Nawar,, A., EI-Shamarka, S., EI-Absawy, E. (2002). DIALLEL ANALYSIS OF SOME AGRONOMIC TRAITS OF MAIZE. Journal of Plant Production, 27(11), 7203-7213. doi: 10.21608/jpp.2002.257023
A. A. Nawar,; S. A. EI-Shamarka; E. A. EI-Absawy. "DIALLEL ANALYSIS OF SOME AGRONOMIC TRAITS OF MAIZE". Journal of Plant Production, 27, 11, 2002, 7203-7213. doi: 10.21608/jpp.2002.257023
Nawar,, A., EI-Shamarka, S., EI-Absawy, E. (2002). 'DIALLEL ANALYSIS OF SOME AGRONOMIC TRAITS OF MAIZE', Journal of Plant Production, 27(11), pp. 7203-7213. doi: 10.21608/jpp.2002.257023
Nawar,, A., EI-Shamarka, S., EI-Absawy, E. DIALLEL ANALYSIS OF SOME AGRONOMIC TRAITS OF MAIZE. Journal of Plant Production, 2002; 27(11): 7203-7213. doi: 10.21608/jpp.2002.257023
DIALLEL ANALYSIS OF SOME AGRONOMIC TRAITS OF MAIZE
2Genetic Engineering and Biotechnology, Research Institute, Minufiya University.
Abstract
This investigation aimed to study combining ability and heterosis through a half diallel cross mating design in Gemiza maize population using six S5 parental lines to produce fifteen crosses. The data were recorded on ten quantitative characters t.e, grain gield/ plant, ear length, ear diameter, number of rows!ear, number of kemels! row, 100- kemel - weight, plant height, ear height, tasseling date, and silking date. Combining ability were estimated according to Griffing's procedure (1956). Meth0d-4- model-I.
The results showed that, Generally, the best crosses (G2 x G6), (G3 x G4) and (G3 x G5) for grain yield! plant and its components, and towards earliness; and crosses (G2 x G4) and (G4 x G5) for plant height (towards shortness and ear height (twards low ear placement) Genotypes mean squares showed highly significant differences for all studied traits. Significant estimates of specific combining ability (S.CA) along with insignificant (G.C.A.) variances were detected for grain yield/plant, ear length, ear diameter, number of kemeVrow, 100-kemel-weight and plant heights, revealing that non-additive type of gene action was the more important part of the total genetic variability for these traits. For other traits i.e, silking and tasseling dates exhibited high G.CA! S.CA ratios which exceeded the unity indicating the predominance of additive gene action in the inheritance of such traits. Desirable significant (G.CA) effects (gi) were obtained by G3 and G5 for number of rows! ear; G4 for plant height, G5 for ear height (towards shortness); and G3 and G4 for tasseling and silking dates (towards earliness). Estimates of specific combining ability (S.C.A) effects (Sij). Generally, the best crosses were (G3 x G4), (G2 x G5), and (G1 x G6) these crosses may be of prime importance in breeding programmes for hybrid maize production providing that the additive genetic system present in the good combiner as the complementary and epistatic effeds that act in the same direction to reduce undesirable plant characteristics and maximize the character in view. The crosses showed non-significant heterotic effects either positive or negative values for the check variety (Sc. 129) where the heterotic values ranged from (6. 18% to 18.77%) positive values and (-2. 56% to 37.49%) negative values.
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