Interdecadal variability of the South China Sea monsoon and its relationship with latent heat flux in the Pacific Ocean

We analyzed interdecadal variability of the South China Sea monsoon and its relationship with latent heat flux in the Pacific Ocean, using NCEP wind field and OAFlux heat flux datasets. Results indicate that South China Sea monsoon intensity had an obvious interdecadal variation with a decreasing trend. Variability of the monsoon was significantly correlated with latent heat flux in the Kuroshio area and tropical Pacific Ocean. Variability of latent heat flux in the Kuroshio area had an interdecadal increasing trend, while that in the tropical Pacific Ocean had an interdecadal decreasing trend. Latent heat flux variability in these two sea areas was used to establish a latent heat flux index, which had positive correlation with variability of the South China Sea monsoon. When the latent heat flux was 18 months ahead of the South China Sea monsoon, the correlation coefficient maximized at 0.58 (N=612), with a 99.9% significance level of 0.15. Thus, it is suggested that latent heat flux variability in the two areas contributes greatly to interdecadal variability of the South China Sea monsoon.     

西太平洋暖池变异及其对西太平洋次表层海温场的影响

应用热带太平洋上层XBT温度资料,分析研究了西太平洋暖池区(0°～16°N,125°～145°E)上层海洋的变化特征以及与西太平洋次表层海温场之间的关系.研究表明,西太平洋暖池区的垂向温度存在显著的年际变化,尤其在次表层(120～200m)的变化最为明显.西太平洋暖池区的次表层冷暖信号明显早于西太平洋次表层的海温异常.分析发现,西太平洋暖池区的海温异常是导致整个西太平洋次表层海温场变异的关键区,当西太平洋暖池区的次表层冷暖信号加强时,3～4个月后西太平洋海温场出现大范围的冷暖异常.     

2008年南海季风爆发前后西沙海域海气通量变化特征

基于2008年4至5月在南海西沙永兴岛进行的海气通量观测试验资料和NCEP资料,应用COARE3.0通量算法计算了海气通量,分析了季风爆发前后西沙海域天气变化特点和海气通量对南海季风爆发的响应。结果表明:2008年南海季风首先于5月第1候在南海南部爆发,受热带气旋等因素的影响,北部海区季风爆发推迟到5月18日。季风爆发和热带气旋活动对西沙海域的风速和海气通量影响较大,其中热带气旋的影响更强烈。热带气旋来临之前,潜热通量、感热通量以及动量通量均较小;在气旋活动及此后的季风爆发时期,大风使潜热通量和动量通量显著增强,感热通量则在降水期间变化明显;动量通量的最大值出现在热带气旋活动期间,其在此过程中的均值是观测初期均值的3倍以上。在整个观测过程中,潜热通量明显大于感热通量,后者是前者的16∶1。不同类型天气过程中,潜热通量的日变化相似,而感热通量的日变化有差异。湍流交换系数与风速有较好的相关关系。     

THE INTERDECADAL VARIABILITY OF ADVANCE AND RETREAT OF EAST ASIAN SUMMER MONSOON AND THEIR EFFECT ON THE REGIONAL RAINFALL OVER CHINA

The daily precipitation data of 740 stations in China(1958–2001)and the daily upper air data of European Centre for Medium-Range Weather Forecasts reanalysis dataset(1958–2001)are used to define an East Asian summer monsoon(EASM)index based on dynamic and thermal factors.The index is used to represent the front(or leading edge)of EASM to describe and characterize the advance and retreat of EASM objectively.During 1958–2001,the EASM movement underwent three interdecadal abrupt shifts in 1965,1980 and 1994,respectively.During 1958–1964,the front primarily concentrated in South China and North China,while it stayed at the mid-and lower-Yangtze River for a short period.During 1965–1979,the front was located in South China and the lower reach of Yellow River for a long time.During 1980–1993,the time in which the front of EASM stayed at the mid-and lower-Yangtze River was much longer,but it settled in North China for just a short time.During 1994–2001,the front generally concentrated in the south of the mid-and lower-Yangtze River.The three interdecadal shifts of EASM directly resulted in rainfall anomalies,as well as frequent disasters of flood and drought in East China.     

赤道潜流变化及其与ENSO的关系

应用TOGA/TAO实测海流和SODA全球海洋再分析资料,分析研究了热带太平洋赤道潜流的变化特征及其与ENSO循环的关系,初步探讨了赤道潜流变化对两种不同类型(中部型和东部型)ENSO事件的影响。对赤道潜流距平场的EOF分解表明,第一模态为"东太平洋潜流模态",特征向量主要反映东太平洋赤道潜流的变化情况;第二模态为"中太平洋潜流模态",特征向量主要反映中太平洋赤道潜流的变化情况;这两个主要模态基本可以反映赤道潜流距平场的主要信息。这两个模态对应的时间系数有明显的年际变化特征,并且与NINO指数都有较好的负相关,最大相关均通过99.9%的信度检验。相关分析表明潜流第一模态的变化滞后于NINO指数变化,而第二模态的变化则提前于NINO指数变化,即ENSO事件对东太平洋赤道潜流的变化有一定影响,而中太平洋的潜流变化又会对ENSO事件产生影响。通过个例分析表明,中太平洋赤道潜流的变化对两种不同类型ENSO事件的发生有重要影响。在东部型ENSO事件发生前,中太平洋赤道潜流增强,这样西太平洋暖池的异常海温在潜流的引导下快速向东传播,直接到达东太平洋形成东部型ENSO事件;中部型ENSO事件发生前,中太平洋赤道潜流明显减弱,西太平洋的异常海温不能迅速东传速,在中太平洋堆积上升到达海面,使得中部型ENSO事件爆发。     

西太平洋次表层海温异常与北赤道流异常海温西传

通过对热带太平洋上层XBT温度资料分析,探讨了对厄尔尼诺(El Nino)事件发生起重要作用的西太平洋暖池区次表层海温变暖异常的变化规律,揭示了影响西太平洋暖池区次表层海温变暖异常的形成机制.分析表明:西太平洋暖池区的次表层海温异常变暖与赤道太平洋的北赤道流(10°N)的海温异常存在密切关系.在El Nino事件发生的前期,位于赤道中东太平洋的异常暖水沿北赤道流温跃层潜沉向西太平洋暖池区输送,在西太平洋暖池堆积并向赤道西太平洋扩展,当异常暖水达到一定强度,并在大气的强迫下,异常暖水沿温跃层东传至赤道中东太平洋并上浮于海面,最终导致El Nino事件的爆发.北赤道流的异常海温西传是导致西太平洋暖池区次表层海温异常的重要机制,是导致El Nino事件发生的关键.     

我国东北地区汛期降水与西北太平洋海-气热量交换的相关分析

近年来,国内外不少研究者曾经指出过,太平洋海温异常对大气环流的影响及其在长期天气预报上的重要作用[1-4].吉野[5]等对从前一年半的海温与东亚六地区的降水量及气温资料的逐月相关关系研究中,也确认了它们之间的密切关系.由此可见,逐步地将海温场的异常变化应用于长期天气预报业务中,实质上是使研究工作深入发展的一种趋势.上述研究工作的共同特点是采用海表温度作为影响大气的主要因子.     

Characteristics of change of the SST in the tropical western Pa-cific and the tropical Indian Ocean and its response to the change of the Antarctic ice area

In this paper, by using ocean surface temperature data(COADS), the study is made of the characteristics of the monthly and annual changes of the SST in the tropical western Pacific and Indian Oceans, which have important influences on the climate change of the whole globe and the relation between ENSO(El Nio Southern Oscillation) and the Antarctic ice area is also discussed. The result indicates that in the tropical western Pacific and the Indian Oceans the change of Sea Surface Temperture(SST) is conspicuous both monthly and annaully, and shows different change tendency between them. This result may be due to different relation in the vibration period of SST between the two Oceans. The better corresponding relationship is obvious in the annual change of SST in the tropical Indian Ocean with the occurrence El Nio and La Nia. The change of the SST in the tropical western Pacific and the tropical Indian Oceans has a close relation to the Antarctic ice area, especially to the ice areas in the eastern south Pole and Ross Sea, and its notable correlative relationship appears in 16 months when the SST of the tropical western Pacific and the Indian Oceans lag back the Antarctic ice area.