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Hussein, E., Darwish, M., Yassin, M., Elsayed, M. (2024). Tolerance Evaluation of Some Bread Wheat Genotypes to Water Deficit through Exploratory Factor Analysis. Alexandria Journal of Agricultural Sciences, 69(4), 420-445. doi: 10.21608/alexja.2024.315758.1088
Eman M. A. Hussein; Mohamed A. Darwish; Mohamed M. M. Yassin; Mona I. E. Elsayed. "Tolerance Evaluation of Some Bread Wheat Genotypes to Water Deficit through Exploratory Factor Analysis". Alexandria Journal of Agricultural Sciences, 69, 4, 2024, 420-445. doi: 10.21608/alexja.2024.315758.1088
Hussein, E., Darwish, M., Yassin, M., Elsayed, M. (2024). 'Tolerance Evaluation of Some Bread Wheat Genotypes to Water Deficit through Exploratory Factor Analysis', Alexandria Journal of Agricultural Sciences, 69(4), pp. 420-445. doi: 10.21608/alexja.2024.315758.1088
Hussein, E., Darwish, M., Yassin, M., Elsayed, M. Tolerance Evaluation of Some Bread Wheat Genotypes to Water Deficit through Exploratory Factor Analysis. Alexandria Journal of Agricultural Sciences, 2024; 69(4): 420-445. doi: 10.21608/alexja.2024.315758.1088

Tolerance Evaluation of Some Bread Wheat Genotypes to Water Deficit through Exploratory Factor Analysis

Article 2, Volume 69, Issue 4, December 2024, Page 420-445  XML PDF (3.01 MB)
Document Type: Original Article
DOI: 10.21608/alexja.2024.315758.1088
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Authors
Eman M. A. Hussein email orcid 1; Mohamed A. Darwish2; Mohamed M. M. Yassin2; Mona I. E. Elsayed1
1Central Laboratory for Design & Statistical Analysis Research, ARC, Egypt
2Wheat Research Section, Field Crops Research Institute, ARC, Egypt
Receive Date: 26 August 2024Revise Date: 13 October 2024Accept Date: 18 October 2024 
Abstract
A study at Sakha Agricultural Research Station examined the impact of water deficit on wheat grain yield using a randomized complete block design in a split-plot arrangement. Drought-tolerant wheat genotypes were identified using stress tolerance indices and factor analysis scores. Results showed a significant effect on all studied traits and the interaction for the shortage of water and genotypes. Alterations in agronomic and physiological characteristics lead to a decrease in grain yield from 29.4% to 61.8% under water deficit. Based on grin yield only under normal and stress conditions (two irrigations), Stress tolerance indices (STI) indicated that Line2, Line4, Line5, Line6, Line8, Line10, Line11, Line12, Gemmeiza 11, Giza 171, Sakha95, and Misr 3 were drought tolerant overall the two seasons. The results indicate significant positive correlations between stress tolerance indices. TOL and SSPI showed an egalitarian relationship when ranking genotypes, and strong positive associations were found between SSI, RD, and CV. These indices are equally effective for ranking genotypes for stress tolerance and can be used interchangeably to save time and effort. In addition, Line 2, Line4, Line6, Line7, Line8, Line9, Line10, Line11, and Giza 171, Sakha95, and Misr 3 were the best genotypes from the Factor Analysis Score method, with the highest grain yield parameters, NDVI, and the lowest increase in canopy temperature at two irrigations so, recommended involvement in the drought breeding program. Two irrigations are recommended for early cultivation of genotypes, as they are sufficient to yield valuable crops with minimal loss under water scarcity challenges.
Keywords
Keywords: bread wheat; shortage of water; exploratory factor analysis, factor analysis score
Main Subjects
Plant Production
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