CREENING AND SELECTION OF TOMATO GENOTYPES/CULTIVARS FOR DROUGHT TOLERANCE USING MULTIVARIATE ANALYSIS

Abstract

Drought is one of the most important abiotic stresses reducing crop growth and yield of tomato. Development of water stress tolerant cultivars through screening and selection is one important strategy to overcome this problem. In the present study, seeds of 120 local and exotic lines of tomato were allowed to germinate at varying levels of polyethylene glycol (PEG8000) induced water stress (PEG8000 0, 2.5%, 5.0% and 7.5%) for two weeks. Increasing PEG concentrations in the growth medium (water stress) caused a consistent decrease in seed germination percentage and seedling growth of all tomato cultivars. Moreover, a significant amount of genetic variability was found in all attributes of 120 genotypes of tomato. All lines/cultivars of tomato were ranked on the basis of relative water stress tolerance using 13 morphometric traits and categorized in four groups (tolerant, moderately tolerant, moderately sensitive, and sensitive) through multivariate analysis. Of 120 lines, 18, 25, 29 and 48 lines were ranked as tolerant, moderately tolerant, moderately sensitive and sensitive respectively. The germination percentage or speeds of germination were not found as effective indicator of genotypic differences for water stress at the seedling stage. Moreover, degree of water stress tolerance at the germination and seedling growth stage did not maintain in all tomato lines. Thus, it is not certain whether such variation is detectable at the later vegetative or reproductive growth stages. This needs to be further investigated. Overall, lines 19905, 19906, LA0716, and LA0722 were found to be water stress tolerant at least at early growth stages.