共查询到20条相似文献,搜索用时 375 毫秒
1.
应用耦合模式进行2003年度气候预测试验 总被引:2,自引:0,他引:2
利用中国科学院大气物理研究所IAP/LASG GOALS 4.0耦合模式,引进外强迫因子(温室气体、太阳活动及硫酸盐气溶胶)变化的影响后进行了2003年度集合预测试验研究.结果表明:GOALS耦合模式预测出了2003年夏季淮河流域的降水正异常,也较好地描述了中国区域大气环流场的变化.说明GOALS 4.0耦合模式在我国的短期气候预报业务中具有一定的预测能力.但该版模式分辨率还嫌太粗,无法细致地描述我国区域的降水分布. 相似文献
2.
1998年长江流域洪水与海温异常关系的数值模拟研究 总被引:5,自引:0,他引:5
用IAP/LASG GOALS模式对1998年长江流域洪水与太平洋和印度洋海表温度异常之间的关系进行了数值模拟研究。利用观测的全年海表温度,模式能再现1998年夏季长江流域的暴雨,模式也能再现观测的1998年夏季西太平洋副高异常的基本特征。设计了一系列不同海区和不同时段的海温异常的敏感性试验。试验结果表明:印度洋海温异常是造成1998年长江流域洪水的主要因子;印度洋和西太平洋海温异常与西太副高的异常有更紧密的关系;夏季海表温度异常对1998年长江流域暴雨和西太副高异常的作用与冬春海温异常的作用相比要大得多。 相似文献
3.
GOALS/LASG模式对气候平均态的模拟 总被引:3,自引:2,他引:3
中国科学院大气物理研究所LASG最近发展了全球海洋 大气 陆面耦合气候模式系统 (GOALS)的新版本 ,实现了全球大气环流谱模式 (R42L9)与海洋环流模式 (T63L3 0 )在 40°S~ 40°N之间的开洋面上海 气通量交换的完全耦合。该模式系统已积分了 40a ,基本上不存在明显的气候漂移。文中通过对所模拟的后 3 0a平均的热带、副热带地区海温、海表风应力、洋面净通量和降水等的气候平均态与多种实测资料的对比分析 ,结果表明 ,GOALS模式基本上模拟再现了当今气候的一些主要特征 ,对热带气候平均态已具有一定的模拟能力 ,但也注意到 ,与观测相比 ,区域性差异是明显存在的 ,比如沿赤道西太平洋“暖池”区和靠近南美沿岸的东太平洋海域以及印度洋海表温度明显偏高约 2℃ ,所模拟的赤道东太平洋海温冷舌西伸明显 ,造成赤道中太平洋海温明显偏冷等偏差。这些模拟误差 ,与模式中海表风应力和洋面所得到或释放的净热通量有密切的关系。SST的模拟误差反过来也影响到对降水的模拟 相似文献
4.
分海洋和陆地两种情况来讨论IAP/LASG全球海-陆-气耦合系统模式(GOAL)四个版本的结果,并与观测资料进行对比分析。一些重要的大气变量包括表面空气温度,海平面气压和降水率用来评估GOALS模式模拟当代气候和气候变率的能力。总的来说,GOALS模式的四个版本都能够合理地再现观测到的平均气候态和季节变化的主要特征。同时评估也揭示了模式的一些缺陷。可以清楚地看到模拟的全球平均海平面气压的主要误差是在陆地上。陆地上表面空气温度模拟偏高主要是由于陆面过程的影响。值得注意的是降水率模拟偏低主要是在海洋上,而中高纬的陆地降水在北半球冬天却比观测偏高。 通过模式不同版本之间的相互比较研究,可以发现模式中太阳辐射日变化物理过程的引入明显地改善了表面空气温度的模拟,尤其是在中低纬度的陆地上。太阳辐射日变化的引入对热带陆地的降水和中高纬度的冬季降水也有较大改进。而且,由于使用了逐日通量距平交换方案(DFA),GOALS模式新版本模拟的海洋上的温度变率在中低纬度有了改善。 比较观测和模拟的年平均表面空气温度的标准差,可以发现GOALS模式四个版本都低估了海洋和陆地上的温度变率,文中还对影响观测和模拟温度变率差异的可能原因进行了探讨。 相似文献
5.
IAP/LASG全球海-陆-气耦合系统模式的纬向平均大气气候态分析 总被引:1,自引:0,他引:1
分海洋和陆地两种情况来讨论IAP/LASG全球海-陆-气耦合系统模式(GOALS)四个版本的结果,并与观测资料进行对比分析,一些重要的大气变量包括表面空气温度,海平面气压和降水率用来评估GOALS模式模拟当代气候和气候变率的能力,总的来说,GOALS模式的四个版本都能够合理地再现观测到的平均气候态和季节变化的主要特征,同时评估也揭示了模式的一些缺陷,可以清楚地看到模拟的全球平均海平面气压的主要误差是在陆地上,陆地上表面空气温度模拟偏高主要是由于陆南过程的影响,值得注意的是降水率模拟偏低主要是在海洋上,而中高纬的陆地降水在北半球冬天却比观测偏高。通过模式不同版本之间的相互比较研究,可以发现模式中太阳辐射日变化物理过程的引入明显地改善了表面空气温度的模拟,尤其是在中低纬度的陆地上,太阳辐射日变化的引入对热带陆地的降水和中高纬度的冬季降水也有较大改进。而且,由于使用了逐日通量距平交换方案(DFA),GOALS模式新版本模拟的海洋上的温度变率在中低纬度有了改善。比较观测和模拟的年平均表面空气温度的标准度,可以发现GOALS模式四个版本都低估了海洋和陆地上的温度变率,中还对影响观测和模拟温度变率差异的可能原因进行了探讨。 相似文献
6.
大气季节内振荡的耦合模式数值模拟 总被引:22,自引:5,他引:17
分析GOALS/LASG海气耦合模式10年积分200hPa纬向风场的逐日输出结果,引用1980~1989年期间逐日的NCEP/NCAR再分析资料作为实测对照,结果显示该耦合模式抓住了热带大气低频振荡(IO)的基本时空分布特征,模拟IO的强度较多数大气模式强而接近真实,但空间一致性仍不清晰,典型周期不够显著。NCEP资料与耦合模式都反映模拟IO的季节变化与其年际变化有关,模拟较强IO的年份表现IO的季节变化特征也较真实。模拟IO的年际变化与热带东太平洋的SST呈明显的负相关变化。SST暖异常的年份,IO活动较弱。IO变化滞后于SST异常60天左右的相关性最显著。对比单独积分GOALS/LASG的大气模式的结果,发现二者的主要差别在于耦合模式再现IO的季节性特征更真实,反映了海气耦合对IO变化的调制作用。利用海气耦合模式,理解IO对流活动与上层海洋的相互作用过程,是真实描述IO必要的手段。 相似文献
7.
全球海-陆-气耦合模式大气模式分量的发展及其气候模拟性能Ⅱ--垂直分辨率的提高及其影响 总被引:9,自引:2,他引:7
在第1部分水平分辨率提高的基础上,提高了中国科学院大气物理研究所大气科学和地球流体力学数值模拟国家重点实验室的全球海-陆-气耦合气候系统模式(GOALS/LASG)大气模式分量的垂直分辨率。为减少地形对平流层的影响,并和其它气候模式一致,建立了基于能量守恒和角动量守恒的垂直混合坐标方案,及混合坐标下的半隐式时间积分方案,并对相关的物理过程作必要的调整。尽管主要物理过程不变,但从初步结果来看,对大气垂直结构的模拟更合理;平流层风场和温度场的模拟与观测更接近;降水、海平面气压场的分布及季节变化等特征也有明显改进。 相似文献
8.
发展了中国科学院大气物理研究所(IAP)大气科学与地球流体力学数值模拟国家重点实验室(LASG)全球海-陆-气耦合系统模式的一个新版本(GOALS-5),其中海洋分量是基于30层高分辨率的海洋环流模式。对该耦合模式成功地进行了30年的积分,基本上克服了气候飘移。与GOALS较早的几个版本模拟的SST相比,北半球夏季中高纬地区的误差显著改善,可能主要是由于采用了GM90的等密度混合方案使经向热输送增强的结果。对赤道中东太平洋冷暖事件有较好的模拟能力,并且对SST变率的模拟在位置和强度上比旧版本有明显改善。 相似文献
9.
将一个大气植被相互作用模式(AVIM)与大气所LASG的R15九层大气环流模式GOALS相耦合.用来模拟多年平均的全球气候状况。AVIM是一个陆地表面陆面和生理过程相互反馈的模型。作为陆气耦合的第一步,暂不考虑AVIM中的生理过程,而首光将其物理过程[相当于通常的SVAT(土壤—植被—大气—传输方案)模型]与大气所LASG的九层大气环流模式耦合起来.其中海洋模式部分不参与积分,海面温度是多年平均的气候伯。考虑到GCM的分辨率较低(7.5°×4.5°)而植被分布必须有较高的分辨率(1.5°×1.5°),采取广大气与地表面粗细网格的嵌套耦合。模式积分15年,取最后10年的平均值作分析。将模拟的气候要素场与观测值和NCEP再分析资料作了比较,气候模拟结果反映了全球环流与温湿场的主要特征,特别是降水和地面气温的模拟效果较好。这为今后气候模式与生物圈的耦合奠定广一个良好的基础。 相似文献
10.
海气耦合气候模式对大气中水汽输送、辐散辐合与海气间水通量交换的模拟 总被引:6,自引:6,他引:0
基于ECMWF再分析结果对LASG第三代全球海洋-大气-陆地耦合系统模式(GOALS)的两个版本和第四代耦合气候模式初始版(FGCM-0)所模拟的大气水汽输送与辐散辐合特征、海气间水通量交换,进行了评估分析.结果表明:(1)对垂直积分的水汽通量场的流函数及其对应的无辐散水汽通量矢量的模拟,三个耦合模式都能够较为合理地再现副热带大洋的涡旋结构、中纬度西风带的东向水汽输送、赤道东风带的西向水汽输送和东亚夏季风水汽输送等行星尺度特征及其季节变化,只是GOALS的涡旋位置、FGCM-0的涡旋中心强度,较之实际略有偏差.(2)反映在垂直积分的水汽通量场的势函数和对应的无旋水汽矢量上,对南北半球副热带大洋水汽辐散区、热带辐合带(ITCZ)、东亚夏季风区强烈的水汽辐合特征等的模拟,FGCM-0的结果相对合理.GOALS的热带辐合中心过于集中在印度尼西亚群岛附近,东亚夏季风水汽辐合中心偏南.(3)关于海气水通量交换,FGCM-0较为理想地再现了副热带的净蒸发、ITCZ和中高纬度的净降水特征以及夏季ITCZ的季节性北移,但对南太平洋辐合带(SPCZ)、副热带南大西洋的净蒸发特点,以及阿拉伯海和盂加拉湾季节变化的差异,模拟结果不理想.FGCM-0在模拟SPCZ上的偏差,是由海气耦合过程造成的.GOALS未能合理再现ITCZ和SPCZ降水大于蒸发的特点,其净降水集中在西太平洋暖池区;但对副热带南大西洋、北印度洋水通量季节变化的模拟相对合理. 相似文献
11.
用NCAR区域气候模式(RegCM2)的数值试验,研究了包络地形和地形重力波拖曳作用对1991年5、6月份中国区域内气候模拟效果的影响。通过试验结果的对比分析发现,在模式中引入地形重力波拖曳作用可在一定程度上改善模式对气候系统和要素的模拟效果,使模拟结果更符合气候实况。包络地形对模拟结果也有一定的改善,但对于细网格的区域气候模式(RCM)来说,其效果不如重力波拖曳明显。不论是地形重力波拖曳还是包络地形,在模式积分的初期,它们的作用并不明显,随着积分时间的增长,它们对模拟结果的影响程度增大。 相似文献
12.
Assessments of the impacts of climate change typically require information at scales of 10 km or less. Such a resolution in global climate simulations is unlikely for at least two decades. We have developed an alternative to explicit resolution that provides a framework for meeting the needs of climate change impact assessment much sooner. We have applied to a global climate model a physically based subgrid-scale treatment of the influence of orography on temperature, clouds, precipitation, and land surface hydrology. The treatment represents subgrid variations in surface elevation in terms of fractional area distributions of discrete elevation classes. For each class it calculates the height rise/descent of air parcels traveling through the grid cell, and applies the influence of the rise/descent to the temperature and humidity profiles of the elevation class. Cloud, radiative, and surface processes are calculated separately for each elevation class using the same physical parametrizations used by the model without the subgrid orography parametrization. The simulated climate fields for each elevation class can then be distributed in post-processing according to the spatial distribution of surface elevation within each grid cell. Parallel 10-year simulations with and without the subgrid treatment have been performed. The simulated temperature, precipitation and snow water are mapped to 2.5-minute (~5 km) resolution and compared with gridded analyses of station measurements. The simulation with the subgrid scheme produces a much more realistic distribution of snow water and significantly more realistic distributions of temperature and precipitation than the simulation without the subgrid scheme. Moreover, the 250-km grid cell means of most other fields are virtually unchanged by the subgrid scheme. This suggests that the tuning of the climate model without the subgrid scheme is also applicable to the model with the scheme. 相似文献
13.
What shapes mesoscale wind anomalies in coastal upwelling zones? 总被引:1,自引:1,他引:0
Julien Bo�� Alex Hall Fran?ois Colas James C. McWilliams Xin Qu Jaison Kurian Sarah B. Kapnick 《Climate Dynamics》2011,36(11-12):2037-2049
Observational studies have shown that mesoscale variations in sea surface temperature may induce mesoscale variations in wind. In eastern subtropical upwelling regions such as the California coast, this mechanism could be of great importance for the mean state and variability of the climate system. In coastal regions orography also creates mesoscale variations in wind, and the orographic effect may extend more than 100?km offshore. The respective roles of SST/wind links and coastal orography in shaping mesoscale wind variations in nearshore regions is not clear. We address this question in the context of the California Upwelling System, using a high-resolution regional numerical modeling system coupling the WRF atmospheric model to the ROMS oceanic model, as well as additional uncoupled experiments to quantify and separate the effects of SST/wind links and coastal orography on mesoscale wind variations. After taking into account potential biases in the representation of the strength of SST/wind links by the model, our results suggest that the magnitude of mesoscale wind variations arising from the orographic effects is roughly twice that of wind variations associated with mesoscale SST anomalies. This indicates that even in this region where coastal orography is complex and leaves a strong imprint on coastal winds, the role of SST/winds links in shaping coastal circulation and climate cannot be neglected. 相似文献
14.
15.
The influence of synoptic airflow on UK daily precipitation extremes. Part I: Observed spatio-temporal relationships 总被引:1,自引:1,他引:0
We study the influence of synoptic scale atmospheric circulation on extreme daily precipitation across the United Kingdom, using observed time series from 689 rain gauges. To this end we employ a statistical model, that uses airflow strength, direction and vorticity as predictors for the generalised extreme value distribution of monthly precipitation maxima. The inferred relationships are connected with the dominant westerly flow, the orography, and the moisture supply from surrounding seas. We aggregated the results for individual rain gauges to regional scales to investigate the temporal variability of extreme precipitation. Airflow explains a significant fraction of the variability on subannual to decadal time scales. A large fraction of the especially heavy winter precipitation during the 1980s and 1990s in north Scotland can be attributed to a prevailing positive phase of the North Atlantic Oscillation. Our statistical model can be used for statistical downscaling and to validate regional climate model output. 相似文献
16.
Impacts of the thermal effects of sub-grid orography on the heavy rainfall events along the Yangtze River Valley in 1991 总被引:1,自引:1,他引:0
A P - σ regional climate model using a parameterization scheme to account for the thermal effects of the sub-grid scale orography was used to simulate the three heavy rainfall events that occurred within the Yangtze River Valley during the mei-yu period of 1991. The simulation results showed that by considering the sub-grid scale topography scheme, one can significantly improve the performance of the model for simulating the rainfall distribution and intensity during these three heavy rainfall events, most especially the second and third. It was also discovered that the rainfall was mainly due to convective precipitation. The comparison between experiments, either with and without the sub-grid scale topography scheme, showed that the model using the scheme reproduced the convergence intensity and distribution at the 850 hPa level and the ascending motion and moisture convergence center located at 500 hPa over the Yangtze River valley. However, some deviations still exist in the simulation of the atmospheric moisture content, the convergence distribution and the moisture transportation route, which mainly result in lower simulated precipitation levels. Further analysis of the simulation results demonstrated that the sub-grid topography scheme modified the distribution of the surface energy budget components, especially at the south and southwest edges of the Tibetan Plateau, leading to the development and eastward propagation of the negative geopotential height difference and positive temperature-lapse rate difference at 700 hPa, which possibly led to an improved precipitation simulation over eastern China. 相似文献
17.
In order to identify the sensitivity of the numerical simulation to the orography specification in a low resolution spectral
model, two sets of numerical experiments for full-mountain and no-mountain cases are performed. By comparing the results,
it is possible to determine the eflects of mountains on the atmospheric general circulation.
This is a global, spectral model incorporating the primitive equations sugmented by physical parameterization and mountains,
with five equally-spaced sigma levels in the vertical ang a triangular truncation at wavenumber 10 in the horizontal.
Analysis of results supports earlier work by demonstrating that the low resolution global spectral model is capable of simulating
the major features of global general circulation and indicates that it is necessary to consider the effects of mouniains on
stationary disturbances in the numerical simulation. The simulations show that topography plays an important role in intensifying
heat sources for maintenance of disturbances.
All the simulation tests indicate that orography has an important infiuence on the distribution of heat sources and sinks.
It reflects that interaction and interrelation exist between the effects of orography and heat sources and the atmospheric
circulhtion via the dynamical processes of atmosphere. This result confirms the view points proposed by Yeh and Zhu (1958),
but differs from those by Kasahara and Washington (1971), Manabe and Terpstra (1974). 相似文献
18.
利用区域气候模式(RegCM2)对1998年夏季风气候进行了模拟,并就初、边值条件对模拟结果的影响情况进行了讨论,结果表明:该模式可以较好地模拟出月际尺度的气候变化,但对降水异常的模拟还需作进一步完善.通过在几个季节采用不同初始场进行的数值模拟发现,从春季开始的积分其结果对初始场的敏感性较高,初始场的差别会对后期模拟产生明显影响.相对来说,从冬季开始的积分,其对初始场的依赖性较小,初始场的差别会在积分过程中逐渐减小,因而在利用RegCM2进行区域气候模拟时宜从冬季开始.另外,通过对采用不同侧边界嵌套方案的模拟效果进行简单讨论,发现当采用较少的缓冲区(5圈)时,海绵边界对温度、比湿及位势高度的模拟要比指数松弛及流入流出边界好,降水的模拟也要比其他方案好一些,但对风场的模拟则不如指数松弛方案. 相似文献
19.
A weakly coupled assimilation system, in which SST observations are assimilated into a coupled climate model(CASESM-C) through an ensemble optimal interpolation scheme, was established. This system is a useful tool for historical climate simulation, showing substantial advantages, including maintaining the atmospheric feedback, and keeping the oceanic fields from drifting far away from the observation, among others. During the coupled model integration, the bias of both surface and subsurface oceanic fields in the analysis can be reduced compared to unassimilated fields. Based on 30 model years of output from the system, the climatology and interannual variability of the climate system were evaluated. The results showed that the system can reasonably reproduce the climatological global precipitation and SLP, but it still suffers from the double ITCZ problem. Besides, the ENSO footprint, which is revealed by ENSO-related surface air temperature, geopotential height and precipitation during El Ni ?no evolution, is basically reproduced by the system. The system can also simulate the observed SST–rainfall relationships well on both interannual and intraseasonal timescales in the western North Pacific region, in which atmospheric feedback is crucial for climate simulation. 相似文献
20.
In order to identify the sensitivity of the numerical simulation to the orography specification in a low resolution spectral model, two sets of numerical experiments for full-mountain and no-mountain cases are performed. By comparing the results, it is possible to determine the eflects of mountains on the atmospheric general circulation.This is a global, spectral model incorporating the primitive equations sugmented by physical parameterization and mountains, with five equally-spaced sigma levels in the vertical ang a triangular truncation at wavenum-ber 10 in the horizontal.Analysis of results supports earlier work by demonstrating that the low resolution global spectral model is capable of simulating the major features of global general circulation and indicates that it is necessary to consider the effects of mountains on stationary disturbances in the numerical simulation. The simulations show that topography plays an important role in intensifying heat sources for maintenance of disturbances.All the 相似文献