The Effects of Cytokinins and ABA on Stomatal Behaviour of Maize and Commelina

Epidermal strips and leaf fragments of Commelina and leaf fragmentsof maize were incubated on solutions containing naturally-occurringor synthetic cytokinins and/or ABA. The effects of these treatmentson stomatal behaviour were assessed. Cytokinins alone did notpromote stomatal opening in either species but concentrationsof both zeatin and kinetin from 10^–3 to 10^–1 molm^–3 caused some reversal of ABA-stimulated closure ofmaize stomata. The reversal of the ABA effect increased withincreasing cytokinin concentration. Cytokinins had no effecton ABA-stimulated closure of Commelina stomata. When appliedalone, at high concentration (10^–1 mol m^–3), toCommelina epidermis or leaf pieces both zeatin and kinetin restrictedstomatal opening. Key words: ABA, Cytokinins, Stomata, Maize, Commelina     

Cyclic variations of stomatal aperture observed under the scanning electron microscope

Scanning electron micrographs taken from a vertical positionrevealed the stomatal aperture at the central pore and at theouter ledge. Cyclic variations in leaf temperature of tobacco (Nicotianatabacum cv. MC) and sunflower (Helianthus annuus cv. Large Russian)after illumination coincided with the aperture at the centralpore, but did not always at the outer ledge. The relative turgidityof leaf was inversely proportional to the aperture at the outerledge. Moreover, the opening at the central pore was an "8"-shapedaperture provided the opening was small. Thus, the present experimentsindicated the importance in measurement of the stomatal apertureat the central pore for quantitative and qualitative determinationof cyclic variations in the stomatal aperture. (Received October 7, 1977; )     

Age-related Changes in Stomatal Response to Cytokinins and Abscisic Acid

Kinetin and zeatin(100 mmol m^–3)reversald the ABA-mediated(100mmol ^m-2)closure of stomata of young maize leaves but did notaffect stomatal apertures of these leaves when applied alone.As leaves aged, kinetin or zeatin alone promoted increased stomatalapertures, while abscisic acid (ABA) applied alone had a reducedeffect on stomata. Even with older leaves, cytokinins reversadthe effect of ABA on stomata. Maize, stomata, abscisic acid, kineusc, zeatin, Zea mays     

Root to Shoot Communication in Maize Plants of the Effects of Soil Drying

Seedlings of Zea mays L. (John Innes hybrid) were grown withroots divided between two containers such that part of the rootsystem could reduce the water potential of the soil in its immediatevicinity while the rest of the root system was well suppliedwith water. When compared to plants rooted in two pots of moistsoil, drying of part of the root system resulted in partialclosure of stomata, even though leaf water potential, turgorand abscisic acid (ABA) content remained unaffected. When leafpieces were removed from the two groups of plants and incubatedunder conditions favourable for stomatal opening, stomata ofthe ‘half-watered’ plants still showed restrictedapertures. Incubation in kinetin (10 mmol m^–3) or zeatin(100 mmol m^–3) reversed the closure of stomata stimulatedby soil drying. These results suggest that a continuous supplyof cytokinin from roots may be necessary to sustain maximalstomatal opening and an interruption of this supply due to soildrying may act as an indicator of inhibited root activity, resultingin restricted stomatal opening and thereby restricted wateruse. Key words: Zea mays L., Soil drying, Stomata, Roots     

Patterns of Stomatal Behaviour, Transpiration, and CO2 Exchange in Pea Following Infection by Powdery Mildew (Erysiphe pisi)

A comparison was made of stomatal behaviour, and related phenomena,between leaves of garden pea (Pisum sativum cv. Feltham First)inoculated with powdery mildew fungus (Erysiphe pisi) and uninfectedleaves on healthy plants. Twenty four hours after inoculation,stomata opened more widely in the light in infected leaves thanin healthy leaves. Thereafter, stomatal opening was progressivelyreduced by infection and stomata failed to close completelyin the dark until, 7 d after inoculation, all movements ceasedand stomata remained partly open. Transpiration in the lightfollowed closely the pattem of stomatal opening and, after anearly increase compared with healthy controls, was progressivelyreduced by infection. Evidence is presented that transpirationfrom the fungus was less than the reduction in transpiraationfrom the leaf which was caused when development of the myceliumincreased the boundary layer resistance of the leaf. Seven daysafter inoculation, transpiration in the dark was greater frominfected leaves than from healthy leaves because of partly openstomata in the dark. Net photosynthesis in infected leaves was reduced within 24h of inoculation to a level below that found in healthy leavesand thereafter it declined progressively. The initial reductionwas due to a transient increase in photorespiration, for whenthe glycolate pathway was inhibited by a 2% O₂ concentrationthere was no difference between the (gross) photosynthetic ratesof healthy and infected leaves. Changes in photorespirationrate were confirmed from the interpretation of the CO₂ burston darkening. Reduced stomatal opening was a contributory causeof the reduction in net photosynthesis in the later stages ofinfection. Since the rate of gross photosynthesis, but not therate of photorespiration, of infected plants fell below thatof healthy plants, and infected plants had a higher rate ofrelease of CO₂ in the dark than healthy plants from the thirdday after inoculation onwards, infected plants consume an increasinglygreater proportion of their photosynthate in respiratory processesthan do healthy plants. The CO₂ compensation point of infectedplants increased at every time of sampling after inoculation.     

Effects of UVB Radiation on Stomatal Density and Opening in Rice (Oryza sativa L.)

Ultraviolet-B (UVB, wavelength 280-320 nm) radiation has beendemonstrated to affect growth and development of many plants.This study was conducted to determine the effect of UVB radiationon stomatal density and opening of Oryza sativa and to testif the stomatal response to UVB was associated with differentsensitivity of growth to UVB in four cultivars. Ten-day-oldseedlings of IR45 and IR74 (UVB sensitive), and IR64 and IR30(UVB less sensitive), were subjected to UVB radiation in a glasshousefor 6 h d^-1 for 4 weeks. The unweighted UVB radiation was 1·94W m^-2 for UVB treatment and 0·15 W m^-2 for control. Leafarea and plant dry mass were determined every 2 weeks whilestomatal density and opening were recorded weekly. Results showedthat a 2-week UVB treatment had no effect on the leaf area orplant dry mass of any test cultivar, but significantly reducedstomatal density and opening in IR45 and IR74. Under 4-weekUVB exposure, leaf area and plant dry mass of IR45 and IR74were significantly reduced. Stomatal density decreased in allcultivars, except in IR64. Greater reduction of stomata on theadaxial surface than on the abaxial surface under 3 and 4 weeksof UVB exposure suggests a direct effect of UVB radiation onstomata. IR45 and IR74 showed significant reductions in stomatalopening after 2 weeks of exposure to UVB, while stomatal openingin IR30 and IR64 decreased significantly after only 4 weeksof UVB treatment. Difference in plant dry mass between UVB treatedand control plants was significantly correlated with the reductionsin stomatal opening and density on adaxial surface under UVBtreatment. Thus, reduction in dry mass of rice plants underUVB in the glasshouse could be attributed to decrease in stomataldensity and opening.Copyright 1995, 1999 Academic Press Oryza sativa, UVB radiation, stomatal density, stomatal opening     

In situ Observations of Stomatal Movements

Kappen, L., Andresen, G. and L?sch, R. 1987. In situ observationsof stomatal movements.—J. exp. Bot. 38: 126–141. A device is described by which stomatal movements in situ canbe observed and recorded continuously in light and in darkness.It is mounted in a conditioned CO₂ exchange measuring chamberso that stomatal movements can be observed whilst CO₂ exchange(photosynthesis and respiration) of the same leaf is measured.Advantages and limitations are discussed. By this method itwas shown that stomata of Vicia faba although responding inthe same direction to environmental stimuli exhibited a widerange of pore widths. Responses to changes of air humidity andof CO₂ content were clearly evident when the leaves were exposedto light. Before stomata closed due to decreasing water vapourpressure differences between leaf and air they showed a markedwidening of the pore. An inverse response occurred when watervapour pressure deficit decreased. In darkness stomata did notrespond to such changes. Key words: Stomata, leaf gas exchange, microscopic observation     

CO2-Gaswechsel amphistomatischer Blätter

Summary The time-response of the CO₂-exchange of both leaf surfaces was measured separately. Leaves of Primula palinuri and Zea mays were used for the study. After short dark-periods (3 min) the stomata are not closed. Consequently CO₂-uptake starts quickly after re-illumination and reaches the steady-state value very rapidly. The time-response of stripped leaves of Primula and of normal leaves after short dark-periods is identical. Accordingly, the conclusion seems to be evident that in both cases we are measuring the time-response of photosynthesis, which is not influenced by stomatal reactions. After long dark-periods (60 min) the stomata are closed. After re-illumination the CO₂ released by respiration is immediately reassimilated. There is a distinct lag-phase in time-response which is more or less located in the CO₂-compensation point. This lag-phase is of different length for both leaf surfaces, and is interpreted as being the lag-phase of stomatal opening reactions. The consequence of the observed different time response of photosynthesis and stomatal reactions is discussed: under non-steady-state conditions photosynthesis is limited by slow stomatal opening reactions.     

Reinstatement of Microtubule Arrays from Cortical Nucleating Sites in Stomatal Complexes of Lolium rigidum Following Depolymerization of Microtubules by Oryzalin and High Pressure

Immunofluorescence visualization of microtubule (MT) arraysin stomatal complexes of Lolium rigidum shows that disassemblyof the arrays can be successfully achieved using oryzalin orhigh pressure treatments. Under conditions allowing for MT recovery,MTs reappear within an hour after oryzalin or within 5 min afterhigh pressure treatment. During recovery guard mother cells(GMCs) nucleate MTs at sites distributed randomly in the cellcortex. Even after 22 h of recovery the MTs are not arrangedinto any configuration found in untreated tissue. This inabilityto reorganize their MTs after treatment makes GMCs more sensitiveto the loss of MTs than are other cells of the leaf. In guardcells (GCs) MTs reappear around the pore at the junction ofthe periclinal and ventral walls. They subsequently appear throughoutmost of the cell cortex and the majority of stomatal complexesrecover fully organized MT arrays indistinguishable from thosein untreated cells. The results support and extend ultrastructuraland immunofluorescence observations that suggest that MTs inGCs of developing stomata are nucleated in the cell cortex. ²Present address: Department of Biology, The University of SouthwesternLouisiana, Lafayette, Louisiana 70504-2451, U.S.A. (Received April 24, 1990; Accepted July 7, 1990)     

Chemical and Hydraulic Influences on the Stomata of Flooded Plants

Flooding the soil greatly reduced stomatal opening and leafgrowth rate of pea (Pisum sativum L cv. Feltham First) seedlings.This was despite the fact that leaf water potential and turgorwere not significantly affected by the treatment. Potassiumuptake and transport to the leaves was reduced by flooding.Stomata of flooded plants could be reopened by incubating leavesin solutions containing KC1. These observations raise the possibilitythat nutrient deficiency may limit stomatal opening and growthin flooded plants. We also consider the possibility that potassiumdeficiency may interact with a modification in the balance ofgrowth regulators in the leaves to modify stomatal behaviourand growth. Key words: Flooding, stomata, leaf growth, water relations, potassium     

Experimental Studies of the Factors Controlling Transpiration: III. THE INTERRELATIONS BETWEEN TRANSPIRATION RATE, STOMATAL MOVEMENT, AND LEAF-WATER CONTENT

Transpiration rates of single leaves of Pelargonium and wheatwere measured under constant conditions of light, temperature,and air flow. Concurrently, stomatal movement was followed withthe resistance porometer during cycles of changing water contentof the leaf and changes induced by light and darkness. Stomatalmovement was found to exert a large controlling influence onthe transpiration rate, whereas water content had an extremelysmall or negligible effect. An approximately inverse linearrelation between transpiration rate and logarithm of resistanceto viscous flow through the leaf is believed to be the resultantof an inverse curvilinear relationship between the diffusiveconductance of the stomata and log. leaf resistance and thedecreasing difference of vapour pressure arising from the highertranspiration rates with increasing stomatal conductances. Nevertheless,the relation demonstrates that the transpiration rate is influencedby the degree of stomatal opening throughout its entire range. There was some evidence of lower transpiration rates duringand after recovery from wilting than before wilting. This isattributed to a decrease in a cell-wall conductance, the evaporatingsurface being located within the cell wall. During wilting partiallyirreversible contraction of the cell wall occurs. There wasalso evidence of slow changes in cell volume at full turgidityattributable to plastic flow. These occurred when the leaf wastransferred from environments of a high to low potential forevaporation. Extensive movement of the stomata followed changes in leaf water,passive opening resulting from decrease and closure from increaseof leaf water. It is suggested that the direction and extentof stomatal changes induced by water deficits is a consequenceof the rate of change of leaf water content and not of the absolutevalues. The stomata also showed an enhanced tendency to closein dry moving air following a period of wilting even after theleaf had regained turgidity.     

A Method for Separating Cuticular and Stomatal Components of Gas Exchange by Amphistomatous Leaves: II. EXPERIMENTAL SOLUTION

The apparent cuticular component of transpiration of stomatabearing leaf epidermis was estimated by restricting stomataldiffusion by mass flow of air in the opposite direction. Thiswas achieved by applying an air pressure gradient across theamphistomatous leaf. Some assumptions of the previously suggestedmethod (antrcek and Slav?k, 1990) were experimentally verifiedusing maize leaves. The technique makes possible a quantitativeestimation of cuticular water loss including that of the externalperistomatal (i.e. vapour not passing through the pores) andthe respective conductance when the stomata are partially open. In addition to the fact that the cuticular portion of the totalleaf vapour loss (i.e. relative cuticular transpiration) dependson stomatal opening, even the absolute value of apparent cuticulartranspiration was (1) increased by lower vapour pressure deficitand (2) decreased with closing stomata. These changes, inducedby variations in a vapour pressure deficit of 2.45?0.35 kPa,ranged between 0.66?0.14µg cm ^–2 s^–1. Theabsolute value of apparent cuticular transpiration changed onaverage by a factor of 2.3 due to stomata opening or closingwhich was induced by turning the light on or by exogenous ABAapplication. Possible interference by residual vapour diffusingthrough the stomatal pore was evaluated by the model application.An attempt was also made to assess the cuticular component ofCO₂-uptake rate. Experimental results are discussed in contextwith the feedforward response of stomata to air humidity. Key words: Cuticular transpiration, cuticular CO₂-uptake, feedforward response, maize     

Stomata and Structure of Tetraploid Apple Leaves cultured in Vitro

Leaves of anther-derived tetraploid apple (Malus pumila Mill.)shoots were examined by low-temperature scanning electron microscopy(LT-SEM). Leaves were serrate and wide with an undulating adaxialsurface due to convex epidermal cells, apparently without crystallineepicuticular wax. Stomata were absent from the adaxial surface,except for the marginal teeth which exhibited 40-60 stomataper leaf; they probably originated from residual mitotic activity.One third of abaxial stomata was occluded by the residual cuticleof the mother guard cell across the stomatal pore which rupturedwhen the stomata became functional. The stomatal index was 7·2(± 1·6) with 60-75 stomata mm^-2, i.e. abaxialstomata of tetraploid leaves expanded in vitro were less frequentthan those in triploid leaves either cultured in vitro (475-575stomata mm^-2) or grown on the tree (320-390 stomata mm^-2) wherethe stomatal index was 21 (± 4). Freeze-fracture transsectionsshowed that the tetraploid in vitro leaves were composed ofa layer of adaxial epidermal cells, followed by a single layerof palisade cells and four to five layers of spongy mesophyllcells and the abaxial layer of epidermal cells, in contrastto juvenile seedling-grown apple leaves in which the two layersof palisade cells comprised the majority (52-60%) of the leafvolume. The same morphological features, such as wide and lesspointed leaves, reduced stomatal density and stomatal index,and increased stomatal size that were previously reported fortree-grown tetraploid leaves were also expressed in vitro. Thus,causes of the stomatal deformation in tissue-cultured Rosaceaeare interpreted to be in part genetic and not purely environmental.Copyright1994, 1999 Academic Press Malus pumila Mill., apple, biotechnology, breeding, cryo-preservation, CO₂, juvenile, low temperature-scanning electron microscopy (LT-SEM), micropropagation, ploidy, stomata, tissue-culture, transpiration     

Effect of the Mesophyll on Stomatal Opening in Commelina communis

The effect of a number of factors on the opening of stomatain the intact leaf and in the isolated leaf epidermis of Commelinacommunishas been investigated. Stomata in the intact leaf opened widein the light and closed rapidly on transfer to the dark. Theywere also sensitive to CO₂. In contrast, stomata in isolatedepidermis floated on an incubation solution containing 100 molm^–3KCl responded neither to light nor CO₂. They opened as widelyas those in the intact leaf when treated with fusicoccin. Stomata in isolated epidermis opened almost as wide as thosein the intact leaf when they were incubated with isolatedmesophyllcells in the light. The solution in which the mesophyll cellswere incubated was separated by centrifugation. Themedium fromcells previously incubated in the light caused the stomata inisolated epidermis to open but that from cells kept inthe darkhad no effect. A similar effect was observed when isolated chloroplastswere incubated with the isolated epidermis.However, the supernatantfrom the chloroplast suspension had no significant effect onstomatal opening. These results indicate that the mesophyll plays an importantrole in stomatal opening in the light. The mesophyll appearstoproduce in the light, but not in the dark, a soluble compoundwhich moves to the guard cells to bring about stomatal opening.Theexperiments with isolated chloroplasts suggest that this substanceis a product of photosynthesis. Key words: Commelina communis, stomata, light, mesophyll     

Effect of Ethylene on Stomatal Opening in Tomato and Carnation Leaves

Exposure to ethylene at a concentration range of 60 to 70 ppmbrought about an increased stomatal closure within twelve hoursin two species of plants among the four studied. Both tomatoand carnation showed a response to ethylene treatment but couldcompletely recover within 96 hours after treatment. Pinto beanand Sedum pachyphyllum stomata showed little or no responseto ethylene. ¹Present address: Department of Biology, Montana State University,Bozeman, Montana 59715, U.S.A. (Received November 30, 1981; Accepted January 10, 1983)     

Tentoxin Suppresses Stomatal Opening by Inhibiting Photophosphorylation

Tentoxin and, to a lesser extent, dihydrotentoxin (both at 10mmol m^–3) reduce stomatal opening in epidermal stripsof Commelina communis in the light but not in darkness. Thiseffect was significantly greater in normal air than in CO₂-freeair. Fusicoccin overcame the tentoxin effect. However, tentoxindid not inhibit stomatal opening in the light in epidermal stripsof Paphiopedilum harrisianum, a species which lacks guard cellchloroplasts. It is concluded that tentoxin exerts its actionon stomata not by an ionophorous effect in the plasmalemma ofguard cells but by the inhibition of photophosphorylation intheir chloroplasts. The effects of DCMU and tentoxin on guardcells are discussed in terms of their effects on chloroplastsand the extent to which energy is supplied from this organelleduring stomatal opening in the light. The results indicate thatneither photophosphorylation nor non-cyclic electron transportin guard cell chloroplasts are essential for stomatal opening. Key words: Commelina, epidermal strips, Paphiopedilum, photophosphorylation, stomata, tentoxin     

In situ observations of stomatal movements in different light-dark regimes: the influence of endogenous rhythmicity and long-term adjustments

The technical device for continuous microscopic observationsof stomatal movements in a gas exchange chamber using digitalimage analysis, earlier described by Kappenet al. (1994), wastechnically improved. By electronic remote control, it is nowpossible repeatedly to record over a period of several daysidentical stomata on a 25 50 mm leaf area. The responses ofindividual stomata to various light-dark sequences in the lightand in the dark phase were investigated on attached leaves ofViciafaba (L.). The amplitude of stomatal oscillations caused byalternatinglight was highest on the first day of an experimental seriesand decreased with repeated application, indicating a long-termadjustment to changing light conditions by decreasing sensitivityto intermittent darkening. In the usual dark phase light-darksequences had little effect on the stomatal aperture, whichremained small. These results were widely convergent with thestomatal conductance calculated from the gas exchange measurements.Very prominent is the role of an endogenous rhythmicity of thestomatal response. It could be demonstrated (1) by autonomousstomatal opening before the light phase started; (2) by a suppressionof dark response in the early morning hours; (3) by a decreasinglight stimulation in the afternoon; (4) by further increaseof aperture for several hours if no light was provided in thelight phase. Closely adjacent stomata could show divergent dark-openingmovements pointing to an autonomous control mechanism locatedin the guard cells. The endogenously controlled morning openingprovides full assimilation capacity in the usually humid morninghours when transpiratory water loss associated with C02-uptakeis comparatively small. Key words: Stomata, changing PPFD, desensitization, endogenous rhythmicity, diurnal courses, Vicia faba     

Potassium Loss from Stomatal Guard Cells at Low Water Potentials

The potassium content of guard cells and the resistance to viscousflow of air through the leaf were determined in sunflower (Helianthusannuus) subjected to low leaf water potentials under illuminatedconditions. In intact plants desiccated slowly by withholdingwater from the soil, large losses in guard cell K occurred asleaf water potentials decreased. Leaf viscous resistance increased,indicating stomatal closure. Similar results were obtained whendetached leaf segments were desiccated rapidly. Upon rehydrationof leaves, no stomatal opening was observed initially, despiteleaf water potentials at predesiccated levels. After severalhours, however, re-entry of K occurred and stomata became fullyopen. Turgid leaf segments floated on an ABA solution showedlosses of guard cell K and closure of stomata as rapidly andcompletely as those brought about by desiccation. It is concludedthat stomatal closure at low water potentials under illuminatedconditions is not controlled solely by water loss from the tissuebut involves the loss of osmoticum from the guard cells as well.This in turn decreases the turgor difference between the guardcells and the surrounding cells, and closing occurs.     

The Absorption Lag, Epidermal Turgor and Stomata

Simultaneous measurements of the opening response of stomatato illumination, the development of the Absorption Lag and changesin leaf thickness, showed that the accelerated opening of stomataduring part of the Motorphase coincided with the attainmentof the peak of the Absorption Lag and the beginning of a decreasein leaf thickness. The latter could be attributed in part toa loss of epidermal turgor. These results are discussed in connectionwith attempts to correlate stomatal movements in leaves understress with changes in bulk leaf water properties. Key words: Absorption Lag, epidermal turgor, stomata     

Acid-Induced Stomatal Opening in Commelina communis and Vicia faba

The effects of H^$ and fusicoccin (FC) on stomatal opening inthe dark were investigated using epidermal strips of Commelinacommunis and Vicia faba cv. Ryosai Issun. Citrate-phosphatebuffer induced maximal opening of stomata at pH 3.0 when testedover the range of 2.7 to 5.0. HCl at 1 mM also induced stomatalopening without appreciable accumulation of K^$ in the guardcells. After 4 hr treatment with 10 µM FC, stomata openedwith concomitant accumulation of K^$ in the guard cells, although1–2 hr treatment caused opening without concomitant K^$increase. These results suggest that stomatal opening can be caused bysalt accumulation and/or changes of the physicochemical conditionsin the cell wall of the guard cells due to high acidity. ¹ Present address: Biological Laboratory, Faculty of Education,Nagasaki University, Nagasski 852, Japan. (Received April 30, 1982; Accepted July 17, 1982)