Browsing by Author "Woyengo, V.W."
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Item Genetic Inheritance of Farmer Preferred Traits of Cassava Varieties in Western Kenya(2012) Melis, R.; Woyengo, V.W.; Shanahan, P.; Odongo, O.M.; Kenya Agricultural Research Institute P.O BOX 169 kAKAMEGA African Centre for Crop Improvement (ACCI) University of Kwazulu- Natul Rabie Saunders Private Bag XO1 Scotts Vile South AfricaInformation on genetic inheritance of farmer preferred traits is fundamental in selection of parents and breeding strategies for an effective participatory plant breeding (PPB) programme. Forty sibs representing each of the 24 full-sib families generated using 6 x 4 North Carolina II mating design from ten popular cassava varieties grown in mid-altitude tropical climatic conditions were evaluated in two distinct environments using a-lattice design. Crosses, general and specific combining ability (GCA and SCA) effects and their interaction with environment were significant for most traits evaluated indicating significant genotypic, additive, non-additive gene action and their interaction with environment. Significance of genotypic, GCA, SCA effects and their interaction with environments imply selection of superior genotypes and parents should be based on multi-location evaluation. The presence of both additive and non-additive gene action for most preferred traits indicates the need to have specific breeding strategies that exploits both gene actions. However, the importance of additive over non-additive gene action varied between traits indicating the need specific breeding approaches for these traits. Over 50% of variability within the crosses for all traits evaluated except height to first branching, plant height and branching level was due to SCA effect indicating the importance of non-additive gene action. The GCA effects for the parents did not generally correlate with their per se performance also the best performing crosses were not always developed from parents with high GCA effects. These implied selection of parents based on their per performance may not necessarily lead to development of superior hybrids.
