EVALUATION OF TOMATO PROMISING HYBRIDS PRODUCTIVITY UNDER DIFFERENT ENVIRONMENTAL CONDITIONS
Bayomi, K., Badran, A., Abdel-Baset, A., Al-Kady, A., Habib, R., Nassar, S. (2024). EVALUATION OF TOMATO PROMISING HYBRIDS PRODUCTIVITY UNDER DIFFERENT ENVIRONMENTAL CONDITIONS. EKB Journal Management System, 74(2), 561-573. doi: 10.21608/ejdr.2025.345992.1193
Khaled M. Bayomi; Ayman E. Badran; Ashraf Abdel-Baset; Abd El-Reheem M.A. Al-Kady; Rafik M. Habib; Saad M.A. Nassar. "EVALUATION OF TOMATO PROMISING HYBRIDS PRODUCTIVITY UNDER DIFFERENT ENVIRONMENTAL CONDITIONS". EKB Journal Management System, 74, 2, 2024, 561-573. doi: 10.21608/ejdr.2025.345992.1193
Bayomi, K., Badran, A., Abdel-Baset, A., Al-Kady, A., Habib, R., Nassar, S. (2024). 'EVALUATION OF TOMATO PROMISING HYBRIDS PRODUCTIVITY UNDER DIFFERENT ENVIRONMENTAL CONDITIONS', EKB Journal Management System, 74(2), pp. 561-573. doi: 10.21608/ejdr.2025.345992.1193
Bayomi, K., Badran, A., Abdel-Baset, A., Al-Kady, A., Habib, R., Nassar, S. EVALUATION OF TOMATO PROMISING HYBRIDS PRODUCTIVITY UNDER DIFFERENT ENVIRONMENTAL CONDITIONS. EKB Journal Management System, 2024; 74(2): 561-573. doi: 10.21608/ejdr.2025.345992.1193

EVALUATION OF TOMATO PROMISING HYBRIDS PRODUCTIVITY UNDER DIFFERENT ENVIRONMENTAL CONDITIONS

Egyptian Journal of Desert Research
Volume 74, Issue 2, December 2024, Page 561-573  XML PDF (383.9 K)
Document Type: Original Article
DOI: 10.21608/ejdr.2025.345992.1193
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Authors
Khaled M. Bayomi email orcid 1; Ayman E. Badranorcid 1; Ashraf Abdel-Baset2; Abd El-Reheem M.A. Al-Kady1; Rafik M. Habib1; Saad M.A. Nassar1
1Plant Breeding Unit, Department of Genetic Resources, Desert Research Center, Cairo, Egypt
2Vegetables Unit, Department of Plant Production, Desert Research Center, Cairo, Egypt
Abstract
The impact of successive climate changes has become a phenomenon that requires continuous evaluation and selection of suitable genotypes in terms of quality and productivity for most crops around the world, and this is one of the objectives of plant breeding and conservation program of Desert Research Center. Therefore, this study aimed to evaluate 60 tomato (Solanum lycopersicum) hybrids under six environments (three locations during two agricultural seasons; 2022 and 2023). The results indicated that, the variance of genotypes (G), environments (E), genotype x environment and G x E (linear) components were significant for mean yield weight per plant. According to Eberhart and Russell model, the data indicated the selection of some distinctive hybrids according to the high average yield, the regression coefficient close to one, and the non-significant deviation from the regression, and they were the most stable across different environments. In general, and according to the results, G16, G18, G28 and G29 were distinguished in terms of stability and yield across different environments. Stability of the performance of tested tomato genotypes is a major goal of breeding programs that keep pace with changing environmental conditions.
Keywords
Solanum lycopersicum; stability; variance; breeding; regression
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