Mesophyll conductance response to short-term changes in CO₂ is related to leaf anatomy and biochemistry in diverse C₄ grasses

Summary

• Mesophyll CO₂ conductance (g_m) in C₃ species responds to short-term (minutes) changes in environment potentially due to changes in some leaf anatomical and biochemical properties and due to measurement artifacts. Compared to C₃ species, there is less information about g_m responses to short-term changes in environment conditions like pCO₂ across diverse C₄ species and the potential determinants of these responses.

• Using 16 diverse C₄ grasses we investigated the response of g_m to short-term changes in CO₂ and how this response related to the leaf anatomical and biochemical traits.

• For all the measured C₄-grasses g_m increased as CO₂ decreased; however, the percent change in g_m varied (+13% to +250%) and significantly related to percent changes in leaf transpiration efficiency (TE_i). The percent increase in g_m was highest in grasses with thinner mesophyll cell walls and greater leaf nitrogen, activities of phosphoenolpyruvate carboxylase (PEPC), Rubisco and carbonic anhydrase, and a higher affinity of PEPC for bicarbonate.

• Our study demonstrates that CO₂ response of g_m varies greatly across diverse C₄ grasses and identifies the key leaf anatomical and biochemical traits related to this variation. These findings have implications for improving C₄ photosynthetic models, and in attempts to improve TE_i through manipulation of g_m.