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A STUDY ON THE CHARACTERISTICS AND EFFECT OF THE LOW-FREQUENCY OSCILLATION OF THE ATMOSPHERIC HEAT SOURCE OVER THE EASTERN TIBETAN PLATEAU 总被引:1,自引:1,他引:0
There has been a lot of discussion about the atmospheric heat source over the Tibetan Plateau (TP) and the low-frequency oscillation of atmospheric circulation. However, the research on low-frequency oscillation of heat source over TP and its impact on atmospheric circulation are not fully carried out. By using the vertically integrated apparent heat source which is calculated by the derivation method, main oscillation periods and propagation features of the summer apparent heat source over the eastern TP (Q1ETP) are diagnosed and analyzed from 1981 to 2000. The results are as follows: (1) Summer Q1ETP has two significant oscillation periods: one is 10-20d (BWO, Quasi-Biweekly Oscillation) and the other is 30-60d (LFO, Low-frequency Oscillation). (2) A significant correlation is found between Q1ETP and rainfall over the eastern TP in 1985 and 1992, showing that the low-frequency oscillation of heat source is likely to be stimulated by oscillation of latent heat. (3) The oscillation of heat source on the plateau mainly generates locally but sometimes originates from elsewhere. The BWO of Q1ETP mainly exhibits stationary wave, sometimes moves out (mainly eastward), and has a close relationship with the BWO from the Bay of Bengal. Showing the same characteristics as BWO, the LFO mainly shows local oscillation, occasionally propagates (mainly westward), and connects with the LFO from East China. In summary, more attention should be paid to the study on BWO of Q1ETP. 相似文献
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1981—2000年夏季青藏高原大气热源低频振荡特征及其影响 总被引:2,自引:0,他引:2
青藏高原的大气热源及其影响以及环流的低频振荡已有很多探讨,但有关高原大气热源低频振荡及其对环流影响的研究目前尚未充分开展。利用倒算法计算得到的大气热源总量(Q1),诊断和分析1981—2000年夏季青藏高原东部逐日大气热源(Q1ETP,Q1 of the eastern Tibetan Plateau)的主要振荡周期及其对应的传播特征,并取其中1985、1992年进行更详细的分析。结果表明:(1)夏季高原东部大气热源存在两种低频振荡,主要为10~20 d振荡(BWO,Quasi-Biweekly Oscillation),其次为30~60 d振荡(LFO,Low Frequency Oscillation)。(2)在1985、1992年中,高原热源低频振荡与当地降水低频振荡有很好的同位相谱相关,表明热源低频振荡很可能由凝结潜热的振荡激发的,这证明了本文热源数据的可靠性。(3)高原在夏季主要是振荡源地,但也接受外来影响。高原热源BWO生成后主要在原地维持振荡,并受来自孟加拉湾的热源BWO影响,有时部分振荡向外(主要向东)传播;热源LFO情况与BWO类似,以本地振荡为主但也受来自东部大陆LFO的影响,外传时则主要向西。所以研究高原热源低频振荡需要特别注意热源BWO。 相似文献
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全球变暖与亚洲夏季风北边缘带:CO2增倍的数值模拟 总被引:1,自引:0,他引:1
利用NCAR CAM3全球大气环流模式(包含CLM陆面模式)进行了20年(1998-2017年)CO2增倍的数值试验,并通过计算海陆热力差异,分析了环流形势、雨带分布和云量特征等物理量,研究了全球变暖对东亚夏季风北边缘带的影响。结果表明,CAM3大气环流模式能较好地描述东亚地区大尺度环流的季节变化特征,当CO2含量成倍增长后,将对亚洲经度范围内的夏季风北边缘的位置产生不同的影响,具体表现为100°~123°E地区北边缘位置偏北明显,100°E以西略偏北,123°~132°E略偏北幅度很小,132°E以东呈现出一定的偏北趋势。其原因可能是由于陆地增温有利于青藏高原低层气旋性环流的加强以及北半球纬向海陆热力差异的增加,从而导致我国西南和东南方向向北的水汽输送明显增加。研究表明,南北半球的海陆热力差异无明显变化,南北半球间的相互作用与北半球夏季风增强无明显的联系,两者的关系还有待进一步研究。 相似文献
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