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1.
利用“全球协调加强观测计划之亚澳季风青藏高原试验(CAMP/Tibet)”中那曲地区BJ站2002年8月1日\_2003年8月31日的观测资料作为水热耦合模式(Simultaneous Heat and Water, SHAW)的强迫场,对青藏高原中部季节冻土区地表能量通量特征进行了单点模拟研究。通过对实测值与模拟结果的对比分析,发现SHAW模式能较成功地模拟该地区地表能量通量特征, 短波净辐射和长波净辐射的模拟值与观测值吻合较好, 净辐射和土壤热通量在夏半年的模拟值与观测值也吻合,但相对夏\, 秋季而言,它们在冬\, 春季的模拟值较观测值略偏大。模拟的感热和潜热通量的季节变化比较合理,由模拟的感热和潜热通量计算的Bowen比能较好地解释不同季节太阳辐射的能量转化。 相似文献
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模式评估是模式发展中的重要一环。本文利用来自FLUXNET2015数据集的30个站点的涡动相关系统观测数据,重点关注能量通量,对通用陆面模式(Common Land Model version 2014,CoLM2014)在不同典型下垫面的模拟能力进行评估。结果表明,模式总体上能抓住感热、潜热和净辐射通量在日、季节和年平均等不同时间尺度上的变化特征,对感热、潜热和净辐射通量都有较好的模拟能力,净辐射的模拟效果最好,潜热通量次之。季节变化模拟中,感热、潜热通量在夏季不同植被型下站点的空间离散程度大于冬季,不同站点间模拟效果相差较大,净辐射多站点标准差变化幅度要小于感热、潜热,不同站点间模拟效果偏差较小。CoLM在常绿针叶林、稀树林地、草地、农田模拟感热、潜热通量的效果相对较好,在永久湿地、落叶阔叶林下模拟感热通量较差。本研究对CoLM2014在未来的改进和发展中提供了有用的参考。 相似文献
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热带太平洋和印度洋热源对大气影响的季节变化特征 总被引:2,自引:0,他引:2
本文利用1970—1979年COADS2°×2°格点月平均资料,计算了30°S—30°N热带太平洋和印度洋洋面上的有效长波辐射、感热和潜热通量以及它们的季节变化和年变化。结果指出:在冬季半球热带海洋外侧有大量的长波辐射、感热和潜热向大气输送,输送通量的季节变化大;热带太平洋地区西北部热通量的季节变化最大,赤道洋面地区热通量的年变化最小,潜热是洋面上热量输送的最大项,季节变化也最大;感热的输送量虽不及有效长波辐射,但其季节变化与有效长波辐射的变化相当;赤道地区是有效长波辐射和潜热通量的低值区,暖池地区是有效长波辐射的低值中心,靠近秘鲁海域的东南赤道太平洋是感热通量的负值区;热带太平洋西北部和阿拉伯海、孟加拉湾地区的热通量及年、季变化与亚洲季风有密切的关系,同时对我国和南亚地区的气候有重要的影响。 相似文献
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Two deterministic models were combined: one for canopy leaf energy budgets and one for street canyon energy budgets. The effects of street parks and roof gardens in contrast to non-vegetated city blocks were examined by the use of four typical urban morphologies, which were exposed latitudinally to summer and winter simulations. A variety of increases and decreases in shortwave radiation, net radiation, sensible heat flux, and system reradiation resulted. These changes appear to represent the generalized limits of the possible responses to the addition of vegetation to non-vegetated city blocks. 相似文献
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半干旱区不同下垫面近地层湍流通量特征分析 总被引:11,自引:3,他引:8
本文分析了2003~2005年半干旱区退化草地和农田下垫面近地层湍流通量日、季、年的变化特征, 探讨了不同年份的气候背景和下垫面土地覆被对地气交换过程的影响。结果表明: 半干旱区退化草地和农田近地层湍流通量具有明显的日变化、季变化周期; 地气间通量交换年际间的差异主要受当年的气候背景影响, 尤其是降水的影响; 同时还受到下垫面覆被的影响。潜热通量和感热通量的能量分配比率呈反位相变化, 且农田和退化草地的变化趋势相似, 在夏季潜热通量所占比例均超过感热通量; 两种下垫面的波恩比月均值变化趋势十分相似, 量级接近, 夏季低, 春、秋季高; 夏季退化草地和农田下垫面波恩比均小于或等于1。 相似文献
6.
Zhangwei Ding Zhiping Wen Renguang Wu Zhenchao Li Jianjun Zhu Weibiao Li Maoqiu Jian 《Theoretical and Applied Climatology》2013,114(1-2):349-363
The land surface energy exchange depends highly on the surface properties. Little is known of the energy balance over a typical banana plantation of humid tropics. In this study, we examine the characteristics of surface energy exchange over a typical banana field in South China during the period of May 2010 to April 2011 by using the eddy covariance and micrometeorological tower. The results showed that the diurnal and seasonal variations in surface latent heat flux were larger compared with those over the nearby grassland. The dominant energy partitioning varies with season. The latent heat flux was the main consumer of net radiation in summer, whereas the sensible heat flux was the main consumer in winter. The increasing cloud coverage and rain appear to control the surface energy balance with the development of the monsoon. Due to increased afternoon convective cloud systems in the monsoon active period, downward shortwave radiation was dramatically diminished around 14:00?pm. The annual mean Bowen ratio was 0.69, which fell within the range of other vegetated surfaces. The observed surface energy components were not closed, and the ratio of turbulent fluxes to the available energy was about 77 % in October–January and about 85 % in the other months after considering soil heat and air heat storage. 相似文献
7.
利用中国气象局成都高原气象研究所建立的5个边界层站(湄潭、巴中、什邡、曲麻莱、狮泉河)2019年的观测资料,对比分析青藏高原及周边地区近地层大气要素变化和陆—气能量交换特征及异同点,探讨其原因。结果表明:(1)青藏高原及周边地区近地层大气温度、相对湿度、风速、感热通量、潜热通量、动量通量均符合一峰一谷的常规日变化特征,气压具有双峰双谷的日变化特征。(2)高海拔台站近地层温度日变幅(12℃)高于周边低海拔地区(4~6℃),季变幅与海拔高度的关系不显著。(3)相对湿度与温度关系密切,相对湿度的垂直结构和日变化都具有明显的区域差异,其垂直梯度夜间显著高于白天,峰值出现时间随夏、秋、春、冬季呈现季节性滞后,而谷值超前。(4)风速春季较大,夏、秋季次之,冬季小,季变幅略小于日变幅;低海拔区域的风速及其日变幅均显著低于高海拔区域。(5)低海拔区域气压季变幅(>13 hPa)远高于日变幅(2.5 hPa左右),而高海拔区域气压季变幅(>3 hPa)略低于日变幅(2 hPa左右)。(6)感热通量春季大、冬季小;感热通量和动量通量在高海拔区域均较高,二者具有较一致的日、季变化特征,表明大气动... 相似文献
8.
By using the NCEP reanalysis data set in 1979-1995, the fluxes of the latent heat, thesensible heat and the net long-wave radiation in the South China Sea (SCS) are expanded by meansof EOF in order to discuss the basic climatological features in the SCS. The detailed analysis showsthat the air-sea heat exchanges in different SCS regions have different seasonal variations. Themiddle and the north of the SCS are the high value regions of the air-sea heat exchanges during thewinter and the summer monsoon periods, respectively, the seasonal variations of air-sea heatexchanges in the south of the SCS are small. In addition, the proportions of different componentsin the total air-sea heat exchanges have different seasonal variations in different regions. Theresults show that the SCS monsoon and the air-sea heat exchanges in the SCS region are theaccompaniments of each other, the great difference of the sensible heat flux between the IndochinaPeninsula and the SCS before the SCS summer monsoon onset may be one of the triggers of thelatter. There maintains a high value center of the sensible heat flux before the 13th dekad, itsdisappearing time consists with that of the summer monsoon onset. It means that as far as the SCSlocal conditions are concerned, the northwest of the Indochina Peninsula is probably a sensitiveregion to the SCS summer monsoon onset and the land may play a leading role in the SCS summermonsoon onset. 相似文献
9.
A physically-based multi-layer snow model Snow-Atmosphere-Soil-Transfer scheme(SAST)and a land surface model Biosphere-Atmosphere Transfer Scheme(BATS)were employed to investigate how boreal forests influence snow accumulation and ablation under the canopy.Mass balance and energetics of snow beneath a Scots pine canopy in Finland at different stages of the 2003-2004 and 2004 2005 snow seasons are analyzed.For the fairly dense Scots pine forest,drop-off of the canopy-intercepted snow contributes,in some cases,twice as much to the underlying snowpack as the direct throughfall of snow.During early winter snow melting,downward turbulent sensible and condensation heat fluxes play a dominant role together with downward net longwave radiation.In the final stage of snow ablation in middle spring,downward net all- wave radiation dominates the snow melting.Although the downward sensible heat flux is comparable to the net solar radiation during this period,evaporative cooling of the melting snow surface makes the turbulent heat flux weaker than net radiation.Sensitivities of snow processes to leaf area index(LAI)indicate that a denser canopy speeds up early winter snowmelt,but also suppresses melting later in the snow season. Higher LAI increases the interception of snowfall,therefore reduces snow accumulation under the canopy during the snow season;this effect and the enhancement of downward longwave radiation by denser foliage outweighs the increased attenuation of solar radiation,resulting in earlier snow ablation under a denser canopy.The difference in sensitivities to LAI in two snow seasons implies that the impact of canopy density on the underlying snowpack is modulated by interannual variations of climate regimes. 相似文献
10.
Simulating the causal elements of urban heat islands 总被引:8,自引:0,他引:8
A comparison was made between the resultant surface temperatures and sensible heat fluxes of building interfaces calculated by steady-state and transient (implicit) methods. Both procedures used identical environmental (summer and winter) input. For exterior conditions, the results indicated that the correlation between the two methods is sufficiently large, enabling them to be used interchangeably for the spatial analysis of urban canopy layers of entire cities. Using a steady-state approach as a surrogate for unsteady conditions, computer resources can be saved up to a factor of ten. An urban energy budget model (URBAN 3) has been used to demonstrate that the distribution of sensible heat flux and net longwave radiation — the prime causes of urban heat-island generation — was far from the homogeneity assumed in many macroscopic models or even some street-level studies. The individual emanations of reradiation and sensible heat flux showed different diurnal and spatial patterns. Under the input scenarios used, daytime heat islands assumed a doughnut shape in the inner city. It is believed that many of the lower boundary conditions used in macroscopic numerical models are inadequate in light of this study. 相似文献
11.
Difference in the Interdecadal Variability of Spring and Summer Sensible Heat Flux over Northwest China 
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下载免费PDF全文 ZHOU Liantong 《大气和海洋科学快报》2009,2(2):119-123
The present study investigates the difference in interdecadal variability of the spring and summer sensible heat fluxes over Northwest China by using station observations from 1960 to 2000. It was found that the spring sensible heat flux over Northwest China was greater during the period from the late 1970s to the 1990s than during the period from the 1960s to the mid-1970s. The summer sensible heat flux was smaller in the late 1980s through the 1990s than it was in the 1970s through the early 1980s. Both the spring and summer land-air temperature differences over Northwest China displayed an obvious interdecadal increase in the late 1970s. Both the spring and summer surface wind speeds experienced an obvious interdecadal weakening in the late 1970s. The change in the surface wind speed played a more important role in the interdecadal variations in sensible heat flux during the summer, whereas the change in the land-air temperature difference was more important for the interdecadal variations in sensible heat flux in the spring. This difference was related to seasonal changes in the mean land-air temperature difference and the surface wind speed. Further analysis indicated that the increase in the spring land surface temperature in Northwest China was related to an increase in surface net radiation. 相似文献
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祁连山老虎沟12号冰川近地层微气象特征分析 总被引:1,自引:0,他引:1
利用2009年9月1日-2010年8月31日祁连山老虎沟12号冰川海拔4 550m气象观测资料,分析并讨论了气温、降水、比湿、气压、风速、风向、总辐射、感热和潜热通量的变化特征。结果表明,在冰川下垫面影响下,气温的逐时变化呈现出升温比降温要快,但季节变化则相反,气温变化的位相比风速要超前;降水主要集中在5~9月,占全年降水的68.1%;冬季平均风速最大,夏季最小,春季高于秋季,春、秋季冰川风的强度要大于谷风,夏季则相反,冬季冰川风占绝对主导地位,且冰川风对地气间的能量交换有重要影响;全年感热通量日平均值大部分都为正值,而潜热通量基本都为负值,在气温较高、风速较大的情况下二者均有明显的增加;夏季感热和潜热通量的绝对值都比冬季要大。 相似文献
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上海城市精细化地表温度分布模拟 总被引:2,自引:0,他引:2
本文引入了一种模拟城市复杂下垫面地表温度的方法,该方法基于地表辐射参数化方案(NARP)计算城市净辐射通量,然后利用客观滞后模型OHM计算地表储热通量,再利用强迫恢复法计算表面温度。通过上海地区高分辨率卫星资料获取不同地表类型覆盖比例,以每个格点中各地表覆盖类型所占面积比例为权重计算格点的平均地表温度,并对2013年8月12日上海地区地表温度进行模拟。结果表明:上海城市下垫面与其他类型下垫面相比,地表温度白天升高较快,而夜间下降较慢。模拟结果与MODIS陆面温度及地面观测资料进行比较,模拟的上海地表温度分布结构更精细,与气象站观测值较接近。 相似文献
16.
通用陆面模式CLM在东亚不同典型下垫面的验证试验 总被引:20,自引:7,他引:13
利用野外观测资料,考察了通用陆面过程模式(CLM)对东亚地区3种典型下垫面(高原稀疏植被下垫面、森林、水田)的模拟能力.验证结果表明,在高原稀疏植被下垫面,CLM模拟的地表气温跟实测较为接近,同时CLM还可以较好地模拟出土壤温度随时间和深度的变化特征,但模式模拟的地面温度的幅值跟观测相比显著偏小;对于能量通量而言,除感热通量外,CLM所模拟出的其它能量通量的变化均与观测实况比较一致.对于淮河流域的森林下垫面,CLM所模拟出陆气间的各能量通量均与实测较为接近,尤以夏季(8月份)的模拟性能最好.对于水田下垫面,CLM模式较好地模拟出了各能量通量的主要变化特征及其季节差异,如水田的净辐射以及潜热通量夏季最大,而感热通量则是秋季最大等. 相似文献
17.
This study investigates the space–time evolution of the East Asian winter monsoon (EAWM) and its relationship with other climate subsystems. Cyclostationary Empirical Orthogonal Function (CSEOF) analysis and the multiple regression method are used to delineate the detailed evolution of various atmospheric and surface variables in connection with the EAWM. The 120 days of winter (November 17–March 16) per year over 62 years (1948–2010) are analyzed using the NCEP daily reanalysis dataset. The first CSEOF mode of 850-hPa temperatures depicts the seasonal evolution of the EAWM. The contrast in heat capacity between the continent and the northwestern Pacific results in a differential heating in the lower troposphere. Its temporal evolution drives the strengthening and weakening of the Siberian High and the Aleutian Low. The anomalous sea level pressure pattern dictates anomalous circulation, in compliance with the geostrophic relationship. Thermal advection, in addition to net surface radiation, partly contributes to temperature variations in winter. Latent and sensible heat fluxes (thermal forcing from the ocean to the atmosphere) increase with decreased thermal advection. Anomalous upper-level circulation is closely linked to the low-level temperature anomaly in terms of the thermal wind equation. The interannual variability of the seasonal cycle of the EAWM is strongly controlled by the relative strength of the Siberian High to the Aleutian Low. A stronger than normal gradient between the two pressure systems amplifies the seasonal cycle of the EAWM. The EAWM seasonal cycle in the mid-latitude region exhibits a weak negative correlation with the Arctic Oscillation and the East Atlantic/West Russia indices. 相似文献
18.
Urban heat storage derived as energy balance residuals 总被引:5,自引:1,他引:5
The hourly heat storage changes of a suburban area in Vancouver B.C. are evaluated by residual after determining all other terms in the surface energy balance. Despite the errors and uncertainties associated with this approach, the resulting diurnal cycle of heat storage uptake and release appears to behave in a fashion similar to that of less complex systems. When plotted against the net all-wave radiation, the heat storage values display a hysteresis loop with the peak storage preceding that of radiation. Therefore, although a linear parameterization of heat storage is shown to produce reasonable first-order estimates of storage, a form which includes the time derivative of the net radiation is probably better. 相似文献
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The temperature biases of 28 CMIP5 AGCMs are evaluated over the Tibetan Plateau(TP) for the period 1979–2005. The results demonstrate that the majority of CMIP5 models underestimate annual and seasonal mean surface 2-m air temperatures(T_(as)) over the TP. In addition, the ensemble of the 28 AGCMs and half of the individual models underestimate annual mean skin temperatures(T_s) over the TP. The cold biases are larger in T_(as) than in T_s, and are larger over the western TP. By decomposing the T_s bias using the surface energy budget equation, we investigate the contributions to the cold surface temperature bias on the TP from various factors, including the surface albedo-induced bias, surface cloud radiative forcing, clear-sky shortwave radiation, clear-sky downward longwave radiation, surface sensible heat flux, latent heat flux,and heat storage. The results show a suite of physically interlinked processes contributing to the cold surface temperature bias.Strong negative surface albedo-induced bias associated with excessive snow cover and the surface heat fluxes are highly anticorrelated, and the cancelling out of these two terms leads to a relatively weak contribution to the cold bias. Smaller surface turbulent fluxes lead to colder lower-tropospheric temperature and lower water vapor content, which in turn cause negative clear-sky downward longwave radiation and cold bias. The results suggest that improvements in the parameterization of the area of snow cover, as well as the boundary layer, and hence surface turbulent fluxes, may help to reduce the cold bias over the TP in the models. 相似文献
20.
基于1970—2015年青藏高原地区78个站点的观测资料,应用物理方法计算了高原中东部地区的感热通量。利用小波分析、相关性分析等研究了高原中东部感热通量的时空特征和影响因子。结果表明,高原年平均和春夏季节,感热通量周期为3~4 a,而秋冬季节为2~3 a;感热通量的变化趋势为,1970—1980年和2001—2015年感热通量呈增加趋势,而1981—2000年呈减小趋势;高原年平均和各季节的最强感热加热中心均位于高原南坡E区(除冬季外),最弱加热区域位于高原西北部A区(夏季除外);高原春秋季节感热通量的空间分布均匀,冬夏季节有明显的梯度分布且梯度相反,夏季呈现自东到西的梯度;春季、夏季及秋季,高原感热通量和降水呈负相关;高原10 m风速的极值中心随季节北上南撤变化与地气温差的强弱变化共同决定了感热通量的季节变化。 相似文献