Field phenomics reveals genetic variation for transpiration response to vapor pressure deficit in sorghum

ABSTRACT Drought adaptation for water-limited environments relies on traits that optimize plant water budgets. Limited transpiration (LT) reduces water demand under high vapor pressure deficit (VPD) (i.e., dry air condition), conserving water for efficient use during the reproductive stage. Although studies in controlled environments report genetic variation for LT, confirming its replicability in field conditions is critical for developing water-resilient crops. Here we test the existence of genetic variation for LT in sorghum in field trials and whether canopy temperature (T C ) is a surrogate method to discriminate this trait. We phenotyped transpiration response to VPD (TR-VPD) via stomatal conductance (g s ), canopy temperature (T C ) from fixed IRT sensors (T Cirt ), and unoccupied aerial system thermal imagery (T Cimg ) in 11 genotypes. Replicability among phenomic approaches for three genotypes revealed genetic variability for TR-VPD. Genotypes BTx2752 and SC979 carry the LT trait, while genotype DKS54-00 has the non-LT trait. T C can determine differences in TR-VPD. However, the broad sense heritability ( H 2 ) and correlations suggest that canopy architecture and stand count hampers T Cirt and T Cimg measurement. Unexpectedly, observations of g s and VPD showed non-linear patterns for genotypes with LT and non-LT traits. Our findings provide further insights into the genetics of plant water dynamics.