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Sensitivity studies with the regional climate model REMO 总被引:14,自引:0,他引:14
Summary A new regional atmospheric model was set up in a joint effort by DKRZ (Deutsches Klimarechenzentrum), DWD (Deutscher Wetterdienst), GKSS (Forschungszentrum Geesthacht) at the MPI (Max-Planck-Institut fuer Meteorologie). This model, called REMO (REgional MOdel) can be used in the weather forecast mode as well as in the climate mode. It is based on the Europa-Model (EM), the main weather forecast model of the new numerical weather prediction system of the Deutscher Wetterdienst. In addition to the physical parameterizations implemented in the EM, REMO has the possibility of using the same physics as the global climate model (MPI) into which it is nested to assess the scale dependence of physical parameterizations within the same dynamical framework.This paper gives an overview over different case studies investigating the dependence of model results on simulation domain size, horizontal resolution, initial conditions and lateral boundaries especially for long term calculations. A sample of one month long integrations for an arbitrary July month, a four year long run for the Baltic Sea and its drainage basin and two summer seasons of the Indian Monsoon will be used to demonstrate the sensitivity of regional climate model results to different environments.The sensitivity studies show that it is very important to use realistic large scale driving fields at the lateral boundaries. The regional model results are strongly influenced by the driving fields. The domain size and the simulation length are also influencing the results.With 12 Figures 相似文献
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Numerical Experiments on the Spin-up Time for Seasonal-Scale Regional Climate Modeling 总被引:1,自引:0,他引:1 
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下载免费PDF全文 In this paper,the numerical experiments on the issue of spin-up time for seasonal-scale regional climate modeling were conducted with the newly Regional Climate Model (RegCM3),in the case of the abnormal climate event during the summer of 1998 in China.To test the effect of spin-up time on the regional climate simulation results for such abnormal climate event,a total of 11 experiments were performed with different spin-up time from 10 days to 6 months,respectively.The simulation results show that,for the meteorological variables in the atmosphere,the model would be running in"climate mode"after 4-8-day spin-up time,then, it is independent of the spin-up time basically,and the simulation errors are mainly caused by the model's failure in describing the atmospheric processes over the model domain.This verifies again that the regional climate modeling is indeed a lateral boundary condition problem as demonstrated by earlier research work. The simulated mean precipitation rate over each subregion is not sensitive to the spin-up time,but the precipitation scenario is somewhat different for the experiment with different spin-up time,which shows that there exists the uncertainty in the simulation to precipitation scenario,and such a uncertainty exhibits more over the areas where heavy rainfall happened.Generally,for monthly-scale precipitation simulation,a spin-up time of 1 month is enough,whereas a spin-up time of 2 months is better for seasonal-scale one. Furthermore,the relationship between the precipitation simulation error and the advancement/withdrawal of East Asian summer monsoon was analyzed.It is found that the variability of correlation coefficient for precipitation is more significant over the areas where the summer monsoon is predominant.Therefore,the model's capability in reproducing precipitation features is related to the heavy rainfall processes associated with the advancement/withdrawal of East Asian summer monsoon,which suggests that it is necessary to develop a more reliable parameterization scheme to capture the convective precipitation of heavy rainfall pro- cesses associated with the activities of East Asian summer monsoon,so as to improve the climate modeling over China. 相似文献
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Andreas Haensler Stefan Hagemann Daniela Jacob 《Theoretical and Applied Climatology》2011,106(1-2):153-169
High-resolution regional climate change simulations have proven to offer an added value compared to available global climate model simulations. However, over many regions of the globe, long-term high-resolution climate change projections are rather sparse. We present a transient high-resolution climate change projection with the regional climate model with the regional climate model REMO over the southern African region, following the SRES A1B emission scenario. The simulation was conducted at 18?km grid spacing for the period from 1960 to 2100, making it to the longest available climate change projection at such a high resolution for the region. In the first part of the study, we focus on the impact of the model setup on the simulated rainfall over the southern African region. In the standard setup, we used the output of the global climate model ECHAM5/MPIOM directly to force REMO. This setup led to a very strong wet bias over the region. Changing it to the double-nesting setup significantly reduced this bias, but a substantial wet bias still persists. The remaining bias could partly be attributed to a warm bias in the SST forcing over the southern Atlantic Ocean. Thus, we applied an SST correction based on the anomaly approach to the data, which led to a further improvement of the rainfall simulation. As the SST bias in the southern Atlantic is a common feature of all global climate models assessed by the IPCC, we recommend the chosen model setup, including the SST correction, as general procedure for dynamical downscaling studies over the southern African region. In the second part, we present the projected spatial and temporal changes of temperature and precipitation, including several rainfall characteristics, over the southern African region. Herby we compare the projections of the high-resolution REMO simulation to those of the forcing regional and global models. We generally find that for temperature the magnitude of the projected changes of the regional model only slightly differs from the GCM projection; however, the spatial patterns are much better resolved in the RCM projections. For precipitation, REMO shows a more intense drying toward the end of the twenty-first century than it is simulated by the global model. This can have a major influence when investigating the impacts of future climate change on a regional or even local scale. In combination with the improved spatial patterns, the application of high-resolution climate change information could therefore improve the results of such applications. 相似文献
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季节尺度区域气候模拟适应调整时间选取问题的数值试验 总被引:2,自引:0,他引:2
文中利用区域气候模式RegCM3,以1998年夏季中国异常气候事件为例,对季节尺度区域气候模拟适应调整时间的选取问题进行了数值研究。共做了11个试验,每个试验的适应调整时间最短为10 d,最长为6个月,以检验适应调整时间长短对夏季中国异常气候事件模拟结果的影响。结果表明:对于大气变量而言,模式通常在经过4—8 d的适应调整时间后,就进入"气候模态"运行,此后模拟误差主要是由于模式对区域内大气过程描述能力不足造成的,对适应调整时间选取不再敏感,这进一步证实了区域气候模拟是一个边值问题的观点。各气候区平均降水量模拟结果受适应调整时间影响也不大,但不同的适应调整时间对降水分布格局模拟将产生一定影响,降水分布模拟结果随适应调整时间的不同存在一定的不确定性,这种不确定性通常出现在强降水发生区域。总之,对于季节尺度降水模拟,适应调整时间大于2个月效果更好。对降水分布格局模拟误差和东亚夏季风系统进退过程之间关系的进一步分析发现,模式对受夏季风系统影响比较大的区域模拟的降水相关系数变化性也比较大,因此,发展合适的积云对流参数化方案以提高受夏季风系统直接影响区域强降水过程的描述能力是改进区域气候模式对中国区域夏季气候模拟效果的有效途径。 相似文献
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Improvements in WRF simulation skills of southeastern United States summer rainfall: physical parameterization and horizontal resolution 总被引:2,自引:0,他引:2
Realistic regional climate simulations are important in understanding the mechanisms of summer rainfall in the southeastern United States (SE US) and in making seasonal predictions. In this study, skills of SE US summer rainfall simulation at a 15-km resolution are evaluated using the weather research and forecasting (WRF) model driven by climate forecast system reanalysis data. Influences of parameterization schemes and model resolution on the rainfall are investigated. It is shown that the WRF simulations for SE US summer rainfall are most sensitive to cumulus schemes, moderately sensitive to planetary boundary layer schemes, and less sensitive to microphysics schemes. Among five WRF cumulus schemes analyzed in this study, the Zhang–McFarlane scheme outperforms the other four. Further analysis suggests that the superior performance of the Zhang–McFarlane scheme is attributable primarily to its capability of representing rainfall-triggering processes over the SE US, especially the positive relationship between convective available potential energy and rainfall. In addition, simulated rainfall using the Zhang–McFarlane scheme at the 15-km resolution is compared with that at a 3-km convection-permitting resolution without cumulus scheme to test whether the increased horizontal resolution can further improve the SE US rainfall simulation. Results indicate that the simulations at the 3-km resolution do not show obvious advantages over those at the 15-km resolution with the Zhang–McFarlane scheme. In conclusion, our study suggests that in order to obtain a satisfactory simulation of SE US summer rainfall, choosing a cumulus scheme that can realistically represent the convective rainfall triggering mechanism may be more effective than solely increasing model resolution. 相似文献
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利用国家气候中心全球海气耦合模式CGCM_NCC的输出结果驱动区域气候模式RegCM_NCC对华北地区1991—2010年冬季气温和降水进行了数值回报试验,并采用国家气候中心的业务预报评分(P)等5个评估参数对模式的回报结果进行了评估分析。结果表明:RegCM_NCC回报的华北地区20年冬季气温的P评分多年平均值为70.4分,其中大部分年份平均气温的P评分在60分以上,80分以上的有11年,11年的预报相对于随机预报和气候预报有正技巧;20年冬季降水的P评分多年平均值为66.3分,13年冬季降水的P评分在60分以上,在80分以上的有5年,8年的预报相对于随机预报有正技巧,有11年的预报相对于气候预报有正技巧。冬季Nino3.4区海温距平为负和东大西洋-俄罗斯西部型遥相关指数为负,均有利于回报的华北冬季气温P评分提高。 相似文献
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XIN Yufei Annette RINKE BIAN Lingen Klaus DETHLOFF XIAO Cunde Moritz MIELKE 《大气科学进展》2010,27(6):1453-1472
Climate and forecast mode simulations with the regional climate model
HIRlam-ECHAM(HIRHAM) are evaluated over a pan-Antarctic domain. The ability
of the model to simulate temperature and wind profiles in the troposphere is
quantified by comparing its results with radiosonde data acquired from the
Davis station for January and July 2007. Compared to the climate mode, the
forecast mode was found to deliver improved results for temperature and wind
simulations at the near surface and in the lower troposphere. The main
remaining model bias found was the under-representation of low-level wind
jets. Based on ensemble simulations, it is shown that a distinct internal
variability is inherent in the climate mode simulations, and associated
areas of reduced predictability over Antarctica are identified. 相似文献
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厄尔尼诺衰减年东亚夏季大气环流和降水异常的耦合模式后报试验 总被引:1,自引:0,他引:1
利用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(LASG)新一代耦合气候模式(FGOALS)进行了气候异常季节后报试验,通过对1982—2005年7个个例的分析,探讨了厄尔尼诺衰减年夏季东亚大气环流和降水异常发生的物理机制。分析结果表明:FGOALS可以模拟出厄尔尼诺衰减年夏季相关气候场的异常态特征,表现为在西北太平洋为负海温异常,在热带印度洋为正海温异常,从而导致西北太平洋地区大气中低层异常反气旋环流的维持,其反气旋的西南部及西部的偏南及西南气流造成中国长江中下游地区降水的异常增多。在提前3—9个月的预测模拟中,模式可以模拟出气候场的异常演变,随着预测时间的延长,产生局地耦合的西北太平洋海表温度异常信号变弱,使得模拟出的西北太平洋反气旋异常偏弱、中心东移,从而导致影响东亚降水的气候场的异常变弱,降水异常区偏东。模拟结果也揭示出,西北太平洋海表温度负异常是厄尔尼诺异常信号的转换模态,并且,由于局地海-气相互作用,热带海温异常信号可以持续到第2年夏季,从而引起东亚大气环流和降水异常。对于东亚降水的季节预测出现误差可能是模式对ENSO的模拟偏差造成的,随着预测时间延长,模式模拟的厄尔尼诺信号偏弱,这将使得海表温度异常偏弱,同时相关物理场的异常响应也减弱。 相似文献
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Michael R. Grose Michael J. Pook Peter C. McIntosh James S. Risbey Nathaniel L. Bindoff 《Climate Dynamics》2012,39(1-2):445-459
Cutoff lows are an important source of rainfall in the mid-latitudes that climate models need to simulate accurately to give confidence in climate projections for rainfall. Coarse-scale general circulation models used for climate studies show some notable biases and deficiencies in the simulation of cutoff lows in the Australian region and important aspects of the broader circulation such as atmospheric blocking and the split jet structure observed over Australia. The regional climate model conformal cubic atmospheric model or CCAM gives an improvement in some aspects of the simulation of cutoffs in the Australian region, including a reduction in the underestimate of the frequency of cutoff days by more than 15 % compared to a typical GCM. This improvement is due at least in part to substantially higher resolution. However, biases in the simulation of the broader circulation, blocking and the split jet structure are still present. In particular, a northward bias in the central latitude of cutoff lows creates a substantial underestimate of the associated rainfall over Tasmania in April to October. Also, the regional climate model produces a significant north–south distortion of the vertical profile of cutoff lows, with the largest distortion occurring in the cooler months that was not apparent in GCM simulations. The remaining biases and presence of new biases demonstrates that increased horizontal resolution is not the only requirement in the reliable simulation of cutoff lows in climate models. Notwithstanding the biases in their simulation, the regional climate model projections show some responses to climate warming that are noteworthy. The projections indicate a marked closing of the split jet in winter. This change is associated with changes to atmospheric blocking in the Tasman Sea, which decreases in June to November (by up to 7.9 m s?1), and increases in December to May. The projections also show a reduction in the number of annual cutoff days by 67 % over the century, together with an increase in their intensity, and these changes are strongest in spring and summer. 相似文献
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区域海气耦合模式是研究局地海气相互作用过程影响气候变率的重要平台,也是对全球气候模式进行"动力降尺度"的重要工具.本文介绍了LASG(State Key Laboratory of Numerical Modeling for Atmospheric Sciences and Geophysical Fluid Dynamics)/IAP(Institute of Atmospheric Physics)发展的区域海气耦合模式FROALS(Flexible Regional Ocean-Atmosphere-Land System model),并总结了过去五年围绕该区域海气耦合模式开展的研究工 作.FROALS的特点之一是有两个完全不同的大气模式分量和海洋模式分量选项,可以适应不同的模拟研究需 求.针对区域海气耦合模式在西北太平洋地区的模拟偏差,通过分步骤考察不同大气模式分量和不同海洋模式分量对模式模拟性能的影响,指出大气模式是导致区域海气耦合偏差的主要分量.通过改进对流触发的相对湿度阈值标准,有效地改善了此前区域海气耦合模式在亚洲季风区普遍出现的"模拟海温冷偏差".改进的FROALS对西北太平洋地区的大气和海洋环境有较好的模拟能力,合理地再现了西北太平洋地区表层洋流气候态和年际变率.较之非耦合模式,考虑区域海气耦合过程后,改进了东亚和南亚地区的降水和热带气旋潜势年际变率的模拟.最后,针对东亚—西北太平洋地区,利用FROALS对IAP/LASG全球气候模式模拟和预估的结果进行了动力降尺 度,得到了东亚区域50 km高分辨率区域气候变化信息.分析显示,FROALS模拟得到的东亚区域气候较之全球气候模式和非耦合区域气候模式结果具有明显的"增值",显示出区域海气耦合模式在该区域良好的应用前景. 相似文献
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长江下游地区降水50-80d低频分量的次季节预测研究 总被引:1,自引:0,他引:1
用1979-2000年逐日长江下游降水的50-80 d低频分量和全球850 hPa低频纬向风主成分,构建了长江下游降水低频分量的次季节预测的扩展复数自回归模型(ECAR)。这种基于数据驱动建模的气候预测方法,不仅能在复数空间上反映全球环流主要低频主分量和长江下游降水低频分量之间的时滞变化信息,而且能更好地描述气候系统的主要分量在低维空间中的变化规律。对2001-2014年长江下游降水低频分量进行次季节逐日变化回报试验的结果表明,50-80 d时间尺度的长江下游低频降水分量的预测时效可达52 d左右,预报能力明显优于自回归模型(AR),而且6-8月的预报技巧最高。基于全球环流主要50-80 d振荡型的发展和变化以及与长江下游低频降水相关的时间演变,对于提前50-60 d预报长江下游地区持续多(少)雨过程很有帮助(尤其是夏季),其中,东亚经向三极子型(EAT)是影响长江下游地区季节内降水变化的最主要的环流因子之一。 相似文献
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Randall B. Boone Kathleen A. Galvin Michael B. Coughenour Jerry W. Hudson Peter J. Weisberg Coleen H. Vogel James E. Ellis 《Climatic change》2004,64(3):317-340
Livestock production in South Africa is limited by frequent droughts. The South African Weather Service produces climate forecasts estimating the probability of low rainfall three and six months into the future. We used the ecosystem model SAVANNA applied to five commercial farms in the Vryburg region of the North-West Province, and five communal areas within the Province, to assess the utility of a climate forecast in refining drought coping strategies. Rainfall data from 1970 to 1994 were modified to represent a drought (225 mm of rainfall) in 1977/1978, and used in simulations. In a simulation on an example commercial farm we assumed a forecast was available in 1977 portending an upcoming drought, and that the owner sold 490 cattle and 70 sheep prior to the drought. Over the simulation period, the owner sold 31% more cattle when the forecast was used,versus when the forecast was ignored. Populations of livestock on both commercial and communal farms recovered more quickly following the drought when owners sold animals in response to the forecast. The economic benefit from sales is being explored using optimization techniques. Results and responses from South African livestock producers suggest that a real-time farm model linked with climate forecasting would be a valuable management tool. 相似文献
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Heiko Paeth 《Climate Dynamics》2011,36(7-8):1321-1336
Rainfall represents an important factor in agriculture and food security, particularly, in the low latitudes. Climatological and hydrological studies which attempt to diagnose the hydrological cycle, require high-quality precipitation data. In West Africa, like in many parts of the world, the density of observational data is low and climate models are needed in order to perform homogeneous and complete data sets. However, climate models tend to produce systematic errors, especially, in terms of rainfall and cloud processes, which are usually approximated by physical parameterizations. In this study, a 25-year climatology of monthly precipitation in West Africa is presented, derived from a regional climate model simulation, and evaluated with respect to observational data. It is found that the model systematically underestimates the rainfall amount and variability and does not capture some details of the seasonal cycle in sub-Saharan West Africa. Thus, in its present form the precipitation climatology is not appropriate to draw a realistic picture of the hydrological cycle in West Africa nor to serve as input data for impact research. Therefore, a statistical model is developed in order to adjust the simulated rainfall data to the characteristics of observed precipitation. Assuming that the regional climate model is much more reliable in terms of atmospheric circulation and thermodynamics, model output statistics is used to correct simulated rainfall by means of other simulated parameters of the near-surface climate like temperature, sea level pressure and wind components. Monthly data is adjusted by a cross-validated multiple regression model. The resulting adjusted rainfall climatology reveals a substantial improvement in terms of the model deficiencies mentioned above. In part II of this publication, the characteristics of simulated daily precipitation is adapted to station data by applying a weather generator. Once the postprocessing approach is trained, it can be extrapolated to simulation periods, for which observational data do not exist like for instance future climate. 相似文献
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随着数值预报技术的飞速发展, 模式定量降水预报已成为天气预报业务工作中的主要参考依据。本文对目前在国家气象中心应用的3个业务运行模式T213L31, HLAFS0.25, 华北中尺度模式MM5和德国模式及日本模式的降水预报产品进行了季节空间分布、区域时间序列演变及统计检验, 试图从空间、时间及统计方面对降水预报产品的预报性能进行综合评估。检验结果表明:目前的数值预报模式对短期时效内定量降水预报均具有一定的空间预报能力, 但强降水中心位置有一定的偏差; 从时间序列演变检验来看, 模式对区域强降水过程的发展趋势具有较强的预报能力, 但降水量预报与实况有一定的差距; 从累加统计评分检验结果来看, 模式短期时效的预报性能差别不大, 全球模式在小中雨预报方面有一定优势, 其中日本模式的综合预报性能最好, 大雨以上量级的预报则是国内的模式有一定的优势, 其中华北中尺度MM5模式, T213L31模式各有所长, 但均存在预报量和预报区偏大问题。 相似文献
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青藏高原冬季积雪影响我国夏季降水的模拟研究 总被引:23,自引:9,他引:14
利用区域气候模式 (NCC_RegCM1.0) 对青藏高原前冬积雪对次年夏季中国降水的影响进行了数值模拟研究, 所得结果与实际观测的积雪和降水的关系较为吻合, 即长江流域、 新疆地区夏季多雨, 华北和华南少雨, 这与我国最近二十年来维持的 “南涝北旱” 雨型较为一致。因此, 可以认为青藏高原冬季多雪, 是引起中国东部夏季降水出现 “南涝北旱” 的一个重要原因。本文揭示了青藏高原冬季积雪影响我国夏季降水的可能物理机制。青藏高原冬季多雪, 会导致青藏高原地面感热热源减弱, 这种热源的减弱在冬季导致冬季风偏强, 可以影响到我国华南、 西南及孟加拉湾地区。同时, 由于高原热源的减弱可持续到夏季, 成为东亚夏季风和南亚夏季风减弱的一个原因。在积雪初期, 地面反射通量的增加起了主要作用; 在积雪融化后, “湿土壤” 在延长高原积雪对天气气候的影响过程中起了重要作用。初期的反射通量增加减少了太阳辐射的吸收、 融雪时的融化吸热, 以及后期的湿土壤与大气的长期相互作用, 作为异常冷源, 减弱了春夏季高原热源, 是高原冬季积雪影响夏季风并进而影响我国夏季降水的主要机理。本文的模拟结果表明, 青藏高原冬季积雪的显著影响时效可以一直持续到6月份。 相似文献
18.
MM5模式对区域气候模拟的性能试验 总被引:9,自引:9,他引:9
利用1998年6月NCEP资料和6月2日00:00地表资料及美国NCAR/PENN州的MM5对1998年6月我国南方降雨过程进行了气候模拟的性能试验,模拟结果表明,MM5基本上可模拟出局地大气环流和区域尺度上的强对流过程造成的雨区,降雨强度和强降水中心位置,但模拟的雨量与实际值相差较大,模拟值再现了我国夏季降水异常的空间分布特点,模式可向区域气候模式发展,但该模式模拟的1998年6月副高强度比其实际值的强度更强,故导致更多的水汽进入降雨区,造成过多的降雨。 相似文献
19.
区域气候模拟研究中的物理集合技术 总被引:4,自引:0,他引:4
文中介绍了基于MM 5有限区域模式的物理集合构造方法 ,通过对模式中的 5种物理过程加以扰动、组合而得到一个有 19个成员的物理集合系统 ,并用其对 1998年夏季发生在中国东部地区的异常洪涝天气气候特征进行了模拟研究。以集合预报的 3种基本释用方法 ,对集合模拟产生的大量输出结果作了细致的分析 ,发现在区域气候模拟中 ,引入物理集合是可行的 ;它为区域气候数值研究提供了更多的手段和信息 ;集合系统存在的不足之处在于 :集合成员间离散程度不足、集合模拟范围较狭窄 ,这使得离差对误差的实际预报能力低于潜在预报能力 ,也使集合概率预报的精度降低。 相似文献
20.
Potential for added value to downscaled climate extremes over Korea by increased resolution of a regional climate model 总被引:1,自引:0,他引:1
This study estimates the potential for added value in dynamical downscaling by increasing the spatial resolution of the regional climate model (RCM) over Korea. The Global/Regional Integrated Model System—Regional Model Program with two different resolutions is employed as the RCM. Large-scale forcing is given by a historical simulation of a global climate model, namely the Hadley Center Global Environmental Model version 2. As a standard procedure, the reproducibility of the RCM results for the present climate is evaluated against the reanalysis and observation datasets. It is confirmed that the RCM adequately reproduces the major characteristics of the observed atmospheric conditions and the increased resolution of the RCM contributes to the improvement of simulated surface variables including precipitation and temperature. For the added-value assessment, the interannual and daily variabilities of precipitation, temperature are compared between the different resolution RCM experiments. It is distinctly shown that variabilities are additionally described as the spatial resolution becomes higher. The increased resolution also contributes to capture the extreme weather conditions, such as heavy rainfall events and sweltering days. The enhanced added value is more evident for the precipitation than for the temperature, which stands for a usefulness of the high-resolution RCM especially for diagnosing potential hazard related to heavy rainfall. The results of this study assure the effectiveness of increasing spatial resolution of the RCM for detecting climate extremes and also provide credibility to the current climate simulation for future projection studies. 相似文献