2 resultados para FED
em Repositorio Academico Digital UANL
Resumo:
Two feeding trials were carried out to evaluate the effect of diets containing corn or peanut grains naturally contaminated with aflatoxins on the growth, feed intake, survival, and histological response of the white shrimp Litopenaeus vannamei. In trial 1, four experimental diets were formulated to contain 0, 500, 1000, and 2000 g kg–1 of total aflatoxins (TA) and fed to L. vannamei juveniles for 28 days. In trial 2, six experimental diets were formulated to contain 0, 10, 20, 40, 60, and 120 g kg–1 TA and fed to L. vannamei juveniles for 64 days. Feed intake and weight gain were significantly affected by the presence of aflatoxins from naturally contaminated grains. Feed conversion rate increased significantly from a level of inclusion of 60 g kg–1. Survival was significantly reduced only for shrimp fed diets supplemented with 1000 and 2000 g kg–1 TA. Shrimp exposed to higher aflatoxin inclusion levels presented significantly lower lipid vacuole levels in R-cells (12–28%), lower B-cell activity, and lower mitotic E-cell activity. Tubular epithelial atrophy increased from the inclusion level of 20 g kg–1. Hepatopancreatocyte sloughing was significantly higher in shrimp fed diets supplemented with 1000 and 2000 g kg–1 TA. It is worth noting that shrimp fed 40 g kg–1 TA presented a high hepatopancreatocyte sloughing coefficient. Based on these results we conclude that the presence of aflatoxins, even at low levels, reduces feed intake and weight gain, and alters the cells of the hepatopancreas. RESUMEN. Se llevaron a cabo dos bioensayos para evaluar el efecto de granos de maíz y maní contaminados naturalmente con aflatoxinas sobre el crecimiento, consumo de alimento, supervivencia y daños histológicos de juveniles del camarón blanco Litopenaeus vannamei. Para el bioensayo 1, se formularon cuatro dietas con 0, 500, 1000 y 2000 g kg–1 de aflatoxinas totales (AT) y se proporcionaron a juveniles de L. vannamei durante 28 días. Para el bioensayo 2, se formularon seis dietas con 0, 10, 20, 40, 60 y 120 g kg–1 AT y se proporcionaron a juveniles de L. vannamei durante 64 días. El consumo de alimento fue significativamente afectado por la presencia de aflatoxinas. La tasa de conversión alimenticia incrementó significativamente a partir de un nivel de inclusión de 60 g kg–1. La supervivencia fue significativamente reducida solamente en los camarones que fueron alimentados con las dietas suplementadas con 1000 y 2000 g kg–1 AT. Los camarones expuestos a los niveles de inclusión altos presentaron un menor nivel de vacuolas lipídicas en las células R (12–28%), y una menor actividad de las células B y de la actividad mitótica de las células E. La atrofia de los túbulos del epitelio se incrementó a partir de un nivel de inclusión de 20 g kg–1. La descamación de las células del hepatopáncreas fue significativamente mayor en camarones alimentados con las dietas suplementadas con 1000 y 2000 g kg–1 AT, mientras que para las dosis bajas no se observaron diferencias significativas, aunque en camarones alimentados a partir de 40 g kg–1 AT se observa un coeficiente de descamación alto. Con base en los resultados, se concluye que la presencia de aflatoxinas, incluso a niveles bajos, reduce el consumo de alimento y el aumento de peso y altera las células del hepatopáncreas.
Resumo:
Stable isotope analyses were applied to explore the relative dietary nitrogen contributions from fish meal and pea meal (Pisum sativum) to muscle tissue of Pacific white shrimp postlarvae (141 ± 31 mg) fed low protein diets having different proportions of both ingredients as the sole dietary protein sources. A negative control diet was formulated to contain 100% pea meal and six more isoproteic diets to have decreasing levels of pea meal-derived nitrogen: 95%, 85%, 70%, 55%, 40% and 0% of the initial level. Growth rates were negatively correlated to dietary pea protein inclusion due to progressive essential amino acid deficiencies (sulphur amino acids, threonine, lysine, histidine). The nitrogen turnover rate significantly increased in muscle tissue of shrimps fed diets having high levels of pea meal; however, contrary to observations from a previous study using soy protein, the relative contributions of dietary nitrogen from pea meal to shrimp muscle tissue were equal or higher than expected contributions established by the dietary formulations. Results highlight the effectiveness of stable isotope analysis in assessing the nutritional contributions of alternative ingredients for aquaculture feeds and the potential suitability of pea as a source of protein (provided the diets are nutritionally balanced)