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1.
赤道不稳定波(tropical instability waves)存在于热带东太平洋赤道附近, 通常于每年的春末夏初出现, 以约0.6 m/s速度向西传播, 波周期为20~40天左右, 波长约为1000~2000 km。本文利用一个全球高分辨率海气耦合模式对赤道不稳定波在赤道附近的热量输送进行分析, 表明赤道不稳定波产生指向赤道的热通量, 从而部分抵消了热带东太平洋地区由Ekman辐散和温度平流导致的强冷却效应, 维持热带地区的热量平衡。其对赤道冷舌区的增暖作用可以消除和减弱气候模式中热带东太平洋地区的系统性冷偏差, 能使冷舌的强度和分布得到合理的改善, 对气候模式的改进和发展具有潜在贡献。赤道不稳定波还可以改变赤道海洋上空低层大气层结稳定度, 导致近地层强的风场辐合辐散, 并进一步影响大气混合层的温度、 风场等气象要素。模拟分析结果还表明, 赤道不稳定波对大气强迫产生二次响应, 改变赤道上空逆温层的垂直位移和逆温强度。研究赤道不稳定波对热带海洋气候及其海气相互作用机理的理解具有重要意义。 相似文献
2.
赤道不稳定波对海气相互作用影响的数值模拟分析 总被引:1,自引:0,他引:1
赤道不稳定波 (tropical instability waves) 存在于热带东太平洋赤道附近, 通常于每年的春末夏初出现, 以约0.6 m/s速度向西传播, 波周期为20~40天左右, 波长约为1000~2000 km.本文利用一个全球高分辨率海气耦合模式对赤道不稳定波在赤道附近的热量输送进行分析, 表明赤道不稳定波产生指向赤道的热通量, 从而部分抵消了热带东太平洋地区由Ekman辐散和温度平流导致的强冷却效应, 维持热带地区的热量平衡.其对赤道冷舌区的增暖作用可以消除和减弱气候模式中热带东太平洋地区的系统性冷偏差, 能使冷舌的强度和分布得到合理的改善, 对气候模式的改进和发展具有潜在贡献.赤道不稳定波还可以改变赤道海洋上空低层大气层结稳定度, 导致近地层强的风场辐合辐散, 并进一步影响大气混合层的温度、 风场等气象要素.模拟分析结果还表明, 赤道不稳定波对大气强迫产生二次响应, 改变赤道上空逆温层的垂直位移和逆温强度.研究赤道不稳定波对热带海洋气候及其海气相互作用机理的理解具有重要意义. 相似文献
3.
The data analyses in the first part of this study have shown that the sea surface temperature anomalies (SSTA) in the eastern equatorial Pacific are significantly correlated with the preceding anomalous convergence of the meridional wind stress near the equator. In order to understand the dynamical role of the convergent meridional wind stress anomalies in the El Nino occurring, an ideal wind stress which converges about the equator is set up based on the observations revealed in the first part. A simple dynamical model of tropical ocean is used to study the response of the tropical ocean to the convergent meridional wind stress. The results show that the convergent wind stress in the eastern equatorial Pacific is favorable for the occurrence of El Nino. When the convergent wind stress exerts on the tropical ocean, the westward propagating Rossby wave is excited, which, on the one hand, makes the mixed layer near the equator become thicker. On the other hand, the westward oceanic currents associated with the Rossby wave appear in the vicinity of the equator. The oceanic currents can drive the upper layer sea water to transfer to the west, which is favorable for the sea water to pile up in the western equatorial Pacific and to accumulate energy for the upcoming warm event. 相似文献
4.
第一部分(Zhang et al,2001)的资料分析表明,El Nio事件发生之前在赤道中东太平洋存在着显著的异常经向风应力辐合、为了分析这种超前的辐合经向风应力距平在其后的ElNio事件发生中的动力作用,本文利用简单热带海洋动力学模式,从动力学上研究了热带海洋对关于赤道辐合的理想经向风应力强迫的响应,指出赤道东太平洋出现在El Nio事件之前的辐合经向风应力异常有利于El Nio事件的发生。辐合的经向风应力强迫作用于热带海洋,会激发出西传的Rossby波,使得赤道附近的海洋混合层变厚。由于耗散的影响,最大的增厚区位于强迫区域。当这个强迫作用于赤道东太平洋时,这将有利于以 Nl Nio事件发生;另一方面,Rossby波响应在赤道及其附近使得表层海水向西流动,中东太平洋表层水的不断向西输送有利于表层水在西太平洋堆积,为后来暖事件的发生累积能量。 相似文献
5.
The mechanisms responsible for the seasonal cycle in the tropical central and eastern Pacific sea surface temperature (SST)
are investigated using a coupled general circulation model. We find that the annual westward propagation of SST anomalies
along the equator is explained by a two-stage process. The first stage sets the phase of the variation at the eastern boundary.
The strengthening of the local Hadley Circulation in boreal summer leads to a strengthening of the northward winds that blow
across the equator. These stronger winds drive enhanced evaporation and entrainment cooling of the oceanic mixed layer. The
resulting change in SST is greatest in the east because the mixed layer is at its shallowest there. As the east Pacific SST
cools the zonal SST gradient in the central Pacific becomes more negative. This development signals the onset of the second
stage in the seasonal variation of equatorial SST. In response to the anomalous SST gradient the local westward wind stress
increases. This increase drives cooling of the oceanic mixed layer in which no single mechanism dominates: enhanced evaporation,
wind-driven entrainment, and westward advection all contribute. We discuss the role that equatorial upwelling plays in modulating
mixed layer depth and hence the entrainment cooling, and we highlight the importance of seasonal variations in mixed layer
depth. In sum these processes act to propagate the SST anomaly westward.
Received: 22 February 1999 / Accepted: 20 March 2000 相似文献
6.
Rong-Hua Zhang 《Climate Dynamics》2014,42(1-2):467-485
Tropical instability waves (TIWs) arise from oceanic instability in the eastern tropical Pacific and Atlantic Oceans, having a clear atmospheric signature that results in coupled atmosphere–ocean interactions at TIW scales. In this study, the extent to which TIW-induced surface wind feedback influences the ocean is examined using an ocean general circulation model (OGCM). The TIW-induced wind stress (τTIW) part is diagnostically determined using an empirical τTIW model from sea surface temperature (SST) fields simulated in the OGCM. The interactively represented TIW wind tends to reduce TIW activity in the ocean and influence the mean state, with largest impacts during TIW active periods in fall and winter. In December, the interactive τTIW forcing induces a surface cooling (an order of ?0.1 to ?0.3 °C), an increased heat flux into the ocean, a shallower mixed layer and a weakening of the South Equatorial Current in the eastern equatorial Pacific. Additionally, the TIW wind effect yields a pronounced latitudinal asymmetry of sea level field across the equator, and a change to upper thermal structure, characterized by a surface cooling and a warming below in the thermocline, leading to a decreased temperature gradient between the mixed layer and the thermocline. Processes responsible for the τTIW–induced cooling effects are analyzed. Vertical mixing and meridional advection are the two terms in the SST budget that are dominantly affected by the TIW wind feedback: the cooling effect from the vertical mixing on SST is enhanced, with the maximum induced cooling in winter; the warming effect from the meridional advection is reduced in July–October, but enhanced in November–December. Additional experiments are performed to separate the relative roles the affected surface momentum and heat fluxes play in the cooling effect on SST. This ocean-only modeling work indicates that the effect of TIW-induced wind feedback is small but not negligible, and may need to be adequately taken into account in large-scale climate modeling. 相似文献
7.
The sensitivity of tropical Atlantic climate to upper ocean mixing is investigated using an ocean-only model and a coupled
ocean–atmosphere model. The upper ocean thermal structure and associated atmospheric circulation prove to be strongly related
to the strength of upper ocean mixing. Using the heat balance in the mixed layer it is shown that an excessively cold equatorial
cold tongue can be attributed to entrainment flux at the base of the oceanic mixed layer, that is too large. Enhanced entrainment
efficiency acts to deepen the mixed layer and causes strong reduction in the upper ocean divergence in the central equatorial
Atlantic. As a result, the simulated sea surface temperature, thermocline structure, and upwelling velocities are close to
the observed estimates. In the coupled model, the seasonal migration of the Intertropical Convergence Zone (ITCZ) reduces
when the entrainment efficiency in the oceanic mixed layer is enhanced. The precipitation rates decrease in the equatorial
region and increase along 10°N, resulting in a more realistic Atlantic Marine ITCZ. The reduced meridional surface temperature
gradient in the eastern tropical Atlantic prohibits the development of convective precipitation in the southeastern part of
the tropical Atlantic. Also, the simulation of tropical Atlantic variability as expressed in the meridional gradient mode
and the eastern cold tongue mode improves when the entrainment efficiency is enhanced. 相似文献
8.
利用西北太平洋编号台风资料、NCEP/NCAR再分析资料和NOAA向外长波辐射(outgoing longwave radiation,OLR)资料等,选取西北太平洋热带气旋频数异常偏少的2010年和1998年,诊断分析ENSO事件及其东亚夏季风环流异常与热带气旋频数异常的关系,给出东亚夏季风系统部分成员影响热带气旋频数的天气学图像:由春入夏,赤道东太平洋海温异常偏暖,赤道哈得来环流偏强,沃克环流偏弱;西太平洋副热带高压异常强大,位置偏西;季风槽位置偏南,东西向不发展;南海、西太平洋越赤道气流偏弱;异常热源和水汽汇偏南,南海和菲律宾以东地区对流活动受到抑制,热带对流活跃区位于赤道以南;热带气旋生成个数明显偏少,位置偏西。 相似文献
9.
Tomoki Tozuka Jing-Jia Luo Sebastien Masson Swadhin K. Behera Toshio Yamagata 《Dynamics of Atmospheres and Oceans》2005,39(1-2):41
Using an output from 200-year integration of the Scale Interaction Experiment of EU project-F1 model (SINTEX-F1), the annual ENSO reproduced in the coupled general circulation model is investigated, suggesting the importance of reproducing an annual cycle in realistically simulating ENSO events. Although many features of the annual ENSO are reproduced, the northward expansion of sea surface temperature anomaly (SSTA) in the eastern tropical Pacific stays south of the equator. It is suggested that this model bias is due to the excitation of the too strong Rossby waves in the southeastern tropical Pacific, which reflect at the western boundary and intrude into the eastern equatorial Pacific. The zonal wind stress anomaly along the equator also plays an important role in generating the equatorial Kelvin waves. The amplitude of SSTA for the annual ENSO mode is reproduced, but its variance is only 20% of the observation; this is again due to the lack of northward migration of seasonal SSTA in the equatorial region and weaker coastal Kelvin waves along South America. Remedies for the model bias are discussed. 相似文献
10.
In the past three decades, the strongest central Pacific (CP) El Niño event was observed in 2009–2010 by satellites. When intensity of this CP El Niño reached its maximum, large diurnal variations of sea surface temperature (SST) were also observed from tropical atmosphere ocean moorings in the central equatorial Pacific. Solar radiation in the equatorial central Pacific is larger than 140 W/m2, which leads to the amplitude of diurnal cycle of SST primarily determined by large-scale wind patterns. Intraseasonal westerly wind events (WWEs) can lead to an eastward displacement of the warm pool and also can weaken the trade winds in central Pacific. When the occurrence of equatorial WWEs is more than 20 days in a month, monthly mean wind speed in central equatorial Pacific has high possibility of wind speed less than 3 m/s, thus has pronounced diurnal cycle of SST. The diurnal cycle of SST will rectify daily mean SST. Reduced mixing at the base of the mixed layer and suppression of entrainment due to the accumulated effect of diurnal cycle may lead to warmer SST in the following month. This study suggests the occurrence of more diurnal SST events may contribute to the increasing intensity of the CP El Niño events. 相似文献
11.
通过资料分析,研究了发生在热带西太平洋海表面西风或东风应力异常与El Ni?o事件的关系。分析结果表明,对应着El Ni?o事件从发生到消亡的过程,热带西太平洋纬向风应力存在着从西风应力异常到东风应力异常的变化,并且在这个过程中,西风应力异常向东传,东风应力异常紧接其后也向东传。本文还根据观测资料的分析结果建立了理想风应力,并利用简单热带海洋模式,对热带西太平洋纬向风应力异常及其东传在ENSO循环中的作用进行了动力学分析,指出了它们在El Ni?o事件发生和消亡中起着重要的作用。西风应力异常通过激发出海洋中东传的暖Kelvin波及其在大洋东边界反射产生的暖Rossby波、以及西风应力异常本身东传到赤道东太平洋,引起正的海洋混合层扰动厚度异常,导致了El Ni?o事件的发生;而异常东风应力则通过激发出东传的冷Kelvin波及其在大洋东边界反射产生的冷Rossby波、以及东风应力异常本身东传到赤道东太平洋,引起负的海洋混合层扰动厚度异常,导致了El Ni?o事件的消亡。对于热带西太平洋上风应力异常的形式是东部为异常西风应力而其西部为异常东风应力,并且它们同时向东传时,则大洋东部混合层厚度对异常风应力的响应随异常东风和西风应力的强度不同而不同,它们强度的相对大小对El Ni?o的持续时间具有重要的作用。 相似文献
12.
利用1961—2013年NCEP/NCAR再分析资料和Had ISST月平均海表面温度资料,分析了夏半年热带太平洋中部型海温异常与热带印度洋海盆模(Indian Ocean Basin M ode,IOBM)的特征,并研究了不同位相配置时二者对同期中国东部气候的共同影响。结果表明:1)太平洋中部型海温异常指数与印度洋海盆模指数几乎相互独立。太平洋中部型海温异常与IOBM同位相变化(记为PPNN事件)和反位相变化(记为PNNP事件)时,热带印太地区海温异常分别呈三级型和偶极型分布。2)不同位相配置对中国东部地区降水异常的影响及其影响机制存在显著差异:当发生PPNN事件时,水汽从海洋性大陆(Maritime Continent,MC)地区向江淮流域输送;热带海温异常引起大气产生Gill型响应,维持了中国东部的环流异常;M C地区通过经向三圈异常垂直环流引起江淮流域降水异常增多。发生PNNP事件时,Gill型环流响应中心西移,长江流域降水偏少,水汽辐散;同时MC地区对流层低层准定常Rossby波能传播也有利于长江流域扰动的维持。这些结果对深刻认识中国东部地区夏半年降水异常成因和印度洋/太平洋海温异常不同分布的作用具有重要意义。 相似文献
13.
为了分析 EI Nio事件发生和消亡中热带太平洋纬向风应力的动力作用,建立一个类似于Zebiak的简单热带海洋数值模式,在观测到的风应力异常的强迫下,模拟赤道太平洋地区 1971年1月至 1998年8月海表温度异常的变化。结果表明,模式对观测的Nio3区海表温度异常(SSTA)有很好的模拟能力。模拟和观测Ni区SSTA之间的相关系数可达 0.90。模式对 El Nio事件期间赤道太平洋海表温度异常随时间变化也有较好的模拟能力。为了分析El Nio期间SSTA的空间分布及其随时间变化的动力学机制,还对1986~1989年 ENSO循环期间赤道太平洋地区观测的 SSTA的传播特征及其形成机制进行了分析。模式较好地模拟出了观测到的赤道太平洋地区SSTA的传播特征,即从1986年底至1987年 4月, SSTA具有向东传播的特征,从 1987年 6月至 1988年 2月具有向西传播的特征。动力学分析的结果表明,赤道中西太平洋地区的缔向风应力异常对 El Nio事件的发生和消亡具有重要作用。赤道中西太平洋地区的西风异常可强迫出东传的Kelvin波,这个东传的 Kelvin波对正 SSTA的东传起主要作用,当这个东传的 Kelv 相似文献
14.
2007年,Ashok等揭示了赤道太平洋区域存在一种三极型分布海表温度异常并称之为厄尔尼诺-Modoki,同时定义了相应的海表温度异常指数EMI(记为IEM)。在此基础上,利用英国哈得来中心逐月海表温度资料、美国NCEP/NCAR月平均再分析数据集、美国国家海洋和大气管理局(NOAA)逐月降水资料(CMAP),通过在太平洋海表温度异常中扣除厄尔尼诺-Modoki信号后,在Nino1+2区域上定义了东太平洋型海表温度异常指数EPNI(IEPN)。据此,由IEPN和IEM可构成描述热带太平洋海表温度异常变化的一对指数。分析了两个指数相应的海气状态及对海洋性大陆区域气候异常的影响。结果表明,厄尔尼诺-Modoki和东太平洋型海表温度异常及其影响存在显著差异。在北半球夏季,当IEM处于正位相时,热带太平洋海表温度异常呈现“负-正-负”的结构,海洋性大陆大部分区域海表温度异常为负,此时对流层低层太平洋地区辐合,海洋性大陆地区辐散,对流层高层太平洋地区辐散,海洋性大陆地区辐合。对应于辐合辐散中心,存在着自赤道中太平洋分别向赤道东太平洋和海洋性大陆中东部地区的异常垂直环流圈,同时也存在自海洋性大陆西部向印度洋西部的垂直环流。大气在海洋性大陆区域北部加热,南部冷却;在太平洋地区西部加热而东部冷却;在海洋性大陆区域10°N以南降水偏少,而10°N以北降水偏多。当IEPN处于正位相时,热带太平洋海表温度异常呈现“西负东正”分布型,海洋性大陆区域海表温度异常呈现“西正东负”分布,对流层低层海洋性大陆地区辐散中心范围偏大、位置偏东、强度偏强,太平洋地区辐合中心范围偏小、位置偏东,热带环流异常在垂直方向上呈斜压结构,海洋性大陆区域北部大气加热而南部冷却,太平洋地区大气均呈加热正异常,海洋性大陆大部分区域降水均偏少,赤道太平洋降水偏多。以上这些结果有利于深刻理解热带太平洋海表温度异常的特征及其对海洋性大陆区域气候的影响。 相似文献
15.
Impact of Indian monsoon on the coupled atmosphere/ocean system in the tropical pacific 总被引:12,自引:0,他引:12
T. Yasunari 《Meteorology and Atmospheric Physics》1990,44(1-4):29-41
Summary This study addresses the relationship between the Indian summer monsoon (ISM) and the coupled atmosphere/ocean system in the tropical Pacific on the interannual time scales. High positive correlations are found between ISM rainfall and both mixed layer sea water temperature (SWT) and sea surface temperature (SST) anomalies of the tropical western Pacific in the following winter. Negative correlations between ISM rainfall and SST in the central/eastern Pacific also appear to be most significant in the following winter. These parameters are correlated with each other mainly on a biennial time scale. Lag-correlations between the zonal wind and SST along the the equatorial Pacific show that the westerly (easterly) surface wind stress anomalies over the central/western Pacific are greatly responsible for the formation of negative (positive) SST/SWT anomalies in the western Pacific and positive (negative) SST/SWT anomalies in the central/eastern Pacific. Furthermore, it is evidenced that these lagcorrelations are physically based on the anomalies in the large-scale convection over the Asian monsoon region and the associated east-west circulation over the tropical Pacific, which first appear during the Indian summer monsoon season and evolve during the following autumn and winter. These results strongly suggest that the Asian summer monsoon may have an active, rather than a passive, role on the interannual variability, including the ENSO events, of the coupled atmosphere/ocean system over the tropical Pacific.With 9 Figures 相似文献
16.
为了分析ElNio事件发生和消亡中热带太平洋纬向风应力的动力作用,建立一个类似于Zebiak的简单热带海洋数值模式,在观测到的风应力异常的强迫下,模拟赤道太平洋地区1971年1月至1998年8月海表温度异常的变化。结果表明,模式对观测的Nio3区海表温度异常(SSTA)有很好的模拟能力。模拟和观测Nio3区SSTA之间的相关系数可达0.90。模式对ElNio事件期间赤道太平洋海表温度异常随时间变化也有较好的模拟能力。为了分析ElNio期间SSTA的空间分布及其随时间变化的动力学机制,还对19861989年ENSO循环期间赤道太平洋地区观测的SSTA的传播特征及其形成机制进行了分析。模式较好地模拟出了观测到的赤道太平洋地区SSTA的传播特征,即从1986年底至1987年4月,SSTA具有向东传播的特征,从1987年6月至1988年2月具有向西传播的特征。动力学分析的结果表明,赤道中西太平洋地区的纬向风应力异常对ElNio事件的发生和消亡具有重要作用。赤道中西太平洋地区的西风异常可强迫出东传的Kelvin波,这个东传的Kelvin波对正SSTA的东传起主要作用,当这个东传的Kelvin波到达东边界,由于东边界的反射作用,在东边界产生西传的Rossby波,这个西传的Rossby波对赤道中东太平洋地区正SSTA的西传起主要作用。东传Kelvin波和反射的Rossby波对ElNio期间赤道东太平洋正SSTA二次峰值的形成具有重要作用。 相似文献
17.
By using a linear oceanic mixed layer model, the influences of the horizontal gradients of sea surface temperature (SST) and the depth variations of the mixed layer upon tropical oceanic waves are investigated. The equatorial Rossby wave will be modified and a kind of slower thermal wave has been revealed under the influences of inhomogeneities of large-scale sea temperature field. An interesting result is that the propagating direction of the thermal wave is opposite to that of the classical Rossby wave. The result also shows that the thermal wave becomes dominant when the meridional gradient of sea temperature in the mixed layer exceeds a critical value. As a first approximation, it seems that both waves obtained by this study may be used to explain the observational facts that the SST anomalies can usually propagate in both directions, that is, eastward and westward, during the El Nino events. 相似文献
18.
By using a linear oceanic mixed layer model, the influences of the horizontal gradients of sea surface temperature (SST) and
the depth variations of the mixed layer upon tropical oceanic waves are investigated. The equatorial Rossby wave will be modified
and a kind of slower thermal wave has been revealed under the influences of inhomogeneities of large-scale sea temperature
field. An interesting result is that the propagating direction of the thermal wave is opposite to that of the classical Rossby
wave. The result also shows that the thermal wave becomes dominant when the meridional gradient of sea temperature in the
mixed layer exceeds a critical value. As a first approximation, it seems that both waves obtained by this study may be used
to explain the observational facts that the SST anomalies can usually propagate in both directions, that is, eastward and
westward, during the El Nino events. 相似文献
19.
热带海温异常影响夏季环流的机制研究 总被引:1,自引:0,他引:1
利用正压涡度方程模式对赤道东太平洋和赤道西太平洋暖池区海温异常影响夏季大气环流的机制进行了研究,结果表明:太平洋海温异常会对大气环流产生明显的影响,我国上空环流受其直接影响较小,大气对赤道东太平洋海温升高的响应比对西太平洋暖池海温降低响应明显.西太平洋暖池海温降低和赤道东太平洋海温升高都使极涡明显减弱,对中低纬度大气高度场的影响相反.赤道东太平洋海温升高,中低纬度地区槽脊活动表现不明显,而西太平洋暖池海温降低,会使大气高度场产生明显的槽脊扰动.西太平洋暖池海温降低和赤道东太平洋海温升高,会使涡度场、经向风形成沿驻波波列传播的扰动场.西太平洋暖池海温降低和赤道东太平洋海温升高同时发生时,经向风场使北半球所有的地方都产生了扰动(两条波列路径仍然清楚),沿纬圈和经向都呈有规律的正负相间的分布,扰动表现为驻波特征. 相似文献
20.
By using a linear oceanic mixed layer model, the long period waves in the tropical ocean are investi-gated numerically. Due to the inhomogeneity of the large-scale average sea temperature field of the ocean in tropical regions, besides the westward propagating equatorial Rossby wave to be modified, there will be a kind of long period thermal wave which propagates eastward under certain oceanic background conditions. Under the influences of these two kinds of waves, the propagating and evolving processes of the sea surface temperature anomalies (SSTA) are dearly shown by numerical experiments. The results of numerical ex-periments are consistent with the ones obtained by the theoretical analysis in Part I. The possible relation-ship between these two kinds of waves and El Nino events is also discussed indirectly. 相似文献