Abscisic Acid Accumulation in Detached Leaves of Rice (Oryza sativa L.) in Response to Water Stress: A Correlation with Leaf Size

When water stress was imposed on detached leaves of two rice(Oryza sativa L.) cultivars, more ABA per unit fresh weightaccumulated in IR20, a small-leaved cultivar, than in 63–83,a large-leaved cultivar; the difference being up to threefold.In an F₂ population of a cross between the two cultivars ABAaccumulation was found to be significantly negatively correlatedwith leaf fresh weight. This correlation persisted in the F₃generation. Such a correlation was not evident, however, whena number of rice cultivars, which varied widely in leaf size,were examined. The difference in ABA accumulation between IR20 and 63–83was not accounted for by different spatial patterns of waterloss or ABA accumulation within a leaf, and cultivar differencesin ABA content were maintained both across, and at various positionsalong the leaf. No major differences in leaf anatomy were observed between thetwo cultivars. Differences found in leaf water relations characteristicswere few and generally minor. It therefore seems unlikely thatthese properties account for the difference between the cultivarsin the ability to accumulate ABA or for the correlation withleaf size. Oryza sativa L, rice, water stress, abscisic acid, leaf size     

不同浓度NaCl和Na2CO3处理对菊芋幼苗光合及叶绿素荧光的影响

 以砂培菊芋(Helianthus tuberosus)幼苗作为试验材料,分别进行不同浓度NaCl (50、 100、150、200、250 mmol&;#8226;L^－1)和Na₂CO₃ (25、50、 75、100、125 mmol&;#8226;L^－1)胁迫处理,以1/2全营养液作为对照,处理7 d后研究NaCl和Na₂CO₃胁迫处理对菊芋幼苗叶片光合作用及叶绿素动力学 参数的影响。结果表明：1)在NaCl处理下,当浓度小于150 mmol&;#8226;L^－1时,增加了菊芋的叶绿素含量、净光合速率(Net photosynthetic rate, P_n)和气孔导度(Stomatal conductivity, G_s),对荧光参数PSⅡ的电子传递情况( F_m/F_o)、PSⅡ原初光能转换效率(F_v/F_m)、PSⅡ量子效率 (Actual quantum yield of PSⅡ under actinic irradiation,φPSⅡ)和光化学猝灭系数(Photochemical quenching coefficient, qP)和非 光化学猝灭系 数(Non-photochemical quenching coefficient, NPQ)没有显著影响,随着浓度的增加,各项生理指标与对照相比除了NPQ显著 增加,其余均显著降低;2)在Na₂CO₃胁迫处理下,随着Na₂CO₃浓度的增加,与对照相比菊芋幼苗叶绿素含量、P_n、G_s以及叶绿素a荧光诱导动力 学参数F_m/F_o、F_v/F_m、φPSⅡ和qP均显著降低,NPQ显著增加;3)就NaCl和Na₂CO₃相比而言,在相同Na⁺浓度情况下,处于Na₂CO₃胁迫下的菊芋 幼苗的叶绿素含量、P_n、G_s以及叶绿素a荧光诱导动力学参数F_m/F_o、F_v/F_m、φPSⅡ和qP下降幅度和NPQ的增加幅度均显著大于NaCl,这说明 NaCl和Na₂CO₃胁迫均对菊芋幼苗造成不同程度的伤害,但在相同Na⁺浓度情况下,Na₂CO₃的伤害程度大于NaCl。由此说明菊芋对盐的忍耐程度高 于碱。     

NaCl-and Gibberellic Acid-induced Changes in the Content of Auxin and the Activities of Cellulase and Pectin Lyase During Leaf Growth in Rice (Oryza sativa)

The interactive effect of NaCl salinity and gibberellic acidin the activities of cellulase and pectin lyase, and on thecontent of auxin and chlorophyll, has been determined duringleaf growth (fifth from base) in rice. The linear growth, chlorophyllcontent, activity of cellulase, and the auxin level of leaveswere markedly decreased when plants were exposed to salt stress(12 dS m^–1). However pectin lyase activity did not registerany significant alteration in the leaves of salt-stressed plantscompared with the control. Treatment of plants with gibberellicacid (GA₃) (10 ppm) increased the leaf growth and chlorophyllcontent with a concomitant rise in the activity of cellulaseunder stressed as well as non-stressed conditions. A markedincrease in the content of auxin was discernible in the leavesof salt-stressed plants treated with GA₃ compared with non-treatedsalinized ones. An appreciable increment in the activity ofpectin lyase in response to GA₃ administration was detectedonly in the leaves of non-stressed plants. These results indicatethat enhancement of cellulase activity and the augmentationof endogenous auxin content may be involved in the stimulationof rice leaf growth by GA₃ under saline conditions. Oryza sativa, rice, leaf growth, NaCl salinity, gibberellic acid, cellulase, pectin lyase, auxin     

Effect of Leaf Age and Shading on Photosynthesis in Potatoes (Solanum tuberosum)

The effects of leaf age and of shading on photosynthetic rateand on other leaf parameters of potato (Solanum tuberosum L.)were studied using a portable gas exchange system. A rapid decreasein the rate of photosynthesis during leaf senescence was observed.This was accompanied by an increase in stomatal resistance,and as a result a fairly constant level of sub-stomatal CO₂concentration was maintained at all leaf ages. The reductionin the photosynthetic rate in older leaves was therefore assumedto be essentially mesophyllic in origin, whereas the stomatalresponse was probably secondary. Canopy density significantly affected the rate of photosyntheticreduction with leaf age. Leaves maintained under high radiationintensities manifested a slower decline in their photosyntheticrate, especially in the early stages of their senescence, thanleaves kept under shade conditions. The latter leaves were foundto be more adapted to low radiation intensities, as indicatedby changes in their chlorophyll a:b ratio and specific leafweight Solanum tuberosum L, potato, photosynthetic rate, mesophyll, stomata, leaf age, radiation intensity, chlorophyll a:b ratio     

Variation in Chlorophyll A Content and Stability in Wheat Flag Leaves

Chlorophyll a content in segments of flag leaves from 19 wheatvarieties excised at ear emergence was shown to vary by a factorof 2.3. Chlorophyll stability (expressed as the percentage ofchlorophyll remaining in the segments after 4 days senescencein moist boxes at 20 °C in the dark) varied by a factorof 8.5. Variation in these parameters between varieties appearedto be independent. Five of these varieties, representing the extremes, were furthertested at three nutrient levels, and under three light/temperatureregimes. Whilst lower leaf canopy senescence was greater atlow nutrient levels, flag leaf chlorophyll content actuallyincreased slightly, stability remaining fairly constant. Incontrast, as light intensity improved, chlorophyll content increasedmarkedly, with a consequent slight non-significant decreasein stability. Testing the F₁ progeny of a partial diallel involving four ofthe above varieties showed that the mean chlorophyll content,and stability, of the parents followed the same ranking as theprogeny to which they contributed. This suggests heritable controlof the parameters measured. Some implications of these resultsin breeding for resistance to senescence are discussed.     

氯化钠胁迫对枳椇和皂荚生长、叶绿素荧光及活性氧代谢的影响

以盆栽枳椇和皂荚为试材,研究了不同浓度NaCl处理（CK、0.15%、0.30%、0.45%、0.60%）对枳椇和皂荚植株生长、叶绿素荧光特性和活性氧代谢的影响.结果表明:随着NaCl浓度的提高,植株生长量、叶片叶绿素含量、F_v/F_m、Φ_PSⅡ、q_P均逐渐下降,而q_N逐渐升高.0.15% NaCl胁迫10 d后,枳椇叶片叶绿素含量、F_v/F_m、Φ_PSⅡ、q_P较对照处理分别降低了19.77%、2.94%、29.03%、8.16%,差异显著(P<0.05),而皂荚与对照处理差异不显著;0.30%NaCl胁迫下,皂荚F_v/F_m和Φ_PSⅡ较对照处理分别降低了1.91%、14.66%,差异显著(P<0.05);0.45%NaCl胁迫下,皂荚叶片叶绿素含量和q_P与对照处理差异显著(P<0.05),分别降低了29.28%和11.36%.随着NaCl浓度的增加,皂荚SOD活性持续升高,枳椇呈先升高后降低变化,在0.15% NaCl胁迫下达最大值;两种苗木细胞POD、CAT活性均呈先升后降趋势,且皂荚的升幅大于枳椇.二者的MDA含量均呈上升趋势,且枳椇的升高幅度大于皂荚,说明枳椇产生了较严重的膜脂过氧化.由此推断,皂荚的耐盐性较强与其具有较强的抗氧化保护酶系统有关.     

The Senescence Process in Oat Leaves and its Regulation by Oxygen Concentration and Light Irradiance

The regulation of senescence by oxygen-concentration, lightirradiance and H₂O₂ has been studied in leaf segments of Avenasativa L. cv. Suregrain. The development of the components of the senescence process,for example chlorophyll breakdown, proteolysis (as soluble aminoacids), hydroperoxides (as malondi-aldehyde) and permeability(as conductivity) is accelerated in light as the O₂-tensionincreases. In darkness, 0.3% O₂ accelerates increases in hydroperoxides,permeability and proteolysis and delays the chlorophyll break-down,but 0.0005% O₂ delays all the components studied. In every casethe hydroperoxide content, permeability and proteolysis areclosely related. Any treatment inducing an increase in membranepermeability causes chlorophyll bleaching (photo-oxidation)if leaf segments are then treated with light in an atmospherecontaining oxygen. Light has a modulating effect on the senescenceprocess. An irradiance lower or higher than 40 W m^–2 hasan accelerating effect on the senescence process. (Received September 7, 1985; Accepted July 30, 1985)     

Comparison of Atrazine-Resistant and -Susceptible Biotypes of Senecio vulgaris L.: Effects of High and Low Temperatures on the in vivo Photosynthetic Electron Transfer in Intact Leaves

The effects of temperature on the yield of in vivo modulatedchlorophyll fluorescence were measured in intact leaves of atrazineresistantand -susceptible biotypes of the weed Senecio vulgaris L. At25 ?C, the photochemical quenching (q_Q of steady-state chlorophyllfluorescence was reduced by around 30% in the atrazine-resistantmutant as compared to the susceptible wild type, indicatinga higher reduction state of the primary electron acceptor Q_Aof photosystem II in the former biotype. Moderately elevatedtemperatures (above 30 ?C) further increased the steady-stateconcentration of reduced in the mutant. Analysis of the temperature dependence of both the photochemicalquenching q_Q and the initial fluorescence level F_o clearly indicateda drastically enhanced heat-sensitivity of the photochemicalapparatus in the atrazine-resistant Senecio leaves. The heat-inducedchanges in F₀ and q_Q were closely correlated, suggesting thatthe phenomenon responsible for the rise in F₀ was also involvedin the inhibition of the photosynthetic electron flux. Low temperaturesalso affected reoxidation but, in contrast to heating, no apparent differences were observed in the behaviourof the two biotypes exposed to chilling stress. Key words: Atrazine-resistance, chlorophyll fluorescence, heat stress, Senecio vulgaris     

外源NO对盐胁迫下黑麦草幼苗活性氧代谢、多胺含量和光合作用的影响

采用溶液培养法研究了外源一氧化氮(nitric oxide,NO)供体硝普钠(sodium nitroprusside,SNP)对100 mmol·L^-1 NaCl胁迫下黑麦草幼苗生长、活性氧代谢、多胺含量和光合作用的影响。结果表明,50 μmol·L^-1 SNP显著提高盐胁迫下黑麦草幼苗叶片的超氧化物歧化酶(SOD)、过氧化物酶(POD)和抗坏血酸过氧化物酶(APX)活性及谷胱甘肽(GSH)、精胺(Spm)、亚精胺(Spd)含量和(Spm+Spd)/Put比值,降低了腐胺(Put)、超氧阴离子(O^—·₂)、H₂O₂和丙二醛(MDA)含量,使幼苗叶片叶绿素和类胡萝卜素含量、净光合速率(P_n)和气孔导度(G_s)升高,胞间CO₂浓度(C_i)下降,相对生长量增加。叶绿素荧光动力学资料显示,SNP处理降低盐胁迫下黑麦草叶片的初始荧光(F₀),表明它对光合膜系统具有保护效应。SNP处理不仅提高了盐胁迫下叶片的最大荧光(F_m)、PSⅡ潜在光化学效率(F_v/F₀)和PSⅡ最大光化学效率(F_v/F_m),而且提高了PSⅡ实际光化学效率(Φ_PSⅡ)、光化学荧光猝灭系数(q_P)、表观光合电子传递速率(ETR)和光化学速率(PCR),降低了非光化学荧光猝灭系数(NPQ)和天线热耗散(D),而1 mmol·L^-1 NO清除剂PTIO和0.5 μmol·L^-1 NaNO₂处理(对照)则无此效应。由此表明,外源NO可能通过提高植株的抗氧化能力及光能的捕获与转换而增强盐胁迫下黑麦草叶片的光合能力,从而缓解盐胁迫对幼苗生长的抑制作用。     

Mass Exodus from Senescing Soybean Chioroplasts

During leaf senescence, chioroplast proteins, lipids and pigmentsundergo massive degradation releasing large amounts of nutrientsfor reuse elsewhere. Understandably, the chloroplast-degradingmachinery has been considered to operate within the chloroplastitself. However, most of those lipases and proteases that increaseduring senescence and have been localized occur in the vacuoleor cytoplasm rather than in the chloroplast. In chloroplastsof senescing (monocarpic) soybean (Glycine max) leaves, numerousplastoglobuli (lipid-protein globules) protruded through thechloroplast envelope and emerged into the cytoplasm, where theseglobules acquired a polygonal coat and eventually disintegrated.The fluorescence characteristics of these cytoplasmic globulesindicated that they contained chlorophyll or chlorophyll derivatives.The secreted globules were specific to senescing cells and wereabsent in old leaves of the ‘stay green’ genotypeGGd₁d₁d₂d₂ which shows a generalized inhibition of chloroplastdegradation. These observations suggest that the globules secretedby the chloroplast carry photosynthetic components to the cytoplasmor vacuole where they are degraded. This blebbing from the chloroplastsuggests the occurrence of a novel pathway for the degradationof photosynthetic components in senescing leaves, and it opensnew approaches to the study of chloroplast breakdown and itsregulation. ¹ Permanent address: Instituto de Fisiología Vegetal,Universidad Nacional de La Plata, c. c. 327, 1900-La Plata,Argentina.     

Distribution of Endogenous Gibberellins in Vegetative Shoots of Rice

Levels of endogenous gibberellins in rice seedlings (Oryza sativaL., cv. Nipponbare) were compared between young and old leavesat the 4- and 5-leaf stages. The levels of GA₁, GA₁₉ and GA₅₃were higher in the youngest leaf than in older leaves at the5-leaf stage, but they did not differ significantly betweenthe leaf sheath and the leaf blade. At the 4-leaf stage, thelevel of GA₁, was highest in the third leaf sheaths which containedyoung elongating tissues. These results indicate that gibberellinsare synthesized in young vegetative tissues to promote theirelongation growth. The levels of GA₁ in the youngest leaf sheathsof two cultivars of dwarf rice, Tan-ginbozu and Waito-C, wereapproximately 10% of that in the normal rice at the 5-leaf stage.This result could explain the retardation of shoot elongationin these dwarf cultivars. (Received February 15, 1995; Accepted June 1, 1995)     

Changes in Chlorophyll Content and Organization During Senescence of the Primary Leaves of Phaseolus vulgaris L. in Relation to Photosynthetic Electron Transport

A large decrease was observed in the chlorophyll content ofthe primary leaves of Phaseolus vulgaris during senescence.Chloroplasts isolated from mature and senescent leaves gavevery similar light saturation curves for electron transportreactions involving either PS I or PS II, indicating that theaverage number of chlorophyll molecules associated with eachreaction centre did not change during senescence. It is concludedthat the reaction centres ceased to function at the same timeas, or perhaps before, their antenna chlorophylls were lostfrom the thylakoid membrane, and that the percentage decreasein the number of functional reaction centres per leaf was atleast as great as the percentage decrease in the leaf chlorophyllcontent. The chlorophyll-protein composition of thylakoid membrane preparationswas examined by electrophoresis of samples treated with sodiumdodecyl sulphate. In older leaves a smaller proportion of thechlorophyll applied to polyacrylamide gels was associated withthe P700- chlorophyll a-protein complex. There was also a declinein emission at 734 nm in the 77 °K fluorescence spectrumof intact leaf tissue during senescence. These results indicatethat older leaves contained a smaller proportion of chlorophyllsassociated with PS I, and this is consistent with the decreaseobserved in the leaf chlorophyll a/b ratio during senescence.The effect of these changes in chlorophyll content on the capacityof the chloroplast to carry out photosynthetic electron transportis discussed.     

Observations on the Senescence of a Mutant Non-yellowing Genotype of Phaseolus vulgaris L.

A non-yellowing mutant of Phaseolus vulgaris L. was used toinvestigate factors involved in chlorophyll breakdown duringfoliar senescence. The mutant showed physiological changes similarto those of the normal yellowing type during senescence exceptthat leaf chlorophyll did not decline. Transmission electronmicroscope studies did not reveal appreciable differences inchloroplast ultrastructure between the two genotypes, suggestingthat chloroplast membrane integrity was not the factor preventingchlorophyll degradation in the mutant. However, the lack ofplastoglobuli in senescent mutant chloroplasts suggested thatthe lipid environment may be different from that of senescentnormal chloroplasts. Banding patterns of total soluble protein,resolved by sodium dodecyl sulphate-poly aery lamide gel electrophoresisshowed few, if any, differences between mature non-senescentnormal and mutant leaves; however, bands at 14 kD and 58 kDdiminished in senescent normal leaves, but remained in senescentmutant non-yellowing leaves. Key words: Non-yellowing mutant, Phaseolus vulgaris, senescence, chlorophyll degradation     

Effects of salt stress on growth, mineral nutrition and proline accumulation in relation to osmotic adjustment in rice (Oryza sativa L.) cultivars differing in salinity resistance

Salt-resistant rice cultivars Nona Bokra and IR 4630 exposed at the seedling stage during one or two weeks to 0, 20, 30, 40 or 50 mM NaCl accumulated less Na, Cl, Zn and proline and more K at root and shoot levels than salt-sensitive I Kong Pao and IR 31785. Aiwu, a moderately resistant genotype, exhibited an intermediate behaviour. P transport from root to shoot was inhibited in the most sensitive cultivar IR 31785. Accumulation of Na and Cl and decrease in K content at the shoot level were restricted to the oldest leaves in salt-resistant genotypes while proline accumulated in the youngest leaves in all cultivars. In the presence of NaCl, the osmotic potentials of the roots and of the oldest and youngest leaves were lower in the salt-resistant than in the salt-sensitive genotypes, differences among genotypes increasing with stress intensity. Proline did not appear to be involved in osmotic adjustment in salt-stressed rice plants and the significance of its accumulation is discussed in relation to salinity resistance.Abbreviations cv(s). cultivar(s) - EC electrical conductivity - IKP I Kong Pao - J rate of ion transport - MCW methanol-chloroform-water - PAR photon flux density - Pc partitioning coefficient - RGR mean relative growth rate - RI resistance index - s osmotic potential     

Exogenous Jasmonic Acid and Cytokinin Antagonistically Regulate Rice Flag Leaf Senescence by Mediating Chlorophyll Degradation,Membrane Deterioration,and Senescence-Associated Genes Expression

Although it is well known that jasmonic acid (JA) and cytokinin (CK) are involved in regulating leaf senescence, the antagonistic mechanisms of JA and CK on leaf senescence are still unknown. To explore the antagonistic effects of JA and CK on leaf senescence, we treated detached rice flag leaves with JA and CK under dark conditions, and evaluated their chlorophyll contents, membrane deterioration, and expression levels of chlorophyll-degradation-related genes (CDRGs) and senescence-associated genes (SAGs). Our results demonstrated that exogenous application of JA promoted chlorophyll degradation by enhancing the expression levels of CDRGs, promoted membrane deterioration by accelerating the increases in lipid peroxidation and membrane permeability, enhanced the expression levels of SAGs, and consequently accelerated rice flag leaf senescence. On the other hand, exogenous application of CK retarded chlorophyll degradation by down-regulating the expression levels of CDRGs, retarded membrane deterioration by retarding the increases in lipid peroxidation and membrane permeability, down-regulated the expression levels of SAGs, and consequently delayed rice flag leaf senescence. Furthermore, the senescence-accelerating effect of a certain concentration of JA was nullified by the senescence-retarding effect of a certain concentration of CK. These results suggested that exogenous applications of JA and CK were able to antagonistically regulate flag leaf senescence by mediating chlorophyll degradation, membrane deterioration, and SAGs expression. In addition, our results suggested that the progression of flag leaf senescence might not only depend on the level of JA or CK but also depend on the balance between JA and CK.     

Growth and Physiology of One-year old Poplar (Populus) Under Elevated Atmospheric CO2 Levels

The effects of elevated atmospheric CO₂ concentrations on theecophysiological responses (gas exchange, chlorophyll a fluorescence,Rubisco activity, leaf area development) as well as on the growthand biomass production of two poplar clones (i.e. Populus trichocarpax P. deltoides clone Beaupré and P. x euramericana cloneRobusta) were examined under open top chamber conditions. Theelevated CO₂ treatment (ambient + 350 µmol mol^-1) stimulatedabove-ground biomass of clones Robusta and Beaupré afterthe first growing season by 55 and 38%, respectively. This increasedbiomass production under elevated CO₂ was associated with asignificant increase in plant height, the latter being the resultof enhanced internode elongation rather than an increased productionof leaves or internodes. Both an increased leaf area index (LAI)and a stimulated net photosynthesis per unit leaf contributedto a significantly higher stem biomass per unit leaf area, andthus to the increased above-ground biomass production underthe elevated CO₂ concentrations in both clones. The larger LAIwas caused by a larger individual leaf size and leaf growthrate; the number of leaves was not altered by the elevated CO₂treatment. The higher net leaf photosynthesis was the resultof an increase in the photochemical (maximal chlorophyll fluorescenceFm and photochemical efficiency Fv/Fm) as well as in the biochemical(increased Rubisco activity) process capacities. No significantdifferences were found in dark respiration rate, neither betweenclones nor between treatments, but specific leaf area significantlydecreased under elevated CO₂ conditions.Copyright 1995, 1999Academic Press Biomass, chlorophyll a fluorescence, elevated CO₂, growth, Populus, poplar, photosynthesis, respiration, Rubisco     

The Heritability of Abscisic Acid Accumulation in Water-stressed Leaves of Pearl Millet [Pennisetum americanum (L.) Leeke]

Using detached leaves, two cultivars of pearl millet [Pennisetumamericanum (L.) Leeke], B282 and Serere 39, were assessed forvariation in the capacity to accumulate ABA in response to waterstress. Significant differences in ABA accumulation were detectedbetween cultivars and between different inbred lines withina cultivar, but within lines there was much less variation inthis character. In crosses between individual lines of B282(low ABA) and Serere 39 (high ABA), ABA accumulation in theF₁ was mid-way between parental values, indicating additivegenetic control and lack of dominance. Selfed progeny of a B282 x Serere 39 cross were selected forcontrasting ABA accumulation in the F₂ to F₄ generations. Asixfold range in ABA accumulation was found amongst 207 F₂ progeny.This increased to nearly ninefold at F₃ and F₄. Regression analysisindicated high heritability of ABA accumulation and rapid approachto homozygosity. As the cross studied involved a dwarf (B282) and a tall (Serere39) parent, segregation occurred for height as well as for ABA,though not entirely independently. Tall F₃ progeny had significantlyhigher ABA contents than dwarf progeny and high ABA was thereforeassociated with other traits (e.g. large leaves, high leaf percent d. wt) characteristic of tall plants. Nevertheless, therewas a substantial range of ABA content within both groups whichwas uncorrelated with height and other characters. The potential use of the selections in studies on drought responseis briefly discussed. Pennisetum americanum (L.), Leeke, pearl millet, abscisic acid accumulation, water stress, genetic differences, inheritance     

Heteroses in Net Photosynthetic Rate, Leaf Area, Tillering, and Some Physiological Characters of 35 F1 Rice Hybrids

Net photosynthetic rate, leaf area, tillering, shoot weight,and leaf area ratio for 35 F₁ rice (Oryza sativa L.) hybridsduring the vegetative stage were compared with correspondingvalues for parental varieties. Shoot weight and leaf area showedheterosis. However, hybrid vigour was not reflected in net photosyntheticrate. Leaf area was closely correlated with heteroses in shootdry weight and tillering. Thus F₁ rice hybrids grow vigorouslybecause of their high leaf area development, which is causedby high tillering. Key words: F₁ rice hybrid, Net photosynthetic rate, Leaf area     

Leaf Senescence: Correlated with Increased Levels of Membrane Permeability and Lipid Peroxidation, and Decreased Levels of Superoxide Dismutase and Catalase

The changes in membrane permeability (soluble leakage), lipidperoxidation, and activities of superoxide dismutase (SOD) andcatalase have been studied during in situ senescence of leavesof Nicotiana tabacum L., cv. Wisconsin 38. After full leaf expansionwas reached there was a rapid, almost linear increase in therate of ⁸⁶Rb leakage from the preloaded leaf discs, with leafage. Parallel with this increase in membrane permeability wasa cumulative increase in the level of lipid peroxidation. Atthe same leaf age there were changes in the activities of SODand catalase. SOD activity decreased on the basis of fresh weightbut did not change when measured on the basis of protein contentprobably due to relative stability of SOD during the senescence-associatedgeneral decline in protein content. Catalase activity firstincreased parallel with the chlorophyll content of the leafand then, after full leaf expansion, declined on the basis ofboth fresh weight and protein content. These changes in membranepermeability, lipid peroxidation, and the enzyme activitiescoincide in leaf age with the decline in protein and chlorophyllcontents and in chlorophyll a: b ratio. When the senescenceof the bottom-most leaves was reversed by removing the stemfrom immediately above them, the senescence-associated changesin protein and chlorophyll contents, lipid peroxidation, andthe enzyme activities were also reversed. It is suggested thatleaf senescence may be a consequence of cumulative membranedeterioration due to increasing level of lipid peroxidationprobably controlled by, among other factors, the activitiesof SOD and catalase.