共查询到20条相似文献,搜索用时 140 毫秒
1.
《中国气象科学研究院年报》1995,(1)
CHINAGLOBALATMOSPHEREWATCHBASELINEOBSERVATORYANDITSMEASUREMENTPROGRAMTangJie(汤洁),WenYupu(温玉璞),XuXiaobin(徐晓斌),ZhengXiangdong(郑... 相似文献
2.
《中国气象科学研究院年报》1995,(1)
DRAFTPROPOSALFORTHESOUTHCHINASEAMONSOONEXPERIMENT(SCSMEX)ChenLongxun(陈隆勋)DRAFTPROPOSALFORTHESOUTHCHINASEAMONSOONEXPERIMENT(SC... 相似文献
3.
TEMPERATURE-MEASURINGRADIO-ACOUSTICSOUNDINGSYSTEM(RASS)¥LiJianguo(李建国),WangPing(王坪)andMengZhaolin(孟昭林)TEMPERATURE-MEASURINGRA... 相似文献
4.
SHORT-TERMCLIMATECHANGEANDITSCAUSEANDCLIMATEPREDICTIONINCHINA¥WeiFengying(魏凤英)(InstituteofSynopticandDynamicMeteorology.)Beij... 相似文献
5.
《中国气象科学研究院年报》1995,(1)
THE2-DNUMERICALSTUDYONTHEPRINCIPLESOFRAIN-ENHANCEMENTANDHAIL-SUPPRESSIONINCONVECTIVECLOUDSMaoYuhua(毛玉华)andHuZhijin(胡志晋)THE2-D... 相似文献
6.
《中国气象科学研究院年报》1996,(1)
PROGRESSONTIBETANPLATEAUFIELDEXPERIMENT(TIPEX)ANDITSRESEARCHPROGRAMME¥ChenLianshou(陈联寿)andXuXiangde(徐祥德)PROGRESSONTIBETANPLAT... 相似文献
7.
《中国气象科学研究院年报》1994,(1)
THESCIENTIFICWATERMANAGEMENTINWINTERWHEATPRODUCTIONANDITSECONOMICBENEFITSINNORTHCHINAAnShunqing(安顺清)andLiuGengshan(刘庚山)Resear... 相似文献
8.
《中国气象科学研究院年报》1994,(1)
STUDYOFOZONEANDITSPRECURSORSATLIN’ANREGIONALBACKGROUNDSTATIONDURINGTHEPEM-WEST-AEXPERIMENTLuoChao(罗超),mngGuoan(丁国安),Tangjie(汤... 相似文献
9.
《中国气象科学研究院年报》1994,(1)
ACHARACTERISTICANALYSISOFAEROSOLSFROMSANDSTORMSYangDongzhen(杨东贞),WangChao(王超)andYuXiaolan(于晓岚)InstituteofAtmosphericChenmistr... 相似文献
10.
THESIMULATIONOFASPRINGPRECIPITATIONPROCESSFORICESEEDINGINNORTHCHINAWansXiaobin(汪晓滨),HuZhijn(胡志晋)andYouLaiguang(游来光)(Institute... 相似文献
11.
青藏高原云-辐射-加热效应和南亚夏季风--1985年与1987年对比分析 总被引:4,自引:0,他引:4
文中首先利用NCEP NCAR再分析的风场资料 ,分析了南亚夏季风的时空特征 ,选取了有代表性的典型强、弱夏季风年 ,继而利用ISCCP C2、ERBE S4卫星观测资料和NCEP NCAR再分析资料 ,对比分析了强、弱夏季风前期青藏高原地区的云—辐射—加热状况及其在海、陆差异中的作用。分析结果表明 ,南亚夏季风强或弱 ,其前期青藏高原地区的云—辐射—加热效应有明显的差异。在强 (弱 )南亚夏季风的前期 ,青藏高原大部分地区为相对少 (多 )云区 ,其云量变化不仅表明了此区的云—辐射—加热效应的不同 ,更重要的是与此同时出现的海、陆之间云量分布的“跷跷板”现象 ,进一步改变了海、陆之间的热力差异。而且 ,在强南亚夏季风年 ,这种热力差异不但开始得早 ,而且持续时间长、作用范围大 ,从而对南亚夏季风的形成和变化产生重要的影响 相似文献
12.
TheInfluenceofTibetanPlateauontheInterannualVariabilityofAsianMonsoon①WuAiming(吴爱明)andNiYunqi(倪允琪)DepartmentofAtmosphericScie... 相似文献
13.
14.
In order to better understand the evolution of the Afro-Asian monsoon in the early Holocene, we investigate the impact on boreal summer monsoon characteristics of (1) a freshwater flux in the North Atlantic from the surrounding melting ice sheets and (2) a remnant ice sheet over North America and Europe. Sensitivity experiments run with the IPSL_CM4 model show that both the meltwater flux and the remnant ice sheets induce a cooling of similar amplitude of the North Atlantic leading to a southward shift of the Inter-Tropical Convergence Zone over the tropical Atlantic and to a reduction of the African monsoon. The two perturbations have different impacts in the Asian sector. The meltwater flux results in a weakening of the Indian monsoon and no change in the East Asian monsoon, whereas the remnant ice sheets induce a strengthening of the Indian monsoon and a strong weakening of the East Asian monsoon. Despite the similar coolings in the Atlantic Ocean, the ocean heat transport is reduced only in the meltwater flux experiment, which induces slight differences between the two experiments in the role of the surface latent heat flux in the tropical energetics. In the meltwater experiment, the southward shift of the subtropical jet acts to cool the upper atmosphere over the Tibetan Plateau and hence to weaken the Indian monsoon. In the ice sheet experiment this effect is overwhelmed by the changes in extratropical stationary waves induced by the ice sheets, which are associated with a larger cooling over the Eurasian continent than in the meltwater experiment. However these sensitivity experiments suggest that insolation is the dominant factor explaining the relative changes of the African, Indian and East Asian monsoons from the early to the mid-Holocene. 相似文献
15.
DING Yihui LI Chongyin HE Jinhai CHEN Longxun GAN Zijun QIAN Yongfu YAN Junyue WANG Dongxiao SHI Ping FANG Wendong XU Jianping LI Li 《Acta Meteorologica Sinica》2006,20(2):159-190
The SCSMEX is a joint atmospheric and oceanic experiment by international efforts, aiming at studying the onset, maintenance, and variability of the South China Sea (SCS) summer monsoon, thus improving the monsoon prediction in Southeast and East Asian regions. The field experiment carried out in May-August 1998 was fully successful, with a large amount of meteorological and oceanographic data acquired that have been used in four dimensional data assimilations by several countries, in order to improve their numerical simulations and prediction. These datasets are also widely used in the follow-up SCS and East Asian monsoon study. The present paper has summarized the main research results obtained by Chinese meteorologists which cover six aspects: (1) onset processes and mechanism of the SCS summer monsoon; (2) development of convection and mesoscale convective systems (MCSs) during the onset phase and their interaction with large-scale circulation; (3) low-frequency oscillation and teleconnection effect; (4) measurements of surface fluxes over the SCS and their relationship with the monsoon activity; (5) oceanic thermodynamic structures, circulation, and mesoscale eddies in the SCS during the summer monsoon and their relationship with ENSO events; and (6) numerical simulations of the SCS and East Asian monsoon. 相似文献
16.
全球海气耦合模式(BCC_CM1.0)对江淮梅雨降水预报的检验 总被引:4,自引:1,他引:3
以国家气候中心全球大气-海洋耦合模式(BCC-CM1.0)20年的预报产品为基础,重点分析了该模式对中国江淮梅雨的预报能力以及梅雨预报中存在误差的可能原因.试验表明:BCC-CM1.0对江淮梅雨降水有一定的预报能力,模式基本上能够预报出气候态下梅雨降水的空间分布特征.尽管其方差贡献率和时间系数与观测相比有偏差,但模式还是能够预报出梅雨降水的主要模态.气候平均下,BCC-CM1.0模式预报的梅雨雨带位置偏北,因而预报的江淮流域长江以北降水偏多,而长江以南预报的降水偏少.同时发现模式对江淮流域梅雨期中等强度降水预报较好,雨强概率分布与观测结果基本一致,而对大雨强降水和小雨强降水预报相对较差.合成分析发现,江淮流域雨带偏北、降水偏少时,模式的预报能力较好;而江淮流域雨带偏南、降水偏多时,模式预报能力相对较差.BCC-CM1.0对高度场的预报普遍偏低,尤其是在青藏高原上空有一个虚假的低值中心,对副热带高压的预报也偏弱,这样使得东亚季风区气压梯度增加,从而导致预报的东亚夏季风偏强、向北推进的幅度加大,最终致使预报的梅雨雨带偏北.此外,比湿场预报的偏差也可能是造成梅雨雨带偏北的原因之一. 相似文献
17.
青藏高原的热力和机械强迫作用以及亚洲季风的爆发I. 爆发地点 总被引:60,自引:8,他引:60
使用欧洲中期天气预报中心(ECMWF)的客观分析资料、ECMWF/TOGA补充数据集,美国NMC气候分析中心的向外长波辐射(OLR)资料以及国家气候中心存档的中国336个测站的降水资料,研究了1989年春天青藏高原和邻近地区的热力特征和环流特征,及其对亚洲季风区季节转换的影响。文中集中分析了表面感热和潜热通量的时空分布特征。结果表明:1989年亚洲季风的爆发由三个接续的阶段组成。第一阶段是5月上旬在孟加拉湾东岸,称为孟加拉(BOB)季风爆发阶段。第二阶段是5月20日左右开始的中国南海(SCS)季风爆发阶段。第三阶段是6月10日左右开始的印度上空的南亚季风(或称印度季风)的爆发阶段。分析表明,正是由于青藏高原的热力和机械强迫作用才使亚洲季风首先在孟加拉湾地区出现。BOB季风环流提供了有利的背景条件,使SCS季风接着爆发。最后随着亚洲热带流型的西移,印度季风爆发才发生。 相似文献
18.
An Index of East Asian Winter Monsoon Applied to the Description of China's Mainland Winter Temperature Changes 
下载免费PDF全文
下载免费PDF全文 ZHU Yanfeng 《Acta Meteorologica Sinica》2008,22(4):522-529
Using the NCEP/NCAR reanalysis data (Version 1.0) and the observation data of China from January 1951 to February 2007, a new index of East Asian winter monsoon circulation (I EAWM) was defined based on the comparison of previous different winter monsoon indices and circulation factors influencing the winter climate over China. Its relationships with winter temperature over China and large-scale circulation were analyzed. Results show that IEAWM can successfully describe the variation of China's mainland winter temperature and the East Asian winter monsoon (EAWM) system. This index reflects the integrated effect of the circulations over high and low latitudes and the thermal difference between the continent and the ocean. While in the previous studies, most monsoon indices only describe the single monsoon member. The IEAWM is a good indicator of the intensity of the EAWM. Positive values of/EAWM correspond to the strong EAWM, the stronger Siberian high and East Asian trough than normal , and the strengthening of the meridional shear of 500-hPa zonal wind between high and low latitudes over East Asia, and therefore, the southward cold advection becomes stronger and leads to the decrease in surface temperature over China; and vice versa. The IEAWM inter decadal change is obviously positive before the mid-1980s, but negative since the mid-1980s, in good agreement with the fact of the winter warming in China after 1985. 相似文献
19.
Overview of the South China sea monsoon experiment 总被引:29,自引:5,他引:24
The present paper gives an overview of the key project “ South China Sea Monsoon Experiment(SCSMEX)” operated by the Ministry of Science and Technology of China during the period of 1996-2001. The SCSMEX is a joint atmospheric and oceanic field experiment which aims to better understandthe onset, maintenance, and variability of the summer monsoon over the South China Sea (SCS). It is a large-scale international effort with many participating countries and regions cooperatively involved in this experiment. With the field observation in May-August 1998, a large amount of meteorological and oceanic data was acquired, which provides excellent datasets for the study of the SCS monsoon and the East Asian monsoon and their interaction with the ocean. The preliminary research achievements are as follows. (1) The earliest onset of the Asian monsoon over the SCS and Indo-China Peninsula has been well documented. From the viewpoint of the synoptic process, its onset is closely related to the early rapid development of a twin cyclone to the east of Sri Lanka. The conceptual model of the SCS monsoon onset in 1998 was put forward. The 50-year time series of the SCS monsoon onset date was also made. (2) Two major modes, namely the 30-60-day and 10-20-day oscillations were ascertained. The influences of the abnormal SCS monsoon on the precipitation over eastern China and its modes were identified. A strong(weak) monsoon over the SCS usually leads to less (more) precipitation over the middle and lower reaches of the Yangtze River basin, and more (less) precipitation in North China. (3) During the monsoon onset over the SCS, a wide variety of organized mesoscale convective systems (MCSs) were observed by a Doppler radar array deployed over the northern SCS. The relationship between large-scale circulations and MCSs during the monsoon onset process in 1998 was clearly revealed. It was suggested that there is a kind of positive feedback mechanism between large-scale circulations and MCSs. (4) The SST over the SCS during the early period influences the timing of the monsoon onset date and the monsoon‘s intensity. During the monsoon onset, the ocean undergoes a process of energy release through air-sea interaction. During the break phase of the SCS monsoon, the ocean demonstrates the process of energy re-accumulation. Obvious differences in the air-sea turbulent flux exchange between the southern and northern parts of the SCS due to different characteristic features of the atmosphere and sea structure were observed in those regions.(5) The verification of impact of intensive observations on the predictive performance is made by the use of regional models. The air-sea coupled regional climate model (CRCM) was also developed under the SCSMEX Project . The simulation of the oceanic circulation in 1998 produced with the model was well compared with the observations. 相似文献
20.
一个适用于描述中国大陆冬季气温变化的东亚冬季风指数 总被引:16,自引:0,他引:16
利用1951年1月-2007年2月的NCEP V1格点资料和中国台站观测资料,定义了一个冬季风环流指数(IEAWM),并分析其与中国冬季气温和东亚大气环流变化的联系.结果表明该指数能够很好地反映东亚冬季风系统各成员的变化,兼顾北方和南方的环流状况和东西部热力差异的影响,改进了原有冬季风指数大多针对单一的冬季风环流成员及对中国冬季气温变化反映能力的不足,能够很好地反映中国冬季平均气温的异常变化.分析表明,当该指数为正值时东亚冬季风偏强,对应着地面西伯利亚高压和高空东亚大槽均偏强,东亚地区对流层中层的高-低纬度之间的纬向风经向切变加强,有利于中高纬度冷空气向南侵入,导致中国大陆地区气温偏低,反之亦然.IEAWM的年代际变化表明东亚冬季风在1985年之前偏强,1985年之后明显偏弱,这与1985年之后中国冬季变暖是一致的. 相似文献