• 한국약용작물학회지
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• 제19권5호
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• pp.313-318
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• 2011

This study was carried out to utilize the byproducts (flower, immature and mature berry, leaf and stem) of ginseng. Yield of byproducts were $32.7{\pm}9.8g$ in flower, $68.2{\pm}2.2g$ in immature berry, $48.5{\pm}4.3g$ in mature berry, $316.2{\pm}20.5g$ in leaf, and $296.6{\pm}15.4g$ in stem per $3.3m^2$ ($180{\times}90cm$, ginseng root $675.5{\pm}35.7g$/drybasis. The total saponin contents of ginseng byproducts and root are $52.36{\pm}1.24$, $68.71{\pm}1.98$, $168.89{\pm}0.57$, $68.26{\pm}1.32$, $7.85{\pm}0.61$ and $35.08{\pm}0.96$ mg/g, respectively. The main ginsenoside of all byproducts was Re and the highest content was $132.23{\pm}1.56$ mg/g in mature berry. But flower and berry was not detected Rf and Rh1, respectively. Total polyphenolic compound content on mature berry was the highest, $2.242{\pm}0.140%$, after, immature berry > leaf > flower > root > stem order. The DPPH radical scavenging activity on mature berry was the highest, $0.115{\pm}0.004$ mg/mL($IC_{50}$), and the others were the same order of polyphenolic compound and ginsenoside content on byproducts.

• 한국토양비료학회지
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• 제17권4호
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• pp.371-374
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• 1984

인삼재배포장(人蔘栽培圃場) 선정(選定)의 통계적(統計的) 모형(模型)을 설정(設定)코자 홍삼포(紅蔘圃) 6년근(年根) 27개소(個所)에서 근수량(根收量)과 토양(土壤)의 주요(主要) 이(理), 화학성(化學性)을 조사(調査)하여 그들 상호간(相互間)의 상관관계(相關關係)를 검토(檢討)하고 조사전(調査前) 이들 인자(因子)들로 근수량(根收量)의 여측(予測)이 가능(可能)한가를 조사(調査)하였던 바 그 결과(結果)는 다음과 같다. 1. 6년근포장(年根圃場)의 근수량(根收量)은 $1.85{\pm}0.54kg/3.3m^2$였고 근수량(根收量)과 공극(孔隙), 점토(粘土), 점토(粘土)와 미사함량(微砂含量), 유기물(有機物) 및 CEC와는 각각(各各) 정(正)의 상관(相關)이, 유효인산함량(有效燐酸含量)과는 부(負)의 상관(相關)이 인정(認定)되었다. 2. 공극(孔隙)($X_1$), 점토(粘土)($X_2$), 입토(粒土)와 미사함량(微砂含量)($X_3$), 유효인산함량(有效燐酸含量)($X_4$), CEC($X_5$)를 조합(組合)한 회귀방정식(回歸方程式)으로 근수량여측(根收量予測)이 가능(可能)하였으며 그 이론식(理論式)은 $Y=-1.175+0.033X_1-0.04X_2+0.012X_3-0.001X_4+0.171X_5$였다. 3. 근수량(根收量)의 관여도(關與度) 지표(指標)인 표준편회귀계수(標準偏回歸係數)는 CEC 0.3799, 점토함량(粘土含量) 0.1550, 공극(孔隙) 0.0890 점토(粘土)와 미사함량(微砂含量) 0.0599, 유효인산(有效燐酸) -0.0138순(順)이었다.

• 한국작물학회지
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• 제47권3호
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• pp.211-215
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• 2002

충청북도 증평의 독농가가 재배한 4년생 인삼의 지상부 및 지하부의 주요 생육특성, 뿌리수량 및 주요 작물학적 특성의 상관을 생육시기별로 조사하였으며, 그 결과를 요약하면 다음과 같다. 1. 4년생 인삼의 잎의 생장은 4월 중순(출아기)에서 5월 중순까지 급격히 진행되어 5월 중순이 되면 생육이 대체로 완성되며, 줄기는 8월 중순까지 계속 신장하였다. 2. 근생체중은 4월(20.7g)부터 6월(18.2g)까지는 감소하나 그 이후 10월(45.1g)까지 계속 증가하였다. 3. 칸당 수삼 수량은 4월에 1.5kg이었으나 5월과 6월에 각각 1.2kg 및 1.3kg으로 감소의 양상을 나타내었고, 6월 이후 다시 증가하여 10월에는 2.9kg으로 최대의 수량을 나타내었다. 4. 생육시기별로 수확한 4년생 인삼의 주요 작물학적 생육특성의 조사 형질 중 동장을 제외한 모든 생육 특성은 근중과 고도로 유의한 정의 상관을 나타내었다. 5. 4년생 인삼의 관행적 수확기는 9월-10월로 알려져 있으나 건근중 및 수삼의 수량을 고려할 때10월 중순으로 늦추는 것이 보다 유리한 것으로 조사되었다.

• 한국식품영양과학회지
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• 제28권2호
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• pp.409-416
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• 1999

Microwave extraction system equipped with closed vessels was applied to confirm its capability of extracting ginseng solubles including saponin, which was monitored to optimize extraction con ditions by response surface methodology. Total yield increased with the decrease in particles size and more extraction steps. Soluble components were completely extracted by operating the system within 6 min per one step, which should be repeated by 3 or 4 times. Optimized conditions for maxi mum extraction of response variables(total yield, crude saponin) were 40~50% of ethanol concentration, about 140oC of extraction temperature, and within 6 min of the extraction time. The extraction effi ciency of total yield was dependent on the decrease of ethanol concentration, while crude saponin content was favored on the higher degree of ethanol concentration. According to the temperature guideline, below 90oC of extraction temperature, the optimal ranges of extraction conditions were predicted as 30~50% of ethanol concentration and 2.5~6.5 min of extraction time. Estimated values of total yield and crude saponin were in good agreement with experimental values.

• 농업과학연구
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• 제27권1호
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• pp.1-4
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• 2000

본 시험은 미생물제제의 토양처리가 고려인삼의 생육 및 수량에 미치는 영향을 조사하기 위하여 실시하였다. 미생물제제의 토양처리는 고려인삼의 생육 및 수량증대에 크게 작용하였다. 미생물제의 토양처리로 5개월 후에 인삼의 생체중이 32-68% 증가하였다. 미생물제제에 의한 생육촉진 및 수량증대효과는 근권의 미생물상의 변화에 기인된 것으로 추정된다.

• 한국약용작물학회지
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• 제20권2호
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• pp.89-93
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• 2012

An important factor in the production of organic ginseng is the control of $Alternaria$ blight and anthracnose, which mostly affect the leaves in the summer. We compared the effects of a lime-bordeaux mixture (LBM) and agricultural chemicals on the growth characteristics and ginsenoside content in 4-year-old ginseng plants when they were sprayed at 15-day intervals from mid-June to the end of September. The increases in leaf length, and survive-leaf ratio in plants sprayed with LBM were greater than the increases of the control plants, but less than those of agricultural chemicals treatment. The root weight per plant in the plants sprayed with LBM increased more distinctly than that in the control plants, while it was significantly lower than that in plants sprayed with agricultural chemicals. The root yield in plants sprayed with LBM increased by 21% compared to the root yield in the control plants, but decreased by 7% compared to that in plants sprayed with agricultural chemicals because of the decreases in leaf area and survive-leaf ratio. Spraying of LBM had a significant effect on the ginsenoside contents. The total ginsenoside content was highest in the control plants and lowest in the plants sprayed with agricultural chemicals and total ginsenoside contents was great relative to survive-leaf ratio and root weight.

• 농업과학연구
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• 제39권1호
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• pp.35-41
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• 2012

This research was conducted to investigate the influence of organic bed soil substrates on growth and yield of organically grown ginseng transplantation in a shaded plastic houses. The pH and EC of the substrates used for this study were 5.93-6.78 and 0.03-0.15 dS/m, respectively. The concentrations of NH4-N and $NO_3$-N were 14.01-68.63 mg/L, 5.60-58.83 mg/L respectively. and the average quantum in the shaded plastic houses was 11-15% of natural light. The maximum temperature in the shaded plastic houses is higher ($3-7^{\circ}C$) than that of outside open field from the last part of April to early in August. Emergence date of ginseng was on March 21 in the mongolian type shaded plastic house, and was on March 29 in normal type shaded plastic house. Both roots and shoot growth of ginseng were excellent in the bed soils with PPV-2, compared with other compounds used. We concluded that the PPV-2 could be promising a good bed soil substrate for organic ginseng cultivation in shaded plastic house.

• 한국약용작물학회지
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• 제23권1호
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• pp.27-36
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• 2015

Shading and soil environment are the main factors of growth and yield in ginseng (Panax ginseng C. A. Meyer). Ginseng yield is directly related to survival rate because of increased missing plant for their growing period. Under field conditions, diseases and pests significantly affect plant survival rate. We evaluated the seedling establishment, growth and ginsenoside of the ginseng plants, under controlled management conditions in a plastic greenhouse, when their treated with different types of organic matter. Ginseng seeds were sown at a rate of three seeds per hole, and the seeding space measured $10cm{\times}15cm$. Compared to the control, treatment of cattle manure vermicompost (CMV) was shown to increase seedling establishment and decrease ginsenoside content. Root weights of plants treated with CMV were higher than those of plants treated with other types of organic matter. In addition, seedling establishment of 2-year-old ginseng plants was decreased when it was compared to that of 1-year-old ginseng plants. Our results indicated that organic matter type and rate were associated with seedling establishment, growth characteristic and ginsenoside content in greenhouse of ginseng direct-sowing culture.

• Journal of Ginseng Research
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• 제4권1호
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• pp.104-120
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• 1980

The effects of temperature on transpiration, chlorophyll content, frequency and aperture of stomata, and leaf temperature of Panax ginseng were reviewed. Temperature changes of soil and air under spade roof were also reviewed. Growth responses of responses of ginseng plant at various temperature were assessed in relation to suseptibillity of ginseng plants. Reasonable management of ginseng fields was suggested based on the response of ginseng to various temperatures. Stomata frequency may be increased under high temperature during leaf$.$growing stage. Stomata aperture increased by high temperature but the increase of both frequency and aperture appears not enough for transpiration to overcome high temperature encountered during summer in most fields. Serial high temperature disorder, i.e high leaf temperature, chlorophyll loss, inhibition of photosynthesis, increased respiration and wilting might be alleviated by high humidity and abundant water supply to leaf. High air temperature which limits light transmission rate inside the shade roof, induces high soil temperature(optimum soil temperature 16∼18$^{\circ}C$) and both(especially the latter) are the principal factors to increase alternaria blight, anthracnose, early leaf fall, root rot and high missing rate of plant resulting in poor yield. High temperature disorder was lessen by abundant soil water(optimum 17∼21%) and could be decreased by lowering the content of availability of phosphorus and nitrogen in soil consequently resulting in less activity of microorganisms. Repeated plowing of fields during preparation seems to be effective for sterilization of pathogenic microoganisms by high soil temperature only on surface of soils. Low temperature damage appeared at thowing of soils and emergence stage of ginseng but reports were limited. Most limiting factor of yield appeared as physiological disorder and high pathogen activity due to high temperature during summer(about three months).

• 한국약용작물학회지
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• 제23권4호
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• pp.284-291
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• 2015

This study was performed to investigate the effects of enhanced light transmission on plant growth, photosynthetic ability, and disease tolerance to leaf blight, anthracnose in ginseng (Panax ginseng C. A. Meyer, Araliacease family) during the early growth stage (April to June). The photosynthetic ratio, stomatal conductance, and stem diameter of plants grown under a shade net with 15% light transmission rate showed an increasing trend compared to the control plants (5% light transmission rate) although the growth of the aerial parts were not influenced significantly. Plant height, stem length, and leaf length of treated plants were not significantly different from those of the control plants. Root parameters, such as root length, diameter, and weight of treated plants increased significantly compared to the control. Yield performance ($187.4kg{\cdot}10a^{-1}$) of treated plants was 55.5% higher than that of the control ($150.4kg{\cdot}10a^{-1}$). Additionally, disease severity scores of treated plants were lower than those of the control plants, revealing higher survival rates. To retain high yield potential and enhance the level of disease tolerance in ginseng, we suggest the increase of light transmission rate during the early growth stage.