Genetic divergence and hybrid potential for yield and fiber quality in cotton (Gossypium hirsutum. L)

Fiber trait is multigenic and each parent of the population carrying different genes aid in arriving at varied blend of association between yield and fiber quality traits. Eleven parental lines were crossed in half-diallel fashion to arrive at 55 hybrid combinations, which were evaluated under seven...

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Bibliographic Details
Published in:Journal of natural fibers 2024-12, Vol.21 (1)
Main Authors: Hugar, Anusha Ashok, Nidagundi, Jayaprakash Mohan, Fakrudin, Bashasab, Neelagiri, Yogesh Lingappa, Muniswamy, Sonnappa, Hosamani, Arunkumar C, Hallasahalli, Soumya Chikkasiddaiah, Rashwan, Mohamed A., Moussa, Ihab Mohamed, Mahmoud, Eman A., Elansary, Hosam O., B, Kariyanna
Format: Article
Language:English
Subjects:
CGE
Cotton
fibre quality
genetic distance
MAGE
SCA
棉花
纤维质量
遗传距离
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Summary:Fiber trait is multigenic and each parent of the population carrying different genes aid in arriving at varied blend of association between yield and fiber quality traits. Eleven parental lines were crossed in half-diallel fashion to arrive at 55 hybrid combinations, which were evaluated under seven environments. The results manifested highly significant differences among the traits studied, indicating wide range of genetic diversity in the parental genotypes. Combining ability studies revealed parental genotypes SCS-PL-01, SCS-PL-04 as best general combiners for seed cotton yield; SCS-PL-04, SCS-PL-12, SCS-PL-51, SCS-PL-59 for fiber length; SCS-PL-51 for fiber strength and SCS-PL-02 for micronaire value. Genetic diversity of parental genotypes estimated using microsatellites was compared with SCA effects to understand the role of genetic distance (GD) in realizing the heterosis. Comparative characterization of parental genotypes indicated efficiency of capillary gel electrophoresis over metaphor agarose gel electrophoresis and could identify 55 unique bands. The study indicated predicting heterosis using GD estimates is competent when markers linked to the QTLs are used. Also, marker-assisted parental selection in combining ability studies would be a better approach in realizing potential crosses with high yield and fiber quality traits.
ISSN:1544-0478
1544-046X
DOI:10.1080/15440478.2024.2427716