风向变化特征在季风模拟评估中的应用

作者抓住季风风向具有季节性反转这一最本质的特征,引入了“有向转角”的新概念,它与传统盛行风夹角的概念不同,能够反映风向逐日变化的方向性和旋转角度的大小。用欧拉观点揭示了季风风矢量随时间演变的旋转特点, 体现了季风风向独具特色的季节演变过程。同时,发现不同地区风向的季节循环有6种基本类型:（I）先顺时针后逆时针旋转、（II）先逆时针后顺时针旋转、（III）完全顺时针旋转、（IV）完全逆时针旋转、（V）风向稳定型和（VI）风向变化不稳定型。且季风风向的季节性反转主要通过前四种旋转方式来实现。分析了这6种风向变化型的全球分布特征,研究了它们与大气环流系统演变的联系。并进一步将“有向转角” 概念用于IPCC第四次评估报告AMIP试验8个模式的模拟评估,结果表明,这一概念的引入能从逐日变化的角度凸显风向变化过程,不仅能够客观反映模式模拟季风风向逐日变化的动力过程以及风矢量旋转方式的全球分布,还能体现模式对大气环流系统季节演变的表征能力。研究还发现在这8个模式中,大多数模式基本能把风矢量旋转方式的全球分布形式模拟出来,但对于季风区风矢量旋转方式的模拟还有待于进一步提高。     

中世纪温暖期气候变化的花粉化石记录

麦里泥炭剖面高分辨率花粉化石记录表明,东北科尔沁沙地在相当于中世纪温暖期阶段夏季降水量曾显著增加,主要表现为沙丘上的乔木和草本植物均获得了繁茂的生长,花粉沉积速率明显上升。作者推测,在中世纪温暖期中,欧亚大陆作为一个整体夏季温度可能暖于今天,这可能通过增强夏季风环流使中国东北夏季雨量增多,为沙丘植物茂盛生长提供了有利条件。     

An Assessment on the Performance of IPCC AR4 Climate Models in Simulating Interdecadal Variations of the East Asian Summer Monsoon

Observations from several data centers together with a categorization method are used to evaluate the IPCC AR4 （Intergovernmental Panel on Climate Change, the Fourth Assessment Report） climate models＇ performance in simulating the interdecadal variations of summer precipitation and monsoon circulation in East Asia. Out of 19 models under examination, 9 models can relatively well reproduce the 1979-1999 mean June-July-August （JJA） precipitation in East Asia, but only 3 models （Category-1 models） can capture the interdecadal variation of precipitation in East Asia. These 3 models are： GFDL-CM2.0, MIROC3.2 （hires）, and MIROC3.2 （medres）, among which the GFDL-CM2.0 gives the best performance. The reason for the poor performance of most models in simulating the East Asian summer monsoon interdecadal variation lies in that the key dynamic and thermal-dynamic mechanisms behind the East Asian monsoon change are missed by the models, e.g., the large-scale tropospheric cooling and drying over East Asia. In contrast, the Category-1 models relatively well reproduce the variations in vertical velocity and water vapor over East Asia and thus show a better agreement with observations in simulating the pattern of ＂wet south and dry north＂ in China in the past 20 years.
It is assessed that a single model＇s performance in simulating a particular variable has great impacts on the ensemble results. More realistic outputs can be obtained when the multi-model ensemble is carried out using a suite of well-performing models for a specific variable, rather than using all available models. This indicates that although a multi-model ensemble is in general better than a single model, the best ensemble mean cannot be achieved without looking into each member model＇s performance.     

CMIP5/AMIP GCM simulations of East Asian summer monsoon

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）.     

南亚高压上下高原时间及其与高原季风建立早晚的关系

本文利用1948—2013年NCEP/NCAR逐日再分析资料,定义了南亚高压动态特征指数,讨论了南亚高压上下高原的时间以及与高原季风建立早晚的关系。研究表明,南亚高压北界位置在4月初开始北移,5月迅速北抬,最北可达到55°N,9月开始南撤,西伸脊点在5—10月移动较稳定,5—7月向西移动到青藏高原上空,8—10月向东移动撤离高原,11月—次年4月东西摆动剧烈。南亚高压初上高原大致为6月第3候(33候),而撤离约为10月第4候(58候)。南亚高压移上高原的时间较高原夏季风建立晚73 d左右。南亚高压撤离高原时间较高原冬季风建立约早5 d。高原夏季风的建立和南亚高压初上高原是青藏高原热力作用在不同阶段的结果,反映在了高原的高低层上。     

南海-热带东印度洋海温年际变化与南海季风爆发关系的初步分析

对５月东亚至热带东印度洋表面温度距平主要特征向量场的分析表明，以苏门答腊为中心的热带海洋温度异常与南海季风爆发有密切关系。当该海域海温较常年偏暖（冷）时，南海季风爆发往往迟（早），它可能是通过影响中南半岛与其南方热带海洋之间经向热力差异的变化来实现的。分析了从冬到夏南海－热带东印度洋海温距平主要特征向量场的时空演变，末夏初以苏门答腊为中心的热带海温距平场特征可以追溯到冬季南海海温场的变化，后者与南     

我国南方初夏汛期和东亚夏季风环流

主要根据低层夏季风热力学性质与流场演变特点深入讨论我国南方初夏汛期包括华南前汛期和长江中下游梅雨期同夏季风活动的联系，分析了东亚夏季风环流建立过程的阶段性和类型，指出汛期的开始与结束同夏季风前沿位置变动一致。我国夏季风从开始到发展鼎盛时期低纬大气环流的演变过程各年不完全相同，主要可归纳为４类，每类包括４个或３个不同阶段，从而可认识到东亚夏季风体系结构的非单一性，它可有４种结构模型，即仅是东南季风Ｐ的单气流型、强东南季风Ｐ与弱西南季风Ａ的双气流型、强东南季风Ｐ和弱西南季风Ｍ的双气流型、强东南季风Ｐ和强（或弱）西南季风Ｍ以及弱西南季风Ａ的３气流型。     

An Abrupt Change in Tropospheric Temperature Gradient and Moisture Transport Over East Asia in the Late 1990s

ABSTRACT

Previous studies have shown that the recent summer climate (precipitation in particular) over East Asia is varying significantly. Here we extend the study to April, May, and June (AMJ) or the seasonal transition period associated with the onset of the summer monsoon. It is found that the average 1000–400?hPa AMJ tropospheric temperature (TT) experienced a sudden change at the end of the twentieth century. The change has a dipolar modal structure, with one pole over countries in Central Asia (Pakistan, Afghanistan, Uzbekistan, Kazakhstan, Kyrgyzstan, and Tajikistan.) and the other over the Tibetan Plateau. The difference in the TT between the centres of the two poles (?TT), which characterizes the zonal gradient of the TT over Asia, has seen a significant reduction since 1999. The causal relations of ?TT with the local circulation, outgoing longwave radiation (OLR), surface shortwave flux (SSWF), precipitation, etc. have been investigated using a newly developed rigorous causality analysis, which unambiguously reveals a one-way causality from ?TT to each of OLR, SSWF, and precipitation.     

An East Asian Subtropical Summer Monsoon Index Defined by Moist Potential Vorticity

Based on consideration of both thermodynamic and kinetic features of the subtropical summer monsoon in East Asia,a new index is defined by the moist potential vorticity (MPV) for this monsoon.Variation features of the subtropical summer monsoon over 60 years are analyzed using National Centers for Environmental Prediction/National Center for Atmospheric Research (USA) data from 1948 to 2007.Results show that the new index can well reflect the seasonal,interannual,and interdecadal variations of the East Asian subtropical summer monsoon.Correlation analysis of the new index and precipitation data from 160 stations in China shows that in high-index years,the summer monsoon is strong,and more rain falls in eastern North China,southwestern China,and along the coast of South China and less rain falls in the Yangtze-Huaihe R.basin.In low-index years,the opposite occurs.Lastly,the new index is compared with four established monsoon indices.The new index is found to have an advantage in representing summer rainfall in the Yangtze-Huaihe R.basin.     

热带印度洋环流动力与季风相互作用研究进展

围绕中国科学院战略性先导科技专项"泛第三极环境变化与绿色丝绸之路建设"之子课题"热带印度洋环流动力与季风相互作用及其影响",从热带印度洋上层海洋环流、盐度变异对印度洋典型海气耦合过程的影响、印度洋海气相互作用及其对泛第三极水汽输送的影响方面回顾了热带印度洋环流动力与季风相互作用的研究进展.针对国内外研究发展的现状,提出热带印度洋上层经向、纬向、垂向流系间三维联动机制,海盆尺度热盐再分配对局地海-气模态变异的响应和反馈机制,热带印度洋典型海气耦合模态对泛第三极地区气候变化的影响机理等关键科学问题亟待解决.开展该子课题研究的最终目标是：全面认识和理解热带印度洋上层环流体系,加深印度洋海洋环流动力与海气相互作用及其对泛第三极经向水汽输送作用的理解,提高泛第三极地区气候预测水平,提升丝绸之路海上观测航道监测保障能力,从而为"一带一路"倡议和"21世纪海上丝绸之路"建设服务.