统计降尺度法对未来区域气候变化情景预估的研究进展   总被引：65，自引：5，他引：65  

范丽军  符淙斌  陈德亮 《地球科学进展》2005,20(3):320-329

由于迄今为止大部分的海气耦合气候模式（AOGCM）的空间分辨率还较低,很难对区域尺度的气候变化情景做合理的预测,降尺度法已广泛用于弥补AOGCM在这方面的不足。简要介绍了3种常用的降尺度法：动力降尺度法、统计降尺度法和统计与动力相结合的降尺度法;系统论述了统计降尺度方法的理论和应用的研究进展,其中包括：统计降尺度法的基本假设,统计降尺度法的优缺点，以及常用的3种统计降尺度法；还论述了用统计降尺度法预估未来气候情景的一般步骤，以及方差放大技术在统计降尺度中的应用；同时还强调了统计降尺度方法和动力降尺度方法比较研究在统计降尺度研究中的重要性；最后指出统计与动力相结合的降尺度方法将成为降尺度技术的重要发展方向。  相似文献   

未来不同排放情景下气候变化预估研究进展   总被引：11，自引：1，他引：10  

张雪芹  彭莉莉  林朝晖 《地球科学进展》2008,23(2):174-185

概述未来不同排放情景下气候变化预估研究的主要进展。首先,对用于开展气候变化预估研究的不同复杂程度的气候系统及地球系统模式及其模拟能力进行了简要的介绍,指出虽然目前气候系统模式在很多方面存在着较大的不确定性,但大体说来可提供当前气候状况的可信模拟结果;进而介绍了IPCC不同的排放情景,以及不同排放情景下全球与东亚区域气候变化预估的主要结果。研究表明,尽管不同模式对不同情景下未来气候变化预估的结果存有差异,但对未来50～100年全球气候变化的模拟大体一致,即全球将持续增温、降水出现区域性增加。在此基础上,概述了全球气候模式模拟结果的区域化技术,并重点介绍了降尺度方法的分类与应用。同时对气候变化预估的不确定性进行了讨论。最后,对气候变化预估的研究前景进行了展望,并讨论了未来我国气候变化预估研究的重点发展方向。  相似文献   

气象资料的统计降尺度方法综述   总被引：8，自引：0，他引：8  

刘永和  郭维栋  冯锦明  张可欣 《地球科学进展》2011,26(8):837-847

统计降尺度是解决由气象模式输出的低分辨率资料到流域尺度资料转换的手段之一,已成为一个重要的研究领域。统计降尺度方法十分丰富,分为传递函数法、天气形势法和天气发生器3类,3类之间并无严格的界限。统计降尺度涉及到时间与空间降尺度、随机型与确定型降尺度、时间自相关与空间相关性以及面向格点与面向站点的降尺度这4个方面的属性与分...  相似文献   

汉江流域未来降水径流预测分析研究   总被引：7，自引：0，他引：7  

郭靖  郭生练  张俊  陈华  陈桂亚 《水文》2009,29(5)

本文应用统计降尺度法将全球气候模式和VIC分布式水文模型进行耦合,研究未来A2气候情景下汉江流域降水径流变化情况.首先应用基于光滑支持向量机的统计降尺度法在全球气候模式CGCM2和HadCM3的A2气候情景下,分别预测未来汉江流域日降水、气温过程,然后将预测降水过程作为VIC模型的输入,模拟预测未来汉江流域径流过程.研究结果表明,在CGCM2气候模式下,2020s(2011～2040年)时期汉江流域径流小于基准年,2050s(2041～2070年)时期与基准年基本相当,2080s(2071～2100年)时期大于基准年;在HadCM3气候模式下,2020s时期汉江流域径流小于基准年,2050s和2080s时期均比基准年增加;降水、气温预测结果与径流基本一致.  相似文献   

内蒙古中西部干旱和半干旱地区暴雨的气候特征分析          下载免费PDF全文

贺勤  吴晓东 《水科学进展》1991,2(4):232-237

本文对内蒙古中、西部干旱、半干旱及沙漠地区51个气象台站近30年暴雨气候资料进行了统计。分析了暴雨的时空分布特征;给出了暴雨强度极值;讨论了环流、天气尺度系统及地形对区域性暴雨形成和分布的影响。  相似文献   

水文集合预报试验及其研究进展          下载免费PDF全文

陆桂华  吴娟  吴志勇 《水科学进展》2012,23(5):728-734

水文集合预报是一种既可以给出确定性预报值,又能提供预报值的不确定性信息的概率预报方法。简述了水文集合预报试验(Hydrologic Ensemble Prediction Experiment,HEPEX)国际计划的主要研究内容,回顾了HEPEX研究进展,分析了对水文预报发展有重要意义的3个HEPEX前沿研究:降尺度研究、集合预报系统研究以及不确定性研究。研究表明,动力-统计降尺度法和高分辨率"单一"模式及低分辨率集合相结合是HEPEX未来研究的方向。  相似文献   

遥感降水资料后处理研究综述   总被引：1，自引：0，他引：1       下载免费PDF全文

熊立华  刘成凯  陈石磊  查悉妮  马秋梅 《水科学进展》2021,32(4):627-637

获取高精度高分辨率的降水数据对于流域水文分析、水资源管理及洪涝干旱监测等均具有重要意义。遥感技术虽然能有效再现降水的时空分布,但原始遥感降水资料无法满足水文领域对高精度高分辨率数据的需求,需要开展遥感降水资料的后处理研究。介绍获取降水资料的主要方法,包括雨量站观测、地面天气雷达估测以及气象卫星反演,讨论各方法的主要优势和当前存在的问题,在此基础上综述遥感降水资料的后处理方法研究进展,包括空间降尺度、偏差校正以及产品融合,并归纳后处理降水产品的评价指标,最后指出今后的研究重点:发展和改进降水估计技术;构建更为合理的多源降水数据融合框架;加强降尺度法对比研究,进一步改进和完善降尺度法;开展降水相关的不确定性分析。  相似文献   

火山活动的气候影响及其冰芯记录研究进展     

李传金  任贾文  秦大河  效存德  侯书贵  丁明虎 《冰川冻土》2012,34(4):863-876

系统地总结了不同时间尺度内火山活动影响气候的机理,回顾了不同区域冰芯记录火山喷发物质沉积信号的研究历史,阐述了不同气候模式对火山活动影响气候的数值模拟结果,并指出了相关研究中存在的不确定性.结果表明:火山活动通过释放大量的火山物质气溶胶影响气候波动,在年际至年代际时间尺度上,这种影响是显著的;然而,在更长的时间尺度上这种影响是否仍然存在,尚需更多研究的证实.冰芯中火山喷发物质沉积记录为研究历史时期火山活动及其气候影响提供了必要的参考资料,相关的气候模式利用该沉积记录较好地模拟了火山活动对区域乃至全球尺度气候的影响,为我们认识火山活动影响气候变化的机理提供了重要的理论支持,同时也为研究未来火山活动对气候的可能影响提供了参照.但是,冰芯中火山喷发物质沉积记录研究及数值模式模拟结果中尚存在诸多的问题和不确定性.  相似文献   

轨道尺度亚洲气候演化机理的数值模拟:历史与展望     

石正国  雷婧  周朋  任鑫 《第四纪研究》2020,(1):8-17

轨道尺度亚洲气候演化是古气候热点问题之一,其变化过程和机理对理解当前全球变暖下亚洲气候变化具有重要参考意义。最近几十年,基于黄土、石笋、湖泊等载体的轨道尺度亚洲气候重建研究获得显著进展,气候演化历史的基本框架已被构建,不同区域和指标记录之间的差异暗示了气候演化机理的复杂性。数值模拟作为研究气候动力学的重要工具之一,在轨道尺度亚洲气候变化中也得到广泛应用和快速发展。基于此,本文尝试对最近十数年轨道尺度亚洲气候演化机理的数值模拟研究做一简单总结和梳理。目前的数值模拟尚未对地质记录给出的各种变化特征、区域差异等现象,尤其是东亚夏季风的黄土和石笋差异、季风和干旱气候的耦合关系等,给出合理解释。因此,在未来工作中亟须涵盖多轨道旋回的高分辨率瞬变试验,结合良好定年的重建记录,以期对轨道尺度亚洲气候变化机理获得更深入完整的认识。  相似文献   

基于气候模式统计降尺度技术的未来青海湖水位变化预估   总被引：4，自引：0，他引：4       下载免费PDF全文

刘吉峰  李世杰  丁裕国 《水科学进展》2008,19(2):184-191

借助于全球气候模式(德国MPI ECHAM5.0)输出信息和流域最近40年的气象观测资料,建立青海湖流域统计降尺度模式(QH-SDM),从而得到流域尺度未来30年(2010-2030年)气候变化情景,并由此驱动水文模型SWAT及湖泊水量平衡模型模拟了青海湖近几十年水位变化过程,预估了未来30年青海湖湖泊水文变化情景。结果表明,青海湖水位的未来变化将经历缓慢下降、逐渐回升、稳步升高3个阶段,到2030年,湖泊水位将达到3195.4 m左右,高出目前水位约2.2 m,面积接近4500 km2,蓄水量达到813亿m3,湖泊恢复到了20世纪70年代初的水平,预计这一结果将会缓解目前青海湖流域水资源紧缺的格局,并有利于植被恢复,减少土地沙化面积,对流域生态环境的改善和国民经济的发展将十分有益。  相似文献   

Impact of Climate Change on the Regional Hydrology – Scenario-Based Modelling Studies in the German Rhine Catchment     

Lucas Menzel  Annegret H. Thieken  Daniel Schwandt  Gerd Bürger 《Natural Hazards》2006,38(1-2):45-61

The aim of the study is an impact analysis of global climate change on regional hydrology with special emphasis on discharge conditions and floods. The investigations are focussed on the major part of the German Rhine catchment with a drainage area of approx. 110,000 km². This area is subdivided into 23 subcatchments. In a first step, the hydrological model HBV-D serves to simulate runoff conditions under present climate for the individual subbasins. Simulated, large scale atmospheric fields, provided by two different Global Circulation Models (GCMs) and driven by the emission scenario IS95a (“business as usual”) are then used as input to the method of expanded downscaling (EDS). EDS delivers local time series of scenario climate as input to HBV-D. In a final step, the investigations are focussed on the assessment of possible future runoff conditions under the impact of climate change. The study indicates a potential increase in precipitation, mean runoff and flood discharge for small return intervals. However, the uncertainty range that originates from the application of the whole model chain and two different GCMs is high. This leads to high cumulative uncertainties, which do not allow conclusions to be drawn on the development of future extreme floods.  相似文献   

Evaluation of drought and flood risks in a multipurpose dam under climate change: a case study of Chungju Dam in Korea     

Soojun Kim  Jaewon Kwak  Hui Seong Noh  Hung Soo Kim 《Natural Hazards》2014,73(3):1663-1678

The purpose of this study was to evaluate the effects of climate change on the drought and flood risks of a multipurpose dam. To achieve this, A2 climate change scenarios of RegCM3 were collected about Chungju Dam in Korea. To analyze drought risks, weather data obtained by the statistical downscaling method were entered to produce runoff series by runoff modeling and water balance was analyzed based on water use scenarios to review changes in the storage volume under climate change. To analyze flood risks, changes in water levels of the dam in future flood seasons were reviewed based on the current dam operation method. The results of the review indicated that both the drought and the flood risks of the dam would increase in the future. The reason was considered to be the movement of the flood season’s runoff characteristics from July and August to August and September because of climate change. Therefore, for climate change adaptation planning, not only quantitative changes in hydrologic values but also changes in temporal characteristics should be considered and given importance.  相似文献   

Potential Salinity and Temperature Futures for the Chesapeake Bay Using a Statistical Downscaling Spatial Disaggregation Framework     

Barbara A. Muhling  Carlos F. Gaitán  Charles A. Stock  Vincent S. Saba  Desiree Tommasi  Keith W. Dixon 《Estuaries and Coasts》2018,41(2):349-372

Estuaries are productive and ecologically important ecosystems, incorporating environmental drivers from watersheds, rivers, and the coastal ocean. Climate change has potential to modify the physical properties of estuaries, with impacts on resident organisms. However, projections from general circulation models (GCMs) are generally too coarse to resolve important estuarine processes. Here, we statistically downscaled near-surface air temperature and precipitation projections to the scale of the Chesapeake Bay watershed and estuary. These variables were linked to Susquehanna River streamflow using a water balance model and finally to spatially resolved Chesapeake Bay surface temperature and salinity using statistical model trees. The low computational cost of this approach allowed rapid assessment of projected changes from four GCMs spanning a range of potential futures under a high CO₂ emission scenario, for four different downscaling methods. Choice of GCM contributed strongly to the spread in projections, but choice of downscaling method was also influential in the warmest models. Models projected a ~2–5.5 °C increase in surface water temperatures in the Chesapeake Bay by the end of the century. Projections of salinity were more uncertain and spatially complex. Models showing increases in winter-spring streamflow generated freshening in the Upper Bay and tributaries, while models with decreased streamflow produced salinity increases. Changes to the Chesapeake Bay environment have implications for fish and invertebrate habitats, as well as migration, spawning phenology, recruitment, and occurrence of pathogens. Our results underline a potentially expanded role of statistical downscaling to complement dynamical approaches in assessing climate change impacts in dynamically challenging estuaries.  相似文献   

利用反向法评价气候变化下的水资源系统风险          下载免费PDF全文

李科  齐晶瑶  王昭阳  冯岩  BROWN Casey 《水科学进展》2013,24(2):184-189

目前多数研究直接将大气环流模式(GCM)获得的气候要素输入水文模型或者系统动力学模型评价气候变化所引起的风险,而忽视了一些重要统计要素的实际影响。针对目前研究存在的问题,利用随机模型产生大量模拟数据并输入到关于水资源系统的系统动力模型,通过评价指数和模拟数据间的统计关系建立"气候响应模型",最终利用多种大气环流模式来进行风险评价。通过A2气候变化情景下36种GCM对美国麻州Quabbin水库未来两个时段2036—2065年和2066—2095年由气候变化引起的风险进行评价。结果表明,在1950—1999年流域净流量年际方差100%～140%范围内,2036—2065年的风险为0.25～0.30,2066—2095年的风险为0.30～0.45。  相似文献   

Application of Bias Correction and Spatial Disaggregation in Removing Model Biases and Downscaling over China   总被引：1，自引：0，他引：1  

Wang Lin  Chen Wen 《地球科学进展》2013,28(10):1144-1153

Global Climate Models (GCM) are the primary tools for studying past climate change and evaluating the projected future response of climate system to changing atmospheric composition. However, the state of art GCMs contain large biases in regional or local scales and are often characterized by low resolution which is too coarse to provide the regional scale information required for regional climate change impact assessment. A popular technique, Bias Correction and Spatial Disaggregation (BCSD), are widespreadly employed to improve the quality of the raw model output and downscaling throughout the world. Unfortunately, this method has not been applied in China. Consequently, the detailed principle and procedure of BCSD are introduced systematically in this study. Furthermore, the applicability of BCSD over China is also examined based on an ensemble of climate models from phase five of the Coupled Model Intercomparison Project (CMIP5), though the excellent performance of it has been validated for other parts of the world in many works. The result shows that BCSD is an effective, model independent approach to removing biases of model and downscaling. Finally, application scope of BCSD is discussed, and a suite of fine resolution multimodel climate projections over China is developed based on 34 climate models and two emissions scenarios (RCP4.5 and RCP8.5) from CMIP5.  相似文献   

气候变化对地表水资源的影响   总被引：7，自引：0，他引：7  

郝振纯  李丽  王加虎  王振华  史学丽 《地球科学》2007,32(3):425-432

总结了气候变化对水文水资源影响方面的研究方法, 分析了气候变化条件下水文水资源变化的研究现状和存在问题.并以山西省和黄河源区为研究对象, 以分布式水文模型为工具、GCMs输出的气候情景为输入条件, 针对不同的下垫面特征建立不同的分布式水文模型, 分别采用气候情景趋势分析结果和直接利用GCMs输出结果两类方法确定气候变化的数据源, 对研究区域未来的地表径流过程和地表水资源可能的变化趋势进行了研究.从气候情景的预测结果来看, 未来50年山西省的气温和降水都呈增加趋势, 但由于各自对水资源带来的影响不同, 将使山西省水资源呈现先增加后减少的趋势; 且由于冬季气温和降水的增幅比夏季大, 使得未来山西省的水资源年内分布有略微平缓的趋势.对黄河源区而言, 虽然未来100年内的降水和气温都呈增加趋势, 但由于降水增长引起的地表水资源的增加不足以抵消气温升高带来的影响, 因此将导致径流量不断降低的总体趋势, 并使径流年内分布略趋平缓, 而年际分布将越来越不均匀, 旱涝威胁日趋严峻.   相似文献   

Impacts of climate change on stream flow and water quality in a drinking water source area,Northern China     

Xiaoyan Wang  Zeqi Li  Mingtao Li 《Environmental Earth Sciences》2018,77(11):410

Understanding the impacts of climate change on water quality and stream flow is important for management of water resources and environment. Miyun Reservoir is the only surface drinking water source in Beijing, which is currently experiencing a serious water shortage. Therefore, it is vital to identify the impacts of climate change on water quality and quantity of the Miyun Reservoir watershed. Based on long-time-series data of meteorological observation, future climate change scenarios for this study area were predicted using global climate models (GCMs), the statistical downscaling model (SDSM), and the National Climate Centre/Gothenburg University—Weather Generator (NWG). Future trends of nonpoint source pollution load were estimated and the response of nonpoint pollution to climate change was determined using the Soil and Water Assessment Tool (SWAT) model. Results showed that the simulation results of SWAT model were reasonable in this study area. The comparative analysis of precipitation and air temperature simulated using the SDSM and NWG separately showed that both tools have similar results, but the former had a larger variability of simulation results than the latter. With respect to simulation variance, the NWG has certain advantages in the numerical simulation of precipitation, but the SDSM is superior in simulating precipitation and air temperature changes. The changes in future precipitation and air temperature under different climate scenarios occur basically in the same way, that is, an overall increase is estimated. Particularly, future precipitation will increase significantly as predicted. Due to the influence of climate change, discharge, total nitrogen (TN) and total phosphorus (TP) loads from the study area will increase over the next 30 years by model evaluation. Compared to average value of 1961?~?1990, discharge will experience the highest increase (15%), whereas TN and TP loads will experience a smaller increase with a greater range of annual fluctuations of 2021 ~ 2050.  相似文献