Short-Term Exposure to High Atmospheric Vapor Pressure Deficit (VPD) Severely Impacts Durum Wheat Carbon and Nitrogen Metabolism in the Absence of Edaphic Water Stress

Abstract: Low atmospheric relative humidity (RH) accompanied by elevated air temperature and decreased precipitation are environmental challenges that wheat production will face in future decades. These changes to the atmosphere are causing increases in air vapor pressure deficit (VPD) and low soil water availability during certain periods of the wheat-growing season. The main objective of this study was to analyze the physiological, metabolic, and transcriptional response of carbon (C) and nitrogen (N) metabolism of wh… Show more

“…The results of this study showed a reduction of gs and An higher than 30% due to the plants being subjected to two stressor factors (water and heat shock). In the UIB experiment, in addition to higher VPD (> 3.5 KPa) in WS+T condition, the high night temperatures (night mean of 24°C at UIB , versus 13°C at UTALCA , data not shown) were also involved in the plant response to stress environment (i.e., spectral reflectance and gas exchange variables) ( Fleitas et al., 2020 ; Fakhet et al., 2021 ). Furthermore, plants were exposed to severe environmental stress than in the UTALCA experiment.…”

Exploring plant responses to abiotic stress by contrasting spectral signature changes

“…The results of this study showed a reduction of gs and An higher than 30% due to the plants being subjected to two stressor factors (water and heat shock). In the UIB experiment, in addition to higher VPD (> 3.5 KPa) in WS+T condition, the high night temperatures (night mean of 24°C at UIB , versus 13°C at UTALCA , data not shown) were also involved in the plant response to stress environment (i.e., spectral reflectance and gas exchange variables) ( Fleitas et al., 2020 ; Fakhet et al., 2021 ). Furthermore, plants were exposed to severe environmental stress than in the UTALCA experiment.…”

Exploring plant responses to abiotic stress by contrasting spectral signature changes

Climate Trends in Temperature and Water Variables during Wheat Growing Season and Impact on Yield

Response of photosynthetic 13C discrimination to vapour pressure deficit reflects changes in bundle-sheath leakiness in two C4 grasses