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1.
In the summers of 2003 and 2007, eastern China suffered similar climate disasters with severe flooding in the Huaihe River valley and heat waves in the southern Yangtze River delta and South China. Using SST data and outgoing longwave radiation (OLR) data from NOAA along with reanalysis data from NCEP/NCAR, the 2002/03 and 2006/07 El Ni(n)o episodes in the central Pacific and their delayed impacts on the following early summertime climate anomalies of eastern China were analyzed. The possible physical progresses behaved as follows: Both of the moderate E1 Ni(n)o episodes matured in the central equatorial Pacific during the early winter. The zonal wind anomalies near the sea surface of the west-central equatorial Pacific excited equatorial Kelvin waves propagating eastward and affected the evolution of the E1 Ni(n)o episodes. From spring to early summer, the concurring anomalous easterly winds in the central equatorial Pacific and the end of upwelling Kelvin waves propagating eastward in the western equatorial Pacific, favored the equatorial warm water both of the SST and the subsurface temperature in the western Pacific. These conditions favored the warm state of the western equatorial Pacific in the early summer for both cases of 2003 and 2007. Due to the active convection in the western equatorial Pacific in the early summer and the weak warm SST anomalies in the tropical western Pacific from spring to early summer, the convective activities in the western Pacific warm pool showed the pattern in which the anomalous strong convection only appeared over the southern regions of the tropical western Pacific warm pool, which effects the meridional shift of the western Pacific subtropical high in the summer. The physical progress of the delayed impacts of the E1 Nifio episodes in the central equatorial Pacific and their decaying evolution on the climate anomalies in eastern China were interpreted through the key role of special pattern for the heat convection in the tropical western Pacific warm pool and the response of the western North Pacific anomalous anticyclone. 相似文献
2.
利用通化市所属5个气象站1954—2006年日平均温度组成的区域平均时间序列资料、季平均温度资料,分析了短期气温的剧烈变化(本文称之为寒潮和气温骤升)与后期季温度异常的关系,结果发现,冬季短期气温的剧烈变化与后期春、夏季气温距平存在联系,表现在一些特定的寒潮(或气温骤升)爆发日期段总是与后期季的高或低温相对应。在一定的年代背景下,一些日期段还与极端季温度距平存在明显的联系。与后期气温异常联系明显的寒潮爆发、气温骤升日期段存在着周期性,与春季低温对应明显的寒潮爆发日期有5 d的时间间隔;与春季低温对应明显的气温骤升的日期存在着9~11 d的周期,且随着日期的变化,爆发日期之间的间隔有规律的延长和缩短。一些寒潮爆发和气温骤升日期与东北夏季低温冷害存在明显的联系。 相似文献
3.
该文利用美国NOAA卫星1991年(及1980和1985年)雨季候平均OLR资料及常规天气观测资料,对1991年江淮洪涝梅雨的OLR场特征进行分析。分析了1991梅雨期的OLR及其距平场以及季内变化(ISV)的经、纬向传播特征;揭示了ITCZ与副热带高压的变化与梅雨的关系以及青藏高原OLR的异常与梅雨的关系;指出西太平洋ITCZ的提前出现以及青藏高原冬季OLR的正距平(积雪少)是1991年洪涝梅雨提前发生的先兆。最后分析了1991年梅雨活跃期与中断期的OLR分布特征,并与印度季风雨相比较,发现两者开始日期 相似文献
4.
The occurrence of first hurricane in early summer signifies the onset of an active Atlantic hurricane season. The interannual variation of this hurricane onset date is examined for the period 1979-2013. It is found that the onset date has a marked interannual variation. The standard deviation of the interannual variation of the onset day is 17.5 days, with the climatological mean onset happening on July 23.A diagnosis of tropical cyclone (TC) genesis potential index (GPI) indicates that the major difference between an early and a late onset group lies in the maximum potential intensity (MPI). A further diagnosis of the MPI shows that it is primarily controlled by the local SST anomaly (SSTA). Besides the SSTA, vertical shear and mid-tropospheric relative humidity anomalies also contribute significantly to the GPI difference between the early and late onset groups.It is found that the anomalous warm (cold) SST over the tropical Atlantic, while uncorrelated with the Niño3 index, persists from the preceding winter to concurrent summer in the early (late) onset group. The net surface heat flux anomaly always tends to damp the SSTA, which suggests that ocean dynamics may play a role in maintaining the SSTA in the tropical Atlantic. The SSTA pattern with a maximum center in northeastern tropical Atlantic appears responsible for generating the observed wind and moisture anomalies over the main TC development region. A further study is needed to understand the initiation mechanism of the SSTA in the Atlantic. 相似文献
5.
Summary This study investigates the onset and cessation dates of the main summer rainy season over Zambia, their interannual variability,
and potential relationships with ENSO and regional circulation anomalies. Focus is placed on onset and cessation dates because
these rainy season characteristics are often of more relevance than seasonal rainfall totals to user groups such as farmers,
water resource managers, health and tourism officials.
It is found that there is substantial interannual variability in these parameters with some indications of a relationship
between anomalies in onset date and those in Ni?o3.4 SST, particularly over the northern part of the country. A strong gradient
exists between the south and the north in terms of rainfall amount, mean onset date and mean cessation date and all areas
of the country experience significant variability.
Analysis of circulation anomalies for early (late) onset seasons over northern Zambia shows that they are characterised by
anomalous ridging (troughing) over and south of South Africa, a weaker (stronger) Angola heat low and enhanced (reduced) low
level moisture flux into eastern Zambia from the Indian Ocean. The connection with ENSO during the onset season of austral
spring appears to arise both through changes in the amount of subsidence over southern Africa as well as via the so-called
Pacific South America pattern that extends across the South Pacific and South Atlantic towards southern Africa.
Authors’ address: S. Hachigonta, C. J. C. Reason, M. Tadross, Department of Oceanography, University of Cape Town, Private
Bag, Rondebosch 7701, South Africa. 相似文献
6.
In the summers of 2003 and 2007, eastern China suffered similar climate disasters with
severe flooding in the Huaihe River valley and heat waves in the southern Yangtze River delta and
South China. Using SST data and outgoing longwave radiation (OLR) data from NOAA along with
reanalysis data from NCEP/NCAR, the 2002/03 and 2006/07 El Nino episodes in the central Pacific
and their delayed impacts on the following early summertime climate anomalies of eastern China
were analyzed. The possible physical progresses behaved as follows: Both of the moderate El Nino
episodes matured in the central equatorial Pacific during the early winter. The zonal wind anomalies
near the sea surface of the west-central equatorial Pacific excited equatorial Kelvin waves
propagating eastward and affected the evolution of the El Ni\~no episodes. From spring to early
summer, the concurring anomalous easterly winds in the central equatorial Pacific and the end
of upwelling Kelvin waves propagating eastward in the western equatorial Pacific, favored the
equatorial warm water both of the SST and the subsurface temperature in the western Pacific.
These conditions favored the warm state of the western equatorial Pacific in the early summer
for both cases of 2003 and 2007. Due to the active convection in the western equatorial Pacific
in the early summer and the weak warm SST anomalies in the tropical western Pacific from spring
to early summer, the convective activities in the western Pacific warm pool showed the pattern
in which the anomalous strong convection only appeared over the southern regions of the tropical
western Pacific warm pool, which effects the meridional shift of the western Pacific subtropical
high in the summer. The physical progress of the delayed impacts of the El Ni\~no episodes in the
central equatorial Pacific and their decaying evolution on the climate anomalies in eastern China
were interpreted through the key role of special pattern for the heat convection in the tropical
western Pacific warm pool and the response of the western North Pacific anomalous anticyclone. 相似文献
7.
Summary ?Thirty years (1958–1987) of daily rainfall data for Kenya and north eastern Tanzania are analysed with the aim to characterize
the interannual variability of the onset and cessation of the East African “long rains” (boreal spring). The leading principal
component (PC1) depicts consistent rainfall variations over much of the region. Cumulative PC1 scores for each year serve
to identify onset and cessation dates. The robustness of the dates derived from this method is demonstrated through the use
of an independent sample of stations. Their spatial representativity is assessed by daily rainfall composites. Average onset
occurs on March 25th, and cessation on May 21st. The interannual variability of the onset (standard deviation of 14.5 days) is larger than that of the withdrawal (10.3 days),
but the onset is also spatially much more consistent. Mean dates and dates in selected anomalous years agree well with previous
studies.
The relationship between onset time-series and large-scale atmospheric and oceanic fields is analysed. On a monthly time-scale,
interannual variations in “long rains” onset are associated with sea-surface temperature (SST) and sea-level pressure (SLP)
patterns that have a different sign for the Atlantic and Indian Oceans. A warm South Atlantic and a cool Indian Ocean are
associated with low and high SLP anomalies, respectively. These patterns are conducive to enhanced equatorial easterlies and
surface divergence over East Africa. This maintains the meridional branch (north–south orientated) of the Intertropical Convergence
Zone (ITCZ) further west, and the net result is a delayed onset of the “long rains”. Some of the South Atlantic features are
already present during January–February, suggesting some potential for monitoring interannual variations in the wet season
onset, based on SST and SLP patterns. Additional signals are found over Europe and the Mediterranean Sea in terms of the interaction
between the Northern Hemisphere extratropics and equatorial eastern Africa. A surge in the mid-tropospheric northerlies at
this time induces instability that may lead to an early onset event.
Received July 3, 2002; revised November 28, 2002; accepted December 7, 2002
Published online March 17, 2003 相似文献
8.
S. P. Ghanekar P. V. Puranik V. R. Mujumdar 《Theoretical and Applied Climatology》2010,99(3-4):457-468
Outgoing Longwave Radiation (OLR) data, obtained from NOAA polar orbiting satellites for the months March–June, for 31 years is utilized to investigate low-frequency oscillation in pre-monsoon convection over southwest peninsular Indian region. The analysis reveals a characteristic fall in OLR over the region, about 5–9 weeks prior to the onset of Indian summer monsoon in almost all the years under study. Such fall is shown to be related with a characteristic peak in convective activity associated with the movement of Inter-Tropical Convergence Zone over the region. The results suggest an indirect non-linear relationship between the time of occurrence of the pre-monsoon convective peak and the onset date. A regression equation is developed to predict the onset date. The results of estimation of present method and that of an earlier method (based on conventional synoptic observations) are compared. The performance of both these methods is validated for two independent years (2007 and 2008). The study highlights the potential application of the developed method for the prediction of onset of Indian summer monsoon well in advance using the remotely sensed satellite-derived OLR data. 相似文献
9.
基于对汛期的理解和认识, 利用Samel等人设计的半客观统计分析方法、Mann-Kendall突变分析、滑动t检验等方法, 通过分析和研究1957—2006年华北台站的日降水资料, 确定了华北汛期起讫的日期。结果表明:华北汛期始于6月30日, 止于8月18日, 持续期为50d。华北汛期的起讫日期、持续天数以及空汛发生的频次, 具有鲜明的地域特征:冀北山地汛期开始最早, 结束较迟, 持续天数较长, 空汛发生频次最少; 黄土高原汛期开始较迟, 其北部汛期结束最迟, 持续期也最长, 发生空汛的频次也比较多; 黄河下游地区汛期开始比较早, 结束最早, 汛期最短, 发生无大汛的频次较大; 河北平原地区, 汛期开始最迟, 结束较迟, 汛期较长, 发生无大汛的频次最多。与华北汛期开始和结束日相对应的东亚大气环流特征是:当西太平洋西部上空500hPa存在正的位势高度距平, 华北上空存在负的位势高度距平, 同时地面为“东高西低”的异常海平面气压场配置时, 异常偏南风到达30°N, 华北汛期开始; 当华北上空500hPa为较小的位势高度正距平, 日本海为位势高度正距平, 而地面上, 我国大陆和西太平洋之间为“西高东低”的异常海平面气压场配置时, 异常偏北风控制我国东部地区, 华北汛期结束。 相似文献
10.
南海西南季风异常与广东省汛期重要天气的关系 总被引:5,自引:1,他引:4
南海西南季风的活动直接影响广东省前、后汛期重要天气的异常,因此深入探索南海西南季风的活动规律及其与广东省各种重大天气异常的关系十分必要.利用合成分析和相关统计方法,探讨和分析了南海西南季风建立早晚、强弱与广东省前、后汛期降水量趋势,初、终台的早晚及登陆广东省的热带气旋个数等重要天气的关系.指出南海西南季风爆发早的年份,前汛期雨量以正常偏少为主、后汛期雨量以偏多为主、登陆广东热带气旋偏多;南海西南季风偏强的年份,后汛期雨量以偏多为主,登陆广东热带气旋以正常偏多为主.还分析了4~6月、7~9月以及前冬(12~2月)的海温场、500 hPa高度场与西南季风建立早晚、强弱的关系,初步探索了西南季风建立的早晚、强弱与广东省汛期重要天气气候异常的关系的一些机理,其结果可供短期气候业务预测参考. 相似文献
11.
Inter-annual variability in the onset of monsoon over Kerala (MOK), India, is investigated using daily temperature; mean sea level pressure; winds at 850, 500 and 200 hPa pressure levels; outgoing longwave radiation (OLR); sea surface temperature (SST) and vertically integrated moisture content anomaly with 32 years (1981–2013) observation. The MOK is classified as early, delayed, or normal by considering the mean monsoon onset date over Kerala to be the 1st of June with a standard deviation of 8 days. The objective of the study is to identify the synoptic setup during MOK and comparison with climatology to estimate the predictability of the onset type (early, normal, or delayed) with 5, 10, and 15 days lead time. The study reveals that an enhanced convection observed over the Bay of Bengal during early MOK is found to shift over the Arabian Sea during delayed MOK. An intense high-pressure zone observed over the western south Indian Ocean during early MOK shifts to the east during delayed MOK. Higher tropospheric temperature (TT) over the western Equatorial Ocean during early MOK and lower TT over the Indian subcontinent intensify the land–ocean thermal contrast that leads to early MOK. The sea surface temperature (SST) over the Arabian Sea is observed to be warmer during delayed than early MOK. During early MOK, the source of 850 hPa southwesterly wind shifts to the west equatorial zone while a COL region has been found during delayed MOK at that level. The study further reveals that the wind speed anomaly at the 200-hPa pressure level coincides inversely with the anomaly of tropospheric temperature. 相似文献
12.
THE RELATIONSHIP BETWEEN SOUTH CHINA SEA SOUTHWEST MONSOON ANOMALIES AND IMPORTANT WEATHER IN GUANGDONG PROVINCE DURING THE RAINING SEASONS 总被引:1,自引:0,他引:1
The activity of South China Sea southwest monsoon (SCSSM) has direct impacts on the
anomalies of important weather in Guangdong province during the raining seasons. So it is necessary to
explore thoroughly the activity pattern of SCSSM and its relationship with important weather anomalies in
the province. In this paper, the methods of composite analysis and correlation statistics are used to study
the relationship between the onset date and intensity of SCSSM and the important weather, such as
precipitation trends in Guangdong province during the annually first and second raining seasons, the timing
of the annually first and last typhoon and the number of typhoons landing in Guangdong province. The
results show that the rainfall is less than normal during the first raining season, but more than normal
during the second one and there are more tropical cyclones landing in Guangdong province in the years of
early SCSSM onset. The rainfall is more than normal during the second raining season and there are more
tropical cyclones landing in Guangdong province in the years of strong SCSSM. The relationship between
the SST of April - June, July - September and previous winter (December - February) and 500 hPa
geopotential height and the onset date and intensity of SCSSM is analyzed. Some mechanisms between the
onset dates and intensity of SCSSM and the important weather anomalies in Guangdong province are
preliminarily explored. The results can be used for reference in short-term climate forecast. 相似文献
13.
Relationships between intraseasonal rainfall variability of coastal Tanzania and ENSO 总被引:1,自引:0,他引:1
Summary The influence of ENSO on intraseasonal variability over the Tanzanian coast during the short (OND) and long (MAM) rainy seasons is examined. In particular, variability in the rainfall onset, peak and end dates as well as dry spells are considered. In general, El Niño appears to be associated with above average rainfall while La Niña is associated with below average rainfall over the northern Tanzanian coast during OND, and to lesser extent MAM. Over the southern coast, the ENSO impacts are less coherent and this region appears to be a transition zone between the opposite signed impacts over equatorial East and southern Africa. The increased north coast rainfall during El Niño years is generally due to a longer than normal rainfall season associated with early onset while reduced rainfall during La Niña years tends to be associated with a late onset, and thus a shorter than average rainfall season. Wet conditions during El Niño years were associated with enhanced convection and low-level easterly anomalies over the equatorial western Indian Ocean implying enhanced advection of moisture from the Indian Ocean while the reverse is true for La Niña years. Hovmöller plots for OLR and zonal wind at 850 hPa and 200 hPa show eastward, westward propagating and stationary features over the Indian Ocean. It was observed that the propagating features were absent during strong El Niño years. Based on the Hovmöller results, it is observed that the convective oscillations over the Tanzanian coast have some of the characteristic features of intraseasonal oscillations occurring elsewhere in the tropics. 相似文献
14.
This work addresses the mechanisms that leads to an early onset of monsoon over Andaman Sea but advances further rapidly (slowly) to the Indian mainland resulting in the early (delayed) onset over Kerala. The upper tropospheric temperature, production of kinetic energy (KE) and outgoing long wave radiation (OLR) from the month of May till onset over Kerala are analysed for two delayed onset years (1997, 1995) and two early onset years (2004, 1990). It is observed that the maximum temperature over Tibetan plateau (TP), an increase in the production of KE and strong equatorial convection in early May, is associated with early onset over Andaman Sea. However, when there is a lull in advance of monsoon after the early onset over Andaman Sea, shifting of the warm region south of TP, weak production of KE in the lower troposphere and convective region shifting to Western Pacific resulted in the delayed onset over Kerala in 1997 and 1995. During the early onset years viz. 2004 and 1990, the warm region moving westwards, high production of KE extending to mid troposphere and deep convection moving westwards in the north Indian Ocean (10–15°N) is noticed. 相似文献
15.
Seasonal transition of summer rainy season over indochina and adjacent monsoon region 总被引:8,自引:0,他引:8
Jun Matsumoto 《大气科学进展》1997,14(2):231-245
The mean onset and withdrawal of summer rainy season over the Indochina Peninsula were investigated using 5-day averaged rainfall data (1975-87). The mean seasonal transition process during onset and retreat phases in Indochina, India and the South China Sea is also examined using 5-day mean OLR (1975-87) and 850 hPa wind (1980-88) date. It was found that the onset of summer rainy season begins earlier in the inland region of Indochina (Thailand) in late April to early May than in the coastal region along the Bay of Bengal. This early onset of rainy sea-son is due to pre-monsoon rain under the mid-latitude westerly wind regime. The full summer monsoon circulation begins to establish in mid-May, causing active convective activity both over the west coast of Indochina and the cen-tral South China Sea. In case of withdrawal, the earliest retreat of summer rainy season is found in the central northern part of Indochina in late September. The wind field, on the other hand, already changes to easterlies in the northern South China Sea in early September. This easterly wind system covers the eastern part of Indochina where post-monsoon rain is still active. In late October, the wind field turns to winter time situation, but post monsoon rain still continues in the southern part of the Indochina Peninsula until late November 相似文献
16.
The NCEP reanalyzed data, OLR and SST observations are used to study the onset time and the multi-time scales features of the South China Sea (SCS) summer monsoon in 1998 and its interaction with the sea surface temperature and the effect on the precipitation in Guangdong province. It is found that the 1998 SCS summer monsoon set in on May 17 (in the fourth pentad of the month). The year witnesses a weak monsoon with the OLR oscillating at cycles of about 1 month and the Southwest Monsoon of about 1/2 month. The mon-soon over the Bay of Bengal and the cross-equatorial current near 105°are two driving forces for low-frequency variations of the SCS monsoon. The weak activity in the year was resulted from positive anomalies of SST in the equatorial eastern Pacific in early spring and subsequent formation of positive anomalies of SST in the SCS through the Arabian Sea. 相似文献
17.
Summary ?The interannual variability of broad-scale Asian summer monsoon was studied using a general circulation model (GCM) and NCEP
(National Center for Environmental Prediction) data set during 1979–95. In the GCM experiment, the main emphasis was given
to isolate the individual role of surface boundary conditions on the existence of winter-spring time circulation anomalies
associated with the interannual variability of Asian summer monsoon.
In order to understand the role of sea-surface temperatures (SSTs) alone on the existence of precursory signals, we have conducted
17 years numerical integration with a GCM forced with the real-time monthly averaged SSTs of 1979 to 1995. In this experiment,
among the many surface boundary conditions only SSTs are varying interannually. The composite circulation anomalies simulated
by the GCM have good resemblance with the NCEP circulation anomalies over subtropical Asia. This suggests that the root cause
of the existence of winter-spring time circulation anomalies associated with the interannual variability of Asian summer monsoon
is the interannual variability of SST.
Empirical Orthogonal Functions (EOFs) of 200-mb winds and OLR were constructed to study the dynamic coupling between SST anomalies
and winter-spring time circulation anomalies. It is found that the convective heating anomalies associated with SST anomalies
and stationary eddies undergo systematic and coherent interannual variations prior to summer season. We have identified Matsuno-Gill
type mode in the velocity potential and stream function fields. This suggests the existence of dynamic links between the SST
anomalies and the precursory signals of Asian summer monsoon.
Received June 9, 1999/Revised April 7, 2000 相似文献
18.
南海夏季风爆发与热带海洋海温和大气环流异常变化关系的研究 总被引:12,自引:0,他引:12
用合成和相关分析方法及SVD技术研究了南海夏季风爆发早、晚年份4~6月季风建立时期季风环流的异常及其与热带太平洋-印度洋海温的关系。结果表明,南海夏季风爆发与热带大气环流和海温变异密切相关。(1)当热带中、东太平洋—印度洋(主要在西南部)及南海海温低(高),西太平洋—澳洲邻近海域海温高(低)时,南海夏季风爆发早(晚)。不同区域海温对季风的影响有明显的季节差异,印度洋主要为晚春至初夏(4~6月),南海为5~6月,而热带太平洋从前冬一直持续到夏季。(2)不同的海温异常产生不同的季风环流型,南海夏季风爆发早、晚年大气环流的异常变化基本相反。南海夏季风的活动主要受印度季风环流变化的影响,与前期冬春季西太副高的强弱及位置变化密切相关。西太副高弱时,南海夏季风爆发早;反之,爆发晚。(3)热带太平洋—印度洋海温异常引起季风环流和Walker环流的异常变化可能是影响南海夏季风爆发早、晚的物理过程。 相似文献
19.
利用中国1961—2014年逐日降水观测等资料,分析了西南地区的干湿季变化特征。结果表明:西南地区东部和西北部最早进入湿季;干季由四川盆地、贵州南部开始。西南中东部以及南部等地的湿季长度较长,干季则与之相反。干湿季开始日期以及干湿季长度均具有明显的年代际变化特征,在1970年代中期到1980年代发生了气候突变,呈现湿季长度变短,干季变长的趋势。湿季降水呈现东南多、西北少的特征,并表现出中东部减少,西部增加的趋势;干季降水则表现为东多西少的特点,在东部呈增加,在四川等地呈减少趋势。进一步分析表明:湿季异常偏湿(干)年,开始日期易偏早(晚),结束易偏晚(早),长度偏长(短);干季开始异常偏早(晚)年,干季长度长(短),干季略偏湿(干);太平洋、印度洋海温异常影响东亚大气环流的异常是造成西南地区干湿季出现异常的主要原因。 相似文献
20.
M. R. Jury 《Theoretical and Applied Climatology》1997,57(3-4):155-163
Summary Principal components analysis of satellite outgoing longwave radiation (OLR) anomalies over southern Africa forms the basis of this work. OLR anomalies, which are closely correlated with rainfall anomalies and vegetation cover, are formulated for early and late summer, the season when convective clouds develop over southern Africa. The first four principal component modes account for 82 to 85% of the total inter-annual convective variability in the period 1975–1994. The dominant terrestrial modes take the form of truncated dipoles (36%). NW-SE oriented loading patterns contributed by cloud bands and poleward tropical outflows, form the second most important climate mode (25%). Lower order modes are dominated by monsoon effects (12%) and isolated cells (10%). The dominant modes of convective variability appear related to the phase of the Southern Oscillation and its regional signals. The principal component results indicate that attention should be given to understanding mechanisms underlying dipole circulation systems.With 5 Figures 相似文献