Effects of light quality on circumnutation of Vigna unguiculata seedlings

Li, Qi; Hu, Fei

doi:10.17521/cjpe.2018.0038

Chinese Journal of Plant Ecology

2018

DOI: 10.17521/cjpe.2018.0038

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Effects of light quality on circumnutation of Vigna unguiculata seedlings

Qi Li¹,

Fei Hu²

Abstract: Aims The aim of this study is to investigate the effect of different light qualities on circumnutation of cowpea (Vigna unguiculata) seedlings. Methods The behaviors of cowpea seedlings were observed in a black box, which fixed with two infrared cameras on the top and a side, respectively. The motion was recorded as photos taken at an interval of 5 min, in a 3-dimensional space coordinate under different light qualities (such as white, red, blue, and red-blue with opposite direction) for 48 h. The coordinate v… Show more

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“…Under insufficient light, both proteins were up-regulated and binded more red chlorophyll molecules. The light acquisition capability of PSI-LHCI extends to the far-infrared spectral region(Qin et al, 2016), and the excitation energy shifts from low to high to compensate for the electron transfer from PSII to PSI Liu (2018). also found that chlorophyll a/b binding protein 1, chlorophyll a/b binding protein 2, chlorophyll a/b binding protein 4 and chlorophyll a/b binding protein 6 of soybean seedling light harvest complex II were up-regulated under insufficient light, and the content and proportion of chlorophyll b increased, resulting in increased light harvest efficiency.…”

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Responses of the photosynthetic characteristics of summer maize to shading stress

Sun

Geng

Ren

et al. 2023

J Agronomy Crop Science

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The vast majority of the energy and substance required for maize growth and development and related metabolic processes come from the photosynthesis of leaves.Over the past 60 years, the amount of solar radiation reaching the earth's surface has decreased significantly, reducing the photosynthetic rate of crops and leading to a significant reduction in yields. However, (1) the effects of shading stress on stomatal characteristics, electron transport efficiency of summer maize leaves and (2) the adaptability of summer maize to low light are still unclear. In order to investigate this problems, maize hybrid Denghai605 (DH605) was used as the experimental materials, and two treatments of shading (shading degree is 60%) and CK (natural light as control) were set in the field. The results showed that shading stress resulted in chloroplast dysplasia, and the overall performance of the two photosystems was reduced by 27.85%. The number of stomata per unit area decreased by 15.6% and the proportion of stomatal opening decreased by 73.1% after shading, which resulted in a significant 27.7% reduction in intercellular CO 2 concentration. Shading significantly reduced photosynthetic rate by affecting stomatal characteristics and electron transport, and the former was the main influencing factor. The decrease in carbon assimilation capacity resulted in insufficient assimilate supply and significantly reduced grain allocation ratio, resulting in a significant yield reduction of 57.5%. However, in the low-light environment, the expression of chlorophyll-binding protein in the leaf of summer maize was upregulated, the content of Lhcb1 protein of the light harvesting pigment protein complex II (LHCII) was increased, and the content of photosynthetic pigment, especially chlorophyll b, was increased, which increased the absorption and capture of blue light, improved the efficiency of light energy utilization, and was a stress manifestation of summer maize adapting to shading stress.

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confidence: 99%

Responses of the photosynthetic characteristics of summer maize to shading stress

Sun

Geng

Ren

et al. 2023

J Agronomy Crop Science

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Effects of light quality on circumnutation of Vigna unguiculata seedlings

Cited by 1 publication

References 19 publications

Responses of the photosynthetic characteristics of summer maize to shading stress

Responses of the photosynthetic characteristics of summer maize to shading stress

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