21世纪前期中国降水预估及其订正     

张蓓  戴新刚  杨阳 《大气科学》2019,43(6):1385-1398

用全球格点分析数据集（CRU TSv4.0）月降水资料和24个CMIP5（Coupled Model Intercomparison Project Phase 5）模式历史模拟数据以及RCP4.5情景下的预估数据,分析了多模式集合平均降水的偏差特征并进行了扣除模式气候漂移和一元对数差分回归订正。结果表明,模式降水在西部和北部明显偏多,东南沿海偏少;冷季（11月至次年4月）在全国大部分地区模式降水偏多,暖季（5～10月）东南沿海季风区偏少。1956～2005年多模式集合平均历史模拟降水偏差中84%属于气候漂移,其余是偏差的非定常模态。扣除气候漂移后,RCP4.5情景下2006～2015年中国模式降水预估偏差减小90%以上,大部分地区降水偏差百分率分布在±5%以内,仅在青藏高原西部和西北中部等地区模式降水偏多10%～40%;暖季降水偏差分布与年降水量类似;冷季偏差较大,北方降水偏多,南方偏少。检验表明,一元线性对数差分回归方程订正后,模式降水对于2006～2015年期间西南和江南中部的干旱少雨气候均能再现,且距平同号率高于多模式集合平均和扣除气候漂移的结果。用该方法对RCP4.5情景下2016～2035年模式预估降水进行订正,结果显示,南方（淮河以南）降水减少5%～20%,河套、内蒙古和华北北部减少20%～40%,东北南部、淮河流域、西北大部增加10%～40%及以上,东南沿海和台湾省降水增加10%～20%。以上降水预估结果说明,在RCP4.5情景下,21世纪前期持续十年的西南干旱会略有缓解,但南方降水偏少格局变化不大,淮河流域和三江源区及其以西等地降水可能明显增加。中国降水异常分布总体呈现南北少、中间多的格局,但北方和西部高山地带的降水预估存在较大的不确定性。  相似文献   

不同升温情景下中国东北地区平均气候和极端气候事件变化预估     

敖雪  翟晴飞  崔妍  赵春雨  王涛  周晓宇  侯依玲 《气象与环境学报》2020,36(5):40-51

利用区域气候模式RegCM4的逐日气温和降水资料,预估1.5℃和2.0℃升温情景下,东北地区平均气候和极端气候事件的变化。结果表明：RCP4.5排放情景下,模式预计在2030年和2044年左右稳定达到1.5℃和2.0℃升温;两种升温情景下,东北地区气温、积温、生长季长度均呈增加趋势,且增幅随着升温阈值的升高而增加;1.5℃升温情景下,年平均气温增幅为1.19℃,年平均降水距平百分率增幅为5.78%,积温增加247.1℃·d,生长季长度延长7.0 d;2.0℃升温情景下气温、积温、生长季长度增幅较1.5℃升温情景下显著,但是年和四季降水普遍减少,年降水距平百分率减小1.96%。两种升温情景下,极端高温事件显著增加,极端低温事件显著减少,极端降水事件普遍增加。霜冻日数、结冰日数均呈显著减少趋势,热浪持续指数呈显著增加趋势;未来东北地区降水极端性增强,不仅单次降水过程的量级增大,极端降水过程的量级也明显增大,随着升温阈值的增大,极端降水的强度也逐渐增大。  相似文献   

未来气候情景下中国东部极端降水和气温的危险性特征          下载免费PDF全文

齐庆华 《气象与减灾研究》2020,43(4):256-266

基于BCC-CSM11模式降尺度预估结果,通过构建极端天气气候事件的危险性指数,考察和分析了中国东部极端降水和气温未来气候情景下可能的变化趋势和危险性分布格局。结果表明: 1）在中等排放情景（RCP4.5）下,近期（2021—2050年）极端降水和极端高温危险性呈现增强趋势,危险性指数增幅分别约为2%和10%,而极端低温危险性则呈减弱趋势,危险性指数降幅约为4%。21世纪末期（2070—2099年）,极端降水和气温危险性均基本保持现有水平,未有明显趋势。在高等排放情景（RCP8.5）下,极端降水和极端高温危险性将持续增强,至21世纪末危险性指数增幅分别约为5%和60%;极端低温危险性持续减弱,危险性指数降幅约为5%。2）在未来气候情景下,中国东部极端高温的危险性以全域持续增强为主要特征,特别是西南地区、长江以南地区和东南沿海危险性增强最为显著。至21世纪末,在高排放情景下的危险性指数增幅为30%—60%。极端降水危险性在黄河上游、长江上游和下游以及东北地区中南部等地区呈增强趋势,危险性指数增幅为3%—5%。极端低温危险性全域呈减弱趋势,至21世纪末期高等排放情景下的危险性指数最高降幅为7%—9%。  相似文献   

基于转移累计概率分布统计降尺度方法的未来降水预估研究:以湖南省为例   总被引：2，自引：0，他引：2  

周莉  江志红 《气象学报》2017,75(2):223-235

基于最新一代CMIP5（Coupled Model Intercomparison Project Phase 5）模式历史情景和未来RCP4.5情景下的模式逐日降水数据,使用转移累计概率分布（CDF-t）统计降尺度方法,从空间变化和时间变率两个方面评估该降尺度方法对湖南日降水量模拟能力的改善效果,并在此基础上对未来降水量变化进行预估。结果表明, CMIP5气候模式由于分辨率较低,无法细致反映湖南地形变化和大气环流影响导致的区域降水变化特征。经过CDF-t统计降尺度处理之后,模式对湖南降水的时、空分布模拟与实况更为接近,绝大部分模式对降水空间结构的模拟能力都有显著提高。基于CDF-t统计降尺度的多模式集合预估结果表明,21世纪湖南省日降水量呈弱的增多趋势（0.95%/（10 a））。21世纪初、中和末期相对于1986—2005年的气候平均态,湖南省日降水量分别增加了4.6%、5%和5.2%。3个时期湖南省日平均降水变化的空间分布存在较强的一致性,皆表现为湖南西北、东北和东南3个地区降水增幅最为显著,且随着辐射强迫的增大,3个地区降水增幅也呈递增趋势。需要指出的是,预估结果在模式之间存在一定差异,并且这种差异随着辐射强迫的增大而增大。   相似文献   

5个IPCC AR4全球气候模式对东北三省降水模拟与预估   总被引：3，自引：0，他引：3  

崔妍  周晓宇  赵春雨  龚强  王颖  李倩  敖雪  房一禾  张海娜 《气象与环境学报》2014,30(4):34-41

利用IPCC AR4中5个全球气候模式数据集和中国东北三省162个站降水实测资料,评估5个全球气候模式和多模式集合平均对中国东北三省降水的模拟能力,并对SRES B1、A1B和A2三种排放情景东北三省未来降水变化进行预估。结果表明：全球气候模式能较好再现东北三省降水的月变化,但存在系统性湿偏差;多模式集合平均能较好模拟东北三省年降水量的空间分布,但模拟中心偏北,强度略强,模式对东北三省夏季降水的模拟效果优于冬季降水;预估结果表明,三种排放情景下21世纪中前期和末期东北三省降水均将增多,21世纪末期增幅高于21世纪中前期,冬季增幅高于其他季节;就排放情景而言,SRES A1B和A2排放情景增幅相当,高于B1排放情景增幅;不同排放情景东北三省降水量增率分布呈较一致变化,A2排放情景下,增幅最显著的辽宁环渤海地区年降水量在21世纪中前期将增加7%以上,21世纪末期将增加16%。  相似文献   

两种统计降尺度方法在秦岭山地的适用性          下载免费PDF全文

刘甲毅  邓丽姣  傅国斌  白红英  王俊 《应用气象学报》2018,29(6):737-747

基于ASD（automated statistical downscaling）统计降尺度模型提供的多元线性回归和岭回归两种统计降尺度方法,采用RCP4.5（representative concentration pathways 4.5）和RCP8.5情景下全球气候模式MPI-ESM-LR输出的预报因子数据、NCEP/NCAR再分析数据和秦岭山地周边10个气象站观测数据,评估两种统计降尺度方法在秦岭山地的适用性及预估秦岭山地未来3个时期（2006-2040年、2041-2070年和2071-2100年）的平均气温和降水。结果表明:率定期和验证期内,两种统计降尺度方法均可以较好地模拟研究区域的平均气温和降水的变化特征,且多元线性回归的模拟效果优于岭回归。在未来气候情景下,两种统计降尺度方法预估的研究区域平均气温均呈明显上升趋势,气温增幅随辐射强迫增加而增大。降水方面,21世纪未来3个时期降水均呈不明显减少趋势,但季节分配发生变化。综合考虑两种统计降尺度方法在秦岭山地对平均气温和降水的模拟效果和情景预估结果,认为多元线性回归降尺度方法更适用于秦岭山地气候变化的降尺度预估研究。  相似文献   

IPCC AR4多模式对海河流域气候模拟能力的评估及预估     

方玉  姜彤  翟建青  苏布达  谈丰  李修仓 《南京气象学院学报》2013,5(3):201-208

根据海河流域1961-2010年气象观测资料,检验IPCC AR4中全球气候模式和多模式集合的模拟能力,并预估未来2011-2050年气候变化的可能趋势,结果表明:全球气候模式以及多模式集合对海河流域都具有一定的模拟能力,其中MIUB_ECHO_G模式和多模式集合具有相对较好的模拟能力.海河流域气温和降水未来情景预估表明:气温整体呈现增加趋势,尤其是A1B情景下各模式的年升温率均高于全国水平;未来降水也呈现增加趋势,在A1B和B1情景下,各模式都为夏季降水增加显著.A2情景下,春季时各模式降水均增加显著,A1B情景下,MIUB_ECHO_G模式模拟在2013年出现突变,降水量出现显著增长,A2情景下,MIUB_ECHO_G模式和多模式集合模拟的降水量则是在2031年和2001年出现突变,出现显著增长.  相似文献   

RCPs情景下珠江流域气候变化预估分析     

杨红龙  王炳坤  杜尧东  李磊 《热带气象学报》2014,(3):503-510

针对珠江流域,分析了在全球气候模式（BCC_CSM1.1）驱动下,区域气候模式RegCM4进行的中国区域气候变化模拟中,珠江流域在RCP4.5和RCP8.5温室气体排放情景下,未来2010—2099年的气候变化。结果表明,RegCM4对珠江流域气候特征具有很强的模拟能力。未来RCPS情景下珠江流域气温将持续增大。与参照时段（1980—1999年）相比,RCP4.5和RCP8.5情景下的年平均温度在2020s分别增加0.7 ℃和0.8 ℃,2050s分别增加1.0 ℃和1.6 ℃,2080s分别增加1.6 ℃和2.9 ℃。而未来年降水并未表现出显著的变化趋势,但不同情景、不同地区预估的降水呈现不同的变化趋势。RCP4.5情景下,流域降水2020s将减少4.3%,2050s和2080s将分别增加0.7%和0.1%;RCP8.5情景下,未来不同时段流域降水均呈减少趋势,2020s、2050s和2080s分别减少1.7%、2.9%和0.2%,表明降水预估具有更大的不确定性。两种排放情景下未来降水在东南沿海增加、西北部减少,变化率为±8%。此外,两种排放情景下未来珠江流域的日平均温度统计特征发生改变,揭示未来高温事件可能增加,同时,大雨级别以上的降水发生频率增加,可能导致洪涝事件增加。   相似文献   

CMIP5气候模式对云南气候变化模拟评估及未来情景预估     

《贵州气象》2019,(6)

基于8个气候模式和多模式集合数据(21个气候模式简单集合)和观测数据,评估了其在气候基准期内对云南气温、降水的模拟能力,在评估基础上应用多模式集合数据,预估了未来不同排放情景下云南气温、降水的空间变化情况。结果表明:①多模式集合和部分模式能较好的模拟出基准期内气温、降水的年际变化趋势;在空间分布特征上,气候模式(包括多模式集合)对降水的模拟偏差较差,对气温的模拟相对较好;但在月平均气温和月降水的年内分布模拟上,多模式集合数据的模拟效果明显优于8个气候模式数据;②预估结果表明,在未来3种排放情景下云南地区降水呈西增东减的空间部分特征,纵向岭谷地区降水增加幅度为1%～3%,而气温在3种排放情景下则表现为一致的增加,降水和气温均在RCP8.5情景下增幅最大。  相似文献   

我国西北降水变化趋势和预估     

张诗妍  胡永云  李智博 《气候变化研究进展》2022,18(6):683-694

利用观测资料、GPCC再分析资料和第六次耦合模式比较计划（CMIP6）模拟结果,研究了我国西北地区近几十年及未来降水变化趋势。结果表明,1979—2019年我国西北干旱半干旱区降水在全年各季节均有显著增加,其中秋季增加最多。CMIP6模拟结果显示,随着全球变暖,我国西北地区降水在2015—2100年将继续增加。至21世纪末,在SSP2-4.5和SSP5-8.5情景下,我国西北地区年平均降水量将分别增加约13.7%（37 mm）和25.8%（78 mm),其中降水量增加最多的季节分别为夏季和春季。考虑到西北地区蒸发量也将随全球变暖而增加,模式平均的结果显示西北地区年平均净降水量在两种情景下的增幅分别约1.4%和4.9%,表明我国西北地区未来气候呈现显著的变湿趋势。进一步分析表明,西北地区未来降水增加可能与局地大气低层位势高度降低和上升运动加强有关。  相似文献   

气候变化对长江上游径流影响预估     

秦鹏程  刘敏  杜良敏  许红梅  刘绿柳  肖潺 《气候变化研究进展》2019,15(4):405-415

利用第五次国际耦合模式比较计划(CMIP5)中5个气候模式在3种典型浓度路径(RCPs)下的预估结果驱动SWAT水文模型,预估了21世纪气候变化对长江上游年径流量、季节分配以及极端径流的影响。结果表明：预估的长江上游平均气温呈显著上升趋势,21世纪末较当前(1986—2005年)升高1.5~5.5℃,降水总体呈增加趋势,在21世纪30年代后高于当前气候平均值,21世纪末相对于当前增加5%~15%。流域内气候变化存在明显空间差异,金沙江和岷沱江流域气温升高和降水增加幅度均大于流域平均值。预估的长江上游年径流量及各月平均径流均有增加趋势,在21世纪30年代后高于当前多年平均值,21世纪中期增加4%~8%,21世纪末增加10%~15%。预估的径流年内分布的均匀性有所增加,但年际变化明显增大,极端旱涝事件的频率和强度明显增加。预估的各子流域径流变化对气候变化的响应也存在差异,金沙江和岷沱江流域年径流量、年际变化和年内分布变化小,对气候变化的响应表现为低敏感;嘉陵江流域、乌江流域和长江上游干流径流增加幅度大,同时极端丰枯出现的频率和程度增加显著,是气候变化响应的敏感区域。  相似文献   

21世纪珠江流域水文过程对气候变化的响应   总被引：4，自引：0，他引：4  

刘绿柳  姜彤  徐金阁  翟建青  罗勇 《气候变化研究进展》2012,8(1):28-34

应用HBV-D水文模型和多个气候模式预估了不同温室气体排放情景下珠江主干流西江的径流过程,分析了21世纪水资源量和洪水频率的变化。结果表明：2050年后年降水量和年径流量较基准期（1961—1990年）明显增加;流域平均的月降水量和径流量在5—10月间均呈增加趋势,12月至次年2月呈减少趋势;年最大1 d和7 d洪量逐渐增加,重现期逐渐缩短。2030年前枯水期径流增加有望缓解枯水期用水压力,而2050年之后丰水期径流量以及洪水强度、发生频率的增加将给珠江流域防汛抗洪带来更大压力,在制订气候变化对流域水资源影响适应性对策时应考虑这两方面的影响。  相似文献   

Projections of annual mean air temperature and precipitation over the globe and in China during the 21st century by the BCC Climate System Model BCC_CSM1.0          下载免费PDF全文

张莉  吴统文  辛晓歌  董敏  王在志 《Acta Meteorologica Sinica》2012,26(3):362-375

Evaluating the projection capability of climate models is an important task in climate model development and climate change studies. The projection capability of the Beijing Climate Center (BCC) Climate System Model BCC CSM1.0 is analyzed in this study. We focus on evaluating the projected annual mean air temperature and precipitation during the 21st century under three emission scenarios (Special Report on Emission Scenarios (SRES) B1, A1B, and A2) of the BCC CSM1.0 model, along with comparisons with 22 CMIP3 (Coupled Model Intercomparison Project Phase 3) climate models. Air temperature averaged both globally and within China is projected to increase continuously throughout the 21st century, while precipitation increases intermittently under each of the three emission scenarios, with some specific temporal and spatial characteristics. The changes in globally-averaged and China-averaged air temperature and precipitation simulated by the BCC CSM1.0 model are within the range of CMIP3 model results. On average, the changes of precipitation and temperature are more pronounced over China than over the globe, which is also in agreement with the CMIP3 models. The projection capability of the BCC CSM1.0 model is comparable to that of other climate system models. Furthermore, the results reveal that the climate change response to greenhouse gas emissions is stronger over China than in the global mean, which implies that China may be particularly sensitive to climate change in the 21st century.  相似文献   

Projections of Annual Mean Air Temperature and Precipitation over the Globe and in China During the 21st Century bythe BCC Climate System Model BCC_CSM1.0     

ZHANG Li  WU Tongwen  XIN Xiaoge  DONG Min  WANG Zaizhi 《Acta Meteorologica Sinica》2012,26(3):362-375

Evaluating the projection capability of climate models is an important task in climate model development and climate change studies. The projection capability of the Beijing Climate Center (BCC) Climate System Model BCC_CSM1.0 is analyzed in this study. We focus on evaluating the projected annual mean air temperature and precipitation during the 21st century under three emission scenarios (Special Report on Emission Scenarios (SRES) B1, A1B, and A2) of the BCC_CSM1.0 model, along with comparisons with 22 CMIP3 (Coupled Model Intercomparison Project Phase 3) climate models. Air temperature averaged both globally and within China is projected to increase continuously throughout the 21st century, while precipitation increases intermittently under each of the three emission scenarios, with some specific temporal and spatial characteristics. The changes in globally-averaged and China-averaged air temperature and precipitation simulated by the BCC_CSM1.0 model are within the range of CMIP3 model results. On average, the changes of precipitation and temperature are more pronounced over China than over the globe, which is also in agreement with the CMIP3 models. The projection capability of the BCC_CSM1.0 model is comparable to that of other climate system models. Furthermore, the results reveal that the climate change response to greenhouse gas emissions is stronger over China than in the global mean, which implies that China may be particularly sensitive to climate change in the 21st century.  相似文献   

Do weak AR4 models bias projections of future climate changes over Australia?     

S. E. Perkins  A. J. Pitman 《Climatic change》2009,93(3-4):527-558

Regional climate projections using climate models commonly use an “all-model” ensemble based on data sets such as the Intergovernmental Panel on Climate Change’s (IPCC) 4th Assessment (AR4). Some regional assessments have omitted models based on specific criteria. We use a criteria based on the capacity of climate models to simulate the observed probability density function calculated using daily data, model-by-model and region-by-region for each of the AR4 models over Australia. We demonstrate that by omitting those climate models with relatively weak skill in simulating the observed probability density functions of maximum and minimum temperature and precipitation, different regional projections are obtained. Differences include: larger increases in the mean maximum and mean minimum temperatures, but smaller increases in the annual maximum and minimum temperatures. There is little impact on mean precipitation but the better models simulate a larger increase in the annual rainfall event combined with a larger decrease in the number of rain days. The weaker models bias the amount of mean warming towards lower increases, bias annual maximum temperatures to excessive warming and bias precipitation such that the amount of the annual rainfall event is under-estimated. We suggest that omitting weak models from regional scale estimates of future climate change helps clarify the nature and scale of the projected impacts of global warming.  相似文献   

Changing climate extremes in the Northeast United States: observations and projections from CMIP5   总被引：1，自引：0，他引：1  

Jeanne M. Thibeault  Anji Seth 《Climatic change》2014,127(2):273-287

Climate extremes indices are evaluated for the northeast United States and adjacent Canada (Northeast) using gridded observations and twenty-three CMIP5 coupled models. Previous results have demonstrated observed increases in warm and wet extremes and decreases in cold extremes, consistent with changes expected in a warming world. Here, a significant shift is found in the distribution of observed total annual precipitation over 1981-2010. In addition, significant positive trends are seen in all observed wet precipitation indices over 1951-2010. For the Northeast region, CMIP5 models project significant shifts in the distributions of most temperature and precipitation indices by 2041-2070. By the late century, the coldest (driest) future extremes are projected to be warmer (wetter) than the warmest (wettest) extremes at present. The multimodel interquartile range compares well with observations, providing a measure of confidence in the projections in this region. Spatial analysis suggests that the largest increases in heavy precipitation extremes are projected for northern, coastal, and mountainous areas. Results suggest that the projected increase in total annual precipitation is strongly influenced by increases in winter wet extremes. The largest decreases in cold extremes are projected for northern and interior portions of the Northeast, while the largest increases in summer warm extremes are projected for densely populated southern, central, and coastal areas. This study provides a regional analysis and verification of the latest generation of CMIP global models specifically for the Northeast, useful to stakeholders focused on understanding and adapting to climate change and its impacts in the region.  相似文献   

High resolution regional climate model simulations for Germany: Part II—projected climate changes   总被引：1，自引：1，他引：0  

Sven Wagner  Peter Berg  Gerd Schädler  Harald Kunstmann 《Climate Dynamics》2013,40(1-2):415-427

The projected climate change signals of a five-member high resolution ensemble, based on two global climate models (GCMs: ECHAM5 and CCCma3) and two regional climate models (RCMs: CLM and WRF) are analysed in this paper (Part II of a two part paper). In Part I the performance of the models for the control period are presented. The RCMs use a two nest procedure over Europe and Germany with a final spatial resolution of 7 km to downscale the GCM simulations for the present (1971–2000) and future A1B scenario (2021–2050) time periods. The ensemble was extended by earlier simulations with the RCM REMO (driven by ECHAM5, two realisations) at a slightly coarser resolution. The climate change signals are evaluated and tested for significance for mean values and the seasonal cycles of temperature and precipitation, as well as for the intensity distribution of precipitation and the numbers of dry days and dry periods. All GCMs project a significant warming over Europe on seasonal and annual scales and the projected warming of the GCMs is retained in both nests of the RCMs, however, with added small variations. The mean warming over Germany of all ensemble members for the fine nest is in the range of 0.8 and 1.3 K with an average of 1.1 K. For mean annual precipitation the climate change signal varies in the range of ?2 to 9 % over Germany within the ensemble. Changes in the number of wet days are projected in the range of ±4 % on the annual scale for the future time period. For the probability distribution of precipitation intensity, a decrease of lower intensities and an increase of moderate and higher intensities is projected by most ensemble members. For the mean values, the results indicate that the projected temperature change signal is caused mainly by the GCM and its initial condition (realisation), with little impact from the RCM. For precipitation, in addition, the RCM affects the climate change signal significantly.  相似文献   

Future Changes of Drought and Flood Events in China under a Global Warming Scenario   总被引：1，自引：0，他引：1       下载免费PDF全文

CHEN Huo-Po  SUN Jian-Qi  CHEN Xiao-Li 《大气和海洋科学快报》2013,6(1):8-13

This study investigates the impact of global warming on drought/flood patterns in China at the end of the 21st century based on the simulations of 22 global climate models and a regional climate model(RegCM3) under the SRES(Special Report on Emissions Scenarios) A1B scenario.The standardized precipitation index(SPI),which has well performance in monitoring the drought/flood characteristics(in terms of their intensity,duration,and spatial extent) in China,is used in this study.The projected results of 22 coupled models and the RegCM3 simulation are consistent.These models project a decrease in the frequency of droughts in most parts of northern China and a slight increase in the frequency in some parts of southern China.Considering China as a whole,the spatial extents of droughts are projected to be significantly reduced.In contrast,future flood events over most parts of China are projected to occur more frequently with stronger intensity and longer duration than those prevalent currently.Additionally,the spatial extents of flood events are projected to significantly increase.  相似文献   

CSIRO Mk3.6.0模式及其驱动下RegCM4.4模式对中国气候变化的预估     

张冬峰  韩振宇  石英 《气候变化研究进展》2017,13(6):557-568

使用区域气候模式RegCM4.4,对全球模式CSIRO-Mk3.6.0在RCP4.5情景下的气候变化试验结果（1950-2100年）在东亚地区进行25 km动力降尺度试验,比较了CSIRO-Mk3.6.0和RegCM4.4预估中国地区的21世纪气候变化。结果表明,两个模式预估未来中国地区气温持续升高,升温幅度具有区域性特征,RegCM4.4预估区域平均升温幅度低于CSIRO-Mk3.6.0,但二者年际波动基本一致。两个模式预估未来降水在中国西部以持续增加为主,东部则表现出较大的不一致性,预估区域平均年降水量变化不大,呈现冬季明显增加,夏季微弱减少的特点。此外,为了解区域气候模式对中国降水预估的不确定性,对本研究和以往RegCM3使用相同分辨率模拟得到的未来降水预估进行了对比,两个区域模式预估中国西部大部分地区未来降水一致性增加,东部存在明显不一致（冬季中、高纬除外）。  相似文献