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1.
森林下垫面陆面物理过程及局地气候效应的数值模拟试验 总被引:5,自引:0,他引:5
文中基于大气边界层和植被冠层微气象学基本原理 ,建立了一个森林植被效应的陆面物理过程和二维大气边界层数值模式。并应用该模式进行了植被和土壤含水量等生物和生理过程在陆面过程和局地气候效应方面的数值模拟试验。所得数值模拟试验结果与实际情况相吻合。结果表明 ,应用该模式可获得植被温度、植被冠层内空气温度、地表温度日变化特征 ;森林下垫面大气边界层风速、位温、比湿、湍流交换系数的时空分布和日变化特征。该模式还可应用于不同下垫面 ,模拟陆面物理过程与大气边界层相互作用机制及其局地气候效应的研究 ,这将为气候模式与生物圈的耦合研究奠定一个良好的基础。 相似文献
2.
陆面模拟中植被辐射传输参数化方案研究 总被引:2,自引:0,他引:2
在冠层二流辐射传输模式基础上新发展了一个描述太阳短波辐射在植被中传输的冠层四流辐射传输模式.冠层四流辐射传输模式是在大气辐射传输理论的基础上得到一组描述短波辐射在植被中传输过程的冠层辐射传输基本方程,引进大气中求解辐射传输方程的四流近似解法,并求得冠层四流辐射传输方程的解析解.方程中各项参量能够反映叶子或冠层特殊的几何和光学特征.冠层向上、向下辐射通量取决于冠层散射相函数、叶子在入射光方向投影面积、单个叶子反射率和透射率、叶面积指数以及直射光入射太阳高度角等.四流模式计算叶子水平倾角时对太阳短波辐射的反照率,与二流模式结果比较可以验证模式的理论推导和建模都是正确的:计算结果的比较,表明四流模式在水平叶角分布时计算的冠层反照率与二流模式结果一致,同时直射光从任何太阳高度角入射的冠层反照率结果也一致,从而证明发展的冠层四流辐射传输模式是成功的.模拟试验中将两种模型同时耦合到同一个陆面过程模式中进行比较试验,结果表明,冠层四流辐射传输模式能够得到更精确的植被反照率,从而使得陆面模式计算的地表吸收的净太阳辐射通量更接近于观测值. 相似文献
3.
陆面过程模型研究进展简介 总被引:1,自引:0,他引:1
在陆面与大气界面上不断进行着辐射、热量、水分和动量的交换,用于气候模拟或数值天气预报的大气环流模式需要陆面模式计算这些通量(陆面参数化).40年来,陆面模式经历了从简单和不真实的第一代陆面模式发展到更可信的第二和第三代陆面模式.第二代陆面模式包含了生物物理过程而第三代陆面模式包含了生化过程.近10年来,一些陆面模式耦合了动态植被模型和能考虑土壤水分空间非均匀性的水文模型.这些陆面模式与气候和海洋环流模型耦合能够模拟陆地生态系统对全球变化的响应. 相似文献
4.
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
5.
IAP94陆面过程模式在淮河流域的验证试验 总被引:3,自引:0,他引:3
利用IAP94陆面过程模式对淮河流域不同季节(春、夏、秋)、不同下垫面(旱地、森林、水田)进行了单点数值模拟试验,结果表明IAP94不但能较好地模拟出观测的地气间各种能量通量以及植被的冠层温度,同时还很好地模拟出整层土壤含水量的变化趋势,从而证实了IAP94陆面过程模式具有正确描述东亚半湿润季风区陆气相互作用的能力。另外比较结果还揭示了水田表面强烈蒸发作用的重要性,需要在陆过程模式中予以重视。 相似文献
6.
为了研究大气环流模式次网格中尺度通量的参数化问题,本文发展了一个Pielke中尺度边界层与陆面过程的耦合模式,陆面过程模式中包括一个简单植被水热传输模式及一个裸土沙漠模式。利用这一耦合模式,对黑河试验区中沙漠和绿洲这种典型的非均匀下垫面进行了模拟,20多个数值试验的模拟结果表明:(1)中尺度通量在特定的情况下具有和湍流通量相当的重要性,因此,大尺度模式中对中尺度通量的参数化是十分必要的。(2)对于中尺度通量的发展存在一个明显的最优尺度和最优块数,即当绿洲尺度为60 km,3块时,中尺度通量最大。而且当块数增加到一定数目时,可以忽略非均匀效应。(3)背景风速的增大可以使中尺度通量减小;粗糙度的试验说明非均匀块之间的热力差异的减小可使中尺度通量非线性地减小。 相似文献
7.
NIM陆面过程模式的研究Ⅰ:模式建议与对比研究 总被引:2,自引:2,他引:0
为了能真实地模拟干旱、半干旱地区以及湿润地区的陆面与大气之间的能量物质交换,发展了一个具有普适性的南京气象学院(NIM)陆面过程(LSP)模式。该模式是由等温植被参数化方案和本文建立的土壤模式所组成。土壤模式又分为五层模式和两层模式两种。利用1979年5~8月“青藏高原气象科学实验”资料作验证,同时将五层模式与Deardorff(1978)陆面模式、两层模式作了对比,结果表明五层土壤模式的模拟效果 相似文献
8.
多层城市冠层模式的建立及数值试验研究 总被引:4,自引:1,他引:3
为在城市气象数值模拟中更好地体现由城市发展引起的下垫面土地利用改变及人为活动对大气过程的影响,建立了基于建筑物三维分布的多层城市冠层模式,冠层内动力方程组考虑了建筑物冠层拖曳力的作用及雷诺应力的影响,通过引入建筑物宽度、间距以及垂直分布密度指数等建筑物形态特征参数,以更好地体现城市复杂地表对大气温度、湿度及动量方程的影响.同时,该模式分屋顶、4个侧壤及地面分别考虑辐射及能量平衡求解表面温度,计算各表面与大气的通量交换,并考虑辐射阴影效应、冠层内部各个面之间的可视因子、以及与冠层内建筑物密度指数、可视因子等相关的多重反射辐射导致的辐射截陷作用.模式的离线检验结果表明:(1)冠层模式计算风廓线与风洞实验测量数据吻合良好;(2)离线冠层模式能够模拟实际小区的风速、温度垂直廓线,并能够较好地体现小区内气温日变化.冠层模式与区域边界层模式耦合检验结果表明:(1)耦合模拟的近地面(2 m处)气温及地表温度的结果明显优于传统的水泥平板方案,尤其是在夜间,水泥平板方案与实测气温最大偏差4 K左右,耦合模拟方案为1-2 K;(2)耦合模拟方案考虑了建筑物对冠层之上的拖曳力影响以及建筑物形态结构对雷诺应力的影响,风速(10 m处)计算结果与观测值相差约在1 m/s,水泥平板方案偏差3 m/s左右. 相似文献
9.
植被覆盖异常变化影响陆面状况的数值模拟 总被引:15,自引:2,他引:15
利用NCAR最新的公用陆面模式CLM3.0,通过数值模拟初步研究了植被叶面积指数(LAI,leafareaindex)异常变化对陆面状况的可能影响,结果表明,植被LAI的异常变化能够引起地表能量平衡、地表水循环等陆面状况的异常。(1)植被LAI的异常变化主要影响太阳辐射在植被与地表之间的分配,以及地表的感热、潜热通量。植被LAI增大,能够引起植被吸收的太阳辐射增加,而到达土壤表面的太阳辐射减小,并导致植被的蒸发、蒸腾潜热通量增加,造成地表的蒸发潜热和感热通量不同程度的减小。(2)植被LAI增大时,植被对降水的拦截和植被叶面的蒸发增大,植被的蒸腾作用也明显增强;植被LAI增加会使得热带地区各个季节的土壤表面蒸发、地表径流减小,而土壤湿度有所增加;LAI增加造成中高纬度地区土壤蒸发的减少主要出现在夏季;LAI增加还能够引起中高纬地区冬、春积雪深度不同程度的增加,造成春末、夏初地表径流的增加。(3)植被LAI增加能够使得叶面和土壤温度有所下降,但植被LAI的变化对叶面、土壤温度的影响相对较小。 相似文献
10.
一个陆面过程参数化模式与
MM5的耦合 总被引:10,自引:0,他引:10
在法国陆面过程模式的基础上,为了表示冠层叶片遮挡对水分蒸发阻抗的影响,在植被覆盖部分引入了遮盖因子,然后将这个修正的陆面过程参数化模式耦合到MM5模式中。耦合后的模式模拟出了因为降水造成土壤湿度变化和植被覆盖动态作用对地面通量的影响,而原MM5模式模拟结果则没有反映上述动态变化对地面通量的作用。原MM5模式和耦合模式模拟了1993年8月17日到20日以内蒙古半干旱草原为中心的中尺度区域的气象场,模拟结果和IMGRASS预观测资料进行了对比,对比说明新的陆面过程模式提高了MM5模式对地面通量和边界层各物理量(风、温、湿)的模拟精度。 相似文献
11.
In this paper, a generalized layered model for radiation transfer in canopy with high vertical resolution is developed. Differing from the two-stream approximate radiation transfer model commonly used in the land surface models, the generalized model takes into account the effect of complicated canopy morphology and inhomogeneous optical properties of leaves on radiation transfer within the canopy. In the model, the total leaf area index (LAI) of the canopy is divided into many layers. At a given layer, the influences of diffuse radiation angle distributions and leaf angle distributions on radiation transfer within the canopy are considered. The derivation of equations serving the model are described in detail, and these can deal with various diffuse radiation transfers in quite broad categories of canopy with quite inhomogeneons vertical structures and uneven leaves with substantially different optical properties of adaxial and abaxial faces of the leaves. The model is used to simulate the radiation transfer for canopies with horizontal leaves to validate the generalized model. Results from the model are compared with those from the two-stream scheme, and differences between these two models are discussed. 相似文献
12.
In this paper, firstly, a simplified version (SGRTM) of the generalized layered radiative transfer model (GRTM) within the canopy, developed by us, is presented. It reduces the information requirement of inputted sky diffuse radiation, as well as of canopy morphology, and in turn saves computer resources. Results from the SGRTM agree perfectly with those of the GRTM. Secondly, by applying the linear superposition principle of the optics and by using the basic solutions of the GRTM for radiative transfer within the canopy under the condition of assumed zero soil reflectance, two sets of explicit analytical solutions of radiative transfer within the canopy with any soil reflectance magnitude are derived: one for incident diffuse, and the other for direct beam radiation. The explicit analytical solutions need two sets of basic solutions of canopy reflectance and transmittance under zero soil reflectance, run by the model for both diffuse and direct beam radiation. One set of basic solutions is the canopy reflectance αf (written as α1 for direct beam radiation) and transmittance βf (written as β1 for direction beam radiation) with zero soil reflectance for the downward radiation from above the canopy (i.e. sky), and the other set is the canopy reflectance (αb) and transmittance βb for the upward radiation from below the canopy (i.e., ground). Under the condition of the same plant architecture in the vertical layers, and the same leaf adaxial and abaxial optical properties in the canopies for the uniform diffuse radiation, the explicit solutions need only one set of basic solutions, because under this condition the two basic solutions are equal, i.e., αf = αb and βf = βb. Using the explicit analytical solutions, the fractions of any kind of incident solar radiation reflected from (defined as surface albedo, or canopy reflectance), transmitted through (defined as canopy transmittance), and absorbed by (defined as canopy absorptance) the canopy and other properties per 相似文献
13.
Summary A land-air parametrization scheme (LAPS) describes mass, energy and momentum transfer between the land surface and the atmosphere. The scheme is designed as a software package which can be run as part of an atmospheric model or a stand-alone scheme. A single layer approach is chosen for the physical and biophysical scheme background. The scheme has six prognostic variables: two temperatures (one for the canopy vegetation and one for soil surface), one interception storage, and three soil moisture storage variables. The scheme's upper boundary conditions are: air temperature, water vapour pressure, wind speed, radiation and precipitation at some reference level within the atmospheric boundary layer. The sensible and latent heat are calculated using resistance representation. The evaporation from the bare soil is parametrized using the scheme. The soil part is designed as a three-layer model which is used to describe the vertical transfer of water in the soil.The performances of the LAPS scheme were tested using the results of meteorological measurements over a maize field at the experimental site De Sinderhoeve (The Netherlands). The predicted partitioning of the absorbed radiation into sensible and latent heat fluxes is in good agreement with observations. Also, the predicted leaf temperature agrees quite well with the observed values.With 9 Figures 相似文献
14.
Volker K. Schilling 《Boundary-Layer Meteorology》1991,55(3):283-304
A parameterization scheme has been developed to describe the effects of a tall forest on the mean structure of the atmospheric boundary layer (ABL). The main advantage of the scheme is that dynamical and thermodynamical effects of a forest surface can be simulated satisfactorily using only a coarse-grid resolution within numerical models. Thereby, the canopy layer is parameterized as a quasi-subgrid phenomenon. This makes it possible to study meteorological phenomena within the ABL in a very economical way (with respect to computational time) whereby, nevertheless, more detailed information concerning the forest surface is taken into account than could be done using the same grid resolution and quite simple assumptions describing the canopy, e.g., the effective roughness.The applicability in numerical models is shown by using a slightly modified two-dimensional version of the mesoscale model FITNAH. For comparison, simulations with a high numerical grid resolution within the canopy have been carried out.Model results reproduce the known meteorological phenomena in forested areas, e.g., a stable thermal stratification near the surface during the day, and at night, a neutral — or slightly unstable condition — and, in general, reduced windspeed within the canopy layer.Diurnal variations and spatial distributions of temperature and humidity are found to be similar for both cases. Also, a thermally-induced local circulation system in the vicinity of a large clearing has been simulated satisfactorily.A comparison of the calculated results verifies that the parameterization scheme is quite suitable for simulating the effects of plant canopies on the distributions of meteorological variables in the ABL. 相似文献
15.
The new Forest-Land-Atmosphere ModEl called FLAME is presented. The first-order, nonlocal turbulence closure called transilient turbulence theory (Stull, 1993) is applied to study the interactions between a forested land-surface and the atmospheric boundary layer (ABL). The transilient scheme is used for unequal vertical grid spacing and includes the effects of drag, wake turbulence, and interference to vertical mixing by plant elements. Radiation transfer within the vegetation and the equations for the energy balance at the leaf surface have been taken from Norman (1979). Among others, the model predicts profiles of air temperature, humidity and wind velocity within the ABL, sensible and latent heat fluxes from the soil and the vegetation, the stomata and aerodynamic resistances, as well as profiles of temperature and water content in the soil. Preliminary studies carried out for a cloud free day and idealized initial conditions are presented. The canopy height is 30 m within a vertical domain of 3 km. The model is able to capture some of the effects usually observed within and above forested areas, including the relative wind speed maximum in the trunk space and the counter gradient-fluxes in the lower part of the plant stand. Of special interest is the determination of the location and magnitude of the turbulent mixing between model layers, which permits one to identify the effects of large eddies transporting momentum and scalar quantities into the canopy. A comparison between model simulations and field measurements will be presented in a future paper. 相似文献
16.
文中分析和模拟了森林冠层上下动量、热量和水汽传输的特征。结果表明:冠层对动量的吸收十分明显,非局地扩散通量在冠层上下的动量传输中起着很大的作用;白天在冠层下层结稳定,但冠层下观测的感热通量向上传输;夜晚冠层下层结不稳定,但冠层下观测的感热通量向下传输,白天和晚上都出现了热量的反梯度传输现象,从而证明在热量输送中,非局地扩散通量不可忽视。同时对冠层上下的水汽交换特征的分析表明:非局地扩散通量是冠层内水汽向冠层上传输的主要机制。 相似文献
17.
We investigate the effect of source distribution on the bulk transfer of passive scalars between rough, vegetated land surfaces
and the atmosphere, using data from a wind-tunnel experiment in which passive heat was emitted from both the underlying surface
and canopy elements of a three-dimensional regular bluff-body array. The experimental results are compared with a simple one-dimensional,
two-source model for scalar transfer. We find that: (1) the observed scalar transfer resistance across the boundary layer
at the underlying surface is simply related to flat-plate theory by a constant of 0.62, despite the complexity of the turbulent
flow within the wind-tunnel canopy; (2) one-dimensional gradient-transfer theory, even with extensions to account for the
non-local nature of turbulent transfer within the canopy, does not describe the observed details of scalar concentration gradients
in the highly three-dimensional canopy flow, but does provide a reasonable framework for bulk scalar transfer between the
composite ground-canopy surface and the flow above the canopy; (3) the kB
−1 parameter (which accounts for bulk excess resistance to scalar transfer over momentum transfer) is highly sensitive to scalar
source partition between ground and canopy. 相似文献
18.
Accurately representing complex land-surface processes balancing complexity and realism remains one challenge that the weather
modelling community is facing nowadays. In this study, a photosynthesis-based Gas-exchange Evapotranspiration Model (GEM)
is integrated into the Noah land-surface model replacing the traditional Jarvis scheme for estimating the canopy resistance
and transpiration. Using 18-month simulations from the High Resolution Land Data Assimilation System (HRLDAS), the impact
of the photosynthesis-based approach on the simulated canopy resistance, surface heat fluxes, soil moisture, and soil temperature
over different vegetation types is evaluated using data from the Atmospheric Radiation Measurement (ARM) site, Oklahoma Mesonet,
2002 International H2O Project (IHOP_2002), and three Ameriflux sites. Incorporation of GEM into Noah improves the surface energy fluxes as well
as the associated diurnal cycle of soil moisture and soil temperature during both wet and dry periods. An analysis of midday,
average canopy resistance shows similar day-to-day trends in the model fields as seen in observed patterns. Bias and standard
deviation analyses for soil temperature and surface fluxes show that GEM responds somewhat better than the Jarvis scheme,
mainly because the Jarvis approach relies on a parametrised minimum canopy resistance and meteorological variables such as
air temperature and incident radiation. The analyses suggest that adding a photosynthesis-based transpiration scheme such
as GEM improves the ability of the land-data assimilation system to simulate evaporation and transpiration under a range of
soil and vegetation conditions. 相似文献
19.
Canopy interception of incident precipitation, as a critical component of a forest's water budget, can affect the amount of water available to the soil, and ultimately vegetation distribution and function. In this paper, a statistical-dynamic approach based on leaf area index and statistical canopy interception is used to parameterize the canopy interception process. The statistical-dynamic canopy interception scheme is implemented into the Community Land Model with dynamic global vegetation model (CLM-DGVM) to improve its dynamic vegetation simulation. The simulation for continental China by the land surface model with the new canopy interception scheme shows that the new one reasonably represents the precipitation intercepted by the canopy. Moreover, the new scheme enhances the water availability in the root zone for vegetation growth, especially in the densely vegetated and semi-arid areas, and improves the model's performance of potential vegetation simulation. 相似文献