Ontogenetic Model of Cotton Yield<sup>1</sup>

Worley, Smith; Ramey, H. H.; Harrell, D. C.; Culp, T. W.

doi:10.2135/cropsci1976.0011183x001600010008x

Cited by 53 publications

(44 citation statements)

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“…New spinning and weaving technologies in the textile industry mandate that plant breeders and geneticists develop cultivars of upland cotton with improved fiber quality, especially fiber strength, fiber length, and length uniformity without sacrificing yield potential. However, previous studies report that the negative association resulting from the linkage connections and pleiotropic effects between lint yield and fiber quality, and especially between yield and fiber strength, has hampered the simultaneous improvement of these two important characteristics in cotton (Scholl and Miller, 1976;Worley et al, 1976;Culp et al, 1979;Green and Culp, 1990;Basal and Smith, 1997;Smith and Coyle, 1997). In cotton, increasing one of the yield components often results in decreasing other fiber quality component(s) because of balanced compensation.…”

Section: Introductionmentioning

confidence: 99%

“…The estimation of the seed surface area was performed using Hodson's (1920) estimation table. Within-boll yield components were calculated by the ontogenetic yield model of Worley et al (1976), which is also reported in Basal and Smith (1997). These components were as follows: boll weight (BW), seed cotton weight per sample/number of bolls in the sample; lint percent (LP), 100 x sample lint weight/sample seed cotton weight; seed index, weight of 100 fuzzy seeds; seeds/boll (S/B), BW·(1-LP/100/seed index/100); converted micronaire (CM), HVI micronaire·39.36·10 -6 (converts HVI micronaire to g m 1 ); mean fiber length (ML), UI·UHM·10 -3 (converts units from mm to m); surface area per seed (SAS), estimated from Hodson's (1920) The GCA effects of the parents and the SCA effects of the hybrids were estimated using the line × tester analyses method described by Kempthorne (1957).…”

Section: Introductionmentioning

confidence: 99%

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Combining ability for fiber quality parameters and within-boll yield components in intraspecific and interspecific cotton populations

Başal

Ünay

Canavar

et al. 2009

Span. j. agric. res.

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The major problem with the simultaneous improvement of yield with higher fiber quality is the negative association due to the linkage and pleiotropic effects between lint yield components and fiber quality parameters. The objectives of this research were to estimate the general combining ability (GCA) of parents and specific combining abilities (SCA) of hybrids for fiber quality parameters and within-boll yield components, and to determine the association of fiber quality parameters with basic within-boll lint yield components. In this study, eight cotton cultivars and 15 F 1 hybrids obtained by crossing five lines and three testers in the line × tester mating system during 2006 were planted in a randomized block design with four replications in 2007. The predominance of non-additive gene action was estimated for all traits except for the upper half mean fiber length (UHM), fiber strength, and seeds per boll, which were controlled by an additive type gene action due to the high GCA variance. Among the parents, 'Askabat-100' and 'Carmen' were the best general combiners for fiber length, strength, and uniformity index (UI). Additionally, 'GW Teks' and 'Sahin-2000' were determined to be good combiners for lint weight per seed (L/S) and spinnable fibers per seed (F/S). The SCA effects showed that the best specific combination was 'Sealand-542' × 'Sahin-2000' and 'TAM 94L-25' × 'SG-125' for lint percentage, L/S, and lint weight unit per seed surface area. The most important fiber quality parameters, UHM, fiber strength, and UI, were negatively associated with the most basic within-boll lint yield components, L/S, and F/S.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Combining ability for fiber quality parameters and within-boll yield components in intraspecific and interspecific cotton populations

Başal

Ünay

Canavar

et al. 2009

Span. j. agric. res.

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“…Lint yield is determined by bolls per square meter, seeds per boll, and lint per seed (Worley et al, 1974;Worley et al, 1976). Although the yield component, bolls per square meter, is an inherited trait, it is highly depended on plant density, and environmental effects on this component are large (Meredith and Bridge, 1973).…”

Section: Gene Action and Combining Ability For Lint Yield And Fiber Qmentioning

confidence: 99%

“…Although the yield component, bolls per square meter, is an inherited trait, it is highly depended on plant density, and environmental effects on this component are large (Meredith and Bridge, 1973). Lint yield is determined by seed cotton yield and lint percentage, and a number of within boll yield components contributing to lint yield including seeds per boll, lint per seed, lint weight per unit seed surface area, fibers per seed, and fibers per unit seed surface area (Worley et al, 1976;Coyle and Smith, 1997). Fiber quality is a series of fiber properties which determine the spinnability of fibers and the efficiency of the high speed spinners in the modern textile industries.…”

Section: Gene Action and Combining Ability For Lint Yield And Fiber Qmentioning

confidence: 99%

Broadening the Genetic Base of Upland Cotton in U.S. Cultivars – Genetic Variation for Lint Yield and Fiber Quality in Germplasm Resources

Zeng¹

2014

World Cotton Germplasm Resources

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“…The seed index (the weight of 100 seeds) is related to seed cotton yield (Rahman et al, 1991), while the number of seeds per boll is recognised as the largest contributor to lint yield after the number of bolls per unit area (Worley et al, 1974(Worley et al, , 1976. The desirability of a larger number of seeds per boll has been emphasised as a requirement for greater seed surface areas, and hence lint production within the boll (Culp and Harrell, 1975;Harrell and Culp, 1976).…”

Section: Introductionmentioning

confidence: 99%

Inheritance of seed physical traits in upland cotton under different temperature regimes

Rahman

Malik

Saleem

2005

Span. j. agric. res.

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Physical seed traits such as seed weight, volume and density are determinants of seed vigour in cotton, while seed surface area is of prime importance in lint production. Two Pak-upland cotton crosses, plus their parental, F 2 and back cross generations were evaluated over two years to determine the inheritance pattern of their seed physical traits under heat stress and non-stress field regimes. The heat stress regime suppressed the average expression of seed traits in all generations. The results showed there to be low genetic variability with respect to physical seed traits, particularly seed volume, seed density and seed surface area, among several generations of the two cotton crosses. The inheritance of seed physical traits was complex in both crosses due to the presence of substantial non-allelic interactions (digenic epistatic effects) and the influence of generation × temperature regime interaction. The two crosses expressed different patterns of inheritance for seed physical traits. Those governing seed volume and seed surface area were highly sensitive to the temperature regime in both crosses and were controlled by additive genetic effects under heat stress conditions, and by dominant genetic effects under non-stress regime. The non-stress regime favoured the expression of dominant genetic effects. From a breeding point of view, the heat stress regime could be a more favourable environment for enhancing selection efficiency.Additional key words: genetic effects, Gossypium, heat stress, seed vigour. ResumenLa herencia de caracteres físicos de la semilla de algodón de tierras altas bajo diferentes regímenes de temperaturaCaracteres físicos tales como peso, volumen y densidad son determinantes en el vigor de la semilla y, en el caso del algodón, el área superficial de la misma es fundamental en la producción de las hilas. Con el fin de comprender el patrón de la herencia de los caracteres físicos de semillas de algodón sometidas a estrés por altas temperaturas y sin estrés, se evaluaron durante dos años dos cruces de algodón de tierras altas de Pakistán y sus parentales, así como generaciones F 2 y de retrocruzamiento de ambos parentales. El régimen de estrés por altas temperaturas suprimió la expresión media de los caracteres de las semillas en todas las generaciones. Los resultados revelaron una menor variabilidad genética en varias generaciones de los dos cruces para caracteres físicos de la semilla analizados, particularmente aquéllos asociados con el volumen, la densidad y el área superficial de la semilla. La herencia de los caracteres físicos de la semilla fue compleja en ambos cruces debido a la presencia de interacciones no alélicas (efectos epistáticos digénicos) y a la interacción generación × régimen de temperatura. Los dos cruces expresaron patrones diferentes de herencia para caracteres físicos de semilla. El patrón de herencia del volumen y área superficial de la semilla en ambos cruces mostró una alta sensibilidad a la temperatura, y estuvo controlado por componentes aditivos bajo...

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Ontogenetic Model of Cotton Yield¹

Cited by 53 publications

References 0 publications

Combining ability for fiber quality parameters and within-boll yield components in intraspecific and interspecific cotton populations

Combining ability for fiber quality parameters and within-boll yield components in intraspecific and interspecific cotton populations

Broadening the Genetic Base of Upland Cotton in U.S. Cultivars – Genetic Variation for Lint Yield and Fiber Quality in Germplasm Resources

Inheritance of seed physical traits in upland cotton under different temperature regimes

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Ontogenetic Model of Cotton Yield1

Cited by 53 publications

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Combining ability for fiber quality parameters and within-boll yield components in intraspecific and interspecific cotton populations

Combining ability for fiber quality parameters and within-boll yield components in intraspecific and interspecific cotton populations

Broadening the Genetic Base of Upland Cotton in U.S. Cultivars – Genetic Variation for Lint Yield and Fiber Quality in Germplasm Resources

Inheritance of seed physical traits in upland cotton under different temperature regimes

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Ontogenetic Model of Cotton Yield¹