear estimate of extreme events. The link between the variability of the extremes and the large scale circulation is investigated, on monthly and interannual timescales, using composite and correlation analyses.Both extreme indices DS15 and PR99 are significantly linked to the low level wind intensity over East Asia, i.e. the monsoon circulation. It is also found that DS15 events are strongly linked to the surface temperature over the Siberian region and to the land-sea pressure contrast, while PR99 events are linked to the sea surface temperature anomalies over the West North Pacific. These results illustrate the importance of the monsoon circulation on extremes over East Asia. The dependencies on of the surface temperature over the continent and the sea surface temperature raise the question as to what extent they could affect the occurrence of extremes over tropical regions in future projections.
0930-7575
745–766
Freychet, Nicolas
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Duchez, Aurelie
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Wu, Chi-Hua
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Chen, Chao-An
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Hsu, Huang-Hsiung
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Hirschi, Joel
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Forryan, Alexa
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Sinha, Bablu
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New, Adrian L.
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Graham, Tim
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Andrews, Martin B.
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Tu, Chia-Ying
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Lin, Shian-Jiann
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Freychet, Nicolas
8d009f19-53b0-49df-a6f7-53bfd4b0f0b6
Duchez, Aurelie
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Wu, Chi-Hua
2b2da55a-7c11-464d-93e5-56570903a1a4
Chen, Chao-An
b41221bd-3386-4a7f-bff0-c5f47b08ebd4
Hsu, Huang-Hsiung
0297b60d-b68e-41e2-8b11-7c0154c1fbc9
Hirschi, Joel
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Forryan, Alexa
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Sinha, Bablu
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New, Adrian L.
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Graham, Tim
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Andrews, Martin B.
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Tu, Chia-Ying
441085d9-5ebc-42f0-b6dd-3b0a331d63cc
Lin, Shian-Jiann
53641708-01d7-45de-b2b5-0425eac49928

Freychet, Nicolas, Duchez, Aurelie, Wu, Chi-Hua, Chen, Chao-An, Hsu, Huang-Hsiung, Hirschi, Joel, Forryan, Alexa, Sinha, Bablu, New, Adrian L., Graham, Tim, Andrews, Martin B., Tu, Chia-Ying and Lin, Shian-Jiann (2017) Variability of hydrological extreme events in East Asia and their dynamical control: a comparison between observations and two high-resolution global climate models. Climate Dynamics, 48 (3), 745–766. (doi:10.1007/s00382-016-3108-5).

Record type: Article

Abstract

This work investigates the variability of extreme weather events (drought spells, DS15, and daily heavy rainfall, PR99) over East Asia. It particularly focuses on the large scale atmospheric circulation associated with high levels of the occurrence of these extreme events. Two observational datasets (APHRODITE and PERSIANN) are compared with two high-resolution global climate models (HiRAM and HadGEM3-GC2) and an ensemble of other lower resolution climate models from CMIP5. We first evaluate the performance of the high resolution models. They both exhibit good skill in reproducing extreme events, especially when compared with CMIP5 results. Significant differences exist between the two observational datasets, highlighting the difficulty of having a clear estimate of extreme events. The link between the variability of the extremes and the large scale circulation is investigated, on monthly and interannual timescales, using composite and correlation analyses.Both extreme indices DS15 and PR99 are significantly linked to the low level wind intensity over East Asia, i.e. the monsoon circulation. It is also found that DS15 events are strongly linked to the surface temperature over the Siberian region and to the land-sea pressure contrast, while PR99 events are linked to the sea surface temperature anomalies over the West North Pacific. These results illustrate the importance of the monsoon circulation on extremes over East Asia. The dependencies on of the surface temperature over the continent and the sea surface temperature raise the question as to what extent they could affect the occurrence of extremes over tropical regions in future projections.

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Accepted/In Press date: 6 April 2016
e-pub ahead of print date: 13 April 2016
Published date: 1 February 2017
Organisations: Marine Systems Modelling, Physical Oceanography, Marine Physics and Ocean Climate

Identifiers

Local EPrints ID: 391200
URI: http://eprints.soton.ac.uk/id/eprint/391200
ISSN: 0930-7575
PURE UUID: c68443a6-b7f6-4105-8b3e-33d9f2aea04b

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Date deposited: 06 Apr 2016 14:10
Last modified: 15 Mar 2024 05:28

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Contributors

Author: Nicolas Freychet
Author: Aurelie Duchez
Author: Chi-Hua Wu
Author: Chao-An Chen
Author: Huang-Hsiung Hsu
Author: Joel Hirschi
Author: Alexa Forryan
Author: Bablu Sinha
Author: Adrian L. New
Author: Tim Graham
Author: Martin B. Andrews
Author: Chia-Ying Tu
Author: Shian-Jiann Lin

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