大气CO2浓度升高及气候变化对作物冠层光合影响的数值模拟   总被引：4，自引：0，他引：4  

刘建栋  刘文泉  于强  金之庆 《南京气象学院学报》2004,27(1):1-10

利用美国Licor-6200光合作用测定仪,对黄淮海地区代表性冬小麦品种鲁麦23号叶片光合作用速率进行了较为全面的测定,分别确定了冬小麦叶片光-光合作用响应曲线和CO2-光合作用响应曲线,在此基础上,建立了叶片光合作用模式,并进而建立了一个具有瞬时时间尺度,空间积分为叶片尺度的冬小麦冠层模式,利用模式分别分析了大气中CO2浓度升高和温度变化对冠层光合作用的不同影响,并在此基础上进一步进行了综合数值分析.单因子分析表明晴天状况下,冠层光合速率随CO2浓度升高而上升,当CO2浓度由330×10-6上升至660×10-6时,冠层光合日总量可增加19.7 %;冠层光合速率随辐射增加而增大,辐射量增加10.0 %,冠层光合日总量可增加6.7 %;冠层光合速率随温度升高而下降,温度升高1 ℃,冠层光合日总量减少2.9 %.多因子综合数值分析表明在辐射量较大的气候背景下,冠层光合日总量对温度和CO2变化响应更加敏感.本文的实测数据为研究气候变化对中国农业影响提供了最基本的可靠模型参数,冠层光合模型为未来改进作物模型提供了理论基础.  相似文献   

包含CO2因子的冠层光合作用简化模型及其关键参数数值敏感分析   总被引：1，自引：0，他引：1  

李明星  刘建栋  王馥棠  刘文泉  戴晓苏  廖要明 《气象科学》2008,28(4):370-376

利用美国Licor公司生产的Li-6200便携式光合作用测定仪对冬小麦叶片光合作用进行了较为系统的测定研究,在实测资料支持下建立了包含CO2因子的叶片和冠层光合作用模型,验证结果表明,模型具有较高准确性.利用模型对CO2影响参数μ进行数值敏感分析,结果表明:对叶片光合而言,μ=0.83时叶片光合作用模型拟合最好,随μ减小或增大,拟合精度均下降;对冠层光合而言,μ=0.83时模拟光合日总量达到最大值,μ减小或增大,光合日总量均下降.多因子数值分析表明:在辐射值较大的状况下,μ对冠层光合的影响更为显著.  相似文献   

近地层O3和CO2浓度变化对冬小麦影响的数值模拟：Ⅰ模型结构     

郑昌玲  王春乙 《气象学报》2005,63(2):184-191

在试验研究的基础上,文中尝试利用数值模拟方法评估O3和CO2浓度变化对作物的影响.以农田生态系统碳氮生物化学模型(DNDC)为基础,对其中的作物子模型进行改进,加入O3对冬小麦光合作用和叶片生长影响的模拟,结合原模型中有关CO2对冬小麦光合作用影响的模拟,建立反映O3和CO2浓度变化对冬小麦生长发育和产量形成影响的作物模型.文章对DNDC模型进行了参数修正以适用于中国华北地区;文章参考前人的工作,引用了两种O3对作物光合作用影响的模拟方法进行比较,分别是O3对初始光利用率的影响和O3对叶片光合作用的直接影响;在此基础上,进一步考虑O3对冬小麦叶片生长的影响,根据试验资料,建立了O3对叶片生长影响系数.  相似文献   

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  

祁红彦  周广胜  许振柱 《辽宁气象》2008,24(1):22-26

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   

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：17，自引：0，他引：17       下载免费PDF全文

祁红彦  周广胜  许振柱 《气象与环境学报》2008,24(1):22-26

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   

北方黑云杉林冠内空气CO2浓度及其上方通量模拟   总被引：2，自引：0，他引：2  

申双和  孙照渤  陈镜明 《气象学报》2005,63(6):969-979

考虑植物阴叶和阳叶对环境的反应、植物叶片丛聚特性以及叶片氮素水平的垂直差异,建立了黑云杉林与大气之间物质输送和能量交换的一维完全多层模式.模式中对阳叶和阴叶的叶面积指数借用Chen J M等提出的方法,并经过修改以适用于多层模拟.叶水平的光合作用c运用Farq uhar方程并与CO2传导方程联列获得.模式验证的资料取自BOREAS(Boreal Ecosystem-fAtmosphere Study)研究计划中加拿大Saskatchewan的南试验区,属于温带气候.通过对冠.层上方的显热、感热和CO2通量、以及植物光合作用、蒸腾作用和气孔传导等生理作用t过程的实测值进行了计算结果的验证,结果表明计算的显热通量比实测值偏低,潜热通量则略高于实测值,而CO2通量只有在较高水平时偏高,3个通量的计算值与实测值比较接近,R 2分别为0.71,0.78和0.65,取得了较好的效果.气孔导度、光合作用和蒸腾作用的模拟结果表明,三者的实测与模拟值之间的R 2分别达到0.57,0.69和0.66,均通过0.01显著度检验,且无显著的系统偏差.因此,可以认为在多层模拟中充分考虑叶片不同受光状况,不同氮素水平以及叶片丛聚特性的影响有助于更好地研究植被与大气的交换过程.  相似文献   

冠层CO2分布廊线的农业气象数值模拟研究          下载免费PDF全文

刘建栋  于强等 《气象科学》2002,22(3):264-272

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   

大气CO₂浓度升高及气候变化对作物冠层光合影响的数值模拟          下载免费PDF全文

刘建栋  刘文泉  于强  金之庆 《大气科学学报》2004,27(1):1-10

利用美国Licor-6200光合作用测定仪,对黄淮海地区代表性冬小麦品种鲁麦23号叶片光合作用速率进行了较为全面的测定,分别确定了冬小麦叶片光—光合作用响应曲线和CO₂—光合作用响应曲线,在此基础上,建立了叶片光合作用模式,并进而建立了一个具有瞬时时间尺度,空间积分为叶片尺度的冬小麦冠层模式,利用模式分别分析了大气中CO₂浓度升高和温度变化对冠层光合作用的不同影响,并在此基础上进一步进行了综合数值分析。单因子分析表明:晴天状况下,冠层光合速率随CO₂浓度升高而上升,当CO₂浓度由330×10^-6上升至660×10^-6时,冠层光合日总量可增加19.7%;冠层光合速率随辐射增加而增大,辐射量增加10.0%,冠层光合日总量可增加6.7%;冠层光合速率随温度升高而下降,温度升高1℃,冠层光合日总量减少2.9%。多因子综合数值分析表明:在辐射量较大的气候背景下,冠层光合日总量对温度和CO₂变化响应更加敏感。本文的实测数据为研究气候变化对中国农业影响提供了最基本的可靠模型参数,冠层光合模型为未来改进作物模型提供了理论基础。  相似文献   

O₃,CO₂浓度及太阳光谱变化对作物光合作用影响的数值模拟研究   总被引：4，自引：2，他引：4  

刘建栋  周秀骥  于强 《气象学报》2002,60(6):715-721

对光合作用 蒸腾作用 气孔调节进行耦合 ,从生物化学尺度扩展至冠层尺度 ,发展了一个冬小麦冠层光合作用生态动力模式 ,模式考虑了O3,CO2 和光谱变化对作物光合的综合影响。利用美国光合作用实测资料对模式进行验证 ,叶片模式通过了相关显著性检验并具有较高的准确度。数值分析表明 :当O3 浓度由 0× 10 -9V/V上升至2 0 0× 10 -9V/V时 ,冠层光合速率下降 2 9%左右 ;当CO2 浓度由 330× 10 -6V/V上升至 6 6 0× 10 -6V/V时 ,冠层光合速率增加大约 37% ;当光谱比例系数由目前的 0 .5下降至 0 .4时 ,冠层光合速率将下降 2 7%左右。对于污染严重、易发生光化学烟雾的城郊附近 ,在阳光强烈的典型晴天 ,中午O3 浓度达到 2 0 0× 10 -9V/V时 ,即使气候条件不发生改变 ,CO2 浓度对作物光合作用的正效应也不足以弥补O3 浓度升高所造成的负效应 ,冠层光合速率将比目前干洁地区略有下降 ,如果进一步考虑光合作用有效辐射光谱成分下降至 0 .4左右 ,冠层光合作用将比目前的BASE值下降 35 %左右。  相似文献   

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  

欧阳琰  王体健  张艳  胡正义  徐成凯 《南京气象学院学报》2003,26(2):210-218

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   

植被微气象的数值模拟     

王信理  熊文愈 《气象学报》1995,53(2):217-224

综合考虑梯度输送和阵性穿透作用，并对植被上方的过渡层作适当处理，提出了植被微气象的一阶闭合模型。它对温、湿、风等物理量垂直分布的模拟精度良好。引用系统优化理论和方法，对模型中参数作多维非线性搜索，结果客观可靠。由于植物本身的调节适应能力和反馈作用，大气与植被间的动量与水热交换机制和过程不尽相同。在动量输送过程中，梯度产生项和阵性穿透皆不可忽视，尤其在群体下部，更为重要；而在热量和水分输送过程中，阵性穿透作用在低矮密集植被中的贡献甚微，梯度产生项起主导作用。  相似文献   

Numerical Simulation Experiment of Land Surface Physical Processes and Local Climate Effect in Forest Underlying Surface   总被引：1，自引：0，他引：1       下载免费PDF全文

LIU Shuhu  PAN Ying  DENG Yi  MA Mingmin  JIANG Haimei  LIN Hongtao  JIANG Haoyu  LIANG Fuming  LIU Heping  WANG Jianhua 《Acta Meteorologica Sinica》2006,20(1):72-85

Based on the basic principles of atmospheric boundary layer and plant canopy micrometeorology, a forest underlying surface land surface physical process model and a two-dimensional atmospheric boundary layer numerical model are developed and numerical simulation experiments of biosphere and physiological processes of vegetation and soil volumetric water content have been done on land surface processes with local climate effect. The numerical simulation results are in good agreement with realistic observations, which can be used to obtain reasonable simulations for diurnal variations of canopy temperature, air temperature in canopy, ground surface temperature, and temporal and spatial distributions of potential temperature and vertical wind velocity as well as relative humidity and turbulence exchange coefficient over non-homogeneous underlying surfaces. It indicates that the model developed can be used to study the interaction between land surface process and atmospheric boundary layer over various underlying surfaces and can be extended to local climate studies. This work will settle a solid foundation for coupling climate models with the biosphere.  相似文献   

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  

刘树华  邓毅  胡非  梁福明  刘和平  王建华 《气象学报》2005,63(1):1-12

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   

城市冠层过程的研究与进展   总被引：5，自引：1，他引：5  

黄燕燕  万齐林  袁金南  郑素卿 《热带气象学报》2006,22(3):290-296

介绍了城市冠层过程研究的概况和历史,概括了城市冠层的特征及其作用于局地气候和中尺度系统的主要方式,总结了城市冠层参数化方案或模式的研究进展.比较了几种参数化方法和模式的特点,提出目前存在的一些问题.认为：现有的参数化方案和模式尚未能完整体现城市下垫面特征、准确反映人类活动影响,二者的发展有赖于对城市下垫面建筑特征更合理、细致地描述,对人为热量、水汽影响更准确的估计与刻划.与局地因素密切相关的城市冠层模式还需要更多地在模式中引入局地差异影响.同时指出,要提高耦合城市过程的中尺度模式预报水平,需要相应改进包括云、降水、次网格地形及边界层动力学等的参数化.  相似文献   

Further Development of the Vegetated Urban Canopy Model Including a Grass-Covered Surface Parametrization and Photosynthesis Effects     

Sang-Hyun Lee 《Boundary-Layer Meteorology》2011,140(2):315-342

The vegetated urban canopy model (VUCM), which includes parametrizations of urban physical processes for artificial surfaces and vegetated areas in an integrated system, has been further developed by including physical processes associated with grass-covered surfaces in urban pervious surfaces and the photosynthesis effects of urban vegetation. Using measurements made from three urban/suburban sites during the BUBBLE field campaign in 2002, the model’s performance in modelling surface fluxes (momentum flux, net radiation, sensible and latent heat fluxes and storage heat flux) and canopy air conditions (canopy air temperature and specific humidity) was critically evaluated for the non-precipitation and the precipitation days. The observed surface fluxes at the urban/suburban sites were significantly altered by precipitation as well as urban vegetation. Especially, the storage heat at urban surfaces and underlying substrates varied drastically depending on weather conditions while having an important role in the formation of a nocturnal urban surface layer. Unlike the nighttime canopy air temperature that was largely affected by the storage-heat release, the daytime canopy air conditions were highly influenced by the vertical turbulent exchange with the overlying atmosphere. The VUCM well reproduced these observed features in surface fluxes and canopy air conditions at all sites while performing well for both the non-precipitation and the precipitation days. The newly implemented parametrizations clearly improved the model’s performance in the simulation of sensible and latent heat fluxes at the sites, more noticeably at the suburban site where the vegetated area fraction is the largest among the sites. Sensitivity analyses for model input parameters in VUCM elucidated the relative importance of the morphological, aerodynamic, hydrological and radiative/thermal properties in modelling urban surface fluxes and canopy air conditions for daytime and nighttime periods. These results suggest that the VUCM has great potential for urban atmospheric numerical modelling for a range of cities and weather conditions in addition to having a better physical basis in the representation of urban vegetated areas and associated physical processes.  相似文献   

Evaluating a Model of Evaporation and Transpiration with Observations in a Partially Wet Douglas-Fir Forest   总被引：1，自引：0，他引：1  

Fred C. Bosveld  Willem Bouten 《Boundary-Layer Meteorology》2003,108(3):365-396

The Penman–Monteith equation is extended to describe evaporation of intercepted rain, transpiration and the interaction between these processes in a single explicit function. This single-layer model simulates the effects of heat exchange, stomatal blocking and changed humidity deficit close to the canopy as a function of canopywater storage. Evaporation depends on the distribution of water over the canopy and the energy exchange between wet and dry parts. Transpiration depends on the dry canopy surface resistance that is described with a Jarvis-type response. The explicit functions obtained for water vapour fluxes facilitate a straightforward identificationof the various processes. Canopy water storage amounts and xylem sapflow were measured simultaneously during drying episodes after rainfall in a dense, partially wet, Douglas-fir forest. Estimates of evaporation and transpiration rates are derived from these observations. The analysis shows that evaporation induced transpirationreduction is mainly caused by energy consumption. Changes in water vapour deficit have a minor effect due to a compensating stomatal reaction. The remaining difference between observed and modelled transpiration reduction can be attributed to partial blocking of stomata by the water layer.  相似文献   

Mean canopy flow in an oak forest and estimation of the foliage profile by a numerical model     

E. Mursch-Radlgruber  T. Kovacic 《Theoretical and Applied Climatology》1990,41(3):129-136

Summary The interaction of flow with the canopy structure is shown for an oak forest with hornbean trees (Carpinus betulus) as dense undergrowth using a large sample of 15 min mean profiles for the winter (without leaves) and the summer period (with leaves). The usefulness of the canopy flow index is analysed.To identify the processes involved in the momentum interaction a first-order closure model is interactively used. An approximation of the foliage area density from wind profile measurements is derived.With 7 Figures  相似文献   

A spectral and lag-correlation analysis of turbulence in a deciduous forest canopy   总被引：1，自引：1，他引：1  

Dennis D. Baldocchi  Tilden P. Meyers 《Boundary-Layer Meteorology》1988,45(1-2):31-58

The processes influencing turbulence in a deciduous forest and the relevant length and time scales are investigated with spectral and cross-correlation analysis. Wind velocity power spectra were computed from three-dimensional wind velocity measurements made at six levels inside the plant canopy and at one level above the canopy. Velocity spectra measured within the plant canopy differ from those measured in the surface boundary layer. Noted features associated with the within-canopy turbulence spectra are: (a) power spectra measured in the canopy crown peak at higher wavenumbers than do those measured in the subcanopy trunkspace and above the canopy; (b) peak spectral values collapse to a relatively universal value when scaled according to a non-dimensional frequency comprised of the product of the natural frequency and the Eulerian time scale for vertical velocity; (c) at wavenumbers exceeding the spectral peak, the slopes of the power spectra are more negative than those observed in the surface boundary layer; (d) Eulerian length scales decrease with depth into the canopy crown, then increase with further depth into the canopy; (e) turbulent events below crown closure are more correlated with turbulent events above the canopy than are those occurring in the canopy crown; and (f) Taylor's frozen eddy hypothesis is not valid in a plant canopy. Interactions between plant elements and the mean wind and turbulence alter the processes that produce, transport and remove turbulent kinetic energy and account for the noted observations.  相似文献   

Simulation of snow processes beneath a boreal scots pine canopy     

李伟平  罗勇  夏坤  刘新 《大气科学进展》2008,25(3):348-360

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   

A GCM-based assessment of the global moisture budget and the role of land-surface moisture reservoirs in processing precipitation     

V. Arora  G. Boer 《Climate Dynamics》2002,20(1):13-29

The performance of the Canadian Land Surface Scheme (CLASS) when coupled to the CCCma third generation general circulation model is evaluated in an AMIP II simulation. Our primary aim is to understand how CLASS processes moisture and to compare model estimates of moisture budget components with observations. The modelled mean annual precipitation and runoff, and their latitudinal structures, compare well with observations although some discrepancies remain in the simulation of regional values of these quantities. The amplitude and phase of the first harmonic of the precipitation annual cycle also compares well with observations although less well over regions of sparse precipitation and/or high topography. In the model, the canopy plays a major role in processing moisture at the land surface indicating the importance of vegetation in climate. The canopy intercepts a large fraction of the precipitation and provides the medium for returning much moisture back to the atmosphere as evapotranspiration. Though important locally, the snow moisture reservoir plays a relatively minor role in the global moisture budget. It acts primarily as a storage and delay mechanism with winter precipitation released to the ground reservoir on melting. The ground moisture reservoir also plays a major role and processes a similar amount of moisture as the canopy, although in a different manner. The globally averaged model runoff compares well with observation-based estimates, although the model partitioning into surface runoff and drainage does not agree particularly well with the single available observation-based estimate. How moisture is processed at the land surface serves as a basis for model intercomparison and for understanding the modelled moisture budget and its variation and changes with climate change. Only the most basic quantities (precipitation, runoff, and partitioning of runoff into surface runoff and drainage) may be compared with observation-based estimates, however, and the establishment of more complete moisture budget remains an important need.  相似文献