Abstract
Maize (Zea mays L.) elite inbred lines developed from pedigree programs tend to be genetically related. Therefore, it is necessary to incorporate unrelated inbreds to those programs to allow the continued release of outstanding single-crosses. The objectives of this research were to compare the usefulness of a modified reciprocal recurrent selection procedure (MRRS) to improve populations to be used as sources of elite inbreds and outstanding single-crosses to integrate pedigree programs, and to investigate the effects of selection on the relative contribution of general (GCA) and specific combining (SCA) abilities to the single-crosses variation. Eight and six S3 lines from populations IG-3-C1 and IG-4-C1, respectively, selected from the first cycle of the MRRS program were crossed in a partial-diallel mating design, and the 48 experimental and five commercial single-crosses were evaluated in six environments. Grain yield mean of the experimental single-crosses (9.57 t ha¹) did not differ from the commercial single-crosses (9.86 t ha¹), and ten of the 48 experimental single-crosses could be released as cultivars because they compared favorably to the currently used single-crosses. Thus, one cycle of the MRRS procedure improved efficiently the populations allowing the development of outstanding single-cross, but additional cycles of selection should be carried out since none of the experimental single-crosses outperformed the highest yielding commercial single-cross. The relative contribution of the GCA over SCA may have been affected by the MRRS, since the SCA was more important than GCA for some of the traits assessed.
Highlights
Populations developed from crosses of elite inbred olifneins,bree.gd.,liFne2’ss or backcrosses, are, in commercial maize usually, the sources (Zea mays L.) breeding programs
The objectives of this research were to compare the usefulness of a modified reciprocal recurrent selection procedure (MRRS) to improve populations to be used as sources of elite inbreds and outstanding single-crosses to integrate pedigree programs, and to investigate the effects of selection on the relative contribution of general (GCA) and specific combining (SCA) abilities to the single-crosses cvyarcilaetoiofnt.hEe iMghRtRanSdprsioxgrSa3mlinweserferocmrospsoepduinlataiopnarstIiGal--d3i-Call1elanmdatIiGn-g4d-Ces1i,grne,sapnedcttihveel4y8, selected from experimental the and first five commercial single-crosses were evaluated in six environments
For entries x environments interaction highly differences were detected for grain yield (GY), plant lodging (PL) and ear placement (EP), whereas for plant height (PH), ear height (EH) and prolificacy (PRO) no significant differences were detected
Summary
Populations developed from crosses of elite inbred olifneins,bree.gd.,liFne2’ss or backcrosses, are, in commercial maize usually, the sources (Zea mays L.) breeding programs. The elite inbred lines developed from these populations are crossed to develop new populations, and the elite inbred lines are recycled repetitively to assemble their favorable alleles in new inbred lines and hybrids (Hallauer, 1990; Bernardo, 2002). This procedure has been very effective to develop outstanding hybrids, in the long-term the recycled inbreds will become, to some extent, genetically related lessening the genetic variability of the breeding programs and, limiting the development of hybrids that outperform those ones already released (Smith, 1988; Yu and Bernardo, 2004). RRS procedure has seldom been used in commercial maize breeding programs mainly because of its long-term nature (Hallauer et al, 1988; Bernardo, 1996)
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