第四届气候系统与气候变化国际讲习班在中国气象局成功举办          下载免费PDF全文

张雁 《气候变化研究进展》2007,3(6):361-361

2007年7月16-27日,由中国气象局主办,国家外国专家局、国家自然科学基金委,全球变化分析、研究和培训系统（START）协办,中国气象局国家气候中心和培训中心联合承办的“第四届气候系统与气候变化国际讲习班（ISCS）”在中国气象局成功举办。  相似文献   

第三届“气候系统与气候变化国际讲习班”在京举办          下载免费PDF全文

《气候变化研究进展》2006,2(4):172-172

2006年7月17日,由中国气象局主办,国家自然科学基金委员会、国家外国专家局和START(Global Change System for Analysis,Research and Training)协办的第三届“气候系统与气候变化国际讲习班”(International Seminar on Climate System and Climate Change,ISCS)在北京开班。  相似文献   

气候系统可预报性的全局研究   总被引：15，自引：4，他引：11       下载免费PDF全文

范新岗  张红亮  丑纪范 《气象学报》1999,57(2):190-197

胞映射方法是对非线性系统进行全局分析的强有力工具。文中基于一个最大简化的地－气耦合模式,引入胞映射全局分析方法,对气候系统的可预报性进行了全局的研究。气候系统存在最大可预报期限,对于超过逐日预报可预报期限后的预报,用胞映射思想证明了平均值的可预报性,并得到了定量的结果。研究表明,耦合机制具有延长可预报期限的作用,观测精度的提高亦可延长可预报期限  相似文献   

从地球系统的观点看气候突变   总被引：4，自引：2，他引：2  

高晓清朱德琴  姚济敏 《干旱气象》2004,22(4):70-75

在地球的气候史中,经历了许多次气候突变事件。这些突变对地球表层系统的演变与进化产生了巨大影响。随着全球气候变暖的持续发展,人类赖以生存的气候环境正在经历重大变化。如何科学地理解和认识这些变化,尤其是气候突变。是人类寻求对策,应对气候变化,保护自己持续发展的科学基础。文中从地球系统的角度对气候突变的科学问题进行了探讨,认为对气候突变的研究不应仅局限于大气圈,而应该对地球系统的整体变化进行研究。  相似文献   

关于气候系统与地球系统的若干思考   总被引：11，自引：2，他引：9       下载免费PDF全文

高晓清  汤懋苍  朱德琴 《地球物理学报》2004,47(2):364-368

分析了地球系统的基本特征和地球系统的能源和运转方式,指出地热涡和地冷涡是地面气候系统的重要成员. 利用全球地磁场资料,研究了地球内部焦耳热的分布和演变规律,结果表明:全球地磁场的变化与全球气温的变化有密切联系,而且焦耳热场的分布与地热带、火山分布、全球最大降水量带有很好的对应. 因此,要对气候变化有一个全面的认识,必须研究整个地球系统.  相似文献   

Regional-scale surface air temperature and East Asian summer monsoon changes during the last millennium simulated by the FGOALS-gl climate system model   总被引：6，自引：0，他引：6  

MAN Wenmin  and  ZHOU Tianjun 《大气科学进展》2014,31(4):765-778

The spatial patterns and regional-scale surface air temperature （SAT） changes during the last millennium,as well as the variability of the East Asian summer monsoon （EASM） were simulated with a low-resolution version of Flexible Global Ocean-Atmosphere-Land-Sea-ice （FGOALS-gl） model.The model was driven by both natural and anthropogenic forcing agents.Major features of the simulated past millennial Northern Hemisphere （NH） mean SAT variations,including the Medieval Climate Anomaly （MCA）,the Little Ice Age （LIA） and the 20th Century Warming （20CW）,were generally consistent with the reconstructions.The simulated MCA showed a global cooling pattern with reference to the 1961-90 mean conditions,indicating the 20CW to be unprecedented over the last millennium in the simulation.The LIA was characterized by pronounced coldness over the continental extratropical NH in both the reconstruction and the simulation.The simulated global mean SAT difference between the MCA and LIA was 0.14°C,with enhanced warming over high-latitude NH continental regions.Consistencies between the simulation and the reconstruction on regional scales were lower than those on hemispheric scales.The major features agreed well between the simulated and reconstructed SAT variations over the Chinese domain,despite some inconsistency in details among different reconstructions.The EASM circulation during the MCA was stronger than that during the LIA The corresponding rainfall anomalies exhibited excessive rainfall in the north but deficient rainfall in the south.Both the zonal and meridional thermal contrast were enhanced during the MCA.This temperature anomaly pattern favored a stronger monsoon circulation.  相似文献   

CMIP5/AMIP GCM simulations of East Asian summer monsoon   总被引：1，自引：0，他引：1  

FENG Jinming  WEI Ting  DONG Wenjie  WU Qizhong  WANG Yongli 《大气科学进展》2014,31(4):836-850

The East Asian summer monsoon （EASM） is a distinctive component of the Asian climate system and critically influences the economy and society of the region.To understand the ability of AGCMs in capturing the major features of EASM,10 models that participated in Coupled Model Intercomparison Project/Atmospheric Model Intercomparison Project （CMIP5/AMIP）,which used observational SST and sea ice to drive AGCMs during the period 1979-2008,were evaluated by comparing with observations and AMIP Ⅱ simulations.The results indicated that the multi-model ensemble （MME） of CMIP5/AMIP captures the main characteristics of precipitation and monsoon circulation,and shows the best skill in EASM simulation,better than the AMIP Ⅱ MME.As for the Meiyu/Changma/Baiyu rainbelt,the intensity of rainfall is underestimated in all the models.The biases are caused by a weak western Pacific subtropical high （WPSH） and accompanying eastward southwesterly winds in group Ⅰ models,and by a too strong and west-extended WPSH as well as westerly winds in group Ⅱ models.Considerable systematic errors exist in the simulated seasonal migration of rainfall,and the notable northward jumps and rainfall persistence remain a challenge for all the models.However,the CMIP5/AMIP MME is skillful in simulating the western North Pacific monsoon index （WNPMI）.  相似文献   

北京气候中心气候系统模式研发进展——在气候变化研究中的应用   总被引：4，自引：2，他引：2  

吴统文  宋连春  李伟平  王在志  张华  辛晓歌  张艳武  张莉  李江龙  吴方华  刘一鸣  张芳  史学丽  储敏  张洁  房永杰  汪方  路屹雄  刘向文  魏敏  刘茜霞  周文艳  董敏  赵其庚  季劲钧  Laurent Li  周明煜 《气象学报》2014,72(1):12-29

较全面地介绍了北京气候中心气候系统模式(BCC_CSM)研发所取得的一些进展及其在气候变化研究中的应用,重点介绍了全球近280 km较低分辨率的全球海-陆-气-冰-生物多圈层耦合的气候系统模式BCC_CSM1.1和110 km中等大气分辨率的BCC_CSM1.1(m),以及大气、陆面、海洋、海冰各分量模式的发展。BCC_CSM1.1和BCC_CSM1.1(m)气候系统模式均包含了全球碳循环和动态植被过程。当给定全球人类活动导致的碳源排放后,就可以模拟和预估人类活动对气候变化的影响。BCC_CSM1.1和BCC_CSM1.1(m)已应用于IPCC AR5模式比较,为中外开展气候变化机理分析和未来气候变化预估提供了大量的试验数据。还介绍了BCC_CSM1.1和BCC_CSM1.1(m)参与国际耦合模式比较计划(CMIP5)的大量试验分析评估结果,BCC_CSM能够较好地模拟20世纪气温和降水等气候平均态和季节变化特征,以及近1000年的历史气候变化,所预估的未来100年气候变化与国际上其他模式的CMIP5试验预估结果相当。初步的分析表明,分辨率相对高的BCC_CSM1.1(m)在区域气候平均态的模拟上优于分辨率较低的BCC_CSM1.1。  相似文献   

Relationships between Interannual and Intraseasonal Variations of the Asian-Western Pacific Summer Monsoon Hindcasted by BCC_CSM1.1（m）   总被引：4，自引：0，他引：4  

LIU Xiangwen  ;WU Tongwen  ;YANG Song  ;LI Qiaoping  ;CHENG Yanjie  ;LIANG Xiaoyun  ;FANG Yongjie  ;JIE Weihua  ;NIE Suping 《大气科学进展》2014,31(5):1051-1064

Using hindcasts of the Beijing Climate Center Climate System Model, the relationships between interannual variability （IAV） and intraseasonal variability （ISV） of the Asian-western Pacific summer monsoon are diagnosed. Predictions show reasonable skill with respect to some basic characteristics of the ISV and IAV of the western North Pacific summer monsoon （WNPSM） and the Indian summer monsoon （ISM）. However, the links between the seasonally averaged ISV （SAISV） and seasonal mean of ISM are overestimated by the model. This deficiency may be partially attributable to the overestimated frequency of long breaks and underestimated frequency of long active spells of ISV in normal ISM years, although the model is capable of capturing the impact of ISV on the seasonal mean by its shift in the probability of phases. Furthermore, the interannual relationships of seasonal mean, SAISV, and seasonally averaged long-wave variability （SALWV; i.e., the part with periods longer than the intraseasonal scale） of the WNPSM and ISM with SST and low-level circulation are examined. The observed seasonal mean, SAISV, and SALWV show similar correlation patterns with SST and atmospheric circulation, but with different details. However, the model presents these correlation distributions with unrealistically small differences among different scales, and it somewhat overestimates the teleconnection between monsoon and tropical central-eastern Pacific SST for the ISM, but underestimates it for the WNPSM, the latter of which is partially related to the too-rapid decrease in the impact of E1 Nifio-Southern Oscillation with forecast time in the model.  相似文献   

An Overview of BCC Climate System Model Development and Application for Climate Change Studies          下载免费PDF全文

WU Tongwen  SONG Lianchun  LI Weiping  WANG Zaizhi  ZHANG Hu  XIN Xiaoge  ZHANG Yanwu  ZHANG Li  LI Jianglong  WU Fanghu  LIU Yiming  ZHANG Fang  SHI Xueli  CHU Min  ZHANG Jie  FANG Yongjie  WANG Fang  LU Yixiong  LIU Xiangwen  WEI Min  LIU Qianxi  ZHOU Wenyan  DONG Min  ZHAO Qigeng  JI Jinjun  Laurent LI  ZHOU Mingyu 《Acta Meteorologica Sinica》2014,28(1):34-56

This paper reviews recent progress in the development of the Beijing Climate Center Climate System Model(BCC-CSM) and its four component models(atmosphere,land surface,ocean,and sea ice).Two recent versions are described:BCC-CSM1.1 with coarse resolution(approximately 2.8125°×2.8125°) and BCC-CSM1.1(m) with moderate resolution(approximately 1.125°×1.125°).Both versions are fully coupled climate-carbon cycle models that simulate the global terrestrial and oceanic carbon cycles and include dynamic vegetation.Both models well simulate the concentration and temporal evolution of atmospheric CO_2 during the 20th century with anthropogenic CO2 emissions prescribed.Simulations using these two versions of the BCC-CSM model have been contributed to the Coupled Model Intercomparison Project phase five(CMIP5) in support of the Intergovernmental Panel on Climate Change(IPCC) Fifth Assessment Report(AR5).These simulations are available for use by both national and international communities for investigating global climate change and for future climate projections.Simulations of the 20th century climate using BCC-CSMl.l and BCC-CSMl.l(m) are presented and validated,with particular focus on the spatial pattern and seasonal evolution of precipitation and surface air temperature on global and continental scales.Simulations of climate during the last millennium and projections of climate change during the next century are also presented and discussed.Both BCC-CSMl.l and BCC-CSMl.l(m) perform well when compared with other CMIP5 models.Preliminary analyses indicate that the higher resolution in BCC-CSM1.1(m) improves the simulation of mean climate relative to BCC-CSMl.l,particularly on regional scales.  相似文献