Developing maize (zea mays) populations resistant to stem borers for southeastern nigeria.
Table Of Contents
Project Abstract
Stem borers are one of the major constraints to maize production in Southeastern Nigeria, causing significant yield losses each year. Developing maize populations that are resistant to stem borers is crucial for improving maize productivity and ensuring food security in the region. This research project aims to develop maize populations with enhanced resistance to stem borers through a combination of traditional breeding methods and modern biotechnology techniques. The first phase of the project involves screening a diverse collection of maize germplasm for natural resistance to stem borers. Promising lines showing resistance will be selected for further evaluation and breeding. In parallel, molecular markers associated with stem borer resistance will be identified through genomics and genetic mapping approaches. These markers will be used for marker-assisted selection to expedite the breeding process and introgress the resistance traits into elite maize lines preferred by farmers in Southeastern Nigeria. Field evaluations will be conducted to assess the agronomic performance and resistance levels of the developed maize populations under natural stem borer infestation. The selected lines will also undergo multi-location trials to evaluate their adaptability across different agro-ecological zones in Southeastern Nigeria. Agronomic traits such as yield potential, plant height, ear size, and maturity will be assessed alongside stem borer resistance to ensure that the developed populations meet the desired agronomic standards for commercial production. In addition to field evaluations, insect bioassays will be conducted to quantify the resistance levels of the selected maize lines against different stem borer species prevalent in Southeastern Nigeria. This will provide valuable data on the mechanisms of resistance and help in selecting the most effective lines for further breeding efforts. Furthermore, the project will involve capacity building activities to train local farmers and extension agents on integrated pest management practices for stem borer control in maize. Overall, the successful development of maize populations resistant to stem borers in Southeastern Nigeria will contribute significantly to sustainable maize production, reduce pesticide use, and improve food security in the region. This research project represents a strategic approach to addressing a critical agricultural challenge and has the potential to benefit farmers and communities reliant on maize cultivation in Southeastern Nigeria.
Project Overview
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Development of maize populations resistant to stem borers depends largely on the existence of useful genes or alleles, which can combine to confer resistance to progenies. Such genes are often available in areas of stress, having been responsible for the survival of such crops over the years. Pink stem borer, Sesamia calamistis (Hampson, Noctuidae) and sugarcane borer, Eldana saccharina (Walker, Pyralidae) are endemic in southeastern Nigeria. Damages caused by the larvae of these moths are more prevalent during the second planting season (August-November). Genetic diversity for a range of agronomic and resistance attributes within 209 local maize collections from southeastern Nigeria and 3 improved check varieties were investigated in field trials in randomised complete block design (RCBD) with two replications across three environments. Data collected from the evaluations were subjected to both uni- and multivariate statistics. Furthermore, four traits namely, leaf feeding, ear damage, shoot breakage and yield were used from across three environments to construct a selection index. The multivariate analysis on the plant attributes, using canonical discriminant analysis, revealed the agronomic and borer damage parameters that contributed significantly to the total variation observed in different environments. Out of the four canonical discriminant functions obtained, two had significant (P=0.05) eigenvalues accounting for over 98 % of the total variation. The first canonical function was mainly associated with yield while the second was associated with the borer damage attributes. Rank summation index (RSI) used to rank the entries for resistance to stem borers identified 11 genotypes representing top 5 % of the total as resistant. In the second experiment the 11 genotypes and their hybrids, made in a diallel fashion were evaluated for agronomic and borer damage attributes in seven environments in RCBD with three replications. Data collected were subjected to analysis of variance and those found significant (P=0.05) were further subjected to diallel analysis using Griffing’s method 2 model 1 for fixed effects. Significant GCA and SCA effects were obtained for most of the traits studied in the various environments and in the pooled environment thus indicating that additive and non-additive gene effects were involved in the expressions of the traits studied. However, in a few cases, only GCA or SCA was important thus indicating the relative importance of the genetic component of the variance. The assessment of the agronomic and borer damage attributes of the parents and the crosses indicate that the variety crosses were not superior to the parents in most of the traits. The significant differences observed between the parents and the crosses for dead heart and leaf feeding damage parameters is suggestive of the occurrence of exploitable heterosis for the development of genotypes that are resistant to stem borer attack. Genotypes SE NG-33, SE NG-65 and TZBR Syn W had high negative GCA values for dead heart while SE NG-62, SE NG-148, TZBR Syn W and TZBR ELD 3 C2 had the high negative GCA values for leaf feeding damage. For ear damage, SE NG-65, SE NG-67, SE NG-119, SE NG-148 and AMA TZBR-W-C1 had high negative GCA estimates. Genotypes SE NG-33, SE NG-62, SE NG-65, SE NG-77, SE NG-106 and SE NG-119 had the highest positive GCA effects for grain yield. The nine genotypes selected formed two heterotic pools: Group A comprised SE NG-33, SE NG-77, SE NG-106, SE NG-148 and TZBR Syn W while Group B included SE NG-62, SE NG-119, AMA TZBR-W-C1 and TZBR ELD 3 C2. Average yield of the grouped genotypes crossed in all possible combinations was 1.06 t ha-1 showing 5 % yield increase. Furthermore, the best five yielding crosses namely; SE NG-33 x TZBR ELD 3 C2, SE NG-62 x SE NG-77, SE NG-62 x SE NG-106, SE NG-106 x TZBR ELD 3 C2 and TZBR Syn W x TZBR ELD 3 C2, selected may be used as population crosses or in the formation of composite varieties.
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