Evaluation of the nutritive value of yellow rice in rats and broiler chicks

Yellow discoloration often develops in rice kernels during post-harvest storage, due possibly to fungal activity. The present study examined the changes in nutrient composition taking place during yellowing of rice, and the effects of feeding rats and broiler chicks on a moderately yellow rice at 600 g/kg diet. Nitrogen content was found to be higher in rice grains that had become more yellow, only part of the increase being in non-protein-N; however, relative to crude protein (N x 6.25) the concentrations of lysine, methionine, cystine and arginine were lower. There were no significant differences between white and yellow rice in the food intake, weight gain and efficiency of food utilization (EFU) of rats and chicks when diets were formulated to contain similar nutrient concentrations, or the same basal ingredient composition. Diet pelleting increased food intake and weight gain in both animal species, but reduced dry matter and energy digestibility in rats; effects on nutrient retention in chicks were largely non-significant. Liver weights of rats and chicks and pancreas weights of chicks were unaffected by yellow rice; however, chicks fed on mash had a larger pancreas on average than those fed on pellets. Thus, whilst the nutrient composition of rice is altered during yellowing, a moderately yellow rice is unlikely to produce major adverse effects when fed to rats and broiler chicks.

[1]  S. Phillips,et al.  Rice yellowing during drying delays , 1989 .

[2]  M. Bason,et al.  A quantitative study of the influences of temperature, water activity and storage atmosphere on the yellowing of milled rice , 1989 .

[3]  S. Phillips,et al.  Rice yellowing during post-harvest drying by aeration and during storage , 1988 .

[4]  E. Jackson,et al.  The analysis of agricultural materials: a manual of the analytical methods used by the Agricultural Development and Advisory Service. , 1986 .

[5]  B. Eggum,et al.  Effect of treatment on composition and protein and energy utilization of rice and mung bean by rats , 1984 .

[6]  H. Marks Role of water in regulating feed intake and feed efficiency of broilers. , 1981, Poultry science.

[7]  C. Moreau Moulds, toxins, and food , 1979 .

[8]  Hans P. Backhoff Some chemical changes in fish silage , 1976 .

[9]  R. Hurrell,et al.  Mechanisms of heat damage in proteins , 1975, British Journal of Nutrition.

[10]  R. Hurrell,et al.  Mechanisms of heat damage in proteins , 1974, British Journal of Nutrition.

[11]  K. Carpenter,et al.  Mechanisms of heat damage in proteins , 1970, British Journal of Nutrition.

[12]  C. W. Hesseltine,et al.  Mycotoxins in Foodstuffs , 1966 .

[13]  R. Kinosita,et al.  On toxic mouldy rice. , 1965 .

[14]  Mamoru Saito,et al.  Liver Cirrhosis Induced by Metabolites OF Penicillium Islandicum Sopp * , 1959, Acta pathologica japonica.

[15]  K. Clegg The application of the anthrone reagent to the estimation of starch in cereals , 1956 .