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1.
冬季台风“南玛都”结构性质的初步研究 总被引:2,自引:0,他引:2
利用1982~2001年NCEP/NCAR再分析的周平均SST场、逐日表面热通量场及近地层10米高度风场资料,分析了南海地区季风爆发前后几周南海多年平均SST随时间的变化和空间分布特征及其影响因子.结果表明,南海季风爆发前,SST急剧升高,季风爆发后,SST的变化呈现比较明显的空间差异,南海北部SST继续上升,而南部SST持续下降.南海季风爆发前,海面净得热,这是季风爆发前南海SST上升的主要原因.季风爆发后几周,海面净得热减少,此时的海表净热通量收支与SST无显著相关.而季风爆发期和爆发后几周,南海SST变化的不均匀性与西南气流具有很好的相关性,南海的降温区呈东北-西南走向,与低层西南气流的方向一致.因而,在季风爆发后的一段时间内,近地层风场导致的海洋表面及内部动力过程是影响南海SST变化的另一重要因子. 相似文献
2.
根据1998年南海季风试验西沙海面铁塔梯度观测资料,利用总体(Bulk)系数法和多层结通量廓线法对西沙海面的海-气通量进行了估算,得出两种方法估算的潜热通量、感热通量基本一致。总体系数法估算的潜热通量比多层结通量廓线法略大1~3 W·m-2,感热通量小0~1.5 W·m-2。一般而言,季风爆发期间潜热输送逐渐增加;季风爆发前期夜间潜热通量比季风爆发后期大;季风爆发后期,白天潜热通量明显大于爆发初期和中期。感热通量季风爆发前海面向大气输送,爆发后期大气向海面输送。动量通量和摩擦速度随风速增加。 相似文献
3.
南海夏季风爆发前后海-气界面热交换特征 总被引:20,自引:1,他引:20
文中利用 2 0 0 0与 2 0 0 2年二次南海海 气通量观测资料和同期西沙站资料 ,研究了南海夏季风爆发前后海洋表面热收支变化特征。研究表明 :南海夏季风爆发前后 ,影响海面热收支变化的主要分量是净短波辐射通量和潜热通量 ,在季风爆发前后不同阶段 ,二个分量的变化有不同表现形式 ,但不论二者如何变化 ,季风爆发与活跃期 ,海面热收入减小或为净支出 ;季风爆发前及中断期间 ,海面热收入逐渐增加 ;由于大的热惯性 ,海温变化落后于海面热收支的变化 ,海温的这种滞后效应通过影响潜热通量调节海面热收支的变化 ,又反过来影响自身的变化 ,形成短期振荡过程 ,这种振荡过程与季风的活跃、中断过程相对应。 相似文献
4.
Seven key areas of air-sea interaction in the global oceans are determined by comprehensive
analysis of the global data of monthly mean sea surface temperature (SST), surface wind, temperature, humidity,
sea surface sensible heat and latent heat fluxes. The time-lag correlation between SST and each atmospheric
element in each key area are focally analyzed to expose the same and the different features of air-sea interaction
in different key areas. The results show that the air-sea thermal interaction is strong in each area, SST, temperature and humidity can be fairly replaced with one another, particularly in the central eastern Pacific and the south India Ocean. The dynamic effect on SST is different in different areas and in the central western Pacific
such effect is more important. The correlation between sensible heat, latent heat and SST is more significant in
the eastern Pacific, the western Pacific and the two major monsoon areas — the northwestern Pacific and the
south India Ocean. By analyzing the sustainable correlation probability of SST and every atmospheric element
in each key area, we further know that the anomalies of which element, in which area and in which period are
well sustained or easily destroyed. This is beneficial not only to prediction, but also to discussion of the physical mechanism of air-sea interaction. 相似文献
5.
夏季亚洲季风槽的断裂过程及其结构特征 总被引:2,自引:0,他引:2
本文分析了1982年7月一次亚洲季风槽的断裂过程。结果发现,在盛夏亚洲季风盛行期间,中南半岛与南海地区的季风槽可在西太平洋副热带高压东退与孟加拉湾季风低压的西移过程中断裂消失。与此同时,热带西南季风北进,梅雨雨带北移,雨景加大。此外,根据季风区内纬向风的垂直结构,说明了下列事实的成因:在印度和中南半岛季风槽附近及其南侧广大地区内,经常出现大量的季风云团和季风低压;而在西太平洋季风槽的北侧及槽的附近,则经常产生强的热带气旋和台风螺旋云系;南海地区的状况介于以上两者之间,在这里可以有弱的台风生成,也可以有季风云团存在。 相似文献
6.
采用2009—2013年CFSR(Climate Forecast System Reanalysis)大气和海洋再分析资料对黄海海气间热量通量和动量通量的特征进行统计分析,并通过FVCOMSWAVE浪流耦合模式对典型寒潮过程中风浪的影响效果进行模拟研究与对比分析。统计结果显示,通量受海表大风、海气温差及海洋环流等因子影响,秋冬季节强烈,春夏季节相对较弱,在寒潮活跃的冷季该海域的海流处于弱流期,风浪对海面通量的作用明显增强。海温特征也显示冷季的不稳定性显著强于暖季,因此该海域冷季具有更强的海气热量通量。沿岸站点的比较显示,南部吕泗站面向更开阔的东海海域,其平均波高高出北部20%左右。这与沿海南部通量强于北部特征对应。数值模拟显示,在寒潮过程中,海气界面热量通量和动量通量输送比多年月平均状态显著增强,动量通量增大1~5倍,热量通量增大1~6倍。寒潮过程入海冷锋走向、强度、移动方向显著影响海面热量通量和动量通量大值区的分布。偏北路寒潮纬向型冷锋入海,其强度东部大于西部,造成通量大值区形成在黄海东北部,而偏西路寒潮经向型冷锋入海,其强度南部大于北部,造成通量大值区形成在黄海南部。同时偏北路径寒潮强度大于偏西路径,海气动量通量响应较偏西路径强约25%,热量通量强约50%。耦合风浪作用的模拟显示,海气间热量通量和动量通量明显增大,对不同强度风浪,浪高增加1.5倍,动量通量最大值增大约2倍,热量通量增大10~160 W/m2;浪高减弱至0.5倍,动量通量最大值则减弱约40%,热量通量减小10~55 W/m2。冷锋及其驱动的风浪强烈影响区域海气通量时空特征。 相似文献
7.
THE SENSITIVITY TEST STUDY OF AIR-SEA SURFACE FLUX MODEL 总被引:2,自引:0,他引:2
In this article, a sensitivity test of air-sea surface flux model was carried out with the field observation data of Project “South China Sea Air-Sea Flux Measurement in 2000”. The results show that sensible heat fluxes are sensitive to observation errors, increasing the error of model calculation; In contrast, the latent heat flux and momentum flux are not as sensitive to observation errors as the sensible heat, and their calculated results are reliable. The test result also verifies… 相似文献
8.
2008年4—10月在中国南海西沙永兴岛近海进行了第4次海-气通量观测试验,获得了整个夏季风期间近海面层湍流脉动量及辐射、表层水温、波浪及距水面3.5、7.0、10.5m高度温、湿、风梯度观测资料,根据涡动相关法和COARE3.0法计算结果研究了2008年南海西南季风爆发、发展、中断、衰退包括暴雨、台风、冷空气影响等天气过程中海-气通量交换和热量收支变化。结果表明:(1)季风爆发前的晴天太阳总辐射强,而海洋失热量较小,热量净收支为较大正值,海面温度迅速升高。季风爆发期太阳总辐射仍然较强,大气长波辐射也有所增强,而海面长波辐射变化很小,故海面净辐射收支仍为正值;(2)季风活跃期特别是降水阶段感热通量增大,季风中断阶段变小;季风活跃期虽然潜热通量增大,由于太阳短波辐射没有减少,海洋净热量收支稍有盈余;中断阶段潜热通量、感热通量减少,海洋吸热大于季风活跃期;降水阶段由于太阳短波辐射减小,感热通量增大,海洋热量收支出现较大负值,海面温度很快降低。季风衰退期风力减弱,湿度减小,潜热通量减小,海洋热量收入又出现较大正值,海面温度回升;(3)台风影响过程中潜热通量随着风速增强迅速增大;感热通量因降水情况不同而有差异,晴天时减小,大雨时剧烈增大;由于太阳短波辐射减少、潜热通量剧增,海洋热量净收支出现负值,促使海面温度迅速降低;(4)动量通量主要与海表面风速有关;动量通量τ与风速V的关系可以表示为τ=0.00171v~2-0.003809v+0.02213。 相似文献
9.
南海西南季风爆发的气候特征 总被引:56,自引:9,他引:56
利用多年的海洋船舶、岛屿站和沿岸站观测记录及卫星观测的高反射云(HRC)资料,揭示南海西南季风爆发和建立时期的环流特征及要素变化。在南海,西南季风爆发的平均时间为5月中旬,北部略早(5月12日),南部略迟(5月20日),但年际差别可达一个月左右。伴随着西南季风的爆发,南海云量和降水量增多,对流加强,但海区之间具有很大的不均匀性。西南季风建立以后,强对流区稳定于南海中部,季风雨带没有明显的跳跃现象。西南季风爆发之前,南海表层温度迅速升高,其开始时间较季风爆发约提前一个月,海面水温的升高为季风爆发提供了热量和水汽条件。4—5月,南海海面热交换分量(海面吸收的太阳辐射、潜热输送等)发生明显的改变,特别是潜热交换和蒸发量明显增大,它可能是西南季风首先在南海爆发的原因之一。 相似文献
10.
1. Introduction Air-sea interaction plays an important role in theglobal seasonal to inter-annual climate variability,most notably, the El Ni?no and Southern Oscillation(ENSO) phenomenon (Webster and Lukas, 1992). Be-cause of its widespread impacts on … 相似文献
11.
全球海气相互作用关键区及区内气候特征分析 总被引:8,自引:5,他引:8
采用合成分析方法研究了南海夏季风的爆发过程及其前期征兆。研究结果表明,在南海夏季风爆发之前,对流首先在中南半岛出现,随后在临近南海夏季风爆发时,菲律宾附近也出现对流活动,这表明菲律宾附近对流活动的出现也是引起南海夏季风爆发的原因之一。在南海夏季风爆发之前,赤道印度洋上(75~95°E)的赤道西风有一次明显的增强过程,它对南海夏季风的爆发也起了十分重要的作用,因为一方面它通过赤道西风的东扩促使南海南部的赤道西风建立和增强;另一方面,它又通过西风的北抬以及激发孟加拉湾的对流扰动发展和北移东传,诱使我国华南沿海西风的增强和南压,从而对南海夏季风爆发产生影响。进一步的研究还表明,印度洋赤道西风和南海南部赤道西风的增强又分别与南半球马斯克林高压、澳大利亚高压的增强以及索马里、85°E附近和105 °E附近向北越赤道气流的增强有关。 相似文献
12.
系统辨识(1):辨识导引 总被引:1,自引:1,他引:0
丁峰 《南京气象学院学报》2011,34(1):1-22
海气交界面的能量交换与海洋平流共同决定海表面温度(sea surface temperature,SST)异常的形成、维持与衰减。基于作者近期的研究,本文回顾了海表面热通量(surface heat flux,SHF)反馈以及SST方差与海表热通量及海洋热输送方差之间的关系。海表热通量异常可近似为一个与SST成正比的线性反馈项与一个大气强迫项之和。SHF的反馈参数取决于SST和SHF间的滞后交叉协方差以及SST自协方差。这种反馈总体上为负反馈,减弱SST异常,海表湍流部分起主导作用。最强的反馈可见于南北两半球的中纬度,最大值出现在大洋的西部和中部位置并延伸至高纬度地区。SHF反馈于北半球秋冬两季增强,春夏两季减弱。这些反馈特征在CMIP3耦合气候模式中得到合理的模拟。然而,多数模式中反馈的强度与再分析资料的估值相比略为偏弱。与再分析资料的估值相比,"平均模式"反馈参数比单一模式有更相似的空间形态以及较小的均方根差。基于海表面能量收支平衡,SST的方差可以表示为3个要素的积:1)海表面辐射和湍流通量以及海洋热输送的方差之和;2)一个衡量SST持续性的传输系数G;3)一个反映海表热通量以及海洋热输送之间协方差结构的有效因子e。SST方差的地理分布类似于海表热通量及海洋热输送的方差之和,但为G和e因子所修正。 相似文献
13.
A. Jayakumar J��r?me Vialard M. Lengaigne C. Gnanaseelan Julian P. McCreary B. Praveen Kumar 《Climate Dynamics》2011,37(11-12):2217-2234
During boreal winter, there is a prominent maximum of intraseasonal sea-surface temperature (SST) variability associated with the Madden?CJulian Oscillation (MJO) along a Thermocline Ridge located in the southwestern Indian Ocean (5°S?C10°S, 60°E?C90°E; TRIO region). There is an ongoing debate about the relative importance of air-sea heat fluxes and oceanic processes in driving this intraseasonal SST variability. Furthermore, various studies have suggested that interannual variability of the oceanic structure in the TRIO region could modulate the amplitude of the MJO-driven SST response. In this study, we use observations and ocean general circulation model (OGCM) experiments to quantify these two effects over the 1997?C2006 period. Observational analysis indicates that Ekman pumping does not contribute significantly (on average) to intraseasonal SST variability. It is, however, difficult to quantify the relative contribution of net heat fluxes and entrainment to SST intraseasonal variability from observations alone. We therefore use a suite of OGCM experiments to isolate the impacts of each process. During 1997?C2006, wind stress contributed on average only about 20% of the intraseasonal SST variability (averaged over the TRIO region), while heat fluxes contributed about 70%, with forcing by shortwave radiation (75%) dominating the other flux components (25%). This estimate is consistent with an independent air-sea flux product, which indicates that shortwave radiation contributes 68% of intraseasonal heat flux variability. The time scale of the heat-flux perturbation, in addition to its amplitude, is also important in controlling the intraseasonal SST signature, with longer periods favouring a larger response. There are also strong year-to-year variations in the respective role of heat fluxes and wind stress. Of the five strong cooling events identified in both observations and the model (two in 1999 and one in 2000, 2001 and 2002), intraseasonal-wind stress dominates the SST signature during 2001 and contributes significantly during 2000. Interannual variations of the subsurface thermal structure associated with the Indian Ocean Dipole or El Ni?o/La Ni?a events modulate the MJO-driven SST signature only moderately (by up to 30%), mainly by changing the temperature of water entrained into the mixed layer. The primary factor that controls year-to-year changes in the amplitude of TRIO, intraseasonal SST anomalies is hence the characteristics of intraseasonal surface flux perturbations, rather than changes in the underlying oceanic state. 相似文献
14.
We have analysed numerical simulations performed with a global 3D coupled atmosphere-ocean model to focus on the role of
atmospheric processes leading to sea surface temperature (SST) drift in the tropics. Negative SST errors occur coherently
in space and time with large positive errors in latent heat and momentum fluxes at the tropical air-sea interface, as diagnosed
from forced SST simulations. The warm pool in the western Pacific disappears after a few years of simulation. Strong SST gradients
enforce regions of high precipitation that are thin and stationary north of the equator. We detail the implications for the
ocean-atmosphere system of such upheaval in the deep convection location. A sensitivity experiment to empirically formulate
air-sea drag coefficient shows that the rapid warm pool erosion is not sensitive to changes in the formulation of the surface
drag coefficient over the oceans because the corresponding changes in turbulent heat fluxes and LW cooling approximately cancel
one another. In the eastern Pacific, the improvement in SST is striking and caused by feedbacks between SST, surface turbulent
fluxes and boundary layer cloud fraction, which decreases as SST warms.
Received: 8 December 1998 / Accepted: 6 January 2000 相似文献
15.
A South China Sea (SCS) local TC (SLT) is defined as a tropical cyclone (TC) that forms within the SCS region and can reach the grade of tropical storm (TS) or above. The statistical features of the SLTs from 1985 to 2007 are analyzed first. It is found that over the SCS about 68% of the TCs can develop into TSs. The SLT intensity is relatively weak and associated with its genesis latitude as well as its track. The SLT monthly number presents a seasonal variation with two peaks in May and July to September. Based on the daily heat flux data from the Woods Hole Oceanographic Institution_Objectively Analyzed air-sea Fluxes (WHOI_OAFlux) in the same period, the air-sea exchange during the process of generation and development of the SLT is studied. Results show that the heat fluxes released to the atmosphere increase significantly day by day before cyclogenesis. The ocean to the south to the TC center provides the main energy. Along with the development of SLT, the regions with large heat fluxes spread clockwise to the north of TC, which reflects the energy dispersion property of vortex Rossby waves in the periphery of the TC. Once the SLT forms the heat fluxes are not intensified as much. During the whole process, the net heat, latent heat and sensible heat flux display a similar evolution, while the latent heat flux makes a main contribution to the net heat flux. The maximum air-sea heat exchange always occurs at the left side of the TC moving direction, which may reflect the influence of the SCS summer monsoon on TC structure. 相似文献
16.
In this paper,we use a two-dimensional primary equation model which contains (1) heating ofradiation,(2) heating of condensation,and (3) transfers of sensible and latent heat between air andthe underlying surface.To investigate the causes for the formation of the eastern North Pacific sum-mer monsoon,the data at 110°W are obtained and winds at underlying surface and at 200 hPa aremodified under the conditions (1) removing topography and (2) changing meridional sea surface tem-perature (SST) gradient.In the numerical modification,we find that by removing the topography,the center's location ofthe eastern North Pacific summer monsoon does not change,but the intensity of the summer monsoonis weakened.Also the onset of the summer monsoon is delayed to the end of May.The tropical east-erly jet is weakened obviously,even changes to westerly wind.On the other hand,we find that theSST gradient along 110°W influences the eastern North Pacific summer monsoon distinctly.If theSST gradient is decreased,the center of the southwest wind near 12°N does not exist any more.theintensity of the whole summer monsoon becomes very weak and the circulation pattern of the summermonsoon also changes a lot.Finally,we indicate that both topography and meridional SST gradient play important roles inthe occurrence of the eastern North Pacific summer monsoon.The meridional SST gradient is themost important factor that triggers the summer monsoon and the topography along 110°W influencesthe intensity and the onset time of the summer monsoon there mostly. 相似文献
17.
南海季风建立前后珠江三角洲的陆气热量交换与热力边界层结构特征 总被引:4,自引:0,他引:4
根据动力与热力指标,2004和2005年南海季风建立前后可分成明显的4个阶段——季风建立前的雨期、非雨期;季风建立后的活跃期与非活跃期。对2004和2005年南海季风建立前后的广州番禺综合外场观测资料进行分析,得到了这4个阶段陆气热量交换与热力边界层的主要特征:净辐射与净短波辐射的变化趋势基本一致,净短波辐射与净长波辐射之比为3.49—4.81,净短波辐射是净辐射的主要贡献项,云量与降水是控制净短波辐射与净辐射的直接因素;季风活跃期间午间对流云系对太阳辐射衰减显著,造成了辐射各分量以及热通量的峰值区变窄,量值急剧变小;季风建立前后感热与潜热均是净辐射的主要消耗项,占净辐射的90%以上,潜热明显大于感热,2005年较2004年潜热的分配额有明显的增加,其原因可能与近地层的风速较大,总是维持向上的湿度梯度有关;季风建立前后除季风活跃期外边界层位温结构均具有明显的日变化特征,午间混合层可发展至1070m,而季风活跃期间午间混合层发展受到对流云释放潜热的抑制,导致季风活跃期混合层消失的现象,分析还发现季风建立前后各阶段夜间残余混合层均不明显。分析表明引起陆气能量过程及边界层热力结构差异的关键因素之一是云系与降水,加强边界层过程与降水宏微观过程相互作用的研究是深入认识陆气过程与边界层结构特征的关键。 相似文献
18.
The latest version of sea spray flux parameterization scheme developed by Andreas is coupled
with the PSU/NCAR model MM5 in this paper. A western Pacific tropical cyclone named Nabi in 2005 is
simulated using this coupled air-sea spray modeling system to study the impacts of sea spray evaporation
on the evolution of tropical cyclones. The results demonstrate that sea spray can lead to a significant
increase of heat fluxes in the air-sea interface, especially the latent heat flux, the maximum of which can
increase by up to about 35% - 80% The latent heat flux seems to be more important than the sensible heat
flux for the evolution of tropical cyclones. Regardless of whether sea spray fluxes have been considered,
the model can always simulate the track of Nabi well, which seems to indicate that sea spray has little
impact on the movement of tropical cyclones. However, with sea spray fluxes taken into account in the
model, the intensity of a simulated tropical cyclone can have significant increase. Due to the enhancement
of water vapor and heat from the sea surface to the air caused by sea spray, the warm core structure is
better-defined, the minimum sea level pressure decreases and the vertical speed is stronger around the eye
in the experiments, which is propitious to the development and evolution of tropical cyclones. 相似文献
19.
Luo Huibang 《Acta Meteorologica Sinica》1995,9(1):26-34
In this paper the relationships between the sea surface temperature (SST) of Xisha and that in the northern Indian and northern Pacific Oceans,the geopotential height at 500 hPa level of the Northern Hemisphere,and rainfall in China are studied statistically using data in the period of 1961-1992.Results show that in winter,the interannual variation in SST of Xisha describes that for a large oceanic region off the East Asia coast,and is closely related to the activity of East Asia winter monsoon.On the other hand,there exist very high values of auto-correlation of Xisha SST anomaly from December through the following July,but the anomalous condition is hardly correlated to that in the preceding autumn.The winter monsoon related anomalous SST condition in Xisha has a strong tendency to persist through the succeeding summer monsoon season with the same sign.In addition,correlation maps of monthly mean rainfall in China with respect to Xisha SST of the same month show positive correlations with confidence level above 95% to the east of 110°E and to the south of Changjiang (Yangtze) River during the months of October through April;the region becomes smaller in May and changes correlation sign in June;the positive correlation region is located in the middle and lower reaches of Changjiang River from July to September.The air-sea interaction plays an important role in these processes. 相似文献
20.
Seasonal and inter-annual variability of the mixed layer temperature in the Southern South China Sea (SSCS) is investigated using a regional ocean circulation model simulation. The mixed layer depth (MLD) over the SSCS exhibits a strong seasonal signal with deeper MLDs during the northeast and southwest monsoons. The main factor that drives the mixed layer temperature variation in the SSCS is the air-sea heat fluxes, with vertical ocean processes acting as a relatively weak negative feedback. In general, the budget analysis demonstrates a net balance between the vertical ocean processes and surface heat flux during the pre-monsoon and southwest monsoon. Northeast monsoon period is noted by an offsetting of surface heat flux, horizontal and vertical ocean processes. The first dominant mode of mixed layer temperature inter-annual variability in the SSCS shows significant correlation (0.34) with the El Nino phenomenon in the Pacific Ocean and is best correlated (0.67) with a lag of 5 months. 相似文献