Leaf Factors Affecting Light-Saturated Photosynthesis in Ecotypes of Solidago virgaurea from Exposed and Shaded Habitats

Plants of Solidago virgaurea L. from exposed and shaded habitats differ with respect to the response of the photosynthetic apparatus to the level of irradiance during growth. An analysis was carried out on leaf characteristies which might be responsible for the differences established in the rates of Hght-saturated CO₂ uptake. The clones were grown in controlled environment chambers at high and low levels of irradiance. Light-saturated rates of photosynthesis and transpiration were measured at natural and lower ambient CO₂ concentrations. A low temperature dependence of light-saturated CO₂ uptake at natural CO₂ concentrations, and a strong response to changes in stomatal width, suggested that the rate of CO₂ transfer from ambient air towards reaetion sites in chloroplasts was mainly limiting the pholosynthetic rate. Resistances to transfer of CO₂ for different parts of the pathway were calculated. There was a weak but significant correlation between stomatal conductance and the product stomatal frequency ± pore length. Mesopbyll conductance and dry weight per unit area were highly correlated in leaves not damaged by high irradiance. This suggests that mesophyll conductance increases with increasing cross sectional area (per unit leaf area) of the pathways of CO₂ transfer in the mesophyll from cell surfaces to reaction sites. The higher light-saturated photosynthesis in clones from exposed habitats when grown at high irradiance than when grown at low irradiance was attributable mainly to a lower mesophyll resistance. In shade clones the effect upon CO₂ uptake of the increase in leaf thickness when grown at high irradiance was counteracted by the associated inactivation of the photosynthetic apparatus. The difference in CO₂ uptake present between clones from exposed and shaded habitats when preconditioned to high irradiance resulted from differences in both mesophyll and stomatal resistances. A few hybrid clones of an F₁-population from a cross between a clone from an exposed habitat and a clone from a shaded habitat reacted, on the whole, in the same way as the exposed habitat parent. When grown at high irradiance, the hybrid clones showed higher photosynthetic rates than either parent; this was largely attributable to the unusually low stomatal resistance of the hybrid leaves.     

Biochemical effects of Solidago virgaurea extract on experimental cardiotoxicity

Cardiovascular diseases (CVDs) are the major health problem of advanced as well as developing countries of the world. The aim of the present study was to investigate the protective effect of the Solidago virgaurea extract on isoproterenol-induced cardiotoxicity in rats. The subcutaneous injection of isoproterenol (30 mg/kg) into rats twice at an interval of 24 h, for two consecutive days, led to a significant increase in serum lactate dehydrogenase, creatine phosphokinase, alanine transaminase, aspartate transaminase, and angiotensin-converting enzyme activities, total cholesterol, triglycerides, free serum fatty acid, cardiac tissue malondialdehyde (MDA), and nitric oxide levels and a significant decrease in levels of glutathione and superoxide dismutase in cardiac tissue as compared to the normal control group (P?<?0.05). Pretreatment with S. virgaurea extract for 5 weeks at a dose of 250 mg/kg followed by isoproterenol injection significantly prevented the observed alterations. Captopril (50 mg/kg/day, given orally), an inhibitor of angiotensin-converting enzyme used as a standard cardioprotective drug, was used as a positive control in this study. The data of the present study suggest that S. virgaurea extract exerts its protective effect by decreasing MDA level and increasing the antioxidant status in isoproterenol-treated rats. The study emphasizes the beneficial action of S. virgaurea extract as a cardioprotective agent.     

珊瑚树阳生和阴生叶片光合特性和状态转换的比较

珊瑚树阳生和阴生叶片是在不同光照环境中长期生长的,它们的光合特性有一些明显的差异.与阳生叶片相比,阴生叶片单位干重的叶绿素含量较多,类囊体膜垛叠程度较高(即每个基粒的类囊体膜垛叠层数较多,基粒类囊体的直径较大),而叶绿素a/b比值、光合作用的饱和光强和最大净光合速率等较低.用弱红光诱导阳生和阴生叶片向状态2转换时,叶绿素荧光Fm/Fo和F685/F735先迅速下降再逐渐回升,这表明两种叶片都先后通过满溢和LHCⅡ转移调节激发能在PSⅡ和PSⅠ之间的分配,改善光能利用,但阳生叶片Fm/Fo和F685/F735下降的幅度较大.     

阳生和阴生地木耳生理生化特性的比较

以生长于不同光环境下的地木耳为材料,对其Fv/Fm的日变化、光合作用特性、叶绿素和类胡萝卜素的含量进行了研究,以了解其光适应的生理生化基础。同阴生地木耳相比,阳生地木耳的光饱和点、类胡萝卜素含量、类胡萝卜素和叶绿素的比值均比较高,但其P-I曲线光限制部分的斜率、暗呼吸速率、Fv/Fm、叶绿素、MAAs含量和单位面积干重较低。二者最大光合速率和光补偿点无明显差异,二者均无明显的光呼吸。同等条件的光抑制后,阳生地木耳在暗处能更快、更大程度地恢复其Fv/Fm活性。原位研究表明,阴生和阳生地木耳在雨后强光下均有不同程度的光抑制发生,但在弱光下或夜晚时会及时恢复。阳生和阴生地木耳的光合特性及色素含量显著不同,以此来适应不同环境中的光因子。     

Measurement of Differences in Red Chlorophyll Fluorescence and Photosynthetic Activity between Sun and Shade Leaves by Fluorescence Imaging

With a flash-lamp chlorophyll (Chl) fluorescence imaging system (FL-FIS) the photosynthetic activity of several thousand image points of intact shade and sun leaves of beech were screened in a non-destructive way within a few seconds. The photosynthetic activity was determined via imaging the Chl fluorescence at maximum F_p and steady state fluorescence F_s of the induction kinetics (Kautsky effect) and by a subsequent determination of the images of the fluorescence decrease ratio R_Fd and the ratio F_p/F_s. Both fluorescence ratios are linearly correlated to the photosynthetic CO₂ fixation rates. This imaging method permitted to detect the gradients in photosynthetic capacity and the patchiness of photosynthetic quantum conversion across the leaf. Sun leaves of beech showed a higher photosynthetic capacity and differential pigment ratios (Chl a/b and Chls/carotenoids) than shade leaves. Profile analysis and histogram of the Chl fluorescence yield and the Chl fluorescence ratios allow to quantify the differences in photosynthetic activity between different leaf parts and between sun and shade leaves with a high statistical significance.     

Sun Shade Acclimation and Nitrogen Nutrition of

Growth, sun/shade acclimation and nitrogen nutrition were examined in Tradescantia fluminensis to gain greater understanding of why this species is so successful in New Zealand native forest remnants. Over a two year period, the rate of shoot extension of T. fluminensis in a New Zealand mixed mahoe (Melicytus ramiflorus) coastal forest remnant showed a similar pattern to monthly mean values for mean daily air temperature and day length. Growth at the shoot apex was balanced by death at the shoot base. During the first year, nitrate (NO3-)content of the plant in the field was always > 250 mu mol per g dry weight. On high NO3- supply in pot experiments, in a glasshouse or outdoors, total plant dry weight increased with increased relative irradiance from 1 to 30-50% (open ground photosynthetically active radiation = 100% relative irradiance). Changes in shoot to root dry weight ratio (S:R), specific leaf area (SLA) and leaf chlorophyll, carotenoid and protein content associated with decreased irradiance from 50 to 1% were similar to those associated with increased distance into the forest remnant and are discussed in relation to shade acclimation. Values for S:R (>30.1) and SLA (approximate to 900 cm(2) per g dry weight) were extremely high at low irradiance. These results support earlier conclusions that irradiance level is likely to be the primary factor limiting the extent of colonisation of forest remnants by T. fluminensis. Under glasshouse conditions, the growth response of T. fluminensis to different ammonium and NOS concentrations was similar to that previously reported for herbaceous species capable of rapid growth. Leaf nitrate reductase activity was within the range previously reported for fast growing species. Tradescantia fluminensis accumulated substantial amounts of NO3- in shoots with no depression in growth. This NO3- was utilised when nitrogen became limiting to growth. An 'invasion strategy' of T. fluminensis into N.Z. native forest remnants is proposed.     

Comparisons of Photosynthetic Responses of Xanthium strumarium and Helianthus annuus to Chronic and Acute Water Stress in Sun and Shade

We have examined the effects of mild, chronic water stress and acute water stress on two water stress sensitive plants, Xanthium strumarium and Helianthus annuus. Using a combination of the leaf disc O₂ electrode to measure the light responses of photosynthesis and 77 K fluorescence to monitor damage to the primary photochemistry, we have found the following: (a) The CO₂ saturated rate of photosynthesis at high light is the most water stress sensitive parameter measured. (b) The apparent quantum yield (moles O₂ per mole photons) was slightly, if at all, affected by mild water stress (>−1.5 megapascals). (c) Severe water stress (<−1.5 megapascals) reduced the quantum yield of photosynthesis regardless of whether the stress was applied in sun or shade. The light independent reduction of quantum yield was not associated with a reduction in 77 K fluorescence (F_v/F_m) indicating that the quantum yield reduction was not the result of damage to primary photochemistry. (d) The diel fluctuation in 77 K fluorescence seen in sun-exposed control leaves was greatly exaggerated in water stressed leaves because of enhanced decline in 77 K fluorescence in the morning. The rate of recovery was similar in both control and water stressed leaves. Shaded leaves showed no change in 77 K fluorescence regardless of whether water stress was imposed or not. (e) The water stress sensitive plants used in these experiments did not recover from acute water stress severe enough to reduce the quantum yield or chronic water stress which lasted long enough that light dependent damage to primary photochemistry occurred.     

两种生态型芦苇叶绿体的光合电子传递和抗氧保护体系

分布于甘肃省河西走廊的两种不同生态型芦苇-水生芦苇(水芦,生长在深约1m的水滩里)和沙丘芦苇(沙芦,生长在高约5m的沙丘上)在其离体叶绿体的光化学活性上表现为前者高于后者。其中,沙芦全链电子传递速率及光系统Ⅱ(PSⅡ)电子传递速率明显低于水芦,而光系统Ⅰ(PSⅠ)电子传递速率却与水芦接近。沙芦叶片和叶绿体中抗氧化酶活性及叶片抗坏血酸含量均高于水芦。综合结果表明,喜水植物芦苇登陆后,在自然选择压力下,为适应长期的自然干旱胁迫环境,其抗氧保护系统在保护PSⅠ免受水分胁迫诱导的氧化伤害中可能发挥着重要作用。     

阳生植物和阴生植物的叶黄素循环与非辐射能量耗散X

自然条件下阳生植物和阴生植物的光合速率存在着明显的差距,它们拥有不同的适应强光胁迫的能力,前者明显强于后者。从叶黄素组分来看,阳生植物拥有更大的叶黄素库[紫黄质（V）＋单环环氧玉米黄质（A）＋玉米黄质（Z）],其中Z和[Z＋A]的含量更明显高于阴生植物;从阳生植物或阴生植物内部来看,不同物种间,Z1[Z＋A]和[V＋A＋Z]含量的差异相对较小,A则基本相同;不论是阳生植物还是阴生植物,非光化学猝灭值与Z、[Z＋A]及[V＋A＋Z]含量均呈现较好的正相关关系,后三者含量越高,非光化学猝灭值越大,而且[V＋A＋Z]库的大小与Z含量基本上是成比例增另的。说明在不同植物种间,[Z＋]（主要是Z）仍然是影响非辐射能量耗能的主要因素。     

Photosynthetic Adaptation of Solanum dulcamara L. to Sun and Shade Environments: II. Physiological Characterization of Phenotypic Response to Environment

Photosynthetic and growth properties of Solanum dulcamara L. were studied under controlled environments. The 200 experimentally tested plants were clonal replicates of five field-collected individuals, three from fully exposed habitats and two from deeply shaded habitats. After 4 weeks of growth in one of eight environmental treatments, each plant was measured for leaf adaxial and abaxial conductance to water vapor, specific leaf weight, chlorophyll per square decimeter of leaf, photosynthetic unit size, light-saturated photosynthetic rate, total leaf area, and total leaf, stem, and root dry weights. Changes in light level influenced photosynthesis and growth of each plant more than changes in water availability or temperature. It is strongly suggested that the primary adaptive response of the tested individuals to changes in levels of light involves the regulation of leaf thickness.     

Survey of Thermal Energy Dissipation and Pigment Composition in Sun and Shade Leaves

A survey was conducted of the magnitude of energy dissipationin photosystem II (expressed as nonphotochemi-cal quenchingof chlorophyll fluorescence, NPQ) as well as leaf carotenoidcomposition of a wide range of different plant species growingin deep shade and/or full sun. Consistently higher levels ofthe reversible component of NPQ as well as higher degrees ofrapidly attainable de-epoxida-tion of the xanthophyll cycle(VAZ) pool were observed in sun leaves compared to deep shadeleaves. It is concluded that these altered features of the xanthophyllcycle allowed sun leaves to dissipate excess energy more effectivelyover the short term. In addition to the rapid increase in reversibleNPQ, shade leaves exhibited a slow further, and sustained, increasein NPQ. In contrast to these deep shade leaves experimentallyexposed to high PFDs, understory leaves experiencing highlyvariable PFD in their natural environment appeared to be ableto dissipate excess excitation energy adequately via xanthophyllcycle-dependent thermal dissipation. Furthermore, very consistenttrends across plant species were observed for changes in carotenoidcomposition (pools of carotenes, VAZ, and other xantho-phylls)in response to light environment, as long as it is assumed thatin some species rß-carotene can be replaced by     

Photosynthetic Characteristics of Sun and Shade Leaves in the Canopy of Arbutus unedo L. Trees Exposed to In Situ Long-Term Elevated CO2

Photosynthetic parameters were studied in Arbutus unedo L. trees growing at either ambient (AC) or elevated EC (mean 465 μmol mol^-1) CO₂ concentration near a natural CO₂ vent in Orciatico, Italy Diurnal courses of net photosynthetic rate (P _N), ratio of variable to maximum chlorophyll fluorescence (F_v/F_m), and quantum yield of electron transport through photosystem 2 (Φ₂) were measured on sun and shade leaves. The contents of N, C, Ca, K, P, and chlorophyll (Chl) and specific leaf area (SLA) in these leaf categories were also determined. A morning peak and midday depression of P _N were found for both AC and EC sun leaves. Long-term EC caused little or no down-acclimation of P _N in sum leaves. The estimate of total daily CO₂ uptake was lower in AC leaves than in EC leaves. In shade leaves, it reached up to 70 % of the value of sun leaves. The F_v/F_m ratio showed decreasing trend in the morning, reached a minimum at midday (90 % of dawn value), and then increased in the afternoon. The EC had no effect on F_v/F_m either in sun or shade leaves. Plants grown near the CO₂ spring had lower Chl content, higher SLA, and higher Ca and K contents than plants grown under AC. This revised version was published online in June 2006 with corrections to the Cover Date.     

Morphological variations of the Solidago virgaurea L. complex along an elevational gradient on Mt Norikura,central Japan

Morphological variations in vegetative and reproductive organs in the Solidago virgaurea complex were examined for eight elevations between 1600 and 2400 m a.s.l. in Japan. The rosette diameter and stem height were lower at higher elevations. The stem diameter at any stem height was greater at higher elevations, suggesting that the S. virgaurea complex increases mechanical stiffness against strong wind at high elevations. The number of flower heads at any stem height was less at high elevations (2000–2400 m a.s.l.) than at low elevations (1600–1900 m a.s.l.). Leaf nitrogen concentration did not change along the elevational gradient. Leaf mass per area (LMA) tended to decrease with increasing elevation, except for 2400 m a.s.l. The decrease of LMA would contribute to maintaining a positive carbon balance at high elevations. The number of involucral rays of flower heads was mostly four at low elevations (1600–1900 m a.s.l.) and three at high elevations (2000–2400 m a.s.l.). The number of involucral scales and diameter of flower heads were greater at high elevations (2000–2400 m a.s.l.) than at low elevations (1600–1900 m a.s.l.). Therefore, the S . virgaurea complex is suggested to adapt to high elevations that have cool temperature, a short growing season and strong wind conditions by changing its vegetative and reproductive traits.     

Water Relations for Sun and Shade Leaves of Four Mediterranean Evergreen Sclerophylls

The water relations, stomatal conductance, size, chlorophylland proline content have been measured in sun and shade leavesof four evergreen sclerophyll species, throuthout the year.It was found that there were no major differences in water statusof the two leaf types. However, in young expanding shade leaves,higher stomatal conductance, turgor, chlorophyll and prolinecontent leves was significantly larger. Plastochron ratios ofthe two leaf types in the four species were similar, indicatinga synchronized gorwth rate related to seasonal rhythemicity.It is suggested that different mechanisms have been operatingin the response of the two leaf-types to microclimatic conditions:an avoidance by sun leaves and tolerance by shade leaves.     

Flowering phenology and reproduction of the Solidago virgaurea L. complex along an elevational gradient on Mt Norikura,central Japan

This study examined the flowering phenology and reproductive traits of the Solidago virgaurea complex at four elevations in the subalpine zone in Japan using a bagging experiment. Flowering started earlier at higher elevations. Syrphid flies mainly visited flowers of the S. virgaurea complex, and the number of visits was considerably lower at the lowest elevation than at the three other elevations. Although the number of seeds per individual did not differ among the four elevations, total achene weight per individual was lower at the lowest elevation than at the three other elevations. The weight of an achene and seed germination rate of the control were much greater at higher elevations than at the lowest elevation. The weight of an achene and germination rate for the control were as low as the bagging treatment at the lowest elevation with infrequent flower visitors, which indicates that the S. virgaurea complex is a facultative outcrosser. The S. virgaurea complex is thought to produce seeds during a short growing season at high elevations by starting to flower earlier, and the large seed size is advantageous for seedling establishment at high elevations. Therefore, elevational changes in flowering phenology and reproductive traits are thought to be an adaptation to the short growing season at high elevations.     

Herbivory on Temperate Rainforest Seedlings in Sun and Shade: Resistance,Tolerance and Habitat Distribution

Differential herbivory and/or differential plant resistance or tolerance in sun and shade environments may influence plant distribution along the light gradient. Embothrium coccineum is one of the few light-demanding tree species in the temperate rainforest of southern South America, and seedlings are frequently attacked by insects and snails. Herbivory may contribute to the exclusion of E. coccineum from the shade if 1) herbivory pressure is greater in the shade, which in turn can result from shade plants being less resistant or from habitat preferences of herbivores, and/or 2) consequences of damage are more detrimental in the shade, i.e., shade plants are less tolerant. We tested this in a field study with naturally established seedlings in treefall gaps (sun) and forest understory (shade) in a temperate rainforest of southern Chile. Seedlings growing in the sun sustained nearly 40% more herbivore damage and displayed half of the specific leaf area than those growing in the shade. A palatability test showed that a generalist snail consumed ten times more leaf area when fed on shade leaves compared to sun leaves, i.e., plant resistance was greater in sun-grown seedlings. Herbivore abundance (total biomass) was two-fold greater in treefall gaps compared to the forest understory. Undamaged seedlings survived better and showed a slightly higher growth rate in the sun. Whereas simulated herbivory in the shade decreased seedling survival and growth by 34% and 19%, respectively, damaged and undamaged seedlings showed similar survival and growth in the sun. Leaf tissue lost to herbivores in the shade appears to be too expensive to replace under the limiting light conditions of forest understory. Following evaluations of herbivore abundance and plant resistance and tolerance in contrasting light environments, we have shown how herbivory on a light-demanding tree species may contribute to its exclusion from shade sites. Thus, in the shaded forest understory, where the seedlings of some tree species are close to their physiological tolerance limit, herbivory could play an important role in plant establishment.