Academic literature on the topic 'Honey - Physico-chemical analysis'

Geographical and botanical origin of honeys can be characterized on the basis of physico-chemical composition, sensory properties and on the basis of melissopalynological analysis. No comprehensive description of the characteristics of Czech honey has been published so far. This study provides insights that are important for correct classification. The study analysed 317 samples of authentic honey from randomly selected localities. Due to the diversity of the landscape, the typical honey of the region is blend honey with a predominance of blossom honey. According to the pollen profile and electric conductivity, the honeys were sorted into the following: Brassica honey (BH), Floral honey (FH), Fruit tree honey (PH), Honeydew (HD), Lime tree honey (LH), Robinia pseudoacacia honey (RH), and Trifolium honey (TH). Physico-chemical properties, including higher carbohydrates, were determined for the honeys and their pollen profiles were examined. The physico-chemical properties and pollen profile are partially in compliance with the description of European monofloral honeys, except for RH and TH. Although they had the highest proportion of acacia pollen, amounting to >10% of all the Czech honeys, these RH honeys differ from the European standard, so they cannot be considered acacia honey. Further, PH honeys and FH polyfloral honeys were described. Most honeys contained a significant proportion of rapeseed pollen, which is one of the common agricultural crops grown in the Czech Republic. All the analysed honeys met the parameters defined by the legislation. Due to direct on-site sampling, honeys were characterized by a low 5-(hydroxymethyl)furfural (HMF) content (3.0 mg/kg) and high diastase activity (24.4 DN). Honeydew honeys had the highest proportion of higher carbohydrates, primarily of Melezitose (4.8 g/100 g) and Trehalose (1.3 g/100 g). The presence of higher carbohydrates was also confirmed in LH for Maltose (4.6 g/100 g) and Turanose (2.4 g/100 g).

The aim of study was to characterize 52 samples of Slovak honeys of six types (multifloral, acacia, rape, honeydew, forest and mixed). Physico-chemical analysis of honey included the water content, free acidity, pH, water activity, electrical conductivity, and hydroxymethylfurfural (HMF) content. In addition, the colour of honeys was measured using spectrophotometer and Commission Internationale de I`Eclairage method (CIE L*a*b*); four types of honey were used for identification: multifloral, acacia, rape, and honeydew. Mean values of physico-chemical indicators were as follows: water content 16–21%, acidity 6–42 mekv·kg-1, pH 3.68–5.15, water activity 0.505–0.667, electrical conductivity 0.155–1.585 mS·cm-1 and HMF content 0.17–78.5 mg·kg-1. The highest HMF content was found in forest honey with one sample above the limit established by Council Directive 2001/110/EC. The colour of Slovak honeys analysed in this study was very variable and ranged from pale yellow to dark brown. Differences of physico-chemical indicators and colour of honey samples were found to be significant (P < 0.05). The CIE L*a*b* methods can be used for identification of selected honey samples. This is the first similar study on Slovak honey.

This study aimed to characterize the honeys of Babors Kabylia through sensory, melissopalynological and physico-chemical parameters. Thirty samples of honey produced in this region were collected over a period of two years and analyzed. All the samples presented physico-chemical parameters in conformity with legislation on honey quality, with few exceptions, linked mainly to beekeeping management. The pollen spectrum revealed a great diversity with 96 pollen types. The main pollen types were spontaneous species as Fabaceae (Hedysarum, Trifolium, Genisteae plants), Asteraceae plants, Ericaceae (Erica arborea L.) or Myrtus and Pistacia. The sensory properties of samples showed a high tendency to crystallization, the colors were from white to brown, but most of them had gold color. Smell and odor corresponded mainly to vegetal and fruity families and in taste perceptions besides sweetness highlighted sourness and saltiness notes. Seventeen samples were polyfloral, one was from honeydew and twelve were monofloral from heather, genista plants, sulla, blackberry or Asteraceae. Heather and the honeydew samples showed the darkest color, the highest electrical conductivity and phenol and flavonoid content. A statistical analysis based on the most representative pollen types, sensory properties and some physico-chemical components allowed the differentiation of honey samples in terms of botanical origin.

AbstractThe first aim of the study was to compare the antibacterial activity of several types of honey of different origins, against some bacterial resistant strains. The strains had been isolated from patients. The second aim was to discover the correlations between the antibacterial character of honey and the physico-chemical properties of the honey. Ten honey samples (polyfloral, linden, acacia, manna, and sunflower) from the centre of Romania were tested to determine their antibacterial properties against the following bacterial species: Pseudomonas aeruginosa, Escherichia coli, Staphylococcus aureus, Staphylococcus epidermidis, Salmonella enterica serovar Typhimurium, Bacillus cereus, Bacillus subtilis, and Listeria monocytogenes. Bacterial cultures in nutrient broth and the culture medium Mueller-Hinton agar were used. The susceptibility to antibiotics was performed using the disk diffusion method. All honey samples showed antibacterial activity on the isolated bacterial strains, in particular polyfloral (inhibition zone 13-21 mm in diameter) - because it is the source of several plants, and manna (inhibition zone 13-19.5 mm in diameter), and sunflower (inhibition zone 14-18.5 mm in diameter). Pure honey has a significant antibacterial activity against some bacteria which are resistant to antibiotics. Bacterial strains differed in their sensitivity to honeys. Pseudomonas aeruginosa and Staphylococcus aureus were the most sensitive. The present study revealed that honey antibacterial activity depends on the origin of the honey. We also found that there was a significant correlation between antibacterial activity of honeys and the colour of the honey but not between acidity and pH. The statistical analysis showed that the honey type influences the antibacterial activity (diameter of the bacterial strains inhibition zones).

Crystallization of honey is a natural process and guarantee of authenticity. The aim of the study is to evaluate the influence of physico-chemical parameters on the process of crystallization and on crystal size. The interest in studying the factors influencing the crystallization process is due to the fact that most consumers, especially children, are reserved for the purchase and consumption of a crystallized honey, the commercial aspect being very important to them. Three samples of honey of different floral origins were used for the physico-chemical and microscopic analysis. The analyzes were carried out throughout 30 days every sample in triplicate. In terms of physicochemical following parameters were analyzed: acidity, diastase index, hydroximethylfurfural, humidity, invert sugar, glucose, fructose, fructose / glucose ratio and the microscopic analyze of crystals size. The parameter values resulting from the research study are in accordance with the legislation in force. Statistical analysis of experimental data highlights the influence of ratio fructose / glucose and humidity on the honey crystallization.

Honey composition and color depend greatly on the botanical and geographical origin. Water content, water activity and color of 50 declared acacia samples, collected from three different geographical zones of Romania, together with chromatographic determination of sugar spectrum were analyzed. A number of 79 volatile compounds from the classes of: Alcohols, aldehydes, esters, ketones, sulphur compounds, aliphatic hydrocarbons, nitrogen compounds, carboxylic acids, aromatic acids and ethers were identified by solid-phase micro-extraction and gas-chromatography mass spectrometry. The overall volatile profile and sugar spectrum of the investigated honey samples allow the differentiation of geographical origin for the acacia honey samples subjected to analysis. The statistical models of the chromatic determination, physicochemical parameters and volatile profile was optimal to characterize the honey samples and group them into three geographical origins, even they belong to the same botanical origin.

This study aimed to characterize raw honeys from different geographical origins in Romania, in respect of chemical composition, microbiological examination and evaluate their probiotic potential. The physico-chemical determinations were performed in APHIS-DIA Laboratory, Cluj-Napoca, Romania, using standard validated methods. Bacterial identification was performed for each sample and each colony type using Vitek® 2 Compact 15 system and PCR amplification using 16S rDNA bacterial universal primers (27F, 1492R), species being confirm by sequences analysis. In five raw honey samples, we have identified probiotic bacteria, such as: Bacillus mycoides, Bacillus thuringiensis, Bacillus amyloliquefaciens, Bacillus subtilis, and Bacillus velezensis. Generally, all honey samples meet the standard values for chemical composition. However, one sample having 7.44% sucrose was found to have also probiotics bacteria from the genus Bacillus because sucrose is a substrate for probiotics development. In conclusion, the Romanian raw honey can be a potential reservoir of probiotics, which confer a health benefit for consumers.

In the dense tropical forests of Kalimantan, Apis dorsata produces forest honey with pollen diversity that has the potential to have unique antibacterial and antioxidant properties. This study is aimed to report the physicochemical characteristics, antioxidant activity and antibacterial analysis of forest honey from East Kalimantan. A total of nine samples of forest honey were purchased from local buyers of several regions. The power of hydrogen (pH), water content, diastase enzymes, fructose levels, and glucose levels were measured. Antioxidant activity was measured with ABTS assay. Antibacterial activity was conducted against Staphylococcus aureus, Bacillus cereus, Escherichia coli, and S. enterica serovar Typhi. Fourier Transform Infra-Red (FTIR) identified antibacterial functional groups. Honey samples from tropical forests in East Kalimantan had pH between 2.93±0.06 and 3.83±0.06, a moisture content between 18.44±0.64 and 25.67±0.29%, fructose levels between 7.85±0.05 and 17.73±0.13%, and glucose levels between 1.24±0.16 and 17.34±0.14%. Goa Tembenus honey showed the highest IC50 antioxidant activity and the highest Diastase Enzyme activity. Goa Tembenus and Bongan honey showed good antibacterial activity against Gram-positive and Gram-negative. Minimum inhibitory levels of honey were found at concentrations of 25% and 30%. Honey from tropical forests in East Kalimantan has H2O2 as an antibacterial component.

Honey is at high risk for the adulteration in global trade. Studies on the authenticity of stingless bee honey from Trigona spp. is necessary since the market demand for this product is increasing, particularly in Malaysia, due to its high nutritional value. FTIR spectroscopy has recently been used approach for a rapid and non-destructive measurement of honey quality and discriminate adulterated honey. The purpose of this study is to determine the FTIR and elementary content of Trigona spp. and Apis spp. honey, and further investigate the influence of the additional adulterants to the measured spectra absorbance. Both Trigona spp. and Apis spp. honey exhibit almost identical IR spectra curves, but there are notable different of their absorbance peak at the identified functional group regions. There is a correlation of the measured absorbance to the actual composition of Trigona spp. honey, which emphasized the low carbohydrate but high water content of the honey. Water or vinegar diluted honey has segregated absorbance peak from the pure honey. Our finding indicated that the FTIR is applicable in discriminate of pure and adulterated Trigona honey, but a further investigation on physico-chemical properties such as elementary content is needed for a comprehensive analysis.

O presente estudo teve, como objetivo principal, a determinação da composição físico-química e nutricional de onze amostras de méis com própolis comercializados no Estado de São Paulo, de acordo com as metodologias analíticas da legislação brasileira vigente (Instrução Normativa nº11 de 20 de outubro de 2000), que segue os métodos preconizados pelos Codex Alimentarius Commission (CAC), 1990 e Association of Official Analytical Chemists (AOAC), 1990). Amostras de mel puro e de própolis foram usadas como referência. Os resultados mostraram que os mesmos métodos usados para o controle de qualidade do mel puro (umidade, HMF, açúcares redutores, sacarose aparente, cinzas, acidez livre, sólidos insolúveis em água) foram adequados para o controle de qualidade do mel com própolis, exceto pela analise de atividade diastásica, que precisou de uma adaptação metodológica. A análise de minerais demonstrou que essas amostras não são fontes de ferro, magnésio, zinco e cálcio. A própolis adicionada ao mel aumentou o seu valor energético comparado com o mel puro. Cinco das onze amostras analisadas não apresentaram, na sua rotulagem, os valores nutricionais como recomenda a legislação. É indicada a necessidade de uma fiscalização mais rigorosa, assim como uma legislação específica para o controle de qualidade destes produtos.
The present work has, as its main objective, to determine the physico-chemical and nutritional composition of commercial samples of propolis added to honey from São Paulo State. Eleven honey-propolis samples were analyzed, according to the methods established by the Brazilian Law (Instrução Normativa n.11 de 20 de outubro de 2000) which recommends the same methods established by Codex Alimentarius Commission (CAC) and the Association of Official Analytical Chemists (AOAC, 1990). The results showed that the same methods used for pure honey quality control (moisture, HMF, reducing sugars, apparent sucrose, ash, free acidity, insoluble solids in water) except for the diastase activity which had to be adapted, can also be used for the honey-propolis quality control. The mineral analyses results showed that the samples were not a good source for iron, magnesium, zinc and calcium. Honey has its energy value enhanced by the addition of propolis if compared with pure honey. As five of the eleven samples analyzed did not have the nutritional values information on the labels as it is mandatory by the Brazilian Legislation, a more rigorous inspection and even a specific law should be established for the quality control of those products.

O mel de abelhas é um produto biológico muito complexo, cuja composição varia notavelmente em função da flora visitada pelas abelhas e das condições climáticas e edáficas da região onde foi produzido. Este trabalho teve como objetivos confrontar os resultados das análises físico-químicas entre as amostras de méis produzidos em diferentes localidades do Brasil por Apis mellifera e por Meliponíneos e investigar se o mel produzido por essas abelhas nas suas diferentes regiões de origem apresenta níveis toleráveis de contaminantes inorgânicos. Para tanto, foram avaliadas 56 amostras de méis de A. mellifera e 56 amostras de méis de Meliponíneos dos Estados da Bahia, Minas Gerais, Mato Grosso do Sul, Paraíba, Piauí, Paraná, Santa Catarina e São Paulo, em relação aos seguintes parâmetros: umidade, atividade de água, viscosidade, pH, acidez livre, índice de formol, açúcares redutores, sacarose aparente, teor de cinzas, cor, condutividade elétrica, hidroximetilfurfural, atividade diastásica e metais (Hg+2, Zn+2, Cd+2, Pb+2 e Cu+2). Foi utilizada a técnica de Voltametria de Redissolução Anódica de Pulso Diferencial (DPASV) para quantificar os metais, e métodos convencionais e próprios para mel nas demais análises. Os resultados mostraram que a legislação atual, referente ao mel de A. mellifera, não é adequada para os parâmetros açúcares redutores, umidade e atividade diastásica de algumas espécies de Meliponíneos. Pôdese concluir que as espécies A. mellifera, Tetragonisca angustula, Melipona quadrifasciata, M. scutellaris, M. mandacaia, M. fasciculata, M. subnitida produzem méis com características físico-químicas diferentes e próprias de cada uma delas. Para todas as espécies avaliadas, os níveis de contaminantes inorgânicos encontrados nos méis foram toleráveis à saúde humana. Os méis produzidos por A. mellifera apresentaram variações nas características físico-químicas: atividade de água, viscosidade, acidez livre, índice de formol, açúcares redutores, condutividade elétrica, hidroximetilfurfural, atividade diastásica e o mineral zinco, em função dos diferentes locais onde foram produzidos.
The honeybee is a very complex biological product, whose composition varies markedly depending on the plant visited by the bees and the weather and soil conditions in the region where it was produced. This study aimed to compare the results of physicochemical analysis between the samples of honey produced in different locations in Brazil by Apis mellifera and Meliponid and to investigate whether honey produced by these bees, in different regions of origin, has tolerable levels of inorganic contaminants. To this end, we evaluated 56 samples of honey from A. mellifera and 56 samples of honey from Meliponid from the states of Bahia, Minas Gerais, Mato Grosso do Sul, Paraíba, Piauí, Paraná, Santa Catarina and São Paulo, for the following parameters: moisture content, water activity, viscosity, pH, free acidity, formol index, reducing sugars, apparent sucrose, ash content, color, electrical conductivity, hydroxymethylfurfural, diastase activity and metals (Hg+2, Zn+2, Cd+2, Pb+2 and Cu+2). Differential Pulse Anodic Stripping Voltammetry (DPASV) technique was used to quantify the metals, and, to the other analysis, conventional and suitable methods for honey were used. The results showed that the current legislation, referring to the honey of A. mellifera, is not appropriate for the parameters reducing sugars, moisture content and diastase activity of some species of Meliponid. It was concluded that the species A. mellifera, Tetragonisca angustula, Melipona quadrifasciata, M. scutellaris, M. mandacaia, M. fasciculata, M. subnitida produce honeys with different and specific physico-chemical characteristics. For all species studied, levels of inorganic contaminants found in honey were tolerable to human health. The honey produced by A. mellifera showed variations in physicochemical water activity, viscosity, free acidity, formol index, reducing sugars, electrical conductivity, hydroxymethylfurfural, diastase activity and the mineral zinc, depending on the different locations where they were produced.

O mel é um alimento de uso milenar, açucarado de fácil digestão, que constitui uma importante fonte de energia, contribuindo para o equilíbrio do processo biológico do corpo humano, sendo elaborado a partir da desidratação e transformação do néctar das flores nativas pelas abelhas produtoras. Para que o mel seja comercializado para o consumo humano, ele precisa atender aos requisitos mínimos de identidade e qualidade exigidos pela Legislação Brasileira. No Brasil a criação de abelhas é dividida em duas práticas distintas, a Apicultura tradicional, que utiliza as abelhas Apis mellifera e a Meliponicultura que utiliza as abelhas sem ferrão como a Jataí (Tetragonisca angustula). Os méis de abelhas sem ferrão tem maior valor comercial comparado ao mel tradicional, entretanto são comercializados sem uma legislação própria. Na literatura existem poucos trabalhos que tratam da composição destes tipos de méis que são popularmente conhecidos por suas propriedades benéficas à saúde. Em vista do exposto acima, o objetivo deste presente trabalho foi o de comparar a composição e a qualidade de méis de Apis mellifera com os de abelhas sem ferrão da espécie Tetragonisca angustula, popularmente conhecida como Jataí. Para tanto as amostras de méis foram obtidas de colméias de Apis mellifera e de Tetragonisca angustula de uma mesma região botânica, o que foi possível constatar que os méis de abelha Jataí apresentaram maior diversidade botânica em relação aos méis de Apis. Neste trabalho foram utilizados os métodos de avaliação estabelecidos pela Legislação Brasileira para qualidade de mel de Apis mellifera e os valores sugeridos para méis de mellponíneos do Brasil pe10s pesquisadores VILLAS - BOAS e MALASPINA (2005). A maioria das amostras de Apis apresentaram-se dentro da legislação vigente, enquanto méis Jataí apresentaram os parâmetros: umidade (23,40 -25,60%), acidez (21,65 - 63,85 mE/Kg) e açúcares redutores (44,78 - 67,54%) e sacarose aparente (0,43 - 1,60%) fora dos padrões estabelecido pela legislação vigente para os méis de Apis mellifera. No entanto, encontram-se dentro dos valores sugeridos para méís de meliponíneos brasileiros, pelos pesquisadores acima mencionados. Além das análises físico-químicas tradicionais e a análise polínica também foi determinada a composição nutricional, sendo que o mel de Apis apresentou maior de valor energético (43,58- 66,32 Kcal) em relação aos méis de Jataí (36,83 - 60,52 Kcal) (p<0,05). Também foram determinados os açúcares por CLAE, condutividade elétrica (uS/cm-1) e a análise de cor (mmPfund). As amostras de Apis mellifera apresentaram maior o teor glicose (%), frutose (%) e condutividade elétrica (uS/cm-1) em relação aos méis de Jataí Em relação as análises de cor notou-se maior predominância da coloração âmbar-claro, mas amostras analisadas.
Honey is considered as a food that provides energy, being elaborated from the dehydration and transformation of the nectar of the flowers by the bees. For the human consumption, honey needs to attend the minimum requirements of identity and quality demanded by the regulation. In Brazil beekeepers can be divided in two practical distinct ones: the traditional ones, which use Apis mellifera bees and the Meliponiculture which uses stingless bees such as Jataí bee (Tetragonisca angustula). There are no identity and quality parameters or regulation for this type of honey. Honey from of stingless bees are more expensive compared with the traditional honey, however their are commercialized without a proper regulation. In literature few works were found regarding the composition of these types of honey which are popularly known by its beneficiaI properties to human health. The objective of the present work is to compare the composition and quality of honey from Apis mellifera and from stingless bees (Tetragonisca angustula), popularly known as Jataí bee. Samples of honey were obtained from Apis mellifera and Tetragonisca angustula bees in the same botanical region. In this work the methods used were based on the Brazilian Regulation for quality control of honey from Apis mellifera and the values suggested for honeys of meliponíneos of Brazil for researchers VILLAS-BOAS and MALASPINA (2005). The majority of the samples of Apis had presented in accordance with the regulation while the Jataí honeys had presented: humidity (23,40 - 25.60%), acidity (21,65 - 63,85 mE/Kg) and reducing sugars (44,78 - 67.54%) are out of the standards for honeys of Apis mellifera. However, they are in accordance with the values suggested for honeys of Brazilian meliponíneos. The physicochemical, polinic and nutritional analysis were determined, and the honey of Apis bee presented greater amount of energy value (43,58 - 66,32 Kcal) in relation to the honeys of Jataí bee (36,83 - 60,52 Kcal) (p