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931.
印度洋海表温度主模态及其与亚洲夏季季风的关系 总被引:7,自引:0,他引:7
分析了印度洋SST主模态的时空特征,并探讨其对亚洲夏季季风的影响,结果表明:印度洋SST主模态的主要特征为整个海盆一致的增温趋势,主要具有准3 a和准11 a周期,在1976/1977年和1997/1998年分别具有两次年代际显著增温。印度洋SST主模态与中国雨区夏季降水有很好的关系,其增温趋势与华北、东北南部、华南东部和西南西部降水减少,长江中下游地区、东北北部和西北地区降水增多具有很好的关系,并与长江中下游梅雨雨量具有较好的正相关关系;其变化趋势对亚洲夏季季风系统具有显著影响,在高空,使南亚高压、高原南侧的高空东风以及从南海、东南亚至西南印度洋的高空越赤道气流减弱,但增强10°—20°N、40°—110°E的北风;在中层,使西北太平洋副热带高压强度偏强,面积偏大;在低层,增强索马里越赤道气流,但却削弱印度夏季季风低层环流,并且在加强东亚地区的低层南风在中国长江中下游地区及其以南地区的同时减弱华北地区的低层西南风;地面,使亚洲大陆的气压升高;与对流层整层垂直积分水汽输送通量的相关分布与低层环流的相似。因此,印度洋SST主模态的上升趋势是亚洲夏季季风趋于减弱和中国雨带南移的一个原因。 相似文献
932.
IOD对ENSO影响中国夏季降水和气温的干扰作用 总被引:8,自引:0,他引:8
使用NCEP/NCAR再分析资料研究了"单纯"ENSO事件、"单纯"IOD事件以及有IOD事件伴随发生的ENSO事件对中国夏季降水和气温的影响.结果表明:"单纯"ENSO事件、"单纯"IOD事件对中国夏季降水和气温均有显著影响,当El Nino年有正IOD事件同时发生时,我国北方地区水汽增加,华北降水偏少现象得到抑制,我国大陆气温有所上升;当La Nina年有负IOD事件同时发生时,北方地区的水汽减少,不利于华北地区的降水,我国大陆气温有所下降. 相似文献
933.
934.
935.
936.
Mass and energy fluxes between the atmosphere and vegetation are driven by meteorological variables, and controlled by plant
water status, which may change more markedly diurnally than soil water. We tested the hypothesis that integration of dynamic
changes in leaf water potential may improve the simulation of CO2 and water fluxes over a wheat canopy. Simulation of leaf water potential was integrated into a comprehensive model (the ChinaAgrosys)
of heat, water and CO2 fluxes and crop growth. Photosynthesis from individual leaves was integrated to the canopy by taking into consideration the
attenuation of radiation when penetrating the canopy. Transpiration was calculated with the Shuttleworth-Wallace model in
which canopy resistance was taken as a link between energy balance and physiological regulation. A revised version of the
Ball-Woodrow-Berry stomatal model was applied to produce a new canopy resistance model, which was validated against measured
CO2 and water vapour fluxes over winter wheat fields in Yucheng (36°57′ N, 116°36′ E, 28 m above sea level) in the North China
Plain during 1997, 2001 and 2004. Leaf water potential played an important role in causing stomatal conductance to fall at
midday, which caused diurnal changes in photosynthesis and transpiration. Changes in soil water potential were less important.
Inclusion of the dynamics of leaf water potential can improve the precision of the simulation of CO2 and water vapour fluxes, especially in the afternoon under water stress conditions. 相似文献
937.
A microscale three-dimensional urban energy balance model for studying surface temperatures 总被引:1,自引:2,他引:1
A microscale three-dimensional (3-D) urban energy balance model, Temperatures of Urban Facets in 3-D (TUF-3D), is developed
to predict urban surface temperatures for a variety of surface geometries and properties, weather conditions, and solar angles.
The surface is composed of plane-parallel facets: roofs, walls, and streets, which are further sub-divided into identical
square patches, resulting in a 3-D raster-type model geometry. The model code is structured into radiation, conduction and
convection sub-models. The radiation sub-model uses the radiosity approach and accounts for multiple reflections and shading
of direct solar radiation. Conduction is solved by finite differencing of the heat conduction equation, and convection is
modelled by empirically relating patch heat transfer coefficients to the momentum forcing and the building morphology. The
radiation and conduction sub-models are tested individually against measurements, and the complete model is tested against
full-scale urban surface temperature and energy balance observations. Modelled surface temperatures perform well at both the
facet-average and the sub-facet scales given the precision of the observations and the uncertainties in the model inputs.
The model has several potential applications, such as the calculation of radiative loads, and the investigation of effective
thermal anisotropy (when combined with a sensor-view model). 相似文献
938.
F. Couvreux F. Guichard V. Masson J.-L. Redelsperger 《Boundary-Layer Meteorology》2007,123(2):269-294
This study focuses on the intrusion of dry air into the convective boundary layer (CBL) originating from the top of the CBL.
Aircraft in-situ measurements from the IHOP_2002 field campaign indicate a prevalence of negative skewness of the water vapour
distribution within the growing daytime CBL over land. This negative skewness is interpreted according to large-eddy simulations
(LES) as the result of descending dry downdrafts originating from above the mixed layer. LES are used to determine the statistical
properties of these intrusions: their size and thermodynamical characteristics. A conditional sampling analysis demonstrates
their significance in the retrieval of moisture variances and fluxes. The rapid CBL growth explains why greater negative skewness
is observed during the growing phase: the large amounts of dry air that are quickly incorporated into the CBL prevent a full
homogenisation by turbulent mixing. The boundary-layer warming in this phase also plays a role in the acquisition of negative
buoyancy for these dry tongues, and thus possibly explains their kinematics in the lower CBL. Budget analysis helps to identify
the processes responsible for the negative skewness. This budget study underlines the main role of turbulent transport, which
distributes the skewness produced at the top or the bottom of the CBL into the interior of the CBL. The dry tongues contribute
significantly to this turbulent transport. 相似文献
939.
不同区域气候模式对中国地区温度和降水的长期模拟比较 总被引:19,自引:9,他引:19
利用亚洲区域模式比较计划RMIP第二阶段五个区域模式和一个变网格全球模式,对中国地区1988年12月~1998年11月十年模拟的平均温度和降水结果,分析比较了不同区域气候模式对中国地区温度和降水的模拟能力。研究结果表明:几乎所有模式都能模拟出中国地区多年平均温度和降水的基本空间分布形态,但模式模拟的温度普遍偏低,在大部分区域,大多数模式模拟的降水偏多,而且不同模式之间存在较大差别。模式能较好地反映出中国地区温度的年际变化,对夏季降水的年际变化模拟较差,对冬季模拟较好。 相似文献
940.
使用国家气候中心的区域气候模式对1961~1990、2001~2030年湖北省逐月气温、降水量的预估值(格点0.5°×0.5°,A2情景),以1961~1990年湖北省平均温度和平均降水量为基准,计算并分析未来30年(2001~2030年)及每10年年平均气温、降水量变化趋势。结果表明:(1)未来30年湖北省年平均气温普遍呈上升趋势,上升幅度在0.19~0.39℃之间,平均0.27℃,鄂南增温比鄂北快,其中2021~2030年增幅最大,2001~2010年增幅最小;(2)年平均降水量湖北省大部呈减少趋势,表现出南增北减、东增西减的特点,2001~2010年变化不大,2011~2020年绝大多数站点均有不同幅度增加,2021~2030年全省各地呈一致的下降趋势,湖北省南涝北旱趋势将有所加剧。 相似文献