Abstract
Maize breeding programmes exploit inbred lines with superior combining ability for grain yield and other agronomic traits to create competitive hybrids. Therefore, the objectives of this study were to determine heterotic groups of locally developed maize inbred lines, their heterotic relationships, with exotic testers as well as the gene action controlling grain yield. Nineteen maize inbred lines were crossed to four testers, based on a line x tester mating scheme resulting in 76 test crosses. These crosses were evaluated together with four checks in 10 x 8 α-lattice design across four locations in 2015B and 2016A seasons. Both additive and non-additive gene action were important for grain yield with preponderance of additive gene action. The most desirable GCA effects for grain yield were realized in inbred line 8 while the highest desirable SCA effects were displayed by the test cross 18xT1. Generally, most of the inbred lines exhibited positive heterosis with all testers. However, there was more aligning firstly towards tester T2 and then to T3. The highest heterosis was displayed by the combination of inbred line 8 with 3. Regardless of the heterotic grouping method applied, the inbred lines were discriminated into different heterotic groups; two and nine heterotic groups were identified based on standard heterosis and SCA effects; respectively. The information generated would be useful in optimizing the maize hybrid breeding programme in Rwanda and for other researchers for high yielding maize variety development.
Highlights
Worldwide and in sub-Saharan Africa, maize (Zea mays L.) is a major staple cereal crop serving as human main diet especially for small income families and considerable production area is allocated to this crop [1,2,3,4].In Rwanda, maize has become a leading crop in agricultural production and ranks first among pulse and grain crops production in Rwanda
Lines mean squares considered as GCA females representing additive gene action were significant for grain yield and other traits and similar results were observed for lines interaction with environments except for Ears per plant (EPP) and PH
With regards to mean squares of testers considered as male GCA effects representing additive gene action, significant differences were revealed for all traits and a similar trend was realized for environment x testers except for EPP
Summary
In Rwanda, maize has become a leading crop in agricultural production and ranks first among pulse and grain crops production in Rwanda It has seen an unprecedented development and radical changes [2, 5,6]. This increased maize production was mainly due to a shift in using only open pollinated varieties (OPVs) towards maize hybrids. These hybrids are imported from outside the need for development of local maize hybrids with high yield potential. A large number of inbred lines were developed from different adapted and adopted OPVs
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