Deciphering gene action for traits contributing to submergence tolerance and yield in rice (Oryza sativa L.)

DOI: 10.37992/2024.1501.007

  • K. Pravin Kumar,
  • R. Pushpam,
  • S. Manonmani,
  • M. Raveendran and A. Senthil

Abstract

Rice (Oryza sativa L.), a semi-aquatic crop cultivated in diverse environments from sea coasts to high altitudes, faces submergence issues impacting one-third of global cultivation. Effectively choosing superior offspring with a range of genetic traits is vital for improving yield stability, particularly in the development of submergence-tolerant varieties. This is accomplished by comprehending gene action through the generation mean analysis. This experimental material comprised six generations (P1, P2, F1, F2, B1, and B2) obtained from two rice crosses viz., ADT 45 x APD 19002 and CO 54 x APD 19002 involving three parents, examining twelve traits.  In the cross ADT 45 x APD 19002, traits like days to fifty per cent flowering, plant height, number of productive tillers per plant, flag leaf width, total number of grains per panicle, number of filled grains per panicle, and single plant yield exhibited opposite signs of dominance (h) and dominance × dominance (l), indicating a prevalence of duplicate epistasis. Simultaneously, additive(d) and additive × additive(i) gene effects were displayed by days to fifty per cent flowering, total number of tillers per plant, panicle length, flag leaf width, total number of grains per panicle, and single plant yield. In cross CO 54 x APD 19002, traits such as days to fifty per cent flowering, plant height, flag leaf width, number of filled grains per panicle, spikelet fertility, and single plant yield suggested predominance of duplicate epistasis. Meanwhile, additive and additive × additive gene effects predominantly influenced the days to fifty per cent flowering, spikelet fertility, and single plant yield. These findings propose the potential for improvement through later-generation selection, emphasizing the integration of selection with screening for submergence tolerance to develop high-yielding submergence-tolerant varieties.

Keywords: generation mean analysis, scaling test, genetic effects, submergence tolerance

Published
02-04-2024
How to Cite
K. Pravin Kumar, R. Pushpam, S. Manonmani, M. Raveendran and A. Senthil

Deciphering gene action for traits contributing to submergence tolerance and yield in rice Oryza sativa L.

. 2024. Electronic Journal of Plant Breeding, 15 1, 63-69. Retrieved from https://ejplantbreeding.org/index.php/EJPB/article/view/5015
Section
Research Article