Paralog Editing Tunes Rice Stomatal Density to Maintain Photosynthesis and Improve Drought Tolerance

Rice ( Oryza sativa ) is of paramount importance for global nutrition, supplying at least 20% of global calories. However, water scarcity and increased drought severity are anticipated to reduce rice yields globally. Rice stomatal developmental genetics were explored as a mechanism to improve drought resilience while maintaining yield under climate stress. CRISPR/Cas9-mediated knockouts of EPFL10 and STOMAGEN yielded lines with c. 80% and 25% of wild-type stomatal density, respectively. epfl10 lines with moderate reductions in stomatal densities are able to conserve water to similar extents as stomagen lines, but do not suffer from the concomitant reductions in stomatal conductance, carbon assimilation, or thermoregulation observed in stomagen knockouts. Moderate reductions in stomatal densities achieved by editing EPFL10 may be a climate-adaptive approach in rice that can safeguard yield. Editing the paralog of STOMAGEN in other species may provide a means to tune stomatal density in agriculturally important crops beyond rice. ### Competing Interest Statement The authors have declared no competing interest.