Leaf Structure of Tobacco In Vitro Grown Plantlets as Affected by Saccharose and Irradiance

Tobacco plantlets were cultured in vitro under high (200 µmol m^–2 s^–1) or low (60 µmol m^–2 s^–1) irradiance with or without saccharose in the medium. Light microscopy and image analysis were used to evaluate the effect of these culture conditions on leaf anatomy. Addition of saccharose resulted in thicker leaves (all leaf layers) and larger mesophyll cells under both growth irradiances. Various irradiance affected leaf anatomy differently when plantlets had been cultivated in presence or absence of saccharose in the medium. While under high irradiance in presence of saccharose leaf thickness and number of chloroplasts per cell section were increased, plantlets grown under high irradiance in absence of saccharose had thinner leaves and less chloroplasts per cell section. The changes were more pronounced in palisade parenchyma layer.     

Photosynthetic Performance of Ginkgo biloba L. Grown Under High and Low Irradiance

Diurnal variation in net photosynthetic rate (P _N) of three-year-old plants of Ginkgo biloba was studied under open, O (receiving full sunlight), net-shade, NS (40 % of photosynthetically active radiation, PAR), or greenhouse, G (25 % PAR) conditions. In all three conditions, P _N was higher in morning along with stomatal conductance (g _s), and intercellular CO₂ concentration (C _i), while leaf temperature and vapour pressure deficit were low. The O-plants exhibited a typical decline in P _N during midday, which was not observed in NS-plants. This indicated a possible photoinhibition in O-plants as the ratio of variable to maximum fluorescence (F_v/F_m) and photosystem 2 (PS2) yield (_PS2) values were higher in the NS- and G-plants. On the contrary, stomatal density and index, chlorophyll a/b ratio, leaf thickness, and density of mesophyll cells were greater in O-plants. Further, higher P _N throughout the day along with higher relative growth rate under NS as compared to O and G suggested the better efficiency of Ginkgo plants under NS conditions. Therefore, this plant species could be grown at 40 % irradiance to meet the ever-increasing demand of leaf and also to increase its export potential.     

Influence of Sugars on in vitro Rooting and Acclimatization of Carob Tree

Carob tree (Cerafoma siliqua L.) micropropagated shoots were rooted on half-strength Murashige and Skoog medium, supplemented with different types and concentrations of sugars, in order to determine the effects of sugar composition and concentration on in vitro rooting and in vivo establishment of the plantlets. Among the various sugars tested, the best rooting response was obtained with 145 mM sucrose, both in terms of rooting frequency and index of rooting. The use of filter-sterilized rather that autoclaved fructose increased root number and root length. Sugar treatment during rooting slightly influenced plantlet survival and growth during acclimatization. A reduction in the glucose concentration during rooting was beneficial for plantlet acclimatization.     

Gas Exchange of In Vitro and Ex Vitro Grown Grapevine Plants

Net photosynthetic rate (P _N) and dark respiration rate (R _D) were measured in Vitis vinifera L. cvs. Dimiat 4/24 (23^rd subculture), Dimiat 4/38 (22^nd subculture), and Italian Riesling 3/47 (22^nd subculture) on days 3, 2, and 1 (1^st series) before transfer from the in vitro culture and on days 14, 15, 16 (2^nd series) and 28, 29, 30 (3^rd series) after the transfer. P _N of in vitro and ex vitro plants was strongly affected by irradiance. P _N and R _D of in vitro plantlets were lower and transpiration rate (E) was higher compared to those of ex vitro plantlets. P _N, R _D, and E changed in the course of acclimation.     

The epidermis of barley leaves is a dynamic intermediary storage compartment of carbohydrates, amino acids and nitrate

Sugars, amino acids and nitrate were measured in the epidermis of barley seedlings and compared with whole leaf levels. I. Under all conditions, concentrations of glucose and fructose were lower in the epidermis than in the remaining leaf tissues; levels were lowest at the end of the dark period (0.2–1.4 m M ) and increased under conditions of inhibited assimilate export (3–6 m M ). 2. Epidermal sucrose concentrations were very low (« 0.2 m M ) even in excised leaves which had accumulated assimilates. 3. Similar to the sugars, amino acids were also less concentrated in the epidermis than in whole leaf extracts. However, the amino acid profiles showed cell type-specific differences. 4. Nitrate was accumulated in the epidermis. The epidermal pool decreased during nitrate starvation. Since no nitrate reductase activity was associated with the epidermis, nitrate was mobilised from the epidermis and metabolized presumably in the mesophyll. These results suggest that the epidermis functions as a regulated intermediary storage compartment of the leaves and that stored substances are readily available for remobilisation.     

Influence of sequential prolonged periods of dark and light on pinitol concentration in clover and soybean tissue

The influence of prolonged dark periods on the concentration of pinitol in white clover ( Trifolium repens L. ev. Regal Ladino) and soybean [ Glycine max (L.) Merr.] tissue was investigated. Clover and soybean plants were harvested periodically throughout continuous dark periods of 40 and 44 h, respectively, followed by 24 h of continuous light. The foliage and root tissue of clover and foliage tissue of soybeans were analyzed for the concentration of glucose, fructose, sucrose and pinitol. Pinitol concentration (mg/g dry weight tissue) was unchanged by the prolonged dark period followed by 24 h of continuous light compared to tissue of plants harvested at 0-h and plants receiving normal photoperiods. Concentrations of the carbohydrates, in the tissue were depleted by the prolonged dark period. However after 6 h of light, the concentration of these sugars increased to concentrations equal to 0-h harvested plant tissue and tissue of plants receiving normal photoperiods. These results indicate that pinitol probably does not function as a source of reserve energy comparable to sucrose, glucose, and fructose.     

Direct and Indirect Relationships Between Specific Leaf Area, Leaf Nitrogen and Leaf Gas Exchange. Effects of Irradiance and Nutrient Supply

We present a series of competing path models relating interspecificpatterns between specific leaf area, leaf nitrogen content,net photosynthesis and stomatal conductance and test these againstdata from 22 species of herbaceous plants grown under controlledconditions with contrasting irradiance and nutrient supply rates.We then compare these results with two previous data sets, onebased on field measures and one based on glasshouse measures,to determine the robustness of the results. Only one model wasable to account for the patterns of direct and indirect effectsbetween the four variables to all data sets. In this model specificleaf area is the forcing variable that directly affects bothleaf nitrogen levels and net photosynthetic rates. Leaf nitrogenthen directly affects net photosynthetic rates which in turnthen affect stomatal conductance to water. Copyright 2001 Annalsof Botany Company Comparative ecology, modelling, path analysis, photosynthesis, plant strategies, SLA, specific leaf area, stomatal conductance     

Interrelationship between Leaf Gas-Exchange Characteristics,Area Leaf Mass,and Yield in Soybean (Glycine max L. Merr) Genotypes

Variability in leaf gas-exchange traits in thirteen soybean (Glycine max L. Merr) genotypes was assessed in a field experiment conducted at high altitude (1 950 m). Leaf net photosynthetic rate (P ^N) exhibited a high degree of variability at all the growth stages studied. P _N and other gas-exchange parameters exhibited a seasonal pattern that was similar for all the genotypes. P _N rate was highest at seed filling stage. P _N was positively and significantly associated with aboveground dry matter and seed yield. The area leaf mass (ALM) exhibited a strong positive association with leaf P _N, aboveground dry matter, and seed yield. The positive association between ALM, P _N, and seed yield suggests that this simple and easy to measure character can be used in breeding programmes as a surrogate for higher photosynthetic efficiency and eventually higher yield.     

毛竹叶片衰老过程的叶重量、叶面积及元素内吸收率的动态

对福建永春毛竹(Phyllostachys pubescens Mazel ex H.de Lehaie)叶片衰老过程的叶重量、叶面积及元素内吸收率的动态进行了研究,并对元素内吸收率RE_1(以元素的干重含量为计算单位,mg/g)、RE_2(以单位叶片的元素含量为计算单位,mg/leaf)以及RE_3(以单位叶面积的元素含量为计算单位,mg/cm~2)进行了比较。叶片衰老过程中,平均叶重量、叶面积及比叶重分别下降了19.55％、15.16％和5.07％。叶重量与叶面积下降百分率的季节变化趋势一致,说明毛竹叶片存在一定的重量与面积比率。在不同的元素内吸收率比较中,N和K的元素内吸收率均为正,Ca均为负,表明叶片衰老过程中N和K的元素含量从衰老叶片中转移至植株的其他部位,而Ca在老叶中累积。N、P、K、Ca和Mg 5种元素平均的元素内吸收率高低顺序均为RE_2>RE_3>RE_1,反映出以元素的干重含量为计算单位和以单位叶面积的元素含量为计算单位的元素内吸收率偏低。     

Influence of glucose,fructose and sucrose as carbon sources on kinetics and stoichiometry of lysine production by <Emphasis Type="Italic">Corynebacterium glutamicum</Emphasis>

Batch cultivations of l-lysine-producing Corynebacterium glutamicum ATCC 21253 were carried out on the different carbon sources, glucose, sucrose and fructose. The time profiles of substrate and product concentrations were evaluated to compare kinetics and stoichiometry of lysine production. The lysine yield (mol C/mol C) on glucose was 8% higher than on sucrose and 30% higher than on fructose. The highest final biomass concentration of 5.0 g/l was obtained on glucose, whereas fructose and sucrose yielded 20% less biomass. Compared to glucose, fructose resulted in significantly higher respiration rates, a higher substrate uptake rate but a lower lysine production rate during the cultivation process. This was probably due to a higher tricarboxylic cycle activity combined with a lower activity of the pentose phosphate pathway. On sucrose, specific rates and yields differed significantly from those on fructose and glucose. Transport and metabolism of sucrose, therefore, are not a simple superposition of its building blocks, glucose and fructose. Journal of Industrial Microbiology & Biotechnology (2002) 28, 338–343 DOI: 10.1038/sj/jim/7000252 Received 28 November 2001/ Accepted in revised form 06 March 2002     

The effect of sugars on niger embryogenesis and plant regeneration in anther culture

The influence of different sugars (sucrose, maltose, glucose and fructose, 0.05–0.5 M) on embryogenesis and plant regeneration from cultured anthers of niger [Guizotia abyssinica (L. f.) Cass.] have been studied. Among the different sugars tested, 0.2 M sucrose was the best for embryo induction and plant regeneration. Maximum of 57 embryos per 60 anthers were induced on embryo induction medium [Gamborg’s B5 medium supplemented with 10 μM 2,4-dichlorophenoxyacetic acid (2,4-D), 2 μM kinetin (KIN)] containing 0.2 M sucrose. Embryo differentiation was achieved on B5 medium supplemented with 0.5 μM benzyladenine (BA) and 0.09 M sucrose. Embryo maturation was on B5 medium containing 10 μM abscisic acid (ABA) and 0.09 M sucrose. Embryo germination was achieved on B5 medium with 0.09 M sucrose. Embryos that were developed on B5 medium supplemented with 0.2 M sucrose showed highest frequency (68 %) of plant regeneration.     

Leaf Size and Leaf Area Index in <Emphasis Type="Italic">Fagus sylvatica</Emphasis> Forests: Competing Effects of Precipitation,Temperature, and Nitrogen Availability

Plants across diverse biomes tend to produce smaller leaves and a reduced total leaf area when exposed to drought. For mature trees of a single species, however, the leaf area–water supply relationship is not well understood. We tested the paradigm of leaf area reduction upon drought by a transect study with 14 mature Fagus sylvatica forests along a steep precipitation gradient (970–520 mm y⁻¹) by applying two independent methods of leaf size determination. Contrary to expectation, average leaf size in dry stands (520–550 mm y⁻¹) was about 40% larger and SLA was higher than in moist stands (910–970 mm y⁻¹). As a result of increased leaf sizes, leaf area index significantly increased from the high- to the low-precipitation stands. Multiple regression analyses suggested that average leaf size was primarily controlled by temperature, whereas the influence of soil moisture and soil C/N ratio was low. Summer rainfall of the preceding year was the most significant predictor of total leaf number. We assume that leaf expansion of beech was independent of water supply, because it takes place in May with ample soil water reserves along the entire transect. In contrast, bud formation, which determines total leaf number, occurs in mid-summer, when droughts are severest. We conclude that leaf expansion and stand leaf area of beech along this precipitation gradient are not a simple function of water availability, but are controlled by several abiotic factors including spring temperature and possibly also nitrogen supply, which both tend to increase toward drier sites, thus overlaying any negative effect of water shortage on leaf development.     

Sugar Transport and Sulfite Action in Etioprotoplasts,Semi-Etioprotoplasts and Green Protoplasts of Avena sativa L.

The mechanism of glucose and sucrose transport and the influence of various concentrations of sulfite on its activity was studied in mesophyll protoplasts (etioprotoplasts, semi-etioprotoplasts and green protoplasts) isolated from oat (Avena sativa L.) seedlings. Kinetic analysis of [¹⁴C] glucose loading (in darkness) revealed in each kind of protoplasts the presence of two transport components. At low exogenous glucose concentrations a saturable system was the main mode of transport. At concentrations higher than 20 mM the loading of glucose in all types of protoplasts was dominated by a non-saturable, linear diffusion-like component. The rate of glucose uptake was greatest in etioprotoplasts and lowest in green protoplasts. In contrast to the above we have not found saturable components of sucrose transport in any kind of protoplasts. The rate of its uptake was greatest in semi-etioprotoplasts. Sulfite, at a concentration of < 1.0 mM stimulated and at ≥ 1.0 mM inhibited the uptake of glucose to etioprotoplasts and semi-etioprotoplasts and inhibited that to green protoplasts at any concentration. The transport of sucrose underwent a significant inhibition in the various types of protoplasts only under the influence of 10.0 mM of sulfite ions. Inhibition of glucose uptake by sulfite was of the non-competitive type. Sulfite also affected the level of adenylic nucleotides and lowered the energy charge and ATP/ADP ratio. Intensity of sulfite uptake was significantly higher in green protoplasts than in etioprotoplasts.     

Diurnal Changes in Photosynthesis,Sugars, and Nitrogen of Wheat and Mungbean Grown Under Elevated CO2 Concentration

The diurnal changes in leaf net photosynthetic rate (P _N) and sugar and nitrogen contents in wheat [Triticum aestivum (L.) cv. HD 2285] and mungbean [Vigna radiata (L.) Wilczek cv. PS 16] were analysed under ambient, AC [350±25 µmol mol^–1] and elevated, EC [600±50 µmol mol^–1] CO₂ concentrations. In both mungbean and wheat P _N of AC- and EC-grown plants compared at the same CO₂ concentration showed that P _N was higher under EC. However, increased P _N in EC-plants declined in the afternoon and approached P _N of AC-plants. Depression in P _N, however, was less in mungbean compared with the large depression in wheat. Greater down regulation of P _N in wheat was associated with the accumulation of large amount of sugars and low nitrogen content in wheat leaves. Mungbean leaves accumulated mostly starch under EC and the difference in N content in AC- and EC-plants was relatively less than in wheat.     

In vitro Plant Regeneration of Melia azedarach L.: Shoot Organogenesis from Leaf Explants

In vitro regeneration of Melia azedarach L. was studied. Shoots were regenerated from calli initiated from leaflets of in vitro growing plants. The best medium for establishment of cultures was Murashige and Skoog (MS) medium with 4.44 μM benzylaminopurine (BAP) + 0.46 μM kinetin (KIN) + 16.29 μM adenine sulphate (ADE). Regenerated shoots were multiplied in MS + 0.44 μM BAP + 0.37 μM KIN + 3.26 μM ADE. Maximal rooting of 89 % was achieved by culture of regenerated shoots in MS + 12.26 μM indole-3-butyric acid for 3 d and subsequently in MS lacking growth regulators for 27 d. Rooted shoots were acclimatized and successfully transferred to soil. This revised version was published online in July 2006 with corrections to the Cover Date.     

Effect of Growth Irradiance on Photosynthesis and Transpiration inPhaseolus vulgaris L.

In comparison with primary leaves of French bean plants grown under a photon flux density of 100 μeinstein m-2 s-1 (LP), leaves grown under 400 μeinstein m-2 s-1 (HP) were thicker (contained 82 to 104% more dry matter per blade area), had 44 to 48% higher stomatal frequency, 18 to 26% more chlorophyll (a + b) per leaf area unit and 31 to 42% less chlorophyll (a + b) per dry matter unit, 41% higher photosynthetic and 38% higher transpiration rates at light saturation, 33% higher stomatal conductance and 40% higher Photosystem 2 (H2O → K3[Fe(CN)6]) activity of isolated chloroplasts. There were no significant differences in the Photosystem 1 (TMPD/Ascorbate → MV) activity per unit amount of chlorophyll. Higher growth irradiance increased the ratio of frequencies of stomata in the upper/lower epidermes.     

Leaf area index, canopy structure and photosynthesis of red clover (Trifolium pratense L.)

Abstract. The influence of leaf age, total leaf area and its dispersion in space on canopy photosynthesis were studied using microswards of red clover ( Trifolium pratense L.) which were established in the greenhouse. Two varieties, Renova (flowering) and Molstad (non-flowering), were sown in separate plastic boxes at densities of 225, 400 and 625 plants per m².
Vertical distribution of photosynthetically active radiation (PAR), leaf area, leaf age and ¹⁴CO₂-fixation were determined periodically. Net photosynthesis and dark respiration of canopies were measured. Maximum photosynthetic capacity of individual leaves was measured on plants taken from the intact canopy or from plants where shading of the growing leaves had been prevented.
Net photosynthetic rate of canopies increased linearly with leaf area index (LAI) up to an LAI of 3.5 and then declined at higher LAI, independent of variety and sowing density. Below the optimum LAI, net photosynthesis depended mainly on interception of PAR. Decrease in canopy photosynthesis above the optimum LAI was due to a higher proportion of old leaves with decreased photosynthetic capacity, and not to an increase in respiring plant parts. It is concluded that LAI and position of leaf age categories in the canopy are more important than vertical distribution of leaf area in determining canopy photosynthesis of red clover.     

不同光强下生长的两种榕树叶片光合能力与比叶重、氮含量及分配的关系

观测了不同光强下生长的两种榕树幼苗叶片的光合能力、比叶重(LMA)、氮含量及在光合机构中的分配.结果表明,两种榕树幼苗的最大净光合速率(Pmax)均随生长光强的升高而升高,这与LMA、单位面积氮含量(NA)和光合氮利用效率随生长光强的升高而升高有关.除36%光强下外,相同光强下生长的喜光的斜叶榕(Ficus tinctoria)的Pmax均显著高于耐荫的假斜叶榕(Ficus subulata),这与其叶片中氮在羧化组份和生物力能学组份中的分配系数、LMA和NA较高有关.     

Effects of Constant and Variable Nitrogen Supply on Sunflower (Helianthus annuus L.) Leaf Cell Number and Size

The effects of nitrogen (N) availability on cell number andcell size, and the contribution of these determinants to thefinal area of fully expanded leaves of sunflower (Helianthusannuus L.) were investigated in glasshouse experiments. Plantswere given a high (N =315 ppm) or low (N=21 ppm) N supply andwere transferred between N levels at different developmentalstages (5 to 60% of final size) of target leaves. The dynamicsof cell number in unemerged (< 0.01 m in length) leaves ofplants growing at high and low levels of N supply were alsofollowed. Maximum leaf area (LA_max) was strongly (up to two-fold)and significantly modified by N availability and the timingof transfer between N supplies, through effects on leaf expansionrate. Rate of cell production was significantly (P<0.05)reduced in unemerged target leaves under N stress, but therewas no evidence of a change in primordium size or in the durationof the leaf differentiation–emergence phase. In fullyexpanded leaves, number of cells per leaf (N_cell), leaf areaper cell (LA_cell) and cell area (A_cell) were significantly reducedby N stress. WhileLA_cell and A_cellresponded to changeover treatmentsirrespective of leaf size, significant (P<0.05) changes inN_cellonly occurred when the changeover occurred before the leafreached approx. 10% of LA_max. There were no differential effectsof N on numbers of epidermal vs. mesophyll cells. The resultsshow that the effects of N on leaf size are largely due to effectson cell production in the unemerged leaf and on both cell productionand expansion during the first phase of expansion of the emergedleaf. During the rest of the expansion period N mainly affectsthe expansion of existing cells. Cell area plasticity permitteda response to changes in N supply even at advanced stages ofleaf expansion. Increased cell expansion can compensate forlow N_cellif N stress is relieved early in the expansion of emergedleaves, but in later phases N_cellsets a limit to this response.Copyright 1999 Annals of Botany Company Helianthus annuus, leaf expansion, leaf cell number, leaf cell size, nitrogen, leaf growth, sunflower.