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1.
The stomatal resistance of individual leaves of young cotton plants (Gossypium hirsutum L. var. Stoneville 213) was measured during a period of soil moisture stress under conditions of constant evaporative demand. When plants were subjected to increasing soil water stress, increases in stomatal resistance occurred first on the lower leaves and the stomata on the upper surfaces were the most sensitive to decreasing leaf-water potential. Stomatal closure proceeded from the oldest leaves to the youngest as the stress became more severe. This apparent effect of leaf age was not due to radiation differences during the stress period. Radiation adjustments on individual leaves during their development altered the stomatal closure potential for all leaves, but did not change the within-plant pattern. Our data indicate that no single value of leaf water potential will adequately represent a threshold for stomatal closure in cotton. Rather, the stomatal resistance of each leaf is uniquely related to its own water potential as modified by age and radiation regime during development. The effect of age on stress-induced stomatal closure was not associated with a loss of potassium from older leaves. Increases in both the free and bound forms of abscisic acid were observed in water-stressed plants, but the largest accumulations occurred in the youngest leaves. Thus, the pattern of abscisic acid accumulation in response to water stress did not parallel the pattern of stomatal closure induced by water stress.  相似文献   

2.
A field experiment was conducted with a water-stressed treatmentand well-watered control using eight maize (Zea mays L.) cultivars.Effects of water deficits on cell membrane stability (CMS) measuredby the polyethylene glycol (PEG) test, leaf surface wax content,and relative growth rate were investigated. Cytoplasmic lipidcontent was also analysed. Cell membrane stability and leaf surface wax content increasedwith the degrees of stress. Tolerance to drought evaluated asincrease in CMS under water deficit conditions was well differentiatedbetween cultivars and was well correlated with a reduction inrelative growth rate under stress. A negative correlation wasfound between percentage injury in the PEG test and leaf surfacewax content. High phospholipid contents were observed in tissuesof drought tolerant cultivars under water deficit conditions. Key words: Cell membrane stability, cytoplasmic lipid, drought tolerance, leaf surface wax, relative growth rate  相似文献   

3.
Growth rates of seasonal leaf flushes of ‘Valencia’orange [Citrus sinensis (L.) Osbeck] were measured and waterrelations characteristics of young (new) and over-wintered (old)citrus leaves were compared. New flush leaves had lower specificleaf weights and lower midday leaf water potentials than comparablyexposed old leaves. Spring and summer flush new leaves had higherosmotic potentials than old leaves. These differences becamenon-significant as the new leaves matured. During summer conditions,water-stressed new leaves reached zero turgor and stomatal conductancealso began to decrease in them at higher leaf water potentialsthan in old leaves. Old leaves were capable of maintaining openstomata at lower leaf water potentials. Opened flowers and newflush leaves lost more water, on a dry weight basis, than flowerbuds, fruit or mature leaves. The results illustrate differencesin leaf water potential and stomatal conductance which can beattributed to the maintenance of leaf turgor by decreases inleaf osmotic potentials as leaves mature. These changes in citrusleaf water relations are especially important since water stressresulting from high water loss rates of new tissues could reduceflowering and fruit set. Citrus sinensis (L.) Osbeck, orange, Citrus paradisi Macf., grapefruit, growth rate, leaf water relations, osmotic potential, water potential, stomatal conductance  相似文献   

4.
A field experiment was conducted with a non-irrigated waterstress treatment and an irrigated control using four sorghum(Sorghum bicolor L. Moench) cultivars. We investigated the effectsof water deficits on leaf water relations, osmotic adjustment,stomatal conductance, cuticular conductance, cell membrane stability(CMS) measured by the polyethylene glycol (PEG) test, epicuticularwax load (EWL), cytoplasmic lipid content, solute concentrationin cell sap, and growth. Osmotic adjustment was observed under water deficit conditions.Lower osmotic potential enabled plants to maintain turgor anddecreased the sensitivity of turgor-dependent processes. Sugarand K were identified as the major solutes contributing to osmoticpotential in sorghum. Sugar and K concentrations in cell sapincreased by 37·4% and 27%, respectively, under waterdeficit conditions in favour of decreasing osmotic potential.Stomatal conductance and cuticular conductance were lower inthe non-irrigated plants. A wide range in CMS among four cultivarswas observed. CMS increased with increasing water deficits.EWL increased on leaves of water deficient plants and was positivelycorrelated with cuticular conductance and CMS. Membrane phospholipidcontent increased in water-stressed plants. CMS as measured by the PEG test, was influenced by EWL, cuticularthickness, and osmotic concentration of leaf tissues. The cultivarswhich maintained higher CMS, higher EWL, lower cuticular conductance,higher turgor and higher osmotic adjustment under water deficitconditions were identified as drought tolerant. Key words: Sorghum bicolor, cell membrane stability, leaf water relationsosmotic adjustment, water stress  相似文献   

5.
Leaf resistances of 14 cultivated potato genotypes (Solanumspp) and three tuber-bearing wild Solanum species were comparedwhen plants were grown under water stress at two tropical sitesFactors investigated were diurnal changes in leaf resistance,the effect of plant age, transient drought versus well-wateredconditions of potted and field-grown plants These measurementswere carried out in order to determine the stomatal behaviourof tuber-bearing genotypes and species Significant genotypic differences in leaf resistances were notedwithin the cultivated genotypes All genotypes had higher resistanceswhen water-stressed, but LT-7 appeared to have the lowest leafresistances Genetic differences in stomatal behaviour of tuber-bearingSolanum species were confirmed Abaxial stomatal resistancesof water-stressed plants of the species ranged between 1 74and 13 8 s cm–1 Stomata of S chacoense were less affectedby drought (three-fold) than S tuberosum (four-fold) The greatesteffect was on S jungasense (five-fold) and on S raphanifoliumThese data show that stomata behaviour among tuber-bearing Solanumspecies is sufficiently different to warrant investigationsof drought-resistance in potato species under dry hot conditions Solanum tuberosum L., Solanum raphanifolium, Solanum chacoense, Solanum jungasense, leaf resistance  相似文献   

6.
Photosynthetic responses of intact leaves of the desert shrub Encelia farinosa were measured during a long term drought cycle in order to understand the responses of stomatal and nonstomatal components to water stress. Photosynthetic rate at high irradiance and leaf conductance to water vapor both decreased linearly with declining leaf water potential. The intercellular CO2 concentration (ci) remained fairly constant as a function of leaf water potential in plants subjected to a slow drought cycle of 25 days, but decreased in plants exposed to a 12-day drought cycle. With increasing water stress, the slope of the dependence of photosynthesis on ci (carboxylation efficiency) decreased, the maximum photosynthetic rates at high ci became saturated at lower values, and water use efficiency increased. Both the carboxylation efficiency and photosynthetic rates were positively correlated with leaf nitrogen content. Associated with lower leaf conductances, the calculated stomatal limitation to photosynthesis increased with water stress. However, because of simultaneous changes in the dependence of photosynthesis on ci with water stress, increased leaf conductance alone in water-stressed leaves would not result in an increase in photosynthetic rates to prestressed levels. Both active osmotic adjustment and changes in specific leaf mass occurred during the drought cycle. In response to increased water stress, leaf specific mass increased. However, the increases in specific leaf mass were associated with the production of a reflective pubescence and there were no changes in specific mass of the photosynthetic tissues. The significance of these responses for carbon gain and water loss under arid conditions are discussed.  相似文献   

7.
The effect of water stress and subsequent rehydration on 1-aminocyclopropane-1-carboxylic acid (ACC) content, ACC synthase activity, ethylene production, and leaf abscission was studied in Cleopatra mandarin (Citrus reshni Hort. ex Tan.) seedlings. Leaf abscission occurred when drought-stressed plants were allowed to rehydrate, whereas no abscission was observed in plants under water stress conditions. In roots of water-stressed plants, a high ACC accumulation and an increase in ACC synthase activity were observed. Neither increase in ACC content nor significant ethylene production were detected in leaves of water-stressed plants. After rehydration, a sharp rise in ACC content and ethylene production was observed in leaves of water-stressed plants. Content of ACC in xylem fluid was 10-fold higher in plants rehydrated for 2 h after water stress than in nonstressed plants. Leaf abscission induced by rehydration after drought stress was inhibited when roots or shoots were treated before water stress with aminooxyacetic acid (AOA, inhibitor of ACC synthase) or cobalt ion (inhibitor of ethylene-forming enzyme), respectively. However, AOA treatments to shoots did not suppress leaf abscission. The data indicate that water stress promotes ACC synthesis in roots of Cleopatra mandarin seedlings. Rehydration of plants results in ACC transport to the shoots, where it is oxidized to ethylene. Subsequently, this ethylene induces leaf abscission.  相似文献   

8.
Intact plants of okra (Hibiscus esculentus) were chilled at6°C in the light, and leaf diffusion resistance (LDR) andleaf water potential measured. The response of the LDR of excisedleaves to fresh weight loss and, separately, exogenous abscisicacid (ABA) supply, was also studied at 6°C and 30°C.The influence of two pre-treatments upon these measurementswas studied. The two pre-treatments consisted of the impositionof a period of water stress at 30°C prior to measurement(followed by re-watering) or the spraying of the leaves withABA. It was found that plants that had been grown in a highhumidity environment continuously (designated control plants)had stomata that were very unresponsive to both water loss fromthe leaves and to exogenous ABA at both temperatures (6°Cand 30°C). Chilling the control plants resulted in rapidwilting and concomitant decline in leaf water potential. A pre-treatmentof water stress prior to chilling did not alter or reduce therate of development of chilling injury, nor did the pre-treatmentincrease the responsiveness of stomata at 6°C to water lossor exogenous ABA. However, spraying the leaves with ABA priorto chilling reduced the severity and delayed the onset of chillinginjury. Stomatal response to water stress and exogenous ABAwas increased by the spraying pre-treatment. These results arediscussed in relation to previous studies of the phenomenonof stomatal locking open at low temperature and the effect ofpre-treatments upon the development of chill-resistance. Key words: Water stress, chilling, stomata  相似文献   

9.
E. Oddo  R. Veca  G. Morici 《Plant biosystems》2018,152(1):161-165
Lithops plants consist of a pair of succulent leaves inserted on a short stem; in each growing season, young leaves develop in a cavity formed between the older pair. Young leaves can take up water from the older pair allowing the plant to maintain growth and leaf expansion even without external supply of water. Recycling water between vegetative organs is one of the possible adaptation strategies of plants under drought stress, but it had never been demonstrated experimentally in Lithops. The methodology used to verify the existence of water redistribution from old leaves to young leaves was fluorescence microscopy, using two dyes to follow the water pathway inside the plant: Sulforhodamine G (SRG) and 5(6)-carboxyfluoroscein diacetate (CFDA). In Lithops fluorescent tracers loaded into old leaves were found in young leaves, in 74% of the cases for SRG, in 59% of the cases for CFDA. Our data demonstrate that young leaves take up water from the old ones following both a symplastic and an apoplastic pathway. Water recycling is therefore one of the adaptive responses of these plants allowing them to perform at least a complete growth cycle even during prolonged drought stress periods, using the water stored in the older leaves.  相似文献   

10.
Defoliation and Leaf Age Influence on Ergot Alkaloids in Tall Fescue   总被引:5,自引:0,他引:5  
A controlled environment experiment was conducted to determinethe influence of defoliation on the regrowth and developmentof two tall fescue (Festuca arundinacea Schreb.) host-endophyte(Neotyphodium coenophialum Morgan-Jones and Gams (Glenn, Bacon,Price and Hanlincomb. nov. ) associations (DN2 and DN11), knownto differ in morphology and alkaloid production capacity. Defoliationtreatments included an uncut control, and clipping to a 5- or10-cm residue height. In a separate experiment, leaf age effectswere determined on an uncut plant canopy. Ergot alkaloid concentrationwas greatest in pseudostem and least in harvested leaf. Non-infectedplants were devoid of alkaloid. Alkaloid production (expressedas a function of dry matter) and yield were greater in uncutthan clipped plants, and were greater in DN11 than DN2 plants.Alkaloid production increased with increasing N concentrationin both associations; however, the rate of production was influencedby concentration of non-structural carbohydrate. Leaf age influencedleaf mass and alkaloid concentration and yield. Oldest leaves(>6 weeks after appearance) of DN2 and DN11 had the lowestconcentrations of ergot alkaloid, while leaves that were 2 to4 weeks old had the greatest alkaloid concentration and yield(alkaloid concentrationxleaf mass). Repeated defoliation reducedthe production of alkaloids, but did so as a function of non-structuralcarbohydrate. Our data suggest that alkaloid production canbe modified by defoliation as well as by host-endophyte association. Neotyphodium coenophialum ; Festuca arundinacea ; N; non-structural carbohydrate  相似文献   

11.
The role of abscisic acid (ABA) in drought tolerance of Coffea canephora is unknown. To determine whether ABA is associated with drought tolerance and if the use of tolerant rootstocks could increase ABA and drought tolerance, we performed reciprocal grafting experiments between clones with contrasting tolerance to drought (clone 109, sensitive; and clone 120, tolerant). Plants were grown in large (120 L) pots in a greenhouse and subjected to drought stress by withholding irrigation. The non-grafted 120 plants and graft treatments with 120 as a rootstock showed a slower reduction of predawn leaf water potential (Ψpd) and a lower negative carbon isotopic composition ratio compared with the other grafting combinations in response to drought. The same 120 graft treatments also showed higher leaf ABA concentrations, lower levels of electrolyte leakage, and lower activities of ascorbate peroxidase and catalase under moderate (Ψpd?=???1.0 or ??1.5 MPa) and severe (Ψpd?=???3.0 MPa) drought. Root ABA concentrations were higher in plants with the 120 rootstocks regardless of watering regime. The 120 shoots could also contribute to drought tolerance because treatment with 120/109 rootstock/scion combination showed postponed dehydration, higher leaf ABA concentration, and lower leaf electrolyte leakage compared with the sensitive clone. We conclude that both the shoot and root systems of the tolerant clone can increase the concentrations of ABA in leaves in response to drought. This further suggests that ABA is associated with a delayed onset of severe water deficit and decreased oxidative damage in C. canephora.  相似文献   

12.
13.

Background

Water and nutritional restrictions are limiting factors for the growth of Eucalyptus trees in tropical climates. In the dry season, boron (B) uptake is severely affected.

Aims

The objectives of this study were to evaluate the phloem mobility of B and whether its deficiency can increase plant sensitivity to osmotic stress. It was also tested to what extent foliar application of B could mitigate the negative effects of drought under low B supply.

Methods

Seedlings of a drought tolerant Eucalyptus urophylla (Blake, S. T.) clone were grown in nutrient solution, subjected to low availability of B for 25 days, and then submitted to a progressive osmotic stress. After imposition of osmotic stress, B was applied to young or mature leaves.

Results

B applications, mainly to mature leaf, stimulated root growth and delayed dehydration under osmotic stress and led to an increased B translocation and carbon isotopic composition. The expression of B transporters and pectin metabolism genes were also increased in water-stressed plants supplied with B by foliar application.

Conclusions

B deficiency led to increased plant dehydration and decreased root growth under osmotic stress. The application of B to mature leaf of water-stressed plants proved effective in mitigating the negative effects of water deficit in root growth.  相似文献   

14.
The effect of droughting and waterlogging on changes in endogenouslevels of hormones have been studied in Euphorbia lathyrus L.with particular reference to plant age and leaf age. Younger tissues (i.e. immature leaves and young plants) synthesizedsignificantly greater amounts of ABA per unit fresh weight thandid corresponding older tissue. The increased ABA levels correlatedwell with corresponding increases in water saturation deficit(WSD) and stomatal resistance in a given treatment but the relationshipbetween the absolute values of these three parameters variedgreatly between seedlings of different ages. Endogenous ethylenelevels in leaves and stems were unaffected by droughting irrespectiveof age. Imposition of waterlogging led to marked increases in ABA levelsin young plants though this was not strictly related to changesin WSD or stomatal resistance. Endogenous levels of ethyleneincreased in response to waterlogging, this being marked inthe older seedlings which also had a higher incidence of senescenceand abscission. The more complex effects of waterlogging, the significance ofage of tissue on hormonal responses to stress, and the adaptivevalue of such responses to younger tissues are discussed.  相似文献   

15.
Leaf water characteristics and drought acclimation in sunflower genotypes   总被引:1,自引:0,他引:1  
Maury  P.  Berger  M.  Mojayad  F.  Planchon  C. 《Plant and Soil》2000,223(1-2):155-162
The responses of leaf water parameters to drought were examined using three sunflower (Helianthus annuus L.) genotypes. Osmotic potential at full water saturation (π100), apoplastic water fraction (AWF) and bulk elastic modulus (BEM) were determined by pressure-volume curve analysis on well watered or on water-stressed plants (−1.0 MPa Ψ1 < −1.5 MPa) previously drought-pretreated or not. The drought-pretreated plants were subjected to a 7-day drought period (predawn leaf water potential reached −0.9 MPa) followed by 8 days of rewatering. In well watered plants, all genotypes in response to drought acclimation displayed a significantly decreased π100 associated with a decrease in the leaf water potential at the turgor-loss point (decrease in Ψtlp was between 0.15 and 0.21 MPa, depending on the genotype). In two genotypes, drought acclimation affected the partitioning of water between the apoplastic and symplastic fractions without any effect on the total amount of water in the leaves. As a third genotype displayed no modification of AWF and BEM after drought acclimation, the decreased π100 was only due to the net accumulation of solutes and was consistent with the adjustment of the photochemical efficiency observed previously in this genotype in response to drought acclimation. In water-stressed plants, the osmotic adjustment (OA) can increase further beyond that observed in response to the drought pretreatment. However, the maintenance of photosynthetic rate and stomatal conductance at low leaf water potentials not only depends on the extent of osmotic adjustment, but also on the interaction between OA and AWF or BEM. Adaptative responses of leaf water parameters to drought are thus quite contrasted in sunflower genotypes. This revised version was published online in June 2006 with corrections to the Cover Date.  相似文献   

16.
Triadimefon is a fungicide that has plant growth regulatingproperties. In beans (Phaseolus vulgaris L.) it significantlyreduced shoot weight, shoot length and leaf area, and rootsappeared whiter and thicker in the treated plants. Chlorophylland carotenoid levels were increased in the leaves, but triadimefondid not affect protein levels in either leaves or roots. Triadimefonreduced transpiration and protected the plants from drought.It increased leaf diffusive resistance indicating partial closureof the stomates, and treated plants maintained their water potentialswhile those of the controls declined. Osmotic potentials ofboth treated and control leaves fell, but values in the controlswere significantly lower than those from the treated plants.Three days after treatment with triadimefon in both water stressedand non-stressed plants the abscisic acid levels in the leavesof the treated plants were more than twice the levels of thecontrols. It appears therefore that the protection conveyedby triadimefon during water stress is mediated at least partially,via its effects on ABA levels in treated tissue. (Received October 12, 1985; Accepted January 8, 1986)  相似文献   

17.
Dry mass production, leaf characteristics and diurnal photosynthesisof two N. tabacum L. genotypes selected for survival at lowCO2 and the parent Wisconsin-38 (control plants) were measuredon water-stressed and well-watered plants in the field. Differencesin photosynthesis per unit leaf area were small and not significantbetween genotypes, but different patterns of photosynthesiswere observed in stressed and non-stressed plants, with waterstress reducing total net carbon fixation by 45% in all genotypes.More dry mass was produced by the selected genotypes than byWisconsin-38 under irrigation. Production was smaller and thesame for all three genotypes when stressed. The increased drymass of the selected genotypes was related to greater totalleaf area per plant which was accompanied by more cells perunit leaf area but smaller cell volume than in the control plants.The decrease in dry mass production under water stress was relatedto a decrease in total leaf area per plant and a decrease incell number per unit leaf area; however, cell volume increased. Key words: Water stress, photosynthesis, productivity, leaf cells, genotype  相似文献   

18.
Water Deficit Enhanced Cotton Resistance to Spider Mite Herbivory   总被引:1,自引:0,他引:1  
We investigated the responses of cotton (Gossypium hirsutumL.)to the combined effects of soil water deficit and two-spottedspider mite (Tetranychus urticaeKoch) infestation. Two mitetreatments (-M: uninfested, +M: artificially infested 83 d aftersowing), and two water regimes (+W: well watered, -W: waterstressed) were combined factorially in four treatments. Mitecolonies developed at similar rates in well-watered and water-stressedcrops. Despite the similar intensity of infestation, visualsymptoms of mite injury were more marked in well-watered hostplants (+M+W) than in their water-stressed counterparts (+M-W).Lint yield of unstressed controls (-M+W) was 175 g m-2. In uninfestedcrops, water deficit reduced yield by 30%, mites reduced theyield of well-watered crops by 92%, and the combination of miteinfestation and water deficit reduced yield by 72% (water effect:P<0.01;mite and interaction effect:P<0.0001). Differences in yieldresponses to mites between well-watered and water-stressed cropswere mostly related to differences in reproductive partitioning.The interaction between mites and water deficit was also significantfor other crop variables including canopy temperature, leafwater potential, concentration of nitrogen in reproductive structuresand seed oil concentration. The magnitude and consistency ofthe interaction between both stresses indicates that, underour experimental conditions, mechanisms of adjustment to waterdeficit may have enhanced cotton resistance to mites. This isfurther supported by (a) an increase in specific leaf weightand a parallel increase in leaf penetration resistance due towater deficit; (b) a negative association between macroscopicsymptoms of mite injury and leaf penetration resistance; and(c) a choice test showing that adult female mites preferredto feed and oviposit on leaves from well-watered plants.Copyright1998 Annals of Botany Company Gossypium hirsutumL.;Tetranychus urticaeKoch; leaf water potential; leaf penetration resistance; canopy temperature; multiple stresses; specific leaf weight; radiation use efficiency; nitrogen concentration; reproductive allocation.  相似文献   

19.
The investigations were designed to test osmotic adjustment,cell wall bulk elastic modulus and stomatal behaviour duringand after water stress and rewatering in the primary and firsttrifoliolate leaf of Phaseolus vulgaris. Leaf water relationsquantities fully recovered after rewatering within a few hours;diffusion resistance to vapour flow, however, required 6 h.Leaf growth recovery was considerably delayed. Osmotic adjustmentwas absent during water stress in both the primary and the firsttrifoliolate leaf. The bulk elastic modulus (v), however, waslower for the primary leaf (higher elasticity) than for thetrifoliolate leaves. These two types of leaves differed in theirdrought resistance in that the primary leaf exhibited wiltingat the end of the stress period (7 d) while the trifoliolateleaf remained relatively turgid. The bulk elastic modulus ofthe cell wall changed almost proportionally with the turgorpressure (p). The structure coefficient (), an indicator forthe intensity of change of the bulk elastic modulus with turgorwas higher for the primary than for the first trifoliolate leaf.The leaf diffusion resistance (r), below the turgor loss point,changed proportionally with the solute potential with very similarregression lines for the relation of (r) versus RWC 1. The datasuggest that greater drought resistance of the first trifoliolateleaf is related to a decreased bulk elastic modulus, but notto osmotic adjustment nor to differences in stomatal resistanceduring water stress. Key words: Phaseolus vulguris, Water stress, Recovery, Cell wall elasticity  相似文献   

20.
Drought-stressed flatpea (Lathyrus sylvestris L.) plants from8 to 22 weeks old were analysed for nitrogen, soluble proteinand free amino acids. An increase in nitrogen and free aminoacid concentrations and a decrease in soluble protein levelwere observed in roots of plants up to 16 weeks old. The cumulativeconcentration of free amino acids increased with drought stress.Tissue concentrations of 2, 4-diaminobutyric acid (1.6–2.6%of the dry weight) were highest in leaves. Levels increasedsteadily, nearly doubling, in leaves and stems between weeks10 and 16. Levels in drought-stressed leaves were, on average,11.9% higher than those of controls. Estimated concentrationsof a mixture of 4-aminobutyric acid and an unknown amino acidwere highest in stems, increased in this tissue with age andtended to increase in stems and leaves and decrease in rootsin response to water deficit. Levels of the mixture of homoserineand another unidentified amino acid were not influenced by ageor water status of the plants. Root concentrations of asparagine,arginine, glutamine, aspartate, and another prominent, unidentifiedamino acid increased with plant age and reached a peak at thetime of flowering (14 to 18 weeks). Only the concentration ofthe unknown compound was elevated following drought stress.Concentrations of valine, isoleucine, leucine, phenylalanine,and methionine also increased during this period and were elevatedin drought-stressed plants. Proline levels increased with plantage and drought stress, but proline accounted for only about10% of the total free amino acids in the drought-stressed plants. Key words: 2, 4-Diaminobutyric acid, drought, flatpea  相似文献   

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