Progresso genético com a seleção recorrente recíproca para híbridos interpopulacionais de milho

Reis, Matheus Costa dos; Souza, João Cândido de; Ramalho, Magno Antônio Patto; Guedes, Fernando Lisboa; Santos, Pedro Henrique Araújo Diniz

doi:10.1590/s0100-204x2009001200016

Cited by 8 publications

(8 citation statements)

References 10 publications

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“…The above results correspond to 4.19, 4.10, and 4.49% gain per selection cycle regarding the intercept (b0), calculated for the Piranão population, CIMMYT population, and interpopulation hybrids, respectively. The increases are significantly higher than the ones described by Reis et al (2009), who obtained 0.7%, and lower than the one recommended by Souza Júnior and Pinto 2000, which was an 11.8% increase per cycle.…”

Section: Genetic Progresscontrasting

confidence: 68%

Genetic Progress in 20 Years of Reciprocal Recurrent Selection in Maize

Júnior¹,

Gonçalves²,

Crevelari³

et al. 2020

FPBJ

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Section: Genetic Progresscontrasting

confidence: 68%

Genetic Progress in 20 Years of Reciprocal Recurrent Selection in Maize

Júnior¹,

Gonçalves²,

Crevelari³

et al. 2020

FPBJ

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“…Such intense selection has been used by different maize breeders to obtain genetic gain for traits associated with productivity (Bernardo, 1996;Rezende and Souza Jr., 2000;Santos et al, 2005;Reis et al, 2009). Therefore, if genetic gains are required in subsequent cycles, it will be necessary to increase the genetic variability of progenitor populations.…”

Section: Resultsmentioning

confidence: 99%

“…In each cycle of recurrent selection a higher concentration of favorable alleles occurs in the population, with a consequent increase in the average population. This method of selection is very important in maize breeding in order to obtain cultivars and to improve the Brazilian maize populations (Pinto et al, 2003;Santos et al, 2005;Santos et al, 2007;Carvalho and Souza, 2007;Reis et al, 2009;Kist et al, 2010;Souza Jr. et al, 2010;Rovaris et al, 2011).…”

mentioning

confidence: 99%

Genetic Parameters and Predictive Genetic Gain in Maize with Modified Recurrent Selection Method

Doná¹,

Miranda²,

DeLima³

et al. 2012

Chilean J. Agric. Res.

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The modified recurrent selection method suggests a less productive population to test the other population more productive and itself aiming to have more genetic gains than tradition recurrent selection method that uses one population to test the other one. The objectives of this work were to estimate the genetic components, to predict and to evaluate the genetic gains of the SynFlint and Syndent populations of maize (Zea mays L.), applying a modified recurrent selection method. Two recombination cycles were carried out, with 144 S1 progeny per cycle. These progenies were test crossed with SynFlint, generating a SynFlint × Syndent inter-population and a SynFlint × SynFlint intra-population. The progenies were evaluated in five environments in the first cycle of selection and in three in the second cycle of selection, in a 12 × 12 lattice. Genetic variability in plant height and ear height, ear weight and prolificacy was observed in the first cycle of selection and in plant height and ear height in the second cycle. The intensity of selection practiced in the first cycle exhausted the genetic variability in ear weight and prolificacy. It can conclude that the two maize populations evaluated do not show adequate levels of genetic variability and predicted genetics gains estimates to allow their use in breeding programs to obtain lines and superior hybrids; and the modified recurrent selection method is inefficient to increase in population performance per se for the two populations.

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“…The FSRRS was described by Hallauer and Eberhart (1970). This methodology promotes the accumulation of favorable alleles within the involved populations and increases the combining ability among them, preserving the genetic variability among and within them (Reis et al 2009).…”

Section: Pedigree and Breeding Methodsmentioning

confidence: 99%