Generation Mean Analysis Reveals the Inheritance of Yield and its Components in Wide Compatible Elite indica Rice Restorer Line

Authors

  • Kalpataru Nanda School of Agriculture, Gandhi Institute of Engineering and Technology University, Gunupur, Odisha (765 022), India
  • Nihar Ranjan Chakraborty Dept. of Genetics and Plant Breeding, Palli-Siksha Bhavana, Visva-Bharati, Santiniketan, West Bengal (731 236), India
  • Ashutosh Nanda Dept. of Biosciences and Biotechnology, Fakir Mohan University, Balasore, Odisha (756 089), India
  • Pandurang Arsode Dept. of Genetics and Plant Breeding, Banaras Hindu University, Varanasi, U.P. (221 005), India
  • Debarchana Jena Crop Improvement Division, ICAR-National Rice Research Institute, Cuttack, Odisha (753 006), India
  • Diptibala Rout Crop Improvement Division, ICAR-National Rice Research Institute, Cuttack, Odisha (753 006), India
  • Sanghamitra Samantaray Crop Improvement Division, ICAR-National Rice Research Institute, Cuttack, Odisha (753 006), India
  • Jawahar Lal Katara Crop Improvement Division, ICAR-National Rice Research Institute, Cuttack, Odisha (753 006), India
  • Ramlakhan Verma Crop Improvement Division, ICAR-National Rice Research Institute, Cuttack, Odisha (753 006), India

DOI:

https://doi.org/10.23910/2/2025.6295

Keywords:

Wide-compatibility, generation mean analysis, scaling test, gene action

Abstract

The experiment was conducted during rabi (December-2021 to April-2022) at ICAR–National Rice Research Institute (NRRI), Cuttack, Odisha, India to unravel the genetic architecture underlying yield and its associated traits, generation mean analysis was conducted on six generations (P₁, P₂, F₁, F₂, B₁ and B₂) derived from a cross between two elite rice restorer lines, CR 1033 and CR 22-1-5-1. Results from the scaling tests indicated the presence of epistatic interactions across all studied traits, necessitating the application of a six-parameter model to dissect the generation means into additive, dominance, and interaction components. The inheritance of all evaluated traits was governed by a complex interplay of additive, dominance, and epistatic gene actions, with non-additive variance consistently surpassing additive or fixable variance components. For the majority of traits, dominance effects (h) emerged as the most influential gene effects, while (dominance×dominance) interactions (l) represented the predominant epistatic effects. Interestingly, several traits—including days to 50% flowering, days to maturity, plant height, grains panicle-1, yield plant-1, grain length, grain width, and the grain length-to-width ratio—displayed opposing signs for dominance effects (h) and (dominance×dominance) interactions (l), suggesting the involvement of duplicate epistasis in their genetic control. Consequently, selection for these traits may be more effective in later generations. Furthermore, bi-parental mating among superior segregants may help disrupt unfavorable linkages and facilitate the accumulation of desirable alleles. Traits such as plant height, grain width, and the grain length-to-width ratio exhibited significant negative heterobeltiosis, largely due to the subpar performance of F₁ hybrids relative to their parents.

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Published

03-11-2025

How to Cite

Nanda, K., Chakraborty, N. R., Nanda, A., Arsode, P., Jena, D., Rout, D., … Verma, R. (2025). Generation Mean Analysis Reveals the Inheritance of Yield and its Components in Wide Compatible Elite indica Rice Restorer Line. International Journal of Economic Plants, 12(Nov, 6), 01–08. https://doi.org/10.23910/2/2025.6295

Issue

Vol. 12 No. Nov, 6 (2025)

Section

Articles

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Copyright (c) 2025 PP House

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