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Retinol Content (retinol + content)
Selected AbstractsPlasma vitamin A status in calves fed colostrum from cows that were fed vitamin A during late pregnancyJOURNAL OF ANIMAL PHYSIOLOGY AND NUTRITION, Issue 5 2008G. Puvogel Summary Calves are born vitamin A and ,-carotene deficient and the ,-carotene conversion to vitamin A is limited. Colostrum, contains relatively large amounts of vitamin A and ,-carotene and the retinol and ,-carotene status of calves can be normalized with colostrum consumption. We studied whether vitamin A supplementation of cows during late gestation (dry period) increases cow plasma retinol concentrations, the retinol content of first colostrum, and the plasma vitamin A status of calves during their first month of life. Both plasma and colostrum retinol concentrations were higher in vitamin A supplemented cows than in non-supplemented cows. In calves that were for 5 days fed colostrum (milk) from vitamin A-supplemented cows and then mature milk, plasma retinol concentrations were higher from 14 to 30 days after birth than in calves that were fed colostrum (milk) from cows that were not vitamin A supplemented. The study shows that vitamin A supplementation of cows during the dry period can improve the vitamin A status of their calves up to 1 month, if calves ingest their colostrum/milk for up to 5 days. [source] Effects of Dietary Vitamin A on Juvenile Red Sea Bream Chrysophrys majorJOURNAL OF THE WORLD AQUACULTURE SOCIETY, Issue 4 2004Luis Hector A 55-d feeding experiment was conducted to evaluate the effects of dietary vitamin A on growth of juvenile red sea bream Chrysophrys major. Nine semi-purified diets with supplemental retinol palmitate at levels of 0, 300, 600, 1,500, 3,000, 4,500, 6,000, 15,000 and 30,000 retinol eq/kg diet, were fed twice daily to triplicate groups of 10 juveniles per tank with an initial weight of 1.178 ± 0.001 g. Weight gain and specific growth rate increased with the increase of supplemental retinol palmitate in the diet up to a level of 6,000 retinol eq/kg diet, beyond which those indices tended to decrease slightly or to plateau. Significantly lower weight gain and specific growth rate were observed in fish fed with 0 and 300 retinol eq/kg diet. No significant differences were found in survival rates among the different levels of supplementation. The crude protein, lipid, moisture and ash contents in the whole body were not affected by the different vitamin A supplemental levels. Besides the reduced growth, fish fed with low levels of vitamin A supplement showed no other signs of deficiency. No hypervitaminosis A symptoms were observed in fish fed on high levels of supplementation. Fish fed on diets with 0 and 300 retinol eq/kg diet showed a significantly lower content of vitamin A (as a total retinol) in the liver than those in groups fed with higher levels of supplementation. Vitamin A was stored in the liver mainly as retinyl esters. Total retinal content of the eye showed no significant differences among the treatments; however, fish fed with 0 and 300 retinol eq/kg of diet had slightly higher concentrations. According to the results of the mean weight gain, specific growth rate and liver retinol content, the requirement of dietary vitamin A for juvenile red sea bream was estimated to be between 1,500 and 6,000 retinol eq/kg. [source] Dietary vitamin A requirements of juvenile Japanese flounder Paralichthys olivaceusAQUACULTURE NUTRITION, Issue 1 2005L.H.H. HERNANDEZ Abstract A 70-day feeding experiment was conducted to assess the dietary vitamin A (VA) requirements of juvenile Japanese flounder (Paralichthys olivaceus). Six semi-purified diets with VA supplementations of 0, 5000, 10 000, 15 000, 20 000 and 25 000 IU kg,1 were fed twice a day to triplicate groups of 20 juveniles per tank with an initial weight of 1.59 ± 0.01 g (mean ± SE). Weight gain (WG) and specific growth rate (SGR) increased as dietary VA increased up to 10 000 IU kg,1. Significantly lower WG and SGR were observed for the 0 IU kg,1 treatment than for treatments of 5000, 10 000 and 15 000 IU kg,1. Highest WG and SGR were observed in fish fed 10 000 IU kg,1; slightly lower values were recorded in fish fed 15 000, 20 000 or 25 000 IU kg1. No significant difference was observed in survival rate among treatments. Whole body total lipid was significantly higher in fish fed 0 and 5000 IU kg,1 than for other levels. Reduced growth and small livers were observed as signs of VA deficiency in fish fed 0 IU kg,1. Slightly reduced growth and pale fragile livers were observed as effects of VA excess in fish fed 25 000 IU kg,1. Total retinol contents in liver and eyes increased with increasing levels of dietary VA. No retinol was detected in livers, and significantly lower total retinol content was observed in eyes, of fish fed 0 IU kg,1. WG analysed by the broken line method indicated that an optimum dietary VA requirement of 9000 IU kg,1. [source] | ||||||||||