Assessing the <scp>CO<sub>2</sub></scp> concentration at the surface of photosynthetic mesophyll cells
Diego A. Márquez, Hilary Stuart‐Williams, Lucas A. Cernusak, Graham D. Farquhar
Abstract
Summary We present a robust estimation of the CO 2 concentration at the surface of photosynthetic mesophyll cells ( c w ), applicable under reasonable assumptions of assimilation distribution within the leaf. We used Capsicum annuum , Helianthus annuus and Gossypium hirsutum as model plants for our experiments. We introduce calculations to estimate c w using independent adaxial and abaxial gas exchange measurements, and accounting for the mesophyll airspace resistances. The c w was lower than adaxial and abaxial estimated intercellular CO 2 concentrations ( c i ). Differences between c w and the c i of each surface were usually larger than 10 μmol mol −1 . Differences between adaxial and abaxial c i ranged from a few μmol mol −1 to almost 50 μmol mol −1 , where the largest differences were found at high air saturation deficits (ASD). Differences between adaxial and abaxial c i and the c i estimated by mixing both fluxes ranged from −30 to +20 μmol mol −1 , where the largest differences were found under high ASD or high ambient CO 2 concentrations. Accounting for c w improves the information that can be extracted from gas exchange experiments, allowing a more detailed description of the CO 2 and water vapor gradients within the leaf.