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The response to different combinations of daylength (14, 15and 16 h) and day/night temperature (20/10°C, 30/15°C)of four white clover (Trifolium repens) varieties in terms offloral initiation and development was studied. More plants flowered under long days (16 h) at 30°C thanin any other combination. Varietal differences in response todaylength were large but temperature was the factor controllinginitiation. Daylength was more important in regulating peduncle length,floret and ovule numbers than was temperature. The amount ofnectar produced was lowest at the higher temperature althoughnectar concentration was unaffected by temperature. Nectar concentrationwas lowest in the shortest daylength (14 h). White clover, floral initiation, temperature, daylength 相似文献
3.
Phosphate Uptake and Transport by Roots and Stolons of Intact White Clover (Trifolium repens L.) 总被引:1,自引:0,他引:1
The extent to which phosphate can be absorbed directly fromthe outer medium by stolon internodes and contribute to thetotal accumulation of phosphate by intact plants of white clover(Trifolium repens L. cv. Blanca) was assessed in hydroponicexperiments in a controlled environment room. The uptake ofphosphate by intact roots or stolons was measured by sealinga segment (6-0 mm long) across a flow-cell in which 32P-labellednutrient solution was circulated for 24 h, the rest of the rootsystem receiving unlabelled nutrient solution. The rate of uptakeof phosphate (µmol g1 d1 dry wt. basis)by roots was more than 300 times that by intact stolons. Pretreatmentof stolons by gentle abrasion to remove cuticle, so as to simulatethe condition of stolons in the field, increased the uptakeof phosphate 7-fold compared with that of intact stolons. However,the potential of stolons to contribute to the P status of whitedover in the field was calculated to be small (5%). When an incision was made through the hypodermal layer of stolons,the rate of phosphate uptake greatly increased, attaining 71%of that by root segments. This increase, which was greater athigher phosphate concentrations, indicates that the suberi.zedhypodermis constitutes a major barrier to the influx of phosphatein the stolon. After withholding phosphate for different time intervals, thesubsequent rate of phosphate uptake by roots was increased 2-3-foldafter 2 d phosphate deprivation and 3-4-fold after 6 d or 13d phosphate deprivation. A higher proportion of absorbed phosphatewas transported to shoots in phosphate-deprived plants. After1 d of uptake following restoration of the phosphate supply,the concentrations of labelled phosphate in shoots were greaterthan in control plants, although the concentrations of labelin roots was less. However, the rate of uptake of phosphateby stolons, following deprivation, was not significantly increased.These results suggest that the mechanism regulating the enhancedrate of phosphate loading into the xylem, initiated by a periodof phosphate deprivation, is specific to roots and is not inducedin stolons. The results are discussed in relation to the growth and acquisitionof phosphate by white clover in the field. Key words: Nutrient deficiency, phosphate, stolons, transport (ions), Trifolium repens 相似文献
4.
3D Architectural Modelling of Aerial Photomorphogenesis in White Clover (Trifolium repens L.) using L-systems 总被引:1,自引:0,他引:1
The objective of this work was to construct a model of aerialdevelopment of clover that takes into account morphogeneticresponses to the light environment, and to use it to analyseand understand these processes in terms of signal perceptionand integration. The plant model was interfaced with a MonteCarlo model that determines photosynthetically active radiation(PAR) and red/far-red ratio (R/FR) throughout the canopy, takinginto account the absorption, reflection and transmission oflight by individual leaves. Light intensity and quality weresensed by the plant model at discrete time intervals and atdiscrete sites of perception: apices, emerging internodes andpetiole tips. This input regulated the final size of internodesand leaves, the vertical positioning of leaves, and the branchingdelay. The empirical relations (regression functions) quantifyingthis regulation were derived from data reported in the literatureand original measurements. Simulations produced realistic visualizationsand quantitative characterizations of the modelled plants fordifferent light treatments. These results were in general agreementwith observations of real plants growing under similar conditions,suggesting that the dependence of organ size and position onlight treatments can be regarded as an integration of the responsesof individual plant organs to their local light environment.The model is used to describe the regulation of branch appearanceand the impact of self-shading on plant morphogenesis as a functionof local light environment. Copyright 2000 Annals of BotanyCompany Clover, Trifolium repens L, photomorphogenesis, plant architecture, L-system, modelling, Monte-Carlo method, competition for light, red : far-red ratio, irradiance, light quality, leaf size, self-shading 相似文献
5.
Assessing the Geometric Structure of a White Clover (Trifolium repens L.) Canopy using3-D Digitising 总被引:1,自引:0,他引:1
A method was developed for assessing the three dimensional (3-D)geometric structure of white clover canopies. 3-D co-ordinatesof pre-defined points on leaves, petioles and stolons were measuredusing a Polhemus Fastrak electromagnetic 3-D digitiser. Digitisingprogressed downwards from the top of the canopy and plant partswere removed after they have been digitised. Leaflets were treatedas four quarter-ellipses, and petiole and stolons were treatedas cylinders. Leaf dimensions and areas calculated from 3-Dco-ordinates were within about 5% and 20% of direct measurementsmade with a ruler and a planimeter, respectively. Special softwareand freeware POV-Ray were used to reconstruct a virtual canopyfrom digitiser records and to calculate canopy characteristicssuch as leaf area index (LAI), petiole intersection area, andprofiles of leaflet areas and inclinations with height. It tookbetween 3 and 7 h to digitise 10 x 10 cm stands of clover andthe resulting information was considerably more comprehensiveand accurate than could have been obtained by the alternativepoint quadrat or stratified clippingmethods.Copyright 2000 Annals of Botany Company White clover, Trifolium repens, geometric structure, leaf area, leaf angle, 3-D digitising 相似文献
6.
Scavenger Enzyme Activities in Subcellular Fractions of White Clover (Trifolium repens L.) under PEG-induced Water Stress 总被引:1,自引:0,他引:1
Scavenger enzyme activities in subcellular fractions under polyethylene glycol (PEG)-induced water stress in white clover
(Trifolium repens L.) were studied. Water stress decreased ascorbic acid (AA) content and catalase (CAT) activity and increased the contents
of hydrogen peroxide (H2O2), thiobarbituric acid reactive substances (TBARS) (measure of lipid peroxidation), and activities of superoxide dismutase
(SOD), its various isozymes, ascorbate peroxidase (APOX), and glutathione reductase (GR) in cellular cytosol, chloroplasts,
mitochondria, and peroxisomes of Trifolium repens leaves. In both the PEG-treated plants and the control, chloroplastic fractions showed the highest total SOD, APOX, and GR
activities, followed by mitochondrial fractions in the case of total SOD and GR activities, whereas cytosolic fractions had
the second greatest APOX activity. However, CAT activity was the highest in peroxisomes, followed by the cytosol, mitochondria,
and chloroplasts in decreasing order. Although Mn-SOD activity was highest in mitochondrial fractions, residual activity was
also observed in cytosolic fractions. Cu/Zn-SOD and Fe-SOD were observed in all subcellular fractions; however, the activities
were the highest in chloroplastic fractions for both isoforms. Total Cu/Zn-SOD activity, the sum of activities observed in
all fractions, was higher than other SOD isoforms. These results suggest that cytosolic and chloroplastic APOX, chloroplastic
and mitochondrial GR, mitochondrial Mn-SOD, cytosolic and chloroplastic Cu/Zn-SOD, and chloroplastic Fe-SOD are the major
scavenger enzymes, whereas cellular CAT may play a minor role in scavenging of O2− and H2O2 produced under PEG-induced water stress in Trifolium repens. 相似文献
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Current Nitrogen Fixation Is Involved in the Regulation of Nitrogenase Activity in White Clover (Trifolium repens L.) 下载免费PDF全文
Previous studies have shown that nitrogenase activity decreases dramatically after defoliation, presumably because of an increase in the O2 diffusion resistance in the infected nodules. It is not known how this O2 diffusion resistance is regulated. The aim of this study was to test the hypothesis that current N2 fixation (ongoing flux of N2 through nitrogenase) is involved in the regulation of nitrogenase activity in white clover (Trifolium repens L. cv Ladino) nodules. We compared the nitrogenase activity of plants that were prevented from fixing N2 (by continuous exposure of their nodulated root system to an Ar:O2 [80:20] atmosphere) with that of plants allowed to fix N2 (those exposed to N2:O2, 80:20). Nitrogenase activity was determined as the amount of H2 evolved under Ar:O2. An open flow system was used. In experiment I, 6 h after complete defoliation and the continuous prevention of N2 fixation, nitrogenase activity was higher by a factor of 2 compared with that in plants allowed to fix N2 after leaf removal. This higher nitrogenase activity was associated with a lower O2 limitation (measured as the partial pressure of O2 required for highest nitrogenase activity). In experiment II, the nitrogenase activity of plants prevented from fixing N2 for 2 h before leaf removal showed no response to defoliation. The extent to which nitrogenase activity responded to defoliation was different in plants allowed to fix N2 and those that were prevented from doing so in both experiments. This leads to the conclusion that current N2 fixation is directly involved in the regulation of nitrogenase activity. It is suggested that an N feedback mechanism triggers such a response as a result of the loss of the plant's N sink strength after defoliation. This concept offers an alternative to other hypotheses (e.g. interruption of current photosynthesis, carbohydrate deprivation) that have been proposed to explain the immediate decrease in nitrogenase activity after defoliation. 相似文献
9.
The Growth and Carbon Allocation Patterns of White Clover (Trifolium repens L.) Plants of Contrasting Branching Structure 总被引:1,自引:0,他引:1
The growth, morphology and carbon allocation patterns of F1progeny white clover (Trifolium repens L.) plants selected foreither low (LBF) or high (HBF) frequencyof stolon branching were compared in two controlled-environmentexperiments. Selections from within both a small-leaved (GrasslandsTahora) and a large-leaved (Grasslands Kopu)clover cultivar were compared, and plants were grown under arelatively lenient defoliation treatment (expt 1) or under threelevels of defoliation seventy (expt 2). Carbon allocation patternswere measured by 14CO2 pulse-chase labelling using fully unfoldedleaves on the main (parent) stolon. LBF and HBF displayed consistent differences in the selectedcharacter though, within cultivars, the difference between selectionswas most pronounced for Kopu. The selections developed fundamentallydifferent branching structures resulting from differences inbranching frequency, with total branch weight per plant averaging122 mg for LBF and 399 mg for HBF (mean of both experiments).More C moved from parent stolon leaves to branches in HBF thanin LBF (mean 22.6% vs. 15.1% respectively of the 14C exportedfrom source leaves). More C also moved to stolon tissue in HBF,but, counterbalancing this and the difference in allocationto branches, less moved to developing leaves and roots on theparent stolon itself compared to LBF. However, the total weightof developing leaves and roots per parent stolon was generallygreater in HBF than in LBF, probably reflecting greater C importby these sinks from the higher number of branches present perplant in the former selection. HBF plants were consistentlylarger at harvest than LBF plants. There were no defoliationtreatment x selection interactions in C allocation patternsin expt 2. The implications of the results for plant performancein grazed pastures are discussed. Branching, carbon translocation, defoliation, growth, morphology, Trifolium repens, white clover 相似文献
10.
In a 5-months' experiment with white clover grown in two CO2 atmospheres (AC = 350 and EC = 700 cm3 m-3) and two humidities (-0.2 and -0.8 MPa), changes in fluorescence induction parameters were investigated. Changes induced by EC did not coincide with those induced by moderate drought. Long-term EC significantly increased stationary fluorescence Fs and decreased the vitality coefficient Rfd. Moderate drought significantly shortened the fluorescence half-time and decreased the area above the induction curve Sc and the Fv/Fm ratio. 相似文献
11.
White clover plants were subjected to water stress followingthe cessation of watering. As a water deficit developed, waterand osmotic potentials were measured in stolon tips, leavesfrom the stolon tip and leaves from the plant crown. Pressurepotentials were calculated. Pressure potential was maintainedin stolon tips even when water potential fell to around 2·0MPa. In contrast, pressure potential in leaves fell rapidlyas water stress developed. Total amino acid and potassium levels were largely unaffectedin both stolon tips and leaves. Water-soluble carbohydratesand proline accumulated during water stress. The increase inproline level in leaves did not follow the same pattern as thatin stolon tips, although toward the end of the water stressperiod the level had increased by a similar extent in both partsof the plant. Additionally, pressure potential and osmotic potentialappeared to be significantly related to proline content in stolontips. No such relationship was found for leaves. The role ofproline in osmotic adjustment is discussed. Trifolium repens L. cv. Olwen, white clover, water stress, osmotic adjustment, proline 相似文献
12.
The Effect of Water Stress on Floral Characters, Pollination and Seed Set in White Clover (Trifolium repens L.) 总被引:1,自引:0,他引:1
White clover plants were subjected to either short-term developingwater stress or long-term stable levels of water deficit. Thehort-term stress reduced plant water status to about 2·0MPa over 16 d. The long-term stress was less severe, but wassustained for several weeks. Long-term water stress promotedthe production of inflorescences. However, water stress alsoincreased floret abortion and the premature death of whole flowerheads. The number of ovules per floret was decreased by waterstress. The most striking effect of both long- and short-term waterdeficit was to reduce pollen viability measured with the fluorochromaticassay. This was not an artefact of assay conditions. The pollenfrom water-stressed flower heads was not reversibly dehydrated;it did not score at similar viability to controls after incubationin conditions which hydrate pollen. In addition, the pollenfrom water-stressed plants lost viability more rapidly thanpollen from well-watered plants after removal from the flowerhead. The consequences of reduced pollen viability on seed set wereinvestigated by hand-crossing within and between groups of plantsmaintained for several weeks at three levels of water supply.Flower heads pollinated with pollen from water-stressed plantsset fewer seeds per floret than those pollinated with controlpollen. Key words: Trifolium repens, white clover, water stress, floral characters, seed set 相似文献
13.
Norm, I. B. 1987. Requirements for floral induction in contrastingwhite clover (Trifolium repens) populations.J. exp. Bot.38: 900907. Floral initiation and development of four contrasting whiteclover (Trifolium repens) populations was examined after differentinduction treatments (16 h, 5 ?C and 8 h, 5 ?C. The number of reproductive stolons and of reproductive budsper stolon was increased after cold induction. Varietal differencesin response to daylength were large; some varieties respondingbetter to a long day cold period, others to a short day coldperiod while one variety required no induction at all. Whetherthe daylength effect was due to photoperiod, irradiance or totheir interaction was not known. The induction periods had a subsequent effect upon pedunclelength, floret and ovule number. Short days and chilling reducedpeduncle length but increased ovule number, whereas long daysand chilling tended to increase floret number. Nectar concentrationwas highest after short day induction. Key words: White clover, floral initiation, floral induction 相似文献
14.
Clones of two partially resistant and two susceptible white clover, Trifolium repens, genotypes were exposed to eggs of Heterodera trifolii and nematode development in stained roots measured at 2, 4, 7, 11, 18, 23, and 37 days after inoculation. The differences in development between nematode populations in resistant and susceptible genotypes showed that resistance operated after infection during feeding and development. At 7 days after inoculation, counts of second-stage juveniles did not differ between genotypes, whereas at 37 days more adults had developed in the susceptible than in the resistant genotypes. In a separate experiment, cysts hosted by susceptible genotypes were larger and contained more eggs than those on resistant genotypes so that the product of the values for cysts per plant and for eggs per cyst resulted in a more sensitive measure of resistance than from using cysts per plant alone. 相似文献
15.
Floral development in Sonja white clover was examined usingscanning electron microscopy. Florets and bracts were foundto arise from common primordia initiated as protuberances fromthe apical meristematic area of the inflorescence. The patternof floret initiation on the inflorescence was acropetal, theoldest florets resting basally. Floral organ initiation withineach floret was acropetal, petals being initiated before stamens.Floret development was zygomorphic, each whorl of floral organsdeveloping unidirectionally from the abaxial side. There wasfound to be overlapping in the timing of initiation and developmentof these organs. Antesepalous stamens were found initially tooutgrow their antepetalous counterparts. Early petal developmentwas synpetalous. Eglandular hairs were found basally on thecalyx cup and on the pedicel. Procumbent hairs were found tobe more numerous and randomly distributed on the abaxial surfacesof the mature calyx cup. Trifolium repens L., Sonja cultivar, white clover, scanning electron microscopy, floral development, inflorescence 相似文献
16.
In a growth chamber experiment, we determined net photosynthetic rate (PN) and leaf developmental characteristics of cultivars of a relatively small-, intermediate-, and a large-leaf genotype grown under irradiance of 450-500 µmol(photon) m-2 s-1 (HI), shade [140-160 µmol(photon) m-2 s-1] (LI), and after a shade-to-irradiation (LI »HI) transfer. Differences in physiological responses of the genotypes were more pronounced in HI and LI»HI plants than in LI plants. The small- and intermediate-leaf sizes had greater PN in the first measured leaf than the large-leaf type by 70 and 63 % in HI plants, and by 23 and 18 % in LI»HI plants, respectively. Similar relationships were observed in the next developed leaf. The LI plants did not differ significantly in PN. Greater PN in the small- and intermediate-leaf size genotypes were not associated with greater total dry matter of the plant. Under irradiation, the large-leaf genotype accumulated more total nonstructural saccharides (TNS) and starch than the small- or intermediate-leaf size plants. TNS and starch concentrations in LI plants were about one-half those of HI and LI»HI plants. These results should help to develop management practices that capitalize upon the competitive features of white clover in mixed-species swards. 相似文献
17.
PASUMARTY S. V.; MINCHIN P. E. H.; FOUNTAIN D. W.; THOMAS R. G. 《Journal of experimental botany》1991,42(6):705-710
The influence of shade on the growth and sink activity of youngflower heads and peduncles of white clover (Trifolium repensL.) plants was measured in controlled environments. Measurementof the peduncle elongation rate using a linear voltage displacementtransducer showed that when the inflorescence alone was shaded,peduncle elongation was higher than in the light. Translocationstudies using 11C-labelling techniques showed that shading theinflorescence alone had little effect on translocation of assimilatesinto the inflorescence but induced a major change in partitioningof assimilates within it. Peduncle elongation induced by shadeaccompanied an increase in partitioning of photoassimilatesto the peduncle, at the expense of the flower head. Key words: White clover, partitioning, translocation 相似文献
18.
White clover plants were grown from stolon tips in growth cabinetsand then defoliated. Thereafter, changes in the contents ofnon-structural carbohydrates such as starch, sucrose, glucose,fructose, maltose, and pinitol in stolons and roots were monitored.Initial contents of carbohydrate reserves, photosynthetic supplyof new carbohydrates and carbohydrate demand after defoliationwere varied by growing the plants at various CO2 partial pressures,by varying the extent of defoliation and by removing eitherroots or stolon tips at the time of defoliation. Remobilization of carbohydrate reserves in stolons increasedproportionally to their initial contents and was greater whenplants had been severely defoliated, suggesting that carbohydrateswere remobilized according to availability and demand. Starchwas the predominant reserve carbohydrate. Starch degradationwas associated with decreased contents of sucrose, glucose andfructose in young stolon parts and roots but not in old stolonparts suggesting that starch degradation was not strictly controlledby the contents of these sugars. A decrease in the demand forcarbohydrates by removal of roots did not decrease starch degradationbut increased the contents of sucrose, glucose, and fructose.Removal of stolon tips decreased starch degradation and contentsof sucrose, glucose, and fructose. The results suggest thatstarch degradation was controlled by a factor other than sucrose,glucose, and fructose which was exported from stolon tips, e.g.gibberellin. Key words: White clover, storage carbohydrates, remobilization, regrowth 相似文献
19.
Cyanogenesis in Trifolium repens L. is under the control oftwo loci; Ac/ac and Li/Hi control cyanogenic glucoside and linamaraseproduction respectively. Results obtained show that neitherthe dominant allele (Ac) coding for cyanogenic glucoside productionnor the dominant allele (Li) coding for linamarase productionare expressed in roots, seeds or seedlings before shoot emergence.Both linamarase and cyanogenic glucoside are produced duringshoot growth and there is little turnover of cyanogenic glucosidein mature leaves. As the leaves senesce there is breakdown ofthe mechanism separating cyanogenic glucoside and linamarase,since cyanogenic glucoside is lost in plants of genotype AcAc Li Li but not in those of genotype Ac Ac Li Li. About 60%of the cyanogenic glucoside produced was lotaustralin, in shootsof plants which were fed with equal quantities of the precursoramino acids L-valine and L-isoleucine. In contrast, the proportionof cyanogenic glucoside as lotaustralin found in leaves of oneplant, was only 40%. Different plants were shown to producedifferent quantities of cyanogenic glucoside, and the amountproduced was dependent on temperature. 相似文献
20.
Growth of white clover was investigated in permanent grasslandcut three or five times per year. The influence of cutting frequencyand nitrogen fertilization on dry-matter yield, leaf-area distributionand the distribution of photosynthetically active radiationwithin the canopy were examined. In the five cut treatments, total dry-matter yield was nearlyequal, with and without nitrogen. However, nitrogen practicallyeliminated white clover. Leaf-area distribution showed characteristicpatterns for the different treatments. The small proportionof white clover in the treatment with nitrogen fertilizationwas thought to be due to the large leaf area of the other speciesat heights which white clover could not attain. This conclusionwas supported additionally by the radiation measurements withinthe canopy. The sunlit fractional area within canopy layers was measuredwith quantum sensors and calculated from canopytransmission measured with tube solarimeters. The leaf areaindex of white clover was highly correlated (r2 = 0.68) withthe sunlit fractional area above the canopy layers where whiteclover was present. This response of white clover leaf growth to the light regimeis discussed in relation to the potential petiole growth. White clover, Trifolium repens L., permanent grassland, irradiance distribution, sunlit fractional area, petiole extension, leaf area, dry matter, stratified clipping 相似文献