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基于IPCC AR4部分耦合模式结果的21世纪长江中下游强降水预估

Projecting heavy rainfall events in the middle and lower reach of the Yangtze River valley in the 21st century based on IPCC AR4 simulations

  • 摘要: 利用IPCC AR4气候模式诊断和相互比较项目(PCMDI)20世纪模拟试验资料, 通过模式气候态与观测(再分析)气候态的对比, 从存有完整逐日降水资料的14个模式中挑选出7个对东亚模拟较好的模式(即gfdl cm2.0、 gfdl cm2.1、 cgcm、miroc(m)、 cnrm、 echam、 cgcmt47)。然后, 利用这7个模式在A1B、 A2、 B1三种不同温室气体排放情景下21世纪预估试验结果, 分析长江中下游强降水的未来演变。结果表明: 不同模式模拟结果有较好的一致性。相对20世纪后20年(1980—1999年)的平均而言, 21世纪不仅年平均强降水日数、 单次强降水强度呈现上升趋势, 且其年际变率也增强; 就不同排放情景比较而言, A1B、 A2情景下强降水频次与强度的增强趋势均比B1情景下要大; 就多模式平均来看, 在A1B、 A2、 B1排放情景下, 强降水频次分别增加约30%、 20%、 l5%, 强降水强度分别增加约20%、20%、 10%, 强降水频次的年际标准差在三种情景下均增加约20%, 强降水强度年际标准差分别增加约20%、20%、 10%。这些结果意味着, 未来不仅强降水增加, 且极端暴雨、 大暴雨易于出现, 旱涝也将更为频繁。

     

    Abstract: By comparing the modeled climatological states in IPCC AR4 PCMDI simulations with the observed (reanalyzed) climatological states, seven models including gfdl cm2.0, gfdl cm2.1, cgcm, miroc(m), cnrm, echam, and cgcmt47 are selected, due to the better performance over East Asia, from all the fourteen coupled climate system models which have daily precipitation data. The Projection of the heavy rainfall events in the middle and lower reaches of the Yangtze River valley in the 21st century is derived from the experimental runs with the seven models under the three emission scenarios, A1B, A2 and Bl. The results suggest an overall agreement among the models, and averagely the occurrence of the events, the rainfall intensity in a single event, and the interannual variability of events are predicted to be relatively an upward tendency by comparison with that in the latest twenty years of the 20th century (1980-1999). When the different emission scenarios are concerned, the predicted occurrence frequency and intensity under A1B and A2 are higher than that under B1. As for the multiple model ensembles, the occurrence rate of the events is predicted to be increased by 30%, 20%, and l5%, and the intensity in a single event is predicted to be increased by 15%, l0%, and 5% under the emission scenarios A1B, A2, and B1 respectively. Correspondingly, the interannual standard deviations of the event occurrences and the rainfall intensity in a single event are predicted to be increased by 20% and 5% respectively.These indicate there will be not only more occurrence of heavy rainfall events, but also a larger potential increase of extreme heavy rainfall events, as well as more frequent emergence of drought and floods in the future.

     

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