共查询到18条相似文献,搜索用时 125 毫秒
1.
2001年春季临安地区对流层臭氧异常增加的一次过程分析 总被引:6,自引:0,他引:6
2001年春季在临安(30.30°N,119.75°E)进行的臭氧垂直探测发现,从3月25到31日有一次明显的臭氧异常增加过程,其中尤以29日和30日对流层上层的臭氧异常增加最具代表性.结合分析地面及高空气象要素演变和高空位势涡度的变化表明,这是一次显著的平流层空气由上向下穿过对流层顶深入对流层的下传过程,此平流层对流层交换过程与冷空气南下的天气过程和副热带急流、极锋急流移动造成的辐合下沉运动有着密切的联系. 相似文献
2.
北京地区对流层顶变化及其对上对流层/下平流层区域臭氧变化的影响 总被引:7,自引:4,他引:7
根据2001~2003年期间获得的大气臭氧探空资料,揭示了北京地区上空对流层顶高度的某些变化特征及其对上对流层(UT)和下平流层(LS)区域内大气臭氧含量变化的影响.结果显示:北京地区上空对流层顶高度的平均值约11.1 km,其变化范围为7.7~14.4 km,臭氧层顶始终处在对流层顶下方约0.9 km高度处.对流层顶高度变化与臭氧总量变化之间的关系相对较弱.通常情况下,LS中的臭氧积分量明显高于UT中的相应值,并且二者呈相反的季节变化特征.北京地区上空仲夏和初秋季节第一对流层顶出现的频数明显减少,在第一对流层顶消失的情况下,LS中的臭氧积分量明显减少,而UT中的臭氧积分量明显增加,臭氧量减少最多发生在200~100 hPa层次中,而臭氧量增幅最大的层次是400~250 hPa. 相似文献
3.
青藏高原东北侧臭氧垂直分布与平流层-对流层物质交换 总被引:3,自引:0,他引:3
利用臭氧和温度探空廓线,结合NCEP/NCAR资料、TOMS臭氧总量卫星观测资料和NOAAHYSPLIT后向轨迹模式资料,通过个例分析探讨了影响青藏高原(下称高原)附近臭氧垂直分布的因子和过程。结果表明,动力过程是影响高原上空臭氧垂直分布的主要因子,特别是中高纬度高臭氧浓度的空气向南入侵会导致高原上空臭氧浓度的升高,影响高原上空臭氧低谷的范围大小和形态;尽管大气化学过程对高原上空的平流层下层臭氧垂直分布的影响并不显著,但是高原上空的平流层臭氧变化与温度变化具有较好的一致性。同时还发现,对流层上层的强反气旋系统,特别是中高纬度阻塞高压的边缘有明显的平流层空气向对流层入侵,从而导致对流层内臭氧浓度的增加。 相似文献
4.
首先利用臭氧探空资料验证了Aura-MLS卫星反演臭氧产品在青藏高原地区的可信度, 然后基于2005年和2006年夏季的数据产品确定了亚洲季风区夏季对流层向平流层的输送通道。结果表明, 青藏高原及其周边区域上对流层-下平流层(UT/LS)中, 一氧化碳(CO)和臭氧(O3)浓度散点分布大体上呈现出典型的“L”型分布, 夏季季节内变化反相关特征表现最明显的高度位于150 hPa附近。从时间变化上看, 7月份相关系数最大, 说明该月份对流层-平流层物质交换最为强烈。100 hPa高度位于对流层顶高度以上, 具有对流层特性的大气主要分布在青藏高原东南侧、 孟加拉湾、 印度半岛、 阿拉伯海以及阿拉伯半岛等区域上空, 说明该区域可能是亚洲季风区夏季对流层向平流层物质输送的一个主要通道。 相似文献
5.
对流层臭氧垂直分布变化对气候环境有重要的影响,然而观测数据一直较为稀缺。利用2016年7月下旬—8月青海省格尔木市对流层臭氧探空观测资料开展夏季青藏高原北部对流层臭氧垂直分布变化特征及其形成机制的大气背景研究。结果表明,在大气背景的转换下对流层臭氧垂直分布整体上呈现高(低)臭氧与低(高)水汽和高(低)位势涡度的对应。除7月25—27日高空低压槽过境导致的平流层向下输送使对流层臭氧浓度升高明显外,阻塞暖高压反气旋和源自青藏高原主体地区的强对流天气过境也对对流层臭氧分布有影响:阻塞暖高压在观测点东北部形成后导致7月31日至8月8日格尔木对流层连续出现罕见东风,但对流层臭氧浓度仅在8月2日因东北—西南方向反气旋切变而出现较高值,其中6 km高度以下则因为东风输送而出现高臭氧、高比湿的污染性气团;强对流天气过境影响使得8月12—14日10 km高度以上出现臭氧最低值和比湿最高值。与西宁历史夏季(1996年7—8月初)臭氧探空测值比较,格尔木对流层臭氧浓度8月偏低,该特征与季风影响青藏高原纬度最高地区所在月份一致。与林芝(2014年7月)、那曲(2011年7月末—8月中旬)和拉萨(1998年8月)历史夏季臭氧探空测值比较发现,纬度效应对青藏高原地区对流层臭氧浓度有影响。 相似文献
6.
利用1996年3月-2003年6月部分时段拉萨、西宁、北京3个站的臭氧探空资料验证了GOME(Global Ozone Monitoring Experiment)卫星臭氧廓线及对流层臭氧柱总量。对比结果表明:在对流层中下层,拉萨和西宁两地GOME与探空的平均偏差小于5%,北京地区平均偏差小于10%;在对流层上层/平流层下层,拉萨和西宁平均偏差小于10%,北京小于20%;在平流层中上层3个站的平均偏差均小于5%。在对流层上层/平流层下层区域,GOME与臭氧探空的平均偏差在北京明显高于拉萨和西宁。3个地区对流层柱总量的平均偏差都在10%以内,表明该资料可用于研究我国对流层臭氧总量的变化规律。同时段的GOME最低层(0~2.5km)月平均臭氧浓度对比结果显示,GOME结果同地面臭氧观测值有很好的相关性,GOME臭氧浓度反映了拉萨、瓦里关、临安地面臭氧浓度的主要变化特征。 相似文献
7.
在南非西部的对流层观测到臭氧的极大值.为研究臭氧极大值的气象环境,此文描述了南大西洋10月的气候流型,并利用欧洲中期天气预报中心的分析场及高分辨率谱模式预报场对1989年10月中的6天做个例分析。考察了水平和垂直运动,并给出了从臭氧极大值区域开始的三维后向轨迹。把臭氧的初始纬向对称分布作为被动示踪物,然后由全球模式预报的三维气流进行平流。被动示踪物模拟的结果表明,仅靠三维平流的作用就可能在观测的地区产生臭氧的极大值。在巴西上空,如果是由对流过程将生物量燃烧的生成物带到对流层高层,大约用5天时间可以向东传到臭氧特征层.在热带南大西洋显著的下沉区表明,平流层的影响也是产生臭氧极大值的一个因素。行星尺度和瞬变天气尺度的环流在臭氧传输过程中都起重要作用、总之,看来对流层臭氧的极大值是水平和垂直平流、来自生物量燃烧区的传输以及平流层的影响共同作用的结果。 相似文献
8.
1998年青藏高原臭氧低值中心异常及其背景环流场的分析 总被引:4,自引:1,他引:3
采用TOMS和SAGE II臭氧卫星观测资料,对1998年青藏高原臭氧低值中心异常变化的过程和垂直结构进行了分析。为了探讨1998年这个低值中心出现异常的原因,利用NCEP/NCAR再分析资料,通过1998年高原附近上空位势场和位温的变化,分析了1998年臭氧低值中心异常期间高原上空对流层上层到平流层下层的流场和垂直运动的变化特征。结果表明,1998年11月,青藏高原上空对流顶比正常年份高,无论是对流层上层还是平流层下层,上升运动都比正常年份强。同时高原上空南亚高压也比正常年份强,于是使得1998年高原上空的强臭氧低值中心一直维持到11月。 相似文献
9.
平流层对对流层的作用是准确评估、预测对流层气候变化的一个重要方面。其中平流层成分尤其是臭氧的变化,可以改变平流层乃至对流层的辐射平衡,从而影响平流层、对流层的热动力过程。本文从辐射、动力2个角度介绍了平流层臭氧影响对流层气候变化的若干研究进展。平流层臭氧可以通过长短波辐射的方式对对流层大气造成辐射强迫,利用大气化学气候模式可以定量计算平流层臭氧变化引起的辐射强迫,但是辐射强迫的估算受模式中辐射传输模块本身缺陷的影响存在不确定性。动力方面,平流层臭氧变化产生的辐射效应可以改变温度的垂直和经向梯度,造成波折射指数的变化,进而影响平流层甚至对流层内波的折射与反射,通过上对流层下平流层区域内的波—流相互作用,对对流层气候产生影响。另外,南极臭氧损耗可通过大气环状模影响冬春季中高纬度对流层的天气气候,但是其影响的强度大小以及物理机制仍需进一步的确认。值得注意的是,北极平流层臭氧的变化与北半球中高纬度气候变化之间的关系相比南半球要更加复杂,需要更为深入的研究。 相似文献
10.
春季青藏高原西北侧一次平流层臭氧向对流层传输的模拟研究 总被引:1,自引:0,他引:1
利用NCEP/NCAR FNL客观分析资料和欧洲中期天气预报中心(ECMWF)的Interim再分析资料以及臭氧监测仪(OMI)的臭氧廓线资料,结合区域大气化学模式WRF-Chem对中国春季一次高空冷槽过境引起的对流层顶折卷过程(2012年3月19—21日)进行了分析,并从平流、湍流混合、对流输送等几个方面诊断分析了平流层臭氧向对流层的传输特征和细节。结果表明,发生于青藏高原西北侧的对流层顶折卷事件,其所在位置处于热带对流层顶向中纬度对流层顶的过渡区,由于陡峭的对流层顶南北梯度,在该区域发生的平流层-对流层物质交换(STE)比对流层顶东西方向折卷引起的物质交换要强烈和持久,跨越等熵面的物质交换和湍流混合对平流层-对流层物质交换有很大的贡献。大地形对平流层-对流层物质交换过程有显著的影响,且具有明显的日变化特征。早晚时段,大地形导致的爬坡上升气流显著,抑制了平流层空气与对流层空气的混合交换。午后,大地形热力作用增强,受背风坡局地环流的影响,靠近山顶处湍流混合作用对上对流层臭氧浓度升高的贡献显著增强,且地形越高,这种效应越显著。地形的湍流混合作用在2.5 km高度以上凸显,此高度之上地形平均高度每升高100 m,湍流混合的贡献增加约1%。 相似文献
11.
采用北京气候中心大气辐射模式(BCC-RAD)、日本气象厅JRA-55月平均再分析资料,研究了北半球冬季低纬度平流层上、下两个温度异常区对太阳周期的响应及其机制。结果表明,太阳活动偏强年,低纬度的上平流层温度暖异常是由臭氧短波加热异常引起的,它在中纬度的上平流层激发出异常强西风,阻碍行星波正常上传,由波破碎驱动的Brewer-Dobson环流也减弱,该环流上升支减弱的动力加热作用导致了低纬度的下平流层暖异常。 相似文献
12.
Observation of a summer tropopause fold by ozonesonde at Changchun,China: Comparison with reanalysis and model simulation 总被引:1,自引:0,他引:1
Tropopause folds are one of the key mechanisms of stratosphere-troposphere exchange (STE) in extratropical regions, transporting ozone-rich stratospheric air into the middle and lower troposphere. Although there have been many studies of tropopause folds that have occurred over Europe and North America, a very limited amount of work has been carried out over northeastern Asia. Ozonesondes produced by the Institute of Atmospheric Physics were launched in Changchun (43.9°N, 125.2°E), Northeast China, in June 2013, and observed an ozone-enriched layer with thickness of 3 km and an ozone peak of 180 ppbv at 6 km in the troposphere. The circulation field from the European Centre for Medium-Range Weather Forecasts Interim Reanalysis (ERA-Interim) dataset shows that this ozone peak was caused by a tropopause fold associated with a jet stream at the eastern flank of the East Asian trough. By analyzing the ozone data from the ozone monitoring instrument and Weather Research and Forecasting model with Chemistry (WRF-Chem) simulations, it was found that a high ozone concentration tongue originating from the lower stratosphere at high latitude (near central Siberia) intruded into the middle troposphere over Changchun between 5 and 8 km on 12 June 2013. The high-resolution WRF-Chem simulation was capable of describing events such as the tropopause fold that occurred on the cyclonic shear side of the jet stream. In addition, the TRAJ3D trajectory model was used to trace the origin of measured secondary ozone peaks in the middle troposphere back, for example, to stratospheric intrusion through the tropopause fold. 相似文献
13.
The Impacts of Two Types of El Ni(n)o on Global Ozone Variations in the Last Three Decades 总被引:1,自引:0,他引:1
The effects of E1Nifio Modoki events on global ozone concentrations are investigated from 1980 to 2010 E1 Nifio Modoki events cause a stronger Brewer-Dobson (BD) circulation which can transports more ozone-poor air from the troposphere to stratosphere, leading to a decrease of ozone inthe lower-middle stratosphere from 90~S to 90~N. These changes in ozone concentrations reduce stratospheric column ozone. The reduction in stratospheric column ozone during E1 Nifio Modoki events is more pronounced over the tropical eastern Pacific than over other tropical areas because transport of ozone-poor air from middle-high latitudes in both hemispheres to low latitudes is the strongest between 60°W and 120°W. Because of the decrease in stratospheric column ozone during E1 Nifio Modoki events more UV radiation reaches the tropical troposphere leading to significant increases in tropospheric column ozone An empirical orthogonal function (EOF) analysis of the time series from 1980 to 2010 of stratospheric and tropospheric ozone monthly anomalies reveals that: E1 Nifio Modoki events are associated with the primary EOF modes of both time series. We also found that E1 Nifio Modoki events can affect global ozone more significantly than canonical E1 Nifio events. These results imply that E1 Nifio Modoki is a key contributor to variations in global ozone from 1980 to 2010. 相似文献
14.
We describe here a DIAL lidar system for atmospheric ozone measurements atAberystwyth, Wales, together witha method for deriving a stratospheric ozone profile from a single laserwavelength. Lidar measurements are used todepict the passage of three mesoscale ozone disturbances in the troposphereand stratosphere. In the troposphere, twosmall fold-like structures are shown beneath and at the edge of streamers ofhigh potential vorticity in ECMWFanalyses. MST radar measurements at the same time show that one of these foldswas actively turbulent, causingmixing of stratospheric and tropospheric air. In the stratosphere, a streamerof low-latitude air drawn into a filamentby a breaking Rossby wave event was observed crossing the lidar site. 相似文献
15.
We investigate the Madden–Julian Oscillation(MJO) signal in wintertime stratospheric ozone over the Tibetan Plateau and East Asia using the harmonized dataset of satellite ozone profiles. Two different MJO indices — the all-season Real-Time multivariate MJO index(RMM) and outgoing longwave radiation-based MJO index(OMI) — are used to compare the MJOrelated ozone anomalies. The results show that there are pronounced eastward-propagating MJO-related stratospheric ozone anomalies(mainly within 20–200 h Pa) over the subtropics. The negative stratospheric ozone anomalies are over the Tibetan Plateau and East Asia in MJO phases 4–7, when MJO-related tropical deep convective anomalies move from the equatorial Indian Ocean towards the western Pacific Ocean. Compared with the results based on RMM, the MJO-related stratospheric column ozone anomalies based on OMI are stronger and one phase ahead. Further analysis suggests that different sampling errors, observation principles and retrieval algorithms may be responsible for the discrepancies among different satellite measurements. The MJO-related stratospheric ozone anomalies can be attributed to the MJO-related circulation anomalies,i.e., the uplifted tropopause and the northward shifted westerly jet in the upper troposphere. Compared to the result based on RMM, the upper tropospheric westerly jet may play a less important role in generating the stratospheric column ozone anomalies based on OMI. Our study indicates that the circulation-based MJO index(RMM) can better characterize the MJOrelated anomalies in tropopause pressure and thus the MJO influence on atmospheric trace gases in the upper troposphere and lower stratosphere, especially over subtropical East Asia. 相似文献
16.
A. R. Ivanova 《Russian Meteorology and Hydrology》2016,41(3):170-185
A review of the papers dealing with various aspects of stratosphere-troposphere exchange (STE) is presented. The development of STE concepts is described and quantitative estimates of STE obtained by different authors are given. Typical time scales and geographic features of STE are described. Special attention is given to the specific features of STE at extratropical latitudes where active vertical air transport is observed in both directions. The air ascent through the tropopause occurs there in the zones of warm conveyor belts, and the air descent takes place in the zones of stratospheric intrusions. Exchange processes in the key region including the upper troposphere and the lowermost stratosphere are described. The mechanisms of large-scale stratospheric intrusions in the systems of tropopause folds or cut-off lows are presented as well as the mechanisms of the mixing of the stratospheric air with the tropospheric one. Specific features of deep stratospheric intrusions are discussed which are based on the analysis of such indicators of stratospheric air as high concentrations of ozone and stratospheric radionuclide 7Be. Some aspects of stratosphere-troposphere energy exchange are considered. 相似文献
17.
The analysis of surface ozone variability requires besides chemicalstudies the consideration of meteorological conditions and dynamicprocesses. Our research focuses on the mechanisms in connection with coldfront passages. A statistical study and case studies of cold front passageswere carried out at six German ground-based sites during the year 1990.After the passage of cold fronts three typical developments of thenear-ground ozone concentrations could be identified. Usually the ozoneconcentrations decrease due to advection of clean air masses or due toenhanced cloudiness preventing the photochemical production of ozone,chemical destruction by nitrogenoxides, and heterogeneous chemistry. In somecases the concentrations increased by reason of downward mixing of ozoneenriched air intruded from the stratosphere into the troposphere bytropopause foldings. For a few cases no modification set in. The decreasewas mostly twice as strong as the increase. The latter was between 4 and 8ppb on the average. Special emphasis is given to the transport ofstratospheric ozone down to the ground. There is no direct evidence forstratospheric ozone at ground level, because it cant be distinguished fromthe tropospheric one, but from case studies circumstantial evidence is foundin favour of it. As an example of increasing ozone behind the passage ofcold fronts one case study typical of all other case studies is presented.It shows the characteristic properties of the corresponding fronts, whichare fast movement, a vertical split structure and strong convection. 相似文献
18.
本文采用1979—2014年NCEP/NCAR月平均再分析资料、CMAP和GPCP月平均降水资料,分析了北半球平流层极涡崩溃早晚的环流特征及其与南亚降水的关系。结果表明,北半球平流层极涡崩溃时间存在明显的年际变化特征。极涡崩溃偏早(偏晚)年,自3月开始异常信号从平流层向下传播,之后的4月,从平流层到对流层高层极区温度异常偏高(偏低),极涡异常偏弱(偏强),极夜急流异常偏弱(偏强)。结果还表明,5月南亚降水异常与平流层极涡崩溃时间的早晚存在显著相关,5月南亚降水异常与平流层极涡崩溃早晚年平流层异常信号的下传有关。当平流层极涡崩溃偏晚年,4月平流层极区表现为位势高度异常偏低,而中纬度则位势高度场异常偏高,并伴随位势高度异常场的向下传播,5月该位势高度异常场下传至阿拉伯海北部大陆上空对流层顶,形成有利于降水的环流场,导致南亚降水偏多。反之,则相反。 相似文献