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Rapeseed meal is a high protein‐containing material that can be used as a feed for livestock and poultry. Typical meal contains a little less than 40% of protein; however it also contains about 12% crude fiber and glucosinolates, specific components ofCruciferae plants. Thus it is not very popular as a protein component of high quality feed mixtures for animals, and is used mostly in ruminant feeding. The protein value of rapeseed meal is higher than that of the majority of other vegetable proteins containing both lysine and sulphur amino acids. The amino acids of isolated rapeseed protein have been shown to be similar in composition to those of soybean protein, and present in higher concentrations. Rapeseed meal, in comparison with other vegetable oil seed meals, has a relatively high content of crude fiber, lowering its value as a feed component for nonruminants and especially for poultry. The amounts of minerals Ca and P of the vitamin niacin and of choline are rather high, exceeding the amounts of these components in other valuable oil meals, i.e., soybean or sunflower. Glucosinolate derivatives occurring in rapeseed meal are goitrogenic, causing considerable changes in thyroid from initial feeding. This has a negative effect on the biological value of rapeseed as a feed component and as evidenced, among other symptoms, by slower growth of young animals and their utilization of protein. These effects are especially evident in thein the feeding of growing chickens particularly when a protein deficiency exists in the diet. The presence of glucosinolates in feed has not as yet been demonstrated definitely to have a negative effect on the nutritive value of meat and eggs. Penetration and accumulation have not been found in those products. Glucosinolates and their derivatives such as L‐5‐vinyl‐2‐oxazolidinethione and isothiocyanates are not transmitted to the milk, although the thiocyanates content of milk evidently increases when cows are fed rapeseed meal. Goitrogenic symptoms have not been detected by consumption of this milk type. In the near future, the elimination of factors limiting the feeding value of rapeseed meal, such as glucosinolates and crude fiber, through breeding of new strains of rapeseeds, will permit their use in high quality protein mixtures not only for ruminant feeding but also in poultry and swine rations.
Rapeseed meal is a high protein‐containing material that can be used as a feed for livestock and poultry. Typical meal contains a little less than 40% of protein; however it also contains about 12% crude fiber and glucosinolates, specific components ofCruciferae plants. Thus it is not very popular as a protein component of high quality feed mixtures for animals, and is used mostly in ruminant feeding. The protein value of rapeseed meal is higher than that of the majority of other vegetable proteins containing both lysine and sulphur amino acids. The amino acids of isolated rapeseed protein have been shown to be similar in composition to those of soybean protein, and present in higher concentrations. Rapeseed meal, in comparison with other vegetable oil seed meals, has a relatively high content of crude fiber, lowering its value as a feed component for nonruminants and especially for poultry. The amounts of minerals Ca and P of the vitamin niacin and of choline are rather high, exceeding the amounts of these components in other valuable oil meals, i.e., soybean or sunflower. Glucosinolate derivatives occurring in rapeseed meal are goitrogenic, causing considerable changes in thyroid from initial feeding. This has a negative effect on the biological value of rapeseed as a feed component and as evidenced, among other symptoms, by slower growth of young animals and their utilization of protein. These effects are especially evident in thein the feeding of growing chickens particularly when a protein deficiency exists in the diet. The presence of glucosinolates in feed has not as yet been demonstrated definitely to have a negative effect on the nutritive value of meat and eggs. Penetration and accumulation have not been found in those products. Glucosinolates and their derivatives such as L‐5‐vinyl‐2‐oxazolidinethione and isothiocyanates are not transmitted to the milk, although the thiocyanates content of milk evidently increases when cows are fed rapeseed meal. Goitrogenic symptoms have not been detected by consumption of this milk type. In the near future, the elimination of factors limiting the feeding value of rapeseed meal, such as glucosinolates and crude fiber, through breeding of new strains of rapeseeds, will permit their use in high quality protein mixtures not only for ruminant feeding but also in poultry and swine rations.
I .Beef fat oxidized to a peroxide value of 109 ,umoles/g (218 m-equiv./kg), with a reduction in iodine value of 3'4 units, was incorporated at a 5% level in the diet of day-old chicks (diet 2) and stored for 8 weeks at room temperature during feeding. Similar diets containing fresh fat (diet I, peroxide value zero) or oxidized fat in which the peroxide had been largely destroyed by heating (diet 3, peroxide value 2 ,umoles/g) were also used. The diets contained adequate but not excessive levels of all vitamins, including stabilized vitamin A, except that for half of the chicks the supplement of stabilized vitamin E was omitted. 2. No further oxidation of the dietary lipid occurred during storage, and the initially high peroxide value in diet z decreased rapidly. The natural vitamin E decreased by more than 50% in diet 2, but remained unaffected in diets I and 3. 3. The chicks grew normally, with no difference in weight gain or feed conversion between the groups, the only differences attributable to the diets being marginally 1owervitaminAlevels accumulated in the livers of the birds on diet 2 and ajustdetectablyhigher liver weight in the birds on diet 3. 4. One of the twelve chicks receiving oxidized fat (diet 2) without synthetic vitamin E developed encephalomalacia. There was no other suggestion of performance being inferior as a consequence of the absence of the vitamin E supplement. 5. No difference could be detected in the flavour of the chickens, either freshly roasted or reheated.In recent years the inclusion of beef tallow at levels up to about 5 yo in commercial poultry rations has become common practice. Numerous reports claim that this amount of fat eases the compounding and the feeding of diets; although reports are conflicting as to whether or not it improves the growth rate of chicks (Baldini & Rosenberg, 1957;Donaldson, 1962), it has been shown that properly balanced rations containing levels of animal fat up to 33.8% support normal growth in chicks (Donaldson, Combs, Romoser & Supplee, 1957).There is, however, some controversy as to how the quality of the tallow used can be characterized. In the past this has frequently been done by the determination of free fatty acids and peroxide value, with rejection of materials that gave values above certain limits. In a previous paper (Lea, Parr, L'Estrange & Carpenter, 1964) it was pointedout that thereseemed to be noevidence that free fattyacidsas such were harmful, and that the 'peroxide' values permitted were only a small fraction of those that had been demonstrated in laboratory experiments to be harmful. It was shown (Lea et al. 1964) that beef fat oxidized to a peroxide value of 93 pmoles/g, which is a level much higher than is permitted in commercial practice, and incorporated at a level of 5 yo * Paper no. I: Br.
The 1974 RDA is 60 mg per day for pregnant women and 80 mg per day for lactating women. In the present study an attempt was made to simulate this intake in the guinea pig and study reproduction performance in relation to guinea pigs fed chronically low and high levels. In animals that conceived and carried the young to term, all 3 dietary levels of ascorbic acid appeared to be adequate for maintaining viability of fetuses and of offspring, and for growth of offspring during the nursing period. The chronically low intake level was not adequate for growth after weaning. The control group was superior to the chronically low-intake group but inferior to the high-intake group in conceiving, producing litters, and carrying litters to term. The level of intake in the control group was inadequate to maintain tissue stores. Even the high intake was inadequate to maintain some tissues at saturation levels. The results suggest that the requirement for ascorbic acid during pregnancy and lactation has been markedly underestimated.
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