Effect of Temperature Water Content and Light Intensity on Nitrogenase Activity of Nostoc flagelliforme

The optimal temperature for the nitrogenase activity in the terrestrial cyanobacterium N. flagelliforme was 21–28℃; the optimal water content in thallus was 1000--1500%; the light saturation was between 150–200 J·m-2·s-1. The thallus of N. flagelliforme is extremely sensitive to higher temperature in wet. Long-term exposure of wetted thallus to high temperature at 45℃ causes rapid declination of its nitr0genase activity to zero. Under dry condition, N. flagelliforme is extremely resistant to extensive desiccation and heat exposure. Dry thalli exposed to 55℃, 5 hours daily for 21 days, show no marked change in its nitrogenase activity. The thalli preincubated in wet condition for 4–5 days, are highly sensitive against desication. However, repeated drying/wetting cycles induce a slow and gradual increase of its nitrogenase activity and improve the resistance of its nitrogenase activity against desiccation. High concentrated NaC1 salt solution (0.17–0.43 mol/L) depletes nitrogenase activity of the thalli quickly. Above result shows that N. flagelliforme is not able to resist against salt. The physiological characteristics of nitrogen fixation of cyanobacterium N. flagelliforme may be eonsidered as a result of drought adaptation of the terrestrial ecological condition aad the drying westting cycle is perhaps a necessary factor to maintain its growth.     

NaCl胁迫对互花米草细胞膜和光响应曲线特征参数的影响

以大米草的互花米草为材料,研究了不同盐浓度对其细胞膜透性、丙二醛(MDA)含量和光响应曲线的特征参数的变化情况。结果表明:盐浓度低于300mmol·L-1时,互花米草细胞膜透性和MDA含量较对照组无显著差异;其较高的最大光合速率(>30μmol·m-2·s-1),表观量子效率(>0.05mol·mol-1Photons)以及较低的暗呼吸速率(<1.5μmolCO2·m-2·s-1)和光补偿点(<20μmol·m-2·s-1)为其有机物质积累、竞争、建立种群并扩散提供条件。盐浓度高于500mmol·L-1时,互花米草膜透性和MDA含量显著上升,最大光合速率(Amax)及表观量子效率(Q)显著下降,暗呼吸速率(Rday)和光补偿点(LCP)上升。表明细胞膜和光合作用有关酶受到迫害,抑制了其正常生长。盐胁迫下互花米草光合速率降低,但蒸腾速率的显著下降提高了单叶水分利用效率,从而部分缓解了渗透势变化对细胞的迫害,为其生存和生长提供条件。     

西双版纳山地三种土地利用方式的旱季土壤呼吸

为了解西双版纳山地不同土地利用方式土壤呼吸旱季变化特征,本研究对古树茶园、台地茶园和次生林中土壤呼吸速率及其相关因素进行定位观测。结论如下：三种土地利用方式土壤呼吸速率日变化有显著的差异性（P<0.05）;土壤呼吸速率日最高值大多出现在14∶00-16∶00;旱雨季交错期是土壤呼吸速率和土壤湿度变化最剧烈的阶段;土壤呼吸速率日均值表现为古树茶园（2.62μmol·m-2s-1）<台地茶园（2.73μmol·m-2s-1）<次生林（3.01μmol·m-2s-1）;土壤湿度过高和过低都会阻碍土壤呼吸的进行;三种土地利用方式土壤呼吸速率均与土壤湿度(0~10cm)和空气日均温具有相关关系;降水会引起土壤呼吸较大的波动。     

崖柏与侧柏光合特性和叶绿素荧光参数的比较研究

以盆栽的中国特有濒危植物崖柏及其近缘广布种侧柏幼苗为材料,测定了二者的光照和二氧化碳响应特征参数、光合作用气体交换参数和叶绿素荧光参数,比较分析两者间差异并探讨崖柏异地保存的可行性。结果显示:(1)在光响应参数方面,崖柏和侧柏的表观量子效率分别为0.039和0.027 mol.mol-1,但二者差异不显著;崖柏的光补偿点(81.04μmol.m-2.s-1)显著高于侧柏(59.72μmol.m-2.s-1),但二者的最大净光合速率(Pmax)、光饱和点(LSP)和暗呼吸速率(Rd)均无显著差异;崖柏的CO2补偿点(129.17μmol.mol-1)显著高于侧柏(95.86μmol.mol-1),而光呼吸速率则崖柏略高于侧柏,但二者的羧化效率相当。(2)气体交换参数方面,崖柏的叶片气孔导度和蒸腾速率均低于侧柏,而瞬时水分利用效率和气孔限制值则略高于侧柏;随着光照强度增加,崖柏和侧柏的净光合速率和胞间CO2浓度增加,而气孔限制值则降低。(3)2个树种的叶绿素荧光参数,如初始荧光、最大荧光、可变荧光、光系统Ⅱ原初光能转换效率、光系统Ⅱ实际光化学量子效率、非光化学猝灭等均无显著差异,但崖柏光化学猝灭系数(0.218)显著低于侧柏(0.322)。研究表明,崖柏与侧柏在光合特性和叶绿素荧光参数方面具有较大的相似性,也表明崖柏在生长季对北迁环境具有较强的适应性。     

水分对发状念珠藻生理活性的影响

研究了水分对发状念珠藻(Nostor flagelliforme Born.et Flah.)生理活性的影响作用。结果表明：干藻体在湿润的过程中,呼吸、光合和固氮活性依次恢复;且随水分含量的增加,光合活性和固氮活性逐渐增强,呼吸作用缓慢减弱并在一定水平上保持相对稳定,自由水是束缚水8倍左右时发菜生理活性全面恢复。吸水饱和的藻体在干燥过程中,光合、呼吸、固氮作用依次停止;呼吸作用随水分的丧失逐渐下降;固氮活性、光合活性在水分丧失20％～40％时有一定程度的增强,出现活性高峰;此后,生理活性下降,水分完全丧失时,光合作用终止,呼吸和固氮作用极其微弱。试验证明,水分是发状念珠藻生理活性的重要限制因子,适宜的水分有助于发菜维持正常的生理代谢和生长。     

不同土地利用对土壤有机碳储量及土壤呼吸的影响

为了探讨土地利用方式对土壤碳储及土壤呼吸的影响,对安徽沿淮洼地杞柳纯林、杞柳-杨树混交林及杨树纯林3种不同土地利用方式下土壤有机碳储量及土壤呼吸特点进行了比较。结果表明:杞柳纯林、杞柳-杨树混交林、杨树纯林0～30cm土壤有机碳含量分别为6.80、8.50和7.71g·kg-1,土壤有机碳密度分别为2.88、3.26和2.95kg·m-2,土壤有机碳含量和土壤碳密度随土层深度的增加而降低。不同土地利用类型土壤呼吸年平均值分别为1.68μmol·m-2·s-1(杞柳纯林)、2.33μmol·m-2·s-1(杞柳-杨树混交林)、1.61μmol·m-2·s-1(杨树纯林),土壤呼吸日均值最高出现在夏季(6.64μmol·m-2·s-1),最低为冬季(0.13μmol·m-2·s-1)。相关分析表明,土壤呼吸速率与地表气温之间呈显著的指数关系,杞柳纯林、杞柳-杨树混交林、杨树纯林的相关系数R2分别为0.71、0.62、0.54。杞柳-杨树混交林较杞柳纯林有利于土壤有机碳的固定,杞柳纯林土壤有机碳储量偏低,与其粗放经营有关。在今后的栽植管理中,应采取合理的耕作施肥措施,在提高土壤肥力的同时增强土壤的碳固定。     

亚热带季风阔叶林不同林地几种植物光合作用的比较研究

比较了亚热带季风阔叶林不同林地几种植物的叶特性、叶含氮量、叶绿素含量、光合速率和气孔对CO_2的传导率,表明疏林的桃金娘(Rhodomyrtus tomentoso)和荷树(Schima superba)的叶厚和栅栏组织厚度较九节(Psychotria rubra)小,但单位面积干重较九节大,叶含氮量(N mg/g干重)较密林的罗伞(Ardisia quinquegona)低,疏林的桃金娘和荷树的光合作用饱和光强为600和550 μmol 光量子m~(-2),S~(-1),光补偿点分别为12和20 μmol,光量子m~(-2),s~(-1),两种植物的平均最大光合速率分别为11.9±0.4和7.5±1.8 μol CO_2,m~(-2),S~(-1),光合量子产率分别为0.056和0.048,而密林的罗伞光合速率变化对光强变化反应敏感,暗呼吸速率较低。光补偿点为5μmol,光量子m~(-2),S~(-1),显著低于疏林植物,疏林植物有着较高的Ci/Ca值和水分利用效率。亚热带季风阔叶林的不同林地的植物有着不同的光合作用特性,这可能与植物生境的光状况有关。     

Light Stress and Oxidative Cell Damage in Photoautotrophic Cell Suspension of Euphorbia characias L

A photoautotrophic cell-suspension culture of Euphorbia characias L. grown at 70 [mu]mol photons m-2 s-1 was very sensitive to light stress: the gross photosynthesis measured by using a mass spectrometric 16O2/18O2 isotope technique showed a fast decrease at a rather low light intensity of 100 [mu]mol photons m-2 s-1, far below the photosynthetic saturation level. The contribution of activated oxygen species on photosystem II photoinhibition was examined for a given light intensity. A protective effect on gross photosynthesis was observed with 1% oxygen. When light stress was applied to a methyl viologen-adapted cell suspension, photoinhibition was reduced. When 50 [mu]mol L-1 methyl viologen was added, photoinhibition was slightly enhanced. These responses suggested an involvement of superoxide radicals in the photoinhibition process of E. characias photoautotrophic cells. The long-term (16 h) effects of photoinhibition were then studied. Aldehyde (malondialdehyde and 4-hydroxyalcenals) production resulting from lipid peroxidation was stimulated in long-term stressed cells. When 50 [mu]mol L-1 methyl viologen were added, increased aldehyde production was measured. Under 1% oxygen, the aldehyde production was comparable to that of nonstressed cells. The relationship among lipid peroxidation, light intensity, and net photosynthesis suggests that aldehyde production may result from cell death provoked by a prolonged energy deficit due to the inhibition of photosynthesis.     

Study on Leaf Anatomy and Photosynthesis of Cymbidium sinense

The leaf surface of Cymbidium sinense(Andr.) Willd was covered with cuticle and wax. The stomata were distributed in the dorsum of the leaf, the density being 100–130 mm-2 There was a stomatal cover on each stoma. The mesophyll was not differentiated into spongy tissue and palisade tissue. No chloroplast was observed in the vascular bundle sheath cells. The chloroplast in the mesophyll cells had well developed grana, with lightly stacked thylakoids and osmiophilic granules. The highest quantum yield of functional leaf was 0.082. The light compensation point of photosynthesis was about 5 μE·m-2·s-1, the light saturation point was about 200 μE·m-2·s-1. The photosynthetic ra,e of Cymbidium sinense was very low, generally 2.0–2.6 μmol CO2· m-2·s-1. The optimum temperature of photosynthesis of one-year-old leaf was 25℃. The photosynthe,ic rate of the three-year-old leaf declined with temperature rise. The ratio of chlorophyll a/b was about 2.7. The CO2 compensation point of photosynthesis was 105–220 ppm. All these data show that Cymbidium sinense belongs to the typical shade plants with low photosynthetic rate and high CO2 compensation point that explains that the growth of Cymbidium sinense is slow in nature.     

光照强度对小麦苗期草酸氧化酶活性的影响

以小麦品种‘烟优361’(Triticum aestivum L.cv.Yanyou 361)萌发4 d幼苗为试验材料,分析了草酸氧化酶(OxO)在幼苗中的定位和表达,以及光照强度处理对小麦幼苗OxO活性的影响。实验结果显示,萌发后小麦幼苗的OxO分布在子叶与根的连接处和成熟的根中,其活性随光照强度的增加而下降;200μmol.m-2.s-1的强光显著抑制了OxO活性,该处理培养4 d幼苗的OxO活性仅为40μmol.m-2.s-1光照培养条件下的18.7%;强光还缩短OxO在苗期的表达时间,抑制了OxO的mRNA表达量。同时,光照强度还能影响小麦幼苗中H2O2的含量,200μmol.m-2.s-1处理幼苗的H2O2的含量显著下降,其培养4 d的幼苗H2O2含量仅为40μmol.m-2.s-1光照强度培养条件下的18.0%。研究发现,光照强度可通过调节OxO的活性和表达量来控制H2O2的产量,从而影响幼苗的生长发育。     

不同光照强度和温度对金钗石斛生长的影响

为了系统地研究不同光照强度下温度对金钗石斛(Dendrobium nobile)生长的影响,在金钗石斛分蘖期,于80μmol·m-2·s-1、160μmol·m-2·s-1、320μmol·m-2·s-1、640μmol·m-2·s-1的不同光强下,各设置5个温度(15℃、20℃、25℃、30℃、35℃)梯度对石斛进行处理。结果表明：石斛的生长与代谢随温度由低到高,表现出弱—强—弱的变化规律;80μmol·m-2·S-1光强下,石斛生长以25～30℃较为适宜;160μmol·m-2·s-1光强下则以20～25℃为适宜温度范围;320μmol·m-2·s-1与640μmol·m-2·s-1的中、强光照下,25℃处理石斛的生长优势尤为明显;不同光强下,石斛鲜重的增长大多以25℃处理更快,繁殖力则以20℃与25℃处理较高,各光强下的MDA含量随温度升高而先降后升,且均以25℃最低;可溶性蛋白质、可溶性总糖及叶绿素含量则表现出随温度由低到高而先增后减的趋势,其含量最高点均出现在25℃左右;净光合速率和叶绿素含量随光强和温度的变化趋势基本一致;各种光强下的暗呼吸速率均随温度升高而增大。因此,在不同的光照条件下,石斛生长的适宜温度均在25℃左右。光温处理引起石斛生理生化过程明显的相应变化表现出：高温和弱光照条件有利于石斛的株高增长,但不利于产量和质量提高;石斛的生长与MDA含量呈显著负相关(r80＝-0.9082、r160＝-0.9816、r320＝-0.8075、r640＝-0.8586),与可溶性糖含量呈一定正相关(r80＝0.7673、r160＝0.8892、r320＝0.8179、r640＝0.9278),并且石斛的生长与可溶性蛋白质含量、叶绿素含量、光合速率之间的变化趋势基本一致。     

Study of Diurnal Changes in Photosynthetic Rate and Quantum Efficiency of Grapevine Leaves and Their Utilization in Canopy Management

Photosynthetic rate and quatum efficiency of grapevine (Vitis vinifera L. cv. Sauvignon blanc) leaves were measured under the field with ample soil water supply, and in phytotron with ample supply of water and mineral nutrients, constant air humidity and CO2 concentration, and optimum air temperature, respectively. Under field conditions CO2 assimilation quantum efficiency of leaves reached its maximum in the morning, which was followed by continuous decrease and midday depression. The leaves intercepting more light energy in the morning showed a higher quantum efficiency. Those leaves subjected continuously to strong irradiance exhibited a more obvious and longer midday depression. Reduction of leaf light interception around midday could reduce midday depression. Shaded leaves had a higher quantum efficiency than leaves under direct sunlight. The diurnal changes in photosynthetic rate and quantum efficiency of leaves were shown to be closely related to the variations in mesophyll resistance to CO2. In phytotron experiments the photosynthetic quantum efficiency of leaves was reduced after a certain period of illumination not only at 1200 μmol · m-2 · s-1 PFD, higher than the saturating light of vine leaves (≈1000 μmol · m-2 · s-1), which was caused by "photoinhibition”, but also at 800 and 200μmol · m-2 · s-1, which was similar to "photoinhibition”. But photosynthetic quantum efficiency of leaves exposed continuously to a very weak PFD (100 μmol · m -2 · s-1) remained contant. The diurnal changes in mesophyll resistance to CO2 of vine leaves could be partly related to photoinhibition. It is considered that, under field conditions without soil water limitation, midday depression of vine leaf photosynthesis could be a result of an increase of the mesophyll resistance induced by multiple effects of strong light, high temperature and low humidity. A higher light interception by canopy plane in the morning may be advantageous to exploit higher photosynthetic potentiality of leaves, but a lower light interception in the middle of day may reduce midday depression. The north-south orientation plane can provide optimum light regime and improve photosynthetic environment in vineyards.     

Changes of Atmospheric CO2, Photosynthesis of the Grass Layer and Soil CO2 Evolution in a Typical Temperate Deciduous Forest Stand in the Mountainous Areas of Beijing

Middle-sized chambers (40 cmx 40 cmx20 cm) and an infrared gas analyzer (IRGA)were used for the measurement of net photosynthesis of the grass layer and soil CO2 evolution, in Quercus liaotungensis Koidz. forest, which is a typical temperate forest ecosystem in the mountainous areas of Beijing. Changes of CO2 concentrations in both the atmosphere (2 m above canopy) and the forest canopy (2 m below the top of the canopy) together with those of net photosynthesis and soil CO2 evolution were also examined, in order to find the characteristics of CO2 exchange between the different components of the temperate forest ecosystem and the atmosphere. Atmospheric CO2 averaged (323 ±10) and (330± 1) μmol'mo1-1 respectively in summer and autumn. During the 24-hour measurements, large differences as much as – 46 and – 61 μmol ·mol- 1 respectively in the atmosphere and forest were found. Net photosynthesis of the grass layer in summer was (2.59 ± 1.05) μmol CO2·m-2·s-1, two times of that in autumn, (1.31±0.39) μmol CO2·m-2·'s-1. In summer, there was much more CO2 evolved from soil than in autumn, averaging (5.18 ± 0.75) μmol CO2·m- 2·s- 1 and ( 1.96 ± 0.57) tanol CO2· m- 2· s- 1, respectively. A significant correlation was found between soil CO2 evolution and ground temperature, with Y = –0.864 2 + 0.310 1X, r =0.7164, P < 0.001 (n = 117). Both the minimal atmospheric CO2 level and the maximum net photosynthesis occurred around 14:00; and an increase in atmospheric CO2 and of soil CO2 evolution during night times were also found to be remarkable.     

环境因子对细基江蓠繁枝变种氮、磷吸收速率的影响

实验室条件下,研究了光强、酸碱度、温度、盐度对细基江蓠繁枝变种N、P吸收速率的影响.细基江蓠繁枝变种对N的吸收速率在光强为800～2400μmolphoton     

Light dependency of the photosynthetic recovery of Nostoc flagelliforme

PS II photochemical efficiency (F_v/F_m) of Nostoc flagelliforme was examined after rewetting in order to investigate the light-dependency of its photosynthetic recovery. F_v/F_m was not detected in the dark, but was immediately recognized in the light. Different levels of light irradiation (4, 40 and 400 μmol photon m² s^-1) displayed different effects on the recovery process of photosynthesis. The intermediate level led to the best recovery of photochemical efficiency; the low light required longer and the high light inhibited the extent of the recovered efficiency. It was concluded that the photosynthetic recovery of N. flagelliforme is both light-dependent and influenced by photon flux density. This revised version was published online in June 2006 with corrections to the Cover Date.     

苋菜的光合特性

宽菜Amaranthus cruentus cv.生长在调控的温室条件。在光强0至800μmol.m~(-2)S~(-1),光合速率(PN,μmol.CO_2m~(-2)、s~(-1))随光强(PFD,μmol、m~(-2)、s~(-1))增高而增大,其关系为PN=56.82 PFD×10~(-3)—2.13。光补偿点为60μmol.m~(-2)、s~(-1)。叶片在1400 μmol.m~(-2)、s~(-1)达到光合光饱和点。在叶温35℃,叶片/空气水蒸汽压陡度20 m Pa、Pa~(-1)和外界CO_2浓度340μ1、1~(-1),光饱和光合速率为51.63±4.90μ mol.CO_2、m~(-2)、S~(-1)。在光强0至600μmol.m~(-2)、s~(-1),气孔传道率随光强增高而增大。光强高于600μmol.m~(-2)、s~(-1),气孔传道率变化较小。细胞间CO_2浓度为120μ1.1~(-1)由于细胞间CO_2浓度在光合速率——CO_2关系曲线的转折点,可能表明光合作用不受气孔限制。结果表明,苋菜适于高光强环境生长,在干旱条件下具有高的光合速率。     

环境因子对小球藻(Chlorella sp.XQ-20044)光合作用的影响

小球藻(Chlorella sp.XQ-20044)是一株具有应用潜力的产油微藻,本文利用测定净光合放氧速率的方法研究了光照强度、温度、pH值和盐度对其光合作用的影响。研究结果表明:小球藻适宜的光照强度为500~1200μmol·m-2·s-1,光补偿点约30μmol·m-2·s-1,光饱和点在600μmol·m-2·s-1附近;光合作用适宜的温度范围为30~42.5℃,最适温度为40℃;适宜的pH值范围7.0~10.0,最适pH值为8.0;适宜盐度范围0.1~0.3 mol/L,最适盐度为0.2 mol/L。从光合作用特性来看,小球藻能适应较强的光照强度、较高的温度、偏碱性和较高的盐度环境,其中可耐受较高盐度的特性,有助于预防敌害生物的污染,对于实现规模培养,特别是利用开放系统进行规模培养较为有利。     

楸树无性系光合特性研究

以10个楸树无性系为试验材料,利用Li-6400光合测定仪对其光合特性进行了比较研究。结果表明:楸树净光合速率(Pn)日变化为典型的双峰曲线,气孔限制是光合"午休"的主要调节因素。楸树所有无性系光合作用对光照强度(PAR)单一生态因子水平的响应均可以用二次方程描述。楸树的光补偿点(LCP,11.37~57.4μmol.m-2.s-1)和CO2补偿点(CCP,57.73~77.06μmol.mol-1)在10个无性系间存在显著差异。10个楸树无性系的净光合速率、气孔导度、蒸腾速率和瞬时水分利用效率在无性系间存在极显著差异。在光饱和点(LSP)条件下,10个无性系净光合速率处于18.8~24.4μmol.m-2.s-1之间。环境因子与光合指标存在显著的相关关系,PAR和空气湿度(RH)对楸树无性系瞬时Pn影响最大。     

Leaf Respiration in Light and Darkness (A Comparison of Slow- and Fast-Growing Poa Species)

We investigated whether leaf dark respiration (nonphotorespiratory mitochondrial CO2 release) is inhibited by light in several Poa species, and whether differences in light inhibition between the species are related to differences in the rate of leaf net photosynthesis. Four lowland (Poa annua L., Poa compressa L., Poa pratensis L., and Poa trivialis L.), one subalpine (Poa alpina L.), and two alpine (Poa costiniana Vick. and Poa fawcettiae Vick.) Poa species differing in whole plant relative growth rates were grown under identical controlled conditions. Nonphotorespiratory mitochondrial CO2 release in the light (Rd) was estimated according to the Laisk method. Photosynthesis was measured at ambient CO2 partial pressure (35 Pa) and 500 [mu]mol photons m-2 s-1. The rate of photosynthesis per unit leaf mass was positively correlated with the relative growth rate, with the slow-growing alpine Poa species exhibiting the lowest photosynthetic rates. Rates of both Rd and respiration in darkness were also substantially lower in the alpine species. Nonphotorespiratory CO2 release in darkness was higher than Rd in all species. However, despite some variation between the species in the level of light inhibition of respiration, no relationship was observed between the level of inhibition and the rate of photosynthesis. Similarly, the level of inhibition was not correlated with the relative growth rate. Our results support the suggestion that rates of leaf respiration in the light are closely associated with rates in darkness.     

亚热带季雨林植物罗伞气体交换对光质的反应

亚热带季雨林林下阴生植物罗伞(Ardisia quinquegona)叶片的气体交换速率(PN.μmol.m~(-2),s~(-1))随光强(PFD,μmol,m~(-2),s~(-1))增高而增大。在光强低于80μmol,m~(-2),s~(-1),PN=29.21PFD×10~(-3)+0.36。在光强150μmol,m~(-2),s~(-1)对出现气体交换的光饱和现象。在低光强下,气孔传导率(G,m mol,m~(-2),s~(-1)与光强(m mol,m~(-2),s~(-1)的关系为G=265.6 PFD+4.6。在低光强下。开阔地的阳生灌木桃金娘(Rhodmyrtus tomentosa)的气体交换速率和气孔传导率与光强关系曲线的直线部分斜率皆较罗伞的低,在红光上,罗伞叶片气体交换速率(μmol,m~(-2),s~(-1)与光强(μmol,m~(-2),s~(-1)的关系为PN=32.4 PFD×10~(-3)-0.04。气孔传导率(m mol,m~(-2),s~(-1)与光强(m mol,m~(-2),s~(-1)的关系为G=339.08 PFD+7.37。同时气体交换速率的饱和红光光强亦较白光的高。在蓝光光强低时,气体交换速率(μmol,m~(-2),s~(-1))与光强(μmol,m~(-2),s~(-1))的关系为PN=13.54 PFD×10~(-3)—0.17,而气孔传导率(m mol,m~(-2),s~(-1))与光强(mμmol,m~(-2),s~(-1))的关系为G=80.5 PFD+4.35。在低的蓝光下,体交换速率和气孔传导率与光强关系曲线的直线部分斜率显著较在白光和红光下的低。罗伞叶片气体交换对红光的反应敏感。