Comparison of four ensemble methods combining regional climate simulations over Asia |
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Authors: | Jinming Feng Dong-Kyou Lee Congbin Fu Jianping Tang Yasuo Sato Hisashi Kato John L. Mcgregor Kazuo Mabuchi |
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Affiliation: | 1. Key Laboratory of Regional Climate-Environment for East Asia, Institute of Atmospheric Physics, Chinese Academy of Sciences, Beijing, China 2. School of Earth and Environment, Seoul National University, Seoul, Korea 3. Department of Atmospheric Physics, Nanjing University, Nanjing, China 4. Atmospheric Environment and Applied Meteorology Research Department, Meteorological Research Institute/JMA, Tsukuba, Japan 5. Central Research Institute of Electric Power Industry, Tokyo, Japan 6. Division of Atmospheric Research, Commonwealth Scientific and Industrial Research Organization, Aspendale, VIC, Australia
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Abstract: | A number of uncertainties exist in climate simulation because the results of climate models are influenced by factors such as their dynamic framework, physical processes, initial and driving fields, and horizontal and vertical resolution. The uncertainties of the model results may be reduced, and the credibility can be improved by employing multi-model ensembles. In this paper, multi-model ensemble results using 10-year simulations of five regional climate models (RCMs) from December 1988 to November 1998 over Asia are presented and compared. The simulation results are derived from phase II of the Regional Climate Model Inter-comparison Project (RMIP) for Asia. Using the methods of the arithmetic mean, the weighted mean, multivariate linear regression, and singular value decomposition, the ensembles for temperature, precipitation, and sea level pressure are carried out. The results show that the multi-RCM ensembles outperform the single RCMs in many aspects. Among the four ensemble methods used, the multivariate linear regression, based on the minimization of the root mean square errors, significantly improved the ensemble results. With regard to the spatial distribution of the mean climate, the ensemble result for temperature was better than that for precipitation. With an increasing number of models used in the ensembles, the ensemble results were more accurate. Therefore, a multi-model ensemble is an efficient approach to improve the results of regional climate simulations. |
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