十种草原植物光合速率与光照的关系

光作为光合作用的能量来源,对植物的光合生产有很大的影响。本文以十种草原植物为研究对象,于1985—1986年在典型草原地带进行了草原植物的光—光合特性的研究。根据叶片净光合速率和光呼吸速率的高低,可确定这十种草原植物都属C_3草本植物范围。由测定结果表明,它们对光能的利用效率有所不同。当植物叶片在晴天最大光强(110千勒)时,山葱和马蔺的总光合和净光和均无光饱和点;均有光饱和点的是冰草、西伯利亚羽茅、大针茅、贝加尔针茅、无芒雀麦和日阴营;总光合无光饱和点,净光合有光饱和点的是羊草和芨芨草。并可认为近光饱和点是植物的适宜光强。     

LEAF OPTICAL PROPERTIES OF RAINFOREST SUN AND EXTREME SHADE PLANTS

The optical properties of the leaves of twelve tropical sun species and thirteen tropical extreme shade species were examined with an integrating sphere attached to a spectroradiometer. Measurements of diffuse reflectance and transmittance allowed calculations of absorptance, 350–1,100 nm. Although some shade species absorbed higher percentages of quantum flux densities for photosynthesis (400–700 nm, PPFD) than the mean for the sun species, the sun and shade species as groups were not significantly different from each other: 90.2, S.D. 3.6% for shade species and 88.6, S.D. 2.4% for the sun species. The groups of species did not differ in total absorptance of energy 350–1,100 nm. Furthermore, the sun and shade species were identical in their shift of absorptance at wavelengths between 650 and 750 nm. The anthocyanic coloration of the leaf undersurfaces of two species polymorphic for this characteristic (Trionela hirsuta and Ischnosciphon pruinosus) is correlated with increased absorptance at the upper end of the action spectrum of photosynthesis. Although sun and shade species have similar optical properties, the energy investment (as documented by dry wt per unit area of leaf surface) is much less for the shade species.     

植物多糖的凹形结构与生物活性关系

简述了植物多糖的生物活性与结构 ,讨论了植物多糖的生物活性与结构的关系 ,提出了凹形结构是多糖产生生物活性的基础     

GENETIC DIFFERENTIATION IN LEAF AND WHOLE PLANT PHOTOSYNTHETIC CAPACITY AND UNIT LEAF RATE AMONG CLONES OF PHLOX PANICULATA

A model population comprising five genotypes of Phlox paniculata was used to investigate differentiation in carbon assimilation amongst those genotypes. Three methods were used to measure carbon assimilation, single leaf photosynthetic capacity, whole plant photosynthetic capacity and unit leaf rate (ULR). Genotypes displayed no significant differences in single leaf photosynthetic capacity and that character did not have a detectable genetic component. However, genotypes showed significant differences in both whole plant photosynthetic capacity and unit leaf rate, and significant genetic components were found for both characters. The differences in whole plant photosynthetic capacity and unit leaf rate are related to differences in plant architecture and modular demography. Erect, self-shading morphs had lower whole plant photosynthetic capacity and unit leaf rate than prostrate morphs. The results suggest that the better measures of physiological parameters for use at the population level will be those which integrate over the whole plant rather than those which only measure performance of parts.     

水稻叶片气孔导度与冠层反射光谱的定量关系分析

研究了不同土壤水氮条件下水稻(Oryza sativa)叶片气孔导度与冠层光谱反射特征的量化关系。结果表明,不同水分处理下,水稻不同叶位气孔导度变化趋势为:GsL1>GsL2>GsL3>GsL4。高于W3水分条件下,高氮处理的叶片气孔导度高于低氮处理,而低于W3水分条件下,高低氮处理条件下叶片气孔导度差异不显著。发现比值指数R(1 650,760)与不同叶位叶片及不同层次叶片气孔导度的相关性大小为:GsL1>GsL12>GsL123>GsL1234>GsL2>GsL3>GsL4(水稻顶部自上而下第一、二、三、四叶以及自上而下顶部2张、3张、4张叶片的气孔导度值分别表示为:GsL1、GsL2、GsL3、GsL4、GsL12、GsL123和GsL1234),而顶1叶气孔导度与叶面积指数的乘积(冠层叶片气孔导度)同比值指数R(1 650,760)相关程度更高。R(1 650,760)与顶1叶和冠层叶片气孔导度之间皆呈极显著的幂函数负相关。利用不同年份的不同水稻试验对两者的监测模型进行了检验,模型的检验误差RMSE分别为0.05和0.24,表明比值指数R(1 650,760)可以较好地监测不同水氮条件下水稻叶片的气孔开闭特征。     

全光和遮阴下两种亚热带木本植物的光合作用对光的响应

以气体交换和调制叶绿素荧光测定技术测定了2年生亚热带乔木黧蒴,林下灌木九节在全自然光和17％自然光下叶片同部位的光合作用和与之相关的荧光参数的日变化。和全光照比较,遮阴下植物叶片净光合速率Pn,气孔导度gs,胞间CO2浓度与大气CO2浓度之比Ci/Ca,类胡萝卜素与叶绿素含量之比Car/Chl,光系统Ⅱ原初光[化学效率Fv/Fm 的变化幅度相对较小,种间差异较不明显,全光照黧蒴和九节Pn的口变化图式与gs,Ci/Ca类似,与Φpsll,qp的下降吻合。全光下黧蒴叶片qN和Car/Chl的口进程表现为增加,九节则下降,低的Car/Chl可能是导致强光下九节未能提高其qN的原因,正午前后,黧蒴qN和Car/Chl增大,而qp和Φpsll降低,Fv/Fm则保持相对稳定,反映其开放的PSII反应中心数目在此期间虽有所减少,但仍然维持了较高的光化学效率,提高的Car/Chl和qN则说明其肯有较强的对过剩激发能的耗散能力,此条件下九节的gs,Fv/Fm和qN下降且明显低于黧蒴,Φpsll和qp保持相对稳定但高于黧蒴的水平,表明九节的PSII反应中心活性较稳定,但强光下气孔部分关闭,较低的Fv/Fm和qN限制了CO2供应和对光能的有效利用,且未能诱导热能耗散机制的积极运行及对光合器起到保护作用。总体上说,九节对高光强反应比黎蒴敏感。     

SEASONAL PATTERNS OF LEAF PHOTOSYNTHETIC CAPACITY IN SUCCESSIONAL NORTHERN HARDWOOD TREE SPECIES

Seasonal patterns of leaf photosynthetic capacity and conductance were determined for deciduous hardwood tree species in natural habitats in northern lower Michigan. Leaves of bigtooth aspen and red oak at the top of the canopy had higher maximum CO₂ Exchange Rate (CER) (10–15 μmol m ² s ¹) than leaves of sugar maple, red maple, red oak, and beech growing in the understory (4–5 μmol m ² s ¹). In all leaves, CER measured at light-saturation increased to a maximum near the completion of leaf expansion in early June, was constant until mid-September, and then rapidly declined until leaf death. A similar pattern was seen for CER measured in low light (1.5% full sun). Respiration rate in the dark was highest in young leaves and decreased during leaf expansion; a relatively constant rate was then maintained for the rest of leaf lifespan. The seasonal pattern of the initial slope of the light response of CER paralleled the pattern of light-saturated CER. The initial slope in midsummer ranged from values of 37 to 44 μmol/mol for species in the understory to 51 and 56 μmol/mol for red oak and bigtooth aspen, respectively, at the top of the canopy. Leaf conductance was constant throughout most of leaf lifespan, with some decline occurring in autumn. Leaves at the top of the canopy had higher conductances for water vapor (2–5 mm/s) than leaves in the understory (1–2 mm/s). All species maintained leaf intercellular CO, mole fractions (c,) near 200 uML/L until autumn, when c, increased during leaf senescence.     

高寒草原优势种叶片结构变化与生态因子的关系

 为了揭示青藏高原高寒草原优势物种青藏苔草（Carex moorcroftii）和紫花针茅（Stipa purpurea）对高原特殊环境的适应性,该文研究了 它们的叶片结构在自然环境梯度下的变化以及这些变化与生态因子之间的关系。结果表明：这两个物种叶片的大多数结构特征在各个样地间变 化显著,其结构特征与环境因子间存在显著的相关关系。紫花针茅叶肉细胞大小随土壤有效K含量的增高而减小,下表皮细胞厚度和韧皮部面积 随生长季云盖度的增高而增加,单一导管半径和导管平均面积随生长季月均湿度的增加而增大;青藏苔草上表皮细胞厚度随生长季月均最低温 的降低而增厚,泡状细胞厚度（径向直径）随大陆度的增强而增加,上表皮细胞大小随土壤pH值的增大而增大,导管总数和韧皮部面积随土壤 速效P含量的增高而增加。青藏苔草的保护组织、光合组织以及综合指标变异系数明显大于紫花针茅,仅维管组织指标变异系数小于紫花针茅。     

温度和水分状况对几种不同类型植物叶片水势和延伸生长的影响

在田间条件下研究了温度、相对湿度、土壤水分对玉米、高粱、茄子、豇豆、河北杨和泡桐六种植物LER2)和ψWL3)日变化的影响。结果表明,ψWL日变化呈正弦曲线,即早晨、晚上高,中午低;土壤水分亏缺,中午大气ψWV4)愈低,ψWL降低愈多。在土壤供水良好的条件下,玉米、高粱、河北杨、泡桐叶片生长与温度密切相关,因此白天生长快,晚上生长慢;若中午ψWV太低,生长减慢,使叶片生长呈双峰曲线,即午前及18:00左右生长快。若土壤水分亏缺,白天ψWV太低,白天生长慢,晚上生长快。茄子和豇豆叶片生长对水分亏缺更敏感,晚上生长快,白天生长慢,干旱处理叶片在白天中午有收缩现象。     

真红树和半红树植物叶片氯含量及叶性状的比较

 依据红树植物在潮间带的分布,将其分为真红树植物和半红树植物两大类。但对一些过渡地带种类的归属问题一直存在争议。该研究选取国内大部分红树植物,比较其成熟叶片中的Cl含量、肉质化程度、比叶面积（SLA）、单位重量叶氮含量（N_mass）和单位面积叶氮含量（N_area）,并对争议树种重新进行界定。结果表明：1）真红树植物叶片中Cl含量和肉质化程度远高于半红树植物;2）真红树植物具有低SLA和高N_area的特点,除水芫花(Pemphis acidula)外半红树植物具有高SLA和低N_area的特点。3）争议的7种红树植物中,银叶树（Heritiera littoralis）、海漆（Excoecaria agallocha）、卤蕨（Acrostichum aureum ）和尖叶卤蕨（Acrostichum speciosum）归为半红树植物更合适;老鼠（Acanthus ilicifolius）和小花老鼠（Acanthus ebrecteatus）归为真红树植物。木果楝（Xylocarpus granatum）有待进一步研究。     

弱光下生长的葡萄叶片蒸腾速率和气孔结构的变化

 植物能够对生长环境产生生态适应性,这种适应性可从气孔导度、光合速率、水分利用效率等生态指标上反映出来。为了研究葡萄蒸腾特性对弱光环境的适应性变化,本试验以‘京玉’葡萄幼苗（Vitis vinefera cv. Jingyu）为试验材料,通过遮光处理（2个处理,分别遮光65%和85%）营造弱光环境,测定了在弱光环境下生长的葡萄叶片蒸腾速率、气孔导度、水分利用效率对光照强度的响应,同时用扫描电镜技术观察了气孔的发育。结果表明,弱光环境下生长的葡萄幼苗,叶片的水势较高,但水分利用效率较低,叶片蒸腾速率和气孔导度变化对光照强度的响应缓慢,而自然光下生长的葡萄叶片则反应较迅速。通过对气孔结构的研究发现,与自然光照环境下生长的植株相比,在弱光环境下生长的葡萄幼苗,叶片下表皮的气孔横轴变宽,大小气孔之间差异减少,气孔外突,表皮细胞变大甚至扭曲,角质层变薄。说明葡萄幼苗能够对弱光环境产生适应性变化,其蒸腾特性的变化与其气孔结构的变化相关,具有一致性。     

CO2浓度倍增对几种植物叶片的叶绿素蛋白质复合物的影响

研究了CO_2浓度倍增对大豆(Glycine max L.,C_3植物)、黄瓜(Cucumis sativus L.,C_3植物)、谷子(Setaria italica (L.) Beauv.,一种不很典型的C_4植物)和玉米(Zea mays L.,C_4植物)叶片的叶绿素蛋白质复合物的影响。实验植物盆栽于聚乙烯薄膜(或玻璃)的开顶式培养室中。播种后对照室的CO_2浓度立即保持在大气浓度(350±10)×10~(-6)中,CO_2浓度倍增处理室则保持在(700±10)×10~(-6)下。研究结果表明,对于大豆、黄瓜和谷子,CO_2浓度倍增均使其PSⅡ捕光叶绿素a/b-蛋白质复合物(LHCⅡ)的聚合体态的量增多,单体态的量减少。但C_4植物玉米对CO_2浓度倍增没有这样的反应。作者认为在大豆等植物中,LHCⅡ的上述状态变化可能是植物的光合机构对长期高CO_2浓度的一种适应效应,这样能提高光合作用中光能的吸收、传递和转换的效率,并支持高效的光合碳素同化作用。