Variation Among Maize Hybrids in Response to High Vapor Pressure Deficit at High Temperatures

Temperature and vapor pressure deficit (VPD) are two important environmental factors influencing stomatal conductance and transpiration. A limited transpiration rate (TR lim ) trait expressed under high VPD has been shown to offer an approach to increase crop yield in water‐limited areas. The benefit of the TR lim trait is that it lowers the effective VPD under which plants lose water and so conserves soil water to support crop growth for use during drought periods later in the growing season. Previous studies at moderate temperatures (32°C and lower) identified 12 maize ( Zea mays L.) hybrids that express the TR lim trait. A critical question is whether the TR lim trait is also expressed by these hybrids under temperatures up to 38°C, which are relevant in environments where maize may be grown. Five hybrids failed to express the TR lim trait at 38°C but seven hybrids had sustained expression of the trait at 38°C. The loss of expression of the TR lim response in the five hybrids was found to occur in the very narrow range of temperature increase from 36 to 38°C. The genetic differences in water use among these maize hybrids could be useful in selecting hybrids that are especially well adapted for temperature conditions in a targeted production area.