Combining ability and genetic components for pod and seed traits in cowpea lines

Ayo-Vaughan, M. A.; Ariyo, O. J.; Alake, C. O.

doi:10.4081/ija.2013.e10

Cited by 15 publications

(13 citation statements)

References 17 publications

(7 reference statements)

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“…Further results showed that none of the parents or specific cross was best for all the characters. Similar results were observed by others (Pandey andSingh, 2010 andAyo-Vaughan et al 2013).…”

Section: Combining Ability Analysissupporting

confidence: 92%

“…In contrast, the characters with low narrow sense heritability and lower estimates of the dominance components compared with those of the additive (D), selection may be considerably difficult or virtually impractical due to the masking effect of environments on genotypic effects. Similar result was reported by Ayo-Vaughan et al (2013) in cowpea.…”

Section: Genetic Analysissupporting

confidence: 91%

See 1 more Smart Citation

Genetic Analysis for Yield and Yield Attributing Traits in Cowpea (Vignaunguiculata L. Walp)

Das

Talukdar

et al. 2019

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The present investigation was conducted comprising of the parental lines and F1 progenies derived from a 6 x 6 diallel cross among cowpea varieties, excluding reciprocals. Analysis of variance revealed presence of sufficient variation among the genotypes for all the characters studied. For seed yield both GCA and SCA variances were significant, while GCA variance was significant for pods per cluster and SCA variance was significant for plant height, number of primary branches and pod length. Variety JCC-4 followed by UPC-622 were good general combiner for yield and yield attributing characters. Maximum SCA effect for seed yield per plant was observed with cross JCC-1 x JCC-4 followed by JCC-3 x JCC-4. Genetic analysis revealed that both additive (D) and dominance (H1 and H2) components were involved in controlling most of the characters. The predominant role of non-additive gene action was evident from relatively higher magnitude of dominance components, including H1, H2 and h2.

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Section: Combining Ability Analysissupporting

confidence: 92%

Section: Genetic Analysissupporting

confidence: 91%

Genetic Analysis for Yield and Yield Attributing Traits in Cowpea (Vignaunguiculata L. Walp)

Das

Talukdar

et al. 2019

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“…The estimated variances due to specific combining ability were higher than general combining ability indicating the predominance of the nonadditive gene action in these traits in either or both environments. This report is also in agreement with Bhavesh Patel et al [23] and Selvarkumar et al [24], but in contrast to Ayo-Vaughan et al [25]. The estimates of predictability 8 Advances in Agriculture ratio less than unity in these traits suggest that performance of hybrids for these traits could be difficult to predict on the basis of general combining ability of parents due to the importance of dominance.…”

Section: Discussionsupporting

confidence: 73%

Effects of Drought on Morphological Traits in Some Cowpea Genotypes by Evaluating Their Combining Abilities

Olajide

Ilori

2017

Advances in Agriculture

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An evaluation was conducted to understand the genetic effects of combining ability for four different morphological traits, on 42 hybrids in randomized complete block design with three replications in water-stressed and well-watered environments. The significance of the additive variance (D) and dominance variance (H 1 ) indicated the presence of both additive and nonadditive gene actions in both environments. Among the parents, there was asymmetrical distribution of positive and negative dominant genes and the preponderance of overdominance gene action for all the traits in both environments. This study also indicated a minimum of ten genes for plant height in water-stressed environment and minimum of three and eight genes for terminal leaflet area and number of leaves per plant in both environments, respectively. Estimates of narrow-sense heritability ranged from 13.0% for number of branches per plant in water-stressed to 95.0% in well-watered environment for terminal leaflet area. The study revealed that Danilla, IT93K-432-1, and IT97K-499-35 were the best general combiners for all traits, Danilla × IT97K-499-35, and Danilla × IT93K-432-1 were found to be the best specific combiners for all traits in water-stressed environment. Genetic interactions, additive × additive and additive × dominance, were more pronounced in the inheritance of the traits. This indicated that the selection for these traits should be delayed till advanced generations.

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“…Significant GCA effect is a manifestation of additive and additive × additive gene interactions, which represents a heritable portion of genetic variation which is transmittable from the parent to its progeny [ 15 ]. This therefore could imply that early generation selection would be effective due to small environmental effects [ 16 , 30 ]. The significant negative GCA observed for IT86D-610 and Sanzi-Nya for days to 50% flowering and days to 90% pod maturity also suggests that these parents could contribute favorable alleles for breeding early maturity in cowpea.…”

Section: Discussionmentioning

confidence: 99%

“…Whereas several studies have been conducted on combining ability for grain yield and yield components in cowpea and other crops [ 16 – 19 ], few studies have been reported on combining ability and heritability of maturity traits and their relationship with grain yield in cowpea [ 16 ]. Early maturity relative to other crops is the unique attribute that makes cowpea one of the most important climate smart crops particularly in areas of short cropping seasons.…”

Section: Introductionmentioning

confidence: 99%

Diallel Analysis and Heritability of Grain Yield, Yield Components, and Maturity Traits in Cowpea (Vigna unguiculata(L.) Walp.)

Owusu

Haruna

Amadu

et al. 2020

The Scientific World Journal

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Information on combining ability and reciprocal effects (REC) facilitates efficient utilization of genetic materials in a breeding program. This study was conducted (at the CSIR-Savanna Agricultural Research Institute, Ghana) to determine general combining ability (GCA) and specific combining ability (SCA), heritability, genetic advance, GCA, and SCA effects as well as the relationship between parents per se performance and progenies for yield components and maturity traits in cowpea. The test populations were derived using a 5 × 5 complete diallel cross of parents with different yield attributes and maturity durations. The results indicated that GCA was predominant for number of days to 90% pod maturity, plant height at maturity, and hundred-seed weight. This showed that genes with additive effects conditioned these traits. Padi-Tuya, Songotra, and IT86D-610 were identified as good general combiners for grain yield, while Sanzi-Nya was identified as a general combiner for developing extra-early duration cowpea varieties. Crosses Songotra × Sanzi-Nya, SARC-1-57-2 × IT86D-610, Songotra × SARC-1-57-2, and Padi-Tuya × Songotra were identified as good specific combiners for days to 50% flowering, pod length, pods per plant, pod yield, grain yield, and seeds per pod. The findings from this study provide useful information on the inheritance of early maturity and yield traits in cowpea. This can be exploited to develop high yielding and early maturing cowpea varieties as climate smart strategy to mitigate climate change via breeding methods such as pedigree selection and marker assisted backcrossing (MABC). Pedigree selection method is being used to develop varieties from the hybrid with high and significant SCA for grain yield, whereas the development of extra-early duration varieties via MABC with Sanzi-Nya (general combiner for earliness traits) as a donor parent is ongoing.

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Combining ability and genetic components for pod and seed traits in cowpea lines

Cited by 15 publications

References 17 publications

Genetic Analysis for Yield and Yield Attributing Traits in Cowpea (Vignaunguiculata L. Walp)

Genetic Analysis for Yield and Yield Attributing Traits in Cowpea (Vignaunguiculata L. Walp)

Effects of Drought on Morphological Traits in Some Cowpea Genotypes by Evaluating Their Combining Abilities

Diallel Analysis and Heritability of Grain Yield, Yield Components, and Maturity Traits in Cowpea (Vigna unguiculata(L.) Walp.)

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