Process-level improvements in CMIP5 models and their impact on tropical variability, the Southern Ocean, and monsoons
The performance of updated versions of the four earth system models (ESMs) CNRM, EC-Earth, HadGEM, and MPI-ESM is assessed in comparison to their predecessor versions used in Phase 5 of the Coupled Model Intercomparison Project. The Earth System Model Evaluation Tool (ESMValTool) is applied to e...
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Copernicus Publications
2018-01-01
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| Series: | Earth System Dynamics |
| Online Access: | https://www.earth-syst-dynam.net/9/33/2018/esd-9-33-2018.pdf |
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doaj-2cf17fbb0b0e401a9850b3a6d2b4c0d42020-11-24T22:45:34ZengCopernicus PublicationsEarth System Dynamics2190-49792190-49872018-01-019336710.5194/esd-9-33-2018Process-level improvements in CMIP5 models and their impact on tropical variability, the Southern Ocean, and monsoonsA. Lauer0C. Jones1C. Jones2V. Eyring3M. Evaldsson4S. Hagemann5S. Hagemann6J. Mäkelä7G. Martin8R. Roehrig9S. Wang10Deutsches Zentrum für Luft- und Raumfahrt (DLR), Institut für Physik der Atmosphäre, Oberpfaffenhofen, GermanyUniversity of Leeds, Leeds, UKMet Office Hadley Centre, Exeter, UKDeutsches Zentrum für Luft- und Raumfahrt (DLR), Institut für Physik der Atmosphäre, Oberpfaffenhofen, GermanySwedish Meteorological and Hydrological Institute (SMHI), Norrköping, SwedenMax Planck Institute for Meteorology (MPI-M), Hamburg, Germanynow at: Institute of Coastal Research, Helmholtz Centre Geesthacht (HZG), Geesthacht, GermanyFinnish Meteorological Institute (FMI), Helsinki, FinlandMet Office Hadley Centre, Exeter, UKCNRM, Météo-France/CNRS, Toulouse, FranceSwedish Meteorological and Hydrological Institute (SMHI), Norrköping, SwedenThe performance of updated versions of the four earth system models (ESMs) CNRM, EC-Earth, HadGEM, and MPI-ESM is assessed in comparison to their predecessor versions used in Phase 5 of the Coupled Model Intercomparison Project. The Earth System Model Evaluation Tool (ESMValTool) is applied to evaluate selected climate phenomena in the models against observations. This is the first systematic application of the ESMValTool to assess and document the progress made during an extensive model development and improvement project. This study focuses on the South Asian monsoon (SAM) and the West African monsoon (WAM), the coupled equatorial climate, and Southern Ocean clouds and radiation, which are known to exhibit systematic biases in present-day ESMs. <br><br> The analysis shows that the tropical precipitation in three out of four models is clearly improved. Two of three updated coupled models show an improved representation of tropical sea surface temperatures with one coupled model not exhibiting a double Intertropical Convergence Zone (ITCZ). Simulated cloud amounts and cloud–radiation interactions are improved over the Southern Ocean. Improvements are also seen in the simulation of the SAM and WAM, although systematic biases remain in regional details and the timing of monsoon rainfall. Analysis of simulations with EC-Earth at different horizontal resolutions from T159 up to T1279 shows that the synoptic-scale variability in precipitation over the SAM and WAM regions improves with higher model resolution. The results suggest that the reasonably good agreement of modeled and observed mean WAM and SAM rainfall in lower-resolution models may be a result of unrealistic intensity distributions.https://www.earth-syst-dynam.net/9/33/2018/esd-9-33-2018.pdf |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
A. Lauer C. Jones C. Jones V. Eyring M. Evaldsson S. Hagemann S. Hagemann J. Mäkelä G. Martin R. Roehrig S. Wang |
| spellingShingle |
A. Lauer C. Jones C. Jones V. Eyring M. Evaldsson S. Hagemann S. Hagemann J. Mäkelä G. Martin R. Roehrig S. Wang Process-level improvements in CMIP5 models and their impact on tropical variability, the Southern Ocean, and monsoons Earth System Dynamics |
| author_facet |
A. Lauer C. Jones C. Jones V. Eyring M. Evaldsson S. Hagemann S. Hagemann J. Mäkelä G. Martin R. Roehrig S. Wang |
| author_sort |
A. Lauer |
| title |
Process-level improvements in CMIP5 models and their impact on tropical variability, the Southern Ocean, and monsoons |
| title_short |
Process-level improvements in CMIP5 models and their impact on tropical variability, the Southern Ocean, and monsoons |
| title_full |
Process-level improvements in CMIP5 models and their impact on tropical variability, the Southern Ocean, and monsoons |
| title_fullStr |
Process-level improvements in CMIP5 models and their impact on tropical variability, the Southern Ocean, and monsoons |
| title_full_unstemmed |
Process-level improvements in CMIP5 models and their impact on tropical variability, the Southern Ocean, and monsoons |
| title_sort |
process-level improvements in cmip5 models and their impact on tropical variability, the southern ocean, and monsoons |
| publisher |
Copernicus Publications |
| series |
Earth System Dynamics |
| issn |
2190-4979 2190-4987 |
| publishDate |
2018-01-01 |
| description |
The performance of updated versions of the four earth system models (ESMs)
CNRM, EC-Earth, HadGEM, and MPI-ESM is assessed in comparison to their
predecessor versions used in Phase 5 of the Coupled Model Intercomparison
Project. The Earth System Model Evaluation Tool (ESMValTool) is applied to
evaluate selected climate phenomena in the models against observations. This
is the first systematic application of the ESMValTool to assess and document
the progress made during an extensive model development and improvement
project. This study focuses on the South Asian monsoon (SAM) and the West African monsoon (WAM), the coupled equatorial climate, and Southern Ocean clouds and radiation, which are known to exhibit systematic biases in present-day ESMs.
<br><br>
The analysis shows that the tropical precipitation in three out of four
models is clearly improved. Two of three updated coupled models show an
improved representation of tropical sea surface temperatures with one
coupled model not exhibiting a double Intertropical Convergence Zone (ITCZ).
Simulated cloud amounts and cloud–radiation interactions are
improved over the Southern Ocean. Improvements are also seen in the
simulation of the SAM and WAM, although systematic biases remain in regional
details and the timing of monsoon rainfall. Analysis of simulations with
EC-Earth at different horizontal resolutions from T159 up to T1279 shows
that the synoptic-scale variability in precipitation over the SAM and WAM
regions improves with higher model resolution. The results suggest that the
reasonably good agreement of modeled and observed mean WAM and SAM rainfall
in lower-resolution models may be a result of unrealistic intensity distributions. |
| url |
https://www.earth-syst-dynam.net/9/33/2018/esd-9-33-2018.pdf |
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AT alauer processlevelimprovementsincmip5modelsandtheirimpactontropicalvariabilitythesouthernoceanandmonsoons AT cjones processlevelimprovementsincmip5modelsandtheirimpactontropicalvariabilitythesouthernoceanandmonsoons AT cjones processlevelimprovementsincmip5modelsandtheirimpactontropicalvariabilitythesouthernoceanandmonsoons AT veyring processlevelimprovementsincmip5modelsandtheirimpactontropicalvariabilitythesouthernoceanandmonsoons AT mevaldsson processlevelimprovementsincmip5modelsandtheirimpactontropicalvariabilitythesouthernoceanandmonsoons AT shagemann processlevelimprovementsincmip5modelsandtheirimpactontropicalvariabilitythesouthernoceanandmonsoons AT shagemann processlevelimprovementsincmip5modelsandtheirimpactontropicalvariabilitythesouthernoceanandmonsoons AT jmakela processlevelimprovementsincmip5modelsandtheirimpactontropicalvariabilitythesouthernoceanandmonsoons AT gmartin processlevelimprovementsincmip5modelsandtheirimpactontropicalvariabilitythesouthernoceanandmonsoons AT rroehrig processlevelimprovementsincmip5modelsandtheirimpactontropicalvariabilitythesouthernoceanandmonsoons AT swang processlevelimprovementsincmip5modelsandtheirimpactontropicalvariabilitythesouthernoceanandmonsoons |
| _version_ |
1725687958523084800 |