Mesophyll conductance to CO 2 and Rubisco as targets for improving intrinsic water use efficiency in C 3 plants

Water limitation is a major global constraint for plant productivity that is likely to be exacerbated by climate change. Hence, improving plant water use efficiency (WUE) has become a major goal for the near future. At the leaf level, WUE is the ratio between photosynthesis and transpiration. Maintaining high photosynthesis under water stress, while improving WUE requires either increasing mesophyll conductance ( g m ) and/or improving the biochemical capacity for CO 2 assimilation—in which Rubisco properties play a key role, especially in C 3 plants at current atmospheric CO 2 . The goals of the present analysis are: (1) to summarize the evidence that improving g m and/or Rubisco can result in increased WUE; (2) to review the degree of success of early attempts to genetically manipulate g m or Rubisco; (3) to analyse how g m , g sw and the Rubisco's maximum velocity ( V cmax ) co‐vary across different plant species in well‐watered and drought‐stressed conditions; (4) to examine how these variations cause differences in WUE and what is the overall extent of variation in individual determinants of WUE; and finally, (5) to use simulation analysis to provide a theoretical framework for the possible control of WUE by g m and Rubisco catalytic constants vis‐à‐vis g sw under water limitations.