1 |
Erdman J. W, Klein, B. P, Harvesting, processing and cooking influences on vitamin C in foods. In:Seib PA, Tolbert BM, eds. Ascorbic Acid: Chemistry, Metabolism, and Uses. Washington, DC: American Chemical Society. 499-532, 1982
|
2 |
Augustin J, Marousek G. I, Tholen L. A, Bertelli B. Vitamin retention in cooked, chilled and reheated potatoes. J. Food Sci., 45:814-816, 1980
DOI
|
3 |
Ezell B. D., Wilcox M. S. Loss of carotene in fresh vegetables as related to wilting and temperature, J. Agric Food Chem., 10:124-126, 1962
DOI
|
4 |
Jeong-Ja Paik, Harriet Kim: Riboflavin in milk and milk Products and the destructive effects of sunlight, Journal of The Korean Nutrion Society, 9(2); 54-58,1976
|
5 |
Ezell B. D., Wilcox M. S. Loss of vitamin C in fresh vegetables as related to wilting and temperature. J. Agric Food Chem., 7:507-509, 1959
DOI
|
6 |
Jansen G. R, Harper J. M, Kylen A., Shiegetomi C. T, Gaillis L. K. Pilot study to evaluate food delivery systems used in school lunch programs. Ⅱ: nutritional value. School Food Serv Res Rev., 1:24-29, 1977
|
7 |
Dahl-Sawyer C. A, Chen J.J., Huang P.D. Cook/chill foodservice systems with conduction, convection and microwave reheat subsystems. Nutrient retention in beef loaf, potatoes and peas. J. Food Sci., 47:1089-1095, 1982
DOI
|
8 |
Streightoff F., et. al. Effect of large-scale methods of preparation on vitamin content of foods, 1: potatoes. J. Am Diet Assoc. 22:117-127, 1946
|
9 |
Wimalasiri P., R. B. H. Wills. Simultaneous analysis of thiamin and riboflavin in foods by high-performance liquid chromatography. J. of Chromatography, 318: 412-416, 1985
DOI
ScienceOn
|
10 |
Chae Y. A. et al. Statistics for Biology. Chungminsa
|
11 |
J. F. Kamman, T. P. Labuza, J. J. Warthesen. Thiamin and riboflavin analysis by high performance liquid chromatography. J. Food Sci., 44:263-266, 1979
DOI
|
12 |
The Korean Nutrition Society : Reco-mmended Dietary Allowances for Koreans, 7th Revision, 2000
|
13 |
Science and Technology Agency (Japan). Resource Survey Group : Standard Food Nutrients Table of Japan, 4th ed., p.175, 1995
|
14 |
Ang CYM, Basillo L. A., Cato B. A., Livingston G. E. Riboflavin and thiamin retention in frozen beef-soy patties and frozen fried chicken heated by methods used in food service operations. J. Food Sci., 43: 1024-1027, 1978
DOI
|
15 |
Wha-Jae Lim, Jin-Sook Yoon: The Problem on Riboflavin Content Inference of Common Food for Korean. J. Korean Soc. Food Nutr, 19(1): 73-79, 1990
|
16 |
Bognar A. Nutritive value of chilled meals. In: Glew G, ed Advances in Catering Technology. London, England: Applied Sciences Publishers. 387-408, 1980
|
17 |
Williams P. G, Ross H, Brand-Miller J. C. Ascorbic acid and 5-methyltetrahydrofolate losses in cook/chill or cook/hot-hold foodservice system. J. Food Sci., 60:541-546, 1995
DOI
ScienceOn
|
18 |
Heller C. A., McCay C. M., Lyon C. B. Losses of vitamins in large-scale cookery. J. of Nutrition 26:377-383, 1943
DOI
|
19 |
Kossovitas C, Navab M, Ang C. M, Livingston GE. A comparison of chilled-holding versus frozen storage on quality and wholesomeness of some prepared foods. J. Food Sci., 38:901-302, 1973
DOI
|
20 |
Heh-Young Kim: A Study on Total Vitamin C Content Changes in Process of Food Products Flow and Holding Time of Cooked Soyben Sprouts and Fresh Vegetables Salads in Food Service Operations. Journal of The Korean Society of Dietary Culture, 13(1): 9-17, 1998
|
21 |
R. B. Tomas, M. M. Tabekhia. High performance liquid chromatographic analysis of B-vitamin in rice and rice products. J. Food Sci., 44:263-266, 1979
DOI
|