• Food Science of Animal Resources
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• v.34 no.5
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• pp.582-590
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• 2014

The effect of mugwort extract (ME) and vitamin C (VC), added individually or in combination, on color, lipid oxidation, and sensory characteristics of chicken nuggets stored for 12 d was investigated. Eight treatments of chicken nuggets contained the following: Control (no antioxidant added), VC (0.05% VC), ME 0.05 (0.05% ME), ME 0.1 (0.1% ME), ME 0.2 (0.2% ME), VC+ME 0.05 (0.05% VC + 0.05% ME) and VC+ME 0.1 (0.05% VC + 0.1% ME), VC+ME 0.2 (0.05% VC + 0.2% ME). Results showed that the mixture of 0.05% VC and 0.2% ME was most effective for delaying lipid oxidation (thiobarbituric acid reactive substances, conjugated dienies, and peroxide formation) when compared to the control or ME alone added. The color values of all treatments were significantly affected by adding ME. Additionally, the total color difference (${\Delta}E$), chroma ($C^*$), and hue angle ($H^{\circ}$) values of all treatments, except for VC, were lower than those of the control as the amount of ME increased. The sensory characteristics (flavor, odor, and overall acceptability) did not differ significantly in any of the chicken nugget samples, whereas storage time had a significant effect. The results suggest that the possibility of utilizing chicken nuggets with a mixture of mugwort extract and vitamin C for the increase of shelf-life and quality.

• Korean journal of food and cookery science
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• v.31 no.6
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• pp.725-732
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• 2015

This study was conducted to evaluate the effects of ethanol on the prolongation of the shelf-life of kimchi paste. Kimchi paste was prepared by adding 0.5~3.0% ethanol, and then stored at $4^{\circ}C$ for 35 days. The retardation of kimchi paste fermentation was evaluated by measuring chemical, microbial, and sensory characteristics. Titratable acidity and pH showed a slight difference, depending on the ethanol concentration. The titratable acidity showed the low content in kimchi paste with 3.0% ethanol during fermentation, whereas the pH showed a reverse tendency, indicating that fermentation was inhibited under a high ethanol concentration. The changes in the sugar-reduced contents were similar to that of the pH. The growth of microorganisms such as total aerobic bacteria, lactic acid bacteria, yeasts and molds in kimchi paste during fermentation were inhibited by ethanol, and the addition of 3.0% ethanol was most effective to inhibit the microbial growth. The number of coliform bacteria was decreased during fermentation of kimchi paste and not detected in any sample at 35 days, except for kimchi paste with 3.0% ethanol. In sensory evaluation, the addition of 0.5~1.5% ethanol in kimchi paste was showed no significant difference on sensory properties compared to the kimchi paste without ethanol (p<0.05). As a result, it is considered that the addition of 1.5% ethanol is the most appropriate to maintain the quality of kimchi paste, without the changing the flavor.

• The Korean Journal of Food And Nutrition
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• v.15 no.3
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• pp.241-249
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• 2002

In this research, we targeted to see if there was difference of shelf$.$lives of two different species cucumber. We pickled domestic and exporting cucumber to make comparison while they were fermented and stored. As for the domestic cucumber we choose CHICHEONG and for the exporting cucumber we choose special BAEKSEONG and SHARP 1. We blanched them and soaked them into hot saline water for 8 hours. Two kinds of Cucumber Kimchi were at room temperature for first day and 5'c from 2nd to 28th day. It was found, from the results, that all of samples of pH reached at 3.5 $\pm$ 0.1 on the 14th day of fermentation. The titratable acidity of the control increased on 14th day of fermentation, which was bit late than change of others. The reducing sugar contents of the control did not decrease until 7th day of fermentation while reducing sugar contents of others decreased gradually from the beginning. The patterns of Microfloral changes of two kinds of Cucumber Kimchi were similar during fermentation period. The number of total cell increased up to 14th day, similary the numbers of lactic acid bacteria increased up to 14th day then barely decreased. The hardness of the control was bit higher than others when it was measured on 14th day of fermentation. The sensory evaluation of Cucumber Kimchi with different species showed that both species had siginificant high negative scores in green color and crispness when those were compared between fermentation time and samples.

• The Korean Journal of Food And Nutrition
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• v.13 no.4
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• pp.319-327
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• 2000

This study was conducted to prolong the edible period of Kimchi by adding chitosan (0.25, 0.5%) and sodium salts of various organic acids(0.01~0.04M citrate, malate, lactate) . The edible period was estimated by measuring changes in pH. titratable acidity(TA), PH/TA ratio, ascorbic acid content and pectin fraction during Kimchi fermentation at 2$0^{\circ}C$. The results were compared by estimating the maturity of Kimchi fermentation. Kimchi with the chitosan showed higher pH and titratable acidity throughout the fermentation period than that without chitosan. The pH decreased during the fermentation in the order of control, 0.25% chitosan, 0.5% chitosan, 0.5% chitosan+Na-citrate, 0.5% chitosan+Na-malate and 0.5% chitosan+Na-lactate. But the titratable acidity increased in the order of control, 0.5% chitosan+Na-malate, 0.25% chitosan. 0.5% chitosan+Na-citrate, 0.5% chitosan and 0.5% chitosan+Na-lactate. The PH/TA ratio decreased in the order of control, 0.25% chitosan, 0.5% chitosan+Na-malate, 0.5% chitosan, 0.5% chitosan+Na-citrate and 0.5% chitosan+Na-lactate. Ascorbic acid content in Kimchi was the highest at the 3rd day and then decreased during fermentation. Ascorbic acid content in Kimchi containing 0.5% chitosan and organic acid salts was higher than others. Alcohol insoluble solids( AIS ) in Kimchi decreased during fermentation in the order of control, 0.25% chitosan, 0.5% chitosan, 0.5% chitosan+Na-palate. 7.5% chitosan+Na-lactate and 0.5% chitosan+Na-citrate. During fermentation, hot water soluble pectin (HWSP) of control increased, whereas HCI soluble pectin (HCISP) decreased. By addition of chitosan, however, the results became reverse. Chitosan addition appeared to be effective in improving preservation quality of Kimchi during fermention. The edible period become extended by using chitosan plus organic acids instead of using chitosan only. Overall. addition of 0.5% chitosan+Na-lactate seemed most effective in prolonging the edible periods during Kimchi fermentation.

• Korean Journal of Food Science and Technology
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• v.32 no.4
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• pp.889-895
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• 2000

This study was conducted to investigate the utilization of xylose and xylitol on Lactobacillus species isolated from Kimchi and their effect on the pH, titratable acidity, microorganism and formation of organic acids in Kimchi during fermentation at $10^{\circ}C$. Five species among six Lactobacillus species isolated from Kimchi could not utilize medium with xylose. All the Lactobacillus species isolated from Kimchi could not utilize medium with xylitol. The pH of Kimchi samples were similar to that of control Kimchi. The titratable acidity of Kimchi with xylose or xylitol was lower than that of control. This agreed to the degree of formation of lactic acid during fermentation of Kimchi. Formation of lactic acid for Kimchi with xylitol was lower than those of others. Therefore, shelf-life of Kimchi with xylitol could be extended.

• Journal of the East Asian Society of Dietary Life
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• v.11 no.5
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• pp.379-385
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• 2001

The effects of lactic acid bacteria from kimchi fermentation, specifically Lactobacillus plantarum(LP) and Leuconostoc mesenteroides (LM) on the quality of the bread product was investigated. The two types of bacteria were cultivated in the sterilized radish juice used for kimchi fermentation. The concentration of bacteria was measured at 3.0$\times$10$^{9}$ ~3.3$\times$10$^{9}$ /mL. The bacteria were added at the ratios of 5% and 10% to a mixture with wheat flour before subsequent dough fermentation. An LM+LP treatment to the mixture was also made at 5% of LP and 5% of LM. The measured pH in the dough with LM+LP was the lowest among all of treatments. The products of 5% LM treatment showed the shortest fermentation time. Loaf production by volume was the highest from the 10% LM treatment. The % of moisture loss of the bread during the shelf-storage was less when treated with lactic acid bacteria than when left untreated. The least moisture loss was observed when the bread was treated with the LM+LP mixture. Hardness of the bread also decreased with the presence of lactic acid bacteria. The order of hardness was: control > 5% LP > LM+LP > 5% LM > 17% LM > 10% LP. Staling degree of the bread when treated with lactic acid bacteria was lower than that of the control. The least staling occurred when treated with LM 10% and LP 10%.

• Food Science and Preservation
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• v.10 no.3
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• pp.278-283
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• 2003

Addition of ethanol and/or polylysine to kimchi was investigated to improve its microbial hygienic quality and to extend shelf-life. Ethanol was added to kimchi with several concentrations(0.3％, 0.6％, 0.9％) and stored at 10$^{\circ}C$. Addition of 0.6％ and 0.9％ ethanol showed apparent inhibitory effect on growth of microorganism, but any distinct difference was not found between those concentrations. Addition of ethanol was more effective on growth inhibition of coliform and lactic acid bacteria than others. Addition of 0.6％ and 0.9％ ethanol retarded apparently pH decrease and acidity increase. Although addition of 0.6％ ethanol in combination with 0.12％ polylysine showed good retardation of pH decrease and acidity increase, overall organoleptic quality was not good because of off-flavor and taste. Also, addition of 0.6％ ethanol showed good overall organoleptic quality.

• Korean Journal of Food Science and Technology
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• v.22 no.6
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• pp.707-710
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• 1990

To extend the shelf-life of kimchi, effective temperature in preparing room and salts concentration of product were monitored. The temperature in preparing room was excellent at $15^{\circ}C$ than $25^{\circ}C$ and effective salt concentration was 3.0% for storage. Under the these conditions, preservation temperature was desirable at $-1{\pm}1^{\circ}C$ and can be stored over 120 days. When the storaging temperature was $-5^{\circ}C$, it showed to freeze the tissue and juice of kimchi. The advisable packing time for storage was just after mixing.

• Journal of the Korean Society of Food Science and Nutrition
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• v.30 no.5
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• pp.834-838
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• 2001

To investigate the effect of boiled-dried fusiforme for making kimchi, it was added as 0.1, 0.3 and 0.5% to brined Chinese cabbage by weight, respectively. Quality characteristics such as pH, titratable acidity, reducing sugar content, microbial loads were measured. Titratable acidity of 0.1% treatment showed a retarded increase compared to other samples, and maintained a higher reducing sugar content. Lactic acid bacteria numbers of boiled-dried fusiforme added kimchi were lower approximately by 2 log$_{10}$ CFU/mL after 10 day, which value was almost same as the control group. A 0.1% treatment of boiled-dried fusiforme showed no significant differences compared to the control in sensory evaluation.

• Korean Journal of Food Science and Technology
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• v.26 no.6
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• pp.770-775
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• 1994

Kimchi packed in polypropylene(PP) tray was stored at different temperatures (0, 10, $20^{\circ}C$) to investigate the relationships between fermentative gas pressure and quality changes. The quality of Kimchi during storage was evaluated in terms of pH, titratable acidity, color, and sensory properties. The fermentative gas pressure changes due to $CO_2$ evolution showed typical sigmoidal curves at each temperature. Accordingly, inflation of Kimchi packages caused by increasing gas pressure occurred in 40 hours, 5 and 30 days at 20, 10, $0^{\circ}C$ , respectively, at which gas pressure inside the packages ranged $1.2{\sim}1.4\;psig$. Following inflation, Kimchi packages stored at 20 and $10^{\circ}C$ were burst out on 3 and 8 days, but those at $0^{\circ}C$ were not. As the fermentative gas pressure increased, pH decreased (r > 0.968) and titratable acidity increased (r > 0.973) proportionally. Regarding to the color change of crushed Kimchi juice, L and b values were decreased exponentially, but a value remained constant during storage. Among sensory properties, the sourness and texture scores showed good accordance with pH changes. In conclusion, although Kimchi kept optimal tastes during storage, the inflation of package restricted shelf-life of Kimchi.