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El Niño-La Niña循环的海-气耦合机制研究 总被引:1,自引:0,他引:1
利用1950—1987年2°×2°格点综合海-气资料(COADS),计算了赤道太平洋洋面(5°S—3°N)上逐月平均海温、气压、纬向风、比湿、云以及热量收支各分量的平均值和距平值,分析这些量的演变特征,得出:ElNino过程中,赤道太平洋洋面上气压梯度减小,东风减弱;赤道中、东太平洋洋面上空气中水汽和云量增加,洋面射入太阳辐射和有效长波辐射减少,感热和潜热交换加强,洋面净获得(损失)热量减少(增加);LaNina过程中,情形相反。最后概括了ElNino-LaNina循环的两种海-气耦合反馈机制。 相似文献
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对热带太平洋海表经向风应力异常与 E1 Ni o事件之间的关系进行了诊断分析。结果表明,超前的经向风应力距平场与NINO3区(15°-90°W,5°S-5°N)的海面温度异常(SSTA)有显著的超前相关,这种相关性在超前6个月甚至更早一些就有显示。利用奇异值分解方法分析超前的经向风应力距平场与太平洋海表温度异常场之间的耦合模,结果表明对应于赤道中东太平洋的海面温度异常升高,大气风应力场在超前6个月甚至更早的时候,在赤道中东太平洋表现为辐合的经向异常风应力场,即赤道以北为北风异常应力,赤道以南为南风异常应力。这种耦合模的时间系数与 NINO3 SSTA指数所表示的 EIio事件有很好的对应关系,表明这种耦合模反映的正是超前的经向风应力异常与 El NiB o事件所对应的海表温度异常之间的相关核态。通过与热带西太平洋纬向风应力异常的比较,赤道中东太平洋辐合的经向风应力异常与ElNifio事件发生的同样具有重要的联系。 相似文献
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本工作发展了一个用于研究热带海洋大气系统相互作用和ElNin~o/SouthernOs-cilation动力过程的混合型(hybrid)耦合模式,其中的大气部分为一个由一阶斜压模表示的自由大气和混合行星边界层所组成的简单热带大气模式(区域为热带太平洋:120°E~80°W,30°N~30°S;水平分辨率为2°×2°),海洋部分为大气物理研究所高分辨率自由表面热带太平洋环流模式(经纬圈方向水平分辨率分别为1°和2°,垂直方向分为不等距的14层)。两模式间的耦合是这样进行的:简单大气模式计算出海表风应力,热通量由松弛公式计算,淡水通量(蒸发与降水之差)由观测资料给定,它们一起作为海洋环流模式(OGCM)的强迫场;而OGCM计算出海表温度(SST),在其以外地区给定观测到的气候海表温度或陆地温度,作为大气模式的边界条件。本文给出采用逐日、同步耦合方案时模式对热带太平洋气候态模拟结果,表明未采用任何通量修正(fluxescorrection),耦合模式未出现气候漂移(climatedrift)现象,并且非常逼真地再现了热带太平洋气候态,特别是海表风场及相伴随的辐合带和降水、海表温度和流场及它们的季节变化。文中还进行� 相似文献
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利用中国西北五省(区)和内蒙古西部的共106个测站的1960~1990年3~5月的月、季总降水量和太平洋10°S~50°N,120°E~80°W范围内286个格点(5°×5°)的秋季(9~11月)的平均海表温度,通过EOF、REOF、SVD及交叉谱分析等方法,对秋季太平洋海温的异常特性及其与我国西北干旱半干旱地区后期春季降水之间的空间地域遥相关耦合特征进行了分析研究。结果表明,秋季太平洋海温差异常存在6个关键区域,其中赤道东太平洋地区是最敏感的异常信号区;西北干旱半干旱地区春季降水与前期秋季赤道东太平洋海温异常之间有着清晰的遥相关。当海温异常偏高,即有EL-Nino现象时,西北地区的降水普遍偏少,并以高原东侧青、甘、宁交界地区及渭水流域的偏少为主;La-Nina时的情况正好相反,内蒙西部的春季降水变化趋势与我国西北地区基本一致。 相似文献
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用NOAA气象卫星资料对甘肃省河东地区土地覆盖分类 总被引:8,自引:1,他引:8
根据不同植被群落植被指数的时空变化特点,利用1991-1993年NOAA气象卫星AVHRR资料对32.5°-38.0°N,100.5°-109.0°E范围内的土地覆盖状况进行了分类,并利用分类结果讨论了不同土地类型植被指数年变化的特点。 相似文献
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1991~1995年El Ni?o事件的特征及其对中国天气气候异常的影响 总被引:1,自引:0,他引:1
利用多种资料分析了1991~1995年异常ElNino事件的特征及东亚环流变异和中国异常天气气候的特征。根据所采用的划分ElNino事件的标准和指数,90年代初的5年里共发生了3次ElNino事件,即1991年6月~1992年9月、1993年4~12月、1994年6月~1995年2月(简称1991~1995年3次ElNino事件)。这3次事件都是中部型,间隔时间短(以年尺度为主)是它们的一个显著特点。研究表明1991~1995年3次ElNino事件对中国天气气候的影响有许多不同的方面。其中1991年(ElNino当年)夏季和1992年(ElNino次年)夏季降水异常分布与1951~1990年间10次ElNino事件的平均结果相似,但1993、1994年夏季降水与平均结果相反。这说明ENSO事件不是唯一决定中国夏季天气气候的强信号,还有别的气候因子影响中国夏季的天气气候异常。在东亚,夏季风的活动可能是另一个关键气候信号。通过对1991年和1994年夏季东亚大尺度环流变化和南海地区经纬向风时间演变的分析发现,两者虽都处于ElNino爆发的当年,但相反的环流形势造成了这两年夏季相反的降水形势。这一方面表明ElNi� 相似文献
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该利用TOGA-COARE强化观测期(IOP)所获得的辐射观测资料(1992年11月10日-1993年2月18日),对考察点(2°15′S,158°00′)的辐射分量进行了分析,其中包括总辐射、直接辐射、散射辐射、海表长波辐射、大气逆辐射、海表反射辐射春反照率、净辐射及有效辐射。 相似文献
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The relationship between the El Niño Southern Oscillation (ENSO) and the Southern Hemisphere Annular Mode (SAM) is examined, with the goal of understanding how various strong SAM events modulate the ENSO teleconnection to the South Pacific (45°–70°S, 150°–70°W). The focus is on multi-month, multi-event variations during the last 50 years. A significant (p < 0.10) relationship is observed, most marked during the austral summer and in the 1970s and 1990s. In most cases, the significant relationship is brought about by La Niña (El Niño) events occurring with positive (negative) phases of the SAM more often than expected by chance. The South Pacific teleconnection magnitude is found to be strongly dependent on the SAM phase. Only when ENSO events occur with a weak SAM or when a La Niña (El Niño) occurs with a positive (negative) SAM phase are significant South Pacific teleconnections found. This modulation in the South Pacific ENSO teleconnection is directly tied to the interaction of the anomalous ENSO and SAM transient eddy momentum fluxes. During La Niña/SAM+ and El Niño/SAM? combinations, the anomalous transient momentum fluxes in the Pacific act to reinforce the circulation anomalies in the midlatitudes, altering the circulation in such a way to maintain the ENSO teleconnections. In La Niña/SAM? and El Niño/SAM+ cases, the anomalous transient eddies oppose each other in the midlatitudes, overall acting to reduce the magnitude of the high latitude ENSO teleconnection. 相似文献
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1991~1994年El Niño的异常特征的诊断研究 总被引:3,自引:1,他引:2
1991~1994年热带中东太平洋海温持续4a多出现正距平。Niño3指数一直为正值。在此正距平背景下,产生了两次振荡和3次ElNiño暖期。在此期间赤道东太平洋海温在±5°纬度范围内发生了两次负距平的变化,形成了一个狭窄的温度梯度很大的“冷核”,而赤道外的中纬度海洋则持续维持两个正海温距平。这一时期海表温度资料EOF分析的结果进一步表明,第一特征向量的空间分布实际上反映了上述冷核特征。1991~1994年的ENSO事件主要是低频分量发生了较大异常,赤道低层纬向风和高层西风在前期减弱(1991-01-1992-05),后期加强(1992-06-1994-011).无论是海温还是风场的低频分量都表现出一次ENSO循环的特征。因此作者认为,虽然Niño3指数等在这4a多期间均为正值,但是大气和海洋耦合系统的低频变化部分只发生了一次完整的ENSO循环过程。1991年至1992年上半年对应于ElNiño暖位相,1992年下半年至1994年底对应于LaNina冷位相。但是这个冷位相没有能够得到充分发展,只出现两次极狭窄的冷核。冷位相的明显“夭折”,而代之以出现两次较弱的增暖,可能与季节内尺度的大气强迫与低频变化部分的相互作用有关。 相似文献
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Effects of interannual salinity variability on the barrier layer in the western-central equatorial Pacific: A diagnostic analysis from Argo 总被引:4,自引:0,他引:4
ABSTRACT In this paper, interannual variations in the barrier layer thickness (BLT) are analyzed using Argo three-dimensional temperature and salinity data, with a locus on the effects of interannually varying salinity on the evolution of the El Nifio Southern Oscillation (ENSO). The interannually varying BLT exhibits a zonal seesaw pattern across the equatorial Pacific during ENSO cycles. This phenomenon has been attributed to two different physical processes. During E1 Nifio (La Nifia), the barrier layer (BL) is anomalously thin (thick) west of about 160°E, and thick (thin) to the east. In the western equatorial Pacific (the western part: 130°-160°E), interannual variations of the BLT indicate a lead of one year relative to those of the ENSO onset. The interannual variations of the BLT can be largely attributed to the interannual temperature variability, through its dominant effect on the isothermal layer depth (ILD). However, in the central equatorial Pacific (the eastern part: 160~E- 170~W), interannual variations of the BL almost synchronously vary with ENSO, with a lead of about two months relative to those of the local SST. In this region, the interannual variations of the BL are significantly affected by the interannually varying salinity, mainly through its modulation effect on the mixed layer depth (MLD). As evaluated by a onedimensional boundary layer ocean model, the BL around the dateline induced by interannual salinity anomalies can significantly affect the temperature fields in the upper ocean, indicating a positive feedback that acts to enhance ENSO. 相似文献
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The present study examines the relationship between two types of El Niño–Southern Oscillation (ENSO), the central Pacific (CP) ENSO and the eastern Pacific (EP) ENSO, and the sea surface temperature (SST) variability over the South Pacific (SP) (20° S–60° S, 145° E–70° W) using NOAA OI SST for the period 1982–2006. The SP SST variability associated with the two types of ENSO varies with season. These two types of ENSO can excite different atmospheric patterns associated with the Pacific–South American mode, through which they influence the SP SST variability. Both the surface turbulent air–sea heat fluxes and the heat advection by Ekman currents (i.e., Ekman heat fluxes) have an important impact on the SST variability. An analysis of the surface mixed layer heat budget indicates that the heat fluxes (the sum of turbulent heat fluxes and Ekman heat fluxes) can effectively explain much of the SST variability related to the two types of ENSO. 相似文献
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Summary The TOGA Coupled Ocean-Atmosphere Response Experiment (COARE) concentrated a variety of observational systems in the warm pool of the western equatorial Pacific for an Intensive Observation Period (IOP) November 1992 through February 1993. In this paper, aspects of the largescale variations of the tropical atmosphere and Pacific Ocean surrounding the observations of air-sea interaction in the Intensive Flux Array (IFA) during the IOP are described, with the objective of providing a context for the future analyses of these observations.The evolution of the 1991–1992 El Niño/Southern Oscillation event was unusual: Warm SST anomalies in the equatorial cold tongue region switched to colder than climatology in the last half of 1992, but waters warmer than 30°C remained displaced eastward just west of the dateline, coninuing to fuel anomalous convection there during the IOP. Fortunately, SST in the IFA remained warmer than 29°C during most of the IOP, and convective activity was observed over the IFA. The Southern Oscillation Index, which had relaxed to near zero prior to the experiment, decreased during the IOP, reflecting sea level presure changes associated with renewed westerly wind activity. In response to these westerly wind events, the warm pool migrated back into the central equatorial Pacific, leading to a reintensification of the ENSO warm SST anomalies east of the dateline.With 10 Figures 相似文献
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Interannual variability of summertime outgoing longwave radiation over the Maritime Continent in relation to East Asian summer monsoon anomalies 总被引:2,自引:1,他引:1
The Maritime Continent (MC) is under influences of both the tropical Pacific and the Indian Ocean. Anomalous convective activities over the MC have significant impacts on the East Asian summer monsoon (EASM) and climate in China. In the present study, the variation in convective activity over the MC in boreal summer and its relationship to EASM anomalies are investigated based on regression analysis of NCEP–NCAR reanalysis and CMAP [Climate Prediction Center (CPC) Merged Analysis of Precipitation] data, with a focus on the impacts of ENSO and the Indian Ocean Dipole (IOD). The most significant interannual variability of convective activity is found over 10°S–10°N, 95°–145°E, which can be roughly defined as the key area of the MC (hereafter, KMC). Outgoing longwave radiation anomaly (OLRA) exhibits 3- to 7-yr periodicities over the KMC, and around 70% of the OLRA variance can be explained by the ENSO signal. However, distinct convection and precipitation anomalies still exist over this region after the ENSO and IOD signals are removed. Abnormally low precipitation always corresponds to positive OLRA over the KMC when negative diabatic heating anomalies and anomalous cooling of the atmospheric column lead to abnormal descending motion over this region. Correspondingly, abnormal divergence occurs in the lower troposphere while convergence occurs in the upper troposphere, triggering an East Asia–Pacific/Pacific–Japan (EAP/PJ)-like anomalous wave train that propagates northeastward and leads to a significant positive precipitation anomaly from the Yangtze River valley in China to the islands of Japan. This EAP/PJ-like wave pattern becomes even clearer after the removal of the ENSO signal and the combined effects of ENSO and IOD, suggesting that convective anomalies over the KMC have an important impact on EASM anomalies. The above results provide important clues for the prediction of EASM anomalies and associated summer precipitation anomalies in China. 相似文献
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Spatial and temporal structures of interannual-to-decadal variability in the tropical Pacific Ocean are investigated using results from a global atmosphere–ocean coupled general circulation model. The model produces quite realistic mean state characteristics, despite a sea surface temperature cold bias and a thermocline that is shallower than observations in the western Pacific. The periodicity and spatial patterns of the modelled El Niño Southern Oscillations (ENSO) compare well with those observed over the last 100 years, although the quasi-biennial timescale is dominant. Lag-regression analysis between the mean zonal wind stress and the 20°C isotherm depth suggests that the recently proposed recharge-oscillator paradigm is operating in the model. Decadal thermocline variability is characterized by enhanced variance over the western tropical South Pacific (~7°S). The associated subsurface temperature variability is primarily due to adiabatic displacements of the thermocline as a whole, arising from Ekman pumping anomalies located in the central Pacific, south of the equator. Related wind anomalies appear to be caused by SST anomalies in the eastern equatorial Pacific. This quasi-decadal variability has a timescale between 8 years and 20 years. The relationship between this decadal tropical mode and the low-frequency modulation of ENSO variance is also discussed. Results question the commonly accepted hypothesis that the low-frequency modulation of ENSO is due to decadal changes of the mean state characteristics. 相似文献
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Forecasting the equatorial Pacific sea surface temperatures by neural network models 总被引:2,自引:0,他引:2
We used neural network models to seasonally forecast the tropical Pacific sea surface temperature anomalies (SSTA) in the
Ni?o 3.4 region (6 °S–6 °N, 120 °W–170 °W). The inputs to the neural networks (i.e., the predictors) were the first seven wind stress empirical orthogonal function
(EOF) modes of the tropical Pacific (20 °S–20 °N, 120 °E–70 °W) for four seasons and the Ni?o 3.4 SSTA itself for the final season. The period of 1952–1981 was used for training the neural
network models, and the period 1982–1992 for forecast validation. At 6-month lead time, neural networks attained forecast
skills comparable to the other El Ni?o-Southern Oscillation (ENSO) models. Our results suggested that neural network models
were viable for ENSO forecasting even at longer lead times of 9 to 12 months. We hypothesized that at these longer leads,
the underlying relationship between the wind stress and Ni?o 3.4 SSTA became increasingly nonlinear. The neural network results
were interpreted in light of current theories, e.g., the role of the “off-equatorial” Rossby waves in triggering the onset
of an ENSO event and the delayed-oscillator theory in the development and termination of an ENSO event.
Received: 31 October 1995 / Accepted: 25 July 1996 相似文献
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In this paper we use sea surface height (SSH) derived from satellite altimetry and an analytical linear equatorial wave model to interpret the evolution of the Indian Ocean Dipole (IOD) in the framework of recharge oscillator theory. The specific question we address is whether heat content in the equatorial band, for which SSH is a proxy, is a predictor of IOD development as it is for El Niño and the Southern Oscillation (ENSO) in the Pacific. We find that, as in the Pacific, there are zonally coherent changes in heat content along the equator prior to the onset of IOD events. These changes in heat content are modulated by wind-forced westward propagating Rossby waves in the latitude band 5°–10°S, which at the western boundary reflect into Kelvin waves trapped to the equator. The biennial character of the IOD is affected by this cycling of wave energy between 5° and 10°S and the equator. Heat content changes are a weaker leading indicator of IOD sea surface temperature anomaly development than is the case for ENSO in the Pacific though because other factors are at work in generating IOD variability, one of which is ENSO forcing itself through changes in the Walker Circulation. 相似文献
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热带西太平洋海温变化及其与赤道东太平洋海温变化的关系 总被引:2,自引:0,他引:2
利用1951-1988年10°S-50°N太平洋的SST资料对热带西太平洋海表温度的变化及其与赤道东太平洋海表温度变化的关系进行了分析,发现热带西太平洋SST存在准两年周期的变化。这种变化与ENSO活动相联系:El Nino年的SST距平值位于谷值;反El Nino年的SST距平值位于峰值。热带西太平洋与赤道东太平洋的SST变化存在弱的反相关关系。两者间存在位相差,前者的变化比后者超前几个月甚至1 相似文献