• Journal of the Korean Society of Food Science and Nutrition
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• v.26 no.3
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• pp.397-403
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• 1997

This study examined the changes of chemical components in Dongchimi when ginseng and pineneedle were added 0.1% and 0.3%, respectively. Those were fermented at room temperature for the first day and at 4$^{\circ}C$ from the second to 29th day. The contents of reducing sugar was significantly increased during fermentation, and showed the highest content in Dongchimi added pineneedle. The contents of proteins were also increased in the Dongchimi with pineneedle during 8 days of fermentation, while the others increased throughout 29 days of fermentation. The contents of non-volatile organic acids were 2.79~4.80 mg/100 ml at the end of fermentation, and the content of lactic acid was the highest among them. Free sugars of the Dongchimi were composited sucrose, glucose and fructose, and the contents of those were in the range of 227.4~247.0 mg/100ml in 8 days of fermentation, then increased to 705.2~943.7mg/100ml in 29 days. the Dongchimi contained 17 kinds of free amino acids except lysine, arginine were the majority of them, and sarcosine, $\beta$-aminoisobutyric acid and ${\gamma}$-aminoisobutyric acid were the major portion of amino acid dervatives.

• Journal of the Korean Society of Food Science and Nutrition
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• v.26 no.4
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• pp.575-581
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• 1997

This study was examined in the physical and sensory characteristics of Dongchimi when ginseng and pineneedle added with 0.1 and 0.3% respectively Dongchimi was at room temperature for first day and at 4$^{\circ}C$ from End to 28th day. Titratable acidity of Dongchimi was increased during 29 days of fermentation, and pH was decreased gradually during fermentation. The viscosity and turbidity were slowly increased in all Dongchimi during fermentation. The Hunter's ‘L’values lowered gradually after 22th day of fermentation however ‘a’values decreased but ‘b’values increased after 15th day of fermentation. Dongchimi added with pineneedle and ginseng showed higher scores for carbonate flavor, sour taste, fresh-taste and color than those of non-treated Dongchimi. Dongchimi added with ginseng had lower sensory evaluation scores than those of others.

• Korean Journal of Soil Science and Fertilizer
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• v.46 no.6
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• pp.556-562
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• 2013

The blueberry eco-friendly farming requires the soil condition of pH 4.2 ~ 5.2 and high in organic matters for stable growth. Most of soil types of blueberry-growing land in Korea, however, belongs to alkaline soils with low organic matter content. As a result, the eco-friendly blueberry growers use peat moss and sulfur powder heavily to improve the soil condition, but the guideline on the effective use of organic materials was not established yet. Therefore, this sturdy was performed to investigate the effect of increasing soil acidity and organic matters by using organic materials. Among 5 organic materials, the pH of soil was lowest in degradable sulfur + bentonite (pH 4.1) and followed by Peat moss+Chaff+Pine Needlesmixtures(pH 4.5), OrganicAcid +vinegar (pH 4.7), Sulfur powder (pH 4.8), Temperature response Elutioner (pH 5.2). The soil organic matter content were increased in the following order: Peat moss+Chaff+Pine Needlesmixtures (8.4%) > degradable sulfur + bentonite (7.8%) > Organic Acid + vinegar (7.2%) > Sulfur powder ${\fallingdotseq}$ Temperature response Elutioner (6.3%). Although different in the degree, all organic materials treated was recognized a good material for improving soil pH and organic matter content. The plant height and stem diameter of blueberry were no clear difference among 5 organic materials. Another study was carried out to investigate amending soils with organic matter by soil mulching with pine needles for soil surface management in blueberry organic cultivation. The effect of increasing the soil pH by pine needle mulching in blueberry eco-friendly farming was recognized in four test fields. Pine needle mulching for soil surface management in blueberry appeared several advantages, such as improving of soil pH and organic matter content. Therefore, pineneedle mulching in blueberry organic farming is considered as the most efficient means of mulching cultivation for amending soil pH, weed suppression and moisture conservation among mulching materials.

• Journal of the Korean Society of Food Science and Nutrition
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• v.25 no.6
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• pp.899-906
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• 1996

The physicochemical and microbiological studies were conducted to examine the effect of pineneedle(Pinu densinora Seib. et Zucc) sap on the Kimchi fermentation. Kimchi with the addition of various levels(0, 0.5, 1.0, or 1.5%) of pine needle sap was fermented either at $4^{\circ}C$ for 15 days after placing at room temperature for 24 hours(Group A) or at $15^{\circ}C$ for 15 days(Group B). pH reached the optimal value of Kimchi fermentation(pH 4.2) on day 3 and day 4~7 in 0% treatment and pine needle sap treatments, respectively, which indicated that shelf-life of Kimchi was extended by 1~4 days by the addition of pine needle sap. Total acidity was decreased by the addition of pine needle sap. More rapid decrease in pH and increase in total acidity were observed in Group B than in Group A. Reducing sugar content was reduced to approximately 80% by day 4~5 in all treatments. Total vitamin C content was reached peak on day 1 of fermentation and then decreased in all treatments. Reducing sugar and total vitamin C contents were slightly increased by the addition of pine needle sap due to the components present in pine needle sap. Total viable cell number rapidly increased to reach Peak on day 3 and then slowly decreased during the fermentation. However, total viable cell number as well as reducing sugar and total vitamin C contents did not differ between Group A and Group B. In Group A, Lactobacillus cell number in 0% treatment continued to increase to reach peak on day 9, while the numbers in pine needle sap treatments reached Peak on day 5~9 and then gradually decreased throughout the fermentation. Unlike in Group A, Lactobaillus cell numbers in pine needle sap treatments in Group B continued to increase to reach Peak on day 7. As pine needle sap levels increased, total viable cell number and Lactobacillus cell number decreased regardless of fermentation temperatures. The results of this study indicate that pine needle sap causes to delay the Kimchi fermentation by slowing down pH drop and inhibiting the Lactobacillus cell growth.