Requirement of sodium chloride for the action of gibberellic acid in stimulating hypocotyl elongation of a halophyte, Salicornia herbacea L.

NaCl stimulated hypocotyl elongation of the halophyte Salicorniaherbacea L. grown either in light or dark. Its optimal concentrationwas around 0.1–0.2 M and its promoting effect was muchmore prominent in the dark. Gibberellic acid at 10^–5 Mstimulated hypocotyl elongation in light but not in the dark.Indole-3-acetic acid and kinetin were ineffective in promotinghypocotyl elongation. In light, gibberellic acid and NaCl synergisticallyenhanced hypocotyl elongation when both were given simultaneously.The action of NaCl could be replaced by KCl, but not by mannitol.Osmotic pressure of the epidermis of the Salicornia hypocotylincreased in response to gibberellic acid and/or NaCl treatment.Na⁺ content in the hypocotyl increased with NaCl application.Gibberellic acid and NaCl when given alone increased the extensibilityof the hypocotyl cell wall. Synergistic interaction in increasingthe extensibility was observed between gibberellic acid andNaCl. Stress-relaxation analysis of mechanical properties ofthe hypocotyl wall revealed that gibberellic acid and NaCl actedsynergistically in decreasing minimum relaxation time. Basedon these results, a possible mechanism by which gibberellicacid and NaCl regulate hypocotyl elongation of Salicornia herbaceaL., a typical halophilic plant, is discussed. ¹ Present address: Laboratory of Biology, Tezukayama College,Gakuen Minami, Nara 631, Japan. (Received June 13, 1978; )     

Quantifying latitudinal clines to light responses in natural populations of Arabidopsis thaliana (Brassicaceae)

Evidence of adaptation in Arabidopsis thaliana (Brassicaceae) phenotypic traits has rarely been shown. We demonstrate latitudinal clines in two A. thaliana traits: hypocotyl responses to red and far-red light. Natural populations of A. thaliana were sampled along a latitudinal gradient from southern to northern Norway. Seeds from maternal families within each population were subjected to 1 wk of constant red, far-red, blue, white, and dark treatments. Hypocotyl lengths were measured for each maternal family within each population. Significant variability within and among populations in hypocotyl responses for the various treatments was found. There was a significant latitudinal cline in hypocotyl responses for red and far-red treatments, with northern populations being more de-etiolated than southern populations. These results suggest that northern populations are more responsive to red and far-red light than southern populations. Thus, differentiation of seedling traits in natural populations of A. thaliana seems in part to be mediated by the phytochrome pathway. There was no correlation between hypocotyl responses and flowering time for any treatment. This suggests that flowering time variability and variability in hypocotyl responses may not be governed by genes shared between the pathways, such as those involved in photoreception or the circadian clock.     

Promotion of Hypocotyl Elongation in Watermelc Seedlings by 6-Benzyladenine

Hypocotyl elongation under white fluorescent light was aboutdoubled in dwarf watermelon (Citrullus lanatus0 (Thunb.) Matsu.and Nakai) seedlings treated with 0.1 to 0.3 µg apicaland 3 x 10–6 to 10.3 M root applications of 6-benzyladenine(BA). BA-enhancement of growth occurred primarily during thefirst 48 h after treatment. Increased hypocotyl length in BA-treatedseedlings was attributed more to longer cells than to an increasein cell number. Early hypocotyl growth of normal seedlings wasalso significantly enhanced by BA although final hypocotyl lengthwas not substantially affected. Benzyladenine caused expansion of cotyledons and, at higherdoses, lateral expansion of hypocotyls. BA-induced increasesin fresh weight of cotyledons and hypocotyls were accompaniedby an increase in dry weight of hypocotyls at the expense ofroots which had less dry matter than untreated seedlings.     

Control by Light of Hypocotyl Elongation and Levels of Endogenous Gibberellins in Seedlings of Lactuca sativa L.

Four 13-hydroxygibberellins, gibberellin A₁ (GA₁), 3-epi-GA₁,GA₁₉ and GA₂₀ were identified by full-scan GC/MS in extractsof lettuce seedlings (Lactuca sativa L. cv. Grand Rapids). Theresults suggest that the early-13-hydroxylation biosyntheticpathway to GA₁ functions in the lettuce seedlings. It was alsofound that GA₁ is active per se in the control of hypocotylelongation in lettuce seedlings. To investigate the relationshipbetween control by light of hypocotyl elongation and levelsof endogenous GAs in lettuce, endogenous levels of GAs werequantified by radioimmunoassay in seedlings that had been grownfor 5 days in the dark (5D) and in those that had been grownfor 4 days in the dark and then under white light for 1 day(4D1L). The endogenous level of GA₁ in the upper and lower partsof hypocotyls in 5D seedlings was about four times higher thanthat in 4D1L seedlings. The response of explants (hypocotylsegments with cotyledons) from dark-grown seedlings to GA₁ isknown to be similar in the dark and under white light when theexplants are treated with inhibitors of the biosynthesis ofGA. Therefore, the above information suggests that the highlevel of GA₁ in hypocotyls of dark-grown seedlings is responsiblefor the rapid elongation of hypocotyl, while irradiation bywhite light decreases the endogenous level of GA₁ in the hypocotylswith a resultant decrease in the rate of hypocotyl elongation. (Received March 13, 1992; Accepted May 21, 1992)     

Seed Coat Retention and Hypocotyl Hook Development in Mutants of Arabidopsis thaliana L.

Germination and growth of wild-type and two mutant strains (aux-1and Dwf) of Arabidopsis thaliana L. have been examined. Seedlingsof aux-1 exhibit agravitropic roots whereas Dwf display bothagravitropic roots and shoots. Wild-type seedlings retained the seed coat at the root-hypocotyltransition zone and developed hypocotyl hooks. In contrast,aux-I and Dwf seedlings did not retain their seed coats andlacked hypocotyl hooks. A positive gravitropic response of theroots was essential for the retention of the seed coat at theroot—hypocotyl transition zone by the attachment of roothairs to the seed coat. The development of the hypocotyl hookwas aided by the retention of the seed coat. The apical regionof the hypocotyl apparently remained agravitropic during formationand maintenance of the hypocotyl hook. Arabidopsis thaliana L., auxins, gravitropism, hypocotyl hook, mutants, peg formation, germination     

A Comparative Study of some Methods for Measuring Cell Growth Potentials in Vigna radiata Hypocotyl, in situ and after Excision

Prat, R. 1985. A comparative study of some methods for measuringcell growth potentials in Vigna radiata hypocotyl, in situ andafter excision.—J. exp. Bot. 36: 1150–1158. Accurate estimations of growth rates are required to understandthe development of physiological and biochemical parametersinvolved in growth processes. Growth measurements can be madeeither ‘in situ’ on whole seedlings by marking successivelevels or ‘in vitro’, after excision of successivehypocotyl segments. These different methods have been comparedin order to determine which measurements allow one to assessaccurately the normal growth characteristics. In vitro measurementsperformed with excised segments required a prolonged incubationperiod before stable growth rates were achieved. The growthpotentials of the successive hypocotyl levels remain unchangedafter excision. These in vitro measurements can therefore beused to assess the growth characteristics of cells in hypocotyls. Key words: Vigna radiata, hypocotyl, growth measurements     

Enhancement of Gibberellic Acid-stimulated Hypocotyl Elongation of Lettuce (Lactuca sativa L. cv. Grand Rapids) by Phlorizin and Light

The interaction of light, gibberellic acid (GA₃), and phlorizinin the growth of lettuce (Lactuca sativa L. cv. ‘GrandRapids’) hypocotyls was investigated. At all concentrationsof GA₃, phlorizin enhanced GA₃-induced growth at luminous intensitiesabove 50 ft-c (continuous light). Without GA₃, phlorizin hadno effect on hypocotyl growth in the light but it inhibitedgrowth in the dark. Both seedlings and hypocotyl sections respondedto phlorizin in the presence of GA₃. There was no iteractionbetween phlorizin and KCl. Water-growth was severly inhibitedby light. GA₃,-induced growth was slightly inhibited by light,and then only at luminous intensities above 50 ft-c. Thus, relativeto H₂O-growth, GA₃-induced growth increased with increasingluminous intensity up to 450 ft-c, where it reached saturation.It seems that a synergism may exist between light and GA₃ aswell as between phlorizin and GA₃. Lactuca sativa L, lettuce, hypocotyl elongation, gibberellic acid, phlorizin, light     

Effect of Hypocotyl Excision on Red Light-Mediated Betacyanin Formation in Amaranthus Seedlings

The effect of hypocotyl excision on red light-mediated betacyanininduction in cotyledons of Amaranthus caudatus L. was studiedusing etiolated, 3-day-old half-seedlings and isolated cotyledons.The removal of the hypocotyl promoted betacyanin formation undersafelight conditions in a manner competitive with brief (5 mins),but additive with prolonged (6 h) red illumination. If a papersupport was provided in order to improve the aeration, betacyaninformation in safelight conditions was further stimulated, reducingthe inductive effect of brief, but not changing the action ofprolonged red illumination. These results demonstrate that betacyaninphotoregulation is restricted to cotyledons of A. caudatus seedlings,with no evidence for transmission of light signals between differentorgans. Excision and aeration appear to promote selectivelya very low fluence response (VLFR) induced by safelight, suggestingdifferent mechanisms of phytochrome phototransduction underVLFR, low fluence response induced by brief saturating red light(LFR) and high irradiance reaction (HIR) occurring under prolongedred illumination. Amaranthus caudatus L, betacyanin photoregulation, red light, very low fluence phytochrome reaction     

Genetic Variation of Hypocotyl Length in the Brussels Sprout

A study was made of variation in the hypocotyl length of twoinbred lines of Brassica oleracea gemmifera (Brussels sprout).The pattern of means and variances obtained from parental, F₁,F₂ and backcross generations suggested polygenic control ofhypocotyl length. Measurements of parental seed weights, embryocell numbers, and the growth of seedlings from seeds of knownweight support the view that variation between the lines inhypocotyl length, when the seedlings were exposed to light,was determined by differential extension rather than by initialdifferences in seed weight. The effect of reduction in lightintensity on hypocotyl extension was studied and the differencesbetween the lines was maintained under all light intensities.Differential reaction of the lines was only observed when theperiod allowed for growth was short. The inbred line with thelonger hypocotyl was shown to suppress the other under competitiveconditions.     

Anatomy, Growth and Survival of a Long-hypocotyl Mutant of Cucumis sativus Deficient in Phytochrome B

Plant dry matter (DM) partitioning, survival rates, stem anatomy,and stem water conductivity were investigated in wild-type (WT)and long-hypocotyl (lh) mutant seedlings of cucumber (Cucumissativus) grown as isolated individuals under natural radiation.The lh mutant is severely deficient in phytochrome B. Wild-typeseedlings accumulated more DM than lh seedlings over a 4-weekgrowth period in the glasshouse. Leaf and root DM were higherin the WT but stem DM was higher in the lh mutant. Stem DM perunit length was larger in WT than in lh mutant seedlings, evenwhen the two genotypes were compared at equal whole plant DM,which was achieved by growing the plants under different irradiance.In WT seedlings, the hypocotyl was shorter but thicker, withlarger average cell diameter than the lh mutant. In hypocotyltransverse sections the area occupied by load-bearing tissues(xylem and phloem fibres) and the number and diameter of xylemvessels were larger in WT than lh seedlings. Survival ratesof the lh mutant were normal in the glasshouse but very lowoutdoors due to hypocotyl fracture. The water conductivity ofhypocotyl sections was higher in WT than lh seedlings, but nosignificant differences in water conductivity were observedwhen the root remained attached to the hypocotyl. These resultssuggest (a) that compared to the WT, tall and slender lh plantsare more susceptible to mechanical stresses created by windimpact, and (b) that if the lh lesion affects the phyB geneonly, phytochrome B plays a role in the elicitation of anatomicaland morphological changes that specifically increase fitnessin open environments.Copyright 1994, 1999 Academic Press Cucumis sativus (cucumber), light phenotypes, phytochrome, photomorphogenesis, shade phenotypes, stem growth     

Genotype, explant and position effects on organogenesis and somatic embryogenesis in eggplant (Solanum melongena L.)

The relative importance of genotype and explant, and their interactionsfor in vitro plant regeneration via both organogenesis and somaticembryogenesis in Solanum melongena (eggplant) has been studied.Hypocotyl, cotyledon and leaf explants of four commerciallygrown Indian cultivars, Pusa Purple Long, Long White Cluster,Pusa Kranti, and Pusa Purple Cluster were used in the study.A combination of benzyladen-ine (11.1 µM) and indoleaceticacid (2.9 µM) was found to be optimum for shoot regeneration.Naphthalene acetic acid induced embryogenesis in all the threeexplants; 32.2µM was optimum for hypocotyl explants while10.7µM yielded maximum number of somatic embryos fromcotyledon and leaf explants. Genotype, explant and genotype-explantinteraction had highly significant effects on both organogenesisand somatic embryogenesis with genotype exerting maximum effecton both these processes. Pusa Purple Long was found to be themost responsive genotype for regeneration of both adventitiousshoots and somatic embryos among the cultivars. Among the explants,hypocotyls yielded the maximum number of adventitious shootsfollowed by cotyledons and leaves. The embryogenic responseof leaves and cotyledons was, however, significantly higherthan that of hypocotyl explants. Significant differences formorphogenetic potential were also observed within a single explant(hypocotyl). There was a basipetal gradient for organogenesis(i.e. decrease in number of shoots from base to apex) whilethe terminal hypocotyl segments showed better embryogenic potentialthan the median segments. Key words: Solarium melongena, organogenesis, somatic embryogenesis, genotype, explant, position effect     

Effect of Light Quality (Red:Far-red Ratio) at the Apical Bud of the Main Stolon on Morphogenesis of Trifolium repens L.

A controlled environment experiment investigated whether thered:far-red (R:FR) ratio of light at the apical bud of the mainstolon could alter plant morphogenesis in clonal cuttings ofwhite clover (Trifolium repens L.) The apical bud included theapical meristem, five to six developing leaf primordia withassociated axillary bud primordia and stipules and the firstemerged folded leaf until development was greater than 0·3on the Carlson scale. Three light regimes were imposed on theapical bud by collimating light from R or FR light-emittingdiodes so that the R:FR ratio of light incident at the apicalbud was set at 0·25, 1·6 or 2·1, withoutsignificantly altering photosynthetically active radiation.The effect of these light regimes on white clover seedling growthwas also tested. At a low R:FR ratio seedling hypocotyl and cotyledon lengthswere significantly longer. However, with the cuttings, the lighttreatments did not alter node appearance rate or internode lengthof the main stolon, petiole length, area of leaves or totalshoot dry matter. There was one significant photomorphogeneticresponse in the cuttings, a delay of 0·5 of a phyllochronin the appearance of branches from axillary buds in the lowR:FR ratio treatment relative to the other treatments. Wherebranch appearance was delayed plants had fewer branches. Thisdifference could be ascribed solely to a delay in branch appearanceas there were no significant treatment effects on either theinitiation of axillary bud primordia within the apical bud,the probability of branching or on the rate of growth of branchesafter appearance. Because treatment of the apical bud inducedonly one of the many previously observed responses of whiteclover to a decrease in the R:FR ratio of light, we concludethat other plant organs must also sense the quality of incidentlight.Copyright 1994, 1999 Academic Press White clover, Trifolium repens, apical bud, light quality, red:far-red ratio, light-emitting diode, branching, axillary buds, photomorphogenesis     

Effects of Natural and Artificial Light in Arctic Latitudes on Long- and Short-day Plants as Revealed by Growth Analysis

The effects on growth and flowering of two short-day and twolong-day plants when grown under different conditions of illuminationare described. The plants fully investigated were Kalanchoeblossfeldiana and Xanthium pennsylvanicum and the annual varietiesof Hyoscyamus niger and Beta vulgaris. Wintex barley, Iberisumbellata, and tomato were also grown in some selected treatments.The conditions investigated comprised continuous full daylight(24 hours), full daylight for the whole of the daily photoperiodand full daylight for half the photoperiods, the other halfconsisting of either daylight reduced by shading or light fromincandescent lamps or fluorescent tubes (daylight-matching type),all of the same low intensity. Two lengths of photoperiod wereused for each species, one nearly optimal for flowering, theother closer to the critical day-length; and the order of thelow and high light treatments was varied. These factors werecombined factorially. Data were collected (or derived) for the following characteristics,though not always for all the species grown: dry weights, leafareas, heights, water contents, epidermal cell sizes, net assimilationrates, times to flowering, leaf-number increments until flowering,numbers of inflorescences, stomatal apertures, and leaf postures. Among other effects, the data revealed that in all four speciesinvestigated the adverse effects on over-all growth to be expectedfrom reduction of the daily photoperiod or of the intensityof illumination are in fact minimized. This compensation waseffected mainly by large increases in leaf areas, even thoughin all cases half the daily photoperiod consisted of full daylight.There are indications that increased efficiencies (net assimilationrates) may also have been involved. The leaf-area increasesappear to have been due to increased cell size rather than cellnumber and a close positive correlation with water content wasfound. The most striking among the effects on flowering was the failureof sugar-beet to bolt when half of its photoperiod (totals of20 and 14 hours) consisted of light from fluorescent lamps.The flowering of barley and Hyoscyamus was also delayed considerablyunder these conditions. The deficiency of red in the spectrumof the fluorescent light is believed to have been the cause.By contrast, the flowering of Iberis, a crucifer, was not affected.     

Mung Bean Hypocotyl Homogalacturonan: Localization, Organization and Origin

Specific antibodies were used to localize both pectic structuresand pectinmethylesterases (PME) along the mung bean hypocotyl.Calcium ions were also detected and estimated in both young,plastic and mature, stiffened cell walls. Highly methylesterifiedpectins were present in all cell walls but decreased from thehypocotyl hook downwards. Expanded cell walls were characterizedby a high content of calcium ions and acidic pectins, althoughthe latter's cross-reactivity to JIM 5 antibodies was partlylost. Co-localization of acidic homogalacturonan and calciumions suggests the presence of egg-box structures that mightparticipate in the cell wall stiffening process which developsalong the hypocotyl. Acidic polymers could originate from theactivity of the pectinmethylesterases present in precise wallareas but direct export of acidic polygalacturonan through Golgivesicles was also observed. Copyright 1999 Annals of BotanyCompany Cell walls, immunolocalization, hypocotyl, mung bean, pectin organization, Vigna radiata.     

Shoot and Plantlet Formation in Organ and Callus Cultures of Albizzia lebbek Benth

Plantlets were produced in vitro from root and hypocotyl explantstaken from seedlings of the tree legume, Albizzia lebbek. Theseexplants formed shoots when cultured with 5.0 mg l^–1 kinetinand 1.0 mg l^–1 IAA in MS medium. Shoots were also inducedin large numbers from callus treated with benzylaminopurine.About 20 per cent of the shoots rooted and were grown into plants. Albizzia lebbek Benth, tree legume, hypocotyl, root, in vitro cultures, shoot-plantlet induction     

The Role of DNA Synthesis During Hypocotyl Elongation in Light and Dark

Fluorodeoxyuridine, an inhibitor of DNA synthesis, did not affectgermination and post-germinative growth in the aerial part oflettuce and Haplopappus gracilis seedlings when grown in thelight. In the dark, however, elongation of the hypocotyl wasinhibited by fluorodeoxyuridine, strikingly in lettuce and onlyslightly in Haplopappus gracilis. This could imply that thecontrolling mechanism of hypocotyl elongation is in some casesrelated to DNA synthesis, either because mitotic processes (oftenlittle taken into account in considering hypocotyl growth) areinvolved in the elongation of hypocotyls only when they aregrown in the dark, or because DNA synthesis affects cell elongationdirectly, or through the production of a greater number of endopolyploidcells in the dark. Using mainly autoradiographic and cytofluorimetricmethods, these possibilities were tested. Besides lettuce (Lactucasativa L. var. Great Lakes) and H. gracilis (Nutt.) Gray, radish(Raphanus sativus L. var. Tondo rosso quarantino) and soybean(Soya hyspida Sieb. and Zucc. var. Tokyo) seedlings were alsostudied. Fluorodeoxyuridine drastically inhibits cell elongation onlywhen it is preceded or accompanied by mitotic or endomitoticevents. Need for DNA synthesis during hypocotyl elongation,as well as during early post-germinative growth, seems to beof particular importance when endomitotic processes are involved. DNA synthesis, elongation, endoreduplication, fluorodeoxyuridine, Haplopappus gracilis (Nutt.) Gray, Lactuca sativa L., Raphanus sativus L., Soya hyspida Sieb and Zucc     

Narrow-band light regulation of ethylene and gibberellin levels in hydroponically-grown <Emphasis Type="Italic">Helianthus annuus</Emphasis> hypocotyls and roots

Both hypocotyl and root growth of sunflower (Helianthus annuus) were examined in response to a range of narrow-band width light treatments. Changes in two growth-regulating hormones, ethylene and gibberellins (GAs) were followed in an attempt to better understand the interaction of light and hormonal signaling in the growth of these two important plant organs. Hydroponically-grown 6-day-old sunflower seedlings had significantly elongated hypocotyls and primary roots when grown under far-red (FR) light produced by light emitting diodes (LEDs), compared to narrow-band red (R) and blue (B) light. However, hypocotyl and primary root lengths of seedlings given FR light were still shorter than was seen for dark-grown seedlings. Light treatment in general (compared to dark) increased lateral root formation and FR light induced massive lateral root formation, relative to treatment with R or B light. Levels of ethylene evolution (roots and hypocotyls) and concentrations of endogenous GAs (hypocotyls) were assessed from both 6-day-old sunflower plants either grown in the dark, or treated with FR, R or B light. Both R and B light had similar effects on hypocotyl and root growth as well as on ethylene and on hypocotyl GA levels. Dark treatment resulted in the highest ethylene levels, whereas FR treatment significantly reduced ethylene evolution for both hypocotyls and roots. R- and B-light treatments elevated ethylene evolution relative to FR light. Endogenous GA₅₃ and GA₁₉ levels in hypocotyls were significantly higher and GA₄₄, GA₂₀ and GA₁ levels significantly lower, for dark and FR light treatments compared to R and B light-treatments. The patterns seen for changes in GA concentrations indicate FR-, R- and B-light-mediated effects [differences] in the metabolism of the early C₂₀ GAs, GA₅₃ → GA₄₄ → GA_19. Surprisingly, GA₂₀, GA₁ and GA₈ levels in hypocotyls were very much reduced by treatment of the plants with FR light, relative to B and R-light treatments, e.g. the increased hypocotyl elongation induced by FR light was correlated with reduced levels of all three of the downstream C₁₉ GAs. The best explanation, albeit speculative, is that a more rapid metabolism, i.e. GA₂₀ → GA₁ → GA₈ → GA₈ conjugates occurs under FR light. Although this study provided no evidence that elevated ethylene evolution by roots or hypocotyls of sunflower is controlling growth via endogenous GA biosynthesis, there are differences between soil-grown and hydroponically-grown sunflower seedlings with regard to trends seen for hypocotyl GA concentrations and both root and hypocotyl ethylene evolution in response to narrow band width R and FR light signaling.     

Light growth inhibition and growth inhibitors in Sakurajima radish seedlings

Growth of Sakurajima radish seedlings (Raphanus sativus var.hortensis f. gigantissimus Makino) was studied in relation tothe effects of light, the effectiveness of plant hormones, andthe variation in endogenous growth inhibitor content Externally applied GAs and IAA had no effect on the elongationof the hypocotyl in the light as well as in the dark. BA wasslightly promotive in the light, but was not so effective asto nullify the light-induced inhibition of elongation. ABA wasstrongly suppressive in the light as well as in the dark. Growth inhibitors in seedlings were extracted, analyzed by thin-layerchromatography and the Sakurajima radish hypocotyl elongationtest, and 3 acidic and 3 neutral inhibitors were detected. Amongthem all of the acidic and one of the neutral inhibitors increasedwith the time period of illumination, whereas the other 2 neutralsubstances remained almost unchanged in the light but decreasedin the dark. Thus the levels of all 6 inhibitors was higherin light-grown seedlings than in dark-grown ones. This suggeststhat light inhibition in Sakurajima radish hypocotyls may becontrolled by the variation in the inhibitor levels in the seedlings. (Received December 1, 1977; )     

Hormonal Regulation of Hypocotyl Elongation in Lactuca sativa L.: I. EVIDENCE AGAINST THE INVOLVEMENT OF GIBBERELLINS IN THE ELONGATION OF HYPOCOTYL IN SEEDLINGS GROWN IN THE DARK

The kinetics of extension induced by GA₃¹ in the hypocotyl ofintact seedlings of Lactuca sativa are similar in the dark andin the light, and differs fundamentally from the kinetics ofelongation in the dark without GA₃. Both in continuous lightand in the dark, GA₃-induced promotion starts 24 h after incubation.In the dark, even low concentrations of GA₃, which do not affectthe length measured after 6 d when the extension of hypocotylalmost ceases, remove the lag period of 48 h which precedesextension, and prolong the high rate of elongation. FollowingGA₃ supply the hypocotyl length in the dark and in the lightdoes not differ until 48 h; thereafter the rate of elongationin the light is less, so that the final length of the hypocotylis 40 per cent shorter than that of the dark-grown seedlingswithout GA₃. IAA supplied apically to light-grown seedlings induces a weakpromotion at a concentration of 1 mg l^–1 only. With anincreasing concentration of GA₃ supplied simultaneously, theconcentration of IAA inducing a significant promotion decreases.A combined supply of both these regulators, however, does notrestore the light-mediated inhibition of hypocotyl elongationcompletely. The maximum decrease in hypocotyl length induced by the growthretardants AMO-1618, CCC, and B-9 supplied from the beginningin the dark does not exceed 70 per cent. Saturating doses ofGA₃ supplied in combination with any one of the retardants compensateonly a fraction of the decrease. The results have been interpreted to show that native GAs arenot involved in extension growth in the dark.     

Cell elongation, turgor and osmotic pressure in developing sunflower hypocotyls

The relationship between cell elongation, change in turgor andcell osmotic pressure was investigated in the sub-apical regionof hypocotyls of developing sunflower seedlings (Helianthusannuus L.) that were grown in continuous white light. Cell turgorwas measured with the pressure probe. The same hypocotyl sectionswere used for determination of osmotic pressure of the tissuesap. Acceleration of cell elongation during the early phaseof growth was accompanied by a 25% decrease in both turgor andosmotic pressure. During the linear phase of growth both pressuresremained largely constant. The difference between turgor andosmotic pressure (water potential) was –0.10 to –0.13MPa. Excision of one cotyledon had no effect on growth, turgorand osmotic pressure. However, after removal of both cotyledonscell elongation ceased and a substantial decrease in both pressureswas measured. In addition, we determined the longitudinal tissuepressure in seedlings from which one or both cotyledons hadbeen removed. Tissue pressure and turgor were very similar quantitiesunder all experimental conditions. Our results demonstrate thatturgor and cell osmotic pressure show a parallel change duringdevelopment of the stem. Cessation of cell elongation afterremoval of the cotyledons is attributable to a decrease in turgor(tissue) pressure, which provides the driving force for growthin the hypocotyl of the intact plant. Key words: Cell elongation, Helianthus annuus, osmotic pressure, tissue pressure, turgor