Honey is a concentrated aqueous solution of sugar, especially glucose and fructose, and minor amounts of dextrin, enzymes, waxes, volatile oils, organic acids, ethers, albuminoidal gum substances and minerals. Commercially available honey samples vary in quality according to various factors such as climate diversity, type of lora of the surrounding region, geographical characteristics, processing, loral supply period, and packaging and storage conditions, which can compromise the standardization and quality of the inal product. The diferent techniques that will be presented in this chapter to assess the quality of honey are tests required by identiication standards and national and international quality control or are important quality tools that can be used in the evaluation of the conditions for obtaining and processing of the honey, fraud identiication and changes to and/or adulteration of the honey, ensuring the physical and chemical composition of the project and guaranteeing quality standards, directly impacting the shelf life and use and presentation of the product.
The aim of this research was to analyze and compare 17 honey samples, 11 organic and six non-organic Apis mellifera honey. The samples were analyzed concerning moisture, hydroxymethylfurfural, diastase index, water activity, color, total sugar, reducing sugar, sucrose, ash, viscosity, electrical conductivity, pH, acidity, and formol index. With the exception of acidity, reducing sugar and diastase index, the averages of other parameters were different between the two groups. All samples of organic honey presented moisture values between 23.50 and 24.40%. Among the nonorganic honey samples, two presented apparent sucrose amount upper the maximum limit established by the Brazilian Legislation. According to the quantitative analysis of pollen sediments in the honey samples and frequency of pollen types in 17 honey samples, 41.20% were classified as unifloral, and the remainder as polifloral.
The aim of this study was to carry out a survey of the flora with potential for beekeeping in the counties of Ubiratã and Nova Aurora-PR through the collection of plants and pollen analyses in honey samples collected monthly. 208 species of plants were recorded, distributed in 66 families. The families that showed the major richness of pollen types were: Asteraceae, Myrtaceae and Solanaceae. Approximately 80 pollen types were found in honey samples, most of them were characterized as heterofloral. Cultivated plants, such as Glycine max (soybean) and Eucalyptus spp., were representative in some months of the year. Exotic species, such as Ricinus communis and Melia azedarach, were also frequent. However, over than 50% of the pollen types belong to native species of the region, such as Schinus terebinthifolius, Baccharis spp. Alchornea triplinervia, Parapiptadenia rigida, Hexaclamys edulis, Zanthoxylum sp. and Serjania spp., indicating the importance of the native vegetation for the survival of the colonies.
This study was carried out to evaluate the effect of supplements with isolated soy protein, brewer's yeast, a mixture of isolated soy protein with brewer's yeast, linseed oil, palm oil and mixture of linseed oil with palm oil in the production of royal jelly by Africanized honeybee colonies. Total royal jelly production was higher (p < 0.05) in colonies fed with isolated soy protein and brewer's yeast (11.68 g colony-1), followed by linseed oil and palm oil (11.30 g colony-1) and palm oil (9.61 g colony-1), being higher than control I (6.35 g colony-1), and II (6.95 g colony-1). The results demonstrated that the supplementation with a mixture of linseed oil plus palm oil, and isolated soy protein plus brewer's yeast is recommended to increase the royal jelly production on a commercial scale. Besides becoming an important tool for beekeepers by increasing the production, it also contributes to improve the acceptance rate of grafted larvae.
-Genetic and phenotypic parameters considering the genetic effect on hygienic behavior of queen and workers from 40 Africanized honeybees colonies were estimated separately. Maternal origin of queens was controlled whereas the paternal was unknown, and different groups of workers were considered in three seasons,
RESUMO.O objetivo foi avaliar a concentração de açúcares no néctar de soja (Glycine max L. Merrill) em áreas com ou sem a presença de abelhas Apis mellifera L. Foi utilizada a variedade Codetec 207 em quatro tratamentos: área de 24 m 2 coberta com colônia de abelhas africanizadas em seu interior; área semicoberta com livre acesso para insetos visitantes; área livre e área coberta sem abelhas. As flores foram coletadas durante três dias, a cada 2h. e a concentração dos açúcares totais por flor foi determinada por espectrofotometria. A área coberta com abelha apresentou maior concentração de açúcares totais em relação à área coberta sem abelhas e livre, contudo, a concentração de açúcares totais na área livre não diferiu da concentração observada na área coberta sem abelhas. Houve redução na concentração média de sacarose na área livre, diferindo das concentrações nas demais áreas. A concentração média de glicose não diferiu entre os tratamentos, enquanto que a de frutose não apresentou diferença entre as áreas cobertas com abelhas, semicoberta e livre. A variedade Codetec 207 da soja apresentou maior concentração total de açúcares e de frutose nas áreas cobertas com abelhas. Contudo, a presença de Apis mellifera não interferiu nesta concentração de açúcares no néctar das flores de soja desta variedade.Palavras-chave: concentração de açúcares, néctar, polinização, soja.ABSTRACT. Influence of Africanized honeybees on sugar concentration in the nectar of soybean (Glycine max L. Merrill) var. Codetec 207. This research was carried out to evaluate the sugar concentration in soybean nectar in areas with Africanized honeybee colonies. The var. Codetec 207 was used in four treatments: 24 m 2 covered area with Africanized honeybee colony inside, semi-covered area for free insect visitation, uncovered area, and covered area without insect visitation. Flowers were harvested for three days at two-hour intervals, and the total sugar concentration per flower was determined by spectrophotometry. The covered area with Africanized honeybee colony presented higher sugar concentration than the covered area without insect visitation; however, the sugar concentration in the uncovered area did not differ from the concentration observed in the covered area without honeybees. There was a reduction in the average of sucrose concentration in the uncovered area, different from concentrations in other areas. The glucose concentration did not differ among treatments, whereas fructose did not differ between the areas covered with honeybees, semi-covered and uncovered area. The soybean var. Codetec 207 presented higher total sugar and fructose concentrations in the covered area with honeybee colonies. However, the presence of Apis mellifera did not influence this sugar concentration in the nectar of soybean flowers of this variety.
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