Characteristics of the CMIP3 Models Simulating Realistic Response of Tropical Western Pacific Precipitation to Nino3 SST Variability
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概要
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The 20^<th> century simulations from the World Climate Research Programme's Coupled Model Intercomparison Project phase 3 (CMIP3) multi-model dataset are examined statistically using numerical skills to capture the characteristics of the models which realistically simulate responses of the tropical western Pacific (TWP) precipitation to sea surface temperature (SST) variability over the Nino3 region [150°-90°W, 5°S-5°N]. The simultaneous correlation of precipitation anomaly over the TWP region of [90°-170°E, 20°S-20°N] with Nino3 SST variability is successfully reproduced with relatively high skills for June to August (JJA) as compared with those for December to February (DJF) and March to May. The high skill models have common characteristics of realistically simulating the observed largest precipitation response to Nino3 SST variability over the equatorial central Pacific east of the dateline. Furthermore, the realistic simulation of the climatological mean equatorial precipitation west of the dateline seems to be responsible for the realistic response of the TWP precipitation to Nino3 SST variability. A few of the models successfully simulate the delayed response of the JJA precipitation over the TWP region of [90°-170°E, 10°S-30°N] to the preceding DJF Nino3 SST variability with high skills. Those models reproduce the statistically observed features of subtropical northwestern Pacific SST anomaly, precipitation and SST anomalies over the Indian Ocean in JJA following DJF Nino3 SST variability. Another distinctive characteristic of those models is to reproduce almost null correlation of the equatorial central Pacific SST anomaly in JJA with the preceding DJF season Nino3 SST variability.
- 2009-08-25
著者
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Arakawa Osamu
Meteorological Research Institute
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OSE Tomoaki
Meteorological Research Institute
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Ose Tomoaki
Meteorological Res. Inst.
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Arakawa Osamu
Meteorological Res. Inst.
関連論文
- Development of APHRO_JP, the first Japanese high-resolution daily precipitation product for more than 100 years
- Characteristics of the CMIP3 Models Simulating Realistic Response of Tropical Western Pacific Precipitation to Nino3 SST Variability
- Projection of changes in future weather extremes using super-high-resolution global and regional atmospheric models in the KAKUSHIN Program: Results of preliminary experiments
- Present-Day Climate and Climate Sensitivity in the Meteorological Research Institute Coupled GCM Version 2.3 (MRI-CGCM2.3)