Abstract
AbstractStem borers, Busseola fusca and Chilo partellus, are among the key devastating lepidopteran insect pests of maize causing grain yield losses. Recurrent selection studies for stem borer resistance in maize are limited. However, maize populations carrying resistance genes to these stem borers have not been exploited fully in breeding programmes. The objective of the study was to separately improve resistance to B.fusca and C.partellus stem borers for two maize populations CML395/MBR C5 Bc and CML444/MBR/MDR C3Bc and therefore grain yield after two cycles of S1 progeny recurrent selection. Cycle 0 and the advanced generations (cycle 1-susceptible, cycle 1-resistant and cycle 2-resistant) were evaluated at three locations in Kenya using a 35 × 12 α-lattice design with 2 replications. The net reductions in cumulative tunneling, number of exit holes and leaf feeding damage scores ranged from 0 to 69 % for both populations after two cycles of selection. In the two populations, each cycle of selection for borer resistance improved grain yield by 0.5–0.8 t ha−1. Actual net gains in grain yield with reference to cycle 0 were 43 % for population CML395/MBRC5 Bc under B. fusca infestation and 70 % under C. partellus infestation. For population CML444/MBR/MDR C3Bc, the actual net gains in grain yield were 25 % under B. fusca infestation and 36 % under C. partellus infestation. The reductions in the injurious effects attributable to leaf feeding damage, cumulative stem tunneling and number of exit holes contributed towards the 43 and 70 % net genetic gain in grain yield under B. fusca and C. partellus infestation respectively, for both populations. Broad sense heritability (H2) for grain yield ranged from 2 to 98 % in both maize populations. The study showed that two cycles of S1 progeny recurrent selection was effective in accumulating favourable alleles for B. fusca and C. partellus stem borer resistance.
Highlights
There are limited studies on recurrent selection for stem borer resistance in tropical maize
The S1 progeny recurrent selection scheme is characterized by the additive genetic effects that are more important than the non-additive gene effects in stem borer resistance in maize populations (Sandoya 2008; Schnable and Springer 2013)
The study showed that the S1 progeny recurrent selection scheme is effective for the accumulation of favourable alleles for stem borer resistance and indirectly contribute towards genetic gain in grain yield
Summary
There are limited studies on recurrent selection for stem borer resistance in tropical maize. Plant breeding has led to the development of new maize varieties with better resistance and agronomic traits to biotic and abiotic stresses. Among these biotic stresses, the African stem borer, Busseola fusca and the spotted stem borer Chilo partellus are serious insect pests of maize in tropical environments. Cartea et al (1999) suggested that recurrent selection approaches would be the most suitable for the improvement of stem borer resistance This breeding scheme is effective in increasing favourable alleles of agronomic and economic traits of importance in maize populations. The S1 progeny recurrent selection scheme is characterized by the additive genetic effects that are more important than the non-additive gene effects in stem borer resistance in maize populations (Sandoya 2008; Schnable and Springer 2013)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
