Abstract
Drought can greatly limit carbon assimilation in plants. However, different species have distinct photosynthetic components governing limitations to photosynthesis exposed to drought conditions. Furthermore, intra-species variations in photosynthetic response to drought is also expected. Information on underlying limitations to carbon assimilation in peanut (Arachis hypogaea L.) has been controversial. Therefore, this study aimed to verify potential drought tolerance associated with the photosynthetic process within ten diverse peanut genotypes grown under drought as well as to determine the limitation to carbon assimilation in these genotypes and identify parameter(s) that can be used as a reference indicator of photosynthesis response to drought intensity. Experiments were conducted in 2017 and 2018 using rainout shelters to impose drought for 40 days starting 34 days after planting. Ten peanut genotypes were planted in two blocks, one fully irrigated and one under drought stress during reproductive development. Photosynthetic measurements were taken at 25 and 40 days after onset of stress. C76-16 was identified as the most tolerant genotype due to improved plasticity by downregulating photosynthesis under mild drought stress (25 progressive days under drought) and upregulating multiple photosynthetic component processes under more severe drought (40 days under drought) to sustain photosynthesis. The primary limitation to photosynthesis across all peanut genotypes was stomatal conductance, whereas non-stomatal factors (photochemical reactions) were nearly unaffected by mild drought. In addition, stomatal conductance and electron flux to CO2 assimilation contributed most to drought tolerance in peanut genotypes. Moreover, these two photosynthetic component processes can be jointly used as reference indicators of photosynthetic status of peanut under varying drought intensities.
Published Version
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