The role of abscisic acid and water relations in drought responses of subterranean clover

The role of water relations and abscisic acid (ABA) in the responsesto drought were studied in a mediterranean forage crop, Trifoliumsubterraneum L. under field conditions. Soil and plant waterstatus, leaf gas exchange parameters, and xylem sap ABA contentwere determined at different times during a long-term soil dryingepisode in irrigated and droughted plants. The diurnal time-coursesof these parameters were also measured at the end of a droughtperiod. In response to soil drying stomatal conductance (g) was reducedearly to 50% that of irrigated plants before any substantialchange in water potential was detected. A close logarithmicregression between photosynthesis rate (A) and g was present.For the first weeks of drought the decline in A was less pronouncedthan in g, thus increasing water use efficiency. Stomatal conductanceduring diurnal time-courses showed no consistent relationshipswith respect to etther ABA or leaf water potential. Throughoutthe experimental period dependence of g on leaf water statuswas evident from the tight correlation (r²=0.88, P<0.01)achieved between stomatal conductance and midday water potential,but the correlation was also high when comparing g with respectto ABA content in xylem sap (r=0.83, P<0.001). However, thestomata from drought acclimated plants were apparently moresensitive to xylem ABA content. For similar xylem ABA concentrationsstomatal conductance was significantly higher in irrigated thanin waterstressed plants. Key words: Drought, stomatal conductance, water potential, abscisic acid     

Stomatal Characteristics at Different Ploidy Levels inCoffeaL.

Stomatal frequency, epidermal cell frequency, stomatal guardcell length and stomatal index were examined at different ploidylevels inCoffea. In general, stomatal and epidermal cell frequencyper unit leaf area decreased while stomatal guard cell lengthincreased with an increase in ploidy. The reduction in stomatalfrequency at higher ploidy levels was mainly a result of largerepidermal cells. In the case ofC. canephora(cultivar S.274)a significant reduction in stomatal frequency was noticed fromdiploid to tetraploid level which was due to both larger epidermalcell size and less stomatal differentiation at the tetraploidlevel. Besides the effect of ploidy on stomatal frequency andguard cell length, genotypic differences in stomatal frequencyand stomatal guard cell length were also observed among cultivarsof the same ploidy level. Although variation in stomatal frequencyamong cultivars was found to be associated with the differencein stomatal to epidermal cell ratio, variation in guard celllength was attributed to differential genetic architecture.In the present study a highly significant positive correlation(r=0.82) between stomatal and epidermal cell frequency and highnegative correlations between stomatal frequency and guard celllength (r=-0.91) and epidermal cell frequency and stomatal guardcell length (r=-0.93) were obtained. The study also indicatedthat stomatal frequency can be predicted with 83 and 87% accuracy,respectively, by measuring stomatal guard cell length in coffee.Copyright1997 Annals of Botany Company Coffea; ploidy level; stomatal characteristics     

Anthocyanin production in the hyperaccumulator plant Noccaea caerulescens in response to herbivory and zinc stress

Stomatal behavior in response to drought has been the focus of intensive research, but less attention has been paid to stomatal density. In this study, 5-week-old maize seedlings were exposed to different soil water contents. Stomatal density and size as well as leaf gas exchange were investigated after 2-, 4- and 6-week of treatment, which corresponded to the jointing, trumpeting, and filling stages of maize development. Results showed that new stomata were generated continually during leaf growth. Reduced soil water content significantly stimulated stomatal generation, resulting in a significant increase in stomatal density but a decrease in stomatal size and aperture. Independent of soil water conditions, stomatal density and length in the trumpeting and filling stages were greater than in the jointing stage. Irrespective of growth stage, severe water deficit significantly reduced stomatal conductance (G _s), decreasing the leaf transpiration rate (T _r) and net photosynthetic rate (P _n). Stomatal density was significantly negatively correlated with both P _n and T _r but more strongly with T _r, so the leaf instantaneous water use efficiency (WUE _i ) correlated positively with stomatal density. In conclusion, drought led to a significant increase in stomatal density and a reduction in stomatal size and aperture, resulting in decreased P _n and T _r. Because the negative correlation of stomatal density to T _r was stronger than that to P _n, leaf WUE _i tended to increase.     

Potassium Involvement in Stomatal Movements of Paphiopedilum

There are conflicting reports about whether guard cells of Paphiopedilumspp. accumulate K during stomatal opening. In this study X-raymicroprobe analysis and histochemical staining for K indicatedthat K accumulated in guard cells in leaves of Paphiopedilumspp. when stomata opened. Additionally, stomatal opening inepidermal strips of P. harrisseanum could only be induced inan MES buffered KC1 medium. Element analysis ofP. harrisseanumepidermis also indicated substantial levels of K, Na and Cawithin the tissue. We conclude that K is involved in the stomatal movements ofPaphiopedilum. Key words: K⁺ transport, Paphiopedilum, Stomatal movements     

Responses of Soybean Leaf Angle, Photosynthesis and Stomatal Conductance to Leaf and Soil Water Potential

The hypothesis that soil water potential (_s) is better correlatedto heliotropic leaf orientation, photosaturated photosyntheticCO₂ assimilation and stomatal conductance during periods oflimited water availability than is bulk leaf water potential(₁) was examined in greenhouse-grown soybean (Glycine max) plants,submitted to a progressive drought. Paired plants were exposedto either 1000 or 100 µmol m^–2 s^–1 photonflux densities (PFD) for 45–60 mins. The higher irradianceinduced short-term decreases in ₁, due to increased transpiration,while _l in the plant exposed to low PFD did not decrease. Thesechanges in ₁ occurred independently of changes in soil waterstatus. Concurrent to the light treatments, a single attachedleaf from each of the two plants was isolated from the restof the plant by shading, and the pulvinus of its terminal leafletwas exposed to a perpendicular PFD of 500 µmol m–²S^–1. Leaf movement of this leaflet was recorded in responseto this light, until a stable leaflet angle was achieved. Valuesof _s and _l (before and after light treatment), and photosaturatedrates of photosynthesis and stomatal conductance, were thenmeasured on these leaves. Leaflet angle and gas exchange werebetter correlated with _s (r² = 0.50, 0.50 and 0.57 for angle,photosynthesis and conductance, respectively) than with _l especiallywhen _l was the result of short-term, high-light induced changesin leaf water status (r² = 0.36, 0.32 and 0.49, for the sameparameters). Leaflet angle was also correlated with stomatalconductance (r² = 0.61) and photosynthetic rate (r² = 0.60),suggesting a close association between leaf orientation, leafmetabolism and soil water availability. Glycine max (L.) Merr. cv. Essex, soybean, heliotropism, water potential, photosynthesis, stomatal conductance, solar tracking     

Water Use Efficiency and Biomass Partitioning of Three Different Miscanthus Genotypes with Limited and Unlimited Water Supply

Miscanthus species, which are C₄perennial grasses, have a highbiomass potential but yields at many sites in Europe can belimited by insufficient water supply and plant survival is endangeredunder extreme summer drought. A pot experiment was conductedto measure the influence of reduced water supply on the wateruse efficiency (WUE) and biomass partitioning of three Miscanthusgenotypes (M. x giganteus, M. sacchariflorus, and a M. sinensishybrid) in a controlled environment. The experiment consistedof three phases (phase 1 = 0–20 d; phase 2 = 21–39d; phase 3 = 40–54 d) punctuated by destructive harvests.In phase 1, soil moisture was non-limiting. In the second andthird phases, lowered soil moisture contents induced water deficits.Air vapour pressure deficit (VPD) was 0.49 ± 0.05 kPa.Water deficits caused leaf senescence in M. x giganteus andM. sacchariflorus, but not in the M. sinensis hybrid. Greenleaf conductances were lowest in M. sinensis under water deficit,indicating stomatal regulation. Water use efficiency for wholeplants of each genotype ranged from 11.5 to 14.2 g dry matter(DM) kg^-1H₂O but did not differ significantly between genotypesor water treatments under the conditions of this experiment.However, differences in dry matter partitioning to the shoot(the harvestable component) resulted in genotypic differencesin WUE, calculated on a harvestable dry matter basis, whichranged from 4.1 g DM kg^-1H₂O for M. sacchariflorus to 2.2 gDM kg^-1H₂O for M. x giganteus. Copyright 2000 Annals of BotanyCompany Miscanthus sinensis, Miscanthus sacchariflorus, Miscanthus x giganteus, water use efficiency, biomass, C₄plants, drought     

Suppression of Stomatal Opening in Leaves Treated with Abscisic Acid

Small doses of abscisic acid (approximately 0.02 µg cm^-2of leaf) applied to the leaf surface as a 10^-4 M solution causedmarked stomatal closure in Xanthium pennsylvanicum, and theeffect persisted for up to 9 days after application. Similareffects were found when 10^-4 M abscisic acid was supplied todetached tobacco leaves via their petioles. CO²-free air didnot cause a reversal of the closure, and it was therefore concludedthat the effect was not due simply to an increase in the intercellularCO²concentration; a more direct effect on the stomatal apparatusis suggested. It is considered that abscisic acid could playan endogenous role in the control of stomatal aperture, andthat this, and/or related substances, might be more useful as‘anti-transpirants’ than the phytotoxic substancescurrently employed for this purpose.     

Dynamic Organization of Microtubules in Guard Cells of Viciafaba L. with Diurnal Cycle

Stomatal movement is regulated by changes in the volume of guardcells, thought to be mainly controlled by an osmo-regulatorysystem. In the present study, we examined the additional involvementof cytoskeletal events in the regulation of stomatal movement.Microtubules (MTs) in guard cells of Viciafaba L., grown undersunlight, were observed during the day and night by immunofluorescencemicroscopy. Cortical MTs began to be organized in a radial arrayat dawn and increased in numbers in the morning following theincrease in the stomatal aperture size. Thereafter, MTs becamelocalized near the nucleus and began to be destroyed from theevening to midnight, following the decrease in stomatal aperturesize. These diurnal changes in MT organization were observedeven two days after transfer from natural light condition tototal darkness, and were accompanied by corresponding changesin stomatal aperture. The increase in stomatal aperture sizein the early morning was inhibited by 50 µM propyzaraide,which destroys cortical MTs in guard cells, whereas the decreasein aperture size in the evening was suppressed by 10 µMtax-ol, which stabilizes cortical MTs. These results suggestthat radially-organized cortical MTs of guard cells may controldiurnal stomatal movement. (Received September 3, 1997; Accepted November 5, 1997)     

Control of Stomatal Behaviour by Abscisic Acid which Apparently Originates in the Roots

Two experiments indicate that abscisic acid (ABA) may influencestomatal behaviour of Commelina communis L. Stomatal conductancecould not be correlated with bulk leaf ABA content but whenthe abaxial epidermis was assayed for ABA, small increases inABA content correlated well with limitations of leaf conductance.Restricted conductance of the abaxial surface of leaves wasassociated with an increase of approximately 40 amole ABA perstomatal complex. This agrees with previously published figures. When roots of individual plants were split between two containers,drying the soil around one part of the root system restrictedleaf conductance, even though leaf water relations were notaffected. Increased ABA content of the epidermis coincided withincreased ABA content of the roots in drying soil. Other rootsof the same plant in moist soil did not show increased ABA content.These results suggest that in drying soil, ABA can move fromthe roots to the epidermis and restrict stomatal aperture evenwhen leaf water potentials and turgors remain constant. Theimportance of this mechanism in providing a sensitive foliarresponse to decreasing soil moisture is discussed. Key words: Soil drying, ABA, roots, stomata, water relations     

Stomatal resistance,leaf water potential and hydraulic resistance of sugar beet plants

Stomatal resistance (r_L) and leaf water potential (Υ_L), soil moisture and the course of meteorological factors were measured in irrigated and non-irrigated sugar beet canopies during three years. By means of the canopy water balance equation, theoretical analysis of observed dependencies of stomatal resistance upon leaf water potential was made. The changes of r_L were not induced by the change of (Υ_L) but by that of external and internal factors, (Υ_L) correlates with. Therefore the empirical dependence of stomatal resistance upon leaf water potential cannot be generalized.     

A Krypton Diffusion Porometer for the Direct Field Measurement of Stomatal Resistance

A stomatal diffusion porometer is described which measures directlythe diffusion of radioactive krypton through amphistomatousleaves. The porometer is relatively small and portable and iseasily used under field conditions. It consists of a miniaturediffusion chamber above an acrylic plastic reservoir which contains1200 cm³ of air enriched with ⁸⁵Kr. Geiger tubes in the diffusionchamber and in the reservoir monitor the relative concentrationsof 85Kr. Krypton is allowed to diffuse from the larger reservoirthrough the leaf into the diffusion chamber and the time forits concentration in relation to that in the reservoir to changebetween two fixed values is recorded. When this time lapse wascalibrated against known resistances a linear relationship,independent of temperature was found. Sources of error are analysedand some experiments are described in which the porometer wasused to measure diurnal changes in stomatal resistance. Resistancesof potted sunflower plants (Helianthus annuus L.) grown in agreenhouse were measured with both the krypton diffusion porometerand a condensation-type porometer and the results were usedto calculate both cuticular and stomatal resistances. Demonstrationof field measurements with the porometer include data from eucalyptustrees {Eucalyptus camaldulensis Dehn) and from an unirrigatedcotton crop {Gossypium hirsutum var. SJ 2) growing under semi-aridconditions. Stomatal conductance of the cotton crop during theopening phase was linearly related to solar radiation.     

Stomatal Responses to Sulphur Dioxide and Vapour Pressure Deficit

Stomatal conductances (g_s) of plants of Vicia faba, Raphanussativus, Phaseolus vulgaris, Heilanthus annuus, and Nicotianatabacum were measured in chambers containing either clean airor air containing between 18 and 1000 parts 10^–9 SO₂ atwater vapour pressure deficits (vpd) ranging from 1·0to 1·8 kPa. When vpd was low (<1·3 kPa at 22 °C) and stomatawere open, exposure to SO₂ induced rapid and irreversible increasesin g_s in V. faba. This response persisted throughout the exposure(3 d). The increase in g_s, 20–30% compared with cleanair, was independent of SO₂ concentration up to 350 parts 10^–9Stomatal conductances of polluted plants at night were greaterthan controls. When stomata were closed before exposure to SO₂,there was no effect on g_s. When vpd was varied, g_s of unpolluted plants of P. vulgarisshowed no response, but that of R. sativus increased slightlywith increasing vpd. In both species exposure to SO₂ causedan increase in g_s at all vpd values. g_s of unpolluted plantsof V. faba, H. annuus, and N. tabacum decreased with increasingvpd. At low vpd values exposure to SO₂ in these species causedan increase in g_s, but, above a certain value of vpd, dependingon species, g_s decreased with exposure to SO₂. It is postulated that SO₂, once in the substomatal cavity, entersthe stomatal complex via adjacent epidermal cells and at lowconcentrations leads to a reduction in turgor in these cellsand consequently to stomatal opening. In vpd-sensitive species,increased transpiration from guard cells or epidermal cellsadjacent to the stomata induced by SO₂ may lead to stomatalclosure at large vpd levels. Stomatal sensitivity to vpd insuch cases may be enhanced because adjacent epidermal cell turgoris lowered by SO₂. At high SO₂ concentrations direct disruptionof guard cell structure may lead to a loss of turgor and stomatalclosure.     

In situ filtration responses of Daphnia galeata to changes in food quality

In the stoichiometric study of phyto–zooplankton interactions,a controversy exists about how Daphnia species regulate theirfeeding rate when submitted to low-quality food (i.e. high dietarycarbon:phosphorus [C:P] ratio). In this study, we gathered dataover 3 years on in situ clearance rates of a Daphnia galeatapopulation, by conducting grazing experiments from April 1998to October 2000 in the Esch-sur-Sûre reservoir (Grand-Duchyof Luxembourg). Observed clearance rates (2.5–13.5 mLindividual^–1 day^–1, mean 7.0 mL individual^–1day^–1) were correlated with population and environmentalvariables. Mean body size of Daphnia individuals was the bestpredictor of clearance rate (r² = 0.639), followed by watertemperature (r² = 0.262) and P concentration in the seston (r²     

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     

Field Estimates of Root and Xylem Resistances in Pinus contorta using Root Excision

A root excision technique was used to estimate the proportionof total resistance to water flux residing in the soil, theroot, and the xylem of lodgepole pine (Pinus contorta Douglex. Loud.) trees in the field. Root excision at mid-day alwaysresulted in rapid recovery of leaf water potential when waterwas supplied to the cut stem, suggesting a high soil-root resistance.Transpiration was unaffected if leaf water potential beforecutting was not limiting leaf conductance. By mid-June wateruptake by the excised stem always exceeded calculated crowntranspiration indicating recharge of internal sapwood storage.Predawn leaf water potential before root excision was highlycorrelated with total soil-plant resistance (r² = 0·89)and calculated root water uptake (r² = 0·92).     

Statistical Distribution of Stomatal Apertures of Vicia faba and Hordeum vulgare and the Spannungsphase of Stomatal Opening

Plants of Vicia faba and Hordeum vulgare were grown in growthboxes with 7 mW cm^–2 PAR, 14 h day/10 h night, at 22/20°C. Stomata of attached leaves were measured under controlledconditions by means of an optical microscope and the distributionfunctions of the widths of pores were established. For Viciafaba they appeared to be symmetrical bell-shaped functions.In the process of stomatal opening or closure the shape of thedistribution remained constant, its maximum sliding left andright along the aperture axis. This result has been interpretedto mean that increments or decrements of apertures were equalfor all stomata independent of their individual apertures. Theconclusion has been drawn that the ‘driving force’is evenly distributed, equal for all stomata, and varies withinwider limits than is possible for stomatal apertures. Stomatalopening is limited by the closed state from below and by ananatomically possible maximum aperture from above.     

Stomatal Functioning of In Vitro and Greenhouse Apple Leaves in Darkness, Mannitol, ABA, and CO2

Leaves from in vitro and greenhouse cultured plants of Malusdomestica (Borkh.) cv. Mark were subjected to 4 h of darkness;4 h of 1 M mannitol induced water stress; 1 h of 10^–4M to 10^–7 M cis-trans abscisic acid (ABA) treatment; 1h of 0.12% atmospheric CO₂. Stomatal closure was determinedby microscopic examination of leaf imprints. In all treatments,less than 5% of the stomata from leaves of in vitro culturedplants were closed. The diameter of open stomata on leaves fromin vitro culture remained at 8 µm. In contrast, an averageof 96% of the stomata on leaves of greenhouse grown plants wereclosed after 4 h in darkness; 56% after 4 h of mannitol inducedwater stress; 90% after 1 h of 10^–4 M ABA treatment; 61%after 1 h in an atmosphere of 0.12% CO₂. Stomata of in vitroapple leaves did not seem to have a closure mechanism, but acquiredone during acclimatization to the greenhouse environment. Thelack of stomatal closure in in vitro plants was the main causeof rapid water loss during transfer to low relative humidity.     

Extracellular calcium is involved in stomatal movement through the regulation of water channels in broad bean

Involvement of extracellular Ca²⁺ in stomatal movement through the regulation of water channels was investigated in broad bean (Vicia faba L.). Leaf peels were first incubated to open stomata, and then transferred to buffers in the presence of different CaCl₂ concentrations. Stomatal status was observed under magnification and stomatal aperture (pore width/length) was measured. Stomatal closure was significantly induced and aperture oscillation occurred at lower extracellular concentrations of calcium ([Ca²⁺]_ext), while at higher concentrations, no significant change in stomatal aperture was observed, which was similar to the response recorded with HgCl₂. Lower [Ca²⁺]_ext-induced stomatal closure could be reversed using depolarizing buffer. It is suggested that lower [Ca²⁺]_ext regulates water channels through an indirect way and at higher concentrations, extracellular Ca²⁺ is involved in regulating stomatal aperture by directly influencing water channels to retard aperture change.     

Suppression of the stomatal opening by morphactins in isolated epidermal strips

The effects of three morphactins, chlorflurenol, flurenol andEMD 7301 W, were examined on the stomatal aperture using isolatedepidermal strips of Commelina benghalensis. Morphactins produced,a striking decrease in the stomatal opening in light but hadno effect on stomatal closure in darkness. Various catalystsand inhibitors of photophosphorylation had no influence on themorphactin-induced stomatal closure. The stimulatory effectsof ATP, pyruvate and KC1 on stomatal opening were suppressedby the morphactins. The cytokinin, benzyladenine stimulatedthe stomatal opening even in the presence of a morphactin. Theinfluence of morphactins on the stomatal aperture closely resembledthe effect of abscisic acid. ¹Present address: Central Plantation Crops Research Institute,Regional Station, Vittal 574243, Karnataka, India. (Received September 16, 1975; )     

Predicting the Amount of Litterfall in Forests of the World

Total litterfall and leaf litterfall were examined for 389 forestsites throughout the world using multiple regression, consideringlatitude, altitude and precipitation as predictor variables.In its best model, Ig total litterfall was negatively related(r² = 0.58) to latitude and altitude, while in the best modelfor lg leaf litterfall there was a negative relationship (r²= 0.35) with only one variable, latitude. When tropical forestswere considered separately however, lg leaf litterfall was positivelyrelated to precipitation, and negatively related to altitude(r² = 0.43). The predictive power of all the regression equationswas low, with large percentage values of scatter about the fittedvalues for all equations. In addition, there was no relationshipbetween the ratio of non-leaf material to leaf material in thelitter with any of the predictor variables. Litterfall, forests, tropical forests, latitude, altitude, precipitation, regression models