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南海夏季风撤退期的气候特征Ⅰ——40年平均 总被引:1,自引:1,他引:1
用NCAR/NCEP1958~1997年共40年资料对南海夏季风撤退的气候特征进行了分析.8月上旬西伯利亚冷空气开始南进,由于青藏高原的阻挡作用,在我国东部大陆推进得很快,到达南海后继续向南推进,最后导致9月中旬左右南海夏季风从南海撤退.就个别年份而言,最早的撤退时间是8月中,最晚的是10月中,可以差两个月.南海夏季风撤退与建立过程是很不相同的,南海夏季风和夏季风雨带的建立都是爆发性的,在全区域几乎是同时建立,但撤退是由北向南缓慢撤退的,历时一个月左右.在撤退期间,南海降水形势变化不大,但在撤退之后,南海夏季风雨季转变为ITCZ雨季,其相应和雨区随着太阳南移向南推进.南海夏季风撤退后,南海降水30~60天振荡明显减弱,而准两周振荡仍比较活跃. 相似文献
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不同时间尺度上南海夏季风强度与海洋热力条件的关系 总被引:5,自引:3,他引:5
用NCAR/NCEP1958—1997年共40年资料对南海夏季风撤退的气候特征进行了分析。8月上旬西伯利亚冷空气开始南进,由于青藏高原的阻挡作用,在我国东部大陆推进得很快,到达南海后继续向南推进,最后导致9月中旬左右南海夏季风从南海撤退。就个别年份而言,最早的撤退时间是8月中,最晚的是10月中,可以差两个月。南海夏季风撤退与建立过程是很不相同的,南海夏季风和夏季风雨带的建立都是爆发性的,在全区域几乎是同时建立,但撤退是由北向南缓慢撤退的,历时一个月左右。在撤退期间,南海降水形势变化不大,但在撤退之后,南海夏季风雨季转变为ITCZ雨季,其相应和雨区随着太阳南移向南推进。南海夏季风撤退后,南海降水30—60天振荡明显减弱,而准两周振荡仍比较活跃。 相似文献
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2006年东亚夏季风活动特征与我国东部雨带分布 总被引:4,自引:1,他引:3
利用1979—2006年NCEP/NCAR大气月平均资料、OLR对流和CMAP降水日平均资料,从季节平均、月平均、季节内振荡不同时间尺度分析了2006年东亚夏季风活动特征及其与雨带分布之间的联系。结果表明,2006年东亚夏季风爆发时间正常,而夏季风推进过程存在异常:前沿在华南地区和华北地区维持时间偏长、在长江流域维持时间偏短,夏季风极端北界偏北,这种推进异常与南海夏季风强度偏强有关。南海夏季风强度偏强及推进过程异常导致东亚夏季(6—8月)降水为Ⅰ类雨带分布,即长江流域降水偏少,华南、黄淮流域-朝鲜半岛-日本中南部降水偏多。从月时间尺度看,2006夏季各月都具有南海地区夏季风强度偏强、前沿位置偏北和偏东的异常趋势;西太平洋副热带高压6月偏西偏南,7、8月偏北,在这种异常形势下,长江流域6、7、8各月降水都偏少,华南地区各月以偏多为主,黄淮流域7、8月降水偏多。从季节内振荡看,2006年大气季节内振荡(ISO)纬向传播与气候平均相比具有特殊性,长江流域纬度带西传波和静止波偏弱,华南地区纬度带东传波和静止波偏强,ISO这种异常与夏季长江流域降水偏少、华南降水偏多有关。 相似文献
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1998年南海夏季风建立前后的突变特征及爆发过程 总被引:10,自引:3,他引:7
利用南海季风试验所得到的最新资料分析了1998年南海夏季风建立前后的突变特征及其爆发过程,初步认定1998年亚洲夏季风最早(5月23日)在南海地区建立,它是亚洲冬季风形势向夏季风形势转换的最早体现。副高从南海地区连续东撤是南海地区夏季风建立的直接过程,它的撤出有利于不稳定能量的释放,形成南海夏季风的爆发性。提出赤道印度洋地区的西风和降水向中南半岛地区扩展、华南静止锋活跃南压,这种形式的中低纬相互作 相似文献
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南海地区降水的时空特征 总被引:33,自引:3,他引:30
文中利用美国 NCEP重分析资料中的 1 979~ 1 995年 1 7a逐旬的全球降水资料 ,采用小波分析方法分析了南海地区降水的多时间层次和多空间层次结构 ,研究了南海季风的爆发及时间演变 ,探讨了南海季风爆发的机制。结果表明 :( 1 )南海季风爆发于 5月中旬 ,季风爆发过程实际上是小范围 ( 32个经度 )降水向大范围 ( 64个经度 )降水调整的过程 ,一旦出现较强的大范围降水 ,并到达南海地区 ,就爆发了南海季风 ,调整完毕则是印度季风和东亚季风的相继爆发。( 2 )在 1 0°N以北的地区 ,季风最早发生在南海 ,然后逐渐西移到印度 ,达到印度季风最盛期后 ,迅速东撤。( 3)南海地区可分为 3个区域 :北部 ( 2 0~ 2 2°N)、中部 ( 1 0~ 2 0°N)和南部 ( 1 0°N以南 )。南海雨季主要发生在 1 0°N以北的北部和中部 ,北部雨季是平稳增强的单峰型 ,而中部雨季是突发性的 ,雨季内降水起伏较大。( 4 )南海季风区有很强的年变化 ,30~ 60 d和 2 0~30 d的变化也比较显著 ,还有 3个月左右的周期变化。除年振荡以外 ,各种周期振荡随时间变化较大 ,在雨季表现得最强烈。( 5)南海季风的爆发与 2 0~ 30 d和 30~ 60 d两种低频振荡有关。 相似文献
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利用2001、2003年的QuikSCAT风场和中国降水的逐日资料,分析江淮流域旱、涝年南海夏季风的演变特征及其低频分量与江淮流域降水的关系。结果表明:(1) 2001、2003年南海夏季风爆发时间相当,但2003年6月中下旬季风出现明显的中断,2001年6—7月南海季风表现出明显的由南海中南部向北部推进的过程,而2003年同时期的季风则徘徊于南海中南部地区;(2) 2001、2003年的夏季(5—9月)海表面的低频纬向风场同时都存在3对低频振荡中心,且在季风爆发后均有明显的向北传播特征,南海中部和北部表现出近乎相反的低频位相,但2001年低频振荡的强度及低频波列维持的时间均大于2003年的;(3) 根据纬向风低频振荡强中心区域的位置,在南海中部和北部分别定义了南海低频夏季风指数IM-SCS和IN-SCS,发现这两个指数与我国6—7月江淮流域的降水及青藏高原中东部降水之间均存在显著的滞后负相关关系,而与云南中部、西部及华北部分地区的降水则表现出显著的滞后正相关关系。 相似文献
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1998年南海夏季风低频振荡特征分析 总被引:9,自引:8,他引:9
利用NCEP/NCAR1998年再分析资料和SST资料,研究了南海夏季风的低频振荡特征。结果表明,南海夏季风的低频振荡对南海夏季风的爆发具有加强的作用;南海低频低层辐合(散)区对应低频降水正(负)值区;南海地区的大气低频振荡以向北、向东传播为主,南海地区低频散度在垂直方向呈现出相互补偿的特征。 相似文献
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用1980~1992年ECMWF的850hPa和200hPa资料设计了南亚季风和东亚季风指数,发现南海夏季风的暴发和撤退具有较大的年际差异,南海北部和南部夏季风的暴发和撤退时间也不一致.相关试验表明,南亚季风指数与中国大陆春、夏降水的相关分布型类似于东亚季风指数与降水的相关分布型,且相关系数略高.东亚冬季风指数以南海地区区域平均的850hPa经向风速或纬向风速为好.夏季风指数以南海地区或亚洲区域平均的850hPa和200hPa的纬向风速差最佳. 相似文献
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关于东亚副热带季风和热带季风的再认识 总被引:15,自引:8,他引:15
利用NCEP/NCAR再分析数据集和CMAP(Climate Prediction Center Merged Analysis of Precipitation)降水资料, 分析了东亚副热带夏季风与热带夏季风的区别和联系, 以及两者相互作用问题, 深入讨论了东亚副热带季风的本质。分析发现东亚副热带夏季风建立早于热带夏季风, 于3月中旬已经开始建立。两者是相互独立的两个过程, 前者并非是后者向北推进的结果;相反, 前者建立后的突然南压有利于后者的爆发。副热带夏季风为渐进式建立, 但撤退迅速;热带夏季风爆发突然, 但撤退缓慢。副热带夏季风的建立以偏南风的建立为特征, 而热带夏季风的建立以偏东风向偏西风转变为特征。热带夏季风的建立时间取决于经向海陆热力差异转向, 而东亚副热带夏季风则更依赖于纬向海陆热力差异的逆转。亚洲大陆(含青藏高原)与西太平洋之间的纬向海陆热力差异的季节逆转无论对东亚副热带夏季风还是热带夏季风均有重要作用。 相似文献
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Storms that occur at the Bay of Bengal (BoB) are of a bimodal pattern, which is different from that of the other sea areas. By using the NCEP, SST and JTWC data, the causes of the bimodal pattern storm activity of the BoB are diagnosed and analyzed in this paper. The result shows that the seasonal variation of general atmosphere circulation in East Asia has a regulating and controlling impact on the BoB storm activity, and the “bimodal period” of the storm activity corresponds exactly to the seasonal conversion period of atmospheric circulation. The minor wind speed of shear spring and autumn contributed to the storm, which was a crucial factor for the generation and occurrence of the “bimodal pattern” storm activity in the BoB. The analysis on sea surface temperature (SST) shows that the SSTs of all the year around in the BoB area meet the conditions required for the generation of tropical cyclones (TCs). However, the SSTs in the central area of the bay are higher than that of the surrounding areas in spring and autumn, which facilitates the occurrence of a “two-peak” storm activity pattern. The genesis potential index (GPI) quantifies and reflects the environmental conditions for the generation of the BoB storms. For GPI, the intense low-level vortex disturbance in the troposphere and high-humidity atmosphere are the sufficient conditions for storms, while large maximum wind velocity of the ground vortex radius and small vertical wind shear are the necessary conditions of storms. 相似文献
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This paper reviews briefly advances in recent research on monsoon by Chinese scholars, including primarily: (1) the establishment of various monsoon indices. In particular, the standardized dynamic seasonal variability index of the monsoon can delimit the geographical distribution of global monsoon systems and determine quantitatively the date of abrupt change in circulation. (2) The provision of three driving forces for the generation of monsoon. (3) The revelation of the heating-pump action of the Tibetan Plateau, which strengthens southerlies in the southern and southeastern periphery of the Plateau and results in a strong rainfall center from the northern Bay of Bengal (BOB) to the Plateau itself. (4) Clarification of the initial onset of the Asian Summer Monsoon (ASM) in the BOB east of 90°E, Indochina Peninsula (ICP) and the South China Sea, of which the rapid northward progression of tropical convection in the Sumatra and the rapid westward movement of the South Asia High to the Indochina Peninsula are the earliest signs. (5) The provision of an integrated mechanism for the onset of the East Asian Summer Monsoon (EASM), which emphasizes the integrated impact of sensible heat over Indian Peninsula, the warm advection of the Tibetan Plateau and the sensible heat and latent heat over the Indochina Peninsula on the one hand, and the seasonal phase-lock effect of the northward propagation of low frequency oscillation on the other. (6) The revelation of the "planetary-scale moisture transport large-value band" from the Southern Hemisphere through to the Asian monsoon region and into the North Pacific, which is converged by several large-scale moisture transport belts in the Asian-Australian monsoon regions and whose variation influences directly the temporal and spatial distribution of summer rainfall in China. (7) Presenting the features of the seasonal advance of the EASM, the propagation of intraseasonal oscillation, and their relationship with rainfall in Ch 相似文献
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A one-dimensional, time-dependent cloud model with parameterized microphysics is used to investigate the processes which control the rainout and washout of soluble gases from warm, precipitating stratiform clouds. Calculations are presented simulating the distributions of soluble species within and below the cloud layer and in the precipitating raindrops as a function of time and species' solubility. Our calculations indicate that for species with low solubility, wet removal processes are relatively slow and thus do not significantly affect the species' gas-phase abundance. As a result, the removal of low-solubility species by rainout and washout is controlled by thermodynamic processes with the concentration of the species in cloud and rainwater largely determined by the species' solubility. For highly soluble species on the other hand, dissolution into cloud droplets and removal in rain is quite rapid and the abundance of highly soluble species within and below the cloud falls rapidly as soon as the precipitation begins. Because of this rapid decrease in concentration, we find that for highly soluble species: concentrations in cloud droplets near the cloud base can exceed that of raindrops by factors of 2 to 10; washout can dominate over rainout as a removal mechanism; and that, after an extended period of rainfall, the rate of removal becomes independent of the microphysical properties and rainfall rate of the cloud and is controlled by the rate of transport of material into the precipitating column by horizontal advection. 相似文献
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The Fe(II)/Fe(III)-partition in cloudwater samples collected during two field campaigns is evaluated. It turned out that the simultaneous occurrence of complexing and reducing substances in the atmosphere and the cloud processing increase the solubility of iron compounds present in aerosol particles. A correlation between the concentration of iron(II) in the liquid phase and the intensity of the solar irradiation was observed for most of the cloudwater samples. This could be due to the fact that both the photochemical reduction of the iron(III) complexes and the photochemical reductive dissolution of iron(III)(hydr)oxides are depending on the pH-value. Iron(II) seems to be oxidised back to iron(III) preferably by hydrogen peroxide during the night. Positive correlations were received e.g. between the concentration of dissolved iron and the concentration of oxalate and between the percentage of iron(III) and the concentration of hydrogen peroxide. A negative correlation was found e.g. between the concentration of dissolved iron and the pH-value. The uncertainty of the whole process of sampling and analysis was investigated and the conformity of the results was satisfying considering the sometimes difficult conditions during a field campaign. 相似文献
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在给出霾的定义、特征及空间分布的基础上,介绍了霾的物理学特性、化学特性及气象学研究的最新进展,分析了霾对公共卫生健康、交通安全的影响, 提出了科学编制防御规划、统筹建立协调机制、有效推进减霾行动、提供相应科技支撑、完善相关政策法规等对策建议,对于政府相关部门制定霾天气应对和防治措施具有积极的决策参考作用,减少或减轻霾对经济社会发展和人体健康带来的损害威胁。 相似文献
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<p>PARTITION OF SEASON BASED ON MULTIELEMENTS AND THE DECADAL CHANGE OF SEASON DURATION IN CHINA</p>
<p>Using the multielements similarity measurement method and 1950–C2017 NCEP/NCAR gridded daily reanalysis datasets, we analyzed season duration in China during 1950–C2016, and we defined the element with maximum absolute sensitivity as the key impact element at each point using the sensitivity analysis method. The decadal change of season duration and its key impact element before and after 1980 were studied. The results indicated obvious meridional and zonal differences in the distribution of season duration for the 67-year average, and that the key impact element has the same distribution characteristics as season duration. In addition, complementary relationships were found between the durations of spring and summer, autumn and winter, and the cold and warm seasons. Of those, the complementary relationship between the durations of spring and summer was strongest and the regions of complementarity were numerous. The complementary regions of autumn and winter durations were found mainly in western China. In the cold and warm seasons, the complementary regions were widespread and the complementary relationship was generally weak. Comparison of the periods before and after 1980 revealed an east–Cwest difference in the interdecadal variation of season duration. Interdecadal variation in spring and summer was found concentrated in northern and western regions, while that in autumn and winter was concentrated in the western region. Areas of significant interdecadal variation of the key elements were found concentrated in northern and western regions, corresponding well with the areas of significant interdecadal variation of season duration.</p> 相似文献
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THE EFFECTS OF EXTERNAL FORCING,DISSIPATION AND NONLINEARITY ON THE SOLUTIONS OF ATMOSPHERIC EQUATIONS 总被引:1,自引:0,他引:1 下载免费PDF全文
Based on the primitive equations of the atmosphere,we study the effects of external forcing.dissipation and nonlinearity on the solutions of stationary motion and non-stationary motion.Theresults show that the asymptotic behavior of solutions of the forced dissipative nonlinear system isessentially different from that of the adiabatic non-dissipative system,the adiabatic dissipativesystem,the diabatic non-dissipative system and the diabatic dissipative linear system,and that thejoint action of external forcing,dissipation and nonlinearity is the source of multiple equilibria.From this we can conclude that the important actions of diabatic heating and dissipation must beconsidered in the models of the long-term weather and the climate. 相似文献