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1.
影响植被内部辐射状况的冠层结构特征研究 总被引:6,自引:0,他引:6
植被冠层结构特征是影响植被内部辐射状况的重要因子之一,对于植被群体的光合特性来说,冠层结构特性影响了光合有效辐射的截获、吸收和透射。本文着重分析了冠层结构的数量特征(如叶面积指数)和冠层几何结构特征,综合考虑叶倾角、叶方位角和G函数等群体几何特征,以便直接用于遥感光合植被生物量机理估测模型的建立。 相似文献
2.
为探究陆气系统对于冠层截留过程敏的感性,研究基于NCAR CAM-CLM陆气耦合模式探讨了截留参数对于全球陆地蒸发、降水、径流及气温的可能影响,揭示了冠层截留与植被光合作用之间的潜在联系。通过GLEAMv3.0a陆面蒸散发数据评估了CLM4.5冠层截留方案,并指出该方案高估了低茎叶面积指数植被的冠层蒸发,而低估了高茎叶面积指数植被的冠层蒸发。在CLM4.5中引入冠层截留偏差校正方案则可在一定程度上提高了全球林区冠层蒸发和陆面蒸散发的模拟能力。 相似文献
3.
根据湍流应力模式的模拟结果,讨论了植被冠层中湍流能量的平衡特征,并通过数值试验就冠层结构对流场结构的影响进行了分析。 相似文献
4.
从植被冠层湍流时空平均雷诺应力方程出发,根据植被冠层内有关参数化的准则,建立了湍流代数应力模式,并用玉米和小麦两种作物地的实测资料对模式进行了验证。 相似文献
5.
高光谱遥感技术监测作物含水量是了解作物生长状况的重要技术。为实现夏玉米不同生育期叶片和冠层含水量的快速、精细化、无损监测,本文基于2014年和2015年的6—10月华北夏玉米不同生育期不同灌水量干旱模拟试验数据构建了植被水分指数(WI,MSI,GVMI)、复比指数(WNV和WCG)和红边反射率曲线面积(Darea)的夏玉米冠层等效水厚度(EWTC)和叶片可燃物含水量(FMC)的反演模型。结果表明:6个指标反演夏玉米三叶期的EWTC模型均未达到0.05显著性水平,三叶期后各指标反演EWTC模型均达到0.01的显著性水平,且总体而言模型精度从高到低为抽雄期、拔节期、灌浆期、成熟期和七叶期。6个指标反演七叶期和拔节期的FMC均达到0.01显著性水平。因此,同一光谱指标反演夏玉米不同生育期叶片和冠层含水量的精度差异较大。光谱指标反演夏玉米叶片和冠层含水量指标的精度与夏玉米生育期有很大关系,进而提出了夏玉米不同生育期含水量反演模型。研究结果可为准确模拟夏玉米不同生育期含水量提供技术支撑。 相似文献
6.
7.
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
8.
本文利用淮南森林观测站2018年7月1日至2019年6月30日冠层辐射观测,分析了淮南栎树森林下垫面冠层内外辐射变化特征。结果表明:(1)从春季到夏季,栎树冠层之上向下的太阳短波辐射增加,到冬季逐渐减少。从早春开始,由于叶片生长增多,冠层中间和冠层之下向下的太阳短波辐射下降,从秋季到冬季树叶凋落,其向下的太阳辐射增加,与冠层之上的变化趋势相反;对于向上的短波辐射,无论冠层之上、冠层中间还是冠层之下,随季节的变化都与向下的短波辐射相似,只是数值小很多。(2)冠层之上、冠层中间和冠层之下向下的长波辐射,随时间的变化从春季逐渐开始增大至夏季达到最大,随后逐渐减小并在冬季达到最小;就空间变化而言,冠层中间和冠层之下向下的长波辐射值比冠层之上的辐射值高,使得冠层对长波辐射的振幅增大,晴空条件最高可达1.3倍。(3)淮南森林区冠层之上(距地面25 m)年平均反照率为0.14,比中国北方地区(35°N)温带季风气候区(混交林为主)反照率的整体水平低0.01,表明淮南的森林茂密、灌丛更多些。(4)冠层上部分和整层的短波辐射透射率主要受叶片的影响。夏季,冠层的短波透射率平均为0.1。到了冬天,叶子凋落,透射率增加并趋于一个平稳的波动。冠层的短波辐射吸收率在夏季最高,秋季逐渐降低,随着叶子凋落在冬季迅速减小,趋于一常值。 相似文献
9.
北方玉米冠层光合有效辐射垂直分布及影响因子分析 总被引:3,自引:0,他引:3
玉米冠层内光合有效辐射(PAR)的大小直接影响冠层内叶片的光合作用,进而影响玉米净第一性生产力或作物产量的准确评估。为弄清玉米冠层内光合有效辐射的分布规律及其影响因子,基于锦州玉米农田生态系统于2006年生育期的光合有效辐射观测数据和叶面积指数动态观测数据,对玉米冠层光合有效辐射的垂直分布特征及其影响因子进行了分析。结果表明:玉米冠层内不同垂直层次叶片的PAR分布随生育期变化显著,与叶面积指数呈显著的负相关(R2=0.89);玉米冠层光合有效辐射的消光系数K值在生育期呈动态变化,约为0.76,且表现为苗期较大、生育后期较小。分析表明,在进行光合有效辐射及与此密切相关的光合作用模拟时,应考虑消光系数的动态变化。 相似文献
10.
不同城市冠层参数化方案对重庆高密度建筑物环境的数值模拟研究 总被引:7,自引:0,他引:7
目前,耦合在WRF模式中的城市冠层方案包括单层冠层方案(UCM),多层冠层方案(BEP)以及考虑室内外大气能量交换的多层冠层方案(BEP+BEM)。不同方案计算过程及参数设置不尽相同,这些方案能否适应高密度建筑物复杂下垫面的城市气象环境的模拟?建筑物形态参数对于城市气象因子模拟的敏感性如何?为回答上述问题,选取建筑物高密度城市——重庆为研究对象,以2006年重庆高温伏旱天气为背景,采用高分辨率(333 m×333 m)的地理信息系统数据替换WRF模式中默认的美国地质调查局(USGS)静态数据,对WRF中的3种城市冠层方案进行了模拟评估,并进行建筑物形态参数变化对气象因子影响的敏感试验。结果表明:(1)BEP+BEM、BEP、UCM方案模拟值与城区内10个站点2 m高气温观测值的均方差和平均误差分别为1.3、1.4、2.1和-0.5、-0.8、-1.4℃,单层冠层方案相对较差,BEP+BEM方案最好。模拟值普遍略低于观测值。位于密集建筑物周边的2 m高气温模拟值与自动站观测吻合相对较好,而中国国家基本站的观测值与模拟值相比,观测值偏低,靠近水体的模拟结果相对较差;(2)建筑物高度及密度参数的变化对城市近地层气温产生明显的影响,当建筑物高度增高时,由于短波遮蔽作用的影响,白天气温降低最大达到0.4℃,而夜间由于辐射截陷作用增强,气温明显升高,最大可达0.7℃。建筑物间距缩小,导致白天近地面气温降低,夜晚则升高,且夜间变化幅度更大;(3)当调整建筑物高度及密度参数分别为:高度20%(15 m)+60%(20 m)+20%(25 m),间距20 m时,城区内观测站点2 m高气温观测值与模拟值的均方根误差从1.3℃减小到0.6℃,提高了模式的模拟性能。 相似文献
11.
基于Lotka Volterra方程的基因调控网络的稳定性分析 总被引:1,自引:0,他引:1
在2007年7—8月棉花生长旺季,将冠层按高度分多层,通过简单的试验方法确定了棉冠内叶片丛聚指数(clumping index,Ω),以此区分计算出田间各层逐时阳叶(受光叶)和阴叶(被遮荫叶)叶面积指数的动态值。在8月23日用LI-6400R便携式光合测量系统分多层分别测定阴、阳叶单张叶片净光合作用的日变化,结合阴、阳叶面积权重,探讨利用Ω区分阴阳叶之后对整个冠层日总光合作用的影响。试验结果表明:(1)花铃期棉花冠层内Ω约为0.68;(2)利用Ω计算得到8月23日冠层日间(09:00—18:00)总净光合作用日平均值大约为20.3μmol·m-2·s-1,其中阳叶贡献约占总量的72%,阴叶约占总量的28%;(3)上层叶片贡献约占总量的75%,中层叶片约占总量的22%,下层叶片约占总量的3%。 相似文献
12.
西北地区陆地生态系统植被状态参数业务化遥感研究 总被引:7,自引:0,他引:7
植被指数(NDVI)和叶面积指数(LAI)是两个非常重要的陆地生态系统植被状态参数.我们首先利用最大值(MVC)合成方法使用先进遥感数据如MODIS、AVHRR3等得到旬合成植被指数(NDVI),然后利用最新的经验方法针对不同的陆地生态系统类型反演得到叶面积指数,重点研究了我国沙尘暴发生频率较高的我国西北地区植被覆被状态及其变化情况.植被指数能够反映区域,乃至全球范围植被年季状态,用于监测陆地生态系统植物光合作用活动及其变化.植被指数作为一个基础参数能够用于计算反演更高级别的陆地生态系统状态参数.叶面积指数直接影响植被的光合作用,蒸腾作用的变化和陆面过程的能量平衡状态.在沙尘暴预测研究中使用的起沙过程模型需要将叶面积指数作为一个关键输入变量,另外,绝大多数生态过程模型模拟碳、水循环时也都需要将叶面积指数作为一个非常重要的输入变量.我们总结了最新的叶面积指数经验反演方法,针对6钟不同的陆地生态系统类型应用不同经验模型计算得到了叶面积指数. 相似文献
13.
This paper compares the predictions by two radiative transfer models-the two-stream approximation model and the generalized layered model (developed by the authors) in land surface processes -for different canopies under direct or diffuse radiation conditions. The comparison indicates that there are significant differences between the two models, especially in the near infrared (NIR) band. Results of canopy reflectance from the two-stream model are larger than those from the generalized model. However, results of canopy absorptance from the two-stream model are larger in some cases and smaller in others compared to those from the generalized model, depending on the cases involved. In the visible (VIS) band, canopy reflectance is smaller and canopy absorptance larger from the two-stream model compared to the generalized model when the Leaf Area Index (LAI) is low and soil reflectance is high. In cases of canopies with vertical leaf angles, the differences of reflectance and absorptance in the VIS and NIR bands between the two models are especially large. Two commonly occurring cases, with which the two-stream model cannot deal accurately, are also investigated. One is for a canopy with different adaxial and abaxial leaf optical properties; and the other is for incident sky diffuse radiation with a non-uniform distribution. Comparison of the generalized model within the same canopy for both uniform and non-uniform incident diffuse radiation inputs shows smaller differences in general. However, there is a measurable difference between these radiation inputs for a canopy with high leaf angle. This indicates that the application of the two-stream model to a canopy with different adaxial and abaxial leaf optical properties will introduce non-negligible errors. 相似文献
14.
This paper compares the predictions by two radiative transfer models-the two-stream approximation model and the generalized layered model (developed by the authors) in land surface processes-for different canopies under direct or diffuse radiation conditions. The comparison indicates that there are significant differences between the two models, especially in the near infrared (NIR) band. Results of canopy reflectance from the two-stream model are larger than those from the generalized model. However, results of canopy absorptance from the two-stream model are larger in some cases and smaller in others compared to those from the generalized model, depending on the cases involved. In the visible (VIS) band, canopy reflectance is smaller and canopy absorptance larger from the two-stream model compared to the generalized model when the Leaf Area Index (LAI) is low and soil reflectance is high. In cases of canopies with vertical leaf angles, the differences of reflectance and absorptance in the VIS and NIR bands between the two models are especially large.Two commonly occurring cases, with which the two-stream model cannot deal accurately, are also investigated. One is for a canopy with different adaxial and abaxial leaf optical properties; and the other is for incident sky diffuse radiation with a non-uniform distribution. Comparison of the generalized model within the same canopy for both uniform and non-uniform incident diffuse radiation inputs shows smaller differences in general. However, there is a measurable difference between these radiation inputs for a canopy with high leaf angle. This indicates that the application of the two-stream model to a canopy with different adaxial and abaxial leaf optical properties will introduce non-negligible errors. 相似文献
15.
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
16.
The model devised by Lhommeet al. (1988) allows one to calculate the sensible heat flux over a homogeneous crop canopy from radiometric surface temperature by adding a so-called canopy aerodynamic resistance to the classical aerodynamic resistance calculated above the canopy. This model is reformulated in order to simplify the mathematical procedure needed to calculate this additional resistance. Analytical expressions of micrometeorological profiles within the canopy are introduced. Assuming a constant leaf area density, an analytical expression of canopy aerodynamic resistance is inferred, which is a function of wind velocity, inclination angle of the radiometer and crop characteristics such as crop height, leaf area index, inclination index of the foliage and leaf width. Sensitivity of this resistance to the different parameters is investigated. The most significant are wind velocity and LAI. Finally, the predictions of the model are tested against two sets of measurements obtained for two different crops, potato and maize. 相似文献
17.
玉米冠层内光合有效辐射(PAR)的大小直接影响冠层内叶片的光合作用,进而影响玉米净第一性生产力或作物产量的准确评估。为弄清玉米冠层内光合有效辐射的分布规律及其影响因子,基于锦州玉米农田生态系统于2006年生育期的光合有效辐射观测数据和叶面积指数动态观测数据,对玉米冠层光合有效辐射的垂直分布特征及其影响因子进行了分析。结果表明:玉米冠层内不同垂直层次叶片的PAR分布随生育期变化显著,与叶面积指数呈显著的负相关(R2=0.89);玉米冠层光合有效辐射的消光系数K值在生育期呈动态变化,约为0.76,且表现为苗期较大、生育后期较小。分析表明,在进行光合有效辐射及与此密切相关的光合作用模拟时,应考虑消光系数的动态变化。 相似文献
18.
全球植被年际尺度动态过程的数值模拟及其评估 总被引:1,自引:1,他引:0
动态植被模型(Interactive Canopy Model,ICM)中考虑了生态系统碳氮循环过程,能够描述较短时间尺度上的植被与大气之间相互作用过程。利用21 a的GIMMS卫星观测LAI资料,与ICM模拟结果进行年际变率对比分析,评估模型对植被年际变化的模拟性能。结果表明,ICM能在一定程度上反映植被年际变率的空间分布特征,但模拟的热带部分地区植被的年际变率偏小,除此之外大部分地区模拟的年际变率偏大;模拟能够反映出全球植被年际变化的主要空间分布型,同时低纬度地区植被的时间演变特征要好于高纬度地区;ICM对寒带灌丛、北非稀树大草原、落叶针叶林的年际变化模拟较好,但对中国东部农作物的模拟表现出了明显的周期振荡现象,与实际情况差距较大。 相似文献
19.
The Effects of Canopy Leaf Area Index on Airflow Across Forest Edges: Large-eddy Simulation and Analytical Results 总被引:4,自引:3,他引:1
The structure of turbulent flows along a transition between tall-forested canopies and forest clearings continues to be an
active research topic in canopy turbulence. The difficulties in describing the turbulent flow along these transitions stem
from the fact that the vertical structure of the canopy and its leaf area distribution cannot be ignored or represented by
an effective roughness length. Large-eddy simulation (LES) runs were performed to explore the effect of a homogeneous variation
in the forest leaf area index (LAI) on the turbulent flow across forest edges. A nested grid numerical method was used to
ensure the development of a deep boundary layer above the forest while maintaining a sufficiently high resolution in the region
close to the ground. It was demonstrated that the LES here predicted first-order and second-order mean velocity statistics
within the canopy that agree with reported Reynolds-Averaged Navier–Stokes (RANS) model results, field and laboratory experiments.
In the simulations reported here, the LAI was varied between 2 and 8 spanning a broad range of observed LAI in terrestrial
ecosystems. By increasing the forest LAI, the mean flow properties both within the forest and in the clearing near the forest
edge were altered in two fundamental ways: near the forest edge and into the clearing, the flow statistical properties resembled
the so-called back-facing step (BFS) flow with a mean recirculation zone near the edge. Another recirculation zone sets up
downstream of the clearing as the flow enters the tall forest canopy. The genesis of this within-forest recirculation zone
can be primarily described using the interplay between the mean pressure gradients (forcing the flow) and the drag force (opposing
the flow). Using the LES results, a simplified analytical model was also proposed to explain the location of the recirculation
zone inside the canopy and its dependence on the forest LAI. Furthermore, a simplified scaling argument that decomposes the
mean velocity at the outflow edge into a superposition of ‘exit flow’ and BFS-like flow with their relative importance determined
by LAI was explored. 相似文献