DROUGHT TOLERANCE STUDIES THROUGH WSSI AND STOMATA IN UPLAND COTTON

Water stress susceptibility index (WSSI) and stomatal conductance were used to determine the stress tolerance of 10 upland cotton cultivars during 2009 at Sindh Agriculture University, Tandojam, Pakistan. The experiment was conducted in spilt plot design with irrigations as main plots and cultivars as sub-plots. Two irrigation treatments were used i.e. one has two irrigations (water stress) and other has eight irrigations (non-stress). Analysis of variance revealed significant genotypic differences about WSSI for all the traits. Non-significant interaction between irrigations and cultivars for seed cotton yield and boll weight exhibited varietals stability over irrigation regimes, whereas significant interactions between above parameters for plant height and bolls per plant suggested genotypic instability over irrigation treatments for these traits. Overall, cultivars mean performance for all the traits in stress conditions was poor as compared to non-stress conditions, nevertheless some cultivars exhibited nonsignificant mean differences in both irrigation regimes, thus showing higher stress tolerance. The WSSI values of seed cotton yield as displayed in biplot revealed that cultivars CRIS-477, CRIS-483 and CRIS-486 were found highly susceptible to water stress. Cultivars CRIS-476, CRIS-482, CRIS-487 and NIAB-78 were characterized as highly susceptible with minimum production even under optimum irrigation conditions. Cultivar CRIS-9 was moderately tolerant as produced low production. However, cultivars CRIS-485 and CRIS-484 were found highly stress tolerant because of minimum WSSI value and lower stomatal conductance. Negative correlations between water stress and WSSI for seed cotton yield and plant height revealed that any increase in the degree of stress caused a corresponding decrease in WSSI.