Performance of RegCM2.5/NCAR-CSM Nested System for the Simulation of Climate Change in East Asia Caused by Global Warming
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概要
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Regional climate in East Asia under 1CO_2 and 2CO_2 conditions, was simulated for continuous 10-year periods by the RegCM2.5 developed by NCAR, using the output of a CO_2 transient run from NCAR-CSM as lateral and surface boundary conditions in order to evaluate the performance of the nested system for the use of climate change simulation caused by global warming for that region. In this study, January and June climates were analyzed. Through the validation of the simulated present climate, it was clarified that the typical precipitation phenomenon which occurs on the northwestern side of Japan during the winter monsoon is relatively well reproduced in the RegCM, but weakly in the CSM. It indicates that the RegCM is essential for the prediction of regional climate change for the East Asia region. Although the present climate reproduced by the RegCM has some marked biases, e.g. the large cold bias in the higher latitude in winter and the missing of the Bai-u front in mainland China, they are mainly due to the overestimation of sea ice area, and the northward shift of the NPH (North Pacific High) in the CSM, respectively. The SST bias in the CSM significantly contributes to the surface air temperature bias on the coast. In the climate change simulations, the large-scale distributions of SLP and temperature in the RegCM bear a resemblance to those of the CSM in both months. On the other hand, the regional scale precipitation change patterns are different between the RegCM and the CSM in June, because the precipitation band near Japan is well reproduced in the RegCM both in the 1CO_2 and the 2CO_2 climate. In this simulation, some notable climate change features are found, such as the temperature increase at higher latitudes in January, or intensification of the NPH extending to the southwest in June. Although these changes are statistically significant, they are mainly influenced by the bias in the CSM because the changes occur over the bias region, and their magnitudes do not necessarily exceed the bias of the simulated present climate. From these results, it should be stressed that it is of utmost importance that the AOGCM information is of good quality in the prediction of regional climate change.
- 社団法人日本気象学会の論文
- 2001-02-25
著者
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Oshima N
Central Res. Inst. Electric Power Ind. Tokyo Jpn
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Oshima Naoko
Central Research Institute Of Electric Power Industry
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KADOKURA Shinji
Central Research Institute of Electric Power Industry
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Giorgi F
Abdus Salam Ictp Trieste
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Kadokura Shinji
Environmental Science Research Laboratory Central Research Institute Of Electric Power Industry
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KATO Hisashi
Central Research Institute of Electric Power Industry
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Nishizawa Keiichi
Central Research Institute of Electric Power Industry
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Hirakuchi Hiromaru
Central Research Institute of Electric Power Industry
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Giorgi Filippo
Abdus Salam ICTP, Trieste
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Giorgi Filippo
Abdus Salam Ictp
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Kato Hisashi
Central Res. Inst. Of Electric Power Ind. Tokyo
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Hirakuchi H
Central Research Institute Of Electric Power Industry
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Nishizawa K
Central Research Institute Of Electric Power Industry
関連論文
- The JRA-25 Reanalysis
- Performance of Global Climate Models for Reproducing Present SLP Field over Eastern Asian Region in the CO_2 Transient Run
- Statistical Downscaling Estimates of High Temperature in Summer in Japan
- Performance of RegCM2.5/NCAR-CSM Nested System for the Simulation of Climate Change in East Asia Caused by Global Warming
- Seasonal/Regional Variation of Variability Characteristic of Daily Maximum/Minimum Temperatures in Japan Observed and Reproduced by RegCM Nested in NCAR-CSM
- Future Projections in Precipitation over Asia Simulated by Two RCMs Nested into MRI-CGCM2.2
- NCAR陸地面モデル(LSM)を用いた地域気候モデルの開発
- Numerical Simulation of Atmospheric Turbulence for Assessment of Wind Turbine