Light dependency of the mating process in Closterium acerosum

Sexual cell division and activation of gametangial cells forconjugation in Closterium acerosum were induced by light. L₂₀₀cells conjugated at maximum level under the following conditions;(i) a light intensity higher than 1,000 lux in a 16-hr lightand 8-hr dark regime and (ii) an illumination time longer than12 hr at 3,000 lux. L₂₀₀ cells also conjugated under continuousillumination at 3,000 lux. The action spectrum for the activation of gametangial cellshad peaks around 450, 611 and 665 nm. 3-(4'-Chlorophenyl)-l,l-dimethylurea (CMU) inhibited the accumulationof carbohydrates and sexual cell division at 10^–5 M andthe activation of gametangial cells for conjugation at 10^–4M. (Received August 15, 1977; )     

Action Spectrum of Light Pulse-Induced Membrane Depolarization in Pulvinar Motor Cells of Phaseolus

In addition to circadian changes in the membrane potential andleaf movement, light applied to the pulvinus causes changesin both the membrane potential and the pulvinar movement inPhaseolus vulgaris L. Even after a short pulse of light, a transientdepolarization of the membrane occurs and leaf movement is observed.Decreases of turgor pressure of the motor cells are always precededby the depolarization. The direction of the leaf movement canbe explained by the decrease of turgor pressure in the motorcells on the irradiated side of the pulvinus. Using the OkazakiLarge Spectrograph at the National Institute for Basic Biology,we determined the action spectrum of the membrane depolarizationinduced by light pulses (30 s) in motor cells of Phaseolus.The pulvinus was left exposed to air during measurement of themembrane potential with microelectrodes. The action spectrumobtained was in the range of 300 to 730 nm. It had the highestpeak at 460 nm with lower peaks at 380 nm and 420 nm. Almostno sensitivity was observed at wavelengths shorter than 360nm and longer than 520 nm. Red and far-red light had no effecton the depolarization of the motor cell. The features of theaction spectrum are almost the same as those of the Blue-Typeresponse in plants. (Received January 9, 1997; Accepted February 14, 1997)     

Photoacoustic Spectroscopy--Leaf Absorption Spectra

Using a relatively recent technique, photoacoustic spectroscopy(PAS), purple pigmentation in leaves of three species of Euphorbiawas characterized as anthocyanin by observing a peak at 545nm. The in vivo chlorophylls of the leaf have a recorded maximumabsorption peak at 675 nm as against 665 nm of the in vitrochlorophylls. The intensity of purple pigmentation in leavesof Euphorbia hirta L., are inversely correlated to the soilmoisture levels, leaf water content and leaf water potentials.The applicability of PAS to biological samples was discussed.     

Mechanism of Photoregulated Carotenogenesis in Rhodotorula minuta VII. Action Spectrum for Photoinduced Carotenogenesis

An action spectrum for photoinduced carotenogenesis in the yeast,Rhodotorula minuta, was determined over the wavelength rangefrom 250 nm to 770 nm. The action spectrum had a prominent peak at about 280 nm, withshoulders at 340, 370 and 400 nm. In addition, at wavelengthsfrom 260 nm to 400 nm, all slopes of fluence-response curveswere approximately equal, and reciprocity was obtained at eachwavelength tested. The action spectrum obtained was different from any action spectrumso far reported for photoinduced carotenogenesis and suggeststhat a new type of chromoprotein plays a major role as a photoreceptor. ³Present address: Koshi Agricultural Extension Office of FukuiPrefecture, Matsumoto, Fukui, 910 Japan (Received March 31, 1989; Accepted December 8, 1989)     

Blue Light-Induced In Vivo Absorbance Changes and In Vitro Activation of Nitrate Reductase in a Nitrate-Starved Chlorella Mutant

Illuminating a colorless mutant of Chlorella vulgaris 11h (M125)with blue light caused a reversible photoreduction of b-typecytochrome, i.e., absorbance increases at 423, 525 and 557 nm.This light-induced reduction of cytochrome b was most pronouncedin nitrate-starved cells, which showed some blue light responsesin carbon metabolism, including enhancement of respiration byblue light as reported previously. Prolonged illumination withblue light caused a decrease in the rate of the reduction. The photoactivation of nitrate reductase in the mutant cellswas studied in both cell-free crude extract and purified enzyme.The absorption spectrum of purified enzyme showed three peaksat 423, 525 and 557 nm after the addition of a reductant, indicatingthat the spectrum is that of cytochrome b associated with nitratereductase. Nitrate reductase activity was easily enhanced byblue light illumination after 1 min; red light had no effecton it. The blue light activation of nitrate reductase was notsignificant in growing cells, which showed its high activity. The relationship between the blue light-induced reduction ofcytochrome b and carbon metabolism is discussed. (Received September 30, 1987; Accepted February 9, 1988)     

Light Gradients and the Transverse Distribution of Chlorophyll Fluorescence in Mangrove andCamelliaLeaves

The light gradient and transverse distribution of chlorophyllfluorescence in mangrove andCamellialeaves, which have differentmorphological characteristics, were examined using a micro-fluorescenceimaging system reported previously (Takahashiet al., Plant,Cell and Environment17: 105–110, 1994). Epidermal cellsscattered light strongly, resulting in an increase in the fluencerate in epidermal cells. For theCamellialeaf, a light gradientwas formed by absorption of light by photosynthetic pigmentsassociated with the induction of chlorophyll fluorescence. Forthe mangrove leaf, a light gradient was formed by backward scatteredlight within a thick layer of non-assimilatory cells. Lightwith a low absorption coefficient (515 nm) penetrated deeperthan that with a higher absorption coefficient (477 nm and 488nm) in theCamellialeaf, while light of both wavelengths showedsimilar profiles in the mangrove leaf. In the mangrove leaves,scattered light declined significantly in the non-assimilatorycell layer which is in front of the assimilatory cells. Light,the intensity of which was reduced to approx. 10% of the maximum,was well scattered and induced a considerable amount of chlorophyllfluorescence in the assimilatory cells, which appear to be wellorganized to capture weak light.Copyright 1998 Annals of BotanyCompany fluorescence, intact leaf, light gradient, mangrove (Rhizophora mucronataLamk.),Camellia japonicaL.     

A Modified Self-thinning Equation to Describe Size/Density Relationships for Defoliated Swards

Use of the self-thinning rule to describe size/density compensation(SDC) in defoliated swards is examined. It is shown that defoliationrelated variation in leaf area and associated morphogeneticchanges in plant structure necessitate slope corrections, designatedC_a and C_r , respectively. The theory predicts that reduced leafarea in more heavily defoliated swards will result in SDC atslopes more negative than -3/2 (variable leaf area SDC), andthat there will be a transition to -3/2 (constant leaf area)SDC at higher herbage mass. Empirical data from previous experiments with Lolium perenneL. and Medicago sativa L. are examined, and appear to confirmthe theoretical predictions, including the slope change at thepoint of transition from variable to constant leaf area SDC.This transition point, designated d_i , is subject to interspecificvariation and is related to the mature shoot size of a particularspecies. Some applications of this theory are discussed, andin particular a sward productivity index is proposed.Copyright1995, 1999 Academic Press Variable leaf area self-thinning, size/density compensation, Lolium perenne, Medicago sativa, sward productivity index     

Action spectrum of negative phototropism in Boergesenia forbesii

The rhizoid of Boergesenia forbesii, a gigantic unicellulargreen alga, exhibited negative phototropism. The bending processat 32?C followed Weber-Fechner's law and Bunsen- Roscoe's law.The minimum light energy inducing the phototropic bending was30 J.m^–2 at 467 nm and 32?C. The action spectrum of thisnegative phototropism had two distinct peaks at 380 and 443nm, with shoulders at 430 and 470 nm and a trough around 410run. Light of wavelengths longer than 502 nm was ineffective.The structure of the spectrum agrees well with that reportedfor the positive phototropism of Avena coleoptiles and otherplant parts. (Received February 24, 1979; )     

The Influence of Temperature on Photosynthesis and Transpiration in ten Temperate Grass Varieties Grown in four Different Environments

The influence of temperature on photosynthesis and transpirationwas studied in ten varieties of Lolium perenne, L. multiflorum,Dactylis glomerata, and Festuca arundinacea from three climaticorigins grown in three different controlled environments (15?C, 72 W m^-2 visible irradiation, 16-h photoperiod; 25 ?C, 72W m^-2 visible irradiation, 16-h photoperiod; and 25 ?C, 180W m^-2 visible irradiation, 16-h photoperiod) and in the glasshousein July/August. The optimum temperature for photosynthesis was influenced primarilyby growth environment; growth at low temperature (15 ?C) resultedin a low optimum temperature, which differed little from varietyto variety. The maximum CO₂-exchange rate was influenced bygrowth environment and by variety. Within a variety, plantsgrown at higher light intensity or lower temperature had a greaterCO₂-exchange rate. Seven varieties showed a negative correlationbetween the optimum leaf temperature and the maximum CO₂-exchangerate. Activation energies for photosynthesis were influencedby growth environment only. There were marked varietal differences in the values of leafresistances (r_a + r_t) obtained from transpiration data at theoptimum leaf temperature for CO₂ exchange. In Lolium, and Dactylisthe Mediterranean varieties had higher leaf resistances thanthe Northern varieties with the maritime varieties intermediate.In general the Dactylis varieties had higher resistances thanthe corresponding Lolium and Festuca varieties. Only at highgrowth temperatures was (r_a+r_l) insensitive to temperature;otherwise an activation energy of about 10 kcal/mole was observed.A negative correlation was found between mean varietal diffusionresistances (r_a+r_l), and corresponding maximum CO₂-exchangerates.     

Seasonal changes in activity of the enzyme system producing cis-3-hexenal and n-hexanal from linolenic and linoleic acids in tea leaves

The enzyme system producing cis-3-hexenal, a precursor of cis-3-hexenol(leaf alcohol) and trans-2-hexenal (leaf aldehyde), from linolenicacid showed high activity in summer and no activity in winterin tea (Thea sinensis) leaves and isolated chloroplasts. Theenzyme system producing n-hexanal from linoleic acid also showedsimilar seasonal changes in activity. These changes were closelyrelated to temperature and solar radiation. Enzyme activitycould not be induced after the leaves had been cut and was notaccompanied by de novo protein synthesis. (Received July 9, 1976; )     

Temperature Response of Early Foliar Expansion of Potato and Wheat

We studied the course of early leaf area expansion and specificleaf area (S_LA) in potato (Solanum tuberosum L.) and wheat (Triticumaestivum L.) genotypes and tested whether air temperature explainsdifferences in these courses within different environments.Such knowledge can be used to improve crop growth modelling.The relative rate of leaf area expansion (R_L) of potato andwheat decreased with thermal time, but was nearly linear upto a leaf area index (L) of 1.0. TheR_L (L < 1; mean: 17.9x 10^-3°C^-1 d^-1) of potato showed an interaction betweengenotype and environment, and varied with year. TheR_L (L <1; mean: 7.1 x 10^-3°C^-1 d^-1) of winter wheat was lower thanthat of spring wheat (mean: 10.9 x 10^-3°C^-1 d^-1), and bothvaried with year. S_LAof potato increased nearly linearly withthermal time from 5 to 15 m² kg^-1at 50% emergence, to 20 to25 m² kg^-1at 155°Cd, and then decreased slightly. The S_LAofboth winter and spring wheat began at 16 to 23 m² kg^-1and inmost cases increased slightly with thermal time. In potato,regression parameters of S_LAwith thermal time were affectedby environment (management conditions and year) and genotype;in wheat they were affected by environment (year and site).Treatment effects on R_Lof potato were not correlated with thoseon S_LA , and were only partly correlated for wheat. Thereforewe conclude that the early foliar expansion of potato is associatedwith a strong increase in S_LA , and not so for wheat. For bothcrops the course of early leaf area expansion and ofS_LA withair temperature is not robust over environments and genotypes.The consequences of these results for modelling are discussed.Copyright 2000 Annals of Botany Company Triticum aestivum, spring wheat, winter wheat, Solanum tuberosum, leaf area expansion, specific leaf area, early growth, genotype, environment, modelling     

Ferricyanide-induced absorbance change of carotenoid in chromatophores of Rhodopseudomonas spheroides correlated to the oxidation of bacteriochlorophyll 885

Addition of high concentrations (e.g., 1–100 mM) of ferricyanideto a chromatophorc suspension of Rhodopseudomonas spheroidescaused a change in the absorption spectrum of carotenoid (spheroidene),which was completely reversed by adding reducing reagents suchas ferrocyanide and ascorbate. The spectral change is representedby a shift in the absorption spectrum of carotenoid by 2 to2.5 nm towards the longer wavelength side. The presence of piericidinA, o-phenanthroline or Cl-CCP in the reaction mixture did notaffect the ferricyanide-induced absorbance change. Triton X-100markedly suppressed the magnitude of the change. The additionof ferricyanide also caused simultaneous absorbance changeswith maxima at 590 and 885 nm. These are ascribed to oxidationof the (bulk) bacteriochlorophyll, BChl 885. There was no absorptionchange at other peaks of bacteriochlorophyll in the infraredregion (i.e., 800 and 855 nm). Therefore, the ferricyanide-inducedabsorbance change of carotenoid did not represent an oxidation-reductionreaction of carotenoid but was intimately correlated with oxidationof BChl 885 in the chromatophores, as judged from similaritiesobserved with respect to the time course patterns, midpointpotential (545–555 mv) in the ferriferrocyanide reactionsystem, as well as behavior towards various reagents and inhibitorsadded. A similar change of carotenoid (i.e., 2–2.5 nmshift of absorption spectrum) was caused by addition of MgCl₂to the chromatophores, but this did not induce any change inthe absorption spectrum of bacteriochlorophyll. The nature ofthe spectral change of carotenoid in chromatophores is discussed. (Received April 16, 1970; )     

Electrical Impedance Analysis in Plant Tissues8

Electrical impedance spectra (100 Hz–800 kHz) were measuredin leaves of Peperomia obtusifolia L. (a succulent) and Brassicaoleracea L. (cabbage). By measuring impedances at three or moreinter-electrode distances in a single leaf, electrode impedanceand specific tissue impedance were separated. Analysis of impedance data from B. oleracea leaves in relationto an equivalent circuit model showed that leaf developmentwas accompanied by increases in extracellular resistance, cytoplasmicresistance and vacuole interior resistance, together with decreasesin plasma membrane capacitance and tonoplast capacitance. AfterB. oleracea leaves were subjected to a –6 °C freeze-thawstress, extracellular resistance, cytoplasmic resistance andvacuole interior resistance decreased, but plasma membrane capacitanceand tonoplast capacitance did not change. These results indicatethat useful measurements of leaf parameters can be obtainedby this technique. Examination of the electrode impedance spectrum showed thatelectrode insertion produced a damaged collar, 0·4–0·5mm wide, around the electrode. This was confirmed by visualobservation of the damage in P. obtusifolia leaf. Key words: Peperomia obtusifolia L., Brassica oleracea L. (cabbage), electrical impedance, equivalent circuit, electrode polarization     

Enzyme system catalyzing formation of cis-3-hexenal and n-hexanal from linolenic and linoleic acids in Japanese silver (Farfugium iaponicum Kitamura) leaves

Leaf alcohol (cis-3-hexenol) and leaf aldehyde (trans-2-hexenal)are responsible for the green odor in leaves and fruits. cis-3-Hexenal,a precursor of cis-3-hexenol and trans-2-hexenal, was producedfrom linolenic acid by a homogenate of Farfugium japonicum (Japanesesilver) leaves. n-Hexanal was produced from linoleic acid bya homogenate of the leaves. The enzyme system catalyzing formationof C₆-aldehydes from linolenic and linoleic acids was localizedin chloroplast lamellae, and required oxygen for reaction. C₁₈-unsaturatedfatty acids such as linolenic acid, linoleic acid and -linolenicacid, which have carboxyl groups and cis-1, cis-4-pentadienesystems including a double bond at C-12, acted as substrates,and C₆-aldehydes (cis-3-hexenal or n-hexanal), but not C₉-aldehydes,were produced from them. The properties of the enzyme systemin chloroplasts were as follows: optimal pH 7.0; stable at pH5 to 7; thermolabile and no activity at 50?C. These propertieswere very similar to those of tea chloroplasts. The enzyme systemcould be solubilized from chloroplasts by 2% Triton X-100, butwas very unstable in solubilized form. (Received July 9, 1976; )     

The effects of temperature and the Rht3 dwarfing gene on growth, cell extension, and gibberellin content and responsiveness in the wheat leaf

The effects of low temperature and the Rht3 dwarfing gene onthe dynamics of cell extension in leaf 2 of wheat were examinedin relation to gibberellin (GA) content and GA-responsivenessof the extension zone. Leaf 2 of wild-type (rht3) wheat closelyresembled that of the Rht3 dwarf mutant when seedlings weregrown at 10C. The maximum relative elemental growth rate (REGR)within the extension zone in both genotypes was lower at 10Cthan at 20C, but the position with respect to the leaf basewas unaffected by temperature. The size of the extension zoneand epidermal cell lengths were similar in both genotypes at10C. Growth at 20C, instead of 10C, increased the lengthof the extension zone beyond the point of maximum REGR in thewild type, but not in the Rht3 mutant. Increasing temperatureresulted in longer epidermal cells in the wild type. Treatingwild-type plants at 10C with gibberellic acid (GA₃) also increasedthe length of the extension zone, but the Rht3 mutant was GA-non-responsive.However, the concentrations of endogenous GA₁ and GA₃ remainedsimilar across the extension zone of wild-type plants grownat both temperatures, despite large differences in leaf growthrates. The period of accelerating REGR as cells enter the extensionzone, and the maximum REGR attained, are apparently not affectedby GA. It is proposed that GA functions as a stimulus for continuedcell extension by preventing cell maturation in the region beyondmaximum REGR and that low temperature increases the sensitivitythreshold for GA action. Key words: Cell extension, gibberellin, Rht3 dwarfing gene, temperature, wheat leaf     

基于高光谱遥感的小麦叶干重和叶面积指数监测

生物量和叶面积指数(LAI)是描述作物长势的重要参数, 叶干重和LAI的实时动态监测对小麦(Triticum aestivum)生长诊断和管理调控具有重要意义。为分析多种高光谱参数估算小麦叶干重和LAI的效果, 建立小麦叶干重和LAI的定量监测模型, 该研究连续3年采用不同小麦品种进行不同施氮水平的大田试验, 于小麦不同生育期采集田间冠层高光谱数据并测定叶片叶干重和LAI。试验结果显示, 小麦叶干重和LAI随施氮水平的提高而增加, 随生育进程呈单峰动态变化模式。小麦叶干重和LAI与光谱反射率间相关性较好的区域主要位于红光波段(590~710 nm, r<-0.60)和近红外波段(745~1 130 nm, r>0.69)。对于不同试验条件下的叶干重和LAI, 可以使用统一的光谱参数进行定量反演, 其中基于RVI (810, 560)、FD755、GM1、SARVI (MSS)和TC3等光谱参数的方程拟合效果较好。经不同年际独立试验数据的检验表明, 以参数RVI (810, 560)、GM1、SARVI (MSS)、PSSRb、(R_750-800/R_695-740) -1、VOG2和MSR705为变量建立的叶干重和LAI监测模型均给出较好的检验结果。因此, 利用关键特征光谱参数可以有效地评价小麦叶片生长状况, 尤其是光谱参数RVI (810, 560)、GM1和SARVI (MSS)可以对不同条件下小麦叶干重和LAI进行准确可靠的监测。     

Dibromothymoquinone (DBMIB) Replaces the Function of QA at 77 K in the Isolated Photosystem II Reaction Center (D1-D2-Cytochrome b559) Complex: Difference Spectrum of the P680+(DBMIB-) State

Transient absorbance changes of the primary electron donor chlorophylla (P680) and acceptor pheophytin a (H) were measured at 77 Kby nanosecond laser spectroscopy in the D1-D2-cytochrome b₅₅₉photosystem II reaction center complex containing dibromomethylisopropylbenzoquinone (DBMIB). After the laser excitation of the reactioncenter in the presence of DBMIB, only the P680⁺-(DBMIB^-) statewas detected. P680⁺ mainly decayed with a t_1/e of 11 ms. Inthe absence of DBMIB, the excitation produced the P680⁺H^- radicalpair. The radical pair produced the triplet state (P680^T) witha t_1/e of 50 ns, and P680^T then decayed with a t_1/e of 2.1 ms.It was concluded that H_- was oxidized by DBMIB in a time rangefaster than the detecting time resolution (3.5 ns) even at 77K. The rapid oxidation of H^- by DBMIB was also confirmed bythe suppression of delayed fluorescence with a decay t_1/e of50 ns. The P680⁺(DBMIB^-)/P680(DBMIB) difference spectrum exhibiteda Q_y, band with a peak at 682 nm with a shoulder at 673 nm.The spectral shape was almost temperature insensitive between77 and 265 K. The feature of this spectrum in the wavelengthrange between 330 and 720 nm was compared with that of P680_T/P680or H^-/H at 77 K. (Received May 8, 1996; Accepted June 24, 1996)     

A Comparison of the Growth, Photosynthesis, Stomatal Conductance and Water Use Efficiency of Moricandia and Brassica Species

When grown in pots and well-watered, the relative growth ratesof the above ground parts of two species of Moricandia (M. arvensis,an intermediate C₃–C₄ species, and M. moricandioides,a C₃ species) were inferior to those of two cultivated Brassicaspecies (B. campestris and B. napus). The Moricandia specieshad thicker leaves (greater d.wt per unit leaf area) with morechlorophyll than the Brassica species and had slightly greaterrates of photosynthesis per unit leaf area at an irradiance(400–700 nm) of 2000 µmol quanta m^–2 s ^–1.Leaves of M. arvensis, known to have a CO₂ compensation pointbetween that of C₃ and C₄ species, had a lower ratio of theintercellular to atmospheric partial pressure of CO₂ (C₁/C_a)and a greater instantaneous water use efficiency (WUE) thanthose of M. moricandioides and the Brassica species. Carbon isotope discrimination (     

Spectral sensitivity of the flowering response in green and etiolated Lemna paucicostata T-101

Light sensitivity in the reversal of the far-red inhibitionof flowering in etiolated Lemna paucicostata T-101 was 10- (612nm) to 33-fold (660 nm) higher than that of green plants. Theaction spectrum of this response for etiolated plants showeda peak near 660 nm, but for green plants it was near 612 nm.Thus, the effect of light on flowering is influenced greatlyby the screening effect of photosynthetic pigments. (Received July 24, 1980; )     

Rubisco Activase Activity in Spinach Leaf Extracts

Rubisco activase is a chloroplast stromal protein that catalyzesthe activation of ribulose-1,5- bisphosphate carboxylase/oxygenase(rubisco) in vivo. Activation must occur before rubisco cancatalyze the photosynthetic assimilation of CO₂. In leaves,photosynthesis and rubisco activation increase with increasinglight intensity. Techniques are described that allow the activityof rubisco activase to be measured in extracts of spinach (Spinaceaoleracea L.) leaf tissue. In this context, rubisco activaseactivity is defined as the ability to promote activation ofthe inactive ribulose-1,5- bisphosphate-bound rubisco in anATP-dependent reaction. Determination of rubisco activase activityin extracts of dark and light treated leaf tissue revealed thatthe activation state of rubisco activase was independent oflight intensity. ¹Present address: Department of Biological Sciences, 213 Carson-TaylorHall, Louisiana Tech University, Ruston, Louisiana 71272, U.S.A.