The chemical analysis of market-available white oat cultivars allows for their optimized use for processing, consumption, and in blocks of crosses. The purpose of this study was to evaluate the performance of white oat cultivars with regard to grain chemical content, to estimate the correlation between these traits, and to select potential REMAP markers for marker-assisted selection. Fifteen cultivars, grown in three environments, were evaluated for the contents of proteins; lipids; total, insoluble, and soluble dietary fiber; β-glucan; and carbohydrates. Eight cultivars were analysed with REMAP markers. The cultivars Brisasul and UPFA Gaudéria presented higher contents of β-glucan, while cultivars URS 21 and URS 22 had higher protein contents. For animal feed, the cultivars Barbarasul and FAPA Louise stood out with high lipid contents. Positive correlations between the contents of lipid and total dietary fiber, protein and insoluble dietary fiber, and total dietary fiber and insoluble dietary fiber were constant in different environments. Also, carbohydrate content was negatively correlated with protein, total dietary fiber, insoluble dietary fiber, and lipid content. A total of thirteen REMAP combinations were selected for variability studies regarding lipid and β-glucan contents.
Wheat is the main source of carbohydrate for humanity, being the second most-produced cereal in the world. Brazil is not self-sufficient in this crop, and the Country needs to import wheat to supply the national demand. The objective of this study was to analyze the performance of agronomic traits in wheat segregating populations in the F2 generation, and to estimate the genetic distance between the parents and the segregating populations , number of grains per ear (NGE), grain mass per ear (GME), grain yield per plant (GYP) and ear harvest index (EHI) were measured. The population 5 showed the greatest stature and population 4 showed less variability for the trait. All populations showed averages of NFT and GYP higher than the parents, indicating the presence of transgressive segregants, or presence of dominance in these traits. The grain mass per ear is the trait that contributes most to the distance between the genotypes. There was the formation of four groups by Tocher's grouping method and the population 3 is the most different to the parents, when considering all traits. Highlighted ConclusionThere is genetic variability for traits within wheat segregating populations.
Assessing genetic variability is essential to crop breeding and represents the basis for a successful crop selection, including rice (Oryza sativa L.). Root system shows a large range of roles that could be improved genetically. However, it has been virtually neglected by most breeders. The objective was to characterize a selected sample of the Brazilian rice germplasm, regarding on root growth and development, and to combine this data to shoot traits, aiming to depict the genetic variability within this germplasm. Sixteen Brazilian accessions of rice were analyzed with basis on root and shoot traits in two distinct experiments, mainly cultivars launched in the past four decades and presenting unique characteristics. The first experiment was carried out at hydroponic conditions to evaluate the performance of rice accessions during the seedling stage. The second was carried out in long PVC tubes to assay the rice accessions at the reproductive period. Traits were treated individually as well as analyzed jointly by different multivariate methods of genetic variability assessment. Most of the rice accessions showed similar results for a part of the studied traits, however differences were observed for some traits. The clustering methods agreed to group a large number of rice accessions into a single group, distinguishing only the best performing genotypes. Highlighted Conclusions 1) The genetic variability within a group of Brazilian rice accessions is narrow when based on both root and shoot traits. 2) The accessions BRS Pampeira, at seedling period, and BRS Pampa, at reproductive stage, show prominent root performance, being promising parents for breeding programs focused on root system improvements.
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