COMBINING ABILITY AND HYBRID POWER IN INTERSPECIFIC (Gossypium hirsutum L. x Gossypium barbadense L.) LINE x TESTER HYBRIDS OF COTTON

Borzan, Güven; Güvercin, Ramazan Şadet

doi:10.17557/tjfc.871366

Cited by 4 publications

(2 citation statements)

References 11 publications

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“…For FFN, PH, No.FB/P, No.S/B, FS, and FF, however, GCA variances were greater than SCA variances which emphasize the role of additive genes in comparison to the non-additive genes regulating these traits. These results were consistent with those previously[ 11 , 12 , 32 , 60 , 77 ].…”

Section: Discussionsupporting

confidence: 94%

“…Given that these genotypes have good general combining ability, female parental genotypes with a great potential to transmit on desirable traits to their cross progeny could be used as a substantial material to improve the qualities of interest [ 11 , 42 ]. The significant GCA effects reported in the current investigation were consistent with those found in prior studies [ 31 , 60 – 62 ]. Positive and significant GCA effects observed in the current study for female parental genotypes and testers are significantly vital.…”

Section: Discussionsupporting

confidence: 92%

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Estimating the combining ability and genetic parameters for growth habit, yield, and fiber quality traits in some Egyptian cotton crosses

et al. 2023

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It is crucial to understand how targeted traits in a hybrid breeding program are influenced by gene activity and combining ability. During the three growing seasons of 2015, 2016, and 2017, a field study was conducted with twelve cotton genotypes, comprised of four testers and eight lines. Thirty-two F1 crosses were produced in the 2015 breeding season using the line x tester mating design. The twelve genotypes and their thirty-two F1 crosses were then evaluated in 2016 and 2017. The results demonstrated highly significant differences among cotton genotypes for all the studied traits, showing a wide range of genetic diversity in the parent genotypes. Additionally, the line-x-tester interaction was highly significant for all traits, suggesting the impact of both additive and non-additive variations in gene expression. Furthermore, the thirty-two cotton crosses showed high seed cotton output, lint cotton yield, and fiber quality, such as fiber length values exceeding 31 mm and a fiber strength above 10 g/tex. Accordingly, selecting lines and testers with high GCA effects and crosses with high SCA effects would be an effective approach to improve the desired traits in cotton and develop new varieties with excellent yield and fiber quality.

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Section: Discussionsupporting

confidence: 94%

Section: Discussionsupporting

confidence: 92%

Estimating the combining ability and genetic parameters for growth habit, yield, and fiber quality traits in some Egyptian cotton crosses

et al. 2023

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Integrated effects of plastic film residues on cotton growth and field carbon sequestration under drip irrigation in arid oasis regions

Wen

Liu

Dhital

et al. 2022

Agriculture, Ecosystems & Environment

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Combining ability of Egyptian cotton (Gossypium barbadense L.) reveals genetic potential for improved yield and fiber quality

Abdelghany,

El-Banna,

Lamlom

et al. 2024

J Cotton Res

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Background As the most widely cultivated fiber crop, cotton production depends on hybridization to unlock the yield potential of current varieties. A deep understanding of genetic dissection is crucial for the cultivation of enhanced hybrid plants with desired traits, such as high yield and fine fiber quality. In this study, the general combining ability (GCA) and specific combining ability (SCA) of yield and fiber quality of nine cotton parents (six lines and three testers) and eighteen F1 crosses produced using a line × tester mating design were analyzed. Results The results revealed significant effects of genotypes, parents, crosses, and interactions between parents and crosses for most of the studied traits. Moreover, the effects of both additive and non-additive gene actions played a notably significant role in the inheritance of most of the yield and fiber quality attributes. The F1 hybrids of (Giza 90 × Aust) × Giza 86, Uzbekistan 1 × Giza 97, and Giza 96 × Giza 97 demonstrated superior performance due to their favorable integration of high yield attributes and premium fiber quality characteristics. Path analysis revealed that lint yield has the highest positive direct effect on seed cotton yield, while lint percentage showed the highest negative direct effect on seed cotton yield. Principal component analysis identified specific parents and hybrids associated with higher cotton yield, fiber quality, and other agronomic traits. Conclusion This study provides insights into identifying potential single- and three-way cross hybrids with superior cotton yield and fiber quality characteristics, laying a foundation for future research on improving fiber quality in cotton.

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COMBINING ABILITY AND HYBRID POWER IN INTERSPECIFIC (Gossypium hirsutum L. x Gossypium barbadense L.) LINE x TESTER HYBRIDS OF COTTON

Cited by 4 publications

References 11 publications

Estimating the combining ability and genetic parameters for growth habit, yield, and fiber quality traits in some Egyptian cotton crosses

Estimating the combining ability and genetic parameters for growth habit, yield, and fiber quality traits in some Egyptian cotton crosses

Integrated effects of plastic film residues on cotton growth and field carbon sequestration under drip irrigation in arid oasis regions

Combining ability of Egyptian cotton (Gossypium barbadense L.) reveals genetic potential for improved yield and fiber quality

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