Studies in the Principles of Phytotoxicity: V. INTERRELATIONSHIPS BETWEEN SPECIFIC DIFFERENCES IN SPRAY RETENTION AND SELECTIVE TOXICITY

In a detailed study of the factors which control spray retentionby the shoot, five species with markedly different morphologicalcharacteristics have been examined (Helianthus annuus, Brassicaatha, Linum usitatisrnnwn, Hordeum vulgare, and Pisum sativum).The amount of spray retained, expressed as volume per unit weightof shoot or unit leaf area, is dependent on the stage of developmentof each species, the volume of spray applied, and the surfacetension of the spray solution. The interrelationships betweenthese factors are complex for all the second-order interactionsproved to be highly significant. Under one set of condi tionsthere may be a tenfold difference in retention between two specieswhile under another set the corresponding difference may beas little as twofold. Between a spray output of 14 and 143 ml./m.³ the level of retentionby P. sativum and H. vulgare is linearly related to output butfor H. annuus and B. alba the relationship is curvilinear. Whenthe surface tension is reduced below 40 dynes/cm. retentionby P. sativum and H. vulgare is increased, but for B. alba andH. annuus retention is decreased if the output exceeds 50 ml./m.For a given output, a reduction in the mean droplet size augmentsretention by H. vulgare but not by H. annuus. Differences in retention either between species or between stagesof develop ment are linked with the ratio of leaf area to shootweight, the nature of the leaf surfaces, the angle of incidenceat which the droplets strike the leaf, and localized accumulation.Retention is maximal when the leaf-area ratio is high, the surfacescompletely wetted, and the laminae set in a horizontal plane:once this maximum value is reached any additional spray receivedruns off the shoot. The relationship between retention and the concentration ofthe spray solution required to bring about some standard biologicalresponse has been examined for two groups of compounds—thosewhich are freely translocated (triethanolarnine salts of 2:4-dichloro-,2:4:5-trichloro-, and z-methyl-4-chloro-phenoxyacetic acids)and those which are not (arnrnonium 2:4-dinitro-6-sec-butylphenate).For the first group the equi-effective concentration is inverselyand linearly related to retention since the total amount receivedis of primary importance in determining the inhibition of growth,though the position of the droplets must be taken into account.Placing micro-drops containing the growth regulator on the cotyledonsof L. usitatimmwn inhibits the growth of the shoot less thana spray application of the same amount over the whole shoot:for H. annuus placing the growth regulator on either the firstor second pair of leaves or on the first internode induces moreinhibition of growth than application to the cotyledons. With ammonium dinitro-sec-butylphenate the relationship betweenretention and concentration is also inverse but approximatelylogarithmic for L. usitatisrimum. For some other species thechanges in retention consequent upon a reduction in the surfacetension are not matched by comparable changes in the equi-effectiveconcentration. For B. alba and H. annuus though lowering thesurface tension may decrease retention it may also Himiniahthe concentration because the fall in retention is more thanoffset by a greater penetration of the compound into the shoot. It is concluded that differences in spray retention betweenspecies can play a major role in determining selective actionand the conditions under which this factor may operate mosteffectively are discussed.     

Compensatory Roles of Nitrogen Uptake and Photosynthetic N-use Efficiency in Determining Plant Growth Response to Elevated CO2: Evaluation Using a Functional Balance Model

We used a modified functional balance (FB) model to predictgrowth response of Helianthus annuus L. to elevated CO₂. Modelpredictions were evaluated against measurements obtained twiceduring the experiment. There was a good agreement between modelpredictions of relative growth rate (RGR) responses to elevatedCO₂and observations, particularly at the second harvest. Themodel was then used to compare the relative effects of biomassallocation to roots, nitrogen (N) uptake and photosyntheticN-use efficiency (PNUE) in determining plant growth responseto elevated CO₂. The model predicted that a rather substantialincrease in biomass allocation to root growth had little effecton whole plant growth response to elevated CO₂, suggesting thatplasticity in root allocation is relatively unimportant in determininggrowth response. Average N uptake rate at elevated comparedto ambient CO₂was decreased by 21–29%. In contrast, elevatedCO₂increased PNUE by approx. 50% due to a corresponding risein the CO₂-saturation factor for carboxylation at elevated CO₂.The model predicted that the decreased N uptake rate at elevatedCO₂lowered RGR modestly, but this effect was counterbalancedby an increase in PNUE resulting in a positive CO₂effect ongrowth. Increased PNUE may also explain why in many experimentselevated CO₂enhances biomass accumulation despite a significantdrop in tissue nitrogen concentration. The formulation of theFB model as presented here successfully predicted plant growthresponses to elevated CO₂. It also proved effective in resolvingwhich plant properties had the greatest leverage on such responses.Copyright 2000 Annals of Botany Company Elevated CO₂, functional balance model, Helianthus annuus L., N uptake, photosynthetic nitrogen use efficiency, root:shoot ratio     

Development of Lateral Root Primordia in Vicia faba, Pisum sativum, Zea mays andPhaseolus vulgaris: Rates of Primordium Formation and Cell Doubling Times

Lateral root primordium development has been examined in primaryroots of Vicia faba L., Pisum sativum L., Zea mays L. and Phaseolusvulgaris L. Following their initiation from an estimated minimumnumber of 77–162, 20–57, 17 and 12 cells respectivelyin Vicia, Phaseolus, Pisum and Zea, the primordia rapidly increasedin cell number to emerge as secondary roots about 2.8–3.6days later depending on the species being examined. Cell doublingtimes were estimated directly from cell numbers at differenttimes following primordium inception and were found to increasewith increase in primordium size in each of the species investigated. The number of primordia formed per cm of root growth per daywas greatest in Zea and least in Pisum. A comparison of thedata obtained for Vicia with that in the literature led to theconclusion that although the number of primordia produced percm of root growth was independent of the rate of primary elongation,the number produced per day increased in a linear fashion withincrease in the rate at which the primary lengthened. Vicia faba L, Pisum sativum L, Zea mays L, Phaseolus vulgaris L, broad bean, garden pea, maize, dwarf bean, root primordia, cell division, cell doubling time     

Plasma Membrane Permeability of Root-Tip Cells Following Temporary Exposure to Al Ions Is a Rapid Measure of Al Tolerance among Plant Species

No correlations were recognized between Al tolerance among fourplant species, rice (Oryza sativa L.), maize (Zea mays L.),pea (Pisum sativum L.), and barley (Hordeum vulgare L.), inrank order of Al tolerance, and cation exchange capacities ofroot-tip (0-1 cm) cells or of their cell walls. The plasma membraneof root-tip of Al sensitive plant species (pea and barley) wasconsiderably permeabilized with elongation of root in Al-freesolution following 0.5 h pretreatment with Al. K⁺ release fromand Al permeation into the protoplasts isolated from the root-tipof Al-sensitive plant species were more significant than thosefor Al-tolerant plant species (rice and maize) on 10 or 30 mintreatment with Al. The permeability of the plasma membrane forprotoplasts isolated from Al sensitive plant species was considerablyincreased by treatment with hy-potonic Al-free control solutionfollowing 10 min pretreatment with Al. To our knowlege, theseare the most rapid responses to Al ions reported to date, i.e.,within 0.5 h in whole plant and within 10 min in protoplast.These results suggest that a temporary contact with Al ionsirreversibly alters the plasma membrane of root-tip cells ofAl-sensitive plant species: the cells become more leaky andrigid due to binding of Al ions to the plasma membrane. (Received January 5, 1998; Accepted February 26, 1998)     

Water uptake resumption following soil drought: a comparison among four barley genotypes

Soil water resulting from episodic growing season rainfall evaporatesrapidly in semi-arid regions. Plants may mnot benefit from suchwater additions if near-surface roots are unable to resume wateruptake rapidly following periods of soil water deficit. Ourobjectives were to develop a means of quantifying root uptakeresponses in the upper soil layer following rewetting aftersoil water deficit, and to evaluate the existence of genotypicdifferences among four diverse barley (Hordeum vulgare L.) genotypesin this regard. Plants were grown in replicate soil columnshaving hydraulically isolated surface and subsoil layers, andinstrumented with time-domain reflectometry (TDR) waveguides.The upper 0.05 m soil layer was allowed to dry to —1.8to —3.0 MPa for 10-14 d, during which time subsoil wetnesswas maintained at about —0.6 to —0.7 MPa. The time-courseof soil water uptake was monitored at 0.5 h intervals followingrewetting of the surface layer. Substantial water uptake began1 d after rewetting following 10 d, and 2-3 d after rewettingfollowing 14 d of water deficit. Rate of water uptake was morerapid in response to a second rewetting 5-7 d later. Consistentgenotypic responses in terms of cumulative water uptake on awhole plant and leaf area-specific basis were observed duringeach trial. These results have application to evaluating droughthardiness and interspecific competitive ability under semi-aridconditions, and to investigations of root physiological andmorphological changes that contribute to recovery from waterdeficit Key words: Hordeum vulgare, root water uptake, soil water deficit, time-domain reflectometry     

A Relationship between Phosphate Uptake and Membrane Electrical Potential in Excised Roots of Helianthus annuus

Phosphate uptake by excised roots of sunflower (Helianthus annuus)was determined by the disappearance of phosphate from the externalsolution and by the accumulation of phosphate labelled with³²P. Over a 24 h period it was observed that net phosphate uptakedeclined to zero whilst uptake of ³²P continued unabated. Theelectrical PD of the cortical cell membranes declined in parallelwith net phosphate uptake and it was found that both could berestored by creating a pH gradient across the plasmalemma. Itwas concluded that net phosphate uptake was responsible fora component of the membrane PD of the root cortical cells. Key words: Roots, Phosphate, Membranes     

Nutrient-limited growth rates: quantitative benefits of stress responses and some aspects of regulation

Young sunflower plants (Helianthus annuus L.) under stress oflow nitrate or phosphate availability exhibited increases inroot: shoot ratio and in kinetic parameters for uptake. Theyshowed no significant changes in photosynthetic utilizationof either nutrient. Increases in root: shoot ratio were achievedby early and persistent suppression of shoot growth, but notroot growth. Affinity for phosphate uptake, 1/K_m(P), increasedwith phosphate stress, as did affinity for nitrate uptake, 1/K_m(N),with nitrate stress. Maximal uptake rate, V_max, for phosphateuptake increased with phosphorus stress; V_max for nitrate didnot increase with nitrogen stress. Phosphate V_max was relatedstrongly to root nutrient status. Decreases in V_max with plantage were not well explained by changes in age structure of roots.Estimated benefits of acclimatory changes in root: shoot ratioand uptake kinetics ranged up to 2-fold increases in relativegrowth rate, RGR. The relation of RGR to uptake physiology followedpredictions of functional balance moderately well, with somesystematic deviations. Analyses of RGR using growth models implyno significant growth benefit from regulating Vmax, specifically,not from down-regulating it at high nutrient availability. Quantitativebenefits of increases in root: shoot ratio and uptake parametersare predicted to be quite small under common conditions whereinnutrient concentrations are significantly depleted by uptake.The root: shoot response is estimated to confer the smallestbenefit under non-depleting conditions and the largest benefitunder depleting conditions. Even then, the absolute benefitis predicted to be small, possibly excepting the case of heterogeneoussoils. Depleting and non-depleting conditions are addressedwith very different experimental techniques. We note that atheoretical framework is lacking that spans both these cases,other than purely numerical formulations that are not readilyinterpreted. Key words: Nutrient stress, nutrient uptake, nutrient use efficiency, relative growth rate, Helianthus annuus     

Root system growth and nodule establishment on pea (Pisum sativum L.)

Development of the root system, appearance of nodules, and relationshipsbetween these two processes were studied on pea (Pisum sativumL., cv. Solara). Plants were grown in growth cabinets for 4weeks on a nitrogen—free nutrient solution inoculatedwith Rhizobium leguminosarum. Plant stages, primary root length,distance from the primary root base to the most distal first-orderlateral root, and distance from the root base to the most distalnodule, were recorded daily. Distribution of nodules along theprimary root and distribution of laterals were recorded by samplingroot systems at two plant stages. Primary root elongation ratewas variable, and declined roughly in conjunction with the exhaustionof seed reserves. First-order laterals appeared acropetallyon the primary root. A linear relationship was found betweenthe length of the apical unbranched zone and root elongationrate, supporting the hypothesis of a constant time lag betweenthe differentiation of first-order lateral's primordia and theiremergence. Decline of the primary root elongation rate was precededby a reduction in density and length of first-order laterals.Nodules appeared not strictly but roughly acropetally on theprimary root. A linear relationship was found between the lengthof the apical zone without nodule and root elongation rate,supporting the hypothesis of a constant time lag between infectionand appearance of a visible nodule. A relationship was foundbetween the presence/absence of nodules on a root segment andthe root elongation rate between infection and appearance ofnodules on the considered root segment. Regulation of both processesby carbohydrate availability, as a causal mechanism, is proposed. Key words: Pisum sativum L, root system, nodules     

Nitrogen Utilization in N-limited Barley during Vegetative and Generative Growth: I. GROWTH AND NITRATE UPTAKE KINETICS IN VEGETATIVE CULTURES GROWN AT DIFFERENT RELATIVE ADDITION RATES OF NITRATE-N

Growth and nitrate uptake kinetics in vegetatively growing barley(Hordeum vulgare L., cvs Laevigatum, Golf, and Mette) were investigatedin solution culture under long-term limitations of externalnitrogen availability. Nitrate was fed to the cultures at relativeaddition rates (RA) ranging from 0.02 to 0.2 d^–1. Therelative growth rate (RG, calculated for total plant dry weight)correlated well with RA in the range 0.02 to 0.07 d^–1.In the RA range from 0.07 to 0.2 d^–1 RG continued to increase,but an increasing fraction of nitrogen, added and absorbed,was apparently stored rather than used for structural growth.The RG of the roots was less affected by RA. V_max, for net nitrateuptake increased with RA up to 0.11 d^–1, but decreasedat higher RA. The decline in V_max coincided with a build-upof nitrate stores in both roots and shoots. V_max, expressedper unit nitrogen in the plants (the relative V_max, was higherthan required for maintenance of growth (up to 30-fold) at lowRA, whereas at higher RA the relative V_max decreased. Kineticpredictions of steady-state external nitrate concentrationsduring N-limited growth ranged from 0.2 to 5.0 mmol m^–3over the RG range 0.02 to 0.11 d_–1. It is suggested thatthe nitrate uptake system is not under specific regulation atlow RA, but co-ordinated with root protein synthesis and growthin general. At RA higher than 0.11 d_–1, however, specificregulation of nitrate uptake, possibly via root nitrate pools,become important. The three cultivars showed very similar growthand nitrate uptake characteristics. Key words: Barley, growth, nitrogen limitation, nitrate uptake, kinetics     

Internode Length in Pisum. A New Allele at the le Locus

In Pisum sativum L. a third, more severe, allele at the internodelength locus le is identified and named le^d. Plants homozygousfor le^d possess shorter internodes and appear relatively lessresponsive to GA₂₀ than comparable le (dwarf) plants. Gene le^dmay act by reducing the 3ß-hydroxylation of GA₂₀ tothe highly active GA₁ more effectively than does gene le. Theresults indicate that le is a leaky mutant and therefore thatendogenous GA₁ influences internode elongation in dwarf (le)plants. Pisum sativum, peas, internode length, genetics, gibberellin, dwarf elongation     

Herbicide-Induced Diamine Accumulation in Pea Roots. The Effect of Napropamide on Polyamine Levels

Pea (Pisum sativum L. cv. Alaska) root tips were incubated innutrient medium for 24 h prior to herbicide treatment. Endogenouslevels of putrescine, cadaverine, spermidine and spermine weredetermined in root tip sections at various times following 10and 20µM napropamide application. Little effect on polyaminelevels occurred within 12 h of treatment. However, by 48 h oftreatment, putrescine levels increased more than 3-fold in eachof the root sections within 4 mM of the tip while cadaverineincreased by 2-fold in only the root section 4 to 10 mM fromthe tip. After 72 h of herbicide treatment, the level of putrescineincreased over 8-fold within 5 mM of the root tip. Napropamidehad little effect on spermidine and spermine concentration within10 mM of the root tip after 72 h of exposure. This representsthe first report of an herbicideinduced accumulation of putrescineand cadaverine and suggests a possible phytotoxic effect ofhigh concentrations of putrescine on roots. (Received December 8, 1987; Accepted September 20, 1988)     

Comparison of [14C]oryzalin Uptake in Root Segments of a Sensitive and a Resistant Species

Uptake of the dinitroaniline herbicide oryzalin (3,5-dinitro-N⁴,N⁴-dipropylsulfamlamide) and its effect on root growth werestudied using 5 mm corn (Zea mays L.) and pea (Pisum sativum)root apices. Pea root growth was much less susceptible to oryzalinthan corn root growth. Uptake studies showed that pea root apicesalso accumulated much less [¹⁴C]oryzalin and had a lower bindingaffinity for this herbicide. [¹⁴C]oryzalin was not metabolizedin root apices from either species. Thus, the differential susceptibilityto oryzalin in the case of corn versus pea can be explained,at least in part, by differences in oryzalin uptake and accumulationby roots. Oryzalin, dinitroaniline herbicides, Zea mays, Pisum sativum     

Determination of Stelar Elements in Roots of Pisum sativum L.

Cytochemical studies of esterase activity in 0.5 mm segmentsfrom root tips of Pisum sativum explanted for up to 9 days inbasal culture medium containing 2 per cent sucrose showed retentionof this activity. During this time, all segments from the secondand third 0.5 mm segments of the root tip developed xylem elementsas did the proximal end of the first segment. No xylem elementswere found in the 12–14 cells behind the quiescent centre.It is concluded that the central group of meristem cells aregenerally programmed to form tissues of the stele immediatelyon leaving the quiescent centre, and that the programming forxylem and phloem elements occurs as a second step. Pisum sativum L., garden pea, determination, histochemistry, esterases, stele, root     

The significance of the Presence of Stomata on Seedling Roots

Slightly squashed and transversely sectioned sprouts (seedlingroot + hypocotyl to cotyledons) of Pisum arvense, Ornithopussativus and Helianthus annuus were examined. The presence ofstomata is described on seedling roots, including the root hairzone, in Pisum and Ornithopus and in the root hair zone of thehypocotyl of Helianthus. The stomata found in the root hairzones are almost always open, usually without chloroplasts andare not sensitive to the action of abscisic acid (ABA). TheABA sensitivity of the stomata appears first above the roothair zone and increases gradually towards the cotyledons. Thepossible role of stomata in the root hair zone is discussed. Seedling root, hypocotyl, root hair zone, stomata     

Structure, Production and Leaf Area Dynamics: A Comparison of Lodgepole Pine and Sunflower

Populations of lodgepole pine (Pinus contorta var latifoliaEngelm) and sunflower (Heltanthus annuus L) were examined tocompare the influence of stand density on canopy structure andthe association between canopy structure and the productionof stem volume The plastic responses of canopy structure tocompetitive interactions indicated that the structural dynamicsof lodgepole pine and sunflower populations were similar, thoughthe degree of plastic response differed The influence of canopystructure on the production of stem volume, however, was fundamentallydifferent efficiency decreased as the mean crown size of lodgepolepine populations increased, but this decrease did not occurin sunflower populations This difference was attributed to thelarge accumulation of branch biomass required to display foliageeffectively in the canopies of the perennial lodgepole pine,accumulation which does not occur in the annual sunflower Lodgepole pine, Pinus contorta var latifolia Engelm, sunflower, Helianthus annuus L, leaf area, canopy structure, stand production, carbon allocation     

Morphological and Structural Responses of Plant Roots to Aluminium at Organ, Tissue, and Cellular Levels

Toxic effects of aluminium are primarily root-related. This review deals with growth, morphological, and ultrastructural responses of root to aluminium, their diversity along the root axis, and in the root tissues. The cell elongation seems to be most sensitive and responsible for early inhibition of root elongation. Longer Al treatment is required to reduce cell division or to interfere with nucleic acids in the root apex. Alterations of root morphology include root thickening, disturbances of root peripheral tissues, and initiation of lateral roots closer to the root tip. Ultrastructure alterations depend strongly on position of the cells with respect to the Al source, and on their developmental stage. Cell elongation and cell ultrastructure including organisation of cytoskeleton are most sensitive within the distal part of the transition zone of the root apex. This correlates with the rate of uptake and accumulation of Al along the root apex. Recognising the diverse responses and the most sensitive sites within the root apex can help in elucidating the mechanism(s) of Al effects on plants.     

Genetic and Structural Analysis of Five Arabidopsis Mutants with Abnormal Root Morphology Generated by the Seed Transformation Method

A number of Arabidopsis thaliana mutants with abnormal rootmorphology have been isolated from a population of Agrobacterium-mediated seed transformants. Five of these mutants identifiedby their abnormal root morphology have been genetically andmorphologically characterised. Two mutants, 5905 and 1767 havedefective cellular elongation, mutant 7203 lacks an endodermalcell layer and mutants 4792 and 7133 exhibit abnormal radialcellular expansion. It is apparent from detailed analysis thatabnormal root morphology is accompanied by abnormal hypocotylphenotype. Genetic analysis has revealed that only one of thesemutants is tagged with a T-DNA insert.Copyright 1994, 1999 AcademicPress Arabidopsis thaliana, root, development, T-DNA insertion mutagenesis, endodermis, elongation     

Chromosome Aberrations and Ageing Root Meristems

Changes in mitotic activity and frequency of spontaneous chromosomeaberrations have been determined for primary roots of Zea muys,Pisum sativum, Vicia faba var. green Windsor and var. minor,and Allium cepa. Mitotic activity was found to decline withage in all root apices. In the primary root apices immediately after germination, therewas a high frequency of spontaneous chromosome aberrations whichdeclined with time after germination. However, In the case ofV. faba var. green Windsor, Z mays and P. sativum there wasa return to the high levels of spontaneous chromosome aberrationon ageing of the root apex. root meristems, mitotic activity, chromosome aberrations, ageing