Abstract:
Drought is one of the most common prevailing abiotic stress factors which has adverse effects
on crop production. Wheat is the staple crop of Pakistan and its production potential is severely
hampered by the water scarcity conditions. Water stress limits the growth of wheat by affecting
its physiological, morphological, biochemical, and molecular pathways necessary to develop a
good crop cover. This study was performed to analyse some of the physio-morphological
parameters under the water deficit environments and to evaluate and identify the most tolerant
and susceptible wheat genotypes. The traits conducted in the study included germination
percentage, root and shoot length, coleoptile length, seedling vigour and water saturation
deficit. There were ten genotypes under study and comparisons were made with two control
genotypes, known to have better drought tolerance. Water stress was induced by using a 20%
polyethylene glycol (PEG 6000) solution. Water stress had a significantly higher effect on
shoot, root and coleoptile development affecting the lengths. Based on our study, two potential
genotypes were identified for further intensive screening at biochemical and molecular level.
Such screening procedures are the basis of breeding programs. Breeders use this information
to either improve existing varieties by crossing them with tolerant varieties or by improving
yield of tolerant genotypes so that they can be used commercially.
