Discover Agriculture (Oct 2024)
Genetic architecture of yield and yield contributing traits in chickpea (Cicer arietinum L.)
Abstract
Abstract Genetic architecture of yield and yield contributing characters of five crosses in chickpea were performed by generation mean analysis. Non-significant χ2 values were noted for plant weight at harvest (PWH), number of pods per plant (NPd/P) and number of seeds per plant (NS/P) in cross-2; for number of secondary branches at first flower (NSBFF) and number of secondary branches at maximum flower (NSBMF) in cross-3 and for number of primary branches at maximum flower (NPBMF) in cross-4. Among these, PWH in cross-2; NSBFF and NSBMF in cross-3 and NPBMF in cross-4 were also non-significant regarding C and D scales. Non-significant scale coupled with non-significant χ2 values indicated only additive-dominance relationship for those characters and crosses that would likely be helpful in doing successful breeding plan easily for the development of potential lines in chickpea. Gene effects viz., additive [d], dominance [h], additive × additive [i] and dominance × dominance [l] were significant for different crosses and characters indicating involvement of additive, dominance, additive × additive and dominance × dominance gene interactions in the control of these traits. Most of the studied characters exhibited duplicate type of epistasis therefore, recurrent selection for these traits is suggested. Effective factor (K1) was less than one for all the characters and crosses indicating minimum one group of gene controlled the characters. Both broad (h2 b) and narrow (h2 n) sense heritability in majority cases were found to be high which indicates that selection for high heritability showing traits is likely to be effective. Mid-parent (MP) and better-parent (BP) heterosis found to be non-significant in maximum cases. All the characters and crosses showed non-significant inbreeding depression (ID) indicating a good sign for further genetic work.
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