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ABSTRACT
Partial stomata closure under high atmospheric vapor pressure deficit (VPD) has been identified as a means to conserve soil water to allow sustained crop physiological activity late in the growing season, especially during reproductive growth. This trait has been identified as potentially being particularly important in peanut (Arachis hypogaea L.) since peanut is commonly grown on sandy soils under variable rainfall conditions. While 11 peanut genotypes had been previously identified as expressing limited-transpiration trait (TRlim) at 32°C, there is no information on their response to VPD at higher temperatures to which peanut may be exposed. This study documented the response of these 11 genotypes to VPD when subjected to increasing temperatures at 2°C intervals from 32°C to 38°C. Nine of the 11 genotypes lost expression of the TRlim trait within this temperature range. Only two genotypes (N013042ol and G644) were able to sustain the TRlim trait at 38°C. Recovery of expression of the TRlim trait following the loss of the trait at high temperature also varied among genotypes. Three genotypes that lost expression of TRlim at 36°C were returned to 32°C to determine the ability to recover the trait. Two genotypes showed full recovery of TRlim within 1 or 2 days, whereas the third showed no recovery across 3 days. This study provides useful information on genotypic variability in transpiration response to VPD under high temperatures that can be applied in developing cultivars that are better suited to water-limited conditions.
Disclosure statement
No potential conflict of interest was reported by the authors.