Resumo
Edible brachyurans are recognized as a popular source of food due to their delicious taste and nutritional quality. This study investigated the nutrient compositional variation and interrelationship in the muscle of wild and plastic-reared Cardisoma armatum. The plastic-reared crab had 27.81 ± 2.29 g 100 g-1protein while crab from the wild contained 22.45 ± 2.65 g 100 g-1protein. The difference in protein content of plastic-reared and its counterpart from the mangrove swamp was not significantly different(p > 0.05). This is also true of other proximate composition except that wild crabs were slightly higher in both crude fat (2.68 ± 0.35 g 100 g-1) and carbohydrate (5.89 ± 3.05 g 100 g-1). Generally, the total energy contributed due to protein, carbohydrate and fat in the tissues of both wild and plastic-reared C. armatumare similar. In the wild crab, contents of calcium (16083.27 ± 2127.90 mg 100 g-1) and phosphorus (1191.42 ± 199.21) were relatively higher, while contents of magnesium (368.69 ± 111.05 mg 100 g-1), sodium (125.30 ± 11.18 mg 100 g-1) and potassium (87.36 ± 7.27 mg 100 g-1) were relatively higher inplastic-reared crabs. All significant mineral ratios in wild and plastic-reared C. amartumfall within acceptable range. The positive relationship in the nutritional quality indicates that changes in proximate composition are associated with changes in mineral contents of the crab tissue.(AU)
Assuntos
Animais , Composição Corporal/fisiologia , Braquiúros/fisiologia , Valor NutritivoResumo
Abstract The medicinal attributes of honey appears to overshadow its importance as a functional food. Consequently, several literatures are rife with ancient uses of honey as complementary and alternative medicine, with relevance to modern day health care, supported by evidence-based clinical data, with little attention given to honey's nutritional functions. The moisture contents of honey extracted from University of Veterinary and Animal Sciences, Lahore honey bee farm was 12.19% while that of natural source was 9.03 ± 1.63%. Similarly, ash and protein contents of farmed honey recorded were 0.37% and 5.22%, respectively. Whereas ash and protein contents of natural honey were 1.70 ± 1.98% and 6.10 ± 0.79%. Likewise fat, dietary fiber and carbohydrates contents of farmed source documented were 0.14%, 1.99% and 62.26% respectively. Although fat, dietary fiber and carbohydrates contents of honey taken from natural resource were 0.54 ± 0.28%, 2.76 ± 1.07% and 55.32 ± 2.91% respectively. Glucose and fructose contents of honey taken out from honeybee farm were 27% and 34% but natural source were 22.50 ± 2.12% and 28.50 ± 3.54%. Glucose and fructose contents of honey taken out from honeybee farm were 27% and 34% but natural source were 22.50 ± 2.12% and 28.50 ± 3.54%. Similarly, sucrose and maltose contents of farmed honey were 2.5% and 12% while in natural honey were 1.35 ± 0.49% and 8.00 ± 1.41% respectively. The present study indicates that such as moisture, carbohydrates, sucrose and maltose contents were higher farmed honey as compared to the natural honey. In our recommendation natural honey is better than farmed honey.
Resumo Os atributos medicinais do mel parecem ofuscar sua importância como alimento funcional. Consequentemente, várias literaturas estão repletas de usos antigos do mel como medicina complementar e alternativa, com relevância para os cuidados de saúde modernos, apoiados por dados clínicos baseados em evidências, com pouca atenção dada às funções nutricionais do mel. O teor de umidade do mel extraído da Universidade de Veterinária e Ciências Animais, fazenda de abelhas de Lahore, foi de 12,19%, enquanto o de fonte natural foi de 9,03 ± 1,63%. Da mesma forma, os teores de cinzas e proteínas do mel cultivado foram de 0,37% e 5,22%, respectivamente. Já os teores de cinzas e proteínas do mel natural foram de 1,70 ± 1,98% e 6,10 ± 0,79%. Da mesma forma, os teores de gordura, fibra dietética e carboidratos de origem cultivada documentados foram de 0,14%, 1,99% e 62,26%, respectivamente. Embora os teores de gordura, fibra alimentar e carboidratos do mel retirado dos recursos naturais fossem de 0,54 ± 0,28%, 2,76 ± 1,07% e 55,32 ± 2,91%, respectivamente. Os conteúdos de glicose e frutose do mel retirado da fazenda de abelhas foram de 27% e 34%, mas a fonte natural foi de 22,50 ± 2,12% e 28,50 ± 3,54%. Os conteúdos de glicose e frutose do mel retirado da fazenda de abelhas foram de 27% e 34%, mas a fonte natural foi de 22,50 ± 2,12% e 28,50 ± 3,54%. Da mesma forma, os teores de sacarose e maltose no mel cultivado foram de 2,5% e 12%, enquanto no mel natural foram de 1,35 ± 0,49% e 8,00 ± 1,41%, respectivamente. O presente estudo indica que os teores de umidade, carboidratos, sacarose e maltose foram maiores no mel cultivado em comparação ao mel natural. Em nossa recomendação, o mel natural é melhor que o mel de cultivo.
Assuntos
Animais , Mel , Abelhas , CarboidratosResumo
This study aimed to assess the chemical responses of forage watermelon fruit at different maturity stages or storage lengths, performing two experimental tests. In the first test, four maturity stages were assessed: 30, 45, 60, and 75 days after anthesis, with four replicates. In the second test, fruits were maintained under three storage lengths: T1D (harvest day), T3M (3 months after harvest), and T6M (6 months after harvest), with eight replicates. Experimental design was completely randomized in both experimental tests. Fruit maturity stage did not affect crude protein, total carbohydrate, neutral detergent fiber, in vitro dry matter digestibility (IVDMD), pulp firmness, soluble solids content and total pectin content, but increased acid detergent fiber content from 45 days after anthesis. Storage length up to six months after harvest increased ash, crude protein and IVDMD, and reduced the content of soluble solids. Forage watermelon fruit can be harvested from 30 to 75 days after anthesis equivalent to 75 - 120 days after planting, and they can be stored under tree shade up to 6 months after harvest.
This study aimed to assess the chemical responses of forage watermelon fruit at different maturity stages or storage lengths, performing two experimental tests. In the first test, four maturity stages were assessed: 30, 45, 60, and 75 days after anthesis, with four replicates. In the second test, fruits were maintained under three storage lengths: T1D (harvest day), T3M (3 months after harvest), and T6M (6 months after harvest), with eight replicates. Experimental design was completely randomized in both experimental tests. Fruit maturity stage did not affect crude protein, total carbohydrate, neutral detergent fiber, in vitro dry matter digestibility (IVDMD), pulp firmness, soluble solids content and total pectin content, but increased acid detergent fiber content from 45 days after anthesis. Storage length up to six months after harvest increased ash, crude protein and IVDMD, and reduced the content of soluble solids. Forage watermelon fruit can be harvested from 30 to 75 days after anthesis equivalent to 75 - 120 days after planting, and they can be stored under tree shade up to 6 months after harvest.
Resumo
The objective of this study was to evaluate the effects of including citrus pulp in maize silage on chemical composition and fermentation parameters. The experimental design was fully randomized with four replicates. Maize silage consisting of 050% citrus pulp was produced and analyzed. The pH linearly decreased with the increased inclusion of citrus pulp (3.49 at 50% citrus pulp), which is far below what is considered adequate (3.8 4.2). However, not all fermentation parameters were compromised. At 33% citrus pulp, we estimated 30.82 g/kg total nitrogen. At 49% citrus pulp, we estimated 95.16 g/kg of crude protein. At 21% and 22% citrus pulp, we estimated 549.89 g/kg of neutral detergent fiber and 678.11 g/kg of total digestible nutrients, respectively. Therefore, we conclude that the inclusion of up to 30% citrus pulp improves the complete chemical composition of maize silage owing to the reduction in structural carbohydrate values and increases in total digestible nutrient and protein content.(AU)
O objetivo deste trabalho foi avaliar o efeito da inclusão de polpa cítrica na silagem de milho sobre a composição química e parâmetros de fermentação. O delineamento experimental utilizado foi o inteiramente casualizado, com quatro repetições. Os tratamentos foram: Silagem de milho sem polpa cítrica (0%); silagem de milho com 10% 39 de polpa cítrica; silagem de milho com 20% de polpa cítrica; silagem de milho com 30% de polpa cítrica; silagem de milho com 40% de polpa cítrica e silagem de milho com 50% de polpa cítrica. O pH diminuiu linearmente com à inclusão de polpa cítrica, gerando valores distantes do considerado adequado (3,8 a 4,2). Por outro lado, é possível inferior que nem todos os parâmetros fermentativos foram comprometidos, uma vez que, com a inclusão de 33% de polpa cítrica, é possível estimar 30,82 g/kg total N. Com a utilização 45 de 49% de polpa cítrica, é possível obter 95,16 g/kg de proteína bruta. De 21% a 22% de polpa cítrica, foi obtido 549,89 g/kg de fibra em detergente neutro e 678,11 g/kg de nutrientes digestíveis totais. A inclusão de até 30% de polpa cítrica melhorará significativamente a composição química da silagem de milho, devido à redução nos valores de carboidrato estrutural e aumentos nos nutrientes digestíveis totais e proteína.(AU)
Assuntos
Silagem , Zea mays , FermentaçãoResumo
Over recent years, Macrobrachium amazonicum has become a popular species for shrimp farming due to their fast growth, high survival rates, and marketability. Several studies have focused on the development of new technology for the culture of this species, but many aspects of their nutrition and physiology remain unknown. Thus, the goal of the present study was to obtain transcripts of putative genes encoding digestive enzymes, based on a library of the cDNA from the hepatopancreas of M. amazonicum, sequenced in the Ion TorrentTM platform. We identified fragments of nine genes related to digestive enzymes, acting over proteins, carbohydrates and lipids. Endo and exoproteases were also recorded in the hepatopancreas, indicating adaptation to the digestion of protein-richfoods. Nonetheless, the enzymes involved in the carbohydrate metabolism formed the largest functional group in M. amazonicum, including enzymes related to the digestion of starch, chitin, and cellulose. These findings indicate that the species has a genetic apparatus of a well-adapted omnivorous animal. This information may provide important insights for the selection of ingredients for the formulation of a more appropriate diet to the enzymatic repertoire of M. amazonicum.(AU)
Assuntos
Taxa de Sobrevida , Genoma , Palaemonidae , Hepatopâncreas , EnzimasResumo
ABSTRACT The objective of this study was to evaluate the performance and metamorphosis of bullfrog tadpoles (Lithobates catesbeianus) fed balanced diets, wherein corn flour was replaced with banana, avocado, and pumpkin meal (all made without the epicarp). Using a completely randomized design, the animals were stored in tanks with a capacity of 30 L in a water recirculation system at a density of 1 tadpole/L. Through biweekly biometric measurements, the weight, standard, and total length were evaluated to determine metamorphic development, weight gain, consumption, feed conversion, specific growth rate, survival, physical-chemical parameters of water, and the percentage carcass composition (only at the end). Tadpoles fed rations balanced with pumpkin and banana flour performed the best, followed by those fed avocado meal and those fed the control ration (p 0.05). It can be concluded that growth performance is improved in animals fed diets containing 10% pumpkin and banana meal instead of corn, and tadpoles that received the avocado meal had the same performance as the conventional diets. Research should be carried out to assess other avenues for the replacement of ingredients in rations for bullfrog tadpoles.
RESUMO O objetivo deste trabalho foi avaliar o desempenho e a metamorfose de girinos de rãtouro (Lithobates catesbeianus) alimentados com dietas balanceadas com farinha de banana, abacate e abóbora, todas feitas sem epicarpo, em substituição à farinha de milho. Utilizando um delineamento inteiramente casualizado, os animais foram colocados em tanques com capacidade de 30 litros em sistema de recirculação de água com densidade de 1 girino / L. Por meio de biometria quinzenal foram avaliados peso, comprimento padrão e total, quanto ao desenvolvimento metamórfico, ganho em peso, consumo, conversão alimentar, taxa de crescimento específico, sobrevivência, parâmetros físico-químicos da água e composição centesimal da carcaça (somente no final). Os resultados mostraram melhor desempenho para girinos alimentados com ração balanceada com farinha de abóbora e banana, seguidos daqueles alimentados com farelo de abacate e alimentados com ração controle (p 0,05). Os animais alimentados com as duas últimas rações não diferiram (p> 0,05). Pode-se concluir que houve melhor desempenho nos animais alimentados com dietas contendo 10% de abóbora e farelo de banana ao invés de milho, e aqueles que receberam farelo de abacate com o mesmo desempenho das dietas tradicionais. Pesquisas devem ser realizadas para avaliar outros níveis de reposição desses nutrientes por girinos de rã-touro.
Resumo
This study aimed to evaluate the productive performance and carcass characteristics of lambs fed diets with different types of carbohydrates associated with polyunsaturated fatty acids. Thirty castrated male lambs (20.5 ± 7.6 kg) were used, distributed in a randomized block design under three experimental diets: High proportion of non-fibrous carbohydrates (NFC) diet; High NFC diet + spineless cactus (high proportion of NFC and spineless cactus) and Low NFC diet (low proportion of NFC), in a 60 day experimental period. The variables of nutrient intake, performance, and carcass characteristics were evaluated. The animals fed the High NFC + spineless cactus diet presented a higher dry matter intake, organic matter, mineral matter, crude protein, and total carbohydrates intake (p <0.05). Carcass characteristics and weight of commercial cuts were improved in High NFC and High NFC + spineless cactus diets (p <0.05), on the other hand we observed a total fat weight reduction in animals fed with High NFC + spineless cactus. The results indicate that high levels of NFC positively influence animal performance, where the type of carbohydrate influences nutrient intake, also affecting carcass characteristics.(AU)
Assuntos
Animais , Masculino , Ovinos/fisiologia , Fenômenos Fisiológicos da Nutrição Animal , Carne/análise , Carboidratos/fisiologia , Suplementos Nutricionais , Ácidos Graxos Insaturados/fisiologiaResumo
The Phaseolus lunatus L. (lima bean) is a species of the Fabaceae family widely cultivated in the Northeast region of Brazil and is an important source of nutrients for the population. The lima bean has high genetic variability, which results in many cultivated varieties. However, there is little information about the cyanide levels, nutritional quality and sensory acceptance of these varieties, as well as about the changes caused by the cooking process, especially with regard to free cyanide contents. Therefore, the objective of this work was to evaluate the cyanide contents, nutritional quality and sensory attributes of lima bean varieties. Potential and free cyanide levels, quality attributes and a Qualitative Descriptive Analysis (QDA) were evaluated in raw and cooked grains. The study was carried out in a completely randomized design, with five lima bean varieties (Orelha de Vó, Branca, Roxinha, Rosinha, and Cearense), in 4 replications. Relatively to the raw ones, cooked grains presented larger size and smaller contents of ash, proteins, carbohydrates, potential cyanide and free cyanide, in the studied varieties. The Orelha de Vó lima bean showed higher mass of raw and higher firmness of cooked grains, which was judged to have the bitterest flavor among the others but showed safe levels of free cyanide after cooking. When cooked, Branca lima bean had a greater intention of purchase and global acceptance, due to its greater intensity of characteristic aroma and lower residual bitter taste.(AU)
A Phaseolus lunatus L. (fava) é uma espécie da família Fabaceae amplamente cultivada na região Nordeste do Brasil, sendo uma importante fonte de nutrientes e geração de renda para a população. A fava possui elevada variabilidade genética, o que resulta em muitas variedades cultivadas. No entanto, existem poucas informações sobre os níveis de cianeto, qualidade nutricional e aceitação sensorial dessas variedades, bem como sobre as alterações ocasionadas pelo processo de cocção, principalmente no que se refere aos teores de cianeto livre. Diante disso, o objetivo deste trabalho foi avaliar os teores de cianeto, qualidade nutricional e atributos sensoriais de grãos de variedades de fava. Os níveis de cianeto potencial e livre, atributos de qualidade nutricional e uma Análise Descritiva Qualitativa (ADQ) foram avaliados em grãos crus e cozidos. O estudo foi conduzido em delineamento inteiramente casualizado, com cinco variedades de fava (Orelha de Vó, Branca, Roxinha, Rosinha e Cearense), em 4 repetições. Relativamente aos crus, grãos cozidos apresentaram maior tamanho e menores teores de cinzas, proteínas, carboidratos, cianeto potencial e cianeto livre, das variedades estudadas. A fava Orelha de Vó apresentou maior massa nos grãos crus e maior firmeza nos cozidos, que foi julgada como sabor residual mais amargo entre as demais, mas apresentou níveis seguros de cianeto livre após cozimento. Quando cozida, a fava branca teve maior intenção de compra e aceitação global, devido a sua maior intensidade de aroma característico e menor sabor amargo residual.(AU)
Assuntos
Proteínas , Cianetos , Fabaceae , Valor NutritivoResumo
This study aimed to assess the chemical responses of forage watermelon fruit at different maturity stage s or storage lengths, performing twoexperimental tests. In the first test, four maturity stages were assessed: 30, 45, 60, and 75 days after anthesis, with four replicates. In the second test, fruits were maintained under three storage lengths: T1D (harvest day), T3M (3 months after harvest), and T6M (6 months after harvest), with eight replicates. Experimental design was c ompletely randomized in both experimental tests. Fruit maturity stage did not affect crude protein, total carbohydrate, neutral detergent fiber, in vitrodry matter digestibility (IVDMD), pulp firmness, soluble solids content an d total pectin content, but increased acid detergent fiber content from 45 days after anthesis. Storage length up to six months after harvest increased ash, crude protein and IVDMD, and reduced the content of soluble solid s. Forage watermelon fruit can be harvested from 30 to 75 days after anthesis eq uivalent to 75 -120 days after planting, and they can be stored under tree shade up to 6 months after harvest.(AU)
Assuntos
Citrullus/química , Citrullus/crescimento & desenvolvimento , Armazenamento de Alimentos , Valor NutritivoResumo
This study aimed to assess the chemical responses of forage watermelon fruit at different maturity stages or storage lengths, performing two experimental tests. In the first test, four maturity stages were assessed: 30, 45, 60, and 75 days after anthesis, with four replicates. In the second test, fruits were maintained under three storage lengths: T1D (harvest day), T3M (3 months after harvest), and T6M (6 months after harvest), with eight replicates. Experimental design was completely randomized in both experimental tests. Fruit maturity stage did not affect crude protein, total carbohydrate, neutral detergent fiber, in vitro dry matter digestibility (IVDMD), pulp firmness, soluble solids content and total pectin content, but increased acid detergent fiber content from 45 days after anthesis. Storage length up to six months after harvest increased ash, crude protein and IVDMD, and reduced the content of soluble solids. Forage watermelon fruit can be harvested from 30 to 75 days after anthesis equivalent to 75 - 120 days after planting, and they can be stored under tree shade up to 6 months after harvest.(AU)