Resumo
Studies have been carried out to evaluate the efficiency of using easy-assembled cow houses in modern milk production technologies for the use of high-productive milking plants of the type Parallel and Carousel with 32 machines each. It has been established that new types of premises not only provide comfortable conditions for the maintenance of highly productive cows, but also reduce the labor costs for their maintenance and, most importantly, allow the use of modern high-productive milking installations of the type Parallel and Carousel. It has been established that the technology of preparation of cows for milking and milking technology provides more complete display of the milk ejection reflex at the installation of the Parallel type. The average intensity of cows milk flows at this plant is 30% higher compared to those of the installation of Carousel type, which is confirmed by the intensity of milk flow production at the first minute of milking, which is at the level of 2.97 against 1.85 kg min.-1 per installation of Carousel type. Milk obtained using a milking installation of the Parallel type has higher values of the mass fraction of fat and protein that is associated with the genetic potential of animals. According to physical, chemical and technological properties, milk obtained from milking installations such as Parallel and Carousel is within the limits of the standards in force. Milk obtained from the use of milking equipment such as Carousel has higher electrical conductivity at the level of 4.6 mS cm-3, which is confirmed by a higher level of mastitis disease of cows. Due to bacterial contamination, reductase test and milk clot characteristic, milk obtained using a milk installation of Parallel type also has higher quality indicators than the installation of Carousel type. But according to the complex of indicators, milk obtained from various technologies of milking refers to the desired cheese-making class.(AU)
Assuntos
Animais , Feminino , Bovinos , Bovinos/fisiologia , Leite , Desenvolvimento Tecnológico , FazendasResumo
Studies have been carried out to evaluate the efficiency of using easy-assembled cow houses in modern milk production technologies for the use of high-productive milking plants of the type Parallel and Carousel with 32 machines each. It has been established that new types of premises not only provide comfortable conditions for the maintenance of highly productive cows, but also reduce the labor costs for their maintenance and, most importantly, allow the use of modern high-productive milking installations of the type Parallel and Carousel. It has been established that the technology of preparation of cows for milking and milking technology provides more complete display of the milk ejection reflex at the installation of the Parallel type. The average intensity of cows milk flows at this plant is 30% higher compared to those of the installation of Carousel type, which is confirmed by the intensity of milk flow production at the first minute of milking, which is at the level of 2.97 against 1.85 kg min.-1 per installation of Carousel type. Milk obtained using a milking installation of the Parallel type has higher values of the mass fraction of fat and protein that is associated with the genetic potential of animals. According to physical, chemical and technological properties, milk obtained from milking installations such as Parallel and Carousel is within the limits of the standards in force. Milk obtained from the use of milking equipment such as Carousel has higher electrical conductivity at the level of 4.6 mS cm-3, which is confirmed by a higher level of mastitis disease of cows. Due to bacterial contamination, reductase test and milk clot characteristic, milk obtained using a milk installation of Parallel type also has higher quality indicators than the installation of Carousel type. But according to the complex of indicators, milk obtained from various technologies of milking refers to the desired cheese-making class.
Assuntos
Feminino , Animais , Bovinos , Bovinos/fisiologia , Desenvolvimento Tecnológico , Leite , FazendasResumo
The objective of this study was to compare characteristics and properties of breast meat from spent Lohmann Brown layers (SP, 90 weeks old, n = 24) and those of commercial broilers (BR, 6 weeks old, n = 24). The breasts of both SP and BR were collected from a local processing plant, vacuum-packed in a plastic bag, and stored at -18ºC until further analyses. The SP showed a greater water-holding capacity, tougher and chewier texture (p 0.05). Both raw and cooked SP breasts comprised the greater total collagen but lower soluble collagen than those of BR (p 0.05). Muscle fibers of the SP, observed under scanning electron microscope, were small, with average fiber diameter of 37.85±1.40 m, densely packed and surrounded by complex networks of connective tissue. The lower myofibril fragmentation index and alkaline-soluble protein fractions of the SP (p 0.05) suggested lesser degree of postmortem fragmentation and protein denaturation in SP compared to BR. Based on differential scanning calorimetry, multiple endothermic transitions were observed in both raw BR and SP breast samples. While BR thermograms comprise five transitions at 57.7ºC, 64.2ºC, 67.6ºC, 72.3ºC and 77.6ºC with total H of 15.31 J/g dry meat, the SP samples exhibited four transitions at 55.1ºC, 62.1ºC, 70.5ºC and 77.7ºC and total H of 17.62 J/g dry meat. Overall, the findings indicated that cooked meat toughness of SP was attributed by the high total and heat-stable collagen content, densely packing of small muscle fibers, and the superior myofibril integrity.(AU)
Assuntos
Animais , Galinhas/anatomia & histologia , Galinhas/crescimento & desenvolvimento , Carne/classificaçãoResumo
The objective of this study was to compare characteristics and properties of breast meat from spent Lohmann Brown layers (SP, 90 weeks old, n = 24) and those of commercial broilers (BR, 6 weeks old, n = 24). The breasts of both SP and BR were collected from a local processing plant, vacuum-packed in a plastic bag, and stored at -18ºC until further analyses. The SP showed a greater water-holding capacity, tougher and chewier texture (p 0.05). Both raw and cooked SP breasts comprised the greater total collagen but lower soluble collagen than those of BR (p 0.05). Muscle fibers of the SP, observed under scanning electron microscope, were small, with average fiber diameter of 37.85±1.40 m, densely packed and surrounded by complex networks of connective tissue. The lower myofibril fragmentation index and alkaline-soluble protein fractions of the SP (p 0.05) suggested lesser degree of postmortem fragmentation and protein denaturation in SP compared to BR. Based on differential scanning calorimetry, multiple endothermic transitions were observed in both raw BR and SP breast samples. While BR thermograms comprise five transitions at 57.7ºC, 64.2ºC, 67.6ºC, 72.3ºC and 77.6ºC with total H of 15.31 J/g dry meat, the SP samples exhibited four transitions at 55.1ºC, 62.1ºC, 70.5ºC and 77.7ºC and total H of 17.62 J/g dry meat. Overall, the findings indicated that cooked meat toughness of SP was attributed by the high total and heat-stable collagen content, densely packing of small muscle fibers, and the superior myofibril integrity.
Assuntos
Animais , Carne/classificação , Galinhas/anatomia & histologia , Galinhas/crescimento & desenvolvimentoResumo
The bioconversion of protein from the fishing industry waste into bioplastics allows the valorization of biological material, reducing the production of waste and consequently of negative environmental impacts through the use of synthetic packaging. The objective of this work was to develop biodegradable films from the mixture of gelatin and myofibrillar fish proteins. Proteins (myofibrillar and gelatin) were extracted from filleting residues from king weakfish (Macrodon ancylodon) from industrial fishing. The properties of the blend films were compared to those of individual protein films. It was found by scanning electron microscopy that there was good compatibility between the two polymers. Mechanical analyzes showed that myofibrillar proteins films were the most resistant to traction, but less flexible; characteristics contrary to those of gelatin. The mixing films presented the lowest values of water vapor permeability and solubility were transparent, and mechanically strong and flexible, confirming the improvement of the properties by mixing the polymers. Fourier transform infrared spectroscopy revealed that there was interaction between the myofibrillar protein chains and gelatine driven by hydrogen bonds, thus forming cohesive and reinforced matrix, which resulted in good thermal resistance of the films. The mixture between polymers improved the technological properties of the elaborated biodegradable films, making its application feasible as food packaging.
A bioconversão de proteínas de subprodutos da indústria pesqueira em bioplástico possibilita a valorização do material biológico, reduzindo a produção de descarte e consequentemente, de impactos ambientais negativos do uso de embalagens sintéticas. O objetivo deste trabalho foi misturar gelatina e proteínas miofibrilares de pescada gó (Macrodon ancylodon) com intuito de desenvolver filmes biodegradáveis com propriedades tecnológicas aprimoradas. As propriedades dos filmes de mistura foram comparadas com as de filmes dos polímeros individuais. A espectroscopia de infravermelho com transformada de Fourier revelou boa compatilidade química entre gelatina e proteínas miofibrilares na formação do filme de mistura. A interação entre os polímeros foi conduzida por ligações de hidrogênio, formando película coesa e reforçada. Os filmes de mistura além de apresentarem os menores valores de permeabilidade ao vapor de água e solubilidade, também foram transparentes e, termicamente resistentes. Assim a mistura entre gelatina e proteínas miofibrilares possibilitou a formação de películas biodegradáveis com propriedades tecnológicas superiores às produzidas com os polímeros separados.
Assuntos
Animais , Gelatina , Miofibrilas , Peixes , Polímeros , Resíduos de AlimentosResumo
The bioconversion of protein from the fishing industry waste into bioplastics allows the valorization of biological material, reducing the production of waste and consequently of negative environmental impacts through the use of synthetic packaging. The objective of this work was to develop biodegradable films from the mixture of gelatin and myofibrillar fish proteins. Proteins (myofibrillar and gelatin) were extracted from filleting residues from king weakfish (Macrodon ancylodon) from industrial fishing. The properties of the blend films were compared to those of individual protein films. It was found by scanning electron microscopy that there was good compatibility between the two polymers. Mechanical analyzes showed that myofibrillar proteins films were the most resistant to traction, but less flexible; characteristics contrary to those of gelatin. The mixing films presented the lowest values of water vapor permeability and solubility were transparent, and mechanically strong and flexible, confirming the improvement of the properties by mixing the polymers. Fourier transform infrared spectroscopy revealed that there was interaction between the myofibrillar protein chains and gelatine driven by hydrogen bonds, thus forming cohesive and reinforced matrix, which resulted in good thermal resistance of the films. The mixture between polymers improved the technological properties of the elaborated biodegradable films, making its application feasible as food packaging.(AU)
A bioconversão de proteínas de subprodutos da indústria pesqueira em bioplástico possibilita a valorização do material biológico, reduzindo a produção de descarte e consequentemente, de impactos ambientais negativos do uso de embalagens sintéticas. O objetivo deste trabalho foi misturar gelatina e proteínas miofibrilares de pescada gó (Macrodon ancylodon) com intuito de desenvolver filmes biodegradáveis com propriedades tecnológicas aprimoradas. As propriedades dos filmes de mistura foram comparadas com as de filmes dos polímeros individuais. A espectroscopia de infravermelho com transformada de Fourier revelou boa compatilidade química entre gelatina e proteínas miofibrilares na formação do filme de mistura. A interação entre os polímeros foi conduzida por ligações de hidrogênio, formando película coesa e reforçada. Os filmes de mistura além de apresentarem os menores valores de permeabilidade ao vapor de água e solubilidade, também foram transparentes e, termicamente resistentes. Assim a mistura entre gelatina e proteínas miofibrilares possibilitou a formação de películas biodegradáveis com propriedades tecnológicas superiores às produzidas com os polímeros separados.(AU)
Assuntos
Animais , Polímeros , Peixes , Miofibrilas , Gelatina , Resíduos de AlimentosResumo
This study aimed to characterize the safety and technological properties of Enterococcus faecium strains isolated from Brazilian Coalho cheeses. High levels of co-aggregation were observed between Enterococcus faecium strains EM485 and EM925 and both Escherichia coli and Clostridium perfringens. Both strains presented low levels of hydrophobicity. E. faecium EM485 and EM925 were both able to grow in the presence of 0.5% of the sodium salts of taurocholic acid (TC), taurodeoxycholic acid (TDC), glycocholic acid (GC), and glycodeoxycholic acid (GDC), although they showed the ability to deconjugate only GDC and TDC. Both strains showed good survival when exposed to conditions simulating the gastro intestinal tract (GIT). When tested for the presence of virulence genes, only tyrosine decarboxylase and vancomycin B generated positive PCR results.(AU)
Assuntos
Queijo/microbiologia , Enterococcus faecium/isolamento & purificação , Enterococcus faecium/fisiologia , Manipulação de Alimentos/métodos , Aderência Bacteriana , Brasil , Ácidos Cólicos/metabolismo , Ácidos Cólicos/toxicidade , Clostridium perfringens/químicaResumo
Nos últimos anos, a banana verde tem despertado interesse do mercado consumidor, pois, além do aspecto nutricional, destaca-se a presença de compostos funcionais, em especial o amido resistente. Contudo, sua adstringência limita seu consumo e sua comercialização em forma de farinhas é a principal forma de consumo e utilização, como ingrediente funcional. O objetivo do presente trabalho foi avaliar os potenciais usos da farinha de banana verde (FBV) na elaboração de produtos alimentícios e os principais métodos de obtenção, e seus efeitos sobre a qualidade físico-química, sensorial e funcional das farinhas obtidas. Fatores como tipo de cultivar ou variedade da fruta, presença ou ausência de casca, técnica de desidratação e condições de operação do equipamento influenciam as características físico-químicas, tecnológicas e funcionais da FBV. A FBV tem sido utilizada como ingrediente funcional na elaboração de diferentes produtos alimentícios, como pão, biscoito cookie, pré-mistura de bolo, snacks, nuggets e, sobretudo, na elaboração de massas alimentícias. De forma geral, o emprego de FBV e produtos alimentícios promove a melhoria de suas propriedades funcionais, devido ao aumento do teor de amido resistente, compostos fenólicos e da atividade antioxidante. A FBV também reduz o teor e a porcentagem de hidrólise do amido digerível e, consequentemente, do índice glicêmico dos produtos, que apresentaram potencial para compor a dieta, principalmente de indivíduos diabéticos e obesos. A FBV pode ser amplamente utilizada tanto pela indústria de alimentos (pães, biscoitos, macarrão, etc.), como ingrediente na preparação de pratos prontos e na elaboração de produtos cárneos.(AU)
Recently, the market interest in green banana has raised because of its nutritional aspects, mainly due to its functional compounds as resistant starch. However, the adstringency limits green banana consumption hence it has been mostly marketed as flour or starch. The aim of this research was to evaluate the main applications of green banana flour (GBF) in food products and the effects of the main utilized processes on sensorial, physicochemical and functional properties. The cultivar or variety of fruit, presence or absence of peel, type and conditions of dehydration process have influenced on the aforementioned properties of GBF. It was also verified that the GBF has been utilized as a functional ingredient in different types of food products like breads, cookies, cake pre-mixture, snacks, nuggets and, mainly, pastas. Altogether, the use of GBF in food products enhanced their functional properties, because it improves the resistant starch, total phenolics content and antioxidant capacity. The GBF also reduces the content and hydrolysis of digestible starch and, therefore, glycemic index of these products that show a great potential in nutrition therapy of diabetes mellitus and obesity.(AU)
Assuntos
Musa , Ingredientes de Alimentos , Alimento Funcional , Amido , Produção de AlimentosResumo
Nineteen strains of Lactobacillus isolated from goat's milk from farms in north-west of Algeria were characterized. Isolates were identified by phenotypic, physiological and genotypic methods and some of their important technological properties were studied. Phenotypic characterization was carried out by studying physiological, morphological characteristics and carbohydrate fermentation patterns using API 50 CHL system. Isolates were also characterized by partial 16S rDNA sequencing. Results obtained with phenotypic methods were correlated with the genotypic characterization and 13 isolates were identified as L. plantarum, two isolates as L. rhamnosus and one isolate as L. fermentum. Three isolates identified as L. plantarum by phenotypic characterization were found to be L. pentosus by the genotypic method. A large diversity in technological properties (acid production in skim milk, exopolysaccharide production, aminopeptidase activity, antibacterial activity and antibiotic susceptibility) was observed. Based on these results, two strains of L. plantarum (LbMS16 and LbMS21) and one strain of L. rhamnosus (LbMF25) have been tentatively selected for use as starter cultures in the manufacture of artisanal fermented dairy products in Algeria.