Mesophyll conductance and its limiting factors in plant leaves

Mesophyll conductance (g_m) represents the CO₂ diffusion facility from sub-stomatal internal cavities to carboxylation sites in chloroplasts, and the variation of g_m across genotypes as well as environmental conditions is expected to be related to the anatomical structures and biochemical properties of leaves. In recent years, the variation of g_m has attracted wide attention. The limiting factors in photosynthetic rate are no longer divided simply into stomatal limitation and non-stomatal limitation, but splitted in stomatal limitation, mesophyll limitation and carboxylation limitation. In this review, we summarize the potential influences of cell wall, cell membrane, cytoplasm, chloroplast envelope and stroma on g_m, and indicate that cell wall thickness and the surface area of chloroplast exposed to intercellular air space (S_c) are the most important factors influencing the g_m. We also analyze the probable effects of biochemical process related with aquaporins and carbonic anhydrase on g_m. Meanwhile, the regulation mechanisms of long- and short-term environment changes (including temperature, light intensity, drought, and nutrients) on g_m are also summarized. The relationship between g_m and hydraulic conductance (K_leaf) is debated. Finally, we discuss the scientific problems related with g_m.