doi:  10.3878/j.issn.1006-9585.2019.18156
El Niño衰退年夏季西北太平洋异常反气旋季节内演变特征及其机制

Characteristics and Mechanisms of Sub-seasonal Evolution of Northwest Pacific Anomalous Anticyclone during the El Niño Decaying Summer
摘要点击 928  全文点击 215  投稿时间:2018-12-10  
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基金:  中国科学院战略性先导科技专项资助XDA20060502,国家自然科学基金41425086、41775086
中文关键词:  西北太平洋异常反气旋  季节内演变  局地海气相互作用
英文关键词:  Northwest Pacific Anomalous Anticyclone  Sub-seasonal evolution  Local air-sea interaction
        
作者中文名作者英文名单位
唐颢苏TANG Haosu中国科学院大气物理研究所大气科学和地球流体力学数值模拟国家重点实验室,北京100029;中国科学院大学,北京100049
胡开明HU Kaiming中国科学院大气物理研究所大气科学和地球流体力学数值模拟国家重点实验室,北京100029;全球变化研究协同创新中心,北京100875;中国科学院大气物理研究所季风系统研究中心,北京100190
黄刚and HUANG Gang中国科学院大气物理研究所大气科学和地球流体力学数值模拟国家重点实验室,北京100029;全球变化研究协同创新中心,北京100875
引用:唐颢苏,胡开明,黄刚.2019.El Niño衰退年夏季西北太平洋异常反气旋季节内演变特征及其机制[J].气候与环境研究,24(4):525-536,doi:10.3878/j.issn.1006-9585.2019.18156.
Citation:TANG Haosu,HU Kaiming,and HUANG Gang.2019.Characteristics and Mechanisms of Sub-seasonal Evolution of Northwest Pacific Anomalous Anticyclone during the El Niño Decaying Summer[J].Climatic and Environmental Research(in Chinese),24(4):525-536,doi:10.3878/j.issn.1006-9585.2019.18156.
中文摘要:
      基于多种再分析资料和观测资料,分析El Niño衰退年北半球夏季西北太平洋异常反气旋(NWPAC)季节内演变特征及其机制。结果表明,较之El Niño衰退年6月,NWPAC在7月与8月北移,且其强度在7月与8月显著增强。NWPAC通过影响对流层低层水汽通量散度对东亚夏季季节内降水产生影响,使东亚夏季异常雨带随NWPAC北移而逐渐北移;与NWPAC相伴随的降水异常减弱与入射太阳短波辐射增强,可引起夏季中南半岛、菲律宾及我国南部地区地表气温正异常,且随着NWPAC北移,东亚地表气温异常也随之北移。局地海气相互作用过程可能是NWPAC夏季季节内北移的成因之一。NWPAC北侧短波辐射的减弱和海表潜热与感热释放的增强会造成其下海温负异常,而海温负异常有利于NWPAC的维持。与之相反,NWPAC南侧短波辐射的增强与海表潜热与感热释放的减弱会造成其下海温正异常,而海温正异常可能会激发对流不利于NWPAC的维持。
Abstract:
      Characteristics and mechanisms of the sub-seasonal evolution of the Northwest Pacific Anomalous Anticyclone (NWPAC) phenomenon during a decaying El Niño in summer were analyzed based on a variety of reanalysis data and observation data. The results showed that the NWPAC had a more northern shift and increased intensity in both July and August compared with June during a decaying El Niño in summer. NWPAC affects precipitation in East Asia during boreal summer by influencing the divergence of water vapor fluxes in the low-level troposphere. The abnormal rain belt in East Asia shifts northward along with the NWPAC. The anomalous precipitation decline and increase in incidental solar short-wave radiant flux under the ridge of the NWPAC can result in positive surface air temperature anomalies in the Indochina Peninsula, the Philippines, and southern China during a decaying El Niño in summer. With the northward shift of the NWPAC, the positive surface air temperature anomalies in East Asia also shift northwards. Local air-sea interaction processes may be one of the causes of NWPAC’s northern jump during a decaying summertime El Niño. Increased short-wave radiant fluxes and reduced upward sensible and latent heat fluxes on the southern side of the NWPAC can cause anomalous positive sea surface temperature anomalies (SSTAs), and positive SSTAs, in turn, could be detrimental to NWPAC’s maintenance by inducing convective instability. In contrast, weakened short-wave radiation fluxes and increased upward sensible and latent heat fluxes on the northern side of NWPAC can cause negative anomalous SSTAs, which favors the maintenance of NWPAC.
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