Heterosis and line-by-tester combining ability analysis for grain yield and provitamin A in maize

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cg.authorship.typesCGIAR single centre
cg.authorship.typesCGIAR and developing country institute
cg.contributor.affiliationUniversité de Lubumbashi
cg.contributor.affiliationInstitut National pour l’Etude et la Recherche Agronomiques
cg.contributor.affiliationUniversité Pédagogique Nationale
cg.contributor.affiliationInternational Center for Tropical Agriculture
cg.contributor.donorCGIAR Trust Fund
cg.howPublishedFormally Published
cg.identifier.doihttps://doi.org/10.54910/sabrao2023.55.3.8
cg.identifier.projectIFPRI - HarvestPlus
cg.identifier.publicationRankNot ranked
cg.isijournalISI Journal
cg.issn1029-7073
cg.issue3
cg.journalSABRAO Journal of Breeding and Genetics
cg.reviewStatusPeer Review
cg.volume55
dc.contributor.authorTabu, I.
dc.contributor.authorLubobo, K.
dc.contributor.authorMbuya, K.
dc.contributor.authorKimuni, N.
dc.date.accessioned2025-07-22T16:49:11Z
dc.date.available2025-07-22T16:49:11Z
dc.identifier.urihttps://hdl.handle.net/10568/175722
dc.titleHeterosis and line-by-tester combining ability analysis for grain yield and provitamin A in maizeen
dcterms.abstractDeveloping a high-yielding and provitamin A-rich maize variety is one of the best approaches to reduce malnutrition and increase production, especially in regions where maize is a staple food, such as, the former Katanga Province in the Democratic Republic of the Congo. However, it requires a good knowledge of combining ability and heterosis for grain yield and provitamin A. Thus, evaluating grain yield, provitamin A content and other agronomic traits of eight lines, four testers, and their 32 hybrids occurred during the 2015-2016 and 2016-2017 cropping seasons. The results showed that genetic parameters related to combining ability and heterosis among various F1 hybrids influenced all the studied traits except plant height. The parental genotypes P6 and P10 were suitable for improving 100-kernel weight, grain yield, stature at ear insertion, and provitamin A content. The parental genotypes P7, P4, and P2 were promising for provitamin A content, while the parental genotype P3 was leading for grain yield. Five hybrids (P10 × P5, P10 × P6, P10 × P7, P10 × P8, and P11 × P5) showed distinction as the best specific combinations for improving productivity and provitamin A content. The F1 hybrid P10 × P6 with desirable specific combining ability revealed that it is helpful as the best combination in producing double and triple hybrids with the highest yield and provitamin A potential. Crosses P10 × P5 and P11 × P5 can serve as the best cross combinations for grain yield, while hybrids P10 × P7 and P10 × P8 showed promising for provitamin A content. The presented results could benefit future breeding programs to develop maize genotypes with high yield and provitamin A elements, alleviating food insecurity and malnutrition.en
dcterms.accessRightsOpen Access
dcterms.audienceAcademics
dcterms.available2023-06-30
dcterms.bibliographicCitationTabu, I.; Lubobo, K.; Mbuya, K.; and Kimuni, N. 2023. Heterosis and line-by-tester combining ability analysis for grain yield and provitamin A in maize. SABRAO Journal of Breeding and Genetics 55(3): 695-707. http://doi.org/10.54910/sabrao2023.55.3.8
dcterms.extent695-707
dcterms.issued2023-06-30
dcterms.languageen
dcterms.licenseCopyrighted; all rights reserved
dcterms.publisherSociety for the Advancement of Breeding Research in Asia and Oceania
dcterms.subjectmaize
dcterms.subjectheterosis
dcterms.subjectgrain
dcterms.subjectyields
dcterms.subjectprovitamins
dcterms.subjectretinol
dcterms.subjecthybrids
dcterms.typeJournal Article

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