Sub-optimal temperature leads to tighter coupling between photosynthetic electron transport and CO2 assimilation under fluctuating light in maize
Cristina R G Sales, Stéphanie Arrivault, Tomás Tonetti, Vittoria Clapero, Richard L Vath, Lucía Arce Cubas, Mark Stitt, Johannes Kromdijk

TL;DR
Maize photosynthesis becomes more efficient under fluctuating light at low temperatures by better coordinating electron transport and CO2 assimilation.
Contribution
The study reveals how suboptimal temperature restores coordination between electron transport and CO2 assimilation in maize under fluctuating light.
Findings
At room temperature, fluctuating light causes decoupling between electron transport and CO2 assimilation in maize.
Suboptimal temperatures lead to tighter coordination between electron transport and CO2 assimilation under fluctuating light.
Low temperature reduces electron transport and limits CO2 assimilation, possibly due to restricted metabolite diffusion.
Abstract
The C4 carbon concentrating pathway promotes high CO2 assimilation rates. To keep C4 photosynthesis energetically efficient, electron transport reactions and downstream biochemistry need to be carefully balanced. Here we use a combination of noninvasive measurements and metabolic profiling to study the efficiency of C4 photosynthesis in maize (Zea mays) under 2 conditions that can lead to decoupling between electron transport and carbon assimilation: fluctuating light and suboptimal temperature. Measurements were performed under 3 fluctuating light regimes and at 3 temperatures, providing the most detailed study to date of the interaction between fluctuating light and suboptimal temperature on the photosynthetic performance of maize, an important global crop. At room temperature, CO2 assimilation rates were decoupled from photosynthetic electron transport under fluctuating light…
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Taxonomy
TopicsPhotosynthetic Processes and Mechanisms · Plant Water Relations and Carbon Dynamics · Plant Stress Responses and Tolerance
