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31.
Diurnal variations of two mountain-plain solenoid (MPS) circulations associated with "first-step" terrain [Tibetan Plateau (TP)] and "second-step" terrain (high mountains between the TP and "east plains") in China and their influence on the south west vortex (SWV) and the mei-yu front vortex (MYFV) were investigated via a semi-idealized mesoscale numerical model [Weather Research and Forecasting (WRF)] simulation integrated with ten-day average fields (mei-yu period of 1-10 July 2007). The simulations successfully reproduced two MPS circulations related to first and second-step terrain, diurnal vari- ations from the eastern edge of the TP to the Yangtze River-Huaihe River valleys (YHRV), and two precipitation maximum centers related to the SWV, MYFV. Analyses of the averaged final seven-day simulation showed the different diurnal peaks of precipitation at different regions: from the aftemoon to early evening at the eastern edge of the TP; in the early evening to the next early morning in the Sichuan Basin (SCB); and in the late evening to the next early morning over the mei-yu front (MYF). Analyses of individual two-day cases confirmed that the upward branches of the nightlime MPS circulations enhanced the precipitation over the SWV and the MYFV and revealed that the eastward extension of the SWV and its con vection were conducive to triggering the MYFVs. The eastward propagation of a rainfall streak from the eastern edge of the TP to the eastern coastal region was primarily due to a series of convective activities of several systems from west to east, including the MPS between the TP and SCB, the SWV, the MPS between second-step terrain and tile east plains, and the MYFV. 相似文献
32.
近海水汽初值和对流影响一次华南前汛期沿海强降水对流系统发展过程的机理研究 总被引:2,自引:2,他引:0
本研究在对华南季风降水试验(SCMREX)观测资料分析的基础上,采用数值模拟试验探讨南海北部区域湿度场初值误差和海上对流对2014年5月8日华南沿海地区的一次强降雨过程的中尺度对流系统(MCS)的发展和移动的影响。加密探空和风廓线观测分析表明在珠江口地区有西南风和偏东风急流形成的辐合区,为对流在该地区增强发展提供了条件。增加和减少近海湿度以及关闭积云和微物理过程潜热释放,所造成的温度场以及风场的变化对广东沿海地区的对流的强度和移动路径都有明显的影响。特别是增加海上关键区的湿度,由于海上对流的发展改变了整个区域的环流,抑制了陆地上对流的发展。关闭海上关键区对流过程潜热的释放,导致低空急流到达更加偏北的位置,对流系统在模拟的后期向东北移动。通过这些试验表明,海上的湿度等要素场和对流活动对沿海地区的降雨预报有着十分重要的影响,需要进一步加强海上观测及其资料同化方法。 相似文献
33.
The dominant frequency modes of pre-summer extreme precipitation events(EPEs) over South China(SC) between1998 and 2018 were investigated. The 67 identified EPEs were all characterized by the 3–8-d(synoptic) frequency band.However, multiscale combined modes of the synoptic and three low-frequency bands [10–20-d(quasi-biweekly, QBW);15–40-d(quasi-monthly, QM); and 20–60-d(intraseasonal)] accounted for the majority(63%) of the EPEs, and the precipitation intensity on the peak wet day was larger th... 相似文献
34.
The vorticity, eddy kinetic energy, and helicity budgets were calculated to study the variations of a long-lived tropical mesoscale vortex that occurred over Hainan during the period 05?C09 October 2010. The main results are as follows: the vortex was mainly located at middle to lower levels of the troposphere, and among different levels, the dominant factors responsible for the variations of the vortex were different. Intense convergence at the lower troposphere dominated the formation and longevity of the vortex. The vertical transport of positive vorticity which was closely related to the convective activities was conducive to the formation and maintenance of the vortex. The barotropic energy conversion was favorable for the formation of the vortex, while the baroclinic energy conversion accelerated its attenuation. Background circulations were favorable for the longevity of the vortex, and interactions with other synoptic systems were important to its variations. The variation of helicity was closely related to the vortex, and the maintenance of positive helicity was another favorable factor for the longevity of the vortex. 相似文献
35.
Energy budgets were analyzed to study the development of an eastward propagating southwest vortex (SWV) associated with heavy rainfall over southern China(11-13 June 2008).The results show that kinetic energy(KE) generation and advection were the most important KE sources,while friction and sub-grid processes were the main KE sinks.There was downward conversion from divergent to rotational wind KE consistent with the downward stretching of SWVs.The Coriolis force was important for the formation and maintenance of the SWV.Convergence was also an important factor for maintenance,as was vertical motion during the mature stage of the SWV and the formation stage of a newly formed vortex(vortex B).The conversion from available potential energy(APE) to KE of divergent wind can lead to strong convection.Vertical motion influenced APE by dynamical and thermal processes which had opposite effects. The variation of APE was related to the heavy rainfall and convection;in this case,vertical motion with direct thermal circulation was the most important way in which APE was released,while latent heat release and vertical temperature advection were important for APE generation. 相似文献
36.
梅雨期青藏高原东移对流系统影响江淮流域降水的研究 总被引:5,自引:2,他引:3
利用GOES-9和FY-2C卫星TBB资料、1°×1°的NCEP再分析资料以及常规地面观测资料对2003和2007年梅雨期内青藏高原东移对流系统影响重庆、四川以及江淮梅雨锋地区降水的主要方式作了研究。结果表明,2003和2007年梅雨期内,青藏高原东移对流系统影响下游地区降水主要存在4种方式:(1)高原上的动力辐合中心伴随高原对流系统东移,影响所经地区的降水,该种影响方式较为常见,持续时间较长,影响范围较广。(2)高原对流系统移出高原后在四川盆地引发稳定少动的西南低涡,触发一系列暴雨过程,此种影响方式持续时间较长,主要影响地区为四川和重庆(往往会造成强度很大的暴雨),当西南低涡以东盛行较强西南风时,向梅雨锋的动能输送较强,这十分有利于梅雨锋地区对流活动和降水的加强。(3)高原东移对流系统在四川盆地触发西南低涡,西南低涡生成后,在引导槽的作用下沿梅雨锋东移,沿途引发一系列暴雨,此种影响方式持续时间最长,波及范围最广。(4)对流系统东移出青藏高原后直接影响下游地区,此种影响方式最为常见,但其影响时间最短,强度最小。对环境场的分析表明,高原强对流往往发生在500hPa影响槽槽区附近的上升运动区,当200hPa高空急... 相似文献
37.
Based on basic equations in isobaric coordinates and the quasi-geostrophic balance,an eddy-flux form budget equation of the divergent wind has been derived. This newly derived budget equation has evident physical significance. It can show the intensity of a weather system,the variation of its flow pattern,and the feedback effects from smaller-scale systems(eddy flows). The usefulness of this new budget equation is examined by calculating budgets for the strong divergent-wind centers associated with the South Asian high,and the strong divergence centers over the Tibetan Plateau,during summer(June–August) 2010. The results indicate that the South Asian high significantly interacts with eddy flows. Compared with effects from the mean flow(background circulation),the eddy flows' feedback influences are of greater importance in determining the flow pattern of the South Asian high. Although the positive divergence centers over the Tibetan Plateau intensify through different mechanisms,certain similarities are also obvious. First,the effects from mean flow are dominant in the rapid intensification process of the positive divergence center. Second,an intense offsetting mechanism exists between the effects associated with the eddy flows' horizontal component and the effects related to the eddy flows' convection activities,which weakens the total effects of the eddy flows significantly. Finally,compared with the effects associated with the convection activities of the mean flow,the accumulated effects of the eddy flows' convection activities may be more favorable for the enhancement of the positive-divergence centers. 相似文献
38.
Persistent heavy rainfall events (PHREs) over the Yangtze–Huaihe River Valley (YHRV) during 1981–2020 are classified into three types (type-A, type-B and type-C) according to pattern correlation. The characteristics of the synoptic systems for the PHREs and their possible development mechanisms are investigated. The anomalous cyclonic disturbance over the southern part of the YHRV during type-A events is primarily maintained and intensified by the propagation of Rossby wave energy originating from the northeast Atlantic in the mid–upper troposphere and the northward propagation of Rossby wave packets from the western Pacific in the mid–lower troposphere. The zonal propagation of Rossby wave packets and the northward propagation of Rossby wave packets during type-B events are more coherent than those for type-A events, which induces eastward propagation of stronger anomaly centers of geopotential height from the northeast Atlantic Ocean to the YHRV and a meridional anomaly in geopotential height over the Asian continent. Type-C events have "two ridges and one trough" in the high latitudes of the Eurasian continent, but the anomalous intensity of the western Pacific subtropical high (WPSH) and the trough of the YHRV region are weaker than those for type-A and type-B events. The composite synoptic circulation of four PHREs in 2020 is basically consistent with that of the corresponding PHRE type. The location of the South Asian high (SAH) in three of the PHREs in 2020 moves eastward as in the composite of the three types, but the position of the WPSH of the four PHREs is clearly westward and northward. Two water vapor conveyor belts and two cold air conveyor belts are tracked during the four PHREs in 2020, but the water vapor path from the western Pacific is not seen, which may be caused by the westward extension of the WPSH. 相似文献
39.
主要通过对骆驼墩遗址地层样品的粒度和重砂矿物的鉴定、样品中锆石形态的对比研究,铷锶值的测定与分析,了解该区域全新世以来的沉积环境及其气候变化,探索气候变化与人类文明和文化发展的关系。对骆驼墩遗址文化层下的自然淤积层的粒度分析和锆石形态研究发现该区域在人类出现之前可能经历过浅水泻湖环境; 结合重矿物及铷锶研究发现,该区域在全新世早期降水量较大,气候较为湿热,之后气候逐渐变得温暖湿润,为人类文明的出现和文化的发展提供了一个优越的气候条件; 通过对地层中文化层样品的重矿物鉴定及百分含量分析、ZTR稳定系数及Rb/Sr分析发现,全新世的气候是不断变化的。尤其在马家浜文化时期、良渚文化时期和广富林文化时期气候经历过温湿与干凉的交替变化过程。同时良渚文化时期的中晚期稳定系数出现了该地层的最高值,说明当时气候较为湿热,降水量偏多,这与良渚文化的消失与洪水有关的结论相一致。 相似文献
40.
On the vorticity and energy budgets of the cold vortex in Northeast China: a case study 总被引:1,自引:0,他引:1
This study examines the vorticity budgets, turbulent extended exergy and kinetic energy evolution equations to investigate the major dynamical and energy conversion processes contributing to the initiation and intensification of the cold vortex over Northeast China that occurred during June 19–22, 2009. The results show that the cyclonic vorticity was initiated in the lower troposphere due to the intense convergence of horizontal winds. The growth of cyclonic vorticity in the middle troposphere is mainly due to the vertical transportation of the vorticity, yet the increase of cyclonic vorticity in the upper troposphere primarily results from the horizontal advection of vorticity. Of special interest in this study is the evaluation of the role of thermal advections in the baroclinic development of the cold vortex. The results indicate that the rising of the air over relatively warm areas and the sinking of the air in relatively cold regions are favorable for releasing turbulent extended exergy $ \left( {e_{\text{t}} } \right) $ , which is later converted to turbulent kinetic energy $ \left( {k_{\text{t}} } \right) $ , and this process occurs during the initiation and intensification of the cold vortex. In addition, barotropic energy conversion is another important process that contributes to the growth of k t, and it strengthens gradually after the initiation of the cold vortex. Other than frictional consumption, the flux of k t in the vertical direction also depletes some of k t. The fluxes of e t, baroclinic energy conversions and diabatic generations are favorable factors for the growth of e t, whereas it decreases with time as a result of a large amount of e t that is released. Most of the energy conversion processes, including the baroclinic and the barotropic energy transformations and the energy conversions from e t to k t, as well as the fluxes of e t, are stronger in the lower troposphere than the other areas during the formation of the cold vortex. This accounts for the initiation of the cyclonic vorticity in the lower troposphere. Finally, the fact that the turbulent extended exergy releases primarily in the middle troposphere through the vertical thermal circulation is consistent with our understanding based on the vorticity budget analyses. 相似文献