Estimation of Superiority Percentage and Combining Ability of Grain Yield and Some Other Traits in Yellow Maize | ||||
Alexandria Journal of Agricultural Sciences | ||||
Article 3, Volume 64, Issue 2, April 2019, Page 75-85 PDF (4.6 MB) | ||||
DOI: 10.21608/alexja.2019.48387 | ||||
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Author | ||||
Aboyousef H.A. | ||||
Maize Research Section, Field Crops Research Institute, ARC, Egypt. | ||||
Abstract | ||||
Seventeen yellow inbred lines of maize were crossed with two yellow inbred testers Gm1002 and Gm 1021 to produce 38 hybrids during summer of 2016 at Gemmeiza research station. In summer seasons of 2017 the 38 hybrids and two checks were evaluated at two locations; Gemmeiza and sids research stations. The rustles of these studies might be summarized as follows, locations mean square were highly significant for all studied traits under combined data. The additive and additive x additive gene actions played more important role in the inheritance of for plant height and ear length from combined data, while, the non- additive gene action was more important for days to 50% silking, ear height, ear diameter and grain yield at Gemmeiza, Sids and the combined analysis. The results indicated that grain yield for inbred lines (Gm 23, 45, 46 and 53) had desirable positive and significant GCA (g^i). Two crosses namely (Gm 24x Gm 1021) (36.5 ard./fed.) and (Gm 46x Gm 1021) (35.4 ard./fed.) had desirable significant superiority percentage for grain yield compared with the best check hybrid, Sc 168 (32.1 ard./ fed.). | ||||
Keywords | ||||
(Zea mays L.); top cross; Combining ability; Genotype x environment; yellow maize | ||||
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