The okra germplasm was screened for salinity tolerance at the seedling stage and during plant ontogeny.Substantial variation existed in okra for salinity tolerance at the seedling stage.An 80 mmol/L NaCl concentration was suitable for discriminating tolerant and non-tolerant okra genotypes.The pooled ranking of the genotypes,based on individual rankings for each trait(root and shoot length,germination percentage,and relative Na+ and K+)in individual NaCl concentrations,was effective for selecting tolerant genotypes.Genotypes selected at the seedling stage maintained their tolerance to NaCl during plant ontogeny,suggesting that screening of the germplasm entries and advanced breeding materials for salt tolerance at the seedling stage is effective.Among 39 okra genotypes,five were identified as the most tolerant genotypes and showed potential for use in breeding programs that focus on the development of salt-tolerant,high-yield okra cultivars. The okra germplasm was screened for salinity tolerance at the seedling stage and during plant onto geny. Substantial variation existed in okra for salinity tolerance at the seedling stage. An 80 mmol / L NaCl concentration was suitable for discriminating tolerant and non-tolerant okra genotypes. pooled ranking of the genotypes, based on individual rankings for each trait (root and shoot length, germination percentage, and relative Na + and K +) in individual NaCl concentrations, was effective for selecting tolerant genotypes. Genotypes selected at the seedling stage maintained their tolerance to NaCl during plant ontogeny, suggesting that screening of the germplasm entries and advanced breeding materials for salt tolerance at the seedling stage is effective. Among 39 okra genotypes, five were identified as the most tolerant genotypes and showed potential for use in breeding programs that focus on the development of salt-tolerant, high-yield okra cultivars.