1. Coordination of stomata and vein patterns with leaf width underpins water-use efficiency in a C4 crop
- Author
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Francisco Javier Cano, Andrew Borrell, Barbara George-Jaeggli, Yazen Al-Salman, David Jordan, Oula Ghannoum, Fiona Koller, Ling Pan, Centre of Excellence for Translational Photosynthesis (Australia), Queensland Government, Grains Research and Development Corporation (Australia), George-Jaeggli, Barbara [0000-0002-9711-2759], Yazen Al-Salman [0000-0002-5448-7497], Ghannoum, Oula [0000-0002-1341-0741], Cano, Francisco J [0000-0001-5720-5865], George-Jaeggli, Barbara, Yazen Al-Salman, Ghannoum, Oula, and Cano, Francisco J
- Subjects
Stomatal conductance ,C4 photosynthesis ,biology ,Physiology ,iWUE ,Leaf size ,fungi ,Energy balance ,Leaf boundary layer conductance ,food and beverages ,Plant Science ,Photosynthesis ,Sorghum ,biology.organism_classification ,Leaf temperature ,Crop ,Agronomy ,Productivity (ecology) ,Vein density ,Natural genetic variation ,Stomatal density ,Water-use efficiency - Abstract
Centro de Investigación Forestal (CIFOR), Despite its importance for crop water use and productivity, especially in drought-affected environments, the underlying mechanisms of variation in intrinsic water-use efficiency (iWUE = net photosynthesis/stomatal conductance for water vapour, gsw ) are not well understood, especially in C4 plants. Recently, we discovered that leaf width (LW) correlated negatively with iWUE and positively with gsw across several C4 grasses. Here, we confirmed these relationships within 48 field-grown genotypes differing in LW in Sorghum bicolor, a C4 crop adapted to dry and hot conditions. We measured leaf gas exchange and modelled leaf energy balance three times a day, alongside anatomical traits as potential predictors of iWUE. LW correlated negatively with iWUE and stomatal density, but positively with gsw , interveinal distance of longitudinal veins, and the percentage of stomatal aperture relative to maximum. Energy balance modelling showed that wider leaves needed to open their stomata more to generate a more negative leaf-to-air temperature difference, especially at midday when air temperatures exceeded 40°C. These results highlight the important role that LW plays in shaping iWUE through coordination of vein and stomatal traits and by affecting stomatal aperture. Therefore, LW could be used as a predictor of higher iWUE among sorghum genotypes., This study was funded by the ARC Centre of Excellence for Translational Photosynthesis (CE140100015) awarded to Oula Ghannoum and David Jordan and an EMCR seed grant from ARCoETP awarded to Francisco J. Cano and Barbara George-Jaeggli. Ling Pan was supported by a scholarship under the State Scholarship Fund offered by the China Scholarship Council., 19 Pág.
- Published
- 2021