Intraseasonal summer rainfall variability over China in the MetUM GA6 and GC2 configurations
<p>The simulation of intraseasonal precipitation variability over China in extended summer (May–October) is evaluated based on six climate simulations of the Met Office Unified Model. Two simulations use the Global Atmosphere 6.0 (GA6) and four the Global Coupled 2.0 (GC2) configuration. Mo...
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Copernicus Publications
2018-08-01
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| Series: | Geoscientific Model Development |
| Online Access: | https://www.geosci-model-dev.net/11/3215/2018/gmd-11-3215-2018.pdf |
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doaj-14c63c3ec71b4ad1901de9abef716b7a2020-11-24T23:14:07ZengCopernicus PublicationsGeoscientific Model Development1991-959X1991-96032018-08-01113215323310.5194/gmd-11-3215-2018Intraseasonal summer rainfall variability over China in the MetUM GA6 and GC2 configurationsC. C. Stephan0C. C. Stephan1N. P. Klingaman2P. L. Vidale3A. G. Turner4A. G. Turner5M.-E. Demory6M.-E. Demory7L. Guo8National Centre for Atmospheric Science – Climate, Department of Meteorology, University of Reading, P.O. Box 243, Reading RG6 6BB, UKMax Planck Institute for Meteorology, Bundesstrasse 53, 20146 Hamburg, GermanyNational Centre for Atmospheric Science – Climate, Department of Meteorology, University of Reading, P.O. Box 243, Reading RG6 6BB, UKNational Centre for Atmospheric Science – Climate, Department of Meteorology, University of Reading, P.O. Box 243, Reading RG6 6BB, UKNational Centre for Atmospheric Science – Climate, Department of Meteorology, University of Reading, P.O. Box 243, Reading RG6 6BB, UKDepartment of Meteorology, University of Reading, P.O. Box 243, Reading RG6 6BB, UKNational Centre for Atmospheric Science – Climate, Department of Meteorology, University of Reading, P.O. Box 243, Reading RG6 6BB, UKCenter for Space and Habitability, University of Bern, Gesellschaftsstrasse 6, 3012 Bern, SwitzerlandNational Centre for Atmospheric Science – Climate, Department of Meteorology, University of Reading, P.O. Box 243, Reading RG6 6BB, UK<p>The simulation of intraseasonal precipitation variability over China in extended summer (May–October) is evaluated based on six climate simulations of the Met Office Unified Model. Two simulations use the Global Atmosphere 6.0 (GA6) and four the Global Coupled 2.0 (GC2) configuration. Model biases are large such that mean precipitation and intraseasonal variability reach twice their observed values, particularly in southern China. To test the impact of air–sea coupling and horizontal resolution, GA6 and GC2 at horizontal resolutions corresponding to ∼ 25, 60, and 135 km at 50° N are analyzed. Increasing the horizontal resolution and adding air–sea coupling have little effect on these biases. Pre-monsoon rainfall in the Yangtze River basin is too strong in all simulations. Simulated rainfall amounts in June are too high along the southern coast and persist in the coastal region through July, with only a weak northward progression. The observed northward propagation of the Meiyu–Baiu–Changma rainband from spring to late summer is poor in all GA6 and GC2 simulations. To assess how well the <span style="" class="text">MetUM</span> simulates spatial patterns of temporally coherent precipitation, empirical orthogonal teleconnection (EOT) analysis is applied to pentad-mean precipitation. Patterns are connected to large-scale processes by regressing atmospheric fields onto the EOT pentad time series. Most observed patterns of intraseasonal rainfall variability are found in all simulations, including the associated observed mechanisms. This suggests that GA6 and GC2 may provide useful predictions of summer intraseasonal variability despite their substantial biases in mean precipitation and overall intraseasonal variance.</p>https://www.geosci-model-dev.net/11/3215/2018/gmd-11-3215-2018.pdf |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
C. C. Stephan C. C. Stephan N. P. Klingaman P. L. Vidale A. G. Turner A. G. Turner M.-E. Demory M.-E. Demory L. Guo |
| spellingShingle |
C. C. Stephan C. C. Stephan N. P. Klingaman P. L. Vidale A. G. Turner A. G. Turner M.-E. Demory M.-E. Demory L. Guo Intraseasonal summer rainfall variability over China in the MetUM GA6 and GC2 configurations Geoscientific Model Development |
| author_facet |
C. C. Stephan C. C. Stephan N. P. Klingaman P. L. Vidale A. G. Turner A. G. Turner M.-E. Demory M.-E. Demory L. Guo |
| author_sort |
C. C. Stephan |
| title |
Intraseasonal summer rainfall variability over China in the MetUM GA6 and GC2 configurations |
| title_short |
Intraseasonal summer rainfall variability over China in the MetUM GA6 and GC2 configurations |
| title_full |
Intraseasonal summer rainfall variability over China in the MetUM GA6 and GC2 configurations |
| title_fullStr |
Intraseasonal summer rainfall variability over China in the MetUM GA6 and GC2 configurations |
| title_full_unstemmed |
Intraseasonal summer rainfall variability over China in the MetUM GA6 and GC2 configurations |
| title_sort |
intraseasonal summer rainfall variability over china in the metum ga6 and gc2 configurations |
| publisher |
Copernicus Publications |
| series |
Geoscientific Model Development |
| issn |
1991-959X 1991-9603 |
| publishDate |
2018-08-01 |
| description |
<p>The simulation of intraseasonal precipitation variability over China in extended
summer (May–October) is evaluated based on six climate simulations of the
Met Office Unified Model. Two simulations use the Global Atmosphere 6.0 (GA6)
and four the Global Coupled 2.0 (GC2) configuration. Model biases are large
such that mean precipitation and intraseasonal variability reach twice their
observed values, particularly in southern China. To test the impact of
air–sea coupling and horizontal resolution, GA6 and GC2 at horizontal
resolutions corresponding to ∼ 25, 60, and 135 km at 50° N are
analyzed. Increasing the horizontal resolution and adding air–sea coupling
have little effect on these biases. Pre-monsoon rainfall in the Yangtze River
basin is too strong in all simulations. Simulated rainfall amounts in June
are too high along the southern coast and persist in the coastal region
through July, with only a weak northward progression. The observed northward
propagation of the Meiyu–Baiu–Changma rainband from spring to late summer
is poor in all GA6 and GC2 simulations. To assess how well the <span style="" class="text">MetUM</span>
simulates spatial patterns of temporally coherent precipitation, empirical
orthogonal teleconnection (EOT) analysis is applied to pentad-mean
precipitation. Patterns are connected to large-scale processes by regressing
atmospheric fields onto the EOT pentad time series. Most observed patterns of
intraseasonal rainfall variability are found in all simulations, including
the associated observed mechanisms. This suggests that GA6 and GC2 may
provide useful predictions of summer intraseasonal variability despite their
substantial biases in mean precipitation and overall intraseasonal variance.</p> |
| url |
https://www.geosci-model-dev.net/11/3215/2018/gmd-11-3215-2018.pdf |
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