Induction and Production of Flowers in a Short-Day Duckweed, Lemna paucicostata 6746, in Diluted Hutner's Medium in Uninterrupted and Interrupted Darkness

Kinetics of induction and production of flowers were studiedin Lemna paucicostata 6746 cultured in 1/4, 1/10, 1/20 and 1/80H1S media (Hutner's media supplemented with 1% sucrose). In continuous darkness, the floral parameters a (vegetativegrowth rate), (flowering ratio), P₁ (pre-flower induction period)and P₄ (flower production period) in diluted media were similarto those in 1/2 H1S medium. However, P₂ (flower induction period)was greatly extended by the dilution of the medium up to 1/10strength and was gradually shortened by further dilution upto 1/80 strength. P₁ and P₂ in 1/4 H1S medium were extended by 1.0 and 2.5 days,respectively, by the interruption of the dark period with 5-minred light at the 7th h. However, the extension of P₁ and P₂due to dark period interruption was not observed in more dilutedH1S medium. It is suggested that certain ions in H1S medium are affectingthe timing mechanism of flower induction in L. paucicostata6746. (Received December 23, 1983; Accepted June 6, 1984)     

Flower-inducing Activity of Vitamin K in Lemna paucicostata

Vitamins K₁ K₃ and K₅ induced flowering in Lemna paucicostata151, a short-day plant, cultured in 1/10 strength M medium (1/10M medium) under continuous light, and their activity was greatlyintensified by simultaneous application of benzyladenine. Themost active of these was vitamin K₅ L. paucicostata 6746 ismore sensitive to vitamin K₅ than strain 151, but the effectof vitamin K₅ on strain 6746 was not intensified by benzyladenine.The flower-inducing activity of vitamin K₅ was intensified bythe addition of benzoic acid in both strains and by the additionof copper or ferricyanide in Strain 6746, when these chemicalswere added at such low concentrations that they would scarcelyinduce flowering. In strain 6746, vitamin K₅ added to 1/10 M had little effecton flowering under a subcritical photoperiod, while it clearlyinduced flowering under continuous light. In this strain, vitaminK₅ added to full strength M medium, in which this plant wasmore sensitive to short photoperiods than in 1/10 M medium,did not induce flowering even under continuous light, and wasrather inhibitory under short photoperiods. (Received August 14, 1984; Accepted October 16, 1984)     

Effect of temperature on induction and production of flowers in Lemna paucicostata 6746 in uninterrupted and interrupted darkness

Effects of temperatures ranging from 16 to 31^?C on inductionand production of flowers in Lemna paucicostata 6746 were studiedin uninterrupted and interrupted darkness. In uninterrupted darkness, the growth rate (a) and floweringratio () increased and the flower production period (P₄) decreasedas the temperature rose. On the contrary, the pre-flower inductionperiod (P₁) and the flower induction period (P₂) were independentof temperature except that P₂ was remarkably extended at 31^?C.Thus, a, and P₄ may be rate-limited by chemical reactions andP₁ and P₂ by physical reactions. P₂ started at the onset ofdarkness. A red light pulse given 7 hr after the start of the dark periodextended P₁, P₂ and P₄ without modifying a and at any temperature.The pulse extended P₁ by one day irrespective of temperature,and the sensitivity of P₁ to the pulse was constant at all temperatures.The red light pulse caused obvious extensions of P₂ and P₄ at21–26^?C, but no extension at lower and higher temperatures.Thus, the extension of P₁ by red light seems to be rate-limitedby a physical reaction and those of P₂ and P₄ by chemical reactions. (Received September 26, 1978; )     

Flower-inducing Effect of Benzoic and Salicylic Acids in Various Strains of Lemna paucicostata and L. minor

The flower-inducing activities of benzoic and salicylic acidsadded to the medium differ with the species (Lemna paucicostataand L. minor), and even with the strains used. The type andpH of the medium used, full or 1/10 strength M medium at pH3.8, 4.4 or 5.1, or 1/2 or 1/20 strength NH₄⁺-free Hutner'smedium at pH 5.0, 6.0 or 7.0, also modify their activity. L.paucicostata, strain 151 is the most sensitive of the strainsused to both benzoic and salicylic acids followed by strain381. Such dramatic flowering responses were not obtained withthe other strains, but even strain 321, reportedly insensitiveto benzoic acid, could be induced to flower by adding benzoicacid to a modification of the medium. Benzoic acid is more effectivethan salicylic acid for all strains of L. paucicostata, butthe contrary is true for two L. minor strains tested. A higherpercentage of flowering is obtained in L. paucicostata in 1/2strength NH₄⁺-free Huter'sn medium than in M medium, exceptfor strain 151. When diluted, both media enhance flowering inall L. paucicostata strains. Generally, a lower concentrationof benzoic acid or salicylic acid is enough to induce floweringwhen the pH of the medium is lower. (Received March 30, 1981; Accepted May 16, 1981)     

Flower-Promoting Effects of Iron and EDDHA in Lemna paucicostata 151

Lemna paucicostata 151 cultured in 1/10 strength M medium containing50 µM FeCl₃ easily flowered in response to short days,although it scarcely flowered under any photoperiod when themedium contained the standard amount of iron (2 µM FeCl₃).The flowering response was accomparied by an increase in theiron content of the plants, which was maximal at pH 5.0. Instandard M medium containing 50 µM FeCl³, this plant didnot flower even though it had a high iron content. Ethylenediamine-di (o-hydroxyphenylacetic acid) (EDDHA) inducedflowering of this strain under continuous light even in theabsence of iron and copper, and its effect was slightly loweredby the presence of iron in the medium. Thus the flower-inducingactivity of EDDHA could not be attributed to the action of ironor copper. EDTA inhibited both the iron uptake and floweringin Fe-rich medium under short-day conditions. (Received May 16, 1986; Accepted July 25, 1986)     

Effect of far-red light pulse on induction and production of flowers in Lemna paucicostata 6746 in darkness

A short-day duckweed, Lemna paucicostata 6746, was exposed tocontinuous darkness at 26^?C, and the changes in the floral parameters(3) due to far-red and/or red light pulse given at various timesof the dark period were studied. Parameters a (vegetative growth rate) and (flowering ratio)were respectively decreased and increased with a far-red lightpulse given at the outset of the dark period. The decreaseda and the increased remained almost unchanged until the 7thhour, but returned to their initial levels thereafter. The far-redlight actions on a and were reversed by subsequent exposureto red light. Parameter P₁ (pre-flower induction period) wasextended by 1 day when far-red and/or red pulse was given atabout the 7th hour of the dark period. A far-jed pulse givenat the outset of the dark period only affected parameter P₂(flower induction period). Although the sensitivity of P₂ tored light increased with time, its sensitivity to far-red lightremained constant and at about the 7th hour was equally sensitiveto far-red and red lights. Both red and far-red pulses givenlater than the 7th hour were increasingly ineffective on P₂.The red/far-red reversibility occurred only for the action onP₂ of the far-red pulse applied during the early dark period.Parameter P₄ (flower production period) varied rhythmicallyin length with a far-red puke, the maximum shortening and extensionbeing induced by the pulse given at about the 7th and 19th hours,respectively. The sensitivity of P₄ to red light also changedrhythmically with an inverse phase angle to the rhythmic responseto farred light, and the far-red and red light actions werereversed respectively by subsequent red and far-red lights. These findings suggested that multiple timing devices includingan hourglass-type clock and a circadian clock are involved induckweed flowering. (Received October 25, 1978; )     

Effect of Ferricyanide, Ferrocyanide and KCN on Growth and Flowering in the Short-Day Plant Lemna paucicostata 6746

Flowering in the short-day plant Lemna paucicostata 6746 canbe induced under continuous light by the addition of ferricyanie,ferrocyanide or KCN to M-sucrose medium. Each substance is nearly10 times more effective when the flasks are covered by glassbeakers than when cotton plugs are used. By contrast, when floweringis induced under continuous light by copper or by short-daytreatment, neither flowering nor growth are affected by whetherglass beakers or cotton plugs are used. Ferricyanide, ferrocyanideand KCN are also able to induce long-day flowering when theplants are grown on Msucrose medium in small beakers that areplaced in a covered storage dish that also contains a solutionof one of these compounds. Addition of a KOH trap to the storagedish completely blocks the flowering induced by these compounds.If [¹⁴C]ferrocyanide is added to the storage dish both the M-sucrosemedium and the plants contain significant amounts of radioactivity,the amount of radioactivity being proportional to the floweringresponse. These results indicate that ferricyanide, ferrocyanideand KCN break down to release HCN and that it is the HCN whichis responsible for inducing flowering in L. paucicostata 6746under continuous light. ¹Present address: Department of Biology, Osaka Kyoiku University,Ikeda, Osaka 563, Japan. ²Present address: Institute of Horticulture, The Volcani Center,P. O. B. 6, Bet-Dagan, Israel. (Received January 17, 1983; Accepted March 24, 1983)     

Possible physiological mechanisms for production of hydrogen peroxide by the ichthyotoxic flagellate Heterosigma akashiwo

Blooms of the toxic red tide phytoplankton Heterosigma akashiwo(Raphidophyceae) are responsible for substantial losses withinthe aquaculture industry. The toxicological mechanisms of H.akashiwoblooms are complex and to date, heavily debated. One putativetype of ichthyotoxin includes the production of reactive oxygenspecies (ROS) that could alter gill structure and function,resulting in asphyxiation. In this study, we investigated thepotential of H.akashiwo to produce extracellular hydrogen peroxide,and have investigated which cellular processes are responsiblefor this production. Within all experiments, H.akashiwo producedsubstantial amounts of hydrogen peroxide (up to 7.6 pmol min^–110⁴ cells^–1), resulting in extracellular concentrationsof ~0.5 µmol l^–1 H₂O₂. Measured rates of hydrogenperoxide production were directly proportional to cell density,but at higher cell densities, accuracy of H₂O₂ detection wasreduced. Whereas light intensity did not alter H₂O₂ production,rates of production were stimulated when temperature was elevated.Hydrogen peroxide production was not only dependent on growthphase, but also was regulated by the availability of iron inthe medium. Reduction of total iron to 1 nmol l^–1 enhancedthe production of H₂O₂ relative to iron replete conditions (10µmol l^–1 iron). From this, we collectively concludethat production of extracellular H₂O₂ by H.akashiwo occurs througha metabolic pathway that is not directly linked to photosynthesis.     

Effect of red light pulse on induction and production of flowers in a short-day duckweed, Lemna paucicostata 6746, in darkness

Flowering (number of flowers) of a short-day duckweed, Lemnapaucicostata 6746, in continuous darkness at 26^?C was affectedby a red light pulse in various ways depending on the time ofapplication. A conspicuous inhibition and a slight promotionwere respectively caused by the pulse given at the 7th and 19thhours of the dark period. Of the recently introduced floral parameters (4), a (vegetativegrowth rate) and (flowering ratio) were almost unchanged bythe pulse given at any time. P₁ (pre-flower induction period)was extended by one day when the pulse was given at about the7th hour of the dark period. The pulse greatly extended P₂ (flowerinduction period) when given at about the 7th hour of the darkperiod. A pulse given earlier or later was increasingly ineffectiveon P₂. P₄ (flower production period) changed rhythmically (i.e.,was extended or shortened) with the time of the red light pulse,the maximum extension and shortening being induced by the pulsegiven at about the 7th and 19th hours, respectively. Differenttiming mechanisms were suggested as controlling the sensitivitiesto the red light pulse of P₁ and P₂ or P₄. The floral response (number of flowers) vs. the red light pulseapplication time curve was explained in terms of the sum ofthe responses of P₂ and P₄ to the pulse. Floral parameters P₁and P₂ were defined more clearly. (Received September 4, 1978; )     

A Comparative Study on the Short-Day- and the Benzoic Acid-Induced Flowering in Lemna paucicostata

The addition of a high concentration of FeCl₃ to the medium(1/10 strength M medium) slightly inhibited the benzoic acid(BA)-induced flowering of Lemna paucicostata 151 in continuouslight, although it promoted the flowering induced by short-day(SD) conditions. SD treatment had no significant effect on BA-inducedflowering in the medium with a standard concentration of iron,in which this plant hardly responds to SD, but greatly promotedit in the medium containing iron at a high concentration, inwhich this plant clearly responds to SD. The effect of BA seemsto be independent of but additive to the photoperiodic stimulus. In photosensitive strains 6746 and 441, a low concentrationof BA slightly lengthened the critical photoperiod but had noflower-inducing effect under continuous light. Since an optimalconcentration of BA induced flowering even under continuouslight in these strains, this was considered to be due to photoperiod-independentpromotion of flowering rather than shortening of the time-measuringprocess in the photoperiodic reaction. (Received August 19, 1986; Accepted February 21, 1987)     

Effects of Exogenous Amino Acids on Iron Uptake in Relation to their Effects on Photoperiodic Flowering in Lemna paucicostata 6746

The flowering of Lemna paucicostata 6746 grown on 14-h photoperiodwas enhanced by the addition of high concentrations of ironto the medium, which also increased the endogenous iron concentration.The addition of asparagine, aspartate, glutamate, -alanine,glycine or serine to the medium also increased the endogenousiron level, resulting in the promotion of flowering. In contrast,the addition of cysteine, cystine, glutamine, arginine, threonineor phenylalanine lowered the endogenous iron level, resultingin the inhibition of flowering. Glycine and asparagine added to the medium during an inductive96-h dark period did not promote iron uptake and had no effecton flowering, but when added during the subsequent 120-h lightperiod, they promoted both iron uptake and flowering response.The increase in the endogenous iron level seems to favor floraldevelopment rather than induction of photoperiodic floweringof Lemna paucicostata 6746. (Received September 8, 1986; Accepted March 31, 1987)     

Absorption of Copper by Lemna as Influenced by Some Factors Which Nullify the Copper Effect on Flowering and Growth

The effect of copper on flowering and growth of Lemna paucicostata6746 and Lemna gibba G3 in a copper-containing medium is nullifiedby the addition of EDTA, ammonium ions or salicylic acid tothe medium or a decrease in its nitrate concentration. Thesefactors were examined for their effects on the absorption ofcopper by the plants. The addition of EDTA to the medium completelyinhibited the absorption of copper in both species, thus eliminatingthe copper effect. Ammonium ions also inhibited copper absorption,their effectiveness rising with their concentration. Loweringthe nitrate concentration in the medium nullified the coppereffect on flowering in L. paucicostata 6746, and the additionof salicylic acid to the medium also nullified the copper effectin L. gibba G3, both without affecting the absorption of copper. (Received June 7, 1982; Accepted August 27, 1982)     

PEP Carboxylases from Two C4 Species of Panicum with Markedly Different Susceptibilities to Cold Inactivation

Phosphoenolpyruvate carboxylase (PEPC) (EC 4.1.1.31 [EC] ) assayedin extracts of Panicum maximum Jacq. loses up to 50% of itsactivity after incubation for 60 minutes at 0C while the enzymefrom P. miliaceum L. is completely stable under these conditions.Following dilution at room temperature the enzyme from P. maximumis labile, while that from P. miliaceum is stable. The P. maximumenzyme can be largely stabilized against dilution and againstcold-inactivation by D₂O which stabilizes hydrophobic bondsand the compatible solutes proline, betaine and trimethylamine-N-oxide.Mineral ions, previously demonstrated to be protective againstcold inactivation of pyruvate, P_i dikinase from maize, provideno protection of P. maximum PEPC against either cold or dilution.The chaotropic ion SCN^- causes partial inactivation of the enzymefrom P. miliaceum in the cold. The possible interrelationshipbetween inactivation by dilution and inactivation by cold isdiscussed. The enzyme from both species, when assayed withoutpreincubation at low temperature, exhibits similar, slightlycurvilinear Arrhenius plots; and no differences were found betweenthe two species in the temperature dependence of photosynthesis. ¹Present address: Botany Dept., University of California, DavisCA 95616 U.S.A.     

Spectral Dependence of Night-break Effect on Photoperiodic Floral Induction in Lemna paucicostata 441

A single dark period of longer than 8 hr induced flowering inLemna paucicostata 441 cultured in E medium. Monochromatic lightsof 450, 550, 650 and 750 nm with a half-power bandwidth of 9nm given for 10 min at the 8th hour of a 14-hr dark period inhibitedflowering. The fluence rates required for 50% inhibition were10, 0.5, 0.1 and 3 µmol m^–2. sec^–1, respectively.When applied between the 4th and the 10th hour of the dark period,lights of 450, 550 and 650 nm were inhibitory showing a maximumeffect at the 8th hour. But 750-nm light completely inhibitedflowering when applied at any time during the first 8 hr ofthe dark period. The inhibitory effect of 750-nm light givenat the beginning of the dark period was totally reversed bya subsequent exposure to 650-nm light, and the fluence-responsecurves for the effect of 750-nm light given at the 0, 4th and8th hour were essentially the same. This suggests that the presenceof P_FR is crucial for the floral initiation throughout the first8 hr of the inductive dark period. The role of phytochrome inthe photoperiodic flower induction of L. paucicostata is discussed. (Received January 4, 1982; Accepted March 19, 1982)     

RED LIGHT, BLUE LIGHT, AND COPPER ION IN THE PHOTOPERIODIC CONTROL OF FLOWERING IN LEMNA PERPUSILLA 6746

L. perpusilla, 6746 grown in HUTNER's medium (containing a highlevel of EDTA) responds as a short-day plant under white orred light, but is almost completely daylength-indifferent underblue. In a medium containing ca. 2µmoles/liter of unchelatedcopper ion, it flowers rapidly under all photoperiods, white,blue or red. Although certain long-day blue schedules permitflowering even on HUTNER's medium, blue is not simply "inactive"photoperiodically, since inclusion of a single brief red exposurein certain blue schedules is sufficient to prevent floweringas though the whole schedules were red. The indicated blue-redinteraction should prove important for further analyses of photoperiodismin this plant. ¹Research carried out at Brookhaven National Laboratory underthe auspices of the U.S. Atomic Energy Commission.     

Phosphate Uptake in the Cyanobacterium Synechococcus R-2 PCC 7942

Phosphate uptake rates in Synechococcus R-2 in BG-11 media (anitrate-based medium, not phosphate limited) were measured usingcells grown semi-continuously and in continuous culture. Netuptake of phosphate is proportional to external concentration.Growing cells at pH_o 10 have a net uptake rate of about 600pmol m^–2 s^–1 phosphate, but the isotopic flux for³²P phosphate was about 4 nmol m^–2 s^–1. There appearsto be a constitutive over-capacity for phosphate uptake. TheK_m and V_max, of the saturable component were not significantlydifferent at pH_o 7.5 and 10, hence the transport system probablyrecognizes both H₂PO^–₄and HPO^2–₄. The intracellularinorganic phosphate concentration is about 3 to 10 mol m^–3,but there is an intracellular polyphosphate store of about 400mol m^–3. Intracellular inorganic phosphate is 25 to 50kJ mol^–1 from electrochemical equilibrium in both thelight and dark and at pH_o 7.5 and 10. Phosphate uptake is veryslow in the dark ( 100 pmol m^–2 s^–1) and is light-activated(pH_o 7.51.3 nmol m^–2 s^–1, pH_o 10600 pmol m^–2s^–1). Uptake has an irreversible requirement for Mg²⁺in the medium. Uptake in the light is strongly Na⁺-dependent.Phosphate uptake was negatively electrogenic (net negative chargetaken up when transporting phosphate) at pH_o 7.5, but positivelyelectrogenic at pH_o 10. This seems to exclude a sodium motiveforce driven mechanism. An ATP-driven phosphate uptake mechanismneeds to have a stoichiometry of one phosphate taken up perATP (1 PO_{4 in}/ATP) to be thermodynamically possible under allthe conditions tested in the present study. (Received June 16, 1997; Accepted September 4, 1997)     

Flower-Inducing Activity of Lysine in Lemna paucicostata 6746

Flowering of Lemna paucicostata 6746, a typical short-day plant,was induced by culture for 96 or 120 h in nitrogen-free mediumunder continuous illumination. To examine the effects of lysine,we homogenized entire plants of L. paucicostata 151 in a solutionof lysine and the supernatant obtained after centrifugationof the homogenate was added to the medium to give various concentrationsof lysine in the medium. Flowering of strain 6746 in nitrogen-freeor nitrogen-deficient culture medium was effectively promotedby the addition of a lysine-containing supernatant to the medium.The suppressive effect of elastatinal, a protease inhibitor,on the induction of flowering was almost completely reversedby the simultaneous application of a lysine-containing supernatantto the medium. During nitrogen-free culture, the level of endogenousfree lysine, expressed on the basis of the amount of total freeamino acids, increased. Lysine-containing supernatants alsoinduced flowering of plants in nitrogen-rich medium under continuousillumination. These findings suggest that endogenous lysineis involved in the induction of flowering in L. paucicostata6746 on nitrogen-free or nitrogen-deficient medium, as it isin the induction of flowering in L. paucicostata 151 (Received July 29, 1996; Accepted November 18, 1996)     

Old-Culture Flowering of Lemna paucicostata 6746 in Aged Hutner's Medium

Lemna paucicostata 6746, a short-day plant, flowers in agedHutner's medium even under continuous light, when the endogenousnitrogen level decreases to below 1.6 µmg fr wt. At thesenitrogen levels, daylength-independent flowering of the plantcan be induced even in fresh Hutner's medium. Thus, old-cultureflowering in Hutner's medium is due to nitrogen deficiency inthe plants. ¹Present address: Biological Institute, Faculty of Science,Shizuoka University, Shizuoka 422, Japan. (Received February 12, 1987; Accepted August 28, 1987)     

Inhibition of Flowering in the Long-Day Plant Lemna gibba G3 by Hutner's Medium and its Reversal by Medium Modification

The long-day plant Lemna gibba G3 flowers normally in E medium(Hoagland-type medium plus 30 µM EDTA) but in 0.5 H mediumthere is no flowering. Ammonium is present in 0.5 H medium andis known to inhibit flowering in L. gibba G3, but even in NH₄⁺-free0.5 H medium there is virtually no flowering under continuouslight. Increasing the phosphate concentration of the NH₄⁺-free0.5 H medium from 1.15 ITIM to 12 or 16 mM results in substantialflowering. Decreasing the EDTA concentration from 850 µIMto 250 µM, or raising the nitrate concentration from 4mM to 12 mM, results in only a small increase in flowering.If the decrease in EDTA and increase in nitrate are combinedwith the increase in phosphate, however, the flowering responseis nearly as good as that obtained using E medium. Thus, withthese three changes the inhibitory effect of NH₄⁺free 0.5 Hmedium for flowering in L. gibba G3 is almost completely reversed In the above studies flowering was not limited by daylength.When plants were grown on E medium under an 11 hour daylengthwhere flowering is limited by daylength, decreasing the phosphateconcentration in the medium reduced flowering, but increasingthe phosphate concentration in the medium did not stimulateflowering. Thus, when flowering is limited by daylength, highphosphate will not cause flowering, but a certain level of phosphateappears to be necessary for the expression of photoinductionunder long days. (Received January 14, 1986; Accepted June 24, 1986)