您的位置: 专家智库 > >

国家自然科学基金(41275088)

作品数:10 被引量:157H指数:6
相关作者:吴国雄刘伯奇刘屹岷卓海峰王子谦更多>>
相关机构:中国科学院大气物理研究所中国科学院大学佛罗里达州立大学更多>>
发文基金:国家自然科学基金国家重点基础研究发展计划公益性行业(气象)科研专项更多>>
相关领域:天文地球更多>>

文献类型

  • 9篇中文期刊文章

领域

  • 9篇天文地球

主题

  • 4篇青藏
  • 4篇青藏高原
  • 3篇位涡
  • 2篇地形
  • 2篇对流层
  • 2篇对流层顶
  • 2篇夏季
  • 2篇流层
  • 2篇层顶
  • 2篇大地形
  • 2篇ZONAL
  • 1篇等熵
  • 1篇地球系统
  • 1篇对流层上层
  • 1篇印度夏季风
  • 1篇数据共享
  • 1篇平流层
  • 1篇气候
  • 1篇气候系统
  • 1篇全球变化

机构

  • 6篇中国科学院大...
  • 4篇中国科学院大...
  • 2篇中国科学院
  • 2篇南京信息工程...
  • 2篇中山大学
  • 2篇佛罗里达州立...
  • 1篇中国气象局国...
  • 1篇中国气象科学...
  • 1篇国家自然科学...

作者

  • 5篇吴国雄
  • 3篇刘屹岷
  • 3篇刘伯奇
  • 2篇王子谦
  • 2篇卓海峰
  • 1篇任荣彩
  • 1篇刘新
  • 1篇林海
  • 1篇刘超
  • 1篇何编
  • 1篇李伟平
  • 1篇邹晓蕾

传媒

  • 3篇中国科学:地...
  • 2篇Scienc...
  • 1篇气象科学
  • 1篇地球科学进展
  • 1篇气象学报
  • 1篇Journa...

年份

  • 1篇2017
  • 1篇2016
  • 1篇2015
  • 6篇2014
10 条 记 录,以下是 1-9
排序方式:
6种地表热通量资料在伊朗-青藏高原地区的对比分析被引量:16
2015年
基于JRA25、ERA40、ERA-Interim、NCEP1、NCEP2和20CR,对比了不同资料中气候平均(1979—2008年)伊朗—青藏高原感热通量和波文比的季节演变,以及夏季高原感热的年际变率和线性趋势。6套资料均表明,由春到夏亚洲大地形区域地表热状况的季节演变存在明显差异,青藏高原东南部低空气旋生成,一方面增多了局地降水,减弱了地表西风,造成潜热加强,感热减弱,波文比减小;另一方面加强了伊朗高原的东北风,抑制了当地降水,令感热加强,波文比增加,构成了青藏—伊朗高原感热通量季节演变的纬向非对称分布。虽然近30 a来伊朗高原(青藏高原)夏季感热线性增加(减小)的趋势一致,但不同资料所反映的伊朗—青藏高原夏季感热通量的年际变化差别明显。
刘超刘屹岷刘伯奇
关键词:感热通量波文比
The effects of asymmetric potential vorticity forcing on the instability of South Asia High and Indian summer monsoon onset被引量:5
2014年
Based on the theory of potential vorticity(PV),the unstable development of the South Asia High(SAH)due to diabatic heating and its impacts on the Indian Summer Monsoon(ISM)onset are studied via a case diagnosis of 1998.The Indian Summer Monsoon onset in 1998 is related to the rapidly strengthening and northward moving of a tropical cyclone originally located in the south of Arabian Sea.It is demonstrated that the rapid enhancement of the cyclone is a consequence of a baroclinic development characterized by the phase-lock of high PV systems in the upper and lower troposphere.Both the intensification of the SAH and the development of the zonal asymmetric PV forcing are forced by the rapidly increasing latent heat released from the heavy rainfall in East Asia and South East Asia after the onsets of the Bay of Bengal(BOB)monsoon and the South China Sea(SCS)monsoon.High PV moves southwards along the intensified northerlies on the eastern side of the SAH and travels westwards on its south side,which can reach its northwest.Such a series of high PV eddies are transported to the west of the SAH continuously,which is the main source of PV anomalies in the upper troposphere over the Arabian Sea from late spring to early summer.A cyclonic curvature on the southwest of the SAH associated with increasing divergence,which forms a strong upper tropospheric pumping,is generated by the anomalous positive PV over the Arabian Sea on 355 K.The cyclone in the lower troposphere moves northwards from low latitudes of the Arabian Sea,and the upper-layer high PV extends downwards and southwards.Baroclinic development thus occurs and the tropical low-pressure system develops into an explosive vortex of the ISM,which leads to the onset of the ISM.In addition,evolution of subtropical anticyclone over the Arabian Peninsula is another important factor contributing to the onset of the ISM.Before the onset,the surface sensible heating on the Arabian Peninsula is very strong.Consequently the subtropical anticyclone which dominated the Arabian Se
ZHANG YaNiWU GuoXiongLIU YiMinGUAN Yue
平流层-对流层相互作用研究进展:等熵位涡理论的应用及青藏高原影响被引量:13
2014年
系统介绍了近年来应用等熵位涡理论研究平流层-对流层动力相互作用所发现的一些新的事实和机理,包括平流层冬季极涡振荡过程中平流层、对流层环流异常的时空传播特征,以及等熵质量理论框架下的平流层-对流层动力耦合机理,还介绍了影响平流层环流年际尺度异常的因子及影响过程。回顾了夏季青藏高原的热力作用所激发的负位涡强迫源对东亚及全球大气环流的影响。并基于对夏季高原周边等熵位涡经向输送垂直分布的诊断进一步说明,夏季青藏高原的存在使高原东缘及东亚地区成为平流层和对流层物质交换的独特区域,探讨了夏季青藏高原影响平流层-对流层动力耦合的一种重要途径及其影响全球气候的重要意义。
任荣彩吴国雄CAI Ming孙舒悦刘新李伟平
关键词:青藏高原
全球气候变化研究与科学数据被引量:45
2014年
在阐明气候系统和科学数据关系的基础上,提出气候变化研究应该重视地球系统研究对科学数据的需求。在回顾我国近10年来全球变化研究概况的基础上,指出了观测资料和数据再分析产品在全球变化研究中的重要性,并进一步总结了国外气象数据共享情况,最后对我国地球系统科学数据共享中心今后的发展提出了几点建议。
吴国雄林海邹晓蕾刘伯奇何编
关键词:全球变化科学数据地球系统气候系统数据共享
强迫和惯性不稳定对流发展在印度夏季风爆发过程中的作用被引量:1
2014年
利用NCEP/NCAR R1再分析资料,分析了阿拉伯海上空对流层低层惯性不稳定现象对印度夏季风爆发过程的影响,揭示了纬向地转动量的纬向平流在惯性不稳定中的重要作用.研究表明,在印度夏季风爆发过程中,由于强烈的跨赤道气压梯度,对流层低层的绝对涡度零线(η=0)在阿拉伯海南部上空自赤道向北推进,从而在北半球近赤道区域形成负绝对涡度区,该区域表现出明显的自由惯性不稳定.在摩擦作用下,当气流自南向北通过这一区域时,在绝对涡度零线北侧出现低层辐合中心,有利于低纬度对流发展.然而这种经典的惯性不稳定对流只出现在近赤道地区,对印度季风爆发的直接影响不明显.另一方面在η=0线北侧海平面低压中心南部,尽管该区域大气处于惯性稳定状态,低空西风气流的发展造成明显的纬向地转动量的纬向平流.理论和诊断分析表明,该纬向地转动量平流与南北方向海陆热力差异沿着纬圈非均匀分布密切相关,它引起低空辐合中心出现在印度大陆西南海岸低空急流附近及其北侧,为印度夏季风爆发提供有利的低空环流条件.说明春末夏初阿拉伯海地区低层对流的发展除了受摩擦惯性不稳定影响外,更受到海陆热力差异纬向分布不均匀的强烈影响.此外,在印度夏季风爆发前,对流层高层的南亚高压东伸发展,将中纬度高位涡输送到阿拉伯海上空,形成局地"喇叭口"状流场,产生明显的高空抽吸作用,为夏季风的爆发推进提供了有利的高空背景条件.当其与南北海陆热力对比的纬向差异所强迫的低空辐合中心在印度大陆西南海岸附近垂直耦合引起大气斜压不稳定发展时,激发了印度夏季风爆发.
吴国雄刘伯奇
夏季亚洲大地形双加热及近对流层顶位涡强迫的激发Ⅱ:伊朗高原-青藏高原感热加热被引量:11
2017年
基于诊断和数值模拟,研究了夏季青藏高原和伊朗高原热力强迫的相互作用,其对亚洲副热带季风区水汽通量辐合的贡献及对欧亚大陆上空高对流层顶和平流层低层冷中心形成的影响.结果表明两大高原感热加热存在相互影响和反馈,伊朗高原感热加热减少青藏高原的表面加热,而青藏高原的感热加热则增加伊朗高原的表面加热;形成了观测到的伊朗高原感热加热-青藏高原感热加热和凝结潜热释放-大气垂直环流之间的准平衡耦合系统(TIPS),影响大气环流.青藏高原上的感热-潜热相互反馈在这个TIPS耦合系统中起主要作用.两大高原感热加热对其他地区的影响有相互加强也有相互抵消;青藏高原感热加热引发的对亚洲副热带季风区水汽通量辐合贡献率为伊朗高原感热影响的2倍以上;伊朗高原和青藏高原的感热加热共同作用对亚洲副热带季风区的水汽辐合作出最主要的贡献.TIPS的加热作用使对流层温度升高,并抬升了其上空的对流层顶,造成了那里平流层下层温度偏低;与欧亚大陆大尺度热力强迫共同作用,形成了对流层上层的暖性但在平流层下层为冷性的强大的反气旋环流南亚高压,从而影响区域和全球的天气气候.
刘屹岷王子谦卓海峰吴国雄
夏季亚洲大地形双加热及近对流层顶位涡强迫的激发(Ⅰ):青藏高原主体加热被引量:12
2016年
基于数值模拟研究了夏季青藏高原高于2km的主体上的表面感热加热和潜热加热的特征及其相互作用,比较了这种双加热对局地垂直运动及季风经圈环流的影响.从理论和数值模拟证明了双加热通过影响对流层上层的温度场和流场结构,在近对流层顶处激发出绝对涡度最小值和异常位涡强迫源,进而增强亚洲季风经向环流并在西风带中产生罗斯贝波波列、影响北半球环流的机理.
吴国雄卓海峰王子谦刘屹岷
Roles of forced and inertially unstable convection development in the onset process of Indian summer monsoon被引量:5
2014年
The NCEP/NCAR R1 reanalysis data are employed to investigate the impact of forced and inertial instability in the lower troposphere over the Arabian Sea on the onset process of Indian summer monsoon(ISM),and to reveal the important role of zonal advection of zonal geostrophic momentum played in the forced unstable convection.Results show that during the ISM onset the zero absolute vorticity contour(??=0)shifts northward due to the strong cross-equatorial pressure gradient in the lower troposphere over southern Arabian Sea.Thus a region with negative absolute vorticity is generated near the equator in the northern hemisphere,manifesting the evident free inertial instability.When a southerly passes through this region,under the influence of friction a lower convergence that facilitates the convection flourishing at the lower latitudes appears to the north of zero absolute vorticity contour.However,owing to such a traditional inertial instability,the convection is confined near the equator which does not have direct influence on the ISM onset.On the contrary in the region to the north of the zero absolute vorticity contour and to the south of the low pressure center near the surface,although the atmosphere there is inertially stable,the lower westerly jet can develop and bring on the apparent zonal advection of zonal geostrophic momentum.Both theoretical study and diagnosing analysis present that such a zonal advection of geostrophic momentum is closely associated with the zonal asymmetric distribution of meridional land-sea thermal contrast,which induces a convergence center near and further north of the westerly jet in the lower troposphere over the southwestern coast of the Indian Peninsula,providing a favorable lower circulation for the ISM onset.It illustrates that the development of convection over the Arabian Sea in late spring and early summer is not only due to the frictional inertial instability but also strongly affected by the zonal asymmetric distribution of land-sea thermal contrast.Moreover,before the
WU GuoXiongLIU BoQi
Progress in Research of Stratosphere—Troposphere Interactions:Application of Isentropic Potential Vorticity Dynamics and the Effects of the Tibetan Plateau被引量:1
2014年
This paper reviews recent progress in understanding isentropic potential vorticity (PV) dynamics during interactions between the stratosphere and troposphere, including the spatial and temporal propagation of circulation anomalies associated with the winter polar vortex oscillation and the mechanisms of stratosphere- troposphere coupling in the global mass circulation framework. The origins and mechanisms of interannual variability in the stratospheric circulation are also reviewed. Particular attention is paid to the role of the Tibetan Plateau as a PV source (via its thermal forcing) in the global and East Asian atmospheric circulation. Diagnosis of meridional isentropic PV advection over tile Tibetan Plateau and East Asia indicates that the distributions of potential temperature and PV over the east flank of the Tibetan Plateau and East Asia favor a downward and southward isentropic transport of high PV from the stratosphere to the troposphere. This transport manifests the possible influence of the Tibetan Plateau on the dynamic coupling between the stratosphere and troposphere during summer, and may provide a new framework for understanding the climatic effects of the Tibetan Plateau.
任荣彩吴国雄CAI Ming孙舒悦刘新李伟平
共1页<1>
聚类工具0