The Effect of Sucrose on Primordium Development and on Protein and RNA Levels in Detached Cotyledons of Sinapis alba L.

Cotyledons of Sinapis alba cultured in the light on filter-papermoistened with water initiated root primordia within 2 daysafter detachment. These increased in size and penetrated thebase of the petiole after a further 3 days. Culture in sucrosesolution in the light inhibited root formation mainly by affectingthe extension phase when many primordia regressed resultingin a decline in the numbers of primordia per petiole. When cotyledonswere cultured in the dark no primordia were initiated in water,but sucrose promoted root formation. Levels of RNA rose to a peak value in the terminal petiole segmentat a time when primordia were being initiated in this region,protein reached a peak 2 days later. This pattern was much lessevident in the subterminal segments. It did not occur at allin cotyledons cultured in sucrose in the light where a smallinitial increase in RNA and protein was followed by a rapiddecline. The level of RNA and protein in the terminal segmentin light-cultured cotyledons in water was related to the numberof light periods given following detachment as was the percentageof cotyledons which formed roots. The effect of sucrose on RNAand protein content was less marked when cotyledons were transferredfrom sucrose to water instead of being maintained in sucrosethroughout. Sucrose clearly modifies the biochemical and structural changestaking place at the petiole base having particularly inhibitoryeffects on the extension phase of the primordia. The evidenceindicates that sucrose could be causing premature ageing ofcells forming the primordia.     

The Influence of Temperature on Root Hair Infection of Trifolium parviflorum and T. glomeratum by Root Nodule Bacteria: I. THE EFFECTS OF CONSTANT ROOT TEMPERATURE ON INFECTION AND RELATED ASPECTS OF PLANT DEVELOPMENT

The onset and rate of infection in root hairs of T. parviflorumand T. glomeratum inoculated with Rhizobium trifolli strain5 varied much with root temperature. At moderate root temperature(18, 24, and 30 °C) infections were initiated earlier andin larger numbers than at low (6 and 12 °C) or moderatelyhigh (36 °C) temperatures. Both species showed a broad temperatureoptimum between 18 and 30 °C. The site of thread initiation(apically or laterally in a hair) was independent of temperature,as was also the proportion of successful threads penetratingthe root cortex, which increased with seedling age. Threadsgrew more slowly at low temperatures. The size of hair nucleinear infection threads remained unaffected by temperature, butnuclei associated with laterally originating threads were largerthan those associated with apical threads. Infection was non-randomly distributed along the main root atall temperatures. More zones of infection were found at moderatetemperatures than at temperature extremes (6–12 or 36°C). Probit plots of numbers of infections for individualplants were steplike, the linear sloping parts correspondingto normal distributions of infection within zones. Between 18 and 30 °C numbers of infections increased exponentiallyin two phases, the first more rapid phase ending at about thetime nodules appeared. A model devised for the infection processand fitted to the data suggested the existence of two kindsof infections: primary ones occuring randomly at a slow rateand probably not affected by temperature and secondary infectionsthat appeared to increase with rising temperatures in the range12 to 30 °C. Nodule numbers were relatively more sensitive to high and lowtemperatures than infection. The numbers of infections and nodulesand the root lengths of T. parviflorum were twice those of T.glomeratum except at the temperature extremes. Numbers of infectionswere otherwise unrelated to root length or cotyledon or leafareas. The development of lateral organs (primordia, lateralroots, and nodules) was reduced at temperatures below 18 °Cand above 30 °C.     

The Control of Root Initiation and Development in Detached Cotyledons of Sinapis alba L. and Raphanus sativus L.

The initiation and development of root primordia in detachedcotyledons of Sinapis alba (white mustard) and Raphanus sativus(radish) are studied, together with the inhibitory effects ofsucrose and mineral nutrients on these processes. Root primordium initiation on petioles of excised mustard cotyledonscultured in petridishes in water commenced after 3 days andwas completed after 5 days in culture, by which time a numberof the primordia had extended and emerged from the petiole.Both sucrose and mineral nutrient solution had an inhibitoryeffect which was most marked when the cotyledonswere culturedin the solution from the time of excision. The total numberof primordia initiated, their rate of development, and the finaltotal number of emerged roots were all reduced. The later thetime of transfer from water either to sucrose or to nutrient,the less marked the inhibition. Indeed, nutrient solution enhancedroot growth in mustard when cotyledons were transferred after5 days in water when root emergence had just commenced. The effects of sucrose and nutrients in relation to applicationbefore and after initial meristem formation has taken placeare discussed, together with the ways in which these two solutionsmay exert their effect on root initiation and development.     

Effect of Temperature, Light, Nutrients and Dehardening on Abscisic Acid Induced Cold Hardiness in Bromus inermis Leyss Suspension Cultured Cells

The effects of culture conditions on abscisic acid (ABA)-inducedfreezing tolerance were determined in smooth bromegrass Bromusinermis Leyss cv. Manchar) cell suspension cultures. Bromegrasscultures initiated with 2 g fr wt of cells achieved maximumfreezing tolerances (greater than –32?C) at 25 to 30?Cin the presence of 75 to 100 µM ABA. High levels of freezingtolerance induced by ABA were correlated with high growth ratesat 25 and 30?C. In control cells, incubation at 10?C inducedoptimum levels of hardiness with minimal growth. Prolonged exposure(6 weeks) of cells to 3?C, with or without ABA, increased freezingtolerance only by several degrees. Exogenous ABA concentrationsgreater than 100 µM were not inhibitory to growth. Repeatedexposure to ABA, however, retarded growth and made the cellstolerant to temperatures below –40?C. Removal of ABA fromthe medium resulted in dehardening of the cells both at 25 and3?C. Nitrogen had a marginal effect on ABA-induced hardeningat 25?C, but inhibited age-dependent hardening of control cellcultures. Light had no effect on the freezing tolerance of culturedcells. Addition of 10% sucrose, 30 min prior to freezing, tobromegrass cells treated with ABA for 4 days increased freezingtolerance more than 15?C. These observations are discussed inrelation to the contrasting behaviour of the low temperatureand photoperiod dependent cold acclimation of plants (Received July 14, 1989; Accepted October 23, 1989)     

Freezing Tolerance of Shoot and Flower Primordia of Coniferous Buds by Extraorgan Freezing

Shoot and flower primordia of vegetative and flower buds ofextremely or very hardy conifers belonging to the subfamilyAbietoideae of the Pinaceae, survived between –40 and–70?C by extraorgan freezing, which differed greatly dependingupon species. The water in these organs gradually froze outwith decreasing temperatures when cooled very slowly, whichenabled these organs to survive %40?C or below. The same icesegregation in shoot and flower primordia by extraorgan freezingwas observed in most of the temperate conifers belonging toTaxaceae, Cephalotaxaceae, Taxodiaceae and Cuppressaceae, makingthem resistant to temperatures between –15 and –25?C.In these conifers, scales acted as an ice sink, unlike the conifersof Abietoideae. The rates of cooling and exosmosis of waterin the shoot or flower primordia, their size, and their abilityto tolerate freeze-dehydration or its related stress play animportant role in determining whether death is caused by freeze-dehydrationor intraorgan freezing. Even in very hardy conifers, low temperature exotherms fromfreezing within the shoot primordia appeared between –30and –35?C on the DTA profiles when cooled continuouslyunder laboratory conditions from 5?C to –50?C at 2 to5?C/h. Appearance of low temperature exotherms always resultedin death. However, in the coldest area of Hokkaido, where theair temperature cools down to –40?C or below nearly everyyear, such an intraorgan freezing seems seldom to occur, especiallyin natural stands. On the other hand, low temperatures below–25?C seldom occur in warm-temperate climates. Thus, itmay be considered that in both boreal and temperate coniferstheir shoot and flower primordia seem to tolerate freeze dehydrationby extraorgan freezing under natural conditions. ¹ Contribution No. 2431 from the rnstitute of Low TemperatureScience. (Received March 27, 1982; Accepted August 12, 1982)     

Correlation between Long-Day Flowering and Root Elongation in Pharbitis nil, Sfrain Kidachi

Long-day flowering of Pharbitis nil, dwarf strain Kidachi, at20?C was greatly influenced by the size of the culture vesseland the number of plants per vessel. The smaller the vessel,the greater the flowering response. The volume of nutrient solutionper plant was not decisive for long-day flowering. For instance,plants cultured singly in 200-ml beakers flowered, but thosecultured in 5,000-ml vessels (33?26?11.5 cm, 48 plants per vessel)did not, even though there was only about 100 ml of nutrientsolution per plant. Long-day flowering was always accompaniedby the suppression of root elongation, but not by a decreasein the dry weight of roots or shoots, or in the rate at whichthe leaf primordia appeared (plastochrone). Aeration of thenutrient solution or culture in vermiculite promoted root elongationeven in small vessels, thereby inhibiting long-day flowering.Thus the suppression of root elongation seems to be necessaryfor long-day flowering. Removal of the roots or cotyledons;however, suppressed long-day flowering even when root elongationwas inhibited by culture in small vessels. When plants werecultured at 24?C, suppression of root elongation (culture ina small vessel) did not induce long-day flowering; but, short-daytreatment induced flowering without suppressing root elongation. (Received April 19, 1982; Accepted June 24, 1982)     

Histological Aspects of Root Formation in Petioles of Detached Leaves of Pereskia grandifolia (Cactaceae): Natural Conditions and Effects of GA3 and Dark

Adventitious roots arise naturally on petioles of Pereskia grandifoliaHaw. held in light. At about the 12th day after the beginningof the experiment, the root primordia arise in a callus tissuedeveloped from the basal portion of the petiole. Associatedwith the development of the callus, noticeable structural changesoccur in the originating organ. Petioles maintained in darkalso form callus; however, they die in a few days. On the otherhand, petioles treated with GA,, maintained in light, developcallus and survive; but they do not give rise to roots. Someaspects are discussed, such as: the kind of origin observedfor the roots, and the possible physiological basis for theirformation, as wdl as for the inhibition of their appearance Pereskia grandifolia, adventitious root formation, gibberelljc acid, petiole structure, rooting     

Auxin and Ethylene-stimulated Adventitious Rooting in Relation to Tissue 9

We have previously shown that both endogenous auxin and ethylenepromote adventitious root formation in the hypocotyls of derootedsunflower (Helianthus annuus) seedlings. Experiments here showedthat promotive effects on rooting of the ethylene precursor,1-aminocyclopropane-l-carboxylic acid (ACC) and the ethylene-releasingcompound, ethephon (2-chloro-ethylphosphonic acid), dependedon the existence of cotyledons and apical bud (major sourcesof auxin) or the presence of exogenously applied indole-3-aceticacid (IAA). Ethephon, ACC, aminoethoxyvinylglycine (an inhibitorof ethylene biosynthesis), and silver thiosulphate (STS, aninhibitor of ethylene action), applied for a length of timethat significantly influenced adventitious rooting, showed noinhibitory effect on the basipetal transport of [³H]IAA. Theseregulators also had no effect on the metabolism of [³H]IAA andendogenous IAA levels measured by gas chromatography-mass spectrometry.ACC enhanced the rooting response of hypocotyls to exogenousIAA and decreased the inhibition of rooting by IAA transportinhibitor, N-1-naphthylphthalamic acid (NPA). STS reduced therooting response of hypocotyls to exogenous IAA and increasedthe inhibition of rooting by NPA. Exogenous auxins promotedethylene production in the rooting zone of the hypocotyls. Decapitationof the cuttings or application of NPA to the hypocotyl belowthe cotyledons did not alter ethylene production in the rootingzone, but greatly reduced the number of root primordia. We concludethat auxin is a primary controller of adventitious root formationin sunflower hypocotyls, while the effect of ethylene is mediatedby auxin. Key words: Auxin, ethylene, adventitious rooting, sunflower     

Lateral Root Anlage Development in Excised Roots of Vicia faba L., Pisum sativum L., Zea mays L. and Phaseolus vulgaris L.

The development of lateral root primordia has been investigatedin excised roots of Vicia faba, Pisum sativum, Zea mays andPhaseolus vulgaris cultured in White's medium supplemented with2 per cent sucrose and compared with previously published dataon such development in primaries of the corresponding intactplants (control roots). Primordia were produced in each batchof excised roots over the 6 day culture period but at a lowerrate (number day^–1) than in the controls. Such primordia in cultured roots of Zea and Phaseolus completedtheir development and grew out as lateral roots over a periodsimilar in length to that found in the controls, but with acell number of only about 33 per cent of that attained at thetime of secondary emergence in the primaries of the latter roots.These lower cell numbers were at least partly a reflection ofincreases in mean cell doubling time over the period of anlagedevelopment investigated in the excised roots relative to thecorresponding values found in the controls. Primordia initiated in excised roots of Pisum and Vicia didnot complete their development in culture, i.e. no lateral rootsemerged and arrest took place with cell numbers of only 37 (Pisum)and 17 (Vicia) per cent of the numbers determined at the timeof secondary root emergence in the controls. Such arrested primordiahad few nuclei in S and none in mitosis. Moreover, at leastin Pisum, the frequency distribution of the relative DNA contentof the nuclei in the latter primordia approximated that foundin the apical meristem of primary roots following the establishmentof the stationary phase under conditions of carbohydrate starvation. It has also been demonstrated in the course of these investigationsthat lateral root primordium development in all four speciesis at least biphasic and possibly triphasic. Vicia faba L., broad bean, Pisum sativum L., garden pea, Zea mays L., maize, Phaseolus vulgaris L., dwarf bean, root primordia, anlage, cell doubling time, lateral root emergence     

Flower Development in Silene: Morphology and Sequence of Initiation of Primordia

The initiation and development of the flower of Silene coeli-rosawas followed by examining apices by scanning electron microscopy.The sepals, stamens and carpets are initiated in a spiral sequence,the direction of the spiral king the opposite of the acropetalhelix of unequal axillary buds at the nodes below the flower.The petals are initiated almost simultaneously and at the sametime as the first few stamens. The change in phyllotaxis fromopposite and decussate in the vegetative shoot to spiral inthe flower occurs with the displacement of the first two sepalsaway from the mid-line of the apex and towards the axillarybud at the node below the flower. The sizes of the sepals andstamens are a function of their age since initiation but thepetals grow more slowly. The Silene flower can be interpretedas a shoot bearing primordia with associated axillary primordia,some of the latter being precocious in their development. Silent weli-rosa, flower initiation, flower development, phyllotaxis, primordia     

Thermal and Water Relations of Roots of Desert Succulents

Two succulent perennials from the Sonoran Desert, Agave desertiEngelm. and Ferocactus acanthodes (Lem.) Britton and Rose, loselittle water through their roots during drought, yet respondrapidly to light rainfall. Their roots tend to be shallow, althoughabsent from the upper 20 mm or so of the soil. During 12–15d after a rainfall, new root production increased total rootlength by 47 per cent to 740 m for A. deserti and by 27 percent to 230 m for F. acanthodes; root dry weight then averagedonly 15 per cent of shoot dry weight. The annual carbon allocatedto dry weight of new roots required 11 per cent of shoot carbondioxide uptake for A. deserti and 19 per cent for F. acanthodes.Elongation of new roots was greatest near a soil temperatureof 30°C, and lethal temperature extremes (causing a 50 percent decrease in root parenchyma cells taking up stain) were56°C and -7°C. Soil temperatures annually exceeded themeasured tolerance to high temperature at depths less than 20mm, probably explaining the lack of roots in this zone. Attached roots immersed in solutions with osmotic potentialsabove -2·6 MPa could produce new lateral roots, with50 per cent of maximum elongation occurring near -1·4MPa for both species. Non-droughted roots lost water when immersedin solutions with osmotic potentials below -0·8 MPa,and root hydraulic conductance decreased markedly below about-1·2 MPa. Pressure-volume curves indicated that, fora given change in water potential, non-droughted roots lostthree to five times more water than droughted roots, non-droughtedleaves, or non-droughted stems. Hence, such roots, which couldbe produced in response to a rainfall, will lose the most tissuewater with the onset of drought, the resulting shrinkage beingaccompanied by reduced root hydraulic conductance, less contactwith drying soil, and less water loss from the plant to thesoil. Agave deserti, Ferocactus acanthodes, roots, soil, temperature, water stress, drought, Crassulacean acid metabolism, succulents     

Effects of Gibberellic Acid and Naphthaleneacetic Acid on Petiole Senescence and Subtended Peduncle Growth of Cyclamen persicum Mill

Removal of the blade from the leaf subtending the first flowerbud on Cyclamen persicum ‘Swan Lake’ plants causedthe petiole of that leaf to senesce, but had no effect on thegrowth of the flower peduncle in the debladed petiole's axil.A 10 mg NAA l^–1 application generally had no effect onpetiole senescence, peduncle elongation or flowering date whenapplied to the cut end of the petiole after blade removal. A25 mg GA₃ l^–1 application or a combination of 25 mg GA₃l^–1 application or a combination of 25 mg GA₃ l^–1plus 10 mg NAA l^–1 delayed petiole senescence and enhancedpeduncle elongation and subsequent flowering. No treatment significantlyaltered peduncle length at the time of flowering. Cyclamen persicum Mill, ‘Swan Lake’, tissue receptivity, flowering, GA₃, NAA     

The Role of Cotyledons in Flower Initiation of Pharbitis nil at Low Temperatures

Seedlings of Pharbitis nil, Strains Violet, Tendan and Kidachi,initiated floral buds under Continuous light when exposed totemperatures lower than 15, 15 and 21?C, respectively, throughoutthe experimental period, or to 13–14?C for a minimum durationof 10, 8 and 4 days, respectively. Cotyledons were necessaryfor floral initiation when the seedlings at the start of coldtreatment were 8 days old (10 days old for Kidachi) or younger,although neither cotyledons nor foliage leaves were necessarywhen the plants were older. When the cotyledons in young seedlingswere removed immediately after exposure to cold temperature(13–14?C) for 14 (Violet), 12 (Tendan) or 8 (Kidachi)days (cold treatment begun when the cotyledons had just unfolded),only a few plants initiated floral buds under continuous light.However, when the cotyledons were left attached for 2 more daysat 23?C, the plants produced as many flower buds as those withintact cotyledons, suggesting that cotyledons exposed to coldtemperature produce a floral stimulus which can be translocatedto buds even after the end of the cold treatment. (Received October 14, 1981; Accepted January 20, 1982)     

Further Studies on Heterophylly in Callitriche intermedia: Leaf Development and Experimental Induction of Ovate Leaves

The forms of successive primordia in the development of linearand ovate leaves are described and discussed in relation toprimordia in crowns where a transition is occurring betweenovate leaves and linear leaves. Ovate leaves are induced onsubmerged axes, originally bearing linear leaves, by submergingthese axes in 30 per cent. sea water. The results are discussedin relation to possible interpretations of heterophylly in C.intermedia.     

Use of the Weibull Function to Calculate Cardinal Temperatures in Faba Bean

The onset of germination of faba bean seeds at constant temperaturewas progressively delayed as that temperature diverged froman optimum of 25.5 ?C. At temperatures below 10 ?C, or above28 ?C, the maximum germination percentage fell to below 90%.There was no germination at 39 ?C. Positive and negative linearrelationships were established between the constant temperaturesand the rates of progress of germination to different percentiles,at sub-optimal and supra-optimal temperatures, respectively.Like germination rates, base temperature (T_b) declined from3.71 to –0.83 ?C as the percentile value increased from10% to 80%. Caution was urged in extrapolating beyond the experimentaldata set. Differences in the ceiling temperature (T_c) with percentilecould not be discerned. Cumulative germination progress curves at each temperature weremodelled by the Weibull, logistic, and cumulative normal distributionfunctions. Cardinal temperatures (T_b and T_c) calculated fromthese data reasonably approximated the actual data. The Weibullfunction demonstrated a good approximation at all percentilelevels, while the logistic and cumulative normal distributionfunctions, as a result of their inherent symmetry, deviatedat the extreme percentiles. It was concluded that the Weibullfunction not only accurately modelled cumulative germinationbut could also be used in the calculation of cardinal temperatures. Key words: Seed germination rate, cardinal temperatures, faba bean, Weibull function, probit and logic scales     

Effect of High Temperature on the Development of Cyanide-Sensitive Respiration in the Germination Process of Spinach Seeds

Germination of spinach (Spinacia oleracea L. var. grabra cv.Nobel) seeds was inhibited at a high temperature (35?C). Effectsof KCN on the respiration of seeds incubated at 20 and 35?Cwere compared in order to investigate the mechanism of inhibitionof seed germination by high temperature. Respiration of germinatingseeds incubated at 20?C was inhibited about 50% by 5 mM. KCNsolution, whereas it hardly inhibited the weak respiration ofthe seeds at 35?C. Germination of seeds was delayed by exogenousKCN. When the KCN solution was renewed daily, germination wascompletely inhibited. Pericarp removal promoted germinationat 35?C, but atypical germination (cotyledons emerging earlierthan a radicle) took up more than half of the total germination.The inhibitory action of KCN on the respiration of seeds wasnot altered by pericarp removal. A KCN addition, even at 20?C,elicited atypical germination in the pericarp-less seeds. Theseresults show that cyanide-sensitive respiration is needed toinduce typical spinach seed germination (root emergence), butis rendered inoperative by high temperatures thus bringing aboutpoor germination and atypical germination. (Received December 1, 1984; Accepted February 8, 1985)     

Requirement of cotyledons for gibberellic acid-induced hypocotyl elongation in lettuce seedlings. Isolation of the cotyledon factor active in enhancing the effect of gibberellic acid

The role of cotyledons in hypocotyl elongation caused by gibberellicacid was studied using young seedlings of lettuce, Lactuca saliva,var. ‘Grand Rapids’. Removal of cotyledons fromintact seedlings resulted in a depression of hypocotyl elongationcaused by gibberellic acid. Gibberellic acid-induced hypocotylelongation in decotylized seedlings, was however, substantiallyenhanced by incubating the seedlings together with excised cotyledons.The exudate from excised cotyledons also enhanced the effectof gibberellic acid on hypocotyl elongation in decotylized seedlings.This active principle (named the cotyledon factor) in the cotyledonexudate was stable against heating at 100?C for 15 min, permeatedthe dialysis membrane, and was extractable with ethyl acetate.Biological activity of the cotyledon factor was not replacedby indole-3-acetic acid, kinetin, cyclic AMP, vitamins, sucroseor inorganic nutrients. The biological significance of the cotyledonfactor is discussed in relation to the action of gibberellicacid. (Received February 14, 1973; )     

Some Effects of Daylength, Temperature and Exogenous Growth Regulator Application on the Growth of Actinidia chinensis Planch

The growth responses of Actinidia chinensis raised from cuttingswere compared in 8 h short days (SD) and 16 h long days (LD)at 15, 20 and 25 °C, as well as under varying day and nighttemperatures The data obtained reveal effects on stem elongation,apparent plastochrons, leaf area and shape, as well as dry matteraccumulation and water contents of different plant parts Theseinvestigations were supplemented by studies on the effects ofapplied GA₃ and ethephon Alternating day/night temperatures(thermoperiodicity) increased leaf area and d wt accumulationin LD Effects on sugar and starch contents, are described anddiscussed Unexpected effects such as very high petiole watercontents and their continuous growth, increased twisting ofthe climbing stem in SD and other findings are also reportedand discussed Actinidia chinensis, Kiwi fruit, gibberellic acid, ethephon, temperature, photoperiod, themoperiodicity     

Physiological Ecology of Riverside Species: Adaptive Responses of Plants to Submergence

In river floodplains, variation in flooding conditions resultsin successional stages in colonization ranging from annual pioneersto long-lived perennials. Reactions to submergence of speciesfrom the mid-successional zone are compared with adaptive responsesof species from other zones. Presence and abundance are relatedto elevation and can be explained by characteristics of biomassproduction, and recovery in response to various submergenceintensities. Rumex species, from early to late successional stages, serveas models to elucidate, in more detail, mechanisms of adaptation.Flooding-resistant species develop large numbers of adventitiousroots upon submergence and exposure to low oxygen conditions.Due to internal oxygen transport through aerenchyma, soil aroundthese roots is reoxidized, which stimulates bacterial nitrification.Ethylene and auxin promote adventitious rooting. Increased petioleelongation is also an adaptive feature of submergence-resistantRumex species. Differences between species in submergence-inducedgrowth are not only controlled by variation in endogenous levelsof ethylene but also by different sensitivities to this hormone.Auxin does not affect Rumex petiole elongation, but a clearpositive effect of gibberellin is demonstrated. Apparently,submergence induces a higher sensitivity to gibberellin andethylene in the petioles of flooding-resistant Rumex. Many ofthe submergence reactions can also be induced by restrictingthe oxygen supply, suggesting that low-oxygen might be a triggeringfactor. The Rumex species we study represent various distinctcommunities. Thus, the ecophysiological phenomena observed inthese model plants may explain processes and patterns in otherspecies too and thus are interpretable at the riverside communitylevel.Copyright 1994, 1999 Academic Press Ecophysiology, submergence, flooding, hormones, adaptation, nitrification, depth accommodation, adventitious rooting, Rumex     

The Initiation and Growth of Axillary Bud Primordia in Relation to Flowering in Trifolium repens L.

The initiation and growth of axillary bud primordia in relationto the growth of their subtending leaves was observed at theapices of three clones (A. B. and C) of white clover grown invarious combinations of photoperiod and temperature. ClonesA, B, and C flower in response to low temperatures, and clonesA and C, but not B, in response to a transfer from short tolong photoperiods at higher temperatures. The rate of growth of buds and leaves from node to node waslittle influenced by the various treatments imposed, but theinitiation of axillary bud primordia relative to the apicaldome was stimulated in conditions conducive to flowering. The number of budless leaf primordia at the apex ranged froma maximum average of 2.25 at 20° C. to approximately o.8oat 10° C. in all three clones. At the higher temperatures,runners possessed 2.06 budless nodes in short days but only1.12 in long days in clones A and C. In clone B, daylength didnot influence bud initiation at the higher temperature. The results provide evidence of the homology between vegetativeand repro-ductive axillary bud primordia. It is suggested thatflowering is brought about by the removal of an inhibition withinthe apex which leads to the precocious initiation of axillarybud primordia. Following the initiation of axillary bud primordia, the resultsshow their growth to be uninhibited for 6-7 plastochrons. Rapidinflorescence development occurs during this phase. Apical dominancehas no apparent influence on vegetative axillary buds untilthe onset of rapid petiole elongation in their subtending leaves.