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1.
热带温带相互作用对热带季风/大气-海洋系统(MAOS)的作用TetsuzoYASUNARI,KEN’ichiUENO和TOMOhikoTOMITA(筑波大学,日本)1前言一般是两年周期的ENSO和亚州季风系统的年际变化可看作是对热带印度到热带太平洋地... 相似文献
2.
Yong L. McHall 《大气科学进展》1994,11(2):251-251
AnIntroductiontotheNewBook-GEOSTROPHICWAVECIRCULATIONS¥Yong.L.McHallDept.ofEarth,AtmosphericandPlanetarySciences,MITPublished... 相似文献
3.
ENSO,particularlytheoccurenceofENSOisstilanimportantresearchobjectinclimaticvariation.UsingtheECMWFdata,therelationshipbetwenENSOandtheactivitiesoflow-frequencywavesinthetropicalatmosphereisanalyzedinthispaper.ItisshownthattheocurenceofENSOiscloselyrelatedtotheintraseasonaloscilationandthequasi-stationarywaves(theperiod>90days)inthetropicalatmosphere.AsociatedwiththeocurenceofElNinoevent,thekineticenergyoflow-frequencywaveshasobviousvariation:thekineticenergyofatmosphericintraseasonal(30-60days)oscilation� 相似文献
4.
《中国气象科学研究院年报》1994,(1)
ESTIMATIONOFVERTICALWINDFIELDFROMSINGLE-DOPPLERRADARRHIOBSERVATIONSPengHong(彭红)andGeRunsheng(葛润生)InstituteofMesoscaleMeteorol... 相似文献
5.
《中国气象科学研究院年报》1995,(1)
DYNAMICALEFFECTSOFTYPHOONBACKGROUNDFLOWONTYPHOONSUBCIRCULATIONANDTYPHOONMOTIONKangDi(亢迪)(InstituteofSynopticandDynamicMeteoro... 相似文献
6.
黄炳勋 《中国气象科学研究院年报》1994,(1)
SOMEFEATURESOFANEWGENERATIONOFUPPER-AIROBSERVATIONSYSTEMHuangBingxun(黄炳勋)InstituteofAtmosphericSoundingABSTRACTSomefeaturesof... 相似文献
7.
CISK、蒸发-风反馈机制和热带大气30-60天振荡 总被引:1,自引:1,他引:1
建立一个包含CISK机制和蒸发-风反馈机制(Evaporation-WindFeedbackMechanism,简写为:EWFM)的热带大气运动的无耗散、线性斜压半地转模式,引入反映CISK的无量纲凝结潜热参数η和反映EWFM的无量纲参数α,并求得模式系统的解析解。动力学分析和模式大气的计算结果进一步说明了CISK和EWFM的共同作用是激发和驱动热带大气低频振荡的重要物理过程。 相似文献
8.
SHORT-TERMCLIMATECHANGEANDITSCAUSEANDCLIMATEPREDICTIONINCHINA¥WeiFengying(魏凤英)(InstituteofSynopticandDynamicMeteorology.)Beij... 相似文献
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10.
利用侵蚀生产力影响计算者(EPIC)模型模拟作物对气候变化和CO_2直接影响的反应 总被引:1,自引:0,他引:1
利用侵蚀生产力影响计算者(EPIC)模型模拟作物对气候变化和CO_2直接影响的反应WilliamE.Easterling,NormanJ.Rosenberg,MaryS.McKenney,C.AllanJones,PaulT.DykeandJ.R.W?.. 相似文献
11.
June-Yi Lee MinHo Kwon Kyung-Sook Yun Seung-Ki Min In-Hong Park Yoo-Geun Ham Emilia Kyung Jin Joo-Hong Kim Kyong-Hwan Seo WonMoo Kim So-Young Yim Jin-Ho Yoon 《Asia-Pacific Journal of Atmospheric Sciences》2017,53(2):257-272
Changma, which is a vital part of East Asian summer monsoon (EASM) system, plays a critical role in modulating water and energy cycles in Korea. Better understanding of its long-term variability and change is therefore a matter of scientific and societal importance. It has been indicated that characteristics of Changma have undergone significant interdecadal changes in association with the mid-1970s global-scale climate shift and the mid-1990s EASM shift. This paper reviews and revisits the characteristics on the long-term changes of Changma focusing on the underlying mechanisms for the changes. The four important features are manifested mainly during the last few decades: 1) mean and extreme rainfalls during Changma period from June to September have been increased with the amplification of diurnal cycle of rainfall, 2) the dry spell between the first and second rainy periods has become shorter, 3) the rainfall amount as well as the number of rainy days during August have significantly increased, probably due to the increase in typhoon landfalls, and 4) the relationship between the Changma rainfall and Western Pacific Subtropical High on interannual time scale has been enhanced. The typhoon contribution to the increase in heavy rainfall is attributable to enhanced interaction between typhoons and midlatitude baroclinic environment. It is noted that the change in the relationship between Changma and the tropical sea surface temperature (SST) over the Indian, Pacific, and Atlantic Oceans is a key factor in the long-term changes of Changma and EASM. Possible sources for the recent mid-1990s change include 1) the tropical dipole-like SST pattern between the central Pacific and Indo-Pacific region (the global warming hiatus pattern), 2) the recent intensification of tropical SST gradients among the Indian Ocean, the western Pacific, and the eastern Pacific, and 3) the tropical Atlantic SST warming. 相似文献
12.
Interannual variability of the convective activities associated with the east asian summer monsoon obtained from tbb variability 总被引:5,自引:0,他引:5
1.IntroductionSouthAsiaandEastAsiaareahugemonsoonsystem,inwhichtheEastAsianmonsoonisitssubmonsoonsystem.BecausetheEastAsiansu... 相似文献
13.
The interannual variability of East Asian Winter Monsoon and its relation to the summer monsoon 总被引:76,自引:1,他引:75
1.IntroductionOvertheEastAsiaregion,themostprominentsurfacefeatureofthewintermonsoonisstrongnortheasterliesalongtheeastflankoftheSiberianhighandthecoastofEastAsia.At500hPathereisabroadtroughcenteredaboutatthelongitudesofJapan.Thedominantfea-tureat2O0hPaistheEastAsianjetwithitsmaximumlocatedatjustsoutheastofJapan.Thisktisassociatedwithintensebaroclinicity,largeverticalwindshearandstrongadvectionofcoldair(StaffmembersofAcademiaSinica,l957,LauandChang,1987;BoyleandChen,1987;Chenetal.,1991… 相似文献
14.
l.Intr0ductionThoughseasonalvariationoftheatmosphericgeneralcirculationismainlycausedbythatofthesolarradiation,itsdistributionsareinhomogeneousovertheglobe,forinstance,itismoresignificantinmonsoonregionthaninanyotherregions.Inatraditionalsense,mon-soonsummarisesalldrasticseasonalvariationsinthetropicsandsubtropics(e.g.,IndiaandEastAsia).Besidestheclassicmonsoonregions,thereexistsomeotherregionsovertheglobe,wheretheseasonalvariationisclearorevendrastic.Inordertodescribequantitativelysea-sonal… 相似文献
15.
关于西太平洋副热带高压的垂直环流结构和年际变动特征及其机制研究 总被引:24,自引:0,他引:24
采用1998年南海季风试验期间的高质量高分辨资料和NCEP提供的40年再分析资料以及相关的海温和副高参数资料,研究了西太平洋副热带高压的垂直环流结构和年际变动特征及其与东亚副热带夏季风和外强迫的关系。发现在月平均图上,西太平洋副高中心(或脊线)附近看不到下沉气流,但在候平均图和日平均图上脊线附近的若干区域下沉气流明显。这表明西太平洋副高的准定常和瞬变部分的环流结构特征有显著不同。在副高北侧东亚副热带季风雨带上有暴雨发生时,其凝结海热激发的经圈环流对相应经度上的副高脊线附近的下沉气流有显著贡献。分析表明,脊线附近高(低)空的下沉气流分别来自副高北(南)侧,表明副高是中高纬和低纬度系统相互联结的纽带。相关统计指出,夏季西太平洋副高的三个参数(面积、强度和脊线纬度)与长江中下游降水存在很高的相关,降水偏多(少),副高面积偏大(小),强度偏强(弱),脊线偏南(北),这说明与降水相应的凝结潜热对副高的年际异常有重要影响。近海海温和东亚海陆热力差指数与夏季长江中下游降水和副高三参数均存在显著的相关,这表明东亚经向和纬向海陆热力差是影响副热带夏季降水和西太平洋副高年际变化的基本因子。数值试验结果指出,近海海温异常所形成的� 相似文献
16.
中国华南春季季风及其与大尺度环流特征的关系 总被引:13,自引:2,他引:13
定义了中国华南春季季风,并用NCEP/NCAR再分析资料研究了春季风的气候特征以及春季风降水和大尺度环流在年际变化上的关系。结果表明,从降水和大气环流的变化来看,华南春季风在气候上发生于4月和5月;与华南春季风相联系的大气环流特征与夏季风和冬季风所对应的大气环流特征完全不同。华南春季风降水的年际变化主要与太平洋北部的异常环流相关联,而这种异常环流又与亚洲北部的西风急流和极地涡旋有联系;华南春季风降水的年际变化还与太平洋的海表温度异常有关;而亚洲热带大气环流的年际变化与华南春季风降水的变化关系不大。 相似文献
17.
Impact of Indian monsoon on the coupled atmosphere/ocean system in the tropical pacific 总被引:12,自引:0,他引:12
T. Yasunari 《Meteorology and Atmospheric Physics》1990,44(1-4):29-41
Summary This study addresses the relationship between the Indian summer monsoon (ISM) and the coupled atmosphere/ocean system in the tropical Pacific on the interannual time scales. High positive correlations are found between ISM rainfall and both mixed layer sea water temperature (SWT) and sea surface temperature (SST) anomalies of the tropical western Pacific in the following winter. Negative correlations between ISM rainfall and SST in the central/eastern Pacific also appear to be most significant in the following winter. These parameters are correlated with each other mainly on a biennial time scale. Lag-correlations between the zonal wind and SST along the the equatorial Pacific show that the westerly (easterly) surface wind stress anomalies over the central/western Pacific are greatly responsible for the formation of negative (positive) SST/SWT anomalies in the western Pacific and positive (negative) SST/SWT anomalies in the central/eastern Pacific. Furthermore, it is evidenced that these lagcorrelations are physically based on the anomalies in the large-scale convection over the Asian monsoon region and the associated east-west circulation over the tropical Pacific, which first appear during the Indian summer monsoon season and evolve during the following autumn and winter. These results strongly suggest that the Asian summer monsoon may have an active, rather than a passive, role on the interannual variability, including the ENSO events, of the coupled atmosphere/ocean system over the tropical Pacific.With 9 Figures 相似文献
18.
Model Study on the Interannual Variability of Asian Winter Monsoon and Its Influence 总被引:40,自引:4,他引:40
ModelStudyontheInterannualVariabilityofAsianWinterMonsoonandItsInfluenceJiLiren(纪立人),SunShuqing(孙淑清)InstituteofAtmosphericPhy... 相似文献
19.
东亚夏季风的年际到年代际变化及其与全球大气环流和海表温度的联系 总被引:23,自引:1,他引:23
The East Asian summer monsoon (EASM) underwent an interdecadal variation with interannual variations during the period from 1958 to 1997, its index tended to decline from a higher stage in the mid-1960's until it reached a lower stage after 1980's. Correlation analysis reveals that EASM is closely related with the global atmospheric circulation and sea surface temperature (SST). The differences between the weak and strong stage of EASM shows that, the summer monsoon circulation over East Asia and North Africa is sharply weakened, in the meantime, the westerlies in high latitudes and the trade--wind over the tropical ocean are also changed significantly. Over the most regions south of the northern subtropics, both air temperature in the lower troposphere and SST tended to rise compared with the strong stage of EASM. It is also revealed that the ocean-atmosphere interaction over the western Pacific and Indian Ocean plays a key role in interannual to interdecadal variation of EASM, most probably, the subtropical Indian Ocean is more important. On the other hand, the ENSO event is less related to EASM at least during the concerned period. 相似文献
20.
The strength of the East Asian summer monsoon and associated rainfall has been linked to the western North Pacific subtropical high (WNPSH) and the lower-tropospheric low pressure system over continental East Asia (EA). In contrast to the large number of studies devoted to the WNPSH, little is known about the variability of the East Asian continental low. The present study delineates the East Asian continental low using 850-hPa geopotential height. Since the low is centered over northern EA (NEA), we refer to it as the NEA low (NEAL). We show that the intensity of the NEAL has large interannual variation, with a dominant period of 2–4 years. An enhanced NEAL exhibits a barotropic structure throughout the whole troposphere, which accelerates the summer-mean upper-tropospheric westerly jet and lower-tropospheric monsoon westerly to its south. We carefully identify the anomalous NEAL-induced rainfall anomalies by removal of the tropical heating effects. An enhanced NEAL not only increases rainfall locally in northern Northeast China, but also shifts the East Asian subtropical front northward, causing above-normal rainfall extending eastward from the Huai River valley across central-northern Japan and below-normal rainfall in South China. The northward shift of the East Asian subtropical front is attributed to the following processes without change in the WNPSH: an enhanced NEAL increases meridional pressure gradients and the monsoon westerly along the East Asian subtropical front, which in turn induces a cyclonic shear vorticity anomaly to its northern side. The associated Ekman pumping induces moisture flux convergence that shifts the East Asian subtropical front northward. In addition, the frequent occurrence of synoptic cut-off lows is found to be associated with an enhanced NEAL. Wave activity analysis indicates that the interannual intensity change of the NEAL is significantly associated with the extratropical Polar Eurasian teleconnection, in addition to the forcing of the tropical WNP heating. 相似文献