梅雨期及其前后东亚地区的径向环流结构

本文分析了1983年江淮流域入梅前、梅雨期以及出梅后东亚地区各期平均的径向环流结构及其演变特征。在不同时期，印度热带季风环流和东亚热带及副热带季风环流具有显著差异。研究指出，江淮流域梅雨是亚洲夏季三个季风系统相互作用的结果，是东亚副热带季风系统中径向经向环流上升支中的产物，同时又与其它两个季风系统密切相关，梅雨结束则与印度热带季风环流减弱南撤、西太平洋高压加强西伸、东亚副热带季风环流北上有关。     

末次冰期东亚冰川规模与冰川进退异时性问题

1 IntroductionIthas been accepted thatthe glacialextentin the early stage w as largerthan thatin the late stagein Eastern A sia during the Last G laciation and w as different from Europe and N orth A m erica(Li, 1992; Cui et al., 2000). M any scholars hav…     

东亚地震各向异性——2006年西太平洋地球物理会议专题介绍

2006年7月24—27日在北京召开了2006年西太平洋地球物理会议,本文简介了这次会议的概况,介绍了东亚地震各向异性专题中的最新研究进展。     

运用比较法教学“东亚概述”

在本节教学中．充分利用课本中的插图,紧紧围绕东亚地区的东、西部不同情况,采用比较法,配合讲述、分析等教学方法,可以收到良好的教学效果。     

东亚地区地磁场的理论分析与矩谐模型

根据东亚地磁场三分量绝对测量资料,使用矩谐分析方法研究了东亚地区（北纬２０-７０,东径４０-１６０）的地磁异常场,计算出地磁异常的矩谐模型．据此模型编绘了Ｘ．ＹＺ三分量磁异常图．结果表明,在东亚的中心地区地磁异常的分布比较均匀,表现出区域特征．而在边界地区,特别是西南角和东南角一带,由于缺乏实测数据,边界效应很大．     

东亚地区一次切断低压引起的平流层、对流层交换数值模拟研究

用中尺度模式(MM5)模拟研究东亚地区(网格中心45°N,120°E)一次强切断低压过程(2000年4月8日～12日)引起的平流层、对流层交换.用Wei公式计算此次过程由平流层到对流层的净交换量为5.0×1014 kg,平均交换通量为-0.72×10-3 kg m-2 s-1.地面锋与高空锋的相互作用,在急流入口处和高空锋区出现对流层顶折叠,并引起平流层、对流层物质交换,其中空气的水平运动起主要作用.利用历史天气图统计东亚地区(20～70°N,80～180°E)切断低压的年平均个数为60,占北半球极区类型切断低压的52%.由此,推断东亚地区的平流层、对流层交换对整个北半球的平流层、对流层交换贡献很大.     

Simulation of Tropospheric Ozone with MOZART-2： An Evaluation Study over East Asia

Climate changes induced by human activities have attracted a great amount of attention. With this, a coupling system of an atmospheric chemistry model and a climate model is greatly needed in China for better understanding the interaction between atmospheric chemical components and the climate. As the first step to realize this coupling goal, the three-dimensional global atmospheric chemistry transport model MOZART-2 (the global Model of Ozone and Related Chemical Tracers, version 2) coupled with CAM2 (the Community Atmosphere Model, version 2) is set up and the model results are compared against observations obtained in East Asia in order to evaluate the model performance. Comparison of simulated ozone mixing ratios with ground level observations at Minamitorishima and Ryori and with ozonesonde data at Naha and Tateno in Japan shows that the observed ozone concentrations can be reproduced reasonably well at Minamitorishima but they tend to be slightly overestimated in winter and autumn while underestimated a little in summer at Ryori. The model also captures the general features of surface CO seasonal variations quite well, while it underestimates CO levels at both Minamitorishima and Ryori. The underestimation is primarily associated with the emission inventory adopted in this study. Compared with the ozonesonde data, the simulated vertical gradient and magnitude of ozone can be reasonably well simulated with a little overestimation in winter, especially in the upper troposphere. The model also generally captures the seasonal, latitudinal and altitudinal variations in ozone concentration. Analysis indicates that the underestimation of tropopause height in February contributes to the overestimation of winter ozone in the upper and middle troposphere at Tateno.     

近五年来东亚春季黑炭气溶胶分布输送和辐射效应的模拟研究

通过对2000～2004年2～4月东亚地区人为和生物质燃烧排放黑炭气溶胶的模拟,分析5年平均的结果,发现:春季,东亚地区印度、中南半岛、中国东部存在三个显著的黑炭气溶胶大值区,最大柱含量均在1 mg·m-2以上,印度半岛的排放能影响中国南方25°N～30°N之间区域,而中南半岛的排放能影响中国25°N以南的大陆地区.850～700 hPa是中南半岛排放输送进入中国的主要层次.中国华北和东北的排放向东输送影响朝鲜半岛、日本等地,但中国春季的输出量小于境外对中国的输入量;境外注入对中国西部和江南地区影响显著,对中国北方地区影响较小.黑炭气溶胶引起晴空和云天大气顶净向下辐射通量增大,地表净向下辐射通量减小,辐射通量变化最显著地区在中国四川、湖北一带,大气顶辐射通量增大最大为4 W·m-2,地表通量减小最大约-5.5 W·m-2.     

青藏高原气候系统变化及其对东亚区域的影响与机制研究进展

青藏高原地区特殊的大气圈、水圈、冰冻圈、生物圈等多圈层相互作用过程及其变化,不仅对青藏高原及其周边地区的气候格局和变化有重要影响,而且对东亚、北半球乃至全球的环流形势和异常产生深远影响。为此,全球变化研究重大科学研究计划于2010年9月启动了"青藏高原气候系统变化及其对东亚区域的影响与机制研究"项目,旨在开展青藏高原环境、地表过程、生态系统对全球变化的响应及其对周边地区人类生存环境影响的综合交叉研究,以揭示青藏高原气候系统变化及其对东亚区域的影响机制,提出前瞻性的应对气候变化与异常的策略,减少其导致的区域自然灾害的损失。项目实施近3年来,开展了青藏高原首次"星—机—地"综合立体协同观测试验和大规模地气相互作用综合观测试验。在遥感结合地面观测估算青藏高原地表特征参数和能量通量方法,高原地区上对流层和下平流层结构,高原季风与东亚季风和南亚季风之间的内在联系,中国及青藏高原地区太阳辐射和风速的年代际变化趋势,青藏高原春季感热源减弱及其对亚洲夏季风和中国东部降水的影响,以及极高海拔地区土地覆被格局等方面取得了一些突出进展。     

An Overview of the Studies on Black Carbon and Mineral Dust Deposition in Snow and Ice Cores in East Asia

Black carbon （BC） is the most eff ective insoluble light-absorbing particulate （ILAP）, which can strongly absorb solar radiation at visible wavelengths. Once BC is deposited in snow via dry or wet process, even a small amount of BC could signifi cantly decrease snow albedo, enhance absorption of solar radiation, accelerate snow melting, and cause climate feedback. BC is considered the second most important component next to CO2 in terms of global warming. Similarly, mineral dust （MD） is another type of ILAP. So far, little attention has been paid to quantitative measurements of BC and MD deposition on snow surface in the midlatitudes of East Asia, especially over northern China. In this paper, we focus on reviewing several experiments performed for collecting and measuring scavenging BC and MD in the high Asian glaciers over the mountain range （such as the Himalayas） and in seasonal snow over northern China. Results from the surveyed literature indicate that the absorption of ILAP in seasonal snow is dominated by MD in the Qilian Mountains and by local soil dust in the Inner Mongolian region close to dust sources. The detection of BC in snow and ice cores using modern techniques has a large bias and uncertainty when the snow sample is mixed with MD. Evidence also indicates that the reduction of snow albedo by BC and MD perturbations can signifi cantly increase the net surface solar radiation, cause surface air temperature to rise, reduce snow accumulation, and accelerate snow melting.