Application of a coupled model of photosynthesis and stomatal conductance for estimating plant physiological response to pollution by fine particulate matter (PM2.5)
2018
Yu, Weiqing | Wang, Yujie | Wang, Yunqi | Li, Bai | Liu, Yanju | Liu, Xuan
Fine particulate matter (PM₂.₅) is a current environmental issue that has an impact on the global ecology. Vegetation is a known sink for PM₂.₅ deposition but the effects of these particles on plant growth, and specifically on plant photosynthesis by changing their leaf water potential, are still not well understood. This study aimed to determine and characterize possible relationships between PM₂.₅ and plant photosynthesis under different PM₂.₅ concentrations. Both indoor and outdoor measurements were carried out to evaluate the variation dynamics of net photosynthetic rate and stomatal conductance of four plant species with different leaf characteristics under different PM₂.₅ levels. A calibrated coupled model of photosynthesis and stomatal conductance was developed to estimate the relationship between plant photosynthesis and PM₂.₅ reliably. Net photosynthetic rate and stomatal conductance declined over time at elevated PM₂.₅, with large variations with PM₂.₅ concentrations. Using a calibrated model of photosynthesis coupled to stomatal conductance, we show that PM₂.₅ can influence plant photosynthesis that primarily occurs through the stomata on leaves. Although the effect of particles on plant photosynthesis was not as high as that of photosynthetically active radiation, temperature, and CO₂ concentration around the leaf, the effect from PM₂.₅ can be significant, in particular, in highly polluted atmospheres.
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