Study of plant height as a dynamic trait by multistage phenotyping in chickpea under heat stress identifies common as well as stage specific marker–trait associations

Abstract: Plant height in chickpea is a multivariate, dynamic trait, and shows differences in growth rate at different stages of plant development in different genotypes. In the majority of plant-breeding experiments, the phenotypic data on a quantitative trait measured at a fixed time point (generally at maturity) are used for quantitative trait loci (QTL) mapping. However, this method can result in missing important/major QTLs which are expressed at different time points and are not expressed at maturity. In the curre… Show more

“…Plant height was positively correlated with biological yield under heat stress and severely affected by the combined heat-drought stress. Multistage phenotyping in chickpea demonstrated a negative effect of temperature rise (>30 • C) on this dynamic trait, which reaches its maximum during the first month of growth [45].…”

Impact of Terminal Heat and Combined Heat-Drought Stress on Plant Growth, Yield, Grain Size, and Nutritional Quality in Chickpea (Cicer arietinum L.)

“…Plant height was positively correlated with biological yield under heat stress and severely affected by the combined heat-drought stress. Multistage phenotyping in chickpea demonstrated a negative effect of temperature rise (>30 • C) on this dynamic trait, which reaches its maximum during the first month of growth [45].…”

Impact of Terminal Heat and Combined Heat-Drought Stress on Plant Growth, Yield, Grain Size, and Nutritional Quality in Chickpea (Cicer arietinum L.)