Allelopathic activity of Chara aspera

Allelopathic activity of Chara aspera was determined in agar diffusion assays using planktonic cyanobacteria as target organisms. Growth inhibition of cyanobacterial strains was observed in bioassays inoculated with living Chara aspera shoots as well as with 60% aqueous methanol extracts of Chara aspera. For further analysis, the methanol extract was fractionated into three parts: a lipophilic methanol – a butylmethylether-extract and a hydrophilic methanol extract. The bioassays indicated that major allelopathic activity was retained in the hydrophilic methanol – and the lipophilic butylmethylether-extract. Separation of the extracts by means of high performance liquid chromatography followed by fractionation of the eluant resulted in supplementary nine fractions, three from each part, respectively. Three fractions exhibited a strong growth inhibition of the target organism Anabaena cylindrica Lemmermann. The second and the third fraction of the lipophilic butylmethylether extract indicate the presence of novel allelopathic active compounds with lipophilic characteristics. The results lead to the suggestion that more than two chemical compounds in Chara aspera are responsible for the growth inhibition of cyanobacteria.     

Hydrostatic pressure as the controlling factor in the depth distribution of Eurasian watermilfoil,Myriophyllum spicatum L.

These experimental studies have shown that this plant will grow successfully at pressures encountered in water at depths as great as 17 m. When there were suitable levels of light, temperature, nutrients and aeration, the plants grown under constant hydrostatic pressure for three weeks showed variations in the measured amounts of new growth but no measure could be associated with the constant increased hydrostatic pressure. Sudden changes in pressure are thought to play a significant role in aquatic plant growth under experimental conditions.     

Generation of action potentials in Chara corallina by turgor pressure changes

A depolarisation of the membrane potential difference (about-170 mV) of Chara corallina is observed in response to changes in cell turgor pressure using the pressure probe technique. The depolarisation occurs in phase with the pressure pulse (0.2 s duration) and is independent of the direction of the applied pressure gradient. This latter finding is in contradiction to results predicted on the basis of electro-kinetic phenomena. Pressure induced electrical leakages were ruled out by measuring the depolarisation in response to pressure in individual segments of the internode which were electrically isolated from one another. The changes in potential were recorded by external electrodes and an internal electrode which was positioned close to the micropipette of the pressure probe inserted through one of the electrically isolated nodes. The depolarisation in response to increasing positive or negative pressure gradients in the intact node region and in the intact middle segments was comparable to that monitored in the node region containing the pressure probe. Action potentials were initiated when the pressure gradients exceeded at least 2 bar. The action potentials were elicited at random in one of the two compartments adjacent to the node regions, but were never found to be initiated in the node regions themselves. The pressure-induced action potentials are explained in terms of an electro-mechanical compression (or expansion) of a local membrane area and discussed in their relevance to the propagation of pressure signals in response to water and salt stress in higher plants.Abbreviations PD potential difference     

Assessment of Allelopathic Potential of Root Exudate of Rice Seedlings

To determine the allelopathic potential of root exudate from early developmental stage of rice (Oryza sativa L), 6-d-old seedlings of eight cultivars were grown with 3-d-old alfalfa (Medicago sativa L.), cress (Lepidium sativum L.) or lettuce (Lactuca sativa L.) seedlings in Petri dishes under controlled condition. All rice cultivars (cv. Norin 8, Kamenoo, Nipponbare, Kinuhikari, Koshihikari, Sasanishiki, Yukihikari and Hinohikari) inhibited growth of roots, shoots and fresh mass of alfalfa, cress and lettuce seedlings. Effectiveness of cv. Koshihikari was the greatest and more than 60% inhibition was recorded in all bioassays, followed by that of cv. Norin 8 of which effectiveness was more than 40%.     

Cumulative consumption of the lake macrophyte Elodea by abundant generalist invertebrate herbivores

Previous investigations have shown that macrophyte biomass can be substantially reduced by invertebrate herbivores but have not provided evidence for the links between the magnitude of the observed damage and the densities of herbivores. The results of this study support the hypothesis that the abundant occurrence of the epiphytic generalist herbivores may result in their cumulative consumption which, in turn, can be regarded as the mechanism responsible for often observed relatively high level of herbivory on freshwater macrophytes. The percentage of Elodea sp. biomass consumed by invertebrates was estimated for six European lakes, based on analysis of gut contents, daily rations and the density of epiphytic herbivores. Although the daily ration of these invertebrates when feeding upon Elodea averaged only 14.6% of their dry mass, their biomass was relatively high (from 0.163 to 1.161 g DW per 100 g DW plant). The estimated percentage of Elodea biomass consumed during one summer month by epiphytic invertebrates ranged from 0.5 to 5.9%. These values, after extrapolating to the whole growing season would mean that the biomass of Elodea lost to herbivory was between about 2 and 23%, an estimate which are within the range of consumption reported by other authors.     

Spatial organization of transport domains and subdomain formation in the plasma membrane of Chara corallina

Pattern formation mechanisms in developing organisms determine cellular differentiation and function. However, the components that interact during the manifestation of a spatial pattern are in general unknown. Characean algae represent a model system to study pattern formation. These algae develop alternating acid and alkaline transport domains that influence the pattern of growth. In the present study, it will be demonstrated that a diffusion mechanism is implicated in acid and alkaline domain formation and this growth pattern. Experiments on the characean growth pattern were performed that resulted in pronounced, however, unpredictable modifications in the original pattern. A major component involved in this pattern-forming mechanism emerged from the nonlinear kinetics of the H⁺-ATPase that is located in the plasma membrane of these algae. Based on these kinetics, a mathematical model was developed and numerically analyzed. As a result, the contribution of a diffusional component to the characean acid/alkaline pattern appeared most likely.This work was supported by the Deutsche Forschungsgemeinschaft (grant #571 1/1) to JF.     

Ecological life histories of the three aquatic nuisance plants,Myriophyllum spicatum,Potamogeton crispus and Elodea canadensis

The life histories of Myriophyllum spicatum L., Elodea canadensis Michx., and Potamogeton crispus L., serious aquatic nuisances in many regions of the world, are reviewed to provide insights into the life style of successful aquatic nuisance plants. Specifically, their distribution and spread in North America; their life cycle, productive and reproductive potential; and their ecosystem relationships are reviewed. Hopefully this review will improve a manager's ability to deal with aquatic nuisance problems. It also provides suggestions for basic research needed to develop more effective management practices.It was found that all three species possess a number of adaptations, including an ability to rapidly propagate vegetatively, an opportunistic nature for obtaining nutrients, a life cycle that favors cool weather, and a number of mechanisms which enhance photosynthetic efficiency, which allow them to proliferate.These three species do provide benefits to the ecosystem through their roles in materials cycling and energy flow. Therefore, management of these species should take an integrated approach which recognizes these benefits.The life history information available about the three species varies tremendously; however, a better understanding of resource gain and allocation is needed to manage all three species. Specifically, more research is needed to provide a better understanding of: 1) the role bicarbonate plays in photosynthesis, 2) the role roots play in supplying CO₂ to the plabts, 3) resource accumulation and allocation under different temperature and light regimes, 4) resource allocation on a seasonal basis, and 5) nutrient cycling under different management regimes.     

The plasma membrane of young Chara internodal cells revealed by rapid freezing

Young elongating internodal cells of Chara globularis var. capillacea (Thuill.) Zanev. were rapidly frozen and freze-fractured in order to observed transient events occurring within the plasma membrane. Several structures have been observed. Relatively small depressions, varying in depth, are prolific and scattered at random over the plasma membrane. Charasomes and clusters of particle rosettes are common. Arrays of intramembrane particle lines are a characteristic feature of the internodal cell plasma membrane. The charasomes and the arrays of particle lines occupy a considerable proportion of the plasma membrane. In these young cells, substantial movement must take place across this membrane and its basic structure must fluctuate accordingly. The innumerable small depressions may represent pinocytotic and secretory processes. The array of intramembrane particle lines may represent stages in fusion between the membranes of vesicles within the cytoplasm and the plasma membrane. The technique of ultra-rapid freezing allows these events and their intermediate stages to be visualised; some features of the membrane may only be seen by this method.     

A correlation between changes in luminescence decay kinetics and the appearance of a CO2-accumulating mechanism in Scenedesmus obliquus

In experiments with the unicellular green algae Scenedesmus obliquus a correlation was found between the presence of the CO₂-accumulating mechanism and the appearance of polyphasic luminescence decay kinetics. A potentiometric titration method was used to measure and calculate photosynthetic carbon uptake.Polyphasic luminescence decay kinetics was found when the algae showed photosynthetic characteristics typical of algae adapted to low-CO₂ conditions. When high-CO₂ grown algae were transferred to low-CO₂ conditions they gradually developed polyphasic decay kinetics during the first 25–30 minutes. When low-CO₂ grown algae were transferred to high-CO₂ conditions the polyphasic decay kinetics disappeared. To account for these results a working hypothesis is presented on the basis of the energy requirement for a CO₂-accumulating mechanism.     

Carbon dioxide fixation by Chlorella kessleri, C. vulgaris, Scenedesmus obliquus and Spirulina sp. cultivated in flasks and vertical tubular photobioreactors

CO₂ at different concentrations were added to cultures of the eukaryotic microalgae, Chlorella kessleri, C. vulgaris and Scenedesmus obliquus, and the prokaryotic cyanobacterium, Spirulina sp., growing in flasks and in a photobioreactor. In each case, the best kinetics and carbon fixation rate were with a vertical tubular photobioreactor. Overall, Spirulina sp. had the highest rates. Spirulina sp., Sc. obliquus and C. vulgaris could grow with up to 18% CO₂.     

Relief of Arsenate Toxicity by Cd-Stimulated Phytochelatin Synthesis in the Green Alga Chlamydomonas reinhardtii

In most photosynthetic organisms, inorganic arsenic taken up into the cells inhibits photosynthesis and cellular growth. In a green alga, Chlamydomonas reinhardtii, 0.5 mM arsenate inhibited photosynthesis almost completely within 30 min. However, in cells acclimated with a sublethal concentration (0.05 to 0.1 mM) of Cd, the inhibition of photosynthesis at 30 min after the addition of arsenate was relieved by more than 50%. The concentrations of arsenic incorporated into the cells were not significantly different between the Cd-acclimated and the non-acclimated cells. The Cd-acclimated cells accumulated Cd and synthesized phytochelatin (PC) peptides, which are known to play an important role in detoxification of heavy metals in plants. By the addition of an inhibitor of glutathione (an intermediate in the PC biosynthetic pathway) biosynthesis, buthionine sulfoximine, cells lost not only Cd tolerance but also arsenate tolerance. These results suggest that glutathione and/or PCs synthesized in Cd-acclimated cells are involved in mechanisms of arsenate tolerance. The authors contributed equally to this work.     

Chara plasmalemma at high ph: Voltage dependence of the conductance at rest and during excitation

The high pH state of Chara plasmalemma (Bisson, M.A., Walker, N.A. 1980. J. Membrane Biol. 56:1-7) was investigated to obtain detailed current-voltage (I/V) and conductance-voltage (G/V) characteristics in the pH range 7.5 to 12. The resting conductance started to increase at a pH as low as 8.5, doubling at pH 9.5, but the most notable increases occurred between pH 10.5 and 11.5, as observed previously (Bisson, M.A., Walker, N.A. 1980. J. Membrane Biol. 56:1-7; Bisson, M.A., Walker, N.A. 1981. J. Exp. Bot. 32:951-971). The slopes (and shapes) of the I/V curves varied even over minutes, suggesting a shifting population of open channels. Possible contributions of the permeabilities to H+ and OH-, PH and POH, respectively, to the increase in membrane conductance were calculated in the pH range 8.5 to 12. If PH is the main cause for the increase in conductance, it would have to rise by three orders of magnitude between pH 8.5 and 11.5, implying an enormous increase in the open-channel population as pH rises. On the other hand, a comparatively constant POH over that pH range would result in an increase in conductance due to the rise of OH- concentration. This indicates unchanging open-channel population. The transient excitation conductances at pH 7.5 and 11.5 were compared at a range of membrane PD (potential difference) levels. At more positive PD levels (near 0) the transient conductances showed little change as pH was increased. However, near the excitation threshold the conductance at high pH was slower to reach peak and its amplitude was diminished compared to that at neutral pH. This effect was found to be partially due to the pH change itself and partially due to less negative membrane PD at high pH. The changes in excitation transients developed gradually as pH of the medium was increased. These findings are discussed with a recent model of excitation in mind (Shiina, T., Tazawa, M. 1988. J. Membrane Biol. 106:135-139).     

Glyceraldehyde 3-phosphate dehydrogenase of Scenedesmus obliquus: Promotion of NADPH-dependent activity and antagonisation by NAD

The glyceraldehyde 3-phosphate dehydrogenase activity of extracts from heterotrophic Scenedesmus obliquus was linked predominantly to NADH. However, on DEAE-cellulose chromatography the enzyme was eluted by a gradient of phosphate in a form characterized by high NADPH-dependent glyceraldehyde 3-phosphate dehydrogenase activity. This interconversion of enzyme forms could be prevented by the presence of NAD during DEAE-cellulose chromatography.High concentrations of phosphate stimulated the NADPH-dependent activity of the purified enzyme at the expense of activity linked to NADH and these changes were associated with depolymerization of a hexadecamer to a tetramer. The effect of phosphate on the rates of increase in NADPH-dependent activity and of a decrease in activity linked to NADH was cooperative with a Hill coefficient of 3.2. The inversely related changes in coenzyme specificity were inhibited to the same extent by NAD and the response to this ligand was anticooperative. These findings imply a strictly inverse proportional relationship between the rates of change of NADH and NADPH-linked activity. In the presence of dithiothreitol, low concentrations of phosphate promoted NADPH-dependent activity by stabilising the unstable tetrameric form produced from the hexadecamer by the thiol.These phenomena are discussed in relation to a general mechanism for the in vivo promotion of NADPH-dependent glyceraldehyde 3-phosphate dehydrogenase activity.     

Interactions of glycolate-, HCO 3 - -, Cl--, and H+-balance of Scenedesmus obliquus

Excretion and absorption of glycolate by young cells of Scenedesmus obliquus (Turp.) Krüger strain D₃ grown synchronously with 2% CO₂ was compared after no pretreatment with air (CO₂-adapted) or after a 2 h adaptation to normal air (0.03% CO₂) (air-adapted). At 21% O₂, excretion occurred only from CO₂-adapted cells at high pH (pH 8.0). Under conditions where no excretion occurred, external glycolate (0.2 mM) was taken up by both air-and CO₂-adapted cells at a much faster rate at pH 5 than at pH 8. The uptake was accompanied by an apparent stoichiometric uptake of H⁺. CO₂-adapted algae exhibited high uptake rates that were even higher in the dark than in the light. Air-adapted algae showed high uptake rates in the light but only minimal uptake in the dark. The uptake rate was decreased to about 1/3 with 5% CO₂, except with CO₂-adapted cells in the light, in which a slight stimulation occurred. Cl^- ions inhibited glycolate uptake by air-adapted cells in the light; conversely, light-stimulated Cl^- uptake of these cells was inhibited by glycolate. A hypothesis is discussed according to which the internal pH regulates the uptake and release of Cl^-, HCO ₃ ^- , and glycolate.Abbreviations DCMU 3-(3,4 dichlorophenyl)-1, 1-dimethyl urea - FCCP carbonyl cyanide p-trifluoro-methoxyphenylhydrazone - HEPES 2-(4-(2-hydroxyethyl)-piperazinyl) ethanesulfonic acid - HPMS -hydroxypyridinemethanesulfonate - MES 2-morpholinoethanesulfonic acid - PCV packed cell volume     

Effect of Temperature and Illumination on Growth and Reproduction of the Green Alga Ulva fenestrata

The combined effect of temperature (5, 10, 15, and 20°C) and illumination (40 and 60 mE/(m² s)) on growth and reproduction of the green marine alga Ulva fenestrata P. et R. from the sublittoral zone of Amursky Bay, Sea of Japan, was studied in the laboratory environment in the months April–July, 2000. It was demonstrated that the temperature of 5°C and illumination of 40 mE/(m² s) are the most favorable for maintaining the vegetative mass of the algae. A water temperature of 10°C and illumination of 40 mE/(m² s) are the optimum conditions for vegetative growth of U. fenestrata thalli. A temperature decrease and increase by 5°C reduces the growth rate on average by 30%. Sporo- and gametogenesis in U. fenestrata are the most regular (every 10 days) and occupy the greatest disk area at a water temperature of 15°C and illumination of 40 mE/(m² s). Vegetative growth of thalli is sharply inhibited at the stage of cell preparation to gametogenesis a day before the beginning of gamete formation.     

Spatio-temporal patterns of photosystem II activity and plasma-membrane proton flows in Chara corallina cells exposed to overall and local illumination

Pulse-amplitude modulated microfluorometry and an extracellular pH microprobe were used to examine light-induced spatial heterogeneity of photosynthetic and H⁺-transporting activities in cells of Chara corallina Klein ex Willd. Subcellular domains featuring different PSII photochemical activities were found to conform to alternate alkaline and acid zones produced near the cell surface, with peaks of PSII activity correlating with the position of acid zones. Buffers eliminated pH variations near the cell surface but did not destroy the variations in PSII photochemical yield (F/F_m). When a dark-adapted cell was exposed to actinic light, the PSII effective yield decreased within 5–15 min in the alkaline regions but rose after the initial decline in the acid regions. The light-induced decrease in F/F_m in the alkaline regions occurred prior to or synchronously with the steep rise in local pH. The kinetics of F/F_m, F_m, and F observed in alkaline regions under overall illumination of Chara cells were replaced by those typical of acid regions, when the illumination area size was restricted to 1.5–2 mm. The data show that photoinduced patterns in photosynthetic activity are not predetermined by the particular structural organization of alkaline and acid cell regions but are subject to dynamic changes.Abbreviations APW artificial pond water - a.u. arbitrary units - F_o and F_m minimal and maximal chlorophyll fluorescence yields in a dark-adapted cell - F and F_m actual (running) and maximal fluorescence yields in a cell exposed to actinic light - F/F_m(F_m–F)/F_m effective quantum yield of PSII photochemistry - pH_o pH of the medium near the cell surface - PSII photosystem II     

Calcium/aluminium interactions in the cell wall and plasma membrane of Chara

The proposal that aluminium (Al) toxicity in plants is caused by either inhibition of Ca²⁺ influx or by displacement of Ca²⁺ from the cell wall, was examined. For this study the giant alga Chara corallina Klein ex Will. em. R.D. Wood was selected because it shows a similar sensitivity to Al as in roots of higher plants and, more importantly, it is possible to use the large single internodal cells to make accurate and unambiguous measurements of Ca²⁺ influx and Ca²⁺ binding in cell walls. Growth of Chara was inhibited by Al at concentrations comparable to those required to inhibit growth of roots, and with a similar speed of onset and pH dependence. At Al concentrations which inhibited growth, influx of calcium (Ca²⁺) was only slightly sensitive to Al. The maximum inhibition of Ca²⁺ influx at 0.1 mol·m^–3 Al at pH 4.4 was less than 50%. At the same concentration, lanthanum (La³⁺) inhibited influx of Ca²⁺ by 90% but inhibition of growth was similar for both La³⁺ and Al. Removal of Ca²⁺ from the external solution did not inhibit growth for more than 8 h whereas inhibition of growth by Al was apparent after only 2.5 h. Ca²⁺ influx was more sensitive to Al when stimulated by addition of high concentrations of potassium (K⁺) or by action potentials generated by electrical stimulation. Other membrane-related activities such as sodium influx, rubidium influx and membrane potential difference and conductance, were not strongly affected by Al even at high concentrations. In isolated cell walls equilibrated in 0.5 mol·m^–3 Ca²⁺ at pH 4.4, 0.1 mol·m^–3 Al displaced more than 80% of the bound Ca²⁺ with a half-time of 25 min. From the poor correlation between inhibition of growth and reduction in Ca²⁺ influx, it was concluded that Al toxicity was not caused by limitation of the Ca²⁺ supply. Short-term changes in other membrane-related activities induced by Al also appeared to be too small to explain the toxicity. However the strong displacement, and probable replacement, of cell wall ca²⁺ by Al may be sufficient to disrupt normal cell development.Abbreviations CPW artificial pond water - PD potential difference The technical assistance of Dawn Verlin is gratefully acknowledged. This work was supported by the Australian Research Council.     

Changes in Thallus Weight and Size in the Green Alga Ulva fenestrata under Artificial Conditions

From August to October 2002, daily measurements of the thallus weight and area were taken in sporophytes and male and female gametophytes of Ulva fenestrata at similar developmental phases. The algae were reared in aquaria at a constant temperature (22 ± 0.5°C); illumination was applied for 12h a day at a photosynthetically active radiation intensity of 400 E/(m² s). All generations showed a linear increase in the thallus weight and area over time with the same relative daily increment (8 to 15%). Generations differed significantly in time to onset of sporogenesis or gametogenesis. The female gametophyte, sporophyte, and male gametophyte began to release gametes or spores in 7, 10, and 15 days, respectively. A scheme for the distribution of cells among age groups is proposed. The scheme seems to account for the linear pattern of thallus growth.