dc.description.abstract | Despite the fact that virtually all households in Kenya grow maize, over 60% of them are net maize
buyers because they do not produce enough for their consumption. This is due to both biotic and
abiotic factors such as poor planting materials, diseases and unreliable weather among others. This
study was conducted to select lines with good combining ability. The trials were conducted in 2012
at experimental stations of Kenya Agricultural and Livestock Research Organization (KALRO)
Muguga South and Embu in Kiambu and Embu counties of Kenya respectively. The study was
conducted with 18 inbred lines. The experiment was laid out in a 6 x 6 lattice incomplete
randomized block design with two replications. In Embu inbred line POPA produced the best grain
yields when crossed with MUL 541 and MUL 521. Its high grain yield was also witnessed in
Muguga where on average its performance was superior to other inbred lines. Inbred line MUL 513
can further be evaluated for grain yield improvement with all the other inbred lines which had high grain yields. The best general combiners for grain yield were MUL 508, MUL 688, POP A, MUL
541, MUL 513 and MUL 114. POP A x MUL 541 produced the highest yield of 0.49 t/ha. Based on
SCA estimates, the best cross combinations for plant height were MUL 508 x MUL 688, POP A x
MUL541 and MUL513 x MUL114. For ear height best cross combinations were: MUL 508 x MUL
688, POP A x MUL 141, POP A x MUL 541 and MUL 513 x MUL 114. The best combinations for
grain yield were MUL 508 x MUL 688, POP A x MUL 541 and MUL 513 x MUL 114. Crosses
MUL508 x MUL 521, MUL 541 x MUL 508, and MUL 688 x MUL508 were good combinations for
MSV disease resistance since in both research sites they had an MSV score of 1. For grain yield
improvement on specific combining ability crosses MUL 508 x MUL 688, POP A x MUL 141, MUL
513 x MUL 114 and MUL 513 x CN244 can further be evaluated and eventually released to farmers
as they indicated promising relationship with yield potential compared to other crosses. Crosses
MUL 508 x MUL 516, POP A x MUL 141 and POP A x MUL 688 can further be evaluated for
disease resistance. The results will be useful to breeders and farmers in selecting the potential
parental materials for improvement in maize breeding programs. | en_US |