Genetic analysis of yield traits in Egyptian cotton crosses (Gossypium barbdense L.) under normal conditions

Abdel-Aty, M. S.; Youssef-Soad, A; Yehia, W. M. B.; EL-Nawsany, R. T. E.; Kotb, H. M. K .; Ahmed, G. A.; Hasan, Mohamed E.; Salama, Ehab A. A.; Lamlom, Sobhi F.; Saleh, Fouad H.; Shah, Adnan Noor; Abdelsalam, Nader R.

doi:10.1186/s12870-022-03839-8

Cited by 6 publications

(3 citation statements)

References 68 publications

(90 reference statements)

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“…According to fiber trait Table (3), all crosses showed derived positive or negative better parents heterosis effects except for Micronaire reading which was negatively significant better parents heterosis effects for most crosses except for the crosses Giza92 x PimaS4, Giza92 x PimaS6, Giza92 x Australy13 and Giza93 x TNB1 which recorded insignificant better parents heterosis effects. Similar results agreed with those reported by Arif et al , (2022) , Abdel-Aty et al, (2023), Hottigodar et al, (2023) and Parmar et al, (2023) . The GCA and SCA effects of parents and their crosses for different yield contributing traits are presented in Table 4 and Table 5, respectively.…”

Section: Heterosissupporting

confidence: 93%

Estimation of Genetic Parameters for Some Agronmic and Technological Quantitative Traits in Cotton Using Line X Tester Analysis

Elfeki,,

Hamed,

El-Twab

2024

Menoufia Journal of Plant Production

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during two growing seasons (2022 and 2023). Four Egyptian cotton varieties were used as lines with four genotypes as testers, using line x tester analysis. Results indicated that the genotypes, parents, crosses, parents vs. crosses, lines, testers and line x tester were significant for all studied traits except uniformity index for lines. Most crosses exhibited significantly mid-parent heterosis for most studied traits, while, the crosses Giza95 x Australy13, Giza92 x Australy13, Giza93 x PimaS 6 and Giza97 x Australy13 were significant useful heterosis (better-parent) for most yield traits and fiber properties. The line Giza95 was significant and positive desirable GCA effects for most yield traits except for boll weight, while the lines Giza92 and Giza93 were significant desirable GCA effects for most fiber properties studied. As well as, the tester Australy13 was significant and positive desirable GCA effects for most yield traits studied. The crosses Giza92 x Australy13 and Giza95x TNB1 were significant and positive desirable SCA effects for most yield studied traits. However proportion contribution of lines was higher than of lines x testers interaction and testers for most studied traits. The non-additive genetic variance was larger than additive genetic variance for most studied traits, except for seed cotton yield/plant and lint cotton yield/plant. Heritability narrow sense (h 2 b %) estimate was obtained for lint cotton yield/plant which recorded 61.67%, while for lint percentage was recorded moderate values 7.35%. Broad sense heritability estimates (h 2 n %) were ranged from 60.85% to 91.25% for uniformity index and micronaire reading, respectively. Generally, Giza95 and Australy13 could be used for improving high yielding cotton varieties in plant breeding programs, while Giza92 and Giza93 considered as beneficial parents for breeding programs to produce new varieties characterized with best the fiber quality.

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Section: Heterosissupporting

confidence: 93%

Estimation of Genetic Parameters for Some Agronmic and Technological Quantitative Traits in Cotton Using Line X Tester Analysis

Elfeki,,

Hamed,

El-Twab

2024

Menoufia Journal of Plant Production

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“…The cotton genotypes G.96, G.92, Karchenky, G.94, G.93, B.B.B, and G.70 had the greatest average values for fiber qualities when compared to the other cotton genotypes. Likewise, a multitude of previous studies have demonstrated comparable patterns in the assessed agro-morphological parameters [ 46 , 47 ].…”

Section: Discussionmentioning

confidence: 60%

Exploring agro-morphological and fiber traits diversity in cotton (G. barbadense L.)

Salama,

Farid,

El-Mahalawy

et al. 2024

BMC Plant Biol

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Cotton (Gossypium barbadense L.) is a leading fiber and oilseed crop globally, but genetic diversity among breeding materials is often limited. This study analyzed genetic variability in 14 cotton genotypes from Egypt and other countries, including both cultivated varieties and wild types, using agro-morphological traits and genomic SSR markers. Field experiments were conducted over two seasons to evaluate 12 key traits related to plant growth, yield components, and fiber quality. Molecular diversity analysis utilized 10 SSR primers to generate DNA profiles. The Molecular diversity analysis utilized 10 SSR primers to generate DNA profiles. Data showed wide variation for the morphological traits, with Egyptian genotypes generally exhibiting higher means for vegetative growth and yield parameters. The top-performing genotypes for yield were Giza 96, Giza 94, and Big Black Boll genotypes, while Giza 96, Giza 92, and Giza 70 ranked highest for fiber length, strength, and fineness. In contrast, molecular profiles were highly polymorphic across all genotypes, including 82.5% polymorphic bands out of 212. Polymorphism information content was high for the SSR markers, ranging from 0.76 to 0.86. Genetic similarity coefficients based on the SSR data varied extensively from 0.58 to 0.91, and cluster analysis separated genotypes into two major groups according to geographical origin. The cotton genotypes displayed high diversity in morphology and genetics, indicating sufficient variability in the germplasm. The combined use of physical traits and molecular markers gave a thorough understanding of the genetic diversity and relationships between Egyptian and global cotton varieties. The SSR markers effectively profiled the genotypes and can help select ideal parents for enhancing cotton through hybridization and marker-assisted breeding.

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“…Plant breeders have improved edible oil and seed yield in sunflower by the exploitation of heterosis (Mumtaz et al, 2014). Plant breeding program required information about combining ability, genetic variability and mode of inheritance of desired plant traits for the development of stable and high yielding hybrids through inter-specific hybridization for future cultivation (Abdel-Aty et al, 2023, Mumtaz et al, 2016.…”

Section: Introductionmentioning

confidence: 99%

Genetic Behavior of Sunflower for Achene Yield and Its Related Traits

2023

IJAB

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The sunflower is a remarkable oilseed crop due to better oil composition and short duration. In this experiment combining ability was computed for achene yield and its related trait. Fifteen genotypes of sunflower were crossed by using line × tester pattern. Out of 15 genotypes, A6, A7, A10, A11, A12, A17, A19, A20, A21 and A26 were taken as females (lines) and A8, A9, A16, A18 and A22 were taken as male (testers). The parental and 50 F1 crosses seed was sown in randomized complete block design in 3 replications in next growing season. The data was recorded for leaves/plant, leaf area, plant height, head angle, fresh head diameter, dry head diameter, number of achenes/head, average yield/plant, 100 achene weight and harvest index. The recorded data was used to estimate the genetic of descriptive traits among the genetic material. Heterosis study revealed that A19 × A22 was best hybrid for plant height. A21 × A8 performed well for number of achenes per head and directly involved in increasing yield. A7 × A8 hybrid combinations expressed positive and significant SCA values for average yield. The intermediate inheritance pattern was observed for all traits. It can be concluded that investigated material can be efficiently used for the development of high-yielding hybrids along with genetic improvement of sunflower accessions for different traits.

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Genetic analysis of yield traits in Egyptian cotton crosses (Gossypium barbdense L.) under normal conditions

Cited by 6 publications

References 68 publications

Estimation of Genetic Parameters for Some Agronmic and Technological Quantitative Traits in Cotton Using Line X Tester Analysis

Estimation of Genetic Parameters for Some Agronmic and Technological Quantitative Traits in Cotton Using Line X Tester Analysis

Exploring agro-morphological and fiber traits diversity in cotton (G. barbadense L.)

Genetic Behavior of Sunflower for Achene Yield and Its Related Traits

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