Tomohiro Jishi scite author profile

Time-averaged net photosynthetic rate (P n) under pulsed light (PL) is known to be affected by the PL frequency and duty ratio, even though the time-averaged photosynthetic photon flux density (PPFD) is unchanged. This phenomenon can be explained by considering that photosynthetic intermediates (PIs) are pooled during light periods and then consumed by partial photosynthetic reactions during dark periods. In this study, we developed a kinetic model to estimate P n of cos lettuce (Lactuca sativa L. var. longifolia) leaves under PL based on the dynamics of the amount of pooled PIs. The model inputs are average PPFD, duty ratio, and frequency; the output is P n. The rates of both PI accumulation and consumption at a given moment are assumed to be dependent on the amount of pooled PIs at that point. Required model parameters and three explanatory variables (average PPFD, frequency, and duty ratio) were determined for the simulation using P n values under PL based on several combinations of the three variables. The model simulation for various PL levels with a wide range of time-averaged PPFDs, frequencies, and duty ratios further demonstrated that P n under PL with high frequencies and duty ratios was comparable to, but did not exceed, P n under continuous light, and also showed that P n under PL decreased as either frequency or duty ratio was decreased. The developed model can be used to estimate P n under various light environments where PPFD changes cyclically.

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LED Lighting Technique to Control Plant Growth and Morphology

Jishi

2018

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Pulsed Light at Lower Duty Ratios with Lower Frequencies is Less Advantageous than Continuous Light for CO<sub>2</sub> Uptake in Cos Lettuce

Jishi

Fujiwara

Nishino

et al. 2012

J. Light & Vis. Env.

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Effects of photosynthetic photon flux density, frequency, duty ratio, and their interactions on net photosynthetic rate of cos lettuce leaves under pulsed light: explanation based on photosynthetic-intermediate pool dynamics

2017

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Square-wave pulsed light is characterized by three parameters, namely average photosynthetic photon flux density (PPFD), pulsed-light frequency, and duty ratio (the ratio of light-period duration to that of the light-dark cycle). In addition, the light-period PPFD is determined by the averaged PPFD and duty ratio. We investigated the effects of these parameters and their interactions on net photosynthetic rate (P ) of cos lettuce leaves for every combination of parameters. Averaged PPFD values were 0-500 µmol m s. Frequency values were 0.1-1000 Hz. White LED arrays were used as the light source. Every parameter affected P and interactions between parameters were observed for all combinations. The P under pulsed light was lower than that measured under continuous light of the same averaged PPFD, and this difference was enhanced with decreasing frequency and increasing light-period PPFD. A mechanistic model was constructed to estimate the amount of stored photosynthetic intermediates over time under pulsed light. The results indicated that all effects of parameters and their interactions on P were explainable by consideration of the dynamics of accumulation and consumption of photosynthetic intermediates.

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Tomohiro Jishi

Effects of temporally shifted irradiation of blue and red LED light on cos lettuce growth and morphology

A kinetic model for estimating net photosynthetic rates of cos lettuce leaves under pulsed light

LED Lighting Technique to Control Plant Growth and Morphology

Pulsed Light at Lower Duty Ratios with Lower Frequencies is Less Advantageous than Continuous Light for CO<sub>2</sub> Uptake in Cos Lettuce

Effects of photosynthetic photon flux density, frequency, duty ratio, and their interactions on net photosynthetic rate of cos lettuce leaves under pulsed light: explanation based on photosynthetic-intermediate pool dynamics

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