Determining the Gene Action Type for Grain Yield and its Components using Generation Mean Analysis in Rice (Oryza sativa L.)
Nofal, R., Gaballah, M. (2024). Determining the Gene Action Type for Grain Yield and its Components using Generation Mean Analysis in Rice (Oryza sativa L.). EKB Journal Management System, 15(4), 139-144. doi: 10.21608/jpp.2024.275948.1316
Randa S Nofal; M. M. Gaballah. "Determining the Gene Action Type for Grain Yield and its Components using Generation Mean Analysis in Rice (Oryza sativa L.)". EKB Journal Management System, 15, 4, 2024, 139-144. doi: 10.21608/jpp.2024.275948.1316
Nofal, R., Gaballah, M. (2024). 'Determining the Gene Action Type for Grain Yield and its Components using Generation Mean Analysis in Rice (Oryza sativa L.)', EKB Journal Management System, 15(4), pp. 139-144. doi: 10.21608/jpp.2024.275948.1316
Nofal, R., Gaballah, M. Determining the Gene Action Type for Grain Yield and its Components using Generation Mean Analysis in Rice (Oryza sativa L.). EKB Journal Management System, 2024; 15(4): 139-144. doi: 10.21608/jpp.2024.275948.1316

Determining the Gene Action Type for Grain Yield and its Components using Generation Mean Analysis in Rice (Oryza sativa L.)

Journal of Plant Production
Article 1, Volume 15, Issue 4, April 2024, Page 139-144  XML PDF (566.87 K)
Document Type: Original Article
DOI: 10.21608/jpp.2024.275948.1316
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Authors
Randa S Nofal email ; M. M. Gaballah
Rice Research Department, Field Crops Research Institute, Agricultural Research Center, Egypt,
Abstract
The study was conducted at the Rice Research Department Farm at the Agricultural Research Station in Sakha, Agricultural Research Center - Egypt through the period 2019 - 2022 for two rice hybrids. The study included five populations for each hybrid (P1, P2, F1, F2, and F3), which were tested for the grain yield characteristics and its components to magnitude of gene action using generation mean analysis. Two rice populations GZ9399 × IRRI 148 and Sakha 104 × IM 16 were used for this study. The results of the scaling tests indicated that the characteristics evaluated in two crosses were not well-suited for the additive-dominance model, indicating the possibility of epistasis in the characters' inheritance. The general mean for each trait was wide significant differences, therefore grain yield/plant of cross 2 (Sakha 104 × IM 16) logged highly significant positive gene action effects while cross 1 (GZ9399 × IRRI 148) recorded highly significant negative additive gene effects. However, 1000 grains weight recorded a highly significant positive gene action effects for cross 1, while cross 2 had highly significant negative additive gene effects. From phenotypic correlation coefficient, in both crosses, grain yield/plant were positively and highly-significant correlated with branches number/panicle, number of panicles/plant and number of spikelets /panicles. Grain yield/plant of cross 1, it was positively and highly-significant correlated with panicle length, panicle weight. While cross 2, it was positively and significantly correlated with panicle length and positively highly significantly correlated with fertility percentage and 1000 grains weight.
Keywords
rice; scaling test; gene action; generation mean; grain yield and its components
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