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1.
Summary This paper describes and documents the meteorological conditions which occur in association with a cold surface layer on the northern lee side of the Alps during foehn. A climatological study using four years' rawinsonde data shows that during many foehn events a weak advection from the east occurs in the cold surface layer beneath the southerly foehn flow. Three cases of foehn in the northern Alps were studied using data taken by instrumented aircraft. The analysis of various vertical soundings between the baseline of the Alps and Munich indicate that the cold surface layer is eroded up to 50 km north of the baseline but that further north, the foehn has not touched the ground. The analysis of data taken in the urban plume west of Munich shows that the pollution is trapped by the inversion in the cold air leading to high levels of air pollution west of Munich.With 13 Figures 相似文献
2.
Summary This study examines the exceptional Alpine south foehn event of 14–16 November 2002 using routine observations and high-resolution
numerical simulations. Besides its long duration and an extremely high temperature level related to warm-air advection from
the northern Sahara, this foehn event exhibited an unusual spatial structure of the low-level wind and temperature field.
Whereas the foehn was largely restricted to the first half of 14 November in the western part of the Alps (Switzerland), it
extended over the full period in the inner-Alpine valleys in the eastern Alps. The duration and intensity of the foehn also
tended to decrease from the Alpine crest towards the northern rim of the Alps. Most surprisingly, continuous foehn even occurred
on the windward side of the Alpine crest, namely in a basin located in the southeastern Alps. The distribution of the orographic
precipitation associated with the foehn case was unusual as well. In Switzerland, intense precipitation was not restricted
to the windward (southern) side of the Alps but extended to the northern side of the Alpine crest, particularly on 16 November.
The results indicate that the spatio-temporal distribution of the foehn in the northern Alps was related to the fact that
the western Alps were within a synoptic-scale transition zone between extremely warm air advected from the south and colder
air lying over western Europe. The colder air was advected around the western Alps whereas extremely warm air descended from
the Alpine crest farther east. Moreover, a small cyclone formed on 14 November north of the Alps and generated a shallow cold
front propagating eastward along the northern Alps. Thus, the tendency towards foehn decreased from west to east and from
the Alpine crest towards the north. The occurrence of foehn on the windward side of the Alpine crest was made possible by
the extreme strength of the large-scale southerly flow, combined with the fact that the upstream precipitation field did not
reach the southeastern edge of the Alps. Finally, the pronounced spillover of precipitation to the northern side in the Swiss
part of the Alps appears to be related to the colder air present north of the crest. This prevented the formation of orographic
gravity waves and downslope air motion, which usually leads to a rapid evaporation of the precipitation on the lee side of
the Alpine crest. 相似文献
3.
Dr. A. Tafferner 《Meteorology and Atmospheric Physics》1990,43(1-4):31-47
Summary A conceptual model of lee cyclogenesis is given which combines the commonly observed predominant features inherent in Alpine lee cyclogenesis, to be: blocking of cold air due to the Alps and progression of a potential vorticity maximum over the Alps. Numerical simulations of observed cases of Alpine lee cyclogenesis are carried out whose flow development turn out to bear close resemblance to this model. Therefore far-reaching conclusions are drawn.With 14 Figures 相似文献
4.
Summary Regional and local scale windfield and air mass characteristics during two distinct synoptic foehn wind events over southern New Zealand are examined. The Southern Alps were observed to effectively block low level onshore gradient northwesterly airflow and to channel it through both Cook and Foveaux Straits. Blocking of the onshore synoptic northwesterly airstream also resulted in barrier jet formation along the western slopes of the Southern Alps. This feature of the regional windfield has not previously been documented and develops during favourable conditions to a height of between 1500 to 1800 m above sea level. In the immediate lee of the Southern Alps at Lake Tekapo, classic foehn conditions such as warm ambient air temperatures, low relative humidities and gusty winds were monitored throughout both foehn events examined. Differences in the local windfield were however observed, which reflect the importance of local topography on lee side windfield dynamics during foehn events. Spillover of precipitation to the lee of the mountains was monitored in the latter stages of each case study and appeared to be associated with the passage of the cold front over the Southern Alps. Observations made by this investigation have a number of applied and theoretical implications with respect to meso-scale modelling, orographic rainfall distribution and forecasting.With 12 Figures 相似文献
5.
Dipl.-Met. M. Kurz 《Meteorology and Atmospheric Physics》1990,43(1-4):61-68
Summary In the paper results of investigations of the first two front events of the German Front Experiment 1987/88 are presented. In both cases a frontogenesis took place in the lower troposphere north of the Alps—in the first case directly at the cold front, in the second case ahead of it. The main reason for that was the incorporation of warm and dry air produced by foehn or advected along the Alps into the frontal zone of the approaching front. In the second case the cooling through evaporation of falling rain was an additional important factor for the increase of the temperature gradient. The computation of kinematic parameters yields as an interesting result the proof of areas with absolute vorticity near or below zero within the southwesterly current at the northwestern flank of the Alps.With 6 Figures 相似文献
6.
A. P. Sturman 《Meteorology and Atmospheric Physics》1992,47(2-4):229-236
Summary The Southerly Change Experiment (SOUCHEX) was conducted to examine the influence of the New Zealand Southern Alps on the structure and evolution of cold fronts, locally called southerly changes, as they travel up the east coast. The extensive data obtained by the augmented surface weather station network is used to examine in detail the mesoscale wind field associated with the events observed during the experiment. A comparison of the wind fields observed during the different events illustrates the influence of local dynamic and thermal factors. In particular, lee trough-induced northeasterlies and thermally developed diurnal wind systems are seen to interact with the wind field created by the passage of the front over the Southern Alps.It is apparent that the wind field associated with southerly changes responds to a variety of factors as the cold fronts propagate northwards. For example, there is a tendency for the flow to turn onshore producing a southeast wind during daytime over the Canterbury Plains south of Banks Peninsula probably due to diabatic heating of the mountains and plains. This onshore flow is in direct opposition to pre-frontal foehn northwesterly flow which often continues in the mountain regions and aloft after the front has moved up the coast. The interaction of these air masses over Canterbury creates difficulties for local forecasting. Also, the nocturnal passage of a southerly change is often difficult to detect in surface anemograph traces because of the decoupling of the boundary layer air from that above, producing low level drainage flow over the Canterbury Plains. The overall effect is to create a complex mesoscale wind field resulting from interaction of cold fronts with regional orographic and thermal influences.With 8 Figures 相似文献
7.
Dr. C. Freytag 《Meteorology and Atmospheric Physics》1990,43(1-4):69-76
Summary The investigations during the German Frontal Experiment 1987 show the modification of structure and movement of cold fronts in the vicinity of the Alps and in an Alpine valley. The two cold fronts that moved nearly parallel to the mountains were modified at the mountain barrier by the channelling effect. In those cases the postfrontal air flowed into the Inn valley from the valley's exit up-valley. The upper and lower parts of the fronts became detached, and the structure of the lower part changes on its way from the foreland to the mountain barrier.In contrast the fourth cold front, which moved from north-west to south-east, crossed the mountains without appreciable deformation although it suffered some degree of blocking and retardation.With 7 Figures 相似文献
8.
Mesoscale diagnostics of prefrontal and frontal precipitation in the Southeast Alps during MAP IOP 5
Summary In terms of heavy precipitation, the MAP IOP 5 was a two-phase event. During the first phase – on 3 October 1999 – there was strong precipitation in the Lago Maggiore MAP target area, while the prefrontal precipitation was mainly limited to the mountain ranges of the MAP mission area in the Julian and the Karnic Alps involving a series of thunderstorms developing continuously for about 15 hours and contributing most to precipitation levels. During the second phase – on 4 October – the main precipitation was limited to the Julian and the Karnic Alps where a frontal passage was noted by a squall line moving from Veneto region towards the east, accompanied by a strong SW upper-level jet. At the same time, a strong low-level cold flow invaded the region to the north of Adriatic Sea from the east as a significant amount of cold air moving ageostrophically around the eastern edge of the Alps was arriving in the area. To study MAP IOP 5 in detail, we describe the development for mesoscale features of the events radar images, time-height cross-sections and estimates of Convective Available Poteintial Energy (CAPE) based on radio-sounding data, and how surface-measured precipitation offers some smaller scale information. Surface potential temperature and winds are also studied. Very large precipitation accumulation gradients are diagnosed (150mm per day/25km in S–N direction) and time distributions of hourly precipitation shows completely diverse regimes in the Friuli plain and in the Alps with peak intensities in the Julian Alps. The mesometeorological mechanisms for high precipitation rate in the SE Alps are diagnosed and some characteristics of the squall line are discussed. 相似文献
9.
Leopold Kletter 《Meteorology and Atmospheric Physics》1949,1(3-4):384-407
Zusammenfassung Viele Kaltfronten, die mit Südkurs den Alpenhauptkamm überschreiten und in das Südalpengebiet eindringen, sind dort außerordentlich wetterwirksam. Andere Kaltfronten, die über die Alpen hinwegziehen, werden dagegen in den Südalpen durch Föhnerscheinungen fast völlig aufgelöst.In vorliegender Arbeit wird an Einzelbeispielen das Verhalten von Kaltluftströmungen beim Überqueren der Alpen und beim Eindringen in das Südalpengebiet eingehend untersucht. Dabei zeigt sich, daß durch charakteristische Merkmale der Strömmungen eine einwandfreie Unterscheidung der beiden Arten von Kaltlufteinbrüchen in das Südalpengebiet möglich ist. Vor allem lassen sich beide Fälle durch Anwendung der Höhenwetterkarte gut auseinanderhalten.Es ergibt sich, daß eine Kaltfront dann die Südalpen wetterwirksam überquert, wenn dieses Gebiet auf der Vorderseite eines in der Höhenkarte in Erscheinung tretenden Höhentroges liegt, daß dagegen die Front durch Föhnwirkung aufgelöst wird, wenn die Südalpen auf der Rückseite des Höhentroges liegen.
Mit 11 Textabbildungen. 相似文献
Summary Many cold fronts which cross the principal crest of the Alps in a Southerly direction and penetrate into the region are very avtive in that region. Other cold fronts, however, die out almost completely when crossing the Southern Alps, due to Föhn phenomena.In the present paper, the behaviour of cold air currents crossing the Alps and penetrating the Southern Alps region is thoroughly discussed by analysing individual examples. Thereby it is shown that a clear distinction between the two kinds of cold air invading the Southern Alps region can be drawn from considering the characteristic features of the airstream. Both cases can be easily recognised by examination of the relevant upper air charts.Cold fronts are active in the Southern Alps when this region lies ahead of a high-level trough in the upper air: whilst cold fronts die out through the effect of the Föhn when the Southern Alps lie to the rear of a high-level trough.
Résumé De nombreux fronts froids dirigés vers le Sud et qui traversent les Alpes se révèlent extrêmement actifs sur le versant sud, de cette chaîne. D'autres fronts au contraire disparaissent presque complètement en franchissant le faîte montagneux à cause du phénomène de foehn.On examine ici des cas déterminés de passages de masses d'air froides par-dessus les Alpes et leur écoulement sur le versant opposé. En repérant certaines caractéristiques de ces courants, il est possible de distinguer nettement les deux types d'invasion froide au Sud des Alpes. Cette distinction est particulièrement facile par l'emploid des cartes de pression en altitude.On constate alors qu'un front froid reste actif en traversant les Alpes lorsque la partie antérieure d'un couloir de basse pression en altitude se trouve sur le versant sud, mais qu'il y a frontolyse par foehn lorsque la partie postérieure de ce couloir se trouve sur cette région.
Mit 11 Textabbildungen. 相似文献
10.
Prof. Dr. H. Pichler Prof. Dr. R. Steinacker E. Hagenauer A. Jäger 《Meteorology and Atmospheric Physics》1995,56(3-4):197-208
Summary In a project ALPEX-Simulation, sponsored by the Österreichischer Fond zur Förderung der wissenschaftlichen Forschung (FWF), all eight cases of ALPEX-SOP cyclones were numerically simulated with a fine mesh isentropic model of the atmosphere. These numerical simulations in six-hourly intervals allow a deeper insight into the synoptics and dynamics of the cyclogeneses in the Western Mediterranean, especially into the genesis of the two basic types of cyclones: the so-called Überströmungs-type and Vorderseiten-type. In the first phase of cyclogenesis of the Überströmungs-type, the blocking and flow splitting of the cold air due to the Alps and the canalization between the Alps and the Massif Central are important. Cold air flows cyclonically around the western part of the Alps, creating a vorticity maximum at the south western edge of the Alpine, bow and leads also to an enhanced PV. In connection with warm air in the Mediterranean, a strong baroclinic zone is generated. The interaction between the arriving PV maximum in the upper troposphere and the enhanced PV at the bottom leads to cyclogenesis in the Western Mediterranean. In the case of the Vorderseiten-type warm air advection dominates with the exception of a shallow layer of cold air in the inner Po-Valley, which is shielded by the Alpine ridge. A well-pronounced PV maximum builds up and couples with the PV maximum arriving at upper levels, even before the cold air, coming from the north-west, has surrounded the Alps. The cold air only intensifies the development by raising the baroclinity. Therefore, the Vorderseiten-cyclogenesis is an orographically modified cyclogenesis, in the course of which the cyclonic development is triggered by the Alps, whereas the Überströmungs-cyclogenesis is an orographically induced cyclogenesis i.e. a true lee cyclogenesis.With 14 FiguresDied in a tragic traffic accident on June 6, 1993. 相似文献
11.
J. Neumann 《Climatic change》1993,23(3):231-245
The old pollen-analysis based picture of the climatic epoch Sub-Boreal in Europe, 3000 or 2500 to 800 BC, which embraces the second millenium, is in need of a thorough revision in light of the relatively recent researches in the Alps. The researches of concern are glacial-variation studies, mainly of the 1970s, and tree-ring density analyses of the subalpine zone of the late 1970s, reported in 1982.The results indicate that, after a warm and dry epoch ending about 1800 or 1700, a cold period set in in the Alps, lasting to about 1470 BC. (All dates below are BC unless otherwise stated; datings determined by radiocarbon analyses are subject to a maximum possible error of + or – 100 yrs.) This cold phase was followed by an approximately 70 yrs long warm phase. But the most pronounced change occurred about 1400, when rather abruptly a second cold phase was ushered in, continuing until about 1230. This second cold phase is often referred to under the name Löbben Phase, which is considered to have been the coldest and longest-sustained cold period of the past 8000 yrs, colder than the recent Little Ice Age of the CE (= Christian Era). Its temperature level is estimated (by G. Patzelt) to have been 0.7 to 1 °C colder than the present level in the Alps. The rise of level of the Swiss lakes, including Lake Constance testify that the Löbben Phase was associated with an enhanced rainfall.In the 13th and the beginning of the 12th centuries major and violent migrations took place from central Europe, including Hungary, and the southeast of the continent toward the south and the southeast, including the Near East as far as the Nile Delta. In order to elucidate if the cold-wet phases of the Alps were cold-wet in central Europe, we have carried out air temperature correlations between an Alpine station Säntis (2500 m MSL) and Budapest, for 1921–70. The correlation coefficient is 0.70 for the annual temperatures and 0.82 for July–September of the same years. Since glaciers grow in cold-wet summers, the high correlation for the summer months means that central Europe must have been cold in most of the cold summers of the Alps. But, cold, and especially cold-wet summers are detrimental to agriculture. Presumably, partial or total crop failures must have been relatively frequent in central Europe forcing the people to take to migration. Archeological evidence from Hungary indicates that there were hardly any settlements left, compared with the previous centuries.Finally, we quote evidence to show that some of the groups of the Sea Peoples, who tried to invade the Nile Delta about 1190, were of European origin. They abandoned their homeland, presumably because of a turn of the climate to cooler and wetter conditions. It is noted that our interpretation of the causes of migrations of the 13th century and beginning of the 12th, is different from that put forward by Weiss (1982).This paper formed the substance of an invited opening address to theInternational Workshop on Regional Implications of Future Climatic Change, held at the Weizmann Institute of Science, Rehovot, Israel, 28 April–2 May 1991.Visiting with the Department of Meteorology, University of Copenhagen, Copenhagen, Denmark, since 1986. 相似文献
12.
选取北疆50个测站1971-2015年的逐日平均气温和最低气温资料,运用小波分析、M-K突变检验等统计方法分析了北疆地区不同等级冷空气活动过程的时空变化特征。分析表明:近45年北疆地区冷空气活动持续日数在1~15d,平均持续日数为1.79 d。其中弱冷空气过程持续日数以1~2 d为主;中等强度冷空气、较强冷空气和寒潮过程以1~3 d为主;而强冷空气过程以2~4 d为主。近45年北疆单站冷空气发生频次为95.3次/a,且具有盆地多、山地少的特点;其中中等强度冷空气为11.8次/a,自东向西逐渐减少;弱冷空气、较强冷空气发生频次为70.9次/a、1.8次/a,呈自西南向东北逐渐减少的趋势;强冷空气和寒潮发生频次为4.2次/a 、7.3次/a,呈现由西南向东北增加趋势。近45年北疆地区冷空气活动频次总体呈减少趋势,年代际表现为先减少后增加的特点, 70年代最多,90年代最少,减少速率为0.33/10a;弱冷空气和较强冷空气呈增加趋势,增加速率为0.17/10a和0.03/10a;中等强度冷空气、强冷空气和寒潮活动频次呈下降趋势,其中寒潮的下降速率达-0.37/10a;不同等级冷空气活动频次均存在一个15-20a的显著周期,突变点出现在1980、2003年左右。 相似文献
13.
Dr. A. P. Sturman R. K. Smith M. A. Page R. N. Ridley J. T. Steiner 《Meteorology and Atmospheric Physics》1990,42(2):133-143
Summary The movement of cold fronts along the eastern side of the Southern Alps has been studied in detail during the Southerly Change Experiment (SOUCHEX). An enhanced network of surface wind monitoring stations was established in the Canterbury region of the South Island to allow detailed study of meso-scale wind fields during the passage of fronts. Fivesoutherly changes occurred during the experiment, one of which failed to produce a clear wind change over much of the area. The often erratic movement of these fronts along the eastern side of the mountains is illustrated by isochrone maps of the onset of the wind change. Other general characteristics of these events include their shallowness (1000–1500 m deep) and in most cases their abrupt onset. Detailed analysis of anemograph data collected during SOUCHEX indicates great variability in the surface wind field associated with passage of the fronts. Maps of the meso-scale wind field plotted for the first southerly change of the 14 January 1988 illustrate the complexity of the wind changes experienced over the eastern South Island in particular. The arrival of the cold fronts at individual sites provided features of air mass interaction which appear to relate to time of day, and regional and local site factors. Variations, in wind, temperature and relative humidity provide clear examples of both single and double air mass changes. However, nocturnal changes seem to be less distinct due to lower ambient temperatures and increased boundary layer stability.With 9 Figures 相似文献
14.
A downscaling method was developed to simulate the seasonal snow cover of the French Alps from general circulation model
outputs under various scenarios. It consists of an analogue procedure, which associates a real meteorological situation to
a model output. It is based on the comparison between simulated upper air fields and meteorological analyses from the European
Centre for Medium-Range Weather Forecasts. The selection uses a nearest neighbour method at a daily time-step. In a second
phase, the snow cover is simulated by the snow model CROCUS at several elevations and in the different regions of the French
Alps by using data from the real meteorological situations. The method is tested with real data and applied to various ARPEGE/Climat
simulations: the present climate and two climate change scenarios.
Received: 26 September 1995 / Accepted: 7 August 1996 相似文献
15.
入侵冷空气强度对台风变性过程的影响 总被引:7,自引:4,他引:3
利用WRF中尺度模式对0716号"罗莎"台风的变性过程进行数值试验研究,讨论不同强度的入侵冷空气对台风变性过程的影响,结果表明适当强度冷空气入侵有利于斜压能的积累和释放,是导致台风变性的重要因素,而太强或太弱的冷空气都不利于台风的变性加强。当冷空气减弱时,台风登陆后边界层的热量通量减少,在没有新的能量供给的情况下,台风由于边界层摩擦作用和水汽供应不足而逐渐消散;当入侵冷空气过强时,台风内部会被迅速填塞,暖心变为冷心,从而逐渐消散。 相似文献
16.
17.
利用阿勒泰地区7个气象站自建站至2014年12月31日的逐日气温资料,以日最低气温及其降温幅度为指标,整理出阿勒泰地区近60 a降温日数据库,按降温幅度将降温日分为寒潮、强降温、较强降温、中等强度降温和弱降温5个等级,分析了全地区各站不同等级降温日数的气候特征。结果表明:(1)阿勒泰地区寒潮日数和强降温日数在地区偏东、偏北多,向偏西偏南逐步递减,其它等级降温日数在河谷平原多,向西、向东逐步递减。寒潮、强降温和中等强度降温日数的EOF分解第一模态方差贡献率较大,全地区呈较好的一致性,较强降温和弱降温日数的EOF分解主要模态分别有3个和5个。(2)阿勒泰地区寒潮日数在冬季12月最多,强降温日数在秋季9月最多,较强降温日数主要集中在夏季6—8月,中等强度和弱降温日数在各季分布较平均。(3)近60 a来,阿勒泰地区各站的年寒潮和强降温日数呈明显减少趋势,年较强降温日数呈明显增多趋势,年中等强度降温日数没有明显的线性变化趋势,年弱降温日数呈地区西部减少、中、东部增多的趋势,且东部增多趋势较显著。 相似文献
18.
Long-term summer temperature variations in the Pyrenees 总被引:4,自引:0,他引:4
Two hundred and sixty one newly measured tree-ring width and density series from living and dry-dead conifers from two timberline
sites in the Spanish Pyrenees were compiled. Application of the regional curve standardization method for tree-ring detrending
allowed the preservation of inter-annual to multi-centennial scale variability. The new density record correlates at 0.53
(0.68 in the higher frequency domain) with May–September maximum temperatures over the 1944–2005 period. Reconstructed warmth
in the fourteenth to fifteenth and twentieth century is separated by a prolonged cooling from ∼1450 to 1850. Six of the ten
warmest decades fall into the twentieth century, whereas the remaining four are reconstructed for the 1360–1440 interval.
Comparison with novel density-based summer temperature reconstructions from the Swiss Alps and northern Sweden indicates decadal
to longer-term similarity between the Pyrenees and Alps, but disagreement with northern Sweden. Spatial field correlations
with instrumental data support the regional differentiation of the proxy records. While twentieth century warmth is evident
in the Alps and Pyrenees, recent temperatures in Scandinavia are relatively cold in comparison to earlier warmth centered
around medieval times, ∼1450, and the late eighteenth century. While coldest summers in the Alps and Pyrenees were in-phase
with the Maunder and Dalton solar minima, lowest temperatures in Scandinavia occurred later at the onset of the twentieth
century. However, fairly cold summers at the end of the fifteenth century, between ∼1600–1700, and ∼1820 were synchronized
over Europe, and larger areas of the Northern Hemisphere. 相似文献
19.
Summary A series of anomalously cold and warm winters which occurred in Switzerland during the 15-year period from 1979 to 1993 has been analyzed in detail in terms of temperature minima. The warm winters between 1988–1992 were particularly marked in the Alps, where lack of snow had severe consequences for the tourist-based economies of mountain communities. The investigations presented here focus primarily on minimum temperature records for up to 88 climatological observing sites distributed over Switzerland.Analyses of the departures of temperature minima from the 15-year means in warm and cold winters has shown that there is a very significant altitudinal dependency of the anomalies except at low elevations which are subject to fog or stratus conditions; the stratus tends to decouple the underlying stations from processes occurring at higher altitudes. It is also shown that there is a switch in the gradient of the temperature anomaly with height from cold to warm winters. For warm winters, the higher the elevation, the stronger the positive anomaly; the reverse is true for cold winters. The statistics for the 88 observational stations provide a measure of the damping of the climate signal as an inverse function of height. The altitudinal dependency of temperature departures from the mean are the most important feature, followed by latitudinal effects (north and south of the Alps); continentality is not seen to be a major factor in determining the geographical distribution of temperature anomalies at this scale.The present investigation also emphasizes the fact that high elevation records can more readily identify significant interannual climatic fluctuations than at lower-elevation sites. This is also likely to be the case for longer-term climate change, where possibe greenhouse-gas warming would presumably be detected with more clarity at higher elevations. This type of study can help orientate future high-resolution climate model studies of climate change and in particular the assessment of model capability in reproducing a range of possible temperature anomalies and their altitudinal dependency.With 12 Figures 相似文献
20.
在对1998—2004年冷空气影响高原低涡移出青藏高原 (以下简称高原) 观测事实分析的基础上, 利用NCEP再分析资料对2002年8月12—14日托勒低涡移出高原的位涡进行诊断分析, 并通过数值试验揭示了托勒低涡移出高原的冷空气侵入特征和影响机理。结果表明:这次托勒低涡是受我国东北冷空气影响, 有高位涡空气伸入低涡区, 使冷空气迫近暖湿空气, 低涡处在斜压不稳定增强情况下移出高原的。在低涡区域没有冷空气或我国东北不存在冷温度槽情况下, 将会使伸向高原东北部的冷空气主力偏东、减弱, 使低涡受到我国东北冷空气影响减弱, 斜压不稳定减弱, 从而使高原低涡移出高原的速度减慢, 低涡强度减弱, 尤其是我国东北冷温度槽的影响更为明显, 在我国东北没有冷温度槽存在的情况下, 低涡24 h内西退, 在高原边缘徘徊。 相似文献