Host-Parasite Relations in Loose Smut of Wheat: II. The Distribution of 14C-Labelled Assimilates

The effect of infection by Ustilago nuda on the distributionof ¹⁴C-assimilates in spring wheat plants at several stagesof growth was examined Only small differences were detectedbetween healthy and infected plants at the early stages, butthere were marked differences between the older plants The amountof assimilate exported by the fed leaf appeared to be dependenton the demand for assimilates in all plants, and was greatestduring a period of rapid growth of host or parasite, such asthe sporulation of the fungus in the infected ear The distributionof exported assimilates from the fed leaf of healthy plantsvaried with the position of the fed leaf, its stage of development,and the age of the plant, the pattern was very similar to thatfound in other plant diseases This pattern was altered by thepresence of the pathogen, which acted as an alternative siteof accumulation Totally different sites received ¹⁴C-labelledassimilates in infected plants, in some cases assimilates weretranslocated over unusually long distances, for example fromthe main shoot flag leaf to infected tiller ears. The differencein distribution correlated well with the differences in growthcaused by the pathogen. In addition, the ratio between the radioactivityin alcohol-insoluble and that in alcohol-soluble compounds wasaffected by the infection, in young infected plants more radioactivitywas present in the insoluble fraction and in older infectedplants in the soluble fraction     

The Effect of Heat Stress on Wheat Leaf and Ear Photosynthesis

The effect of heat-hardening on carbon exchange rate per unitarea (CER) of flag leaves, whole ears, and ears with the awnsremoved, was measured in hexaploid (Triticum aestivum L.) andtetraploid (T. turgidum L. and T. dicoccoides) wheat varieties.The CER for awns was calculated by the difference. For the non-hardened hexaploid cv. ‘H-895’ the CERfor the leaves and glumes had an optimum temperature of 25°C.By contrast, the CER for the awns increased from 25°C to32°C, indicating an optimum at 32°C or more. Heat-hardeningdecreased the CER of leaves and glumes at the optimum temperature,but increased the CER especially in leaves at supra-optimaltemperatures. Thus, leaf CER in hardened plants became essentiallyindependent of temperatures between 25°C and 32°C. AwnCER was little affected by heat-hardening. For all 12 varieties, leaf and ear CER was smaller in hardenedplants at 30°C than in non-hardened plants at 22°C.Leaf and ear CER measured at 30°C differed significantlybetween varieties within a species. Whole ear CER at 30°Cwas negative in most varieties although the calculated valuefor the awns was positive. Thus, the high temperature optimumfor CER of the awns was a major factor in the variation amongwheat varieties in tolerance of ear CER to heat. The biochemicalattributes of the photosynthetic mechanism in awns responsiblefor the high temperature optimum were already present in wildtetraploid wheat. There was a positive correlation across allvarieties between ear CER at 30°C and the percentage ofawns in total ear area (r = 0930, P = 0 This together with previousresults (Blum, 1985a), suggests that a large amount of awnsin the ear is a sensible selection index in wheat for improvedproduction in hot, dry environments. Key words: Carbon exchange rate, photosynthesis, awns, heat, stress, wheat, breeding     

Uptake of 32P by Young Plants of Banksia hookeriana Meissner When Healthy and Infected with Phytophthora cinnamomi Rands

Young plants of Banksia hookeriana were grown in acid-washedsand with adequate phosphate and water supply, and a proportionwere inoculated with Phytophthora cinnamomi. There were no majordifferences in growth between uninoculated and infected plants,but there was a large increase in uptake of ³²P with increasingroot disease. In healthy plants ³²P uptake was greatest in youngleaf tissue, but in diseased plants labelled phosphate was directedmore towards older leaves where the activity was almost twicethat of young leaves. Enhanced uptake with disease was ascribed to possible blockageof the ‘message’ or ‘signal’ of phosphatetranslocation from shoot to root, such that the diseased rootincorrectly treated the shoot as P deficient and increased Puptake. Key words: Banksia hookeriana, Proteaceae, ³²P uptake, Phytophthora cinnamomi     

The Occurrence of 1,3-{beta}-Glucanase in Healthy and Verticillium-infected, Resistant and Susceptible Tomato Plants

Leaf, stem, and root extracts of near-isogenic tomato plantscv. Craigella, resistant and susceptible to Verticillium albo-atrum,showed constitutive 1,3-ß-glucanase activity whichincreased following inoculation with the pathogen. Partiallypurified enzyme extracts were obtained by dialysing a 30–80%ammonium sulphate fraction of the tissue brei. The enzyme hadpH and temperature optima of 5?5 and 44 ?C respectively, withhigh activity between 50 and 60 ?C. The response to laminarinconcentration was linear between 1?2 and 7?5 mg ml^–1.Root inoculation of susceptible plants with 10⁶ propagules ml^–1V. albo-atrum led to a umform 300 per cent increase in all steminternodes except the terminal one, which was 500 per cent ofthe controls. No spatial relationship of enzyme activity tothe localization of fungus within the stem was apparent. Petioles,leaves, and roots of susceptible infected plants similarly showedan increase in activity but less than that in stems. Changedlevels of stern enzyme activity at different times after inoculationwere associated with reductions in the number of vessels containinghyphae. Extracts of plants of the resistant isoline showed increasedglucanase activity over controls, but this was substantiallylower than that in susceptible plants and was associated withthe greatly reduced mycelial colonization in resistant plants. It is concluded that single gene resistance in tomato to Verticilliumis not associated with innately higher levels of 1,3-ß-glucanasein healthy plants. The increased activity in infected plantsis proportional to the overall quantity of pathogen in the plantor of pathogenic metabolites.     

Expression of Vernalization Requirement and Spikelet Number in Synthetic Hexaploid Wheats and their Triticum tauschii and Tetraploid Wheat Parents

Vernalization requirement, as measured by days from sowing toear emergence (plants grown under an 18-h photoperiod), andspikelet number per ear were recorded for 17 synthetic hexaploidwheats and the six tetraploid (Triticum durum) and the ninediploid T. tauschii parents used to synthesize them. The tetraploid parents and the synthetic hexaploids had springphenotypes (little or no vernalization requirement) whereasthe T. tauschii parents were all winter types (strong vernalizationrequirement). The tetraploid wheats and the synthetic hexaploidsreached ear emergence 50·3 to 63·8 d and 58·2to 75·3 d after sowing, respectively, while the T. tauschiilines reached ear emergence 114·3 to 179·5 d aftersowing. The spring habit of the synthetic hexaploids demonstrates theepistasis of spring over winter habit. It is considered thatwith a presumed single vrn locus in the diploid species T. tauschiithe range of ear emergence in these lines is consistent withthe action of multiple alleles at that locus. Although there was no general epistasis for spikelet number,the tetraploid parents appear to be exerting more influenceover spikelet number in the synthetic hexaploids than T. tauschii.The well established association between the duration from sowingto ear emergence and spikelet number was not evident eitherwithin each ploidy group or when the 32 lines were consideredtogether. Triticum tauschii, Triticum durum, hexaploid wheat, spikelet number, vernalization requirement     

Comparative Response of Nodulated and Nitrogen-Supplied Cowpea (Vigna unguiculata (L.) Walp. var. Tuy) Plants to Infection by Cowpea Mosaic Virus

The effect of infection by the Cowpea Mosaic Virus (CpMV) onseveral parameters relevant to symbiotic nitrogen fixation wasdetermined in cowpea (Vigna unguiculata (L.) Walp. var. Tuy)plants nodulated with two strains of Rhizobium cowpea: IVIC–124and IVIC–38. Plants were virus-infected at the seedlingstage before Rhizobium inoculation. The effect of CpMV infectionon plant growth was analysed in nodulated and nitrogen-suppliedplants at 18, 25 and 35 d after germination. At all developmentalstages of nodulated plants CpMV infection caused a reductionof leaf chlorophyll content, leaf area, dry weight of shootsand roots, total nodule weight and nodule number. Most of thenodules from 18- and 25-d-old CpMV-infected plants did not exhibitleghaemoglobin pigmentation. CpMV infection delayed the onsetof nitrogenase activity in nodules of the rhizobial strain IVIC–124and the enzyme activity measured on a per plant basis was reducedin both strains at the first and second harvests. Significantnitrogenase activity was detected in 35-d-old infected plants.Some of the nodules of the rhizobial strain IVIC-124 and mostof the nodules from plants nodulated with the strain IVIC-38developed leghaemoglobin; however, the nodule-specific nitrogenaseactivity, estimated on a milligram nodule dry weight basis,was always higher in virus-infected plants, particularly in18-d-old CpMV-infected plants harbouring the IVIC–124strain. CpMV-infected nodules had a larger peribacteroidal space,a reduced number of peribacteroid units, a greater number ofbacteroids per unit, a lower number of vesicles and 88% lowertotal reducing sugar content. Starch accumulation was detectedin infected leaves of nodulated plants during the first harvest,while high levels of leaf reducing sugars and protein were presentat the second harvest. In healthy nodulated plants the rhizobialstrain IVIC–124 was shown to be more efficient than IVIC–38in promoting plant growth. However, the results indicate thatnodulation by rhizobial strain IVIC–124 and growth ofplants harbouring this strain were affected to a greater extentby virus infection. The effect of CpMV infection on leaf chlorophyllcontent, leaf area, carbohydrate level, leaf proteins and growthof nitrogen-supplied plants, as well as the symptoms inducedin the leaves, were less conspicuous than in nodulated plants. Key words: Cowpea, Rhizobium, virus infection, nodule untrastructure     

Characterization of RNA-dependent RNA Polymerases in Healthy and Tobacco Mosaic Virus-infected Tomato Plants

Healthy tomato plants were shown to contain high levels of RNA-dependentRNA polymerase activity, mainly in a ‘soluble’ form,but also partly in a ‘ bound’ form. The ‘bound’enzyme was solublized by EDTA treatment. Both forms of enzymewere partially purified and characterized. The ion and pH optimaof the two forms were identical at all stages of purification.Both enzymes exhibited uridylyl transferase activity, whichmade up 35 per cent of total incorporation. Infection with tobacco mosaic virus (TMV) increased activityof ‘soluble’ enzyme by twofold, and of solubilized‘bound’ enzyme by less than twofold. Uridylyl transferaseactivity was also increased by infection. General propertiesof the enzymes were unaltered by infection with one exception:in the presence of TMV RNA as added template, the ‘soluble’enzyme from infected plants incorporated ³H-UTP into productswith the electrophoretic properties and RNase sensitivitiesexpected for replicative form and replicative intermediate ofTMV. ‘Soluble’ enzyme from healthy plants, and solublized‘ bound’ enzyme from either healthy or infectedplants did not synthesize these products. The ‘soluble’ and solubilized ‘bound’enzymes behaved differently on ion-exchange chromatography.Under the conditions used, ‘soluble’ enzyme didnot bind to the column, whereas solublized ‘bound’enzyme did. No differences in chromatographic behaviour werefound between enzymes from healthy or infected plants. Withboth ‘soluble’ and solublized ‘bound’enzymes, the uridylyl transferase activity co-chromatographedwith the polymerase activity. Tomato, Lycopersicon esculentum, RNA-dependent RNA polymerase, tobacco mosaic virus, tobacco mosaic virus replicase     

Protein Changes in the Vascular Wilt Disease of Lucerne caused by Verticillium albo-atrum R. et B

Field trials confirmed that, whereas the Du Puits variety oflucerne was highly susceptible to Verticillium albo-atrum, ‘Gaetula’hybrids showed slight resistance and certain ‘Swedish’material was moderately resistant. Symptom-free ‘Gaetula’and Swedish plants were used to produce uninfected clonal materialby root propagation. Comparisons of the proteins of such plants with seed-grown DuPuits produced no evidence of a correlation between proteinpattern before inoculation and differences in susceptibilityand resistance. Disc electrophoretic comparisons of infected host material showedthat the pathogen gradually induced a change in the shoot proteinsof Du Puits whereas in the resistant host, after an initialmarked change, there was a development towards normality. Bythe terminal stages of wilting there was a noticeable fall inthe numbers of proteins in both roots and shoots of Du Puits,a finding confirmed both by double diffusion and immunoelectrophoresis.At the same time there was good evidence for a slight increasein protein bands in the resistant material after inoculation. After feeding tritium-labelled leucine to infected Du Puitsplants, a small protein component of fungal origin was detectedin the host. Labelled components from both healthy and infectedDu Puits plants were separated on Sephadex G.25 and compared.     

Growth and Photosynthesis in Sorghum bicolor Infected with Striga hermonthica

Sorghum plants were grown in the laboratory with the root systemof each plant split between two pots. Three split pot treatmentswere established: (– –) treatment, where both halvesof the root were free from Striga; (– +) treatment, wherethe soil in one half of the pot had been inoculated with Strigaseed; (+ +) treatment, where the soil in both halves of thepot had been inoculated with Striga. Seed, stem and leaf weight were reduced by 82, 60 and 26 percent respectively in (+ +) plants compared to (– –)plants. Partially infected plants (– +) behaved similarlyto (+ +) plants. Rates of light saturating carbon dioxide fixation in (+ +) and(– +) plants were only 60 per cent of those measured in(– –) plants. This reduction was independent ofchanges in stomatal conductance. The effects of Striga on the growth and photosynthesis of sorghumappear to be independent of the degree of parasitism to whichthe host is subjected. The difference in production betweeninfected and uninfected plants was greater than could be accountedfor in term of competition with the parasite for resources,and Striga appears to have a pathological effect on the host. Sorghum, Striga, parasitic angiosperm, growth, photosynthesis     

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.     

Embryo Transformation, A Practical Approach for Realizing Transgenic Plants of Safflower (Carthamus tinctorius L.)

A gene transfer system that ensured recovery of whole planttransformants was developed for safflower (Carthamus tinctoriusL.). Embryo axes of germinating seeds with one of the cotyledonsremoved were pricked with a sterile sewing needle at the cotyledonarynode and infected by gentle agitation for 10 min in a suspensionofAgrobacterium tumefaciens . Following a 24 h co-cultivationand decontamination with cefotaxime for 1 h, they were placedon soilrite moistened with water to allow germination to progress.Later, the seedlings were transferred to soil in pots wherethey grew into normal healthy plants in the greenhouse. Thehistochemical assay of an uid A gene that expresses only inplant tissues and PCR amplification of uid A and npt II markergenes were used for early determination of putative transformants,whereas Southern analysis of T₀and T₁plant DNA was used to confirmintegration of the transgenes. The combined results indicatedthat the frequency of transformation was 5.3% in safflower ‘A-1’and 1.3% in ‘A-300’. Four T₀plants of ‘A-1’yielded transformed T₁progeny. The strategy, in principle, shouldbe applicable to all cultivars and genotypes of safflower whichare susceptible to Agrobacterium tumefaciens infection. Thusfar, this is the only procedure available for safflower thatcould successfully be used to generate whole plant transformants.Copyright 2000 Annals of Botany Company Safflower (Carthamus tinctorius L.), transformation, non-tissue culture method, embryo axes,Agrobacterium , transgene expression     

Appearance of a Host Protein in Cucumber Plants Infected with Viruses, Bacteria and Fungi

Electrophoretic analyses of extracts of cucumber leaves infectedwith Colleiotrichum lagenarium, Fusarium oxysporum f. sp. cucumerinum,Pseudomonas lachrymans, Erwinia tracheiphila, tobacco necrosisvirus or cucumber mosaic virus revealed the presence of a proteinband with an R_F value of 0.55–0.60 (based on mobilityof bromophenol blue) on 10% polyacrylamide gel. This band wasnot evident in extracts of healthy or mechanically wounded leaves.The protein was not detected in uninfected leaves of infectedplants, but it was detected in similar amounts in infected leavesand in secondarily challenged leaves of infected plants eventhough symptoms were not apparent on the latter. The proteinhad a molecular weight of approximately 16 000 d, was adsorbedon DEAE-cellulose, did not react with Schiff's reagent, anddid not have ribonuclease activity. When injected into cucumberleaves, it did not inhibit germination of conidia of C. lagenariumor induce resistance against disease caused by the fungus.     

The Occurrence of Funnel Leaflets and Ring Fasciations in Yellow Lupins

Funnel leaflets in yellow lupins (Lupinus luteus L.) were observedon a mutant, on pea-mosaic infected plants, and on plants treatedwith 2,4-D. In addition typical ring fasciations were producedon plants treated with 2,4-D. The above phenomena have beendiscussed in the light of similar morphogenetic effects, reportedto be induced in other plants by various growth substances.A possible explanation for the ring-shaped structures has beengiven by assuming a change in the influence of the apical meristemon developing leaf primordia and by considering the ‘physiologicalfield’ concept for organ formation respectively.     

Factors Affecting the Abscission of Reproductive Organs in Yellow Lupins (Lupinus luteus L.): III. ENDOGENOUS GROWTH SUBSTANCES IN VIRUS-INFECTED AND HEALTHY PLANTS AND THEIR EFFECT ON ABSCISSION

Extracts of small and mature-size lupin pods yielded four substancesaffecting the growth of wheat-coleoptile sections: one acidpromotor (A), two acid inhibitors(B and X), and one neutralinhibitor(Y). Inhibitor B was extremely active, however, coleoptile sectionsshowed no signs of toxic effects; they resumed growth at a rapidrate after rinsing them and adding ß-indolylaceticand (IAA) to the medium. 1 µg of IAA was required to counteractthe effect of ‘B’ extracted from 230 mg. Of tissue.On an equal fresh weight basis the inhibiting action of ‘B’in lupin pods was 500–1,500 times more potent than thatof ‘inhibitor ß’ in etiolated pea seedlings. Small pods of plants infected with pea-mosaic virus yielded3 times the amount of ‘A’ of healthy plants (equivalentto 1 µg. IAA 0.3 µg. IAA per 25 g. of tissue respectively),and approximately the amount of ‘B’. Mature podsof virus-infected plants again yielded more‘A’,but also 2? times more ‘B’ than pods of healthyplants. Healthy pods yielded more ‘A’ than virus-infectedpods, and there was no difference in ‘X’. A lupin abscission test was developed and the effects of proximaland distal application of -naphthyl acetic acid (NAA) are presented,and discussed with respect to results of other abscission tests. ‘A’ accelerated abscission when applied proximally,and delayed or prevented it when applied distally. ‘B’strongly accelerated abscission when applied in either way.A possible mechanism explaining the abscission-inducing effectof developing pods on later flowers is discussed in terms ofthe substances ‘A’ and ‘B’. The partlyprevented abscission observed on virus-infected plants was foundto agree well with the proposed mechanism.     

Stimulation of Photosynthesis in Uninfected Leaves of Rust-infected Leeks

Fourth leaves of healthy leek plants exhibit very low ratesof net photosynthesis which appear to be related to the veryslow growth rates of young leeks early in the season. A stimulation in the rate of net photosynthesis was found tooccur in uninfected leaves of leek plants infected with therust, Puccinia porri. This was accompanied by a reduction inthe rate of photorespiration. Although the mechanisms underlyingthis response are not known, it may be instructive to comparethese results with those obtained from partial defoliation experiments.Increased photosynthetic activity in uninfected leaves may enablethe infected plant to maintain a functional shoot: root equilibrium. Allium porrum L., leek, Puccinia porri, leek rust, stimulation, photosynthesis, reduction, photorespiration     

The Effect of Soil Phosphate on Injury to Winter Barley Caused by Mildew Infection (Erysiphe graminis f.sp. Hordei)

Populations of winter barley were sown in autumn in large tubsof soil to half of which additional phosphate was supplied.Half the plants of each phosphate treatment were infected withpowdery mildew (Erysiphe graminis D.C. f. sp. hordei Marchal)and all plants were transferred to the-field. Infection inducedextensive leaf injury during mid-winter in plants at low phosphate,but injury was greatly reduced in the high soil phosphate treatment.The extent of winter injury had a marked effect on the increasein leaf area in spring, and the accumulation of plant d. wtwas positively correlated with the percentage of total leafarea remaining undamaged at the end of winter. This, in turn,was strongly influenced by the interaction between powdery mildewand soil phosphate. High soil phosphate may act as a ‘buffer’to the effects of infection, minimizing the combined effectsof infection and abiotic stresses suffered by plants in winter. Barley, powdery mildew (Erysiphe graminis hordei), overwinter, phosphate, temperature     

Effects of Temperature Variation at Different Times on Growth and Yield of Sugar Beet and Barley

Sugar-beet and barley were grown in pots outdoors (environmentN) and, for five successive 4-week periods starting at sowing,batches of plants were transferred to three growth rooms whosetemperatures were either similar to the outdoor mean (environment^M), or 3° C hotter (environment H) or 3° C colder (environmentC). Some plants were harvested immediately after treatment;others were returned to environment N and harvested when mature. At the end of period 1, sugar-beet plants from environment Mhad more dry weight and leaf area than those outdoors. Immediatelyafter spending later periods in environment M, plants had smallerleaves and similar dry weight to those continuously outdoors.These differences disappeared by maturity. Warmth in the growthrooms (i.e. the difference H—C) during periods 1, 2, and3, while leaf area was increasing, increased the number andsize of leaves and usually also dry weight; in later periodsit had no effect. The effects induced during periods 2 and 3,but not period 1, persisted to maturity to give greater totaland root dry weight and yield of sugar. The final effects ondry weight were much larger than those immediately after treatment,and were the result of differences in growth outdoors aftertreatment which depended on differences in leaf area; the efficiencyof the leaves was not affected by previous treatment. Transferring barley to environment M from N had inconsistentimmediate effects on leaf area and dry weight which disappearedby the final harvest. Transfer during periods 2 and 3, beforethe ears had started emerging, increased shoot number and delayeddevelopment. The proportion of the ears that ripened and theyield of grain were usually less for plants that had spent aperiod in environment M than for plants permanently outdoors,which also had some green ears. Warmth in the growth rooms duringperiods 1 and 2 increased dry weight and leaf area immediately,but had negligible effects at maturity because the increasesin leaf area did not persist after ear emergence. Warmth laterhastened death of leaves, decreased total dry weight immediatelyand also at maturity, but increased the proportion of ears thatripened and hence usually grain weight. Variation in leaf areaduration after ear emergence (D), determined by effects on thetime the ears emerged and the rate the leaves died, accountedfor most of the variation in grain yield, but warmth after theears emerged decreased grain yield less than proportionallyto the decrease in D. Net assimilation rate (E) of sugar-beet was greater than ofbarley, and decreased less with age. E of both species was usuallygreater in environment M than outdoors in spite of less radiation.It was only slightly affected by temperature. Nitrogen and potassium uptake were increased by treatments thatincreased dry weight. The percentage contents suggest that extrauptake was a consequence and not a cause of the increase indry weight.     

Growth of Near-isogenic Wheat Lines Differing in Development--Plants in a Simulated Canopy

An understanding of the principal factors regulating the growthof temperate cereals will identify opportunities to manipulatecrop growth. In an accompanying paper (Gomez-Macpherson, Richardsand Masle,Annals of Botany82: 315–322, 1998), growth aroundthe start of floral initiation was studied in isogenic wheat(Triticum aestivumL.) lines grown as spaced plants. In thispaper, two of the same near-isogenic wheat lines were grownas mini-canopies in a growth chamber. The objective was to determinewhether results obtained using spaced plants also apply to plantsgrown in a simulated canopy as a first step to emulate fieldconditions. Biomass of plant organs, leaf area and leaf andtiller appearance were determined from sowing to ear emergenceof the early developing line. Contrary to results obtained usingspaced plants, lines differed in their above-ground biomassaccumulation, although total plant biomass accumulation wassimilar. After the early line reached terminal spikelet stage(TS), biomass partitioning to the roots and leaves decreased,whereas partitioning to the stem and ear increased. This resultedin a lower root:shoot ratio in the early flowering line thanin the late line which remained vegetative. Tiller senescencealso began after TS in the early line whereas no tiller senescencewas observed in the late line during the experiment. Furthermore,after TS, net assimilation rate was greater and leaf area ratiowas lower in the early line. It is suggested that, after reachingTS, plants grown in a canopy become source limited comparedto widely spaced plants, or compared to plants that have notreached TS, and this results in less root growth.Copyright 1998Annals of Botany Company Development, growth, partitioning,Triticum aestivumL., wheat.     

Temperature Response of Vernalization in Wheat: A Developmental Analysis

The vernalization response of wheat ( Triticum aestivum L.)was reinterpreted from a developmental perspective, using currentconcepts of the developmental regulation of wheat morphologyand phenology. At temperatures above 0 °C, the effects ofthe process of vernalization per se in wheat are confoundedby the effects of concurrent vegetative development. These effectsare manifested by differences in the number of leaves initiatedby the shoot apex prior to floral initiation, which in turnaffects the subsequent rate of development to ear emergenceand anthesis. Leaf primordia development during vernalizationand total leaf number at flowering were used to develop criteriato define both the progress and the point of saturation of thevernalization response. These criteria were then used to reinterpretthe results of Chujo ( Proceedings of the Crop Science Societyof Japan 35 : 177–186, 1966), and derive the temperatureresponse of vernalization per se for plants grown under saturatinglong day conditions. The rate of vernalization increased linearlywith temperature between 1 and 11 °C, such that the timetaken to saturate the vernalization response decreased from70 d at 1 °C to 40 d at 11 °C. The rate declined againat temperatures above 11 °C, and 18 °C was apparentlyineffective for vernalization. Total leaf number at saturation,however, increased consistently with temperature, as a resultof the balance between the concurrent processes of leaf primordiuminitiation and vernalization. Total leaf number at saturationincreased from 6 at 1 °C to 13.3 at 15 °C, which inturn influenced the time taken to reach ear emergence. The advantagesof using this developmental interpretation of vernalizationas the basis for a mechanistic model of the vernalization responsein wheat are discussed. Triticum aestivum L.; wheat; vernalization; rate; temperature; primordia; leaf number; flowering     

The Effect of Irradiance on the Recovery of Soybean Nodules from Sodium Chloride-Induced Senescence

Soybean (Glycine max L. Merr) cv. Clarke plants inoculated withBradyrhizobium japonicum strain RCR3407 were grown either ina greenhouse with a low irradiance (200–400)µmolm^–2 s^–1) or in a controlled-environment growth cabinetwith a higher irradiance (600 µimol m^–2 s^–1).At 42 d plants were given a nitrogen-free nutrient solutioncontaining 50 mol m^–3 sodium chloride for 2 weeks andthen allowed to recover from salt-stress for a further 2 weeks. Salt treatment reduced plant growth by at least half in bothgrowth regimes, however, the controlled environment-grown (CEG)plants were five times larger than the greenhouse-grown (GG)plants in terms of dry weight and number/weight of nodules perplant, regardless of treatment. The structure of nodules, from both growth regimes, harvestedat the end of the 2 week salt-stress was similar to unstressedcontrol nodules. However, nodules harvested 1 week later fromboth CEG and GG plants had structural changes including degradationof bacteria in vacuoles around host cell nuclei, particularlyin the outer cell layers of the infected tissue. In addition,meristematic activity was seen in the cortex of some nodulesfrom GG plants. Young cells here contained infection threadsand newly-released bacteria. Nodules harvested 2 weeks after removal of the salt-stress fromCEG plants showed an apparent recovery from the stress. However,there was a very marked increase in the amount of starch inthe cortex which was not seen in equivalent GG nodules. In contrast,nodules from GG plants contained many vacuolate infected cellsand, consequently, a lowered bacteroid population. Further,meristematic activity was seen in a zone concentric to the infectedzone, newly-formed cells contained many large infection threadsand were interspersed with intercellular bacteria. The meristematicactivity increased the relative volume of cortical to infectedcells in these nodules. Growth conditions did not affect control nodule specific nitrogenaseactivity or oxygen diffusion resistance (R) and these parameterswere also not altered in CEG nodules exposed to salt plus the14 d recovery period. However, nitrogenase activity was greatlyreduced, and R increased by more than eight times in equivalentGG nodules exposed to salt plus recovery. It is hypothesized that the gross morphological changes werean attempt to counter salt toxicity and/or oxygen damage underconditions of reduced photosynthate supply to the nodules dueto the poor light levels in the greenhouse. However, soybeannodules supplied with adequate photosynthate were able to withstandand recover from long-term salt-stress with little alterationto their structural integrity. Key words: Soybean, sodium chloride, nitrogen fixation, light intensity, oxygen diffusion resistance