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1.
Pao K. Wang   《Atmospheric Research》2007,83(2-4):254-262
The thermodynamic structure on top of a numerically simulated severe storm is examined to explain the satellite observed plume formation above thunderstorm anvils. The same mechanism also explains the formation of jumping cirrus observed by Fujita on board of a research aircraft. A three-dimensional, non-hydrostatic cloud model is used to perform numerical simulation of a supercell that occurred in Montana in 1981. Analysis of the model results shows that both the plume and the jumping cirrus phenomena are produced by the high instability and breaking of the gravity waves excited by the strong convection inside the storm. These mechanisms dramatically enhance the turbulent diffusion process and cause some moisture to detach from the storm cloud and jump into the stratosphere. The thermodynamic structure in terms of the potential temperature isotherms above the simulated thunderstorm is examined to reveal the instability and wave breaking structure. The plumes and jumping cirrus phenomena represent an irreversible transport mechanism of materials from the troposphere to the stratosphere that may have global climatic implications.  相似文献   

2.
孙哲  魏鸣 《大气科学学报》2016,39(2):260-269
利用NCEP再分析资料、探空资料、闪电定位资料和南京、常州多普勒雷达资料,通过对比分析南京2012年2月22日春季雷暴和2011年8月10日夏季雷暴两次过程,研究不同季节影响雷暴发生的大气结构以及强弱雷暴地闪特征的差异。结果表明:风矢位温(V-3θ)图揭示的大气动力热力水汽特征能够为雷暴的潜势预报提供先兆信息。两者相较而言,春季雷暴的动力抬升作用明显;夏季雷暴主要由热对流引起,对流层上层的动力抽吸作用不明显。春季弱雷暴正地闪在总地闪中所占比例较高。无论春季弱雷暴还是夏季强雷暴,地闪落点与辐合区对应关系明显,且地闪的落点也与雷达反射率因子有较好的对应关系:地闪主要分布在强回波区(大于40 d Bz)及其外围区域。但在较强雷暴云的发展阶段,地闪多发生在风暴体伸展方向的一侧,具有引导雷达回波移动的作用,夏季强雷暴地闪簇集在垂直风切变区域。  相似文献   

3.
陈权亮  高国路  李扬 《大气科学》2022,46(5):1198-1208
深对流能够向上对流层—下平流层(UTLS)输送大量水汽和污染物,对对流层顶的辐射平衡、平流层的臭氧恢复以及全球气候变化都有着重要的影响。近年来,一系列重要的观测事实发现,青藏高原和亚洲季风区是对流层向平流层物质输送(TST)的重要窗口。本文介绍了近年来取得的一些主要进展和成果,包括:(1)通过卫星观测在青藏高原—亚洲季风区上空发现水汽、气溶胶的极大值区和臭氧的极小值区;(2)深对流活动的主要观测途径和通过卫星观测识别深对流的方法;(3)青藏高原深对流向平流层物质输送的物理过程;(4)青藏高原深对流与亚洲季风区、热带海洋地区深对流的结构差异以及不同环境场对深对流物质输送过程的影响。  相似文献   

4.
孙宁  周天军  郭准  李普曦 《大气科学》2020,44(6):1155-1166
穿透性对流是导致北半球夏季平流层低层南亚高压内水汽极值形成的重要机制之一,关于副热带东亚季风区穿透性对流是否对平流层低层水汽等物质分布存在影响目前尚不清楚。本文选取2016年的武汉暴雨事件,采用Cloudsat和Aura Microwave Limb Sounder(MLS)卫星数据,分析了东亚季风区的穿透性对流活动对上对流层/下平流层物质分布的影响。利用CloudSat卫星资料云分类产品和Aura MLS卫星数据联合分析武汉暴雨过程中捕捉到1次穿透性对流事件,该事件发生于2016年7月4日05时(协调世界时)的穿透性对流,中心位于海上梅雨带区域。分析表明,这次对流穿透事件对上对流层/下平流层物质分布有显著影响,穿透性对流活动影响到对流层顶以上的物质分布,具体表现是:首先,穿透性对流显著减少了局地对流层顶附近的臭氧含量,较之气候态对流层顶臭氧含量偏少32.53%;其次,穿透性对流能够增加局地对流层顶附近的水汽混合比含量,它通过更多的云冰粒子蒸发来增强局地平流层水汽含量,同时通过更强的垂直水汽输送来直接加湿平流层。此次穿透性对流事件对水汽变化影响较之对臭氧含量变化的影响更为显著,它使得对流层顶水汽混合比增加近乎一倍(98.15%)。因此,副热带东亚季风区的穿透性对流活动对于对流层向平流层的物质输送起着重要的作用。  相似文献   

5.
The Aura-MLS observations of eight years from 2004 to 2011 have been utilized to understand the hydration and the dehydration mechanism over the northern and the southern hemispheric monsoon (NH and SH) regions. The monsoon regions considered are the Asian Summer Monsoon, East Asian Summer Monsoon, Arizona Monsoon (AM), North African Monsoon, South American Monsoon and the Australian Monsoon. The annual cycle of water vapor as expected shows maxima over the NH during June–August and during December–February over the SH. The time taken by the air parcels over the NH monsoon regions is found to be different compared to that over the SH monsoon regions. The analysis shows the concentration of water vapor in the upper troposphere and the lower stratosphere (UTLS) has not changed over these eight years in both the hemispheres during their respective monsoon seasons. The present analysis show different processes viz., direct overshooting convection, horizontal advection, temperature and cirrus clouds in influencing the distribution of water vapor to the UTLS over these different monsoon regions. Analysis of the UTLS water vapor with temperature and ice water content shows that the AM is hydrating the stratosphere compared to all the other monsoon regions where the water vapor is getting dehydrated. Thus it is envisaged that the present results will have important implications in understanding the exchange processes across the tropopause over the different monsoon regions and its role in stratosphere chemistry.  相似文献   

6.
根据WMO(1957)对流层高度的判别方法,利用2007—2013年COSMIC掩星资料计算了对流层高度,并用无线电探空资料对结果进行检验,分析了青藏高原地区对流层顶季节变化特征。结果表明,COSMIC掩星资料和无线电探空资料判定的对流层高度具有很高的线性相关关系,相关系数高达0.976,平均值偏差为0.448 km,均方根误差为0.672 km。受热力学因素影响,青藏高原对流层顶在夏季最高,在冬季和春季最低。从冬季到夏季,对流层顶断裂带的位置也逐渐北抬。春季、冬季和秋季,受赤道热源影响,从低纬到高纬,在对流层中低层中等熵面逐渐抬升、水汽混合比逐渐下降。夏季,在热源引起的深对流和季风产生的水平输送作用下,青藏高原上空出现了水汽的高值区。  相似文献   

7.
针对一次发生在中纬度夏季的深厚对流过程进行的数值模拟研究的结果,引入一个较详细描述深厚对流状态下云微物理过程的参数化方案,对一个有限差分三维非静力弹性大气数值模式进行了改进.数值模拟得到了与天气雷达观测一致的结果.结果还显示,对于这次穿透高度超过了对流层顶的深厚对流过程,与高空斜压扰动有关的上对流层弱稳定热力层结对系统的维持起到了重要的作用.另外,还发现强烈的对流发展到对流层顶的高度时,受上曳体的驱动,在对流层顶附近的稳定层结中产生浮力性的扰动;它们与风切变相结合,进而对系统的水平移动产生控制作用.  相似文献   

8.
为了揭示深对流云直接向平流层输送水汽的物理机制,利用WRF中尺度模式的理想个例运行方式对CCOPE(Cooperative Convective Precipitation Experiment)试验期间的一次超级单体进行了数值模拟。选用Thompson云微物理过程方案设置一系列初始云滴数浓度(N_c)进行模拟试验后发现,N_c=175 cm~(-3)情形下模拟云的最大垂直风速与实测结果最为接近,并且模拟出了超级单体。因此,本文利用该模拟结果分析了超级单体向平流层输送水汽的机制。1 min一次的输出结果表明:冻干脱水机制与本次所模拟出的平流层加湿没有直接的关系,超级单体向平流层输送水汽的主要机制可能为湍流输送机制,而升华加湿机制的作用很小。这是由于超级单体云上部的冰晶大部分被消耗而形成雪,因此被输送到平流层的主要是雪这种落速较大粒子,这种粒子不易被向上输送但又容易降落,因此升华所形成的水汽量相比湍流输送的水汽量小很多。湍流造成的水汽输送通量密度的量级约为10~(-9)kg·m~2·s~(-1)。  相似文献   

9.
Using the measurements from the Halogen Occultation Experiment(HALOE) and the European Centre for Medium-Range Weather Forecasts(ECMWF) Interim reanalysis data for the period 1994-2005, we analyzed the relationship between tropical tropopause temperature anomalies and stratospheric water vapor anomalies. It is found that tropical tropopause temperature is correlated with stratospheric water vapor, i.e., an anomalously high(low) tropical tropopause temperature corresponds to anomalously high(low) stratospheric water vapor during the period 1994-2005,except for 1996. The occurrence frequency and strength of deep convective activity during the‘mismatched'months is less and weaker than that during the‘matched'months in 1996. However, the instantaneous intensity of four short periods of deep convective activity, caused by strong surface cyclones and high sea surface temperatures, are greater during the ‘mismatched'months than during the ‘matched'months. Water vapor is transported from the lower troposphere to the lower stratosphere through a strong tropical upwelling, leading to an increase in stratospheric water vapor. On the other hand, deep convective activity can lift the tropopause and cool its temperature. In short, the key factor responsible for the poor correlation between tropical tropopause temperature and stratospheric water vapor in1996 is the instantaneous strong deep convective activity. In addition, an anomalously strong Brewer-Dobson circulation brings more water vapor into the stratosphere during the‘mismatched'months in 1996, and this exacerbates the poor correlation between tropical tropopause temperature and stratospheric water vapor.  相似文献   

10.
The NCEP/NCAR reanalysis, Japan Meteorological Agency(JMA) tropical cyclone tracks and intensive surface observations are used to diagnose the features of moisture transport of tropical storm Bilis(No. 0604), which is simulated by the WRF(weather research and forecasting) mesoscale numerical model. It is shown that the Bilis was linked with the moisture channel in the lower latitudes after its landing. Meanwhile, the cross-equatorial flows over 80°-100°E and Somali were active and brought abundant water vapor into the tropical storm, facilitating the maintenance of the landing storm with intensified heavy rainfall along its path. The simulation suggested that the decreased water vapor from lower latitudes prevents the maintenance of Bilis and the development of rainfall. While the cross-equatorial flows over 80°-100°E and Somali were in favor of keeping the cyclonic circulation over land. If the moisture supply fro m the Somali jet stream was reduced, the strength and area of heavy rainfall in tropical cyclone would be remarkably weakened. Consequently, the decreased water vapor from lower latitudes can remarkably suppress the deep convection in tropical storm, then Bilis was damped without the persistent energy support and the rainfall was diminished accordingly.  相似文献   

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