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Genetic analysis and response to selection for resistance to two stem borers, Busseola fusca and Chilo partellus, in tropical maize germplasm.Mwimali, Murenga Geoffrey. 19 June 2014 (has links)
Maize is the principal staple food in sub-Saharan Africa (SSA), but production lags behind population growth. The African stem borer, Busseola fusca, Fuller (Lepidoptera, Noctuidae), and the spotted stem borer, Chilo partellus, Swinhoe (Lepidoptera, Crambidae) are serious insect pests of maize in tropical environments. The damage can be managed by breeding stem borer resistant maize varieties but there is limited information that can be used to devise appropriate breeding programs. Therefore breeding investigations were conducted to appraise germplasm screening methods, and to determine combining ability, heterosis and response of maize populations to S1 progeny recurrent selection. The study was conducted in Kenya during 2010 to 2013.
The results showed that most of the test genotypes were susceptible to B. fusca and less so to C. partellus, indicating that breeding for B. fusca would be more challenging. Therefore more resources would be required to improve maize germplasm for resistance to B. fusca to broaden the base from which breeders will select suitable lines for breeding. There was a highly significant (r=0.947, p≤ 0.01) correlation between rank selection index in the greenhouse and laboratory. The detached leaf disk bioassay method was effective for screening maize genotypes for resistance to both stem borers. Therefore it will be recommended for use in screening maize genotypes in future studies. The line x tester studies indicated a preponderance of the additive gene effects for borer resistance traits. Specific combining ability effects were significant for resistance traits and grain yield indicating that non-additive effects were also influential. Findings from the breeding investigations will impact positively on both food security and plant breeding capacity. The completed study was successful in identifying new maize inbred lines with resistance to both stem borers. These lines have high utility to maize breeding programmes that emphasise stem borer resistance in tropical environments. For the hybrid-oriented programmes, combining ability and heterotic orientation data for the 66 maize inbred lines will be crucial. In this regard the study was very successful in classifying the lines into three heterotic groups according to single cross testers (CML395/CML444, and CML312/CML442) that are widely used at CIMMYT, and by public breeding programs throughout SSA. Importantly, this was done based on grain yield potential of hybrids under B. fusca and C. partellus infestations in three mega environments.
The study demonstrates that S1 progeny recurrent selection is effective for improving stem borer resistance, without compromising yield. There was significant reduction (69%) in maize plant damage by both pests, and yield gains of 25% to 70% were realised in two populations. This represents significant contribution to plant breeding capacity, especially to maize breeding programmes that emphasise stem borer resistance in hybrids. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2014.
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Breeding investigations on utility of maize streak virus resistant germplasm for hybrid development in the tropics.Gichuru, Lilian Njeri. 12 May 2014 (has links)
Maize (Zea mays L.) supports millions of livelihoods in sub-Saharan Africa (SSA) in terms of
food and feed. Production of the crop is however limited by several factors, among these, maize
streak virus (MSV) disease. Although extensively studied, MSV remains a serious problem in
SSA due to several challenges in breeding MSV resistant maize varieties. These include
integration of MSV resistant germplasm from different backgrounds, reliance on a few resistant
sources, and genotype x environment interactions. This study was designed to assess the
breeding potential of several MSV resistant lines in hybrid combinations. Understanding
architecture of genetic divergence and background of these genotypes would greatly aid in
breeding high yielding and stable MSV resistant hybrids. Experiments were conducted during
2010 to 2012 seasons in Kenya. Diallel crosses and SSR markers were used to characterize
MSV resistant maize inbred lines from three programs of CIMMYT, KARI and IITA.
In general, this study revealed that MSV is still an important problem in Kenya with high
incidence and severity levels in the farmers’ fields. The levels of MSV resistance in locally
grown hybrids needs to be improved. Farmers challenged breeders to develop new hybrids that
combine early maturing, high yield potential and MSV resistance.
The study was successful in identifying the best eight inbred lines for use in breeding new maize
hybrids with MSV resistance. The nature of gene effects was established for the first time, in
particular the role of epistasis and G x E in conditioning MSV resistance in hybrids. Results
indicate serious implications for previous models that ignored epistasis in studying MSV
resistance in maize. The inbreds Z419, S558, CML509 and Osu23i, displayed high levels of
epistasis for MSV resistance. Unless strong sources of MSV resistance, such as MUL114 and
CML509, are used, breeding resistant hybrids will require parents that carry dominant
resistance genes. The additive-dominance model was adequate to explain northern leaf blight
(NLB) resistance in hybrids, indicating fewer complications in breeding NLB resistant hybrids.
The study also reveals that SSR genetic distance data can be used to predict hybrid
performance, especially when the correct set of markers is used. Many previous studies have
not found any significant relationship between genetic distance and heterosis, due to large
G x E and use of a wrong set of markers. The diallel analysis and SSR data established the
important heterotic groups, which will be exploited for efficient development of MSV resistant
maize hybrids. These strategies will be recommended to programs that emphasize MSV
resistance in maize hybrids. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2013.
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