• Korean Journal of Food Science and Technology
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• v.31 no.2
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• pp.488-494
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• 1999

Changes of lactic acid bacteria and fermentation patterns were investigated during fermentation of Green Onion Kimchi and Chinese Cabbage Kimchi at 10 and $20^{\circ}C$. Fermentation of Green Onion Kimchi proceeded more slowly than Chinese Cabbage Kimchi in point of changes of pH, total acidity and total viable cell number. Maximum number of total viable cell, Leuconostoc, and Lactobacillus in Green Onion Kimchi were smaller than in Chinese Cabbage Kimchi. And these differences were larger in fermentation at $10^{\circ}C$. Total sugar content of Green Onion Kimchi was higher than Chinese Cabbage Kimchi not only at the beginning of fermentation but also at the end of fermentation. Therefore, the reason for the slow fermentation of Green Onion Kimchi was not low sugar content. Major lactic acid bacteria of properly fermented Green Onion Kimchi were identified as Lactobacillus plantarum and Leuconostoc mesenteroides which had been reported to be major lactic acid bacteria isolated from Chinese Cabbage Kimchi.

• Journal of the Korean Home Economics Association
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• v.26 no.1
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• pp.51-59
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• 1988

In the present study, an attempt was made to observe the effect of calcium-sources and preservatives on Kimchi fermentation. After pre-fermentation at room temperature for 16 hours, each Kimchi was stored at 4$^{\circ}C$. Changes of vitamin contents(vitamin C, thiamin, riboflavin and $\beta$-carotene) during the fermentation of Kimchi were determined. It was also attempt to relate the fermentation of Kimchi with the changes in chemical and organoleptic characteristics, such as pH, total acidity and reducing sugar. The findings were summarized as follows; 1. During Kimchi fermentation, the pH decreased steady and total acidity increased slowly in the follow order: K-Sorbate+acetic acid, k-Sorbate, Ca-Lactate and Control. the lower of pH and the higher of total acidity, the less of reducing sugar was remained. 2. changes of total vitamin C and reduced ascorbic acid contents during the Kimchi fermentation did not differ significantly from each other. At the begining of fermentation, Kimchi samples contained 20~25mg/100g of total vitamin C and 5~14 mg/100g of reduced ascorbic acid. In the final stage, however, 15~19 mg/100g of total vitamin C and 1~3 mg/100g of reduced ascorbic acid were remained. 3. The contents of thiam in and riboflavin were 30 to 42 meg/100g and 50 to 67 meg/100g at the initial stage, respectively. They increased with the degree of maturity (approximately 2 times of the content of the initial stage) and then gradually decreased. The content of $\beta$-carotene was found to be decreased with the degree of maturity. 4. The results of sensory evaluation indicated that Kimchi added with Ca-Carbonate, Ca-Carbonate+acetic acid and Ca-lactate were better than Control.

• The Korean Journal of Food And Nutrition
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• v.29 no.5
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• pp.706-715
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• 2016

Nutritional composition and physicochemical properties changes in mustard leaf kimchi were investigated during fermentation of up to 3 months. The pH decreased, and the titratable acidity gradually increased according to increase of fermentation periods. Fructose and glucose were the major free sugars in mustard leaf kimchi, and their amounts were significantly decreased with fermentation periods (p<0.05). Lactic acid content showed a significant increase with maximum increase at 3 months. All types of kimchi contained 20 amino acids, but the content of most amino acid fluctuated during fermentation. Except for K and Zn, the content of other ingredients including Ca, Fe, Mg, Na, Se were the highest in kimchi fermented for 2 months. The unsaturated fatty acid of mustard leaf kimchi was higher than that of saturated fatty acid, and total fatty acid of kimchi significantly decreased after 2 months (p<0.05). Most vitamin contents showed a tendency to decrease with fermentation, in particular, vitamin B complex except for $B_2$ significantly decreased after 3 months (p<0.05). The results provide fundamental data for determining the appropriate fermentation period to improve the quality of kimchi.

• Journal of the Korean Society of Food Science and Nutrition
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• v.30 no.2
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• pp.215-221
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• 2001

Mustard leaf kimchi added different ratios of pumpkin powder(P) and green tea powder(G) were investigated by measuring changes of physicochemical, microbiological and sensory characteristics during fermentation at 5℃. The pH and total acidity were changed slowly until 20 days, and then changed rapidly for 20∼40 days in all mustard leaf kimchi groups. The pH and acidity of mustard leaf kimchi added 0.5% G was the most slowly changed compared to the other groups. Reducing sugar content was highest in mustard leaf kimchi added 0.5% P at early stage of fermentation, but the reduing sugar content of this mustard leaf kimchi group was decreased more rapidly than those of the other groups during fermentation. The numbers of lactic acid bacteria and total bacteria were highest in 0.5% P added group and lowest in 0.5% G added group. The mustard leaf kimchi added 0.3% P and 0.2% G was relatively high in number of Leuconostoc sp., on the contrary low in Lactobacillus sp. compared to the other groups during fermentation. Changes of Hunter's color values, especially yellowness, and hardness were smaller in each mustard leaf kimchi added 0.5% G, and 0.3% P and 0.2% G than the other groups. Sensory scores of taste, odor and overall acceptability were highest in mustard leaf kimchi added 0.3% P and 0.2% G. Based on these results, it is suggested that mustard leaf kimchi added 0.3% P and 0.2% G was the best group among mustard leaf kimchi groups.

• Journal of the Korean Society of Food Science and Nutrition
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• v.17 no.4
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• pp.358-364
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• 1988

The effect of sodium malate buffer(SMB) on the fermentation of Kimchi was investigated. Chemical and microbial changes were investigated during fermentation of Kimchi containing 0,2,4 and 6% salt at $25^{\circ}C$. The fermentaton of lower salted Kimchi was taster than that of higher salted Kimchi. One percent addition of SMB, as pH adjuster, showed the retardation of Kimchi fermentation about 36 hours at $25^{\circ}C$. Due to the buffer action of SMB, the acidity was inclosed during the fermentation as concentration of SMB increased. The buffer action of SMB was increased during fermentation of Kimchi.

• Journal of the Korean Society of Food Science and Nutrition
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• v.21 no.1
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• pp.109-116
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• 1992

Kimchi is a very popular traditional fermented vegetable in Korea, however, contaminations of $NO_3$, $NO_2$ and nitrosamines in Kimchi were suspected. In this review, ingredients used in manufacturing Kimchi, kinds of Kimchi, microorganisms involved the fermentation and nutritional values of Kimchi are introduced. The quantitated levels of $NO_3$, $NO_2$ and secondary amines in the ingredients of Kimchi, and the changes of the contents of $NO_3$, $NO_2$ and nitrosamines during Kimchi fermentation were shown. The level of $NO_3$ during Kimchi fermentation reduced greatly, and the content of $NO_2$ was also trace amounts. NDMA is a major nitrosamine found in Kimchi, but the levels were trace or not detected.

• Food Science and Preservation
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• v.8 no.2
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• pp.151-156
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• 2001

Acetic acid solution containing calcium (AC) was added to kimchi seasonings by 10% and 205, and heat treatment at 70$\^{C}$ for 15 min was also tried, respectively. Kimchi with treated seasonings was investigated for the quality during fermentation at 10$\^{C}$. Heat treatment with 20% AC showed a retarded decrease pH than others on 10 days, but there was no great difference after 14 days. Higher titratable acidity was revealed in kimchi with AC during the fermentation. Total microbial lead and lactic acid bacterial count were generally lower in kimchi with AC. Reducing sugar content was maximum for all samples on 5 days, and then decreased thereafter. Redness of control kimchi was steadily increased during fermentation, but was lower than those of other treatments.

• Food Science and Preservation
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• v.10 no.3
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• pp.354-359
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• 2003

This study was conducted to investigate the fermentation characteristics of kimchi treated with different methods of water extracts of powdered green tea(GT). Four different kimchis, the SB-kimchi(control) which was not treatment of the extracts, SG-kimchi prepared with Chinese cabbage(CC) salted in 1％ GT containing 10％ brine, DG-kimchi prepared with CC dipped in 1％ GT for 30 min after salting, MS-kimchi prepared with the salted CC mixed with 1％ GT containing seasonings. All kimchis was fermented at 10$^{\circ}C$. The pH of treated-kimchis were maintained higher than those of control products during fermentation, but it showed no big difference between each treated groups. Total microbe of SB-kimchi(6.27-9.37 cfu/mL) was higher than those of GT-treated kimchi(5.17-9.20) during fermentation. The ratio of lactic acid bacteria against total microbe was higher than the treated kimchis. Total polyphenol content of kimchi was 52.75 mg％ in DG-kimchi, 47.71 mg％ in MS-kimchi, 44.89 mg％ in SG-kimchi, 30.70 mg％ in SB-kimchi on the 5th days of fermentation. Scores of crispy taste of SG- and DG-kimchi on the 5th days of fermentation was 4.03 and 4.01 points, respectively which was higher than control products. Scores of fishy and hot taste of GT-treated kimchi were lower than those of control products during all fermentation periods.

• Food Science and Preservation
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• v.10 no.3
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• pp.345-359
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• 2003

This study was conducted to investigate the fermentation characteristics of kimchi treated with different methods of water extracts of powdered green tea(GT). Four different kimchis, the SB-kimchi(control) which was not treatment of the extracts, SG-kimchi prepared with Chinese cabbage(CC) salted in 1％ GT containing 10％ brine, DG-kimchi prepared with CC dipped in 1％ GT for 30 min after salting, MS-kimchi prepared with the salted CC mixed with 1％ GT containing seasonings. All kimchis was fermented at 10$^{\circ}C$. The pH of treated-kimchis were maintained higher than those of control products during fermentation, but it showed no big difference between each treated groups. Total microbe of SB-kimchi(6.27-9.37 cfu/mL) was higher than those of GT-treated kimchi(5.17-9.20) during fermentation. The ratio of lactic acid bacteria against total microbe was higher than the treated kimchis. Total polyphenol content of kimchi was 52.75 mg％ in DG-kimchi, 47.71 mg％ in MS-kimchi, 44.89 mg％ in SG-kimchi, 30.70 mg％ in SB-kimchi on the 5th days of fermentation. Scores of crispy taste of SG- and DG-kimchi on the 5th days of fermentation was 4.03 and 4.01 points, respectively which was higher than control products. Scores of fishy and hot taste of GT-treated kimchi were lower than those of control products during all fermentation periods.

• Korean journal of food and cookery science
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• v.20 no.5
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• pp.511-519
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• 2004

The optional ingredient, Maesil juice, was adopted to improve the quality of Yulmoo Mul-Kimchi during fermentation. The final weight of the Maesil juice as a percentage of the water content in the Yulmoo Mul-Kimchi was adjusted to 0, 1, 3, 5 and 7%. The physicochemical, microbiological and sensory characteristics were determined during fermentation at 10$^{\circ}C$ over a 30 days period. After fermentation, the additions of 3 and 5% Maesil juice gave the highest pH values and lowest total acidities. With regard to the reducing sugars, the 3 and 5% treatments gave the highest contents. The number of the total cell count and lactic acid bacteria increased to their maxima during fermentation, but began to decrease during the latter stages. Here, the additions of 3 and 5% Maesil juice showed distinctive lower and higher numbers of total cells and lactic acid bacteria, respectively, during the latter stages of fermentation. With regard to the sensory evaluation on the addition of Maesil juice, the results obtained with 3 and 5% additions to the fermented Yulmoo Mul-Kimchi were favored for color, smell, sour and carbonated tastes and overall acceptability of the products. Therefore, the optimum levels of Maesil juice addition to Yulmoo Mul-Kimchi were estimated to be between 3 and 5%.