Effects of Supplemental Red and Far-Red Light at Different Growth Stages on the Growth and Nutritional Properties of Lettuce

Ju, Jun; Zhang, Shuchang; Hu, Youzhi; Zhang, Minggui; He, Rui; Li, Yamin; Liu, Xiaojuan; Liu, Houcheng

doi:10.3390/agronomy14010055

Agronomy

2023

DOI: 10.3390/agronomy14010055

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Effects of Supplemental Red and Far-Red Light at Different Growth Stages on the Growth and Nutritional Properties of Lettuce

Jun Ju,

Shuchang Zhang,

Youzhi Hu

et al.

Abstract: The understanding of the supplementation scheme of red (R) and far-red (FR) light in the cultivation of leafy vegetables in plant factories with artificial lighting (PFALs) is still limited. This study investigated the effects of supplemental R and FR light at different plant growth stages on the morphology, growth characteristics, and nutritional properties of lettuce. Supplemented R + FR throughout the entire growth stages was beneficial for the growth of lettuce, for which the total fresh weight was increas… Show more

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2024

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Coupling Modelling and Experiments to Analyse Leaf Photosynthesis Under Far‐Red Light

Jans,

Mossink,

Wassenaar

et al. 2024

Plant Cell & Environment

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Leaf photosynthesis models are used extensively in photosynthesis research and are embedded in many larger scale models. Typical photosynthesis models simplify light intensity as the integrated intensity over the 400–700 nm waveband (photosynthetic active radiation, PAR). However, far‐red light (700–750 nm, FR) also drives photosynthesis when supplied in addition to light within the PAR spectrum. Currently, it is unknown how much far‐red light contributes to carbon assimilation under various spectral light conditions. We developed a combined experimental and computational method to quantify FR stimulation. Gas‐exchange parameters and incident light spectra were measured simultaneously and analysed with wavelength‐dependent modelling of light harvesting. Hereto, separate excitation of Photosystem I and Photosystem II was calculated from incident light spectra. The effect of FR supplementation on photosynthesis was subsequently modelled and expressed as a single parameter ρ. We tested our method on Solanum dulcamara, Lactuca sativa and Phaseolus vulgaris under various light conditions. Results show consistent ρ‐values across a range of FR levels. Our method provides an approach to consistently quantify the effect of FR stimulation on photosynthesis and harmonise the interpretation of photosynthesis measurements under different light regimes, for example in (experimental) setups with artificial FR supplementation or in canopies.

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Coupling Modelling and Experiments to Analyse Leaf Photosynthesis Under Far‐Red Light

Jans,

Mossink,

Wassenaar

et al. 2024

Plant Cell & Environment

View full text Add to dashboard Cite

show abstract

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Effects of Supplemental Red and Far-Red Light at Different Growth Stages on the Growth and Nutritional Properties of Lettuce

Cited by 1 publication

References 47 publications

Coupling Modelling and Experiments to Analyse Leaf Photosynthesis Under Far‐Red Light

Coupling Modelling and Experiments to Analyse Leaf Photosynthesis Under Far‐Red Light

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