Variation among soybean cultivars in mesophyll conductance and leaf water use efficiency

Abstract

Improving water use efficiency (WUE) may prove a useful way to adapt crop species to drought. Since the recognition of the importance of mesophyll conductance to CO2movement from inside stomatal pores to the sites of photosynthetic carboxylation, there has been interest in how much intraspecific variation in mesophyll conductance (gm) exists, and how such variation may impact leaf WUE within C3species. In this study, the gmand leaf WUE of fifteen cultivars of soybeans grown under controlled conditions were measured under standardized environmental conditions. Leaf WUE varied by a factor of 2.6 among the cultivars, and gmvaried by a factor of 8.6. However, there was no significant correlation (r = -0.047) between gmand leaf WUE. Leaf WUE was linearly related to the sub-stomatal CO2concentration. The value of gmaffected the ratio of maximum Rubisco carboxylation capacity calculated from the sub-stomatal CO2concentration to that calculated from the CO2concentration at the site of carboxylation. That is, variation in gmaffected the efficiency of Rubisco carboxylation, but not leaf WUE. Nevertheless, there is considerable scope for genetically improving soybean leaf water use efficiency.