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1.
对Ball等的气孔模型所依据的实验事实之一(净光合速率与气孔导度呈线性关系)作了只考虑各阻力与总通量之间关系的电学类比分析和模拟检验。从电学类比分析得到的关系式可以看出,净光合速率与气孔导度的关系是非线性的,只有当叶片的边界层导度比较大时,两者的关系才接近线性。模拟得到的结论也是一样的。另外还模拟了气孔内外CO2 浓度之比随光强的变化以及边界层导度的影响,模拟结果可以解释已有的实验结果  相似文献   

2.
比较盆栽 生榕树和两栖型树的形态差异、叶片叶绿素含量、叶绿素荧光特性和气体交换的日变化。两栖型榕树具有较发达的气生根和水生不定根,叶片比陆生榕树宽,并有向中生性 倾向,陆生榕树的叶绿素含量比两栖榕树高,净光合速率略高于水培两栖型榕树,但明显高于土培两栖型榕树,蒸腾速率以水培两栖型树最高,陆生榕树次之,土培两栖型榕树最低,线性回归分析表明,三者的叶片气孔导度与净光合速率变化均呈正相关,气孔导度的变化  相似文献   

3.
Using an improved gas-exchange technique for leaf chamber the authors' conclusions derived from electrical analogy analysis and simulation have been tested. In most devices for gas-exchange measurements, a fixed ventilation speed is used, which results in a fixed boundary layer conductance of leaf, but the results of experiments are often used to predict canopy transpiration or photosynthesis where the boundary layer conductance changes with the position of the leaf in the canopy and the wind speed above the canopy. To change the boundary layer conductance of a leaf, a barrier of variable size was inserted into the leaf chamber to decrease the wind speed over the leaf. The responses of stomatal conductance, net photosynthetic rate, and transpiration rate to light were then measured. The relationships amongst them have been tested. The experimental results matched well with the results predicted by electrical analogy analysis and simulation in most cases.  相似文献   

4.
对开花期香紫苏功能叶片的蒸腾作用、光合作用日变化规律以及二者与环境因子之间的相互作用进行了研究.结果表明:处于花期的香紫苏蒸腾速率和气孔导度的日变化总体趋势是先升高后降低;不同花期净光合速率的日变化之间则存在明显的差别,初花期的净光合速率明显高于盛花期和终花期;湿度和光合有效辐射是影响香紫苏蒸腾作用的最主要因素,而光合有效辐射和CO2浓度变化则对香紫苏的净光合速率影响最大.  相似文献   

5.
植物气孔导度的机理模型   总被引:11,自引:1,他引:11       下载免费PDF全文
Ball-Berry气孔导度模型及其修正模型是评价植物叶片气孔调节的重要工具。该文从CO2分子在叶片气孔中扩散这个最基本的物理过程出发, 应用物理学中的分子扩散和碰撞理论、流体力学与植物生理学等知识, 严格推导出叶片气孔导度的机理模型。利用美国Li-Cor公司生产的Li-6400光合作用测定仪控制CO2浓度、湿度和温度, 测量了华北平原冬小麦(Triticum aestivum)的光响应数据和气孔导度数据。拟合结果表明: 推导的气孔导度机理模型较之Ball-Berry气孔导度模型和Tuzet等气孔导度模型, 能更好地描述冬小麦的气孔导度与净光合速率之间的关系。如果用气孔导度的机理模型耦合光合作用对光响应的修正模型, 则耦合模型可以很好地描述华北平原冬小麦叶片气孔导度对光强的响应曲线, 并可直接估算冬小麦的最大气孔导度和对应的饱和光强, 同时可以研究最大气孔导度是否与最大净光合速率同步的问题。拟合结果还表明: 冬小麦在30 ℃、560 μmol·mol-1CO2, 或在32 ℃、370 μmol·mol-1CO2条件下, 最大气孔导度与最大净光合速率并不同步。  相似文献   

6.
黄土高原森林草原区6种植物光合特性研究   总被引:15,自引:1,他引:15       下载免费PDF全文
 对黄土高原森林草原区6种不同植物的生理生态学特性进行了一个生长季的野外观测。测定了2002年生长季早、中、晚期植物叶片的光合、蒸腾速率及相应的微气象因子和土壤水分的含量。在此基础上,采用机理性生理生态学模型对黄土高原森林草原区6种植物净光合速率和气孔导度与环境因子的关系进行了分析,净光合速率模型和气孔导度模型分别能够解释57%~79% 和40%~59% 生长季中净光合速率和气孔导度的日变化。在此基础上根据拟合得到的参数计算了典型7月份天气的净光合速率的日变化。模拟的结果表明:沙棘(Hippophae rhamnoides L. subsp. sinensis Rousi)的生物化学光合能力最强,茵陈蒿(Artemisia capillaris)的光呼吸速率最低,这两种植物的净光合速率高于其它植物种。刺槐(Robinia pseudoacacia)、铁杆蒿 (Artemisia gmelinii)、茵陈蒿和沙棘在午后出现的净光合速率下降主要是由气孔导度减小引起的,而苹果 (Malus pumila) 和柠条 (Caragana korshinskii)午后净光合速率的降低与叶肉细胞酶的活性降低有关。这些结论为未来的实验室测定提供了野外观测佐证。  相似文献   

7.
通过比较分布于西双版纳热带雨林林下生境中的附生鸟巢蕨(Neottopteris nidus)和地生网脉铁角蕨(Asplenium finlaysonianum)的光合特征和光合诱导特性,来研究不同生态型蕨类植物的光斑利用策略。研究结果表明,2种蕨类植物的最大净光合速率、暗呼吸速率、表观量子效率、光饱和点和光补偿点没有显著差异,但网脉铁角蕨的最大气孔导度远远高于鸟巢蕨,表明后者具有更强的光合水分利用效率。在暗处理3/J',时接着光照(光强为20I~mol-m-2,s。‘)30分钟后,网脉铁角蕨的初始气孔导度显著高于鸟巢蕨。连续照射饱和强光后,网脉铁角蕨达到最大净光合速率50%(T50%)和90%的时间(T90%)比鸟巢蕨短:网脉铁角蕨和鸟巢蕨的T50%分别为0.57和5.31分钟,T90%分别为5.85和26.33分钟。诱导过程中,气孔导度对强光的响应明显滞后于净光合速率。鸟巢蕨达到最大气孔导度的时间明显比网脉铁角蕨慢,但在光合诱导消失过程中2种蕨类植物的光合诱导维持能力却没有显著差异。上述结果表明,与大多数地生林下植物(如网脉铁角蕨)相比,附生鸟巢蕨的水分保护比碳获得更重要,但却限制了附生蕨对光斑的利用。  相似文献   

8.
高粱、紫苏叶脉密度与光合特性的关系   总被引:2,自引:0,他引:2  
叶脉是植物叶片光合作用水分输送的重要结构。为阐述叶脉与光合特性之间的关系,以C4植物高粱(Sorghum bicolor)、C3植物紫苏(Perilla frutescens)为实验材料研究了叶脉密度和光合特性之间的关系。结果表明,与紫苏相比,高粱叶片叶脉密度大,导水能力强,蒸腾速率高,但气孔密度小。进一步分析表明,高粱叶片近轴侧气孔密度占总气孔的比例明显高于紫苏。叶脉密度大的高粱具有较高的净光合速率;而紫苏叶脉密度小,净光合速率也较低。由此表明,较高的叶脉密度有利于支持较高的光合速率,但研究表明叶脉密度和气孔密度可能不存在严格的协同变异关系。研究结果对理解植物光合作用适应有重要意义。  相似文献   

9.
6种热带雨林木本植物幼苗光合诱导的研究   总被引:7,自引:1,他引:7       下载免费PDF全文
 在晴天上午适宜条件下,测定了生长在模拟林下光环境中的6种热带雨林木本植物幼苗的光合特性和光合诱导特征。6种植物分别为先锋树种大穗野桐(Mallotus macrostachys),冠层树种绒毛番龙眼(Pometia tomentosa)、玉蕊(Barringtonia pendala)、望天树(Shorea chinensis)、滇南插柚紫(Linociera insignis)和林下灌木睫毛粗叶木(Lasianthus hookeri)。研究结果表明:暗处理3 h的叶片经连续饱和强光照射后,6种植物的净光合速率呈s形到双曲线形。6种植物达到90%最大净光合速率的时间为4.4~12.5 min,这与所报道的其它热带雨林中一些阴生植物的诱导速率相近。大穗野桐和睫毛粗叶木的诱导速率最快,达到50%和90%最大净光合速率的时间为其它4种冠层植物幼苗的1/2至1/3。诱导过程中,最大气孔导度对强光的响应明显滞后于净光合速率。充分诱导的叶片在黑暗中20 min后,6种植物的诱导状态都较高。其中,大穗野桐的诱导状态消失相对较快,这可能与其气孔导度和羧化能力的快速降低有关。玉蕊诱导状态的消失主要与生化限制有关,因为此时它的气孔导度仍维持相对较高的值。而睫毛粗叶木较高的气孔导度和羧化能力的维持导致了很高的诱导状态。林下植物这种对强光的快速反应和黑暗中高的维持状态对有效利用光斑具有重要的意义,这与其一生中在林下生长和更新的特点是一致的。  相似文献   

10.
对在坡地和沼泽地生长的野牡丹叶的解剖特征与气孔气体交换特性的研究表明:两者在形态结构方面存在着一定的差异,坡地野牡丹叶较窄,上表皮细胞小而排列紧密,气孔密度较大,上表皮厚,沼泽地野牡丹整个叶片和海绵组织比较厚,最大导管直径和栅栏细胞长度/宽度比值大,但栅栏组织厚/海绵组织厚比值较小。坡地野牡丹与沼泽地野牡丹的叶绿素a、叶绿素b的含量和类胡萝卜素的含量以及叶绿素a,b比值的差异都很小。沼泽地野牡丹净光合速率、蒸腾速率及气孔导度较高,常用的水分利用效率(Pn/Tr)接近,沼泽地野牡丹的内在水分利用效率(Pn/Gs)略高于坡地,但差异不显著。综合分析其生境条件,土壤与野牡丹叶片解剖结构和生理生态特性相关性密切。但实验结果不足以确定两种生境下生长的野牡丹为不同的生态型。  相似文献   

11.
Responses of CO2 assimilation and stomatal conductance to decreasing leaf water potential, and to environmental factors, were analysed in a mixed natural stand of sessile oak (Quercus petraea ssp. medwediewii) and beech (Fagus svlvatica L.) in Greece during the exceptionally dry summer of 1998. Seasonal courses of leaf water potential were similar for both species, whereas mean net photosynthesis and stomatal conductance were always higher in sessile oak than in beech. The relationship between net photosynthesis and stomatal conductance was strong for both species. Sessile oak had high rates of photosynthesis even under very low leaf water potentials and high air temperatures, whereas the photosynthetic rate of beech decreased at low water potentials. Diurnal patterns were similar in both species but sessile oak had higher rates of CO2 assimilation than beech. Our results indicate that sessile oak is more tolerant of drought than beech, due, in part, to its maintenance of photosynthesis at low water potential.  相似文献   

12.
Transpiration element is included in the integrated stomatal conductance-photosynthesis model by considering gaseous transfer processes, so the present model is capable to simulate the influence of boundary layer conductance. Leuning in his revised Ball' s model replaced relative humidity with VPDs(the vapor pressure deficit from stomatal pore to leaf surface) and thereby made the relation with transpiration more straightforward, and made it possible for the regulation of transpiration and the influence of boundary layer conductance to be integrated into the combined model. If the differences in water vapor and CO2 concentration between leaf and ambient air are considered, VPDs, the evaporative demand, is influenced by stomatal and boundary layer conductance. The physiological responses of photosynthesis, transpiration, and stomatal function, and the changes of intercellular CO2 and water use efficiency to environmental factors, such as wind speed, photon flux density, leaf temperature and ambient CO2, are analyzed. It is shown that ff the boundary layer conductance drops to a level comparable with stomatal conductance, the results of simulation by the model presented here differ significantly from those by the previous model, and, in some cases, are more realistic than the latter.  相似文献   

13.
以叶片的气体传输过程为基础,将蒸腾作用包括在以往光合作用气孔导度的耦合模型中,建立了光合作用蒸腾作用气孔导度的耦合模型。该模型可以模拟边界层导度对生理过程的影响。模拟了C3植物叶片对环境因子,如光照、温度、湿度、边界层导度和CO2浓度等的生理响应(光合作用、蒸腾作用、气孔导度)以及Ci和水分利用效率的变化。在环境因子变化于较大范围的情况下,模拟结果符合许多实验结论。  相似文献   

14.
杂草稻是一类重要的稻属种质资源,具有耐寒、耐旱、耐瘠薄等优良特性.本文以88份中国北方杂草稻资源和4份栽培稻为材料,研究了中国北方杂草稻的光合速率、蒸腾速率、气孔导度等光合与水分生理特性及其相互关系.结果表明: 北方杂草稻资源的光合和水分生理特性存在较大差异,具有丰富的多样性.杂草稻的光合速率变化范围在12.47~28.67 μmol CO2·m-2·s-1,瞬时水分利用效率的变化范围在1.39~3.40 mg·g-1.光合参数中,胞间CO2浓度的变异系数最小,气孔导度的变异系数最大.光合速率与蒸腾速率、气孔导度呈极显著的二次曲线关系,光合速率与胞间CO2浓度呈显著的直线关系,瞬时水分利用效率与蒸腾速率、气孔导度呈极显著的二次曲线关系.可用杂草稻材料的优越性能对栽培稻进行品种改良.  相似文献   

15.
基于北方农牧交错带主要作物马铃薯和油葵的叶片气孔导度、净光合速率和气象因子的平行观测数据,对常用气孔导度模型(Jarvis模型、Ball-Berry模型、Leuning模型和Medlyn模型)进行了适用性评价.结果表明:马铃薯的气孔导度与净光合速率呈现较强的线性关系,而油葵气孔导度与净光合速率的线性关系较弱.对于马铃薯气孔导度,Ball-Berry模型模拟效果最佳,Leuning模型和Medlyn模型次之,Jarvis模型模拟效果最差;各模型的模拟值与观测值的均方根误差(RMSE)分别为0.0331、0.0371、0.0456和0.0794 mol·m-2·s-1,归一化均方根误差(NRMSE)分别为26.8%、30.0%、36.9%和64.3%,拟合度(R2)分别为0.96、0.61、0.91和0.88.对于油葵的气孔导度,Jarvis模型模拟效果略好于Ball-Berry模型、Medlyn模型和Leuning模型,其RMSE分别为0.2221、0.2534、0.2547和0.2758 mol·m-2·s-1,NRMSE分别为40.3%、46.0%、46.2%和50.1%,R2分别为0.38、0.22、0.23和0.20.气象因子对气孔导度作用的通径分析表明,北方农牧交错带马铃薯和油葵气孔导度日变化主要受饱和水汽压差影响.模型评价结果表明用于油葵的气孔导度模型需要进一步改进.  相似文献   

16.
田间小麦叶片光合效率日变化与光合“午睡”的关系   总被引:7,自引:0,他引:7  
小麦灌浆初期叶片(旗叶)晴天中午光合速率下降(“午睡”)伴随了气孔导度、胞间CO_2浓度下降,而气孔限制值中午升高,进一步证实气孑L中午关闭是光合“午睡”的一个重要原因。叶片光合效率的中午下降并非都伴随着光合“午睡”现象。当两者同时发生时,胞间CO_2浓度降低,而光合速率与气孔导度、胞间CO_2浓度之间的相关性高于光合速率与光合效率之间的相关性。这些事实表明。即使光合效率中午下降是光合“午睡”的部分原因,但较之气孔中午关闭只是一个次要原因。  相似文献   

17.
A decrease in xylem pressure potential starting 1 h after decapitation of young hybrid poplars ( Populus deltoides Bartr. × Populus nigra L. cv. DN22) reduced stomatal conductance and transpiration rates for the first 3 days after decapitation. This early moisture stress was alleviated 4 to 5 days after decapitation, resulting in substantial increases in stomatal aperture, transpiration and net photosynthetic rates which continued for the remainder of the one week measurement period. The results suggest the following sequence of events in the decapitated plant: After a brief moisture stress, decapitation increases moisture availability by increasing the root/shoot ratio and by reducing shoot competition for moisture. Improvement in hydration releases buds from apical dominance and increases stomatal conductance and rates of net photosynthesis. This, in turn, leads to the acceleration of growth observed when plants are reinvigorated by decapitation.  相似文献   

18.
Responses of photosynthetic rate and stomatal conductance to water stress as weI1 as the relationship between photosynthetic rate and stomatal conductance were investigated with soybean cultivars “Ludou No. 4” and “7605”. The former was a high yield cultivars widely used in Shandong province, and the latter was a small grain soybean line bred by Shandong Academy of Agricultural science. Soil water stress decreased leaf apparent photosynthetic rate and stomatal conductance of two soybean cultivars, and “Ludou No. 4” decreased more than “7605”. At the same value of water potential, photosynthetic rate and stomatal conductance of “7605” were higher than those of “Ludou No,4”,but the rate of stomatal closure for “7605” was higher than “Ludou No. 4”. Decreasing of stomatal conductance caused rising of leaf temperature of two soybean cultivars, and the rising of “7605” was more rapid than “Ludou No. 4”, but at the same treatment of water stress, leaf temperature of “Ludou No. 4” was higher than “7605”. Leaf water use efficiecy (WUE) of two soybean cultivars were decreased under water stress, and the rate of decreasing in “Ludou No.4” was more rapid than in “7605”. These results showed that “7605” was more resistant to water:stress than “Ludou No. 4”.  相似文献   

19.
以额济纳荒漠河岸胡杨(Populus euphratica)为研究对象,利用LI-6400光合测定仪于2005年5~9月份观测了胡杨叶片气体交换数据,研究了胡杨叶片气孔导度与光合速率、光合有效辐射与光合速率之间的关系.结果表明:(1)胡杨叶片净光合速率随气孔导度的增大而升高,但当气孔导度增加到一定值后,光合速率的增加变缓慢直至平稳,并主要是非气孔限制因素造成的;Ball-Berry模型(B-B模型)能够很好地描述气孔导度与光合速率之间的关系(R2=0.92).(2)叶片净光合速率随着有效辐射的变化符合非直角双曲线规律(R2=0.99).(3)B-B模型和非直角双曲线光合模型耦合后模拟值与观测值之间存在很好的正相关性(r=0.93),但耦合模型的模拟值还是较实测值偏大.因此,在干旱区还必须考虑水分限制因素对气孔开闭的控制作用,进一步构建适合干旱区生态系统特点的水-碳耦合循环机理模型.  相似文献   

20.
J. Janáek 《Photosynthetica》1997,34(3):473-476
A water stress effect on photosynthesis and transpiration of wheat seedlings at 50-500 µmol(CO2) mol-1 was measured in an open gas exchange system. The limitation of photosynthesis by stomatal conductance was quantified by a stomatal control coefficient of the net photosynthetic rate. The stomatal control coefficient increased linearly as the water potential of root media decreased to -1 MPa, and it decreased with increasing CO2 concentration.  相似文献   

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