• Korean Journal of Food Science and Technology
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• v.34 no.4
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• pp.647-651
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• 2002

Eleven salt replacements$(SR-1{\sim}SR-11)$ composed of NaCl, KCl, $MgSO_4,\;CaSO_4$, lysine or glutamic acid were prepared and used for the preparation of low salt Kimchi instead of NaCl alone. Some chemical and microbiological characteristics of the low-salt Kimchi with 2.5% salt replacement were determined during the fermentation at $20^{\circ}C$. The pH decrease and acidity increase of low-salt Kimchi were slower than those of control Kimchi with NaCl alone. The total number of microorganism in SR-8 Kimchi added L-lysine was lower than that of control Kimchi until 5 days of fermentation. However, there was no difference in the numer of lactic bacteria between low-salt Kimchi and control Kimchi. The growth of yeasts was found to be slow in low-salt Kimchi with SR-8. The low-salt Kimchi with SR-3 showed the hardest texture among the prepared Kimchi. The overall acceptabilities of low-salt Kimchi prepared with SR-1, SR-3 composed of NaCl, KCl, $MgSO_4,\;CaSO_4$, and SR-10 added 0.2% glutamic acid to the elements were similar to the control Kimchi.

• Food Science and Preservation
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• v.18 no.2
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• pp.256-265
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• 2011

To investigate the effect of a solar salt on Kimchi fermentation, Chinese cabbages were brined with four-years aged solar salt (FS), one-year aged solar salt (OS), and purified salt (PS). The Kimchi was fermented at $7^{\circ}C$ for 33 days. The changes in pH and acidity of the Kimch brined with PS was slower than those of Kimchis brined with FS and OS. In the Kimchis with FS and OS, lactic acid bacteria (LAB) counts increased from 7.10~7.22 log CFU/mL at 0 day to 9.26~9.42 log CFU/mL at 12 days, after which counts slightly decreased to 8.04~8.75 log CFU/mL by 33 days of fermentation. The LAB counts of the kimchi with PS slowly increased from 7.24 log CFU/mL at 0 day to 8.99 log CFU/mL at 27 days, after then which counts sharply decreased to 7.92 log CFU/mL by 33 days of fermentation. Yellowness (b) color values of the kimchi with PS (59.10) was higher than the Kimchi with FS (53.68) and the Kimchi with OS (53.77). Hardness of the Kimchi with FS was more firm than the other Kimchis after 33 days storage. Sensory evaluation of the Kimchi with FS showed higher score than that of the other Kimchis.

• Korean journal of food and cookery science
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• v.13 no.5
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• pp.569-577
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• 1997

The characteristics of an watery type Kimchi prepared without the addition of red pepper, were investigated focused on the effect of salt concentration and fermentation temperatures. The Chinese cabbage was brined in various NaCl solution to obtain the final salt concentration range of 0.5∼3.0% of the brined cabbage. Fermentation of Baik Kimchi was carried out at 10, 20, 30$^{\circ}C$ with addition of equal weight of water to brined cabbage. The result showed that the fermentation was generally increased as the NaCl concentration decreased for all temperatures based on the data of pH and total acidity. The higher temperature resulted in an increase in fermentation rate in terms of pH and total acidity. The organoleptic flavor properties of fresh sourness and acidity were significantly affected by NaCl concentration and fermentation temperatures. The Baik Kimchi prepared with 1.0% NaCl and fermentation at 30$^{\circ}C$ was found to be most acceptable.

• Food Science and Preservation
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• v.20 no.4
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• pp.518-523
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• 2013

This study was performed in order to evaluate the quality properties of Kimchi containing 0%, 10%, 20%, and 30% of oriental melon peel parts. The Kimchi was fermented for 28 days at a temperature of $15^{\circ}C$. The pH, titratable acidity, total microbial counts, and lactic acid counts were measured, and the sensory characteristics including taste, color, chewiness, and overall acceptability were evaluated. During the 28 days of fermentation, the pH dramatically decreased between the 7th and 21st day of the fermentation period, and maintained thereafter in control (0%). However, the pH in peel-added groups slightly increased up to the 14th day and decreased up to the 21st day with 4.13~4.41. The total microbial counts in control were significantly higher than those in the peel-added groups. This trend was maintained throughout the fermentation period. A similar trend was found in the lactic acid microbial counts throughout the fermentation period. During the sensory analysis, the values of taste were significantly higher in the 20% and 30% peel-added Kimchi, while the chewiness and overall acceptability were significantly higher in the 20% peel-added Kimchi than those in control. This study showed an improvement in the storage period of Kimchi products with 20% of oriental melon peel, as well as the possibility of a commercial Kimchi manufacture.

• Korean Journal of Food Science and Technology
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• v.28 no.5
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• pp.806-813
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• 1996

Five strains of psychrotrophic lactic acid bacteria which had been isolated from kimchi were inoculated as kimchi starters, and then their effects were investigated during fermentation at $8^{\circ}C$. The initial numbers of Gram negatives and coliforms in no-starter-inoculated kimchi were $4.0{\times}10^{6}CFU/ml\;and\;3.2{\times}10^4CFU/ml$ respectively, while these of lactic acid bacteria were only $1.6{\times}10^3CFU/ml$. Starter-inoculated kimchi showed sharp decreases in Gram negatives and coliforms from initial stage, but no-starter-inoculated kimchi showed slow increases in those bacteria in the early stage, and sharp decreases after 10 days. It took 10 days in no-starter-inoculated kimchi, $4{\sim}6$ days in Leuconostoc-inoculated kimchi and 2 days in Lactobacillus-inoculated kimchi for lactic acid bacteria to reach stationary phase of growth. No-starter-inoculated kimchi required 10 days to reach optimum ripened state, while all starter-inoculated kimchi samples required 4 days. The inoculations of all these starters did not cause over acidifications. Remarkable softening occurred in Leu. dextranicum-inoculated kimchi in 6 days, but did not in the rest. Except the Leu. paramesenteroides-inoculated kimchi, the qualities of Leuconostoc-inoculated kimchi were as good as those of no-starter-inoculated kimchi, but those of Lactobacillus-inoculated kimchi were not so good.

• Korean Journal of Food Science and Technology
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• v.46 no.4
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• pp.456-464
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• 2014

Kimchi was prepared with three types of salt (4-year-aged solar salt, FS; 1-year-aged solar salt, OS; and purified salt, PS), using Leuconostoc citreum GJ7 as the starter culture. The prepared kimchi was fermented (up to 0.5-0.6% of acidity) and stored for 5 months at $-1^{\circ}C$. During the storage period, the acidity of FS kimchi increased gradually, whereas that of PS kimchi increased sharply. The yellowness (b) color value of PS kimchi (63.4) was higher than that of other kimchis with solar salts (55.6-60.3). Hardness of FS kimchi (1,912.6 gf) was greater than that of the other kimchis (1,554.4-1,650.2 gf) during the storage period. Moreover, sensory evaluation showed higher scores for FS kimchi than for other kimchis. These results suggest that FS is more suitable salt than PS for long-term storage of kimchi.

• Journal of the Korean Society of Food Science and Nutrition
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• v.26 no.4
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• pp.563-568
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• 1997

Changes of chlorophylls and carotenoids and antioxidative characteristics of crude chlorophylls and carotenoids(CCC) of mustard leaf kimchi(MLK) were investigated during the fermentation at 15$^{\circ}C$ for 25 days. At the beginning of fermentation chlorophylls were decreased rapidly, however, all chlorophylls and chlorophyllides were converted to pheophytins and pheophorbides at the final stage of fermentation. Total chlorophyll content remained constantly during the fermentation but 43.7% destruction of carotenoids was observed at 25 days of fermentation. Antioxidative activities of CCC from MLK against autoxidation of linoleic acid were significant(p<0.05) and much higher than those of $\alpha$-tocopherol. Fermentation period did not affect antioxidative activities of CCC of MLK. When the CCC of MLK was added to the autoxidation system of linoleic acid, degradation of total chlorophylls were observed to be slower than that of total carotenoids.

• Microbiology and Biotechnology Letters
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• v.30 no.4
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• pp.415-419
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• 2002

The replacement effects of cheese far salted and fermented fish on growth of lactic acid bacteria, fermentation velocity and sensory characteristics of Kimchi were investigated. In both control and cheese Kimchi, the total viable cell count of lactic acid bacteria was increased rapidly during the initial 2 days of fermentation. From 3 days after preparation, Kimchi added with cheese showed higher number of lactic acid bacteria than control Kimchi. The pH of Kimchi decreased rapidly after a small increase at the first day of fermentation, reaching 4.18-4.33 at the third day of fermentation, and the pH was slightly lower in Kimchi added with cheese than in control. Proximate analysis of Kimchi added with cheese was slightly higher in moisture and lower in crude protein and fat than control Kimchi. Sensory evaluation of the Kimchi fermented for 3 days showed that the Kimchi added with 3 or 5% of cheese had higher scores of appearance, flavor and overall taste than the control Kimchi.

• Korean journal of food and cookery science
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• v.18 no.3
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• pp.290-299
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• 2002

An optional ingredient Perilla Seed paste was adopted to improve the quality of Yulmoo Mul-kimchi during fermentation. The final weight percentage of perilla seed paste in Yulmoo Mul-kimchi was adjusted to 0, 10, 20, 30, and 40% per water respectively. Chemical and sensory characteristics were determined during fermentation at 10$\^{C}$ for 25 days. The effect was varied depending on the amounts of perilla seed paste, but Yulmoo Mul-kimchi fermented with 20% perilla seed paste was most favored for color, smell, sour taste, carbonated taste, texture and overall acceptability in the sensory evaluation. The pH decreased with the increase of total acidity. The total vitamin C content increased initially to the certain level at a certain time of fermentation depending on the level of perilla seed paste, and then decreased later. In case of reducing sugar, the 20% treatment showed the highest content. Turbidity values were generally increased in all samples during fermentation, even though the extents were limited. Total plate count and the number of lactic acid bacteria were gradually increased and then decreased showing the maximum microbial counts during fermentation. The optimum levels of perilla seed paste in Yulmoo Mul-kimchi obtained through experiments were between 20 and 30% of added water content, preferably 20% for color, fermentation-retarding effect, and sensory taste of the product.

• Journal of the East Asian Society of Dietary Life
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• v.22 no.3
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• pp.408-413
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• 2012

This study aimed to evaluate the physiochemical properties and fermentation qualities of kimchi supplemented with yacon (Smallanthus sonchifolius) during fermentation. Kimchi supplemented with 0%, 0.1%, 0.5%, 1%, and 5% yacon were investigated. As fermentation proceeded, pH decreased from 5.5~5.7 on the first day to 4.6~4.8 on day 21, whilst total titratable acidity (TTA), lactate levels, and number of microbes increased. The kimchi with 5% yacon showed a higher production of lactate concentration at 7 days fermentation than other groups, which is consistent with the observed high numbers of viable Leuconostoc sp. cells at 7 days fermentation. These observations demonstrate that 5% yacon stimulates the growth of kimchi microbes, particularly of Leuconostoc sp..