Research Article

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4/13/2017
Fruit; Genetic variation; Genotype; Plant breeding; Quantitative Trait, Heritable; Solanum lycopersicum

The tomato is the second most produced vegetable in the world, with significant participation in the human diet. In addition, the production of tomatoes generates jobs and family income. The availability of improved cultivars that provide greater profitability to the producer and satisfactorily meets the needs of the fresh fruit market and the processing industry becomes imperative due to its ... more

J.V.M. Peixoto; deM.S. Neto; L.F.C. Campos; deS. Dourado; A.P.O. Nogueira; D.R. Nascimento
05/25/2017
Genetic variation; Hybridization, Genetic; Plant breeding; Quantitative Trait, Heritable; Silage; Zea mays

We assessed the impact of genetic divergence and the ability to combine corn hybrids used for the production of silage on the agronomic and bromatological traits of silage quality. We evaluated 18 corn hybrids used as genitors in a circulant diallel scheme in which each genitor hybrid participated in 9 hybrid combinations, and evaluated 100 treatments [18 genitor hybrids, 81 diallelic hybrids ... more

E. Gralak; M.V. Faria; A.S.T. Figueiredo; D.A. Rizzardi; M. Neumann; M.C. Mendes; C.A. Scapim; S. Galbeiro
2017 May 31
Genetic variation; Genotype; Glycine max; Models, Genetic; Plant breeding; Quantitative Trait, Heritable

The genetic diversity study has paramount importance in breeding programs; hence, it allows selection and choice of the parental genetic divergence, which have the agronomic traits desired by the breeder. This study aimed to characterize the genetic divergence between 24 soybean genotypes through their agronomic traits, using multivariate clustering methods to select the potential genitors for ... more

M.M. Oliveira; L.B. Sousa; M.C. Reis; E.G.Silva Junior; D.B.O. Cardoso; O.T. Hamawaki; A.P.O. Nogueira
06/29/2017
Adaptation, Physiological; environment; Gene-Environment Interaction; Genetic variation; Genotype; Plant breeding; Quantitative Trait, Heritable; Saccharum; Selection, Genetic

The recommendation of sugarcane clones depends on several factors, as the response or performance of the clones over different cuts or harvests. The clone by harvest interaction might be difficult to identify superior clones in the final stages of the sugarcane breeding program. Thus, the objective of this study was to investigate and describe the implications of the genotype by harvest ... more

D.N.A. Cabral; J.A.R. Nunes; P.D.S. Cabral; J. Zuchi; A.J. Raizer; T.O.M. De Paula
09/21/2017
Flowers; Genes, Dominant; Genetic variation; Phaseolus; Plant breeding; Quantitative trait loci; Quantitative Trait, Heritable; seeds

This article aimed to study the genetic control of some flowers and pod set of common bean and to verify if its estimate varies with environmental conditions and gene pool. A complete diallel was used among six lines, but no reciprocal ones. The treatments were evaluated in three harvests/generations - F, F, and F - in 2015/2016, in a randomized complete block design with four replications. ... more

E.S. Martins; R.A.Pinto Júnior; A.F.B. Abreu; M.A.P. Ramalho
09/27/2017
Analysis of variance; Bertholletia; Dimensional Measurement Accuracy; Fruit; Genetic variation; Genotype; Phenotype; Plant breeding; Principal component analysis; Quantitative Trait, Heritable

Repeatability studies on fruit species are of great importance to identify the minimum number of measurements necessary to accurately select superior genotypes. This study aimed to identify the most efficient method to estimate the repeatability coefficient (r) and predict the minimum number of measurements needed for a more accurate evaluation of Brazil nut tree (Bertholletia excelsa) ... more

A.B. Baldoni; H. Tonini; F.D. Tardin; S.C.C. Botelho; P.E. Teodoro
3/30/2017
Alleles; Animals; Brazil; Breeding; Chromosome Mapping; DNA; Genetic Drift; Genetic variation; Genetics, Population; Genotype; Goats; Heterozygote; Microsatellite Repeats

The aim of this study was to access the genetic diversity and relatedness between Canindé and British Alpine goat breeds in the States of Piauí and Ceará using microsatellite markers. Genomic DNA was isolated from hair samples of 99 goats belonging to six different flocks. A panel of polymorphic heterologous microsatellite loci was used to genotype individuals. The microsatellite markers ... more

T.S. Câmara; J.F. Nunes; F.M. Diniz; G.R. Silva; A.M. Araújo
12/19/2016
China; Chromosomes, Plant; Cotton Fiber; Genotype; Gossypium; Plant breeding; Polymorphism, Genetic; Quantitative trait loci

Upland cotton (Gossypium hirsutum L.) is an important cash crop that provides renewable natural fiber worldwide. Currently limited genetic base leads to a decrease in upland cotton genetic diversity. Multi-parent advance generation inter-cross (MAGIC) populations can be used to evaluate complex agronomic traits in crops. In this study, we developed an upland cotton MAGIC population. A total of ... more

D.G. Li; Z.X. Li; J.S. Hu; Z.X. Lin; X.F. Li
2/08/2017
cluster analysis; Disease resistance; Genetic variation; Genotype; Gossypium; Phenotype; Plant Diseases; Quantitative Trait, Heritable

In Pakistan, cotton crop has been under enormous threat of cotton leaf curl disease (CLCuD) over the last four decades. In order to estimate genetic diversity in cotton germplasm CLCuD resistance, we assessed 100 cotton genotypes for their CLCuD resistance/tolerance and other related agronomical traits. Various statistical analytical tools, including correlation analysis, cluster analysis, and ... more

M. Javed; S.B. Hussain; M. Baber
2/08/2017
Breeding; Crosses, Genetic; Disease resistance; Genetic variation; Genotype; Gossypium; Phenotype; Quantitative Trait, Heritable

Studying genetic diversity among a group of genotypes is important in genetic breeding because identifying hybrid combinations of greater heterotic effect also increases the chance of obtaining plants with favorable allele combinations in an intra-population selection program. The objective of this study was to compare different types of long and extra-long staple cotton and their genetic ... more

L.P. de Carvalho; F.J.C. Farias; J.I.S. Rodrigues; N.D. Suassuna; P.E. Teodoro

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