Dependence of Yields of Wheat Varieties on their Leaf Area Durations

In a field experiment three wheat varieties: autumn-sown CappelleDesprez, Prestige, both autumn-sown and spring-sown, and spring-sownJufy I, each supplied with 0.5 or 1.0 cwt nitrogen/acre (6₃or 126 kg/ha), had grain yields nearly proportional to theirLeaf Area Durations (D) during grain development. Squarehead'sMaster had a smaller grain yield relative to its total D, butwith 0.5 cwt N/acre the ratio of its grain yield to D of partsabove the flag leaf node (D_F) was similar to the other varieties.The difference in this ratio between varieties was less whenD_Fwas calculated from anthesis than from ear emergence to ripening.Squarehead’s Master with 1.0 cwt N/acre had a smallerratio of grain yield to D_F than other treatments, implying lessgrain per ear relative to D_Y per shoot, perhaps because of lodging,or because factors limiting size of ears restricted their abilityto accept all the assimilate the shoots could produce with thisamount of N.     

Regeneration from Rhizome Fragments of Agropyron repens (L.) Beauv. III. Effects of Nitrogen and Temperature on the Development of Dominance Amongst Shoots on Multi-node Fragments

Not all buds developed equally when 7-node rhizome fragmentsof Agropyron repens (L.) Beauv. were incubated in the dark at23 °C. Instead, after an initial flush of several shoots,buds were inhibited in a highly ordered sequence to leave onlyone dominant shoot growing. Applying an exogenous supply ofnitrogen KNO₃) early during this sequence increased the meanshoot lengths and delayed the onset of dominance. Additionally,the application of nitrogen after eight days incubation alteredthe sequence of shoot growth such that, in some instances, smallrapidly-growing basal shoots ‘dominated’ largerand more slowly-growing apical ones. Dominance (correlativeinhibition) was maintained in untreated fragments for up to383 days Numbers of active budsand shoot extensionrate weremaximal intherange 13°to 23 °C where dominance was establishedwithin 30 days. Incontrast only 6 per cent of rhizome fragmentskept at 33 °C had dominant shoots after 65 days. At 3 °Cshoot growth was so slow that dominance was not permanentlyestablished within 150 days. Numbers ofactive budsand shoot extensionrate weremaximal intherange 13° to 23°C where dominance was establishedwithin 30 days. Incontrast only 6 per cent of rhizome fragmentskept at 33 °C had dominant shoots after 65 days. At 3 °Cshoot growth was so slow that dominance was not permanentlyestablished within 150 days It is suggested that the effects of nitrogenand temperatureon dominance in multi-noderhizome fragments can be interpretedin terms of competition for nutrients between shoots, and theantagonistic effects of nitrogen on an auxin-mediated inhibitionby the dominant shoot.     

Nitrogen Utilization in N-limited Barley During Vegetative and Generative Growth: IV. TRANSLOCATION AND REMOBILIZATION OF NITROGEN

Barley (Hordeum vulgare L., cvs Golf and Laevigatum) was grownunder nitrogen limitation in solution culture until near maturity.Three different nitrogen addition regimes were used: in the‘HN’ culture, the relative rate of nitrate-N additionwas 0·08 d^–1 until day 48 and then stepwise decreasedto, finally, 0·005 d^–1 during late grain-filling;the ‘LN’ culture received 45% of the nitrogen addedin HN; the ‘CN’ culture was maintained at RA 0·0375d^–1 throughout growth. At four different growth stages(vegetative,anthesis, and twice during grain-filling), ¹⁵N-nitrate was fedto the plants. In some cases (‘split root cultures’),label was fed only to one-half of the root system. These wereharvested directly after labelling, whereas ‘standardcultured’ plants were harvested at termination of theexperiment (day 148). Absorption of added nitrate was nearlycomplete in the HN and LN cultures, and translocation of nitrogenwithin the plants could thus be studied independently of differencesin nitrate absorption. Cycling of nitrogen absorbed by vegetativeplants accounted for up to 50% of the nitrogen recovered inthe roots. The sink strength of the roots for cycling nitrogen,however, declined during post-anthesis growth, and net lossof nitrogen from both roots and vegetative shoot tissue occurredconcomitantly with incorporation of labelled ¹⁵N-nitrogen. Thenitrogen of the vegetative shoot tissue was substantially lesslabelled than the nitrogen entering the ears, indicating thattranslocation of recently absorbed nitrogen to ears occurs withminor prior exchange with the bulk nitrogen of shoots. In caseswhere the sink strength of the ears was weak, as in LN-culturedLaevigatum (due to high frequency of sterile flowers) and inCN-cultured Golf, nitrogen translocated from roots appearedto be incorporated into the vegetative shoot tissue. There werealso indications that a fraction of the remobilized nitrogenwas actually lost from the plants in these cases. It is concludedthat the root remains efficient in translocation of nitrogento the aerial parts throughout ontogeny and that nitrogen takenup during grain–filling is preferentially directly translocatedto the developing grains. The further translocation of nitrogenreceived by vegetative shoot parts to ears appears mainly relatedto the potential of the ear to accumulate nitrogen. Nitrogenabsorbed/remobilized in excess of the sink strength of the earsis either invested in continued shoot growth, or is irreversiblylost from the plants. Key words: Barley, ¹⁵N-labelling, post-anthesis, remobilization, translocation     

The Effect of Bud Position on Branch Growth and Bud Abscission in Quercus petraea (Matt.) Liebl.

The time at which a bud began to expand was related to its positionnot only on an individual shoot but also within the crown. Thedistribution of buds and branches on the shoot was uneven; theshoot tip, where they were densely clustered, was termed the‘whorl; and the remainder of the shoot, where they werewidely spaced, the ‘interwhorl’ stem. In spring,the terminal bud started expanding before the ‘whorl’buds which preceded the ‘interwhorl’ stem buds;completion of the flush of growth, determined by the end ofleaf expansion, occurred in the reverse order, ‘interwhorl’> ‘whorl’ > terminal. Similarly bud expansionstarted at the top of the crown and progressed downwards, andthe first shoots to complete their flush were at the bottomof the crown. Approximately 60% of the buds on each shoot beganexpanding in spring but only about half of these formed branches.Bud abscission began in May and by Sep. 45% of buds originallypresent had abscised. Most of-the buds that did not abscisewere the small buds at the base of the shoot that were not originallyassociated with a leaf. Approximately 42% of ‘whorl’buds and 28% of MnterwhorP stem buds formed branches. ‘Whorl’branches were approx. 60% longer that ‘interwhorl’stem branches; buds on the lower surface of the shoot producedlonger branches than those on the upper surface. The implicationsof the results for the development of crown form and selectionof superior oak are discussed. Quercus petraea, oak, buds, branches, crown form     

Developmental control of xylem hydraulic resistances and vulnerability to embolism in Fraxinus excelsior L.: impacts on water relations

The freezing tolerance of many plants, such as pea (Pisum sativum),is increased by exposure to low temperature or abscisic acidtreatment, although the physiological basis of this phenomenonis poorly understood. The freezing tolerance of pea shoot tips,root tips, and epicotyl tissue was tested after cold acclimationat 2C, dehydration/rehydration, applications of 10^–4M abscisic acid (ABA), and deacclimation at 25C. Tests wereconducted using the cultivar ‘Alaska’, an ABA-deficientmutant ‘wil’, and its ‘wildtype’. Freezinginjury was determined graphically as the temperature that caused50% injury (T₅₀) from electrical conductivity. Endogenous ABAwas measured using an indirect enzyme-linked immunosorbant assay,and novel proteins were detected using 2-dimensional polyacrylamidegel electrophoresis. The maximum decrease in T₅₀ for root tissuewas 1C for all genotypes, regardless of treatment. For ‘Alaska’shoot tips and epicotyl tissue, exogenous ABA increased thefreezing tolerance by –1.5 to –4.0C, while coldtreatment increased the freezing tolerance by –7.5 to–14.8C. Cold treatment increased the freezing toleranceof shoot tips by –9 and –15C for ‘wil’and ‘wild-type’, respectively. Cold acclimationincreased endogenous ABA concentrations in ‘Alaska’shoot tips and epicotyls 3- to 4-fold. Immunogold labeling increasednoticeably in the nucleus and cytoplasm of the epicotyl after7 d at 2C and was greatest after 30 d at the time of maximumfreezing tolerance and soluble ABA concentration. Cold treatmentinduced the production of seven, three, and two proteins inshoot, epicotyl, and root tissue of ‘Alaska’, respectively.In ‘Alaska’ shoot tissue, five out of seven novelproteins accumulated in response to both ABA and cold treatment.However, only a 24 kDa protein was produced in ‘wil’and ‘wild-type’ shoot and epicotyl tissues aftercold treatment. Abscisic acid and cold treatment additivelyincreased the freezing tolerance of pea epicotyl and shoot tissuesthrough apparently independent mechanisms that both resultedin the production of a 24 kDa protein. Key words: Pisum sativum, cold acclimation, immuno-localization     

Determinate Floral Buds of Plantain (Musa AAB) as a Site of Adventitious Shoot Formation

Floral buds of the ‘False Horn’ plantain clonesMusa (AAB) ‘Harton Verde’, ‘Harton Negra’,and ‘Currare’ terminate in a large single floralstructure. The apices of these floral buds are here designatedas determinate since they have lost the ability to produce additionalfloral initials or buds. Terminal peduncle segments can be culturedin a modified Murashige and Skoog (1962) medium supplementedwith N⁶-benzyl-aminopurine (5 mg I^–1). Under these conditions,this apparent inability to yield buds can be overcome as vegetativeshoot clusters form in the axils of the bracts. Rooted plantletsare obtainable by treating shoots with naphthaleneacetic acid(1 mg I^–1) and activated charcoal (0.025%). The adventitiousorigin of the shoots has been established. Musa cultivars, plantains, floral bud, adventitious buds, tissue culture     

Freezing tolerance, protein composition, and abscisic acid localization and content of pea epicotyl, shoot, and root tissue 3

The freezing tolerance of many plants, such as pea (Pisum sativum),is increased by exposure to low temperature or abscisic acidtreatment, although the physiological basis of this phenomenonis poorly understood. The freezing tolerance of pea shoot tips,root tips, and epicotyl tissue was tested after cold acclimationat 2C, dehydration/rehydration, applications of 10^–4M abscisic acid (ABA), and deacclimation at 25C. Tests wereconducted using the cultivar ‘Alaska’, an ABA-deficientmutant ‘wil’, and its ‘wildtype’. Freezinginjury was determined graphically as the temperature that caused50% injury (T₅₀) from electrical conductivity. Endogenous ABAwas measured using an indirect enzyme-linked immunosorbant assay,and novel proteins were detected using 2-dimensional polyacrylamidegel electrophoresis. The maximum decrease in T₅₀ for root tissuewas 1C for all genotypes, regardless of treatment. For ‘Alaska’shoot tips and epicotyl tissue, exogenous ABA increased thefreezing tolerance by –1.5 to –4.0C, while coldtreatment increased the freezing tolerance by –7.5 to–14.8C. Cold treatment increased the freezing toleranceof shoot tips by –9 and –15C for ‘wil’and ‘wild-type’, respectively. Cold acclimationincreased endogenous ABA concentrations in ‘Alaska’shoot tips and epicotyls 3- to 4-fold. Immunogold labeling increasednoticeably in the nucleus and cytoplasm of the epicotyl after7 d at 2C and was greatest after 30 d at the time of maximumfreezing tolerance and soluble ABA concentration. Cold treatmentinduced the production of seven, three, and two proteins inshoot, epicotyl, and root tissue of ‘Alaska’, respectively.In ‘Alaska’ shoot tissue, five out of seven novelproteins accumulated in response to both ABA and cold treatment.However, only a 24 kDa protein was produced in ‘wil’and ‘wild-type’ shoot and epicotyl tissues aftercold treatment. Abscisic acid and cold treatment additivelyincreased the freezing tolerance of pea epicotyl and shoot tissuesthrough apparently independent mechanisms that both resultedin the production of a 24 kDa protein. Key words: Pisum sativum, cold acclimation, immuno-localization     

Effects of Soil Temperature on the Growth and Hormone Content of Dactylis glomerata L. (Cocksfoot) in Controlled Environments

A comparison was made of effects of ‘low’ and ‘high’soil temperature (LST and HST, about 9 and 21·5 °Crespectively) on shoot growth of Norwegian and Portuguese populationsof Dactylis glomerata. In experiments lasting 8 short days (SD,8 h photoperiods) LST decreased leaf extension more markedlyin the Portuguese population. No differential effect of LSTon leaf growth was recorded in experiments lasting 20 or 21SD or in experiments of 8 d duration in long days (LD, 16 hphotoperiods). Since the meristem and region of cell extensionis close to the soil surface LST could directly influence bothroot and shoot growth. The application of gibberellic acid enhanced leaf extension,particularly in plants grown at HST. 6-Benzylaminopurine tendedto decrease leaf length. Extractable gibberellin levels wererelatively low after 8 SD in shoots of both races grown at LST.Cytokinin levels increased at LST, more so in shoots of Portugueseplants which sustained the greater reduction in leaf extension. The data suggest that LST may reduce the production of endogenousgibberellins important for leaf growth in Dactylis glomerata.Cytokinins are probably necessary for growth processes but theirlevel may reflect, rather than direct, the rate of leaf growth.     

Influence of Different Carbon Sources on Invertase Activity and Growth of Sour Cherry (Prunus cerasus L.) Shoot Cultures

The influence of different sugars on shoot multiplication invitro and on the activity of invertase was studied with sourcherry (Prunus cerasus L.) cultures. The sugars sucrose, glucoseand fructose, and the sugar alcohol sorbitol, were investigatedat a wide range of concentrations. The optimum concentrationsof all carbon sources were 2% and 3% (w/v). Sucrose and glucosefavoured a similar rate of proliferation. However, in the presenceof fructose, proliferation was lowest but was coupled with thehighest frequency of formation of long shoots. The highest activityof total invertase was for tissues growing on a sucrose-containingmedium while, in a sugar-free medium, invertase activity wasmainly found in the ‘salt extracted’ fraction. Inthe remaining treatments, ‘soluble invertase’ dominated.For each sugar investigated, the activity of both forms of invertasewas significantly higher at 2% than at 3% (w/v) sugar. Key words: Tissue culture, sugars, invertase, shoot multiplication, sour cherry     

Effect of Culture Origin and Conditions on Duvatrienediol Accumulation in Shoot Cultures of Tobacco

A comparison of morphology, trichome type and duvane accumulationof tobacco shoot cultures originating from seedlings, callusand cell suspension cultures incubated on a range of cytokininconcentrations is presented. A method for the extraction andHPLC analysis of duvatrienediols from cultures is described.Duvatrienediols (DVTs) were not detected in callus or cell suspensioncultures and were only detected in seedling-denved shoot cultures.Shoot development was dependent on explant type probably asa result of pre-exposure of callus and suspension cells to highauxin concentrations. Low cytokinin levels promoted shoot developmentwhilst high cytokinin levels increased the number of shootsregenerated but retarded their development. DVT accumulationoccurred only in ‘normally’ developed shoots withtrichomes. Growth of shoot cultures in liquid medium was inhibitoryto the accumulation of DVTs. Optimum conditions for the accumulationof DVTs were shown to be incubation of seedling-derived shootcultures on media containing 10^–6 M BAP solidified withagar. The yield was 120 µg g^–1 fr. wt. which iscomparable to greenhouse-grown material. Both and ß-DVTwere detected in a ratio of 5: 1. The relationship between tnchomesand DVT accumulation is discussed with reference to the rolesof culture origin, cytokinin, trichome type and environmentaleffects. Key words: Tobacco, duvatrienediol, trichome, shoot culture     

Manipulation of Grain Dormancy in Wheat

To help in understanding the mechanisms of dormancy in wheat(Triticum aestivum L.), brief drying of intact ears has beenexamined as a technique for rapid imposition of dormancy. Beforenatural grain desiccation at 40 d post anthesis (dpa), wholeplants were moved for 15 to 20 d to ‘wet’, humidconditions (90–100% RH) or to ‘dry’ conditions(35–40% RH). The duration of subsequent dormancy was atleast doubled by the ‘dry’ treatment, however, onlyif the grain was allowed to dry before 50 dpa. In the ‘wet’ears there was a low level (up to 22%) in-ear germination by55 dpa and the remaining, non-sprouted grain no longer becamedormant on drying. Brief (4 d) drying episodes could also preventsprouting and induce some dormancy, but only over a 4 to 10d window of sensitivity before 50 dpa. Grain drying when properlytimed not only arrests development but, perhaps through damagingeffects of drying, causes dormancy. Dormancy imposition wasnot related to embryo abscisic acid (ABA) or sucrose content. Key words: Abscisic acid, desiccation, dormancy, in-ear sprouting, wheat     

Developmental Genetics and Morphological Evolution of Flowering Plants, Especially Bladderworts (Utricularia): Fuzzy Arberian Morphology Complements Classical Morphology

This review compares new developmental models on flowering andother vascular plants with evolutionary hypotheses formulatedby Agnes Arber (1879–1960) and like-minded botanists.Special emphasis is laid on philosophical basics such as perspectivism,pluralism about evolutionary modelling, continuum way of thinking,and fuzzy logic. Arber's perspective is best labelled as F uzzyA rberian M orphology (FAM Approach). Its proponents (‘FAMmers’)treat structural categories (e.g. ‘roots’, ‘shoots’,‘stems’, ‘leaves’, ‘stipules’)in vascular plants as concepts with fuzzy borderlines allowingintermediates (including transitional forms, developmental mosaics).The FAM Approach complements Cla ssical Plant M orphology (ClaMApproach), which is the traditional approach in botany. ClaMproponents (‘ClaMmers’) postulate that the structuralcategories of vascular plants are regarded as concepts withclear-cut borderlines and without intermediates. However, duringthe evolution of vascular plants, the root-shoot distinctionand the stem-leaf distinction have become blurred several timesdue to developmental changes, resulting in organs with uniquecombinations of features. This happened, for example, in thebladderworts (Utricularia, Lentibulariaceae). When focusingon the ‘leaf’, the FAM Approach is identical toArber's ‘partial-shoot theory of the leaf’ and Sinha's‘leaf shoot continuum model’. A compound leaf canrepeat the developmental pathway of the whole shoot, at leastto some degree. For example, compound leaves of Chisocheton(Meliaceae)with indeterminate apical growth and three-dimensional branchingmay be seen as developmental mosaics sharing some growth processeswith whole shoots! We focus here on the FAM Approach becausethis perspective is especially promising for developmental geneticistsstudying flowering and other vascular plants. Copyright 2001Annals of Botany Company Review, body plan, developmental mosaics, leaf development, history of botany, homeosis, homeotic genes, Lentibulariaceae, morphological evolution, process morphology, stipules, Utricularia, flowering plants     

Ageing in Woody Plants

The shoot systems of trees undergo characteristic changes withtime, as they increase in size and complexity. Certain of thesechanges, such as reduced annual growth increment, loss of apicaldominance, and changes in the geotropic responses, are easilyreversible, by pruning or by grafting shoots from older treeson to young stocks. These changes are referred to as ‘ageing’. This paper describes the changes occurring in Pinus sylvestrisand Larix leptolepis during ageing and reports an investigationinto the possible mechanisms controlling these changes. Pruningexperiments suggest that ageing is due to increased competitionfor nutrients between the various constituent shoots as thebranch systems increase in complexity, but the distributionof available nutrients is modified by apical dominance. Theseconclusions were supported by the results of experiments involvingthe injection of radioactive phosphorus (²²P), in associationwith the pruning treatments.     

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.     

Narrow-leafed Lupins with Restricted Branching

Crop phenology is one of the most important characters influencingproductivity in a given environment. Narrow-leafed lupin (Lupinusangustifolius L.) is a major grain legume crop in southern Australiawith general phenological adaptation to this Mediterranean-typeenvironment. However, it is an indeterminate crop with severalassociated limitations to productivity, such as overlappingvegetative and reproductive growth, late grain filling and sometimesexcessive vegetative growth. Here we studied two novel typesof narrow-leafed lupin with restricted branching, which mightbe useful for overcoming these problems. These restricted branchinglupins arose spontaneously within a breeding population, inthe case of ‘Tallerack’, and within a farmer's cropin the case of ‘ Hurst’ and we compared them withthe ‘Merrit’, which is widely grown and has thenormal indeterminate branching habit. The morphology and developmentof the main shoot of these genotypes were similar. However,‘Hurst’ had much larger leaves. There were alsostriking differences in the lateral branches of the restrictedbranching types; they had fewer leaves than ‘Merrit’and flowered earlier. These differences were most marked in‘ Hurst’, where the upper main stem branches werereduced to a single floret in the axil of main stem leaves,and these flowers often exhibited abnormal morphology. Copyright2000 Annals of Botany Company Lupinus angustifolius L., narrow-leafed lupin, adaptation, development, morphology, branching, leaves, mutant, plastochron, phyllochron, floral initiation, flowering.     

In vitro Shoot and Root Formation in the Apple Cultivar Akero

Regulation of in vitro shoot and root formation and the histologicalorigin of newly formed shoots was studied in the apple cultivarÅkerö. Both composition of mineral elements and benzylaminopurine(BAP) concentration affected shoot multiplication. Similar numbersof shoots were obtained with Lepoivre and MS medium after twosucceeding subcultures, but Murashige and Skoog medium was preferabledue to production of longer shoots. The optimum BAP concentrationwax around 8.8 µM. Higher concentrations caused vitrifiedshoots. The rooting ability increased with numbers of subcultures.Also the concentration of indol-3-yl butyric acid (IBA) affectedrooting. A strong interaction between numbers of subculturesand IBA concentration was obtained. After insufficient numbersof subcultures, when shoots were still difficult to root, increasingIBA concentration exerted little effect on rooting. When shootshad reached an ‘easy-to-root condition’ root initiationdepended on IBA concentration, showing an optimum at 2.5 µM.Supraoptimal IBA concentrations delayed root initiation. Dark treatment of shoots during the root-initiation phase increasedrooting ability. The most positive effect was obtained at suboptimalIBA concentrations. Anatomical studies revealed both axillaryand adventitious shoots. Two kinds of adventitious structureswere demonstrated. Malus domestica Borkh. apple cultivar Åkerö, in vitro propagation, anatomy, origin of shoots     

Accumulation of Cytokinin-Induced Betacyanin in Specific Cells of Amaranthus tricolor Seedlings

The accumulation of betacyanin, in dark-grown Amaranthus tricolorseedlings, in response to cytokinins or red light, occurs mainlyin two specific tissues, the lower epidermal cells of the cotyledons(with the exception of guard cells), and the endodermis of thehypocotyl. The possible significance of this ‘spatialpattern of competence’ is discussed, together with theconcept of target cells in relation to plant hormones. The effect of removing exogenously supplied cytokinin at varioustimes during a 24 h induction period is reported. There is noevidence that cytokinins act by a ‘triggering’ effectwith a long half life, the response in the target cells beingthe same as that expected from the amount of cytokinin and cytokininmetabolite remaining in the tissue at the time of extraction.Either continuous presence of cytokinin is needed or any triggeraction is short lived, and continuous ‘re-triggering’is needed to achieve maximum response. Key words: Amaranthus tricolor, Betacyanin synthesis, Cytokinin action, Target cells     

Morphology and Anatomy of Stems and Pedicels of Spring Flush Shoots Associated with Citrus Fruit Set

Flowering and vegetative shoots of ‘Shamouti’ orange[Citrus sinensis (L.) Osbeck] and ‘Marsh’ seedlessgrapefruit (Citrus paradisi Macf.) were examined for correlationof their morphology and anatomy with fruit set. Fruit set isfavoured on leafy inflorescences whereas abortion is nearlycomplete on leafless inflorescences. Leafless inflorescencesof ‘Shamouti’ with one flower were found to havea very thin stem which contained few vascular bundles, whereasthose with three flowers had better-developed vascular systems.The vascular system of leafy inflorescences is significantlydifferent from that of leafless ones and contains a distinctcentral xylem cylinder. The vascular area of leafless inflorescencesis only about one-quarter of that of the leafy ones. The vascularsystem of grapefruit resembles that of the ‘Shamouti’orange. This study emphasizes the importance of the dimensionof the vascular system for fruit set and provides a possibleexplanation for the better fruit set on both leafy and leaflessinflorescences with several flowers compared with single-floweredinflorescences. Anatomy; citrus; fruit set; leafless inflorescence; leafy inflorescence; pedicel; vascular system; vegetative shoot     

Assimilate Uptake and Water Loss in Maturing Barley Grains

When detached ears of barley were supplied with [U-¹⁴C] sucrosefor 4 h, ¹⁴C was detected in the endosperms of grains from earsharvested 50 ‘days’ after anthesis, i.e. 10–15‘days’ after cell wall modifications had taken placein the chalazal region of the caryopsis. In 55-‘day’ears which had been supplied with [U-¹⁴C] sucrose for 20 h no¹⁴C was detected in the upper part of the rachis or in grainswith a moisture content of less than about 25%. In the rachisof wheat and barley, the walls of the xylem parenchyma and phloemcells stain strongly with ruthenium red, and in immature rachidesthis stainability is lost when sections are incubated with pectinase.Near the apex of 55-‘day’ ears the pectinaceouswall material in the vascular bundles is resistant to digestionby pectinase, and pectic substances, which are removed by pectinase,fill the lumina of the xylem elements. These observations arediscussed in relation to the dehydration of the maturing grain. Key words: Barley, ¹⁴C-sucrose, Pectic material, Xylem     

The Growth and Carbon Economy of Selection Lines of Lolium perenne cv. S23 with Differing Rates of Dark Respiration: 1. Grown as Simulated Swards During a Regrowth Period

Simulated swards of each of two selection lines of Lolium perennecv. S23 with ‘fast’ and ‘slow’ ratesof ‘mature tissue’ respiration were establishedin growth rooms at 20/15 °C day/night temperatures and studiedover four successive regrowth periods of 46, 30, 26 and 53 daysduration. The ‘slow’ line outyielded the ‘fast’,both in harvestable shoot (above a 5 cm cut) and in root andstubble. Its advantage increased over successive regrowth periodsto 23 per cent (total biomass). Gas analysis measurements onthe entire communities (including roots), during the final regrowthperiod, showed that the ‘slow’ line had a 22–34per cent lower rate of dark respiration per unit dry weight.This enabled it to maintain its greater mass of tissue for thesame cost in terms of CO₂ efflux per unit ground area. Halfthe extra dry weight produced by the ‘slow’ line,relative to the ‘fast’, could be attributed to itsmore economic use of carbon. The rest could be traced to a 25per cent greater tiller number which enabled the ‘slow’line to expand leaf area faster (though not at a greater rateper tiller), intercept more light and fix more carbon, earlyin the regrowth period. Lolium perenne L., ryegrass, respiration, maintenance respiration, tiller production, simulated swards, canopy photosynthesis, carbon economy