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1.
根据有关学者提出的几种植冠阻抗参数化的代表性理论,由单叶气孔阻抗实测值,结合叶面积垂直分布,资料,提出了3种计算冠层阻抗的合成方法。利用由P-M公式反推出的冠层阻抗及由波文比仪测算出的麦田蒸散值对各合成方法进行了效果分析。 相似文献
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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
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一种大气污染物干沉积速率的计算方法及其应用 总被引:11,自引:2,他引:11
介绍了一种计算大气污染物干沉积速率的方法。这种方法详细地考虑了植物生理特征和冠层内湍流结构对干沉积的影响,考虑了3层覆盖物对表面阻抗的影响,通过计算7个不同的阻抗因子获得干沉积速率。利用该方法计算了农田下垫面上7种不同大气污染物沉积的表面阻抗和江西(鹰洋)红壤典型地区农田下垫面上的二氧化硫(SO2)和硫酸盐(SO4^2—)的干沉积速率,估算了大气硫输入农田生态系统的干沉积通量,并与其他方法作了定量比较。结果表明:农田下垫面上SO2与SO4^2—的干沉积速率平均值分别为0.31cm/s,0.20cm/s;干沉积速率具有明显的日变化特征,一般白天大于夜间,中午时分出现最大值;月际变化也较明显,在冬季有大值;大气硫输入农田生态系统的全年干沉积通量为7.35g/m^2。 相似文献
5.
陆—气之间的能量交换是通过近地层湍流热量和水汽通量来实现的.以往的研究表明近地层阻抗对湍流能量通量有着不同程度的影响,但是关于陆面模式中阻抗系数的取值范围却始终没有统一的标准.为了深入了解简单生物圈模式 (SiB2) 中近地层阻抗系数取值变化对湍流能量通量的影响,我们以那曲站为例,分别采用传统的逐个因子分析法和考虑参数间相互作用的部分因子分析法定量地研究了夏季该观测站近地层湍流能量通量分别对冠层阻抗系数C1和地表阻抗系数C2的敏感性响应.结果表明,感热通量对地表阻抗系数C2更为敏感,而潜热通量则对冠层阻抗系数C1较为敏感;感热通量随C1增加而增大,随C2增加而减小,而潜热通量则随C1或C2的增加而减小;不管是感热通量还是潜热通量,它们对阻抗系数的敏感度随阻抗系数的增大而减小,而对阻抗系数的相对敏感度则随阻抗系数的增大而增大.最后,结合那曲站夏季下垫面稀疏短草的分布特点分析了造成感热通量和潜热通量敏感变化各异的原因. 相似文献
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城市冠层内风场的准确模拟或预报是突发性大气污染应急响应措施制定和实施的重要前提和基础。为了合理反映城市冠层的影响, 并满足应急响应时效性的要求, 将MacDonald(2000)提出的城市冠层内风廓线参数化方法耦合于中尺度气象模式MM5, 并利用2010年7月18日至8月6日北京325 m气象塔垂直观测资料进行验证。试验结果表明:(1)城市冠层参数化方法能够较好的模拟各种稳定度条件下冠层内风速廓线垂直变化, 中性、稳定和不稳定层结时的标准平均偏差分别为78%、12%、4%, 标准平均误差分别为78%、52%、21%。(2)城市冠层参数化方法能够较好的模拟冠层内实际风速变化情况, 虽然随高度增加模拟偏差增大, 但8、15、32、47 m高度的模拟风速与观测值依然十分接近, 标准平均偏差分别为2%、-26%、25%、60%, 标准平均误差分别为54%、46%、52%、73%。(3)与传统的Monin-Obukhov相似性边界层参数化方法相比, 城市冠层参数化方法明显提高了冠层风速的模拟能力。中性、稳定、不稳定层结时, Monin-Obukhov相似性边界层参数化方法的标准平均误差高达420%、176%、184%, 城市冠层参数化方法的标准平均误差减小至78%、52%、21%;冠层内8、15、32、47 m高度, Monin-Obukhov相似性边界层参数化方法的标准平均误差分别为283%、184%、227%、167%, 城市冠层参数化方法的标准平均误差减小至54%、46%、52%、73%。 相似文献
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本文将农田微气象模式与冬小麦冠层光合模式进行耦合,建立了一个具有较强机理的冬小麦冠层CO2分布廓线模式,冠层光合模式中考虑了气孔对叶片光合的调节作用,具有明确的生物学意义,实测资料验证表明,模式可以较准确地模拟拔节期冬小麦冠层CO2分布状况,平均相对误差为6.47%,数值分析表明:当冬小麦冠层风速为1m/s时,CO2廓线弯曲最为明显,随着风速加大,CO2廓线弯曲程度变小,CO2浓度升高后风速对廓线影响的基本规律没有发生改变,但是冠层中CO2浓度差将进一步加大。 相似文献
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使用湍流和SO2通量梯度测试资料,对植被冠层内物质交换特征进行了详细研究,揭示了一些有意义的结果: 植物的生物过程对物质的吸收作用非常明显; 在冠层内物质通量是随冠层深度加大而明显减小;对高的植被,上层沉积速度(Vgu)大于下层 (Vgd); 冠层内的沉积速度(Vg) 表现出明显的日变化,冠层内物质的生物吸收作用与太阳总辐射量有直接联系;冠层的Vg与速度尺度V*和平均风成正变关系;森林的Vg比麦地小;新的Vg理论公式能更好地预测重庆森林和麦地的结果。 相似文献
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利用美国Licor-6200便携式光合作用仪测定了夏玉米光合作用速率,给出了叶片光合作用模型,建立了夏玉米冠层光温生产力数值模式,阐明了日平均气温与冠层群体光合作用之间的相对确定性关系,并提出了光合等效温度的概念及计算方法。在此基础上,推导出温度对群体光合作用影响的函数表达式,使温度订正函数f (T)不再是简单的假设,而是建立在较为严格的理论基础之上,从而实现了光合模型的时间尺度转换,为更准确地建立生态动力模型及农业气候资源数值模型提供了前提条件。 相似文献
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The physiological nature of canopy resistance was studied by comparing the stomatal and canopy resistance of a 10-m high Douglas-fir forest. Stomatal resistance of the needles was measured using porometry, while the canopy resistance was calculated using energy balance/Bowen ratio measurements of evapotranspiration. A typical steady increase in the forest canopy resistance during daytime hours, even at high soil water potentials, was observed. A similar trend in the stomatal resistance indicated that increasing canopy resistance during the daytime was caused by gradually closing stomata. During a dry period when soil water potentials declined from 0 to –10.5 bars, the mean daytime value of canopy resistance increased in proportion to the mean daytime value of the stomatal resistance. Values of canopy resistance calculated from stomatal resistance and leaf area index measurements agreed well with those calculated from energy balance measurements. The dependences of stomatal resistance on light, vapour pressure deficit, twig and soil water potentials art summarized. 相似文献
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准确估计水热通量对于认识和理解地气交换与水循环变化过程具有重要意义。利用Penman-Monteith(P-M)模型计算季节尺度水热通量变化的不确定性很大程度上依赖于与冠层变化相关的最小冠层阻力参数,但模型中通常将其设为定值。为此,本文基于多年通量观测采用分段与整体相结合的迭代算法拟合出最小冠层阻力的季节分布。以湖南省宁乡通量观测站为例,针对2012~2015年观测拟合计算最小冠层阻力的季节分布曲线,并利用2016年通量数据进行独立数据验证。结果表明:最小冠层阻力曲线具有鲜明夏低冬高的季节变化特征;利用拟合的具有季节分布的最小冠层阻力改进潜热通量计算,独立数据验证表明其该方法的合理性;相比于原阻力方案得出的潜热模拟结果,其在相关系数、均方根误差和一致性指数都有改进;此外,将该估计方法应用于水热通量的数据插补,较常规统计插补方法,其插补稳定性不随连续缺失数据的增加而降低,而且还能通过模型的微分误差分析量化由于数据输入带来的插补不确定性,在保持通量数据完整性的同时也为数据应用场景提供科学依据。 相似文献
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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
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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
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Analysis of the variability of canopy resistance over a desert steppe site in Inner Mongolia,China 总被引:1,自引:0,他引:1
ABSTRACT Canopy resistance substantially affects the partitioning of available energy over vegetated surfaces. This study analyzed the variability of canopy resistance and associated driving environmental factors over a desert steppe site in Inner Mongolia, China, through the use of eddy-flux and meteorological data collected from 2008 to 2010. Distinct seasonal and interannual variabilities in canopy resistance were identified within those three years, and these variabilities were controlled primarily by precipitation. Strong interannual variability was found in vapor pressure deficit (VPD), similar to that of air temperature. Based on the principal component regression method, the analysis of the relative contribution of five major environmental factors [soil-water content (SWC), leaf-area index (LAI), photosynthetically active radiation (Kp), VPD, and air temperature] to canopy resistance showed that the canopy-resistance variation was most responsive to SWC (with 〉 35% contribution), followed by LAI, especially for water-stressed soil conditions (〉 20% influence), and VPD (consistently with an influence of approximately 20%). Canopy-resistance variations did not respond to Kp due to the small interannual variability in Kp during the three years. These analyses were used to develop a new exponential function of water stress for the widely used Jarvis scheme, which substantially improved the calculation of canopy resistance and latent heat fluxes, especially for moist and wet soils, and effectively reduced the high bias in evaporation estimated by the original Jarvis scheme. This study highlighted the important control of canopy resistance on plant evaporation and growth for the investigated desert steppe site with a relatively low LA1. 相似文献
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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
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The energy balance of an upland heath dominated by heather (Calluna vulgaris) was measured in dry and wet weather. Median values of both transpiration and evaporation rates were ca. 2 mm hr-1. The median Bowen ratio for the dry canopy was 2.0 and for the wet canopy 0.6. On dry days the median value of the saturation deficit was only 3.8 mb and that of the climatological resistance was 30 s m-1. The bulk stomatal resistance increased from ca. 50 s m -2 in the morning to over 290 s m-1 in the afternoon with an overall median value of 110 s m-1. Transpiration from the dry canopy was controlled by a combination of small saturation deficits and large stomatal resistances. The median value of the boundary-layer resistance of the canopy was 22 s m-1 and was low partly because of a large low-level drag coefficient. Saturation deficits on wet days were close to zero and evaporation of intercepted water proceeded at close to the equilibrium rate, being largely limited by the low fluxes of available energy. The water loss from heather was compared with simulated losses from coniferous forest, herbaceous crops and grassland in the same conditions to evaluate the effects of vegetation on water loss from catchments.Laboratorio de Ecologia, Dept. de Biologia Vegetal, Universidade de Brasilia, 70 910 — Brasila — DF, Brazil. 相似文献
19.
R. Milne 《Boundary-Layer Meteorology》1979,16(3):67-81
Transpiration of a 7 m-high Stika spruce forest was investigated using measurements of net radiation, sensible heat and ground
heat fluxes in an energy balance to give latent heat flux, and hence canopy resistance from the Penman-Monteith equation.
Sensible heat flux was measured by the eddy-correlation method using a Fluxatron circuit.
During six consecutive days of measurement in July/August, canopy resistance typically followed a decreasing trend from high
values (≈150 s m−1) at dawn to around 40 s m−1 at midday and then returning steadily to >100 s m−1 at sunset. Transpiration was 3 mm day−1 on average over the period studied and changes in the rate within the day were significantly correlated with changes in net
radiation.
Comparisons are drawn with published data from other forest sites and the conclusion is reached that it is imprudent to generalise
about transpiration rates and canopy resistances of different species at different sites from results gathered at one or two
places. 相似文献
20.
The semi-analytical model outlined in previous studies (Massman, 1987a, b) to describe momentum and heat exchange between the atmosphere and vegetated surfaces is extended to include water vapor exchange. The methods employed are based on one-dimensional turbulent diffusivities and use numerical solutions to the steady-state diffusion equation. The model formulates stomatal response as a function of vapor pressure deficit and the within-canopy profile of mean photosynthetically-active radiation (PAR). It is then used to assess the influence that foliage structure, density, and sheltering can have upon the bulk transfer coefficient, kB
v
-1, and the canopy resistance. A general analytical formulation of the canopy resistance based on the mean within-canopy profile of PAR is proposed and found to agree with the model's solutions for canopy resistance to within a few percent. 相似文献