机构地区:[1]Key Laboratory of Marine Science and Numerical Modeling (MASNUM),the First Institute of Oceanography,State Oceanic Administration [2]Key Laboratory of Data Analysis and Applications,the First Institute of Oceanography,State Oceanic Administration [3]Department of Mathematics,Ocean University of China
出 处:《Acta Oceanologica Sinica》2014年第11期75-84,共10页海洋学报(英文版)
基 金:The National Basic Research Program(973 Program)of China under contract No.2011CB403502;the Major National Scientific Research Projects of China under contract No.2012CB957803;the National Natural Science Foundation of China under contract Nos 41006018 and 41476024;the Foundation for Outstanding Young and Middle-aged Scientists in Shandong Province of China under contract No.BS2011HZ019;the UNESCO-IOC/WESTPAC Project"Response of marine hazards to climate change in the Western Pacific"
摘 要:Seventeen models participating in the Coupled Model Intercomparison Project phase 5(CMIP5) activity are compared on their historical simulation of the South China Sea(SCS) ocean heat content(OHC) in the upper 300 m. Ishii's temperature data, based on the World Ocean Database 2005(WOD05) and World Ocean Atlas 2005(WOA05), is used to assess the model performance by comparing the spatial patterns of seasonal OHC anomaly(OHCa) climatology, OHC climatology, monthly OHCa climatology, and interannual variability of OHCa. The spatial patterns in Ishii's data set show that the seasonal SCS OHCa climatology, both in winter and summer, is strongly affected by the wind stress and the current circulations in the SCS and its neighboring areas. However, the CMIP5 models present rather different spatial patterns and only a few models properly capture the dominant features in Ishii's pattern. Among them, GFDL-ESM2 G is of the best performance. The SCS OHC climatology in the upper 300 m varies greatly in different models. Most of them are much greater than those calculated from Ishii's data. However, the monthly OHCa climatology in each of the 17 CMIP5 models yields similar variation and magnitude as that in Ishii's. As for the interannual variability, the standard deviations of the OHCa time series in most of the models are somewhat larger than those in Ishii's. The correlation between the interannual time series of Ishii's OHCa and that from each of the 17 models is not satisfactory. Among them, BCC-CSM1.1 has the highest correlation to Ishii's, with a coefficient of about 0.6.Seventeen models participating in the Coupled Model Intercomparison Project phase 5(CMIP5) activity are compared on their historical simulation of the South China Sea(SCS) ocean heat content(OHC) in the upper 300 m. Ishii's temperature data, based on the World Ocean Database 2005(WOD05) and World Ocean Atlas 2005(WOA05), is used to assess the model performance by comparing the spatial patterns of seasonal OHC anomaly(OHCa) climatology, OHC climatology, monthly OHCa climatology, and interannual variability of OHCa. The spatial patterns in Ishii's data set show that the seasonal SCS OHCa climatology, both in winter and summer, is strongly affected by the wind stress and the current circulations in the SCS and its neighboring areas. However, the CMIP5 models present rather different spatial patterns and only a few models properly capture the dominant features in Ishii's pattern. Among them, GFDL-ESM2 G is of the best performance. The SCS OHC climatology in the upper 300 m varies greatly in different models. Most of them are much greater than those calculated from Ishii's data. However, the monthly OHCa climatology in each of the 17 CMIP5 models yields similar variation and magnitude as that in Ishii's. As for the interannual variability, the standard deviations of the OHCa time series in most of the models are somewhat larger than those in Ishii's. The correlation between the interannual time series of Ishii's OHCa and that from each of the 17 models is not satisfactory. Among them, BCC-CSM1.1 has the highest correlation to Ishii's, with a coefficient of about 0.6.
关 键 词:South China Sea ocean heat content Coupled Model Intercomparison Project phase 5
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