中国东部夏季降水与同期东亚副热带急流年代际异常的关系   总被引：10，自引：1，他引：9       下载免费PDF全文

孙凤华  张耀存  郭兰丽 《高原气象》2009,28(6):1308-1315

利用中国738个台站的降水观测资料和NCEP/NCAR再分析资料, 分析了我国降水和200 hPa东亚副热带西风急流轴的年代际变化特征, 揭示了东亚副热带西风急流位置的南北移动与我国长江流域和华北降水异常之间的联系。结果表明, 我国东部地区夏季（7、 8月）降水异常主要表现为长江中下游地区多（少）雨, 华北及华南地区少（多）雨, 20世纪70年代末80年代初是这种异常分布型发生转折的时间。与此同时, 东亚高空副热带急流轴位置从70年代末开始逐渐偏南, 急流轴位置的变动将引起对流层低层水汽辐合区和高层散度分布以及垂直环流相应的变化, 进而引起降水区域的变化。相关分析发现, 当急流位置偏南时, 25°~35°N西风增强, 42°~50°N西风减弱, 华北夏季降水减少, 长江中下游地区夏季降水增多; 反之, 当急流位置偏北时, 华北夏季降水增多, 长江中下游地区夏季降水减少。与70年代末开始的我国东部地区急流轴位置逐渐南移相对应, 华北地区夏季降水呈现逐渐减少、 长江中下游地区夏季降水呈现逐渐增多的变化趋势。分析低层水汽通量和高层的散度分布以及垂直环流的差异发现, 1980年以来华北地区对流层中低层水汽通量辐合减弱, 水汽供应减少, 垂直上升运动减弱, 造成了华北夏季降水减少, 而长江中下游地区水汽通量辐合增加, 水汽供应增多, 垂直上升运动增强, 导致该地区降水增加。  相似文献   

东亚副热带西风急流变化多模式模拟结果分析   总被引：6，自引：2，他引：4       下载免费PDF全文

张耀存  郭兰丽 《气象科学》2010,30(5):694-700

利用政府间气候变化委员会第四次评估报告(IPCC AR4)中等强度温室气体排放情景试验(SRES A1B)多个耦合模式的输出结果,通过多模式集合的方法分析全球变暖背景下东亚副热带西风急流的变化特征,发现在多模式集合平均结果中,随着温室气体增多、温室效应进一步加剧,冬季急流强度增强,急流位置向北移动,夏季急流强度也呈现出增强的趋势,位置却向南移动。在全球变暖背景下,冬季北半球从低纬到中高纬度对流层中高层温度将增加,但低纬增温强、高纬增温弱,导致副热带地区温度梯度增加,夏季增温幅度比冬季大,且强增温区向北移,造成急流轴北侧区域温度梯度增大,并通过热成风关系使得急流区纬向风增强。  相似文献   

Simulations of the East Asian subtropical westerly jet by LASG/IAP AGCMs     

郭兰丽  张耀存  王斌  李立娟  周天军  包庆 《大气科学进展》2008,25(3):447-457

Performances of two LASG/IAP(State Key Laboratory of Numerical Modeling for Atmospheric Sci- ences and Geophysical Fluid Dynamics/Institute of Atmospheric Physics)Atmospheric General Circulation Models(AGCMs),namely GAMIL and SAMIL,in simulating the major characteristics of the East Asian subtropical westerly jet(EASWJ)in the upper troposphere are examined in this paper.The mean vertical and horizontal structures and the correspondence of the EASWJ location to the meridional temperature gradient in the upper troposphere are well simulated by two models.However,both models underestimate the EASWJ intensity in winter and summer,and are unable to simulate the bimodal distribution of the ma- jor EASWJ centers in mid-summer,relative to the observation,especially for the SAMIL model.The biases in the simulated EASWJ intensity are found to be associated with the biases of the meridional temperature gradients in the troposphere,and furthermore with the surface sensible heat flux and condensation latent heating.The models capture the major characteristics of the seasonal evolution of the diabatic heating rate averaged between 30°-45°N,and its association with the westerly jet.However,the simulated maximum diabatic heating rate in summer is located westward in comparison with the observed position,with a rela- tively strong diabatic heating intensity,especially in GAMIL.The biases in simulating the diabatic heating fields lead to the biases in simulating the temperature distribution in the upper troposphere,which may further affect the EASWJ simulations.Therefore,it is necessary to improve the simulation of the meridional temperature gradient as well as the diabatic heating field in the troposphere for the improvement of the EASWJ simulation by GAMIL and SAMIL models.  相似文献