Abstract
Plants usually experience dynamic fluctuations of light intensities under natural conditions. However, the responses of mesophyll conductance, CO2 assimilation, and photorespiration to light fluctuation are not well understood. To address this question, we measured photosynthetic parameters of gas exchange and chlorophyll fluorescence in tobacco leaves at 2-min intervals while irradiance levels alternated between 100 and 1200 μmol photons m−2 s−1. Compared with leaves exposed to a constant light of 1200 μmol photons m−2 s−1, both stomatal and mesophyll conductances were significantly restricted in leaves treated with fluctuating light condition. Meanwhile, CO2 assimilation rate and electron flow devoted to RuBP carboxylation at 1200 μmol photons m−2 s−1 under fluctuating light were limited by the low chloroplast CO2 concentration. Analysis based on the C3 photosynthesis model indicated that, at 1200 μmol photons m−2 s−1 under fluctuating light, the CO2 assimilation rate was limited by RuBP carboxylation. Electron flow devoted to RuBP oxygenation at 1200 μmol photons m−2 s−1 under fluctuating light remained at nearly the maximum level throughout the experimental period. We conclude that fluctuating light restricts CO2 assimilation by decreasing both stomatal and mesophyll conductances. Under such conditions, photorespiration plays an important role in the regulation of photosynthetic electron flow.
Highlights
In nature, plants grown in open habitats usually experience changes in light intensities because of clouds
At levels below 1500 μmol photons m−2 s−1, values for JT, JC, JO, and JO/JC gradually rose with increasing photosynthetic photon flux densities (PPFDs), peaking at 233 μmol electrons m−2 s−1, FIGURE 1 | Light response changes in stomatal conductance (A), CO2 assimilation (An) (B), total electron flow through photosystem II (PSII) (JT) (C), electron flow devoted to RuBP carboxylation (JC) (C), electron flow devoted to RuBP oxygenation (JO) (C), and JO/JC ratio for leaves of tobacco (D)
Values for coefficient of PSII photochemical quenching (qP) at 1200 μmol photons m−2 s−1 differed only slightly between the constant and fluctuating light treatments (Figure 3A), while Fv′/Fm′ and PSII at 1200 μmol photons m−2 s−1 were significantly lower under fluctuating light (P < 0.001; Figures 3B,C)
Summary
Plants grown in open habitats usually experience changes in light intensities because of clouds. The rate of CO2 assimilation (An) is maintained at an elevated level due to high gs and mesophyll conductance (gm) (Yamori et al, 2010, 2011). Fluctuating light restricts both gs and CO2 assimilation rate (Fay and Knapp, 1993; Kirschbaum et al, 1998). It is unclear how gm and photorespiration respond to those changes in irradiance
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