scholarly journals The chlorophyll contents and growth performances of West Java (Indonesia) jobtears (Coix lacryma-jobi) accessions under low light intensity conditions

2020 ◽  
Vol 21 (11) ◽  
Author(s):  
Titi Juhaeti ◽  
NINIK SETYOWATI ◽  
FAUZIA SYARIF
Keyword(s):  
Light Intensity ◽  
Plant Growth ◽  
Chlorophyll Content ◽  
Block Design ◽  
Plant Production ◽  
Low Light ◽  
West Java ◽  
Chlorophyll Contents ◽  
Low Light Intensity ◽  
Growth Performances

Abstract. Juhaeti T, Setyowati N, Syarif F. 2020. The chlorophyll contents and growth performances of West Java (Indonesia)  jobtears (Coix lacryma-jobi) accessions under low light intensity conditions. Biodiversitas 21: 5178-5185. The research was carried out to study the shading tolerance of five jobtears (Coix lacryma-jobi L) accession collected from Bandung, Kuningan, Garut, Sukabumi, and Sumedang West Java Indonesia. The existence of shade-tolerant jobtears was important to increasing its cultivation for food diversification effort. The research was conducted in the Botany Division, Research Center for Biology, Indonesian Institute of Sciences. The experimental design was a Randomized Complete Block Design with two factors. The first factors were 0%, 25%, 50%, and 75% shading intensity. The second factors were five West Java jobtears accession, namely Bandung, Kuningan, Garut, Sukabumi, and Sumedang accession. The shading intensity set up artificially by the black plastic net. Jobtears seeds planted on planting beds on 70x100 planting distance. The variable observed included microclimate, plant growth, leaf chlorophyll content, and grain production. The result indicated that jobtears accession showed differences in growth and production characters. Low light intensity significantly affected plant growth and production. The plant height, leaf number, and chlorophyll content variables increased until 50% shading intensity and then decreased by 75% shading. Plant production decreased by the increased of shading intensity. The Bandung and Garut accessions can be determined as a potential low-light tolerant accession due to its better growth and production compared with others and the lowest percentage of decreased production. For further research, the Garut and Bandung accession can be used as a genetic biodiversity source for shading tolerance breeding efforts.

Influence of Fluridone on Chlorophyll Content of Wheat (Triticum aestivum) and Corn (Zea mays)

Weed Science ◽  
1978 ◽  
Vol 26 (5) ◽  
pp. 432-433 ◽  
Author(s):  
R. M. Devlin ◽  
C. N. Saras ◽  
M. J. Kisiel ◽  
A. S. Kostusiak
Keyword(s):  
Triticum Aestivum ◽  
Zea Mays ◽  
Light Intensity ◽  
Chlorophyll Content ◽  
High Light Intensity ◽  
Carotenoid Content ◽  
Low Light ◽  
Low Light Intensity ◽  
Chlorophyll Production ◽  
Effect Of Light

Chlorophyll content of wheat (Triticum aestivum L. ‘Mericopa’) and corn (Zea mays L. ‘Merit’) treated with the herbicide fluridone {1-methyl-3-phenyl-5-[3-(trifluoromethyl)-phenyl]-4(1H)-pyridinone} and grown under high light intensity (10.8 klux), was markedly reduced. Corn and wheat germinated from seeds treated with 10 uM fluridone and grown for 6 days were almost completely bleached. Under low light intensity (108 lux) the influence of fluridone on chlorophyll production was greatly reduced. Under very low light intensity (21.5 lux) this influence was almost completely lost. The effect of light on the activity of fluridone suggests that the inhibition of carotenoid production may represent the mode of action of this herbicide. This study shows that the carotenoid content of wheat or corn drops dramatically when these plants are treated with fluridone.

scholarly journals PHYSIOLOGICAL ASPECTS OF IN VITRO-GROWN COCONUT (Cocos nucifera L.) PLANTS DURING ACCLIMATIZATION

CORD ◽  
1999 ◽  
Vol 15 (02) ◽  
pp. 34
Author(s):  
C S Ranasinghe ◽  
L K Weerakoon ◽  
Y M H Liyanage ◽  
D T Mathes
Keyword(s):  
Light Intensity ◽  
Chlorophyll Content ◽  
Environmental Conditions ◽  
Cocos Nucifera ◽  
Low Light ◽  
Leaf Chlorophyll Content ◽  
Leaf Chlorophyll ◽  
Low Light Intensity ◽  
Cocos Nucifera L

The physiological status of in vitro-grown coconut (Cocos nucifera L.) plants during acclimatization was studied using nursery-raised seedlings as the control.  The percentage of open stomata in leaves of in vitro-grown coconut plants was high at the initial stage of acclimatization but decreased during the course of acclimatization indicating an improvement in stomatal regulation.  A progressive increase in the stomatal density, epicuticular wax deposition and leaf thickness in in vitro-grown plants was observed during acclimatization. As a result of the low light intensity, the epidermal cells of in vitro-grown plants were narrower and longer when compared to the control.  With the exposure of plants to increased light intensity, the cells became wider and shorter as observed in the control.   The leaf chlorophyll content was high in in vitro-grown plants under low light intensity.  With increasing light intensity, a reduction in leaf chlorophyll content in vitro-grown plants was observed and at the later stages of acclimatization, it was comparable to that of the control. Variations in the rates of photosynthesis and transpiration in vitro-grown plants were observed in response to the changing environmental conditions.  However, at the end of acclimatization, where the plants were ready to be transferred to the field, the physiological statuses of in vitro-grown coconut plants were comparable to that of nursery raised seedlings. The present study revealed that the embryo-cultured coconut plants could adjust well to the changing environmental conditions during acclimatization.

scholarly journals Adaptive changes in chlorophyll content and photosynthetic features to low light in Physocarpus amurensis Maxim and Physocarpus opulifolius “Diabolo”

PeerJ ◽  
2016 ◽  
Vol 4 ◽  
pp. e2125 ◽  
Author(s):  
Huihui Zhang ◽  
Haixiu Zhong ◽  
JIfeng Wang ◽  
Xin Sui ◽  
Nan Xu
Keyword(s):  
Light Intensity ◽  
Chlorophyll Content ◽  
Carbon Assimilation ◽  
Low Light ◽  
Ps Ii ◽  
Low Light Intensity ◽  
Photosynthetic Carbon ◽  
Physocarpus Opulifolius ◽  
Photosynthetic Carbon Assimilation ◽  
Assimilation Capacity

The present study aims to investigate the differences in leaf pigment content and the photosynthetic characteristics under natural and low light intensities between the Chinese nativePhysocarpus amurensis Maximand the importedPhysocarpus opulifolius“Diabolo” from North America. We aim to discuss the responses and the adaptive mechanism of these two cultivars ofPhysocarpusto a low light environment. The results show that the specific leaf area (SLA) and the chlorophyll content were significantly increased in the leaves of bothPhysocarpuscultivars in response to a low light intensity, and the SLA and chlorophyll content were higher in the leaves of low light-treatedP. opulifolius“Diabolo” compared with the leaves of low light-treatedP. amurensis Maxim. Moreover, the content of anthocyanin was markedly reduced in the leaves ofP. opulifolius“Diabolo” under low light intensity, which allowed for a greater capacity of photon capture under the low light condition. Under natural light, the photosynthetic carbon assimilation capacity was greater in the leaves ofP. amurensis Maximcompared with the leaves ofP. opulifolius“Diabolo” that were rich with anthocyanin. However, in response to low light, AQY,Pmax, LCP and LSP decreased to a lesser extent in the leaves ofP. opulifolius“Diabolo” compared with the leaves ofP. amurensis Maxim. These results suggest thatP. opulifolius“Diabolo” exhibits a greater ability in adaption to low light, and it is probably related to the relatively higher chlorophyll content and the smaller SLA in the leaves ofP. opulifolius“Diabolo.” In addition, the low light intensity resulted in a reduced photochemical activity of photosystem (PS) II in the leaves of bothPhysocarpus, as evidenced by increased values of the relative variable fluorescence at point J and point I on the OJIP curve. This result suggests that the electron acceptor in PS II was the major responsive site to the low light stress in the leaves of bothPhysocarpuscultivars, and that the low light intensity significantly inhibited electron transfer on the acceptor side of PS II and reduced the activity of the oxygen-evolving complex (OEC) in the leaves of bothPhysocarpuscultivars. The PS II function inP. opulifolius“Diabolo” was higher than that inP. amurensis Maximin response to low light. Under low light, the composition of photosynthetic pigments was altered in the leaves ofP. opulifolius“Diabolo” in order to maintain a relatively high activity of primary photochemical reactions, and this is the basis of the greater photosynthetic carbon assimilation capacity and one of the main reasons for the better shade-tolerance inP. opulifolius“Diabolo.”

scholarly journals Exogenously applied 5-aminolevulinic acid mediated physiochemical regulations ameliorate weak light stress in tobacco seedlings

2019 ◽  
Vol 48 (2) ◽  
pp. 353-358
Author(s):  
Najia Li ◽  
Muhammad Shahid ◽  
Xuefeng Zong ◽  
Jun Lv ◽  
Daibin Wang ◽  
...  
Keyword(s):  
Light Intensity ◽  
Aminolevulinic Acid ◽  
Light Stress ◽  
Biomass Accumulation ◽  
Low Light ◽  
Chlorophyll Contents ◽  
Adverse Impacts ◽  
Low Light Intensity ◽  
Tobacco Seedlings ◽  
Weak Light

Experiments were conducted to study the deleterious impacts of low intensity light on physiochemical and agronomic attributes of tobacco, to evaluate varying doses of foliar 5-aminolevulinic acid (5-ALA) for alleviation of adverse impacts of low light intensity and to observe either 5-ALA modulated physiochemical regulations impart stress tolerance at agronomic level. Significant decrease of biomass accumulation, synthesis of osmo-protectants, chlorophyll contents, and chlorophyll fluorescence and increase in malondialdehyde were recorded compared to control. Exogenous application of 5-ALA excellently alleviated adverse impacts of low light intensity stress on agronomic and physiochemical attributes of tobacco seedlings. Conclusively, Light stress had adverse implications on all studied attributes while 5-ALA at 10-20 mg/l had remarkable alleviated deleterious impacts of light stress on plant.

scholarly journals Response of Photosynthesis and Chlorophyll Fluorescence Parameters of Castanopsis kawakamii Seedlings to Forest Gaps

Forests ◽  
2019 ◽  
Vol 11 (1) ◽  
pp. 21
Author(s):  
Zhong-sheng He ◽  
Rong Tang ◽  
Meng-jia Li ◽  
Meng-ran Jin ◽  
Cong Xin ◽  
...  
Keyword(s):  
Chlorophyll Fluorescence ◽  
Light Intensity ◽  
Seedling Growth ◽  
Group Treatment ◽  
Control Group ◽  
Low Light ◽  
Chlorophyll Fluorescence Parameters ◽  
Forest Gaps ◽  
Low Light Intensity ◽  
Weak Light

Light is a major environmental factor limiting the growth and survival of plants. The heterogeneity of the light environment after gap formation in forest influences the leaf chlorophyll contents, net photosynthetic rate (Pn), and chlorophyll fluorescence, thus influencing the growth and regeneration of Castanopsis kawakamii seedlings. The aim of this study was to explore the effects of weak light on the photosynthetic physiology of C. kawakamii seedlings in forest gaps and non-gaps. The results showed that (1) the contents of chlorophyll a (Chl-a), chlorophyll b (Chl-b), and total chlorophyll (Chl-T) in forest gaps were lower than in non-gaps. Seedlings tended to increase chlorophyll content to absorb light energy to adapt to low light intensity in non-gap environments. (2) The Pn values of C. kawakamii seedlings in forest gaps were significantly higher than in non-gaps, and forest gaps could improve the seedlings’ photosynthetic capacity. (3) The C. kawakamii seedlings in forest gaps were more sensitive to weak light and control group treatment, especially the tall seedlings, indicating that seedlings require more light to satisfy their growth needs in the winter. The seedlings in non-gaps demonstrated better adaptability to low light intensity. The light intensity was not adequate in weak light conditions and limited seedling growth. We suggest that partial forest selection cutting could improve light intensity in non-gaps, thus promoting seedling growth and regeneration of C. kawakamii more effectively in this forest.

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