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1.
农桐间作地热量平衡和水分利用状况研究 总被引:5,自引:0,他引:5
由实测资料系统分析了农桐间作地热量平衡各分量复杂的时空变化特征。结果表明:间作内外蒸发耗热(LE)仍是主要耗热项,湍流耗热(H)低于LE,但高于土壤热通量(Q);间作地各分量小于对照,但LE、Q占净辐射(Rn)比值高于对照;泡桐林带对各分量的影响与间作结构及测点位置有关。然后计算了间作中小麦、棉花水分利用率(WUE),其值与作物类型,生长期等因子有关,且间作地高于对照。 相似文献
2.
农田近地面层CO2和湍流通量特征研究 总被引:11,自引:0,他引:11
利用1985年5月至6月在北京郊区中国科学院农业生态试验研究站的麦田中实测的小麦不同生长期的CO2浓度梯度、光合有效辐射、净辐射、土壤热通量和温度、湿度及风速梯度等量的数据,采用空气动力学方法,计算了CO2通量、感热通量、潜热通量和动量通量。并对观测场地、仪器设备、校准方法及误差分析进行了描述。结果表明:从5月14日到6月15日,在1m,2m和10m处,CO2浓度振幅的日变化分别为103.4到27.5,87.5到27.3和69.8到11.5ppm;光合型和呼吸型的平均CO2浓度分别为345.3,350.6,357.5ppm和373.9,369.7,362.1ppm。在白天,CO2通量和梯度的输送方向是从大气向植被,在中午(11时到13时)输送达到负的最大值。在夜间,CO2通量和梯度输送的方向与白天相反,并且,在早晨(4时到6时)达到正的最大值。CO2通量与净辐射(Rn)、可利用能(H+LE)、光合有效辐射和动量通量之间有较好的相关关系 相似文献
3.
本模式为针对大气环流模式所发展的一个简单的陆面过程模式,它包含:(1)地表温度计算,(2)冠层叶面贮水量和土壤湿度计算,(3)陆面与大气之间的水分和能量交换。对于表面温度和含水量的计算,采用的是联立求解计算方案,即耦合计算。植被冠层叶面的辐射特性和冠层形态对冠层中的辐射交换的影响得到有效和尽可能简单的模拟。另外,植被的气孔阻抗、表面与大气之间的水热交换通量和土壤中的水热输导作了较为细致的描写。利用此模式开展了对两个不同覆盖类型的陆面过程的模拟,模拟和观测的表面通量、温度和湿度较为相近。 相似文献
4.
使用LAS系统测量显热通量 总被引:1,自引:0,他引:1
1前言干旱是影响我省西部发展的一个重要问题。一般在干旱地区,土壤的干湿主要取决于降水和蒸散。降水量大于蒸散量为湿润,反之为干燥。研究水份平衡时,要直接测量蒸散量是非常困难的,为了通过间接计算得到蒸散量,最常用的方法是能量平衡法,即Rn=H A LE(1)式中Rn是净辐射,H是显热通量,A是土壤热通量,LE是蒸散消耗的能量。在一般情况下,一整天中A的数值很小,Rn是常规测量值,只要测出H值,就可以计算出蒸散量。H值可以通过公式H=ρCpωθ来计算。其中ρ是空气密度,Cp是定压比热,ω是垂直气流速度,θ是温度脉动值。… 相似文献
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在太阳辐射观测记录中,总辐射的辐照度时常出现如下两种情况:一是在相同的光照强度情况下,测得的辐照度早上要比傍晚的大;二是多云或阴晴相间天气辐照度日最大值比全天无云时的大。本文将就以上两种情况进行分析。1 总辐射辐照度早上大于傍晚的原因目前,我国太阳辐射观测站使用的辐射表都是热电型的,它由感应面和温差电堆两部分组成。它的工作原理可用E=A(t1-t2)表示。式中,E为辐照度,A为常数,t1为感应面温度(热端温度),t2为冷端温度(假定等于空气温度)。由此看出,辐照度的大小取决于热端与冷端的温度差(… 相似文献
6.
为了用气候模式研究冰雪圈变化的气候效应,我们在已经发展的土壤-植被-大气模式基础上,考虑积雪改变表水文和反照率的参数化,建立了包含雪盖问题的陆面过程模式。利用中国西北黑河地区的HEIFE实测气象和辐射资料,检验了模式对大气降雨和降雪的响应,结果表明,该模式描写的各种物理过程合理,一些可观测要素(如地面温度和地表净辐射通量)的演变特征与实况相当一致。 相似文献
7.
甘肃马衔山区陆面过程与降水的研究 总被引:1,自引:0,他引:1
采用定西的麦田微气象观测,定西、兰州的辐射观测和马衔山区34个气象、水文和雨量站的气候资料,结合NOAA-16卫星的AVHRR资料以及反演的地表植被盖度和反射率,并用SEBAL算法推导出夏季地表净辐射、感热、潜热、土壤热通量密度的区域分布特征,并分析陆面过程对降水的影响。结果表明:本区降水的空间分布与夏季植被盖度对应最好,相关系数高达0.722,其次是土壤热通量和潜热通量,相关系数分别为-0.65和0.615。这表明森林通过降低地表反射率和表面温度,不仅增加地表净辐射,而且减少其用于感热和土壤热通量的消耗。由于林区地表水分多,从而将接收较多的太阳辐射能主要用于蒸散,增加边界层中的水汽。故林区降水远大于植被稀疏的半干旱黄土梁。 相似文献
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通用陆面模式对土壤质地和亮度的敏感性分析 总被引:6,自引:2,他引:4
使用前苏联Valdai 1966~1971年的气象观测资料,研究了通用陆面模式(Common Land Model,CoLM)模拟的水分循环和地表通量在12种土壤质地和8种土壤亮度条件下的差异。结果表明,在相同的气象条件下,模拟的热通量对土壤质地和亮度都比较敏感,而地表水文过程只对土壤质地敏感。土壤亮度相同时,相对砂性土壤,粘土含量高的土壤保水性强,土壤湿度、地表蒸发和径流量都比较大(月均最大差值:土壤湿度约为5 kg·m-2,地表蒸发和径流量约为年降水量的7%和1.2 %),相应地在热通量分配上存在明显差异(月均最大差值为8 W·m-2);土壤质地相同,亮度由亮变暗时,潜热通量变化很小,地表温度略有升高,而感热通量和净辐射增加显著(月均最大差值为7 W·m-2)。土壤质地和亮度对模拟的影响主要存在于降水少、植被覆盖度低的3~5月。 相似文献
11.
Modeling microclimate environments: A verification study 总被引:3,自引:0,他引:3
A numerical model is developed for simulating microclimate of plants and bare soil. The model evaluates heat, mass, momentum, and radiative fluxes in the soil-plant-atmosphere system. Its vertical domain may extend throughout the whole Planetary Boundary Layer (PBL). The model requires, either, temporal meteorological data of solar radiation, wind speed, air temperature and humidity measured over the field, or, when applied to the whole PBL, initial values of the latter three at its top. Vegetation parameters (leaf area index, photometric properties, root distribution and density) as well as soil texture, hydraulic and photometric properties are considered. The model was verified with meteorological data taken from two different climatological regions, above a bare soil and two cotton fields.For all case studies, observed and calculated values of air (except for within-canopy) and soil temperatures, wind speed, net radiation, and soil-, latent-, and sensible heat fluxes, agreed well with measurements. 相似文献
12.
Net radiation measurements were made with a traversing system in a 250 cm tall (LAI = 4.0) corn crop with east-west oriented rows. Frequency distributions of flux density of net radiation were plotted using 0.075 cal cm-2 min-1 class intervals. These distributions showed a shift from predominantly sunlit to predominantly shaded conditions with depth into the plant canopy. The frequency distributions showed that net radiation in sunflecks in a canopy can exceed that above the canopy, and that negative values of net radiation can exist in shadows. A Soil-Plant-Atmosphere Model (SPAM) also predicted that net radiation in sunflecks in the canopy would exceed net radiation above the canopy. The effects of spots with high radiation load within the plant canopy on leaf temperature and convective heat exchange were investigated theoretically.Contributed by the Northeast Branch, Soil and Water Conservation Research Division, Agricultural Research Service, U.S. Department of Agriculture, in cooperation with the Cornell University Agricultural Experiment Station, Ithaca, New York. Supported in part by the Atmospheric Sciences Laboratory, U.S. Army Electronics Command, Fort Huachuca, Arizona. Deparment of Agronomy Series, Paper No. 907. 相似文献
13.
A numerical two-dimensional model based on higher-order closure assumptions is developed to simulate the horizontal microclimate distribution over an irrigated field in arid surroundings. The model considers heat, mass, momentum, and radiative fluxes in the soil-plant-atmosphere system. Its vertical domain extends through the whole planetary boundary layer. The model requires temporal solar and atmospheric radiation data, as well as temporal boundary conditions for wind-speed, air temperature, and humidity. These boundary conditions are specified by an auxiliary mesoscale model and are incorporated in the microscale model by a nudging method. Vegetation parameters (canopy height, leaf-angle orientation distribution, leaf-area index, photometric properties, root-density distribution), soil texture, and soil-hydraulic and photometric properties are considered.The model is tested using meteorological data obtained in a drip-irrigated cotton field located in an extremely arid area, where strong fetch effects are expected. Four masts located 50 m before the leading edge of the field and 10, 30, and 100 m inward from the leading edge are used to measure various meteorological parameters and their horizontal and vertical gradients.Calculated values of air and soil temperatures, wind-speed, net radiation and soil, latent, and sensible heat fluxes agreed well with measurements. Large horizontal gradients of air temperature are both observed and measured within the canopy in the first 40 m of the leading edge. Rate of evapotranspiration at both the upwind and the downwind edges of the field are higher by more than 15% of the midfield value. Model calculations show that a stable thermal stratification is maintained above the whole field for 24 h. The aerodynamic and thermal internal boundary layer (IBL) growth is proportional to the square root of the fetch. This is also the observed rate of growth of the thermal IBL over a cool sea surface. 相似文献
14.
利用MERIS和AATSR资料估算黄土高原塬区蒸散发量研究 总被引:8,自引:7,他引:1
基于陆面能量平衡原理,通过对搭载在欧洲空间局环境卫星(Environmental Satellite,ENVI-SAT)上中分辨率影像光谱仪(Medium Resolution Imaging Spectrometer,MERIS)2005年6月7,11和27日的遥感观测资料进行大气纠正等预处理后,得到估算瞬时蒸散发量所需要的地表反照率和植被覆盖度等值,并利用分裂窗法和ENVISAT上搭载的先进的沿轨迹扫描辐射计(Advanced Along-TrackScanning Radiometer,AATSR)的观测资料进行了地表温度的反演,进一步估算出黄土高原塬区午间瞬时净辐射、感热通量和土壤热通量。结合与卫星遥感观测资料同期研究区域气象站的太阳辐射、气温、日照时数和风速等气象要素资料,充分考虑到植被冠层和陆地表面对蒸散发量的不同影响,发展了一个可以估算陆面潜热的简化模型,并将瞬时蒸散发量转化为日蒸散发量。对卫星遥感估算的潜热通量,利用黄土高原塬区陆面过程野外观测试验(Loess Plateau land surface process field Experiments,LOPEXs)的地面通量观测资料进行验证,结果表明:二者最大相对差异为10.9%,最小相对差异为4.8%,并对差异误差产生的原因进行了分析和探讨。 相似文献
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Abstract Dawn‐to‐dusk evolution of air turbulence, sensible heat and latent heat above a forest during cloud‐free or near‐cloud‐free summer conditions is modelled by way of a system of differential equations. Temperatures in and above the canopy, near canopy‐top wind velocities, early morning leaf moisture (dew) and afternoon canopy ventilation (i.e. heat released from the canopy and from below the canopy) are included in the mathematical treatment. Computed results are compared with field data for atmospheric temperature and wind speed profiles up to 1200 m, within‐canopy temperature, and canopy‐level radiation, turbulent fluxes and wind speeds. Data were collected at a central New Brunswick mixed‐wood forest site dominated by spruce (Picea spp. ) and shade‐tolerant hardwoods for four representative summer days. It was found that the effective canopy temperature was not only affected by insolation, but also by the extent of canopy ventilation and the amount of dew on the foliage. The growth of the mixing layer was affected by canopy ventilation and by above‐canopy wind speeds. Model calculations closely simulated the meteorological observations. 相似文献
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An urban canopy model is developed for use in mesoscale meteorological and environmental modelling. The urban geometry is
composed of simple homogeneous buildings characterized by the canyon aspect ratio (h/w) as well as the canyon vegetation characterized by the leaf aspect ratio (σ
l
) and leaf area density profile. Five energy exchanging surfaces (roof, wall, road, leaf, soil) are considered in the model,
and energy conservation relations are applied to each component. In addition, the temperature and specific humidity of canopy
air are predicted without the assumption of thermal equilibrium. For radiative transfer within the canyon, multiple reflections
for shortwave radiation and one reflection for longwave radiation are considered, while the shadowing and absorption of radiation
due to the canyon vegetation are computed by using the transmissivity and the leaf area density profile function. The model
is evaluated using field measurements in Vancouver, British Columbia and Marseille, France. Results show that the model quite
well simulates the observations of surface temperatures, canopy air temperature and specific humidity, momentum flux, net
radiation, and energy partitioning into turbulent fluxes and storage heat flux. Sensitivity tests show that the canyon vegetation
has a large influence not only on surface temperatures but also on the partitioning of sensible and latent heat fluxes. In
addition, the surface energy balance can be affected by soil moisture content and leaf area index as well as the fraction
of vegetation. These results suggest that a proper parameterization of the canyon vegetation is prerequisite for urban modelling. 相似文献
17.
NIM陆面过程模式的研究Ⅱ:青藏高原夏季陆面过程的数值模拟 总被引:4,自引:1,他引:4
采用南京气象学院(NIM)5层陆面过程模式,利用1979年5-8月“青藏高原气象科学实验”资料模拟和分析了夏季青藏高原不同地区的陆面特征和地表能量特征。并将模拟值与根据观测资料计算得到的感热和潜热以及观测得到的净辐射、土壤温度、土壤热通量进行了对比。结果表明,NIM5层陆面过程模式可以模拟青藏高原夏季不同下垫面情形下的能量交换过程。 相似文献
18.
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
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A new method to estimate tree biomass heat storage from thermal infrared (TIR) imaging of biomass surface temperature is presented.
TIR images of the canopy are classified into trunk, branches, and leaves. The one-dimensional heat equation in cylindrical
coordinates is forced with trunk and branch surface temperatures to simulate the temperature distribution and heat storage
in tree trunks and branches. Assuming uniform leaf temperatures, heat storage in leaves is computed from the surface temperature
of the leaves separately for the sunlit upper and shaded lower canopy. The sum of trunk, branches, leaf, and air heat storage
gives the canopy heat storage. Measurements in a walnut orchard near Davis, California, in early June 2007 showed that biomass
heat storage was of the same order as air heat storage and about 1% of daytime and 9% of nighttime net radiation. 相似文献