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1.
赵亮  刘健  靳春寒 《气象科学》2019,39(6):739-746
利用中国气象局所属的2 400余个台站观测资料制作的分辨率为0.25°×0.25°数据集中的气温、降水量资料评估了CMIP5中17个模式对于1961—2004年江苏省气温和降水量空间分布特征的模拟能力,筛选出了5个对江苏省气候特征模拟较好的模式。之后基于5个优选模式集合平均的结果预估了3种典型浓度路径(Representative Concentration Pathways,RCPs)下江苏省2006—2100年的气温和降水量变化趋势。结果表明:(1)全球耦合气候模式对江苏省的气温和降水量空间分布特征具有一定的模拟能力,并且模式集合平均的气温和降水量与观测资料的空间相关系数分别为0.85和0.93;(2)在低浓度路径(RCP2.6)、中浓度路径(RCP4.5)和高浓度路径(RCP8.5)3种温室气体排放情景下,江苏省2006—2100年的地表温度均呈现明显的增温趋势,并且苏北的增温幅度要高于苏南;(3)3种温室气体排放情景下,江苏省未来百年降水量均呈现出北方增多南方减少的趋势;(4)未来百年江苏省降水量随气温变化的趋势并不稳定,RCP2.6和RCP4.5情景下降水量随气温的升高而增加,而RCP8.5情景下降水量随气温的增加而减少。  相似文献   
2.
黄河流域未来气候-水文变化的模拟研究   总被引:3,自引:0,他引:3  
将大尺度半分布式水文模型VIC应用到黄河上中游流域(花园口水文断面以上),并利用区域气候模式RegCM4.0单向嵌套全球气候模式BCC_CSM1.1,动力降尺度到黄河流域的模拟结果驱动VIC模型,开展在新的典型浓度路径下(RCP4.5和RCP8.5)黄河流域未来气候和水文变化的离线模拟。模拟结果显示,在RCP4.5和RCP8.5排放情景下,黄河流域21世纪平均地表气温相对于1971—2000年均呈显著上升趋势,2019—2048年上升1.2—1.5℃,2069—2098年上升2.19—3.9℃。未来年平均降水量有微弱的增大,2019—2048年增幅为6%左右,2069—2098年增幅为1.4%—5.6%。未来蒸发量增大明显,2069—2098年年平均蒸发量最大可增加9.6%。2019—2048年花园口水文站的年平均径流量增大3.4%—7.4%,2069—2098年年平均径流量转为减少,减幅为3.3%—5.3%。黄河上游地区未来气候和水文变化趋势与黄河流域基本一致,但未来年径流量变幅低于黄河流域,相对比较稳定。  相似文献   
3.
Based on observations and 12 simulations from Coupled Model Intercomparison Project Phase 5 (CMIP5) models, cli- matic extremes and their changes over China in the past and under the future scenarios of three Representative Concentration Pathways (RCPs) are analyzed. In observations, frost days (FD) and low-temperature threshold days (TN10P) show a de- creasing trend, and summer days (SU), high-temperature threshold days (TX90P), heavy precipitation days (R20), and the contribution of heavy precipitation days (P95T) show an increasing trend. Most models are able to simulate the main char- acteristics of most extreme indices. In particular, the mean FD and TX90P are reproduced the best, and the basic trends of FD, TN10P, SU and TX90P are represented. For the FD and SU indexes, most models show good ability in capturing the spatial differences between the mean state of the periods 1986--2005 and 1961-80; however, for other indices, the simulation abilities for spatial disparity are less satisfactory and need to be improved. Under the high emissions scenario of RCP8.5, the century-scale linear changes of the multi-model ensemble (MME) for FD, SU, TN10P, TX90P, R20 and P95T are -46.9, 46.0, -27.1, 175.4, and 2.9 days, and 9.9%, respectively; and the spatial change scope for each index is consistent with the emissions intensity. Due to the complexities of physical process pararneterizations and the limitation of forcing data, great uncertainty still exists with respect to the simulation of climatic extremes.  相似文献   
4.
气候变化对淮河流域水资源及极端洪水事件的影响   总被引:2,自引:0,他引:2  
利用法国国家气象研究中心气候模型(Centre National de Recherches Météorologiques Climate Model, CNRM)典型代表性浓度路径(Representative Concentration Pathway, RCP)情景资料和可变下渗容量模型(Variable Infiltration Capacity Model,VIC),分析了淮河流域未来气温、降水、水资源及可能洪水的变化趋势。结果表明,淮河流域未来气温将持续升高,RCP2.6、RCP4.5和RCP8.5情景下未来2021~2050年较基准期(1961~1990年)升幅分别约为1.13℃、1.10℃和1.35℃;流域降水可能呈现略微增加趋势,3种排放情景下2021~2050年降水较基准期将分别增加5.81%、8.26%和6.94%;VIC模型在淮河流域具有较好的适用性,能较好地模拟淮河流域的水文过程,在率定期和检验期,模型对王家坝站和蚌埠站模拟的水量相对误差都在5%以内,日径流过程的Nash-Sutcliffe模型效率系数(NSE)在0.70以上,月径流过程的NSE达到0.85以上。气候变化将导致淮河流域水文循环强度增加,流域水资源总体将可能呈增加趋势,王家坝站和蚌埠站断面洪水事件的发生可能性将增大。  相似文献   
5.
张娇艳  李扬  吴战平  陈贞宏  杨益 《气象科技》2018,46(6):1165-1171
针对贵州省年平均降水量,年平均气温,年平均最高气温和年平均最低气温四个特征量,从空间分布上的定性比较,从年际、年代际的时间演变比较以及从泰勒图的定量比较来看,RegCM4模式的模拟效果优于CMIP5模式,因此本研究在RCP45排放情景下利用RegCM4模式数据预估未来2018—2050年贵州省年平均降水量,年平均气温,年平均最高气温和年平均最低气温。结果表明:21世纪Ⅰ阶段(2018—2028年)相对于基准期年平均降水在全省大部地区均是偏少的,偏少幅度在85%以内,其中贵州省北部地区偏少幅度最大;21世纪Ⅱ阶段(2029—2039年)相对于基准期贵州省中西部降水偏少东部降水偏多,变化幅度基本上在7%以内;21世纪Ⅲ阶段(2040—2050年)相对于基准期贵州省南部和东部降水偏少西北部降水偏多,变化幅度基本上在75%以内。贵州省21世纪Ⅰ阶段、Ⅱ阶段、Ⅲ阶段年平均气温、年平均最高气温和年平均最低气温相对于基准期均是偏暖的,偏暖幅度在06~13 ℃之间,越到后期,偏暖幅度越大,且空间差异不大。  相似文献   
6.
Based on RegCM4, a climate model system, we simulated the distribution of the present climate (1961-1990) and the future climate (2010-2099), under emission scenarios of RCPs over the whole Pearl River Basin. From the climate parameters, a set of mean precipitation, wet day frequency, and mean wet day intensity and several precipitation percentiles are used to assess the expected changes in daily precipitation characteristics for the 21st century. Meanwhile the return values of precipitation intensity with an average return of 5, 10, 20, and 50 years are also used to assess the expected changes in precipitation extremes events in this study. The structure of the change across the precipitation distribution is very coherent between RCP4.5 and RCP8.5. The annual, spring and winter average precipitation decreases while the summer and autumn average precipitation increases. The basic diagnostics of precipitation show that the frequency of precipitation is projected to decrease but the intensity is projected to increase. The wet day percentiles (q90 and q95) also increase, indicating that precipitation extremes intensity will increase in the future. Meanwhile, the 5-year return value tends to increase by 30%-45% in the basins of Liujiang River, Red Water River, Guihe River and Pearl River Delta region, where the 5-year return value of future climate corresponds to the 8- to 10-year return value of the present climate, and the 50-year return value corresponds to the 100-year return value of the present climate over the Pearl River Delta region in the 2080s under RCP8.5, which indicates that the warming environment will give rise to changes in the intensity and frequency of extreme precipitation events.  相似文献   
7.
ABSTRACT

In this study, three representative concentration pathways (RCPs) and 15 general circulation models of the Coupled Model Intercomparison Project Phase 5 were used to assess the behaviour of precipitation (P) and surface air temperature (SAT) over part of the Songhua River Basin. The Water Evaluation and Planning (WEAP) model linked with SAT and P was used for monthly simulation of streamflow to assess the influence of land use/land cover and climate change on the streamflow. The results suggest that, under RCP2.6, RCP4.5 and RCP8.5, the SAT over the study area may increase in the 21st century by 1.12, 2.44 and 5.82°C, respectively. Moreover, by the middle of the 21st century, streamflow in the basin may have decreased by 19%. The decrease in streamflow may be due to changed land use conditions and water withdrawal, having critical implications for management and future planning of water resources in the basin.  相似文献   
8.
2006~2013年CMIP5模式中国降水预估误差分析   总被引:1,自引:1,他引:0  
张蓓  戴新刚 《大气科学》2016,40(5):981-994
用第五次耦合模式比较计划(CMIP5)的10个模式模拟结果与英国东安格利亚大学(UEA)气候研究机构(CRU)的最新降水格点分析资料比较,评估了三种典型浓度路径(RCPs)排放情景下模式集合对2006~2013年中国降水预估误差,结果发现模式间年降水预估在西北和东部沿海地区差异较明显,在沿海地区模式降水估计偏少,在西部和北方大部分地区偏多;冬半年大部分地区模式降水明显偏多,部分地区甚至偏多一倍以上;夏半年东部季风区降水估计偏少,但西部仍然偏多。模式降水误差随时间变化,夏半年误差变化明显的区域主要集中在北方和东部地区,冬半年在东北南部、华东及华南等地。此外,提高排放情景对年降水量估计影响明显的地区主要集中在我国西部的部分地区,加剧了西北模式降水估计偏多程度,但对东部地区影响不大。El Ni?o与La Ni?a年的模式降水误差分布相似,仅在沿海部分地区和华北北部差异较明显,逐年误差分布特征也与此相似。各种误差的对比分析表明,模式降水误差可能多来自模式本身存在的问题,如积云对流参数化、固体降水物理过程、地形处理及分辨率等。这些误差特征说明,直接使用CMIP5模式集合情景输出资料估计未来降水的方法存在较大的不确定性,必须对其进行评估,以降低潜在用户或决策者们制定未来规划的风险。  相似文献   
9.
基于8 km气温栅格数据、全球模式(BCC_ CSM1.1)驱动区域模式RegCM4得到的RCP8.5和RCP4.5情景数据,采用时段对比分析、线性趋势分析等方法,研究了内蒙古地区气温变化特征及未来演变趋势。结果表明:从1981年到2010年,内蒙古地区气温显著上升,平均升速为0.49 ℃·10a-1,且最高气温升速略高于最低气温升速;升温幅度阶段性明显,全区1980s至1990s平均气温上升0.65 ℃,而1990s至21世纪初仅增温0.30 ℃;三大草原间年均气温年代际变化规律一致,但总体上草甸草原升温速率最小,而荒漠草原升温速率最大。与基准时段(1981—2010年)相比,全区年平均气温RCP4.5情景下在2020s、2030s和2040s分别增加0.92 ℃、1.27 ℃和1.78 ℃,而RCP8.5情景下分别增加1.39 ℃、1.56 ℃和2.07 ℃,RCP4.5与 RCP8.5情景下典型草原增温幅度均最为突出。  相似文献   
10.
Projections of potential submerged area due to sea level rise are helpful for improving understanding of the influence of ongoing global warming on coastal areas. The Ensemble Empirical Mode Decomposition method is used to adaptively decompose the sea level time series in order to extract the secular trend component. Then the linear relationship between the global mean sea level(GMSL) change and the Zhujiang(Pearl) River Delta(PRD)sea level change is calculated: an increase of 1.0 m in the GMSL corresponds to a 1.3 m(uncertainty interval from1.25 to 1.46 m) increase in the PRD. Based on this relationship and the GMSL rise projected by the Coupled Model Intercomparison Project Phase 5 under three greenhouse gas emission scenarios(representative concentration pathways, or RCPs, from low to high emission scenarios RCP2.6, RCP4.5, and RCP8.5), the PRD sea level is calculated and projected for the period 2006–2100. By around the year 2050, the PRD sea level will rise 0.29(0.21 to 0.40) m under RCP2.6, 0.31(0.22 to 0.42) m under RCP4.5, and 0.34(0.25 to 0.46) m under RCP8.5, respectively.By 2100, it will rise 0.59(0.36 to 0.88) m, 0.71(0.47 to 1.02) m, and 1.0(0.68 to 1.41) m, respectively. In addition,considering the extreme value of relative sea level due to land subsidence(i.e., 0.20 m) and that obtained from intermonthly variability(i.e., 0.33 m), the PRD sea level will rise 1.94 m by the year 2100 under the RCP8.5scenario with the upper uncertainty level(i.e., 1.41 m). Accordingly, the potential submerged area is 8.57×103 km2 for the PRD, about 1.3 times its present area.  相似文献   
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