Alternate phenotype–genotype selection for developing superior high-yielding irrigated rice lines
2018
Moukoumbi, Yonnelle Dea | El-Namaky, Raafat | Djaman, Koffi | Mbodj, Daouda | Manneh, Baboucarr
Increase grain yield potential is one of the most important objectives of any cereal crop breeding program. To efficiently develop superior rice lines by the introgression of favorable alleles for yield and yield component traits, a strategy of alternate phenotype–genotype selection was used. The present study aimed to (i) investigate the allelic diversity of loci associated with major yield-component traits and (ii) phenotype and genotype advanced populations derived from crosses between NERICA-L-20 and Giza178 for yield component traits using agro-morphological descriptors and GRiSP polymorphic markers to select superior high-yielding rice lines. A total of 100 F₂:₃ progeny were selected from 1000 F₂ plants and genotyped with 16 polymorphic markers linked to four major yield-component traits. Four promising F₂:₃ lines (ARS 563–14, ARS 563–62, ARS 563–286, and ARS 563–41) bearing combinations of desirable alleles were selected. A selected set of 20 F₂:₄ lines showed moderate to high heritability for all target traits. Fourteen F₂:₅ lines derived from ARS 563–14 and 17 F₂:₅ from ARS 563–286 families were evaluated in preliminary trials to estimate yield gain. The three top lines, ARS 563–286–16-1-1, ARS 563–286–5-1-1, and ARS 563–14–10-1-1, showed an increase of more than 10% grain yield over the best check, Sahel 108, which is widely cultivated in the Senegal River valley. The 16 markers linked to the target yield component traits can be used to fast-track breeding programs targeting rice productivity.
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