The Physiology of Sugar-Cane. IX.·Factors Affecting Photosynthesis and Sugar Storage

JC Waldron; KT Glasziou; TA Bull

doi:10.1071/bi9671043

Factors affecting growith and distribution of kauri (Agathis australis Salisb.) I. Effect of light on the establishment of Kaura and of Phyllocladus trichomanoides D.Don

Australian Journal of Botany ◽

10.1071/bt9590252 ◽

1959 ◽

Vol 7 (3) ◽

pp. 252 ◽

Cited By ~ 19

Author(s):

RL Bieleski

Keyword(s):

Light Intensity ◽

Frequency Distribution ◽

High Light Intensity ◽

High Light ◽

Low Light ◽

Factors Affecting ◽

Light Intensities ◽

Seedling Distribution ◽

Conifer Seedling ◽

Effect Of Light

A method for determining the effect of light on seedling distribution in the field is described. It can be applied when seedling frequencies are as low as 1/m2. The frequency distribution of light intensities occupied by seedlings in a quadrat is compared with the frequency distribution of light intensities measured on a grid in the quadrat. This method was used to study the effect of light intensity on the establishment of two New Zealand gymnosperms, kauri (Agathis australis) and Phyllocladus trichomanoides, in the nursery community, a semimature Leptospermum scoparium – L. ericoides associes. Kauri and Phyllocladus did not occur at light intensities below 0.015 and 0.018 full daylight respectively. This limitation appeared to be due to the low light intensity presumably limiting photosynthesis. Kauri, but not Phyllocladus, also showed a high light intensity limit, at 0.30 full daylight, above which seedlings did not establish. Reasons are given for considering this as an indirect effect, probably through related solar heating affecting soil temperature or moisture. The optimal light intensity for kauri and Phyllocladus seedling establishment was close to the modal light intensity under the Leptospermum community: Leptospermum spp. were incapable of regenerating under their own cover. These two reasons appear to explain the suitability of the Leptospermum community as a nurse crop for the two conifer seedling species.

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Light intensity regulates phototaxis, foraging and righting behaviors of the sea urchin Strongylocentrotus intermedius

PeerJ ◽

10.7717/peerj.8001 ◽

2019 ◽

Vol 7 ◽

pp. e8001 ◽

Cited By ~ 4

Author(s):

Jiangnan Sun ◽

Xiaomei Chi ◽

Mingfang Yang ◽

Jingyun Ding ◽

Dongtao Shi ◽

...

Keyword(s):

Light Intensity ◽

Foraging Behavior ◽

Sea Urchins ◽

High Light Intensity ◽

High Light ◽

Strongylocentrotus Intermedius ◽

Low Light ◽

Low Light Intensity ◽

Light Intensities ◽

Significant Difference

Small sea urchins Strongylocentrotus intermedius (1–2 cm of test diameter) are exposed to different environments of light intensities after being reseeded to the sea bottom. With little information available about the behavioral responses of S. intermedius to different light intensities in the environment, we carried out an investigation on how S. intermedius is affected by three light intensity environments in terms of phototaxis, foraging and righting behaviors. They were no light (zero lx), low light intensity (24–209 lx) and high light intensity (252–2,280 lx). Light intensity had obvious different effects on phototaxis. In low light intensity, sea urchins moved more and spent significantly more time at the higher intensity (69–209 lx) (P = 0.046). S. intermedius in high light intensity, in contrast, spent significantly more time at lower intensity (252–690 lx) (P = 0.005). Unexpectedly, no significant difference of movement (average velocity and total distance covered) was found among the three light intensities (P > 0.05). Foraging behavior of S. intermedius was significantly different among the light intensities. In the no light environment, only three of ten S. intermedius found food within 7 min. In low light intensity, nine of 10 sea urchins showed successful foraging behavior to the food placed at 209 lx, which was significantly higher than the ratio of the number (two of 10) when food was placed at 24 lx (P = 0.005). In the high light intensity, in contrast, significantly less sea urchins (three of 10) found food placed at the higher light intensity (2,280 lx) compared with the lower light intensity (252 lx) (10/10, P = 0.003). Furthermore, S. intermedius showed significantly longer righting response time in the high light intensity compared with both no light (P = 0.001) and low light intensity (P = 0.031). No significant difference was found in righting behavior between no light and low light intensity (P = 0.892). The present study indicates that light intensity significantly affects phototaxis, foraging and righting behaviors of S. intermedius and that ~200 lx might be the appropriate light intensity for reseeding small S. intermedius.

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Factors Affecting the Herbicidal Activity of TCA on Green Foxtail

Weed Science ◽

10.1017/s0043174500035293 ◽

1972 ◽

Vol 20 (2) ◽

pp. 172-176 ◽

Cited By ~ 4

Author(s):

Paul N. P. Chow

Keyword(s):

High Temperature ◽

Light Intensity ◽

Sodium Salt ◽

Trichloroacetic Acid ◽

High Light ◽

Herbicidal Activity ◽

Setaria Viridis ◽

Factors Affecting ◽

Leaf Stage ◽

Green Foxtail

Growth of green foxtail (Setaria viridis (L.) Beauv.) was effectively controlled in the greenhouse by applying the sodium salt of trichloroacetic acid (TCA) as a postemergence treatment, when a rate of 0.84 kg/ha was used; when application preceded the two-leaf stage; and when 2.54 mm of water were available daily for moving TCA into the soil. There were significant interactions of TCA rate with light intensity, temperature, and source of seeds on the response of green foxtail. Seedhead production was curtailed at rates of 0.56 kg/ha or above when plants were grown under high light intensities (19,250 to 22,000 lux) and at moderate temperatures (20 to 22 C). Rates of 1.68 kg/ha or more were required to stop heading of foxtail grown at high temperature (27 C).

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Transcriptome analysis of genes and pathways associated with metabolism in Scylla paramamosain under different light intensities during indoor overwintering

BMC Genomics ◽

10.1186/s12864-020-07190-w ◽

2020 ◽

Vol 21 (1) ◽

Author(s):

Na Li ◽

Junming Zhou ◽

Huan Wang ◽

Changkao Mu ◽

Ce Shi ◽

...

Keyword(s):

Energy Metabolism ◽

Light Intensity ◽

Differentially Expressed Genes ◽

High Light ◽

Differentially Expressed ◽

Scylla Paramamosain ◽

Strong Impact ◽

Low Light ◽

Light Intensities ◽

Light Group

Abstract Background Scylla paramamosain is one of the commercially crucial marine crustaceans belonging to the genus Scylla, which is commonly distributed along the coasts of China, Vietnam, and Japan. Genomic and transcriptomic data are scarce for the mud crab. Light intensity is one of the ecological factors that affect S. paramamosain during indoor overwintering. To understand the energy metabolism mechanism adapted to light intensity, we analyzed the transcriptome of S. paramamosain hepatopancreas in response to different light intensities (0, 1.43, 40.31 μmol·m− 2·s− 1). Results A total of 5052 differentially expressed genes were identified in low light group (LL group, 3104 genes were up-regulated and 1948 genes were down-regulated). A total of 7403 differentially expressed genes were identified in high light group (HL group, 5262 genes were up-regulated and 2141 genes were down-regulated). S. paramamosain adapts to different light intensity environments through the regulation of amino acids, fatty acids, carbon and energy metabolism. Different light intensities had a strong impact on the energy generation of S. paramamosain by influencing oxygen consumption rate, aerobic respiration, glycolysis/gluconeogenesis pathway, the citrate cycle (TCA cycle) and fatty acid degradation. Conclusion Low light is more conducive to the survival of S. paramamosain, which needs to produce and consume relatively less energy to sustain physiological activities. In contrast, S. paramamosain produced more energy to adapt to the pressure of high light intensities. The findings of the study add to the knowledge of regulatory mechanisms related to S. paramamosain metabolism under different light intensities.

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Growth and Flowering Performance of Potted Gerbera, Gerbera Jamesonii L. Under Different Light Intensity

Journal of Bangladesh Academy of Sciences ◽

10.3329/jbas.v36i2.12965 ◽

2012 ◽

Vol 36 (2) ◽

pp. 221-226

Author(s):

AFM Jamal Uddin ◽

C Das ◽

F H Shammy ◽

M Foysal ◽

M S Islam

Keyword(s):

Light Intensity ◽

Gerbera Jamesonii ◽

Full Sunlight ◽

Flower Production ◽

Light Intensities ◽

Academy Of Sciences

The influence of different light intensities (L0: full sunlight; L1: reduced sunlight; L2: 60% reduced sunlight) showed significant variations on growth and flower characteristics. Forty per cent reduced sunlight was more effective on growth and flower production than 60% reduced or in full sunlight. Tallest and thickest peduncles were produced (28.5 and 1.7 cm, respectively) with L1, similarly bigger flowers (6.0 cm diameter) were also found with L1 in comparison to L0 and L2. The maximum number of flowers per plant (15.6) was found from L1 and lowest (11.9) from L2.DOI: http://dx.doi.org/10.3329/jbas.v36i2.12965Journal of Bangladesh Academy of Sciences, Vol. 36, No. 2, 213-220, 2012

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EAR LENGTH AND SPIKELET NUMBER OF WHEAT GROWN AT DIFFERENT TEMPERATURES AND LIGHT INTENSITIES

Canadian Journal of Botany ◽

10.1139/b65-037 ◽

1965 ◽

Vol 43 (3) ◽

pp. 345-353 ◽

Cited By ~ 37

Author(s):

D. J. C. Friend

Keyword(s):

Light Intensity ◽

Low Temperatures ◽

Dry Weight ◽

High Light ◽

Morphological Development ◽

Spikelet Number ◽

Light Intensities ◽

Different Temperatures ◽

Total Plant ◽

Effects Of Temperature

The number of spikelets on the differentiating inflorescence and the ear at anthesis was highest at high light intensities and at low temperatures. The length of the developing inflorescence and the ear, the height of the main stem, and the total plant dry weight at the time of anthesis were also greatest under these conditions.These results are related to differential effects of temperature and light intensity on the rates and duration of apical elongation, morphological development of the ear, and spikelet formation.

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Cellular Bioenergetics in Spirulina platensis towards Growth and Phycocyanin Production Under Different Photon Flux Densities Using the Modified Zarrouk’s Medium

Turkish Journal of Agriculture - Food Science and Technology ◽

10.24925/turjaf.v9i1.28-34.3625 ◽

2021 ◽

Vol 9 (1) ◽

pp. 28-34

Author(s):

Anyway Chofamba

Keyword(s):

Light Intensity ◽

Chlorophyll Content ◽

Spirulina Platensis ◽

Low Cost ◽

Biomass Accumulation ◽

High Light Intensity ◽

High Light ◽

Photon Flux ◽

Market Demand ◽

Light Intensities

From all the pigments found in Spirulina platensis, phycocyanin has been found to have a diverse application in various fields, and has a high market demand, calling for a need to increase production and easy isolation methods. In general, phycocyanin production in cells depends on the light conditions, among other factors during the cultivation period. The focus of this study was to look at the effect of different light intensities on phycocyanin production in Spirulina platensis. Other cellular biochemical parameters, including chlorophyll content and protein, were explored under the different treatments. An experimental design containing 4 different light intensities of 20, 150, 300 and 600 μmol photons m2/s was administered with 3 replicates. The results obtained from the study showed that high phycocyanin content was obtained from a low light intensity treatment. Chlorophyll results were a bit in contrary to the results obtained for phycocyanin, with high chlorophyll content obtained in high light intensity treatments. Protein and biomass accumulation also followed the same trend, where they were observed to be higher in high light intensities, with the maximum biomass achieved at 600 μmol photons m2/s and maximum protein content achieved at 300 μmol photons m2/s. Due to the commercial potential of phycocyanin to humans, its low cost downstream cultivation and processing of Spirulina platensis will be of economic advantage to the relevant stakeholders to fulfil the rampant demands and affordability of the blue phycocyanin pigment to both first and third World countries, hence the need of producing phycocyanin using the modified Zarouk’s media which has cheaper if not affordable ingredients.

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METABOLIC CONDITIONS IN CHLORELLA

The Journal of General Physiology ◽

10.1085/jgp.32.1.103 ◽

1948 ◽

Vol 32 (1) ◽

pp. 103-110 ◽

Cited By ~ 21

Author(s):

Jack Myers ◽

Marian Cramer

Keyword(s):

Light Intensity ◽

Nitrogen Assimilation ◽

Nitrogen Deficiency ◽

Chlorella Pyrenoidosa ◽

High Light Intensity ◽

High Light ◽

Overflow Metabolism ◽

High Co2 ◽

Light Intensities ◽

N Assimilation

1. The effect of nitrate reduction and assimilation on the CO2/O2 quotient of gas exchange has been used as an index of the relative rates of carbon and nitrogen assimilation in Chlorella pyrenoidosa. Changes in over-all metabolism induced by starvation, high light intensity, and nitrogen deficiency have been studied in comparison with the metabolism of cells growing at light-limiting intensities. 2. Starvation, which results in depletion of carbohydrate reserves, gives rise to a high CO2/O2 quotient (∼0.9) during photosynthesis and, therefore, a high C/N assimilation ratio. Starved cells apparently restore their normal C/N ratio before becoming growing cells. 3. Under photosynthesis-saturating light intensities cells show the high CO2/O2 quotient (0.9) indicative of a high C/N assimilation ratio. Return to low light intensities is followed by the abnormally low CO2/O2 quotient (∼0.4) of a low C/N assimilation ratio. High light intensity apparently gives rise to a condition of a limiting rate of nitrogen assimilation and to an overflow metabolism analogous to that found in other microorganisms. 4. Nitrogen deficiency leads to a completely carbohydrate metabolism in short time experiments and makes still more pronounced the effects characteristic of high light intensity alone. 5. Considerations of nutritional economy sustain the experimental evidence in establishing the metabolism of cells growing under light-limiting intensities as the normal or reference metabolic condition in Chlorella.

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The Microcystin Composition of the Cyanobacterium Planktothrix agardhii Changes toward a More Toxic Variant with Increasing Light Intensity

Applied and Environmental Microbiology ◽

10.1128/aem.71.9.5177-5181.2005 ◽

2005 ◽

Vol 71 (9) ◽

pp. 5177-5181 ◽

Cited By ~ 115

Author(s):

Linda Tonk ◽

Petra M. Visser ◽

Guntram Christiansen ◽

Elke Dittmann ◽

Eveline O. F. M. Snelder ◽

...

Keyword(s):

Light Intensity ◽

Production Rate ◽

High Light ◽

Constant Independent ◽

Mrna Transcript ◽

Eutrophic Lakes ◽

Planktothrix Agardhii ◽

Cellular Content ◽

Light Intensities ◽

Microcystin Production

ABSTRACT The cyanobacterium Planktothrix agardhii, which is dominant in many shallow eutrophic lakes, can produce hepatotoxic microcystins. Currently, more than 70 different microcystin variants have been described, which differ in toxicity. In this study, the effect of photon irradiance on the production of different microcystin variants by P. agardhii was investigated using light-limited turbidostats. Both the amount of the mRNA transcript of the mcyA gene and the total microcystin production rate increased with photon irradiance up to 60 μmol m−2 s−1, but they started to decrease with irradiance greater than 100 μmol m−2 s−1. The cellular content of total microcystin remained constant, independent of the irradiance. However, of the two main microcystin variants detected in P. agardhii, the microcystin-DeRR content decreased twofold with increased photon irradiance, whereas the microcystin-DeLR content increased threefold. Since microcystin-DeLR is considerably more toxic than microcystin-DeRR, this implies that P. agardhii becomes more toxic at high light intensities.

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Selection for light preference during ovipositing in Drosophila pseudoobscura

Canadian Journal of Genetics and Cytology ◽

10.1139/g83-068 ◽

1983 ◽

Vol 25 (5) ◽

pp. 446-449 ◽

Cited By ~ 4

Author(s):

Marvin B. Seiger ◽

Amelia Broach Sanner

Keyword(s):

Light Intensity ◽

Genetic Variability ◽

High Light Intensity ◽

High Light ◽

Drosophila Pseudoobscura ◽

Low Light ◽

Original Population ◽

Low Light Intensity ◽

Light Intensities ◽

Light Preference

Selection was carried out on a population of Drosophila pseudoobscura to obtain lines preferring high-light intensity or low-light intensity during oviposition. This species is generally characterized as preferring low-light intensities. It was possible to select for increased preference for high-light intensity, but not for low-light intensity during oviposition. However, additive genetic variability exists in preferences for both high- and low-light intensities. The original population was probably operating at a photonegative extreme for oviposition, yet maintained enough genetic variability to permit selection toward a photopositive preference.

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