Mode of dinitroaniline herbicide action I. Analysis of the colchicine-like effects of dinitroaniline herbicides

Colchicine and a variety of dinitroaniline herbicides (DNHs)produce a similar pattern of inhibition of elongation, inductionof swelling in the elongation zone, depolarization of cell enlargement,and induction of multiple nuclei in corn seedling roots. However,a 1000-fold higher concentration of colchicine is needed toproduce effects quantitatively similar to those of oryzalin.Both colchicine- and DNH-inhibition of elongation start at about3 hr. Since these compounds cause swelling and inhibition ofelongation in -seedling roots, segments from the root elongationzone and intact roots in the presence of cell division inhibitors(all growing without cell division), it appears that the inhibitionof root elongation is caused in part by their effect on cellelongation independent of their effect on cell division. Sincethe growth (increase in fresh weight) of -seedling roots andexcised root segments is not inhibited by these compounds, theireffect on the polarity of cell enlargement must be fairly specific.Unlike colchicine, oryzalin applied to the roots did not causeany significant, visible effect on shoot (mesocotyl and coleoptile)growth. These organs are not resistant to oryzalin, for theIAA-induced elongation of coleoptile segments is inhibited whenthey are floated in oryzalin solutions. As expected, when coleoptilesegments are incubated in ¹⁴C-oryzalin, it is taken up rapidlyand not degraded. The failure of root-applied oryzalin to affectseedling shoot growth is due to lack of transport to the shoots. (Received June 14, 1977; )     

MORPHOGENESIS IN SPIEODELA OLIGORRHIZA: EFFECTS OF PYRIMIDINE BASE ANALOGUES ON INITIATION, ELONGATION AND DIFFERENTIATION OF FRONDS

The effect of four pyrimidine base analogues and their antidoteson S. oligorrhiza was studied. FUdR stopped cell division at concentrations of 4 10^–7M and higher. This effect could be nullified by the additionof 4 10^–6 M thymidine. Neither uridine nor uracil hadan antidotal effect on FUdR. FU (8 10^–6 M or higher concentration) affected celldivision, frond elongation and differentiation, and could notbe counteracted by either thymidine or uracil. TU (8 10^–4 M) rather specifically inhibited differentiationof frond tissues, while not preventing cell division or theinitiation of new generations. Uracil and uridine at about equimolarconcentrations completely counteracted the TU effect. AzU (10^–3 M) suppressed cell division, frond elongationand frond differentiation. When thymidine (10^–3 M) wasadded simultaneously with AzU only cell elongation and differentiationof fronds were inhibited, but cell division proceeded. 10^–3M uracil (but not uridine) counteracted all effects of AzU. ¹ Based on a portion of the senior author's Ph.D. Thesis.     

Sucrose and Hexose Release by Excised Stem Segments of Vicia faba L.: The Sucrose-Specific Stimulating Influence of Cuscuta on Sugar Release and the Activity of Acid Invertase

By washing out solutes in 0.5 mM CaSO⁴at 25 °C during aperiod of 5–6 h, the release of sugars by excised stemsegments of Vicia faba L. was measured. The stem parasite Cuscutaeuropaea strongly stimulated the release of sucrose into theefflux medium; this effect was most marked during the last hoursof each experiment but this stimulating effect of the parasitecould not be detected for glucose and fructose. The fact thatparasitized stem segments released higher than normal hexoseamounts during the last hours of several experiments, couldbe explained as the result of extracellular hydrolysis of sucroseby free space invertase. A high free space acid invertase activitywas present in young stem segments of Vicia faba and in tissuesof Cuscuta. The stimulating influence of Cuscuta on sugar releaseby cells of stem segments appears sucrose-specific, supportingthe idea that the stimulating influence of Cuscuta on sugarrelease is restricted to the sieve-tube system. When metabolic inhibitors were added to the washing solutionor when segments were incubated at low temperature, no cleareffect of the parasite could be observed and for all segments(parasitized and non-parasitized) a strongly enhanced releaseof sucrose into the efflux medium was found during the lasthours of an experiment. These data support the idea that anintensive resorption of sucrose occurs within stem segments,after its release into the apoplast. Key words: Cuscuta europaea, Parasitic relationship, Phloem unloading     

Diurnal regulation of NO3-uptake in soybean plants II. Relationship with accumulation of NO and asparagine in the roots

Experiments were performed with soybean plants to test the hypothesisthat the inhibition of NO₃^– uptake in darkness is dueto feedback control by NO₃^– and/or Asn accumulating inthe roots. Xylem export of N compounds was shown to depend onwater flux in both excised root systems and ¹⁵N-labelled intactplants, suggesting that the shortage of transpiration in darknessmay be responsible for the retention of NO₃^– and Asn inthe roots. This was verified in experiments where the light/darkpattern of transpiration was modulated in intact plants by changingthe relative humidity of the atmosphere. Any decrease of transpirationat night was associated with a concurrent stimulation of NO₃^–and Asn accumulations in the roots. However, the light/darkrhythmicity of NO₃^– uptake was only marginally affectedby these treatments, and thusappeared quite independent fromtranspiration and root NO₃^– or Asn levels. Typically,the maintainance of a constant transpiration during the day/nightcycle did not suppress the inhibition of NO₃^– uptake indarkness, whereas it almost prevented the dark increase in rootNO₃^– and Asn contents. These data strongly support theconclusion that the effect of light on NO₃^– uptake isnot mediated by changes in translocation and accumulation ofN compounds. Key words: Glycine max, light/dark, cycles, nitrate uptake, transpiration, transport of N compounds, accumulation of N compounds     

The Effect of Cycloheximide on Absorption of Ions by Bean (Phaseolus vulgaris L) Roots

10^–7 M cycloheximide inhibited bean (Phaseolus vulgaris)root elongation by about 20 per cent but it inhibited absorptionof rubidium, sodium, and phosphate ions to a much greater extent(34–71 per cent). Tips of intact plant roots grown inthe inhibitor showed more inhibition in ion uptake than adjacentproximal portions of the same roots and this is taken to indicatethat 10^–7 M cycloheximide does not exert its effect onion uptake by any uncoupling action. Sodium uptake from 0.5 or 10 mM NaCl solutions by root tipswas inhibited by 10^–7 M cycloheximide to twice the extentthat it was in the elongating region of the root. Assuming thatthe inhibitor affects the plasmalemma more than the tonoplast,Epstein's model of parallel operation of system 1 and system2 at the plasmalemma is supported.     

Transport of 14C-lableled indoleacetic acid in Vicia root segments

IAA transport in Vicia root segments was investigated for comparisonwith that in intact roots. Lanolin paste (1-mm-wide ring) oragar blocks (3?3?1.5mm), both containing IAA-2-¹⁴C were appliedto the surface or a cut end of the root segments, respectively;transported ¹⁴C was collected in receiver agar blocks placedon the cut end of the segments. When lanolin paste was appliedto 5-mm segments, basipetal transport of IAA predominated overacropetal transport. When agar blocks were applied to 1- and2-mm segments, the same was true; in longer segments (3 and5 mm long), however, basipetal movement occurred predominantlyat first but was surpassed by acropetal movement after 2–3hr. Among the segments tested (regions 2–4, 4–6and 8–10 mm from the tip), the most apical one showedthe distinctest predominancy of basipetal movement. The velocitiesof the acropetal and basipetal movement of the ¹⁴C were estimatedat 3–3.8 and 8–12 mm/hr, respectively. Autoradiographicstudy and the experiment in which wire was inserted longitudinallythrough the central part of the segments showed that basipetalmovement occurred mainly through the outer part of the rootsand acropetal movement mainly through the central cylinder.The present results were compatible with those obtained previouslywith intact roots. Some properties of polar movement, such asits specificity, inhibition by TIBA, and dependency on terneprature are described. (Received March 22, 1978; )     

The Inhibition of Growth by Gravitropic Stimulation in Darkness in Agravitropic Primary Roots of Zea and the Role of Calcium

The primary roots of the "Golden Cross Bantam 70" cultivar ofZea mays are agravitropic in darkness and their orthogravitropismis light-dependent. Analysis of the agravitropic roots providesimportant information about the mechanism of orthogravitropism.However, the underlying mechanism of the agravitropic responsein darkness is unknown. We found that the growth of intact primaryroots was inhibited by gravitropic stimulation (i.e., changingthe orientation of the roots from vertical to horizontal) indarkness, but that of detipped roots was not. The role of calciumin this gravistimulation-dependent inhibition of growth wasinvestigated using apical 5-mm segments of the primary roots.The gravistimulation-dependent inhibition of growth was preventedby applying 10 mM MES-KOH buffer at pH 6.0 to the root cap.By contrast, the application of 0.1–1 mM buffer at pH6.0 and 10 mM buffer at pH 4.5–5.0 allowed the gravistimulation-dependentinhibition of growth. Furthermore, when the buffer of 10 mM(pH 6.0) contained 1–5 mM CaCl₂, the gravistimulation-dependentinhibition of growth was apparent. By contrast, when weak (1mM) buffer at pH 6.0 or 10 mM buffer at pH 4.5 contained 5 mMEGTA, no gravistimulation-dependent inhibition of growth wasobserved. Thus, the gravistimulation-dependent inhibition ofgrowth in darkness seemed to be mediated by an increase in thelevel of free Ca²⁺ in the root tip. These results suggest thatfree Ca²⁺ in the apoplast of the root tip plays an importantrole in the agravitropic response in darkness as well as inorthogravitropism under light of the roots of this cultivarof Zea mays. (Received March 21, 1994; Accepted July 25, 1994)     

Inhibitory effect of lycorine on cell division and cell elongation

Lycorine, an alkaloid isolated from bulbs of Amarillidaceae,was found to be a powerful inhibitor of cell division and elongation.Adding different concentrations of lycorine from 10^–6M to 10^–4 M in an appropriate growth-medium strongly inhibitedcell division in explants of lettuce pith parenchyma. The sameresult was obtained with liquid yeast cultures growing exponentially. Lycorine-treated meristematic cells of the primary roots ofVicia faba also showed rapid inhibition of the mitotic indexwhile interphase cells increased proportionately. Lycorine alsoinhibited endogenous and auxin-induced cell elongation in Avenacoleoptiles and pea segments. Since both cell division and cell elongation require proteinsynthesis and RNA synthesis, the assumption is that lycorineprobably inhibits one of the two syntheses. ¹This study was supported by a contract between the NationalResearch Council of Italy and University of Bari, Instituteof Botany. (Received November 27, 1972; )     

Tentoxin Inhibits Both Photophosphorylation in Thylakoids and the ATPase Activity of Isolated Coupling Factor F1 from the Cyanobacterium Anacystis nidulans

Tentoxin strongly inhibited the ATPase activity of isolatedcoupling factor 1 (AF₁) from the cyanobacterium Anacystis nidulans,with 50% inhibition occurring at 0.3 µM. When thylakoidsfrom A. nidulans were preincubated with 0.3 µM tentoxinfor 30 min, photophosphorylation was inhibited by 50%. Measurementsof fluorescence from 9-aminoacridine indicated that tentoxininhibited the utilization of the proton gradient by ATP formationin thylakoids. These results indicate that tentoxin is a strongenergy-transfer inhibitor of photophosphorylation in A. nidulans.Tentoxin decreased the level of ATP in intact cells both inthe light and in darkness, its effects being much stronger inthe dark. Tentoxin at 50 µM strongly inhibited the growthof the cells. ³Present address: Corporate Research and Development Laboratory,Tonen Co. 1-3-1 Nishi-tsurugaoka, Ohi-machi, Saitama, 354 Japan ⁴Present address: Technology and Engineering Laboratories, AjinomotoCo., Inc. Suzuki-cho 1, Kawasaki, 210 Japan     

Suppressive effect of light on the formation of DNA and on the increase of deoxythymidine monophosphate kinase activity in Chlorella protothecoides

As previously demonstrated, chlorophyll-less cells of Chlorellaprotothecoides are obtained when the alga is grown in a mediumrich in glucose and poor in a nitrogen source (urea). When thesecells are incubated in a medium enriched with a nitrogen source,there occurs, besides greening of algal cells, an active formationof DNA followed by synchronous cellular division. The DNA formationand cellular division are markedly suppressed by light of acomparatively low intensity. Blue light is most effective andred light least effective in suppression. The effect of light on the level of dTMP kinase activity inthe algal cells was investigated in relation to the photoinhibitionof DNA formation. It was found that light suppresses the increaseof dTMP kinase activity in the algal cells which starts in advanceof active DNA synthesis, and that blue light has a strongersuppressive effect than red light. ¹Present address: Institute of Medical Science, University ofTokyo, Tokyo.     

Effects of Inhibitors of Protein Synthesis on Transmembrane Auxin Transport in Cucurbita pepo L. Hypocotyl Segments

Pretreatment of 2?0 mm segments of etiolated zucchini (Cucurbitapepo L.) hypocotyl with cycloheximide (CH) or 2-(4-methyl-2,6-dinitroanilino)-N-methylpropionamide(MDMP) eliminated the stimulation by N-1-naphthylphthalamicacid (NPA) of net uptake of [1-¹⁴C]indol-3yl-acetic acid ([1-¹⁴C]IAA),but had relatively little effect on the net uptake of IAA inthe absence of NPA. The efflux of [1-¹⁴C]IAA from preloadedsegments was not substantially affected by inhibitor pretreatmentin the absence of NPA, but CH pretreatment significantly inhibitedthe reduction of efflux caused by NPA. Pretreatment with CHor MDMP did not affect net uptake by segments of the pH probe[2-¹⁴C]5,5-dimethyl-oxazolidine-2,4-dione ([2-¹⁴C]DMO), or thenet uptake of [¹⁴C]-labelled 3-O-methylglucose ([¹⁴C]3-0-MeGlu),suggesting that neither inhibitor affected intracellular pHor the general function of proton symporters in the plasma membrane.Both compounds reduced the incorporation of label from [³⁵S]methionineinto trichloroacetic acid (TCA)-insoluble fractions of zucchinitissue, confirming their inhibitory effect on protein synthesis. The steady-state association of [³H]IAA with microsomal vesiclesprepared from zucchini hypocotyl tissue was enhanced by theinclusion of NPA in the uptake medium. The stimulation by NPAof [³H]IAA association with microsomes was substantially reducedwhen the tissue was pretreated with CH. However, CH pretreatmentdid not affect the level of high affinity NPA binding to themembranes indicating that treatments did not result in lossof NPA receptors. It is suggested that the auxin transport site on the effluxcarrier system and the receptor site for NPA may reside on separateproteins linked by a third, rapidly turned-over, transducingprotein. Key words: Auxin carriers, auxin efflux, Cucurbita pepo, phytotropin receptors     

Regulation of Free Calcium Concentration in the Pitchers of the Carnivorous Plant Sarracenia purpurea: A Model for Calcium in the Higher Plant Apoplast?

The pitcher of the carnivorous plant Sarracenia purpurea L.contains an entrapped body of liquid within which its prey isdigested. Free calcium in the pitcher is derived from eitherthe pitcher walls or from prey falling into the pitcher; inthe absence of exogenous (prey-derived) calcium it will dependon the active and passive calcium regulatory properties of thepitcher walls and may to some extent therefore mimic calciumin the apoplast of plant cells. Using a calcium-specific electrode,the free calcium concentration of the pitchers of Sarraceniaplants was investigated and the effect of adding a variety ofconcentrations of calcium in water determined. The mean pitcherfree calcium concentration in vivo was 2.3 x 10^–5 M±2.5x 10^–5 M; when pitchers were washed and filled with watercontaining lower calcium concentrations, the concentration inthe pitcher water rose to 1–5 x 10^–5 M. When highercalcium concentrations (up to 1 x 10^–4 M) were added,the pitcher calcium concentration declined to 1–7 x 10^–5M. Concentrations of calcium above 1 x 10^–4 M were alsoreduced, but to a lesser extent. Metabolic inhibition of activeion transport, while inhibiting pitcher acidification, did notinhibit regulation of pitcher free calcium, suggested that itoccurs as a result of calcium exchange sites in the pitcherwalls. The data are discussed in relation to the physiologyof Sarracenia pitchers and to the usefulness of the pitcheras a model for free calcium in the higher plant apoplast. Sarracenia purpurea L., carnivorous plant, pitcher, free calcium, plant apoplast     

Ion Transport and the Effects of Acetic Acid in White Clover: I. PHOSPHATE ABSORPTION

Dunlop, J., Knighton, M. V. and White, D. W. R. 1988. Ion transportand the effects of acetic acid in white clover. I. Phosphateabsorption.—J. exp. Bot. 39: 79–88. The effect of acetic acid on phosphate absorption by white clovertissue has been examined. At 1·0 mol m³ acetic acid phosphateabsorption by roots of intact plants was stimulated by 36% (P< 0.001). At 5.0 and 10 mol m^–3 acetic acid there wasmarked inhibition of absorption by both suspension culturesof cells and the roots of intact plants. The inhibition waspH dependent with decreasing pH causing increased inhibition.Acetic acid caused changes in the membrane electropotential(E) with concentrations of 2·0 mol m^–3 or lesscausing persistent polarization whereas at 5·0 mol m^–3and higher concentrations the polarization was followed by agreater depolarization. Intracellular pH as measured by thefluorescence of fluorescein was lowered by acetic acid. Calculationsindicate that for white clover roots the proton motive force(pmf) appears to provide sufficient energy for phosphate absorption.It is proposed that acetic acid influences phosphate absorptionthrough its dependence on proton cotransport and that changesin J E affect the rate of phosphate absorption because of thedependence of the pmf on E. Key words: Phosphate absorption, intracellular pH, acetic acid, proton motive force, Trifolium repens, membrane electropotential     

Calcium Antagonist TMB-8 Inhibits Cell Wall Formation and Growth in Pea

The effects on auxin-stimulated growth and cell wall formationof 8-(N, N-diethylamino)-octyl-3, 4, 5-trimethoxybenzoate.HCI(TMB-8), an intracellular Ca²⁺ antagonist, were investigatedin abraded stem segments from aetiolated seedlings of Pisumsativum L. cv. Alaska. Incubation of segments at pH 6.0 with200 mmol m^–3 TMB-8 resulted in a 50% inhibition of auxin-stimulatedgrowth. Added Ca²⁺ did not restore normal auxin-stimulated growth,presumably because of its well-known stiffening effect on thecell wall. In segments incubated at a pH (7–2) which preventedelongation, auxin promoted the incorporation of [³H]glucoseinto the cell wall relative to total uptake of label. TMB-8abolished about 60% of the total incorporation of label intocell walls in the presence of auxin, but was not effective inthe absence of auxin. Exogenous CaCl₂ reversed the inhibitoryeffect of TMB-8 on relative cell wall incorporation in a parabolicmanner, with a 50% reversal at about 100 mmol m^–3 andcomplete reversal at 1.0 mol m^–3 Ca²⁺. Other ions tested(Mg²⁺, Mn²⁺, Cu²⁺, Zn²⁺) were without substantial effect atconcentrations of 0.5 mol m^–3. Both apparent uptake ofCa²⁺ and consequent reversal of TMB-8 inhibition of cell wallincorporation were blocked by the Ca²⁺ channel blockers verapamiland La³⁺. The data provide further evidence that auxin-stimulatedgrowth is dependent upon continued cell wall incorporation,and suggest that a Ca²⁺ messenger system may be involved inthe promotory actions of auxin on cell wall synthesis and long-termgrowth. Key words: Auxin, calcium, cell wall synthesis     

Total Uptake and Incorporation into DNA of 3H-Thymidine, 3H-Deoxyuridine and 3H-Thymine in the Primary Root of Vicia faba L.: I. INTACT ROOTS

Total uptake and incorporation of ³H-thymidine, ³H-thymine,and ³H-deoxyuridine into DNA have been investigated in the apical3 cm of the primary root of Vicia faba. Evidence has been obtainedthat endogenous TdR in these roots may be transported eitherapically or basally; apical movement being greater than movementfrom the apex towards the base of the root. The results havebeen discussed with respect to the possible distribution ofendogenous pools of thymidine, thymine, and deoxyuridine inthe primary root of V. faba.     

Determination of Unidirectional Sodium Fluxes in Roots of Intact Sunflower Seedlings

The method of compartmental analysis was applied to study sodiumfluxes in roots of intact seedlings of Helianthus annuus L.By measuring sodium uptake and transport to the shoots of theseedlings in parallel experiments, transport of tracer sodiumto shoots and net accumulation of Na⁺ in the roots during theflux measurements was accounted for. The steady-state sodiumfluxes in the intact sunflower roots were similar in size tothose in excised roots but in general they were somewhat higher.This indicates more metabolic activity in the intact tissues.Using whole plants it is possible to study the response of ionfluxes in roots to ecophysiological stimuli received by theshoots, and in the present experiments the effect of continuouslight versus long-day growth conditions was investigated. Potassium,when continually present, depressed all fluxes and the cytoplasmiccontent of sodium but tended to increase the vacuolar sodiumcontent, in particular when this was related to the cytoplasmiccontent. When added to sodium-loaded roots, potassium stimulatedthe plasmalemma sodium efflux but slightly, suggesting a lowefficiency of K⁺-Na⁺ exchange across the plasmalemma in intactas well as excised sunflower roots. Subsequently, however, potassiuminduced a transient decrease in the ²²Na efflux that was followedby oscillations in tracer efflux. These changes were attributedto potassium-induced transfer of sodium to vacuoles. Moreover,the oscillations seem to indicate the operation of negativefeedback control of sodium fluxes.     

Ionic Relations of Garden Orache, A triplex hortensis L.: Growth and Ion Distribution at Moderate Salinity and the Function of Bladder Hairs

The growth of garden orache, A triplex hortensis was studiedunder conditions of mild NaCl or Na₂SO₄ salinity. Growth, drymatter production and leaf size were substantially stimulatedat 10 mM and 50 mM Na⁺ salts. Increased growth, however, appearedto be due to a K⁺-sparing effect of Na⁺ rather than to salinityper se. The distribution of K⁺ and Na⁺ in the plant revealeda remarkable preference for K+ in the roots and the hypocotyl.In the shoot the K/Na ratio decreased strongly with leaf age.However, the inverse changes in K⁺ and Na⁺ content with leafage were dependent on the presence of bladder hairs, which removedalmost all of the Na⁺ from the young leaf lamina. Measurementsof net fluxes of K⁺ and Na⁺ into roots and shoots of growingAtriplex plants showed a higher K/Na selectivity of the netion flux to the root compared to the shoot. With increasingsalinity the selectivity ratio S_{K, Na}^* of net ion fluxes tothe roots and to the shoots was increased. The data suggestthat recirculation of K⁺ from leaves to roots is an importantlink in establishing the K/Na selectivity in A. hortensis plants.The importance of K⁺ recirculation and phloem transport forsalt tolerance is discussed. Key words: Atriplex hortensis, Salinity, Potassium, Sodium, K⁺ retranslocation, Bladder hairs, Growth stimulation     

The Uptake of Growth Substances: XIII. DIFFERENTIAL UPTAKE OF INDOL-3YL-ACETIC ACID THROUGH THE EPIDERMAL AND CUT SURFACES OF ETIOLATED STEM SEGMENTS

The patterns of uptake of indol-3yl-acetic acid (IAA-2-¹⁴C)by etiolated stem segments of varying lengths have been examined,employing tissues excised from (a) the first and third internodesof Pisum sativum, (b) the top and base of the hypocotyl of Gossypiumhirsutum, and (c) the mesocotyl of Avena sativa. For all species,concentrations (10^–5–10^–3 M) and times upto 24 h, there is a steady accumulation of radioactivity inthe segments. For equal volumes of tissue uptake is inverselycorrelated with segment length but for extending tissues theinitial enhanced extension growth is independent of length;that is there is no direct linkage between the rate of extensionand auxin content. Comparisons between segments with free andsealed ends established that over 24 h some 57–73 percent of the IAA enters via the cut surfaces. Initially, thepercentage is greater; expressed as a rate per unit of surfacethe differences between cut and epidermal surfaces can reach28-fold. The rate of entry through the epidermal surface islinearly proportional to the external concentration but thisdoes not hold for cut surfaces. The addition of streptomycin,synthalin, cetyltrimethylammoniumbromide (CTAB), and chitosanto the external medium does not promote uptake of IAA by Pisumsegments; indeed synthalin is markedly inhibitory. With Gossypiumsynthalin causes little inhibition. Larger depressive effectswere induced for entry via the cut surfaces. On entry the IAAis rapidly metabolized and the rate of conversion is higherfor segments with sealed ends. These findings are discussedin relation to (a) differences in the mechanisms determiningthe uptake of IAA and other auxins, (b) cell extension and thedistribution of auxin in the tissues.     

Effect of Gibberellic Acid on the Distribution of Products of Photosynthesis in Sunflower

Single leaves on growing sunflower plants were allowed to assimilate¹⁴CO₂. Gibberellic acid was applied to the same leaf or to theterminal bud or the roots, and the distribution of assimilated¹⁴C was determined at intervals of 1–96 h. Gibberellicacid had no significant effect on initial distribution of ¹⁴Cduring the period of rapid export from the leaf, but enhancedre-export from the roots after translocation from the leaf hadvirtually ceased. Most of the ¹⁴C exported from the roots accumulatedin the shoot tip. The site of application of the hormone wasof relatively minor importance. Wherever it was applied themajor effect was enhancement of movement from the roots to theshoot tip. Application to the terminal bud was most effectivein this respect. There was no evidence that gibberellic aciddirectly affected the transport system, but the data supportthe hypothesis that it increases the strength of the sink inthe shoot tip. Helianthus annuus L., sunflower, assimilate transport, gibberellic acid, phloem transport     

Inhibition of Ion Transport in Excised Barley Roots by Abscisic Acid; Relation to Water Permeability of the Roots

Previous papers have shown that abscisic acid can inhibit transportof ions across the root to the xylem vessels, resulting in reducedexudation from excised roots or inhibiting guttation from intactplants. However, it has not been established whether the inhibitionwas due to a reduction in salt transport (J_s) or in permeabilityof the roots to water (L_p). This paper investigates the effectof ABA on L_p and J_s separately. It is shown that L_p increasedin ABA and then fell, but was about the same as in control rootswhen transport was inhibited. The effect of ABA on exudationtherefore appeared to be mainly due to reduction in J_s. Inhibitionof J_s was also present in intact, transpiring plants and sowas not due to reduced water flow. The inhibition of ion releaseto the xylem affected Na⁺, Mg²⁺, Ca²⁺, and phosphate as wellas the major ion in the exudate, K⁺. It is concluded that ABAinhibits salt transport to the shoot by acting on ion transportinto the xylem, and not by reducing water flow coupled withsalt transport.