Nitrogen Utilization in N-limited Barley During Vegetative and Generative Growth: III. POST-ANTHESIS KINETICS OF NET NITRATE UPTAKE AND THE ROLE OF THE RELATIVE ROOT SIZE IN DETERMINING THE CAPACITY FOR NITRATE ACQUISITION

Barley (Hordeum vulgare L., cvs Golf, Mette, and Laevigatum)was grown under nitrogen limitation in solution culture untilnear maturity. Three different nitrogen addition regimes wereused: in the ‘HN’ culture the relative rate of nitrate-Naddition (RA) was 0·08 d^–1 until day 48 and thendecreased stepwise to, finally, 0·005 d^–1 duringgrain-filling; the ‘LN’ culture received 45% ofthe nitrogen added in HN; the ‘CN’ culture was maintainedat RA 0·0375 d^–1 throughout. Kinetics of net nitrateuptake were measured during ontogeny at 30 to 150 mmol m^–3external nitrate. V_max (which is argued to reflect the maximuminflux rate in these plants) declined with age in both HN andLN cultures. A pronounced transient drop was observed just beforeanthesis, which correlated in time with a peak in root nitrateconcentration. Similar, but less pronounced, trends were observedin CN. The relative V_max (unit nitrogen taken up per unit nitrogenin plants and day) in all three cultures declined from 1·3–2·3d^–1 during vegetative growth to 0·1–0·7d^–1 during generative growth. These values are in HN andLN cultures 15- to more than 100-fold in excess of the demandset by growth rates throughout ontogeny. Predicted balancingnitrate concentrations (defined as the nitrate concentrationrequired to support the observed rate of growth) were below6·0 mmol m^–3 in HN and LN cultures before anthesisand then decreased during ontogeny. In CN cultures the balancingnitrate concentration increased during grain-filling. Apartfrom the transient decline during anthesis, most of the effectof ageing on relative V_max can be explained in terms of reducedcontribution of roots to total biomass (R:T). The loss in uptakeper unit root weight is largely compensated for by the declinewith time in average tissue nitrogen concentrations. The quantitativerelationships between relative V_max and R:T in ageing plantsare similar to those observed for vegetative plants culturedat different RAs. The data support the contention that the capacity for nitrateacquisition in N-limited plants is under general growth control,rather than controlled by specific regulation of the biochemicalpathway of nitrate assimilation. Key words: Barley, nitrogen concentration, root: total plant biomass ratio, V_max     

Effect of Light and NaCI Salinity on the Growth of Callus Cultures of Ipomoea pes-caprae (L.) R. Brown and Ipomoea batatas (L.) Lam

Callus cultures of Ipomoea pes-caprae and I. batatas were establishedon MS medium containing 10^–5 M 2,4-D and 10^–8 Mbenzyladenine. Ipomoea pes-caprae calli exhibited green pigmentationand grew better in the light than in darkness. Callus tissuesof I. batatas showed a pale-yellow colouration and they grewat the same rate in light as in dark conditions. I. pes-capraeand I. batatas callus cultures were sensitive to the presenceof 60 mM NaCl in the culture medium, the growth of the formerbeing more sensitive in light than in darkness. The significanceof the responses of I. pes-caprae callus cultures in relationto the mechanism of salt tolerance is discussed. Ipomoea batatas, Ipomoea pes-caprae, sweet potato, railroad vine, callus cultures, salinity, light     

Salt Tolerance in Cell Suspension Cultures of the Halophyte Kosteletzkya virginica

Tolerance to NaCl was studied in cell suspension cultures ofKosteletzkya virginica (L.) Presl. (Malvaceae), a dicotyledonoushalophyte that grows in tidal marshes of the eastern UnitedStates. Growth of salinized cultures was significantly inhibitedat high (255 mol m^–3 NaCl), but not at lower externalsalinities. Adjustment of cell suspensions to Nacl was rapid,with the duration of the normal growth cycle unaffected by salinity.Maximum biomass was attained when cultures were exposed to NaClduring early log growth. Patterns of inorganic ion accumulationreflected the utilization of both Na⁺ and K⁺ as osmotica, withNa⁺ content substantially increasing when cells were grown atan external salinity sufficient to reduce growth. K⁺ uptakeselectivity was high and Na⁺/K⁺ ratios were low in salt-treatedcultures even though K⁺ content was somewhat lower comparedto unsalinized cultures. Free proline and microsomal lipid contentincreased in salt-treated cell cultures. Key words: Kosteletzkya virginica, halophyte, salt tolerance, cell suspension culture     

Physiological Studies of the Sulpholipids of Diatoms

The sulpholipids of three species of freshwater and marine diatomNitzschia palae Kutz, Navicula muralis Lewin and Navicula incertaGrün, have been investigated under various culture conditions.The plant sulpholipid, sulphoquinovosyl diglyceride, was predominantlysynthesized in the light rather than in the dark while the unknownsulpholipids, designated as U₁ and U₂, were produced more inthe dark than in the light. It was found that cells starvedof carbon or sulphate utilized their sulpholipid reserve assources of these materials. Generally, cultures incubated inthe light and bubbled with air (with or without CO₂) showeda high level of incorporation of ³⁶S into sulpholipids. In culturesbubbled with oxygen-free nitrogen the incorporation of tracerwas very small. The photosynthetic and respiratory inhibitors,DCMU and DNP appreciably reduced the amount of tracer incorporatedinto the sulpholipids.     

Extracellular Release of Organic Matter from Two Freshwater Diatoms

The ¹⁴C-labelled extracellular materials released from culturesof Synedra acus and Stephanodiscus hantzschii were separatedby paper chromatography. The major components were identifiedand their rates of release measured. Stephanodiscus in axenicculture released the same extracellular materials under optimumlight conditions as did the natural population from which thediatom was isolated. The major extracellular product of Stephanodiscuswas glycollate; polysaccharide and amino acids were also released.The major extracellular product of Synedra was polysaccharide;amino acids were also released, but no glycollate. Under lightintensities so high as to inhibit photosynthesis the arraysof extracellular substances were unchanged, but some rates ofrelease were reduced. The array of products and the rates ofrelease from Stephanodiscus in darkness are quite differentfrom extracellular release during photosynthesis. Glycollaterelease from Stephanodiscus is greatest when the cultures areyoung and growing rapidly, older cultures release less.     

Estimation of ammonium regeneration efficiencies associated with bacterivory in pelagic food webs via a 15N tracer method

Phagotrophic protists are major components of pelagic food webs,both as consumers of bacterial and phytoplankton cells, andas regenerators of inorganic nutrients. In this study, we estimatedthe efficiency of ammonium regeneration by protists feedingon bacteria within natural plank-tonic assemblages, using a¹⁵N tracer method, in which the excretion of ¹⁵N-labeled ammoniumdue to grazing on ¹⁵N pre-labeled bacteria was followed overtime. We tested this approach in experiments based on the additionof heat-killed ¹⁵N-labeled bacteria to laboratory cultures andto samples of coastal seawater. During two experiments, variationin abundance of bacterivores and bacterioplankton resulted innon-constant grazing rates. Deterministic computer models thatused abundance of bacteria and protists as variables were developedto estimate best-fit values of grazing mortality (g, h^–1)and of ammonium regeneration efficiency (R_E, fraction of theinitial ¹⁵N label in added bacteria which is released as ammonium).Estimated ammonium R_E were 0.30–0.35 for one trophic linksystems with both a monospecific culture and a mixed speciesassemblage of bacterivorous flagellates. R_E was higher for multi-trophicstep food webs: 0.60 for 5 µm pre-screened coastal seawaterand 0.90 for whole coastal seawater.     

Regulation of Sterol Biosynthesis in Solanum Species

Regulation of sterol synthesis was studied in Solanum species.A significant negative correlation was found between sterolcontent and rate of sterol synthesis from (1-¹⁴C) acetate inplant organs of Solanum nigrum and cell cultures of S. dulcamara.Exogenous cholesterol significantly inhibited the rate of sterolsynthesis from (¹⁴C) acetate in cell cultures of S. dulcamarawithout affecting synthesis from (³H) mevalonate. Exogenouscholesterol stimulated the rate of total lipid synthesis fromboth (¹⁴C) acetate and (³H) mevalonate. Thus, cholesterol inhibitedconversion of acetate to mevalonate; this is taken as evidenceof a negative feedback control on sterol synthesis. Key words: Feedback control, Phytosterol biosynthesis, Plant cell culture, Solanum species     

Responses of Marchantia in Aseptic Culture to Well-known Auxins and Antiauxins

Responses of young thalli of Marchantia nepalensis to ten well-knownauxins and antiauxins in aseptic culture are described. Effectsof one concentration of an auxin or an antiauxin were studiedin both liquid and solid cultures. The normal growth of inoculated thalli was inhibited but callus-liketissue was produced on them by the highest concentration (I.Omg./I.) of almost all the growth substances except MH, TIBA,and 2, 4^–DNP. At a later period callus-like tissue producedby IAA, IBA, and IPA differentiated into new thalli but thatproduced by NAA, NOA, 2,4^–D, and TCPA only did so on beingtransferred to control medium. At lower concentrations inoculated thalli developed normallybut they were soon overgrown by daughter thalli. No protonemalphase comparable to that of mosses could be observed in thedevelopmental stage of a regenerating thallus. The early stageis characterized by a stable filamentous structure, normallyconsisting of two to three cells. Filamentous structures ofvarying number of cells were however produced in some treatments. Profuse rhizoids were produced by the highest concentrationof NOA, 2,4^–D, TCPA, IBA, and IPA. Certain growth substancesinhibited the formation of tuberculate but not of smooth rhizoidsin liquid but not in solid cultures. Also tuberculate rhizoidswith feebly developed pegs were produced in certain liquid culturesonly and even in control liquid culture. More gemma-cups wereproduced in liquid cultures. Germinated gemmae with rhizoidswere invariably present in solid but not in corresponding liquidcultures. Germinated gemmae within gemma-cups were frequentlyfound. The significance of these results is discussed.     

The Establishments of Tissue 4

Callus cultures of 12 temperate grasses were established, somefor the first time, by incubating detached roots or whole seedlingson a Linsmaier and Skoog basal medium which contained 2, 4-dichlorophenoxyaceticacid (2, 4-D) at 1.0 mg 1^–1 as the only growth hormone.The callus, which developed in the pericycle of the roots andon the embryo of the seeds, was subcultured on the same medium;further growth of the callus varied from good in the case ofDactylis glomeraia, Agrostis tennis, Cynosurus cristatus, andPoa trivialis, to poor in several Lolium species and varieties.Most cultures developed root primordia which sometimes grewinto visible roots, but shoot primordia, none of which grewinto shoots, were found only in the callus of Lolium multiflorumvar. westerwoldicum. Cell suspension cultures were also readily established and maintainedusing the same culture medium. Most cultures contained a highproportion of round or oval cells, which ranged from 18 to 77µm in diameter or length, while many also had a significantproportion of larger, more elongated cells which varied in lengthfrom 46 to 182 µm. The cells of Dactylis glomerata werecharacteristically larger and more convoluted than the cellsof other grass species that were examined. The addition of kinetinat 0.1 mg 1^–1 to the 2, 4-D-containing culture mediumincreased the proportion of irregular-shaped cells and reducedthe dispersion of the cells, perhaps by improving cellular contactand adhesion; in some species, such as Agrostis tenuis and Phleumpratense, the presence of kinetin promoted the deposition ofstarch granules in cells.     

Shear stress effects on cell growth and <Emphasis Type="SmallCaps">L</Emphasis>-DOPA production by suspension culture of <Emphasis Type="Italic">Stizolobium hassjoo</Emphasis> cells in an agitated bioreactor

Suspension cultures of Stizolobium hassjoo cells were cultivated in a 7l bioreactor. The growth rate and intracellular L-DOPA content of the cells using two different turbine impellers were compared. There were distinct differences in growth behavior and L-DOPA productivity in the range of 100 to 500 rpm for flat-blade turbine impeller. Disk turbine retarded significantly the cell growth but not so significantly for L-DOPA production in the range of 200 to 300 rpm. The shear force intensity of the two impellers at various rotational rates was compared with shear force index (SFI), and power input per unit mass and eddy length scale. There was good consistency among the three indexes for shear force intensity. Thus with SFI the shear force intensity of bioreactor can be indirectly estimated. A critical shear stress that may cause sublytic effect in cells was identified for flat-blade turbine operated at 400 rpm. The common effect between the shear stress and the proton elicitation in the bioreactor was elucidated with a hypothesis of signal transduction by second messenger, H⁺. Our results suggested that H⁺ transduced the signal to protoplast when S. hassjoo cells were stimulated by shear stress. This resulted in an increase of H⁺ which triggered a similar reaction to the pH control of culture broth and enhanced the L-DOPA production.     

Somatic Embryogenesis and Plant Regeneration from Freely-suspended Cells and Cell Groups of Panicum maximum Jacq

Embryogenic calluses derived from cultured immature embryosand young inflorescences of Panicum maximum Jacq. were placedin Murashige and Skoog's liquid medium supplemented with 1 mg1^–1 2, 4- dichlorophenoxyacetic acid (2, 4-D) and 2.5per cent coconut water, to initiate suspension cultures. Suspensionsconsisted of two types of cells: small, richly-cytoplasmic andoften starch-containing embryogenic cells, and large, vacuolatednon-embryogenic cells. A presumed sequence of developmentalstages from single embryogenic cells to globular and heart-shapedstages of embyrogenesis was observed in the suspension cultures.Plantlets were produced from the embryoids when the suspensionswere plated in an agar medium without any hormone or with only0.2 mg 1^–12, 4-D or naphthalene acetic acid. Embryogenicsuspension cultures derived from immature embryos as well asfrom inflorescence segments gave rise to plants which showedthe normal somatic chromosome number of 2n = 4x = 32. Panicum maximum Jacq., Guinea grass, embryogenesis, regeneration, suspension culture     

Dispersion characteristics of two planktonic diatoms

Not all phyloplankton behave as ideal water tracers. Longitudinaldispersion experiments were conducted in a large flume withseawater of constant depth and velocity. The transport of thepassive, fluorescent tracer, Rhodamine B dye, was compared withunialgal cultures of a large, fast-sinking diatom (Odontellachinensis) and a small, slow-sinking diatom (Skeletonema costatum).Horizontal dispersion rates, proportional to variance per distance,were linear for the dye and Skeletonema but nonlinear for Odontella.Results are explained by the interaction of Odontella sinkingand advection. Longitudinal dispersion coefficients for thedye and Skeletonema were between 60–80 cm² s^–1 andas high as 280 cm² s^–1 for Odontella. This may have implicationsfor nutrient uptake in natural phytoplankton populations.     

Relation between Sex Expression Types and Cotyledon Etiolation of Cucumber in vitro I. On the Role of Ethylene Evolved from Seedlings

Cucumber seedlings, when cultured in vitro, showed differencesin cotyledon etiolation rates among cultivars with differentgenetic backgrounds for sex expression. The chlorophyll contentin gynoecious cultivars (acr^F/acr^F) decreased rapidly whilethat in monoecious ones (acr⁺/acr⁺) decreased more slowly, andthat in mono-gynoecious ones (acr¹/acr¹) decreased at an intermediaterate. Etiolation was suppressed even in early-etiolating cultivarswhen the flask remained unsealed or endogenously evolved ethylenewas removed. Cotyledon etiolation was enhanced even in late-etiolatingcultivars when ethephon was added to the flask. The rate ofetiolation corresponded to the ethylene concentration in theflask; much more ethylene was detected in early-etiolating cultivarsthan in late-etiolating ones. Ethylene accumulation is one of the important factors involvedin the cotyledon etiolation observed in in vitro cultures. Thedifference in etiolation rates among seedlings with differentgenetic backgrounds for sex expression corresponds to theirability for ethylene evolution, in the order of acr^F>acr¹>acr⁺. (Received January 6, 1981; Accepted March 23, 1981)     

Response of Cultured Embryos of Phaseolus vulgaris and Hordeum vulgare to Farnesol

Excised embryos of Phaseolus vulgaris incubated in a mediumcontaining 10 mg dm^–3 farnesol showed enhanced root growthwhereas the leaves remained rudimentary At lower concentrationsof exogenous farnesol normal leaf development occurred and rootgrowth was comparable to untreated cultures. Enhanced root growthalso occurred when excised embryos of Hordeum vulgare were treatedwith farnesol but only at 10 mg dm^–3 and this treatmentdid not prevent leaf growth X-ray micro-probe analysis of leavesrevealed an increased phosphorus content in P vulgaris and adecreased sulphur content in H vulgare in comparison to untreatedplants. Hordeum vulgare L., barley, Phaseolus vulgaris, bean, embryo culture, farnesol, X-ray microprobe analysis, root growth     

Ammonium release by nitrogen sufficient diatoms in response to rapid increases in irradiance

It has been hypothesized that nitrogen-replete diatoms, butnot flagellates, may release NO₂^–, NH₄⁺ or dissolved organicnitrogen (DON) following rapid increases in irradiance (andconsequently an increase in cellular electron energy), as mightbe expected to occur in a vertically well mixed estuarine system.Just as the increase in irradiance leads to an increase in cellularenergy, so too would a decrease in temperature, due to the temperaturedependency of biosynthetic enzymes. This hypothesis was testedby comparing the response of nitrogen-replete diatoms (Skeletomenacostatum, Thalassiosira weissflogii and Chaetoceros sp.) andflagellates (Dunaliella tertiolecta, Pavlova lutheri and Prorocentrumminimum) to rapid increases in irradiance and decreases in temperature.Short-term (<3 h) changes in extracellular NO₂^– andNH₄⁺ concentrations were measured in cultures following theseexperimental shifts, as well as in cultures retained at thegrowth irradiance. Net rates of NO₂^– and NH₄⁺ releasewere calculated from the time course of extracellular nitrogenconcentrations. As a fraction of NO₃^– uptake, NO₂^–release rates under the increased irradiance increased marginallyrelative to NO₂^– release rates under the growth irradiance.Release rates of NH₄⁺ under the increased irradiance increasednearly fivefold over release rates at the growth irradiance,and accounted for 84% of the NO₃^– uptake rate. In directcontrast to the diatom species, the flagellate species releasedNO₂^– under the higher experimental irradiance at ratesone half those of the release rates under the growth irradiance,and continued to take up NH₄⁺ under both irradiance conditions.Within the experimental boundaries, these findings have importantphysiological and ecological implications. The magnitude ofthe observed nitrogen release represents a significant physiologicalsink for electrons and, in fact, calculations suggest that upto 62% of the total electrons harvested could be consumed. Froman ecological perspective, these findings add to the body ofliterature which suggests that a significant fraction of thenitrogen that is taken up is ultimately released in dissolvedform. More importantly, these data suggest that DON is not theonly compound that phytoplankton may release in the aquaticenvironment.     

The effect of cadmium and lead on the growth of two species of marine phytoplankton with particular reference to the development of tolerance

Decreases in salinity (<10%) increased the growth rates ofPhaeodactylum tricornutum and Dunaliella tertiolecta. Increasinglevels of cadmium (1–50 ppm (mg 1^–1)) reduced thegrowth rates of both species. 100 ppm cadmium was lethal toD. tertiolecta but not to P. tricornutum. Lead (1 –4 ppm)initially increased the growth rate of D. tertiolecta but thencaused all but the 1 ppm culture to die. Lead (1–4 ppm)caused a decrease in growth rate of P. tricornutum. After exposureto 1 ppm cadmium, cultures of D. tertiolecta showed an increasedtolerance to levels of cadmium, and a changed response to levelsof lead. Exposure of P. tricornutum to either cadmium or lead,or exposure of D. tertiolecta to lead caused no change in responseto either metal.     

Photoadaptation in Antarctic phytopfankton: variations in growth rate, chemical composition and P versus I curves

The response of phytoplankton to variations in the light regimewas studied during the VULCAN and ACDA cruises in the Antarctic.Unenriched batch cultures of 12–19 days' duration reachedchl concentrations of 10–50 µg^–1 and exhibitedexponential growth rates, with the maximal rate being 0.41 doubl,day^–1. Ice edge algae exhibited maximum growth rates atphoton flux densities (PFD) of 30–100 µE m^–2S^–1and the growth rate was reduced by about 30% at 500–1000µE m^–2S^–1 The chl/C ratio ranged between 0.004and 0.018, with the lowest ratios at PFDs above 500 µEm^–2S^–1 chl/C ratios were also below maximum at PFDsbelow 40–50 µE m^–2S^–1 The C:N:P ratioswere close to the Redfield ratios; the Si/C ratio averaged 0.16(atoms), and the ATP/C ratio averaged from 0.0024 to 0.0050in different culture senes. When thawed after having been frozenfor 10 days, shade-adapted cultures were in a much better conditionthan sun-adapted ones. P versus I data showed that the maximumassimilation number varied from 0.75 to 4.4 µg C (µgchl)^–1h^–1. It varied inversely with the chl/C ratio;therefore the maximum carbon turnover rate varied little betweensamples (0.024/0.035 h^–1). Low biomass communities exhibitedrelatively high values for (the initial slope of P versus Icurves), low values for 1_sat (160–330 µE m^–2S^–1),and they were susceptible to photoinhibition. In contrast, communitiesdominated by Odontella weissflogii exhibited low values for, a high value for I_sat (560 µE m^–2S^–1 andthey tolerated high PFDs. The photo-adaptational status of thephytoplankton in natural water samples is discussed relativeto the profile of water column stability and mixing processes.     

Growth and Antithraquinone Biosynthesis by Galium mollugo L. Cells in Batch and Chemostat Culture

The kinetics of growth, nutrient uptake, and anthraquinone biosynthesisby suspension cultures of Galium mollugo L. cells were examinedin batch and continuous (chemostat) culture. In batch culture,although the initial growth rate was constant (minimum doublingtime = 35 h) characteristic changes in cell composition wereobserved during the growth cycle particularly cell dry weight(between 3.9 and 9.2 g/10⁹ cells), cell anthraquinone (22–80mg/10⁹ cells), and cell protein (0.7–1.6 g/10⁹ cells).Using a chemostat steady state growth was established at twodifferent specific growth rates with mean doubling times of40 h and 25 h. Phosphate was established as the growth-limitingnutrient in chemostat culture at a concentration of 11 µgP ml^–1. In steady state growth at a doubling time of 40h the cell composition remained constant although this was differentfrom any cells grown in batch culture. The cell anthraquinonelevel in steady state growth was between 7 and 30 times lowerthan in batch culture. This result raises the question of therelative importance of growth rate and the growth-limiting nutrientin determining accumulation of secondary products by culturedplant cells.     

Simultaneous changes in cell quotas of microcystin, chlorophyll a, protein and carbohydrate during different growth phases of a batch culture experiment with Microcystis aeruginosa

The cell quotas of microcystin (Q_mcyst), protein (Q_prot), chlorophylla (Q_chloro) and carbohydrate (Q_carbo), as well as the net productionrates of these parameters, were determined during the exponentialand stationary phases in nine batch cultures of Microcystisaeruginosa (CYA 228) at light regimes from 33 to 53 µmolphotons m^–2 s^–1. The following results were obtained.(i) A parallel pattern was found in the changes of Q_mcyst, Q_prot,Q_chloro and Q_carbo during the entire growth cycle and significantcorrelations were recorded between Q_mcyst and Q_prot, Q_chloroand Q_carbo. (ii) The net microcystin production rate (µ_mcyst)was positively correlated with the specific cell division rate(µ_c), the chlorophyll production rate (µ_chloro)and the protein production rate. (iii) A significant inverselinear relationship was found between µ_c and Q_mcyst, i.e.cultures with a positive µ_c had a Q_mcyst between 110 and400 fg microcystin cell^–1, while declining cultures hadQ_mcyst values >400 fg microcystin cell^–1. Maximum variationin Q_mcyst within cultures was 3.5-fold. Collectively, the resultsshow that cells produced microcystin at rates approximatingthose needed to replace losses to daughter cells during divisionand that microcystin was produced in a similar way to proteinand chlorophyll, indicating a constitutive microcystin production.     

The influence of irradiance on growth, photosynthesis and respiration of Gyrodinium cf. aureolum

The bloom-forming marine dinoflagellate Gyrodinium cf. aureolumwas grown in batch cultures over a range of irradiances (35–380µmolm^–2 s^–1 and growth, photosynthesis and respirationrates determined. Saturation of growth occurred at irradiancesof 100µmol m^–2 s^–1 Below this light level,decreases in growth rates and cell size, and a relative increasein carbon specific respiration rates, were observed. On theother hand, photosynthesis-irradiance relationships determinedfrom dissolved oxygen incubations showed that on a cellularand carbon basis, cultures grown at low irradiances had higherrates of light-limited and light-saturated photosynthesis, mainlyas a result of large increases in cell chlorophyll content.This adaptation strategy enables low-light-grown organisms toexploit available high irradiance through a relatively highphotosynthetic capacity. In cells grown at higher light levels(>100µmol m^–2 s^–1), excess photosynthatemay be diverted to storage rather than used for growth.