This study was carried out to extract ginsenosides in by-products from honeyed red ginseng. Response surface methodology (RSM) was used to optimize the extraction conditions. Based on D-optimal design, independent variables were ethanol (extraction solvent) concentration (30-90%, v/v), extraction temperature (25-70oC), and extraction time (5-11 h). Extraction yield (Y1) and total ginsenosides (Y2) in the extract were analyzed as dependent variables. Results found that extraction yield increased with increasing extraction temperature and time, whereas it was decreased with increasing ethanol concentration. Similar trends were found for the content of ginsenosides in the extracts, except for ethanol concentration, which was increased with increasing ethanol concentration. Regression equations derived from RSM were suggested to coincide well with the results from the experiments. The optimal extraction conditions for extraction yield and total ginsenosides were an extraction temperature of 56.94oC, ethanol concentration of 57.90%, and extraction time of 11 h. Under these conditions, extraction yield and total ginsenoside contents were predicted to be 84.52% and 9.54 mg/g, respectively.
밤재배원에서 발생하는 밤바구미를 물리적으로 방제하기 위하여 침지처리 온도 및 시간별로 유충에 대한 방제효과와 밤 종실에 미치는 성 분변화 등을 조사하였다. 밤 종실내의 밤바구미 유충을 방제하기 위하여 다양한 온도조건(30, 35, 40, 45, 50℃)과 시간별(1, 2, 3, 5, 7, 10, 15, 22, 24시간)로 처리하여 방제활성을 조사하였다. 침지처리에 의한 밤 종실의 변화 조사로는 밝기(lightness), 적색도(redness), 황색도(yellowness) 등의 색도의 변화와 발아율, 부패율과 같은 생리적 변화, 경도(hardness)와 같은 물리적 변화, 수분함량과 유리당, 탄닌과 같은 성분변화를 조사 하였다. 침지처리를 이용한 밤바구미 유충의 방제 효과는 30℃에서 2시간 후부터 70%이상의 살충효과를 보였으며, 7시간 후부터는 100% 방제 효과를 보였다. 40℃에서는 2시간 후부터 90%의 효과를 보였으며, 45℃ 이상에서는 침지 처리 1시간 후부터 90%이상의 살충효과를 나타내었 다. 밤 종실에 대한 색도의 변화는 30℃와 35℃에서는 큰 유의차가 없었으나 40℃ 이상의 온도에서는 시간이 증가할수록 밝기, 적색도, 황색도 에 영향을 미쳤다. 발아율의 경우 침지처리에 대한 영향은 크지 않은 것으로 조사되었으나, 40℃ 이상의 온도조건에서는 침지시간이 증가할수록 부패율이 증가하는 것으로 조사되었다. 경도는 온도와 침지처리 시간이 증가할수록 감소하였다. 침지처리에 의한 종실 성분의 변화는 온도와 침 지처리 시간이 증가할수록 유리당함량이 감소하였다. 이상의 결과들은 적절한 온도와 시간조건에서의 침지처리가 밤바구미 유충 방제에 효과적 이며, 밤 종실의 상품성에도 큰 영향을 미치지 않음을 보여주었다. 따라서 본 연구결과는 밤 종실의 침지조건을 선별하는데 기초자료로 사용될 수 있을 것으로 기대된다.
다향(CM061202)은 충청남도농업기술원에서 양송이 신품종 육성을 위해 갈색종에서 161개의 담자포자 균주를 분리하여 선발된 계통중의 하나로 705호와 생산력을 비교한 결과 수량, 균사생장 및 품질특성이 우수하여 신품종으로 선정되었으며 그 특성은 다음과 같다. 다향 균사를 퇴비추출버섯 완전배지(CE/MCM)에 접종하여 25℃ 온도에서 15일 배양시균사생장 길이는 63㎜로 705호(38㎜)에 비해 양호하였다. 볏짚을 이용한 균상 재배시 다향의 생육 온도는15~19℃로 705호(15~17℃)에 비해 2℃ 높았다. 다향의 갓 색깔은 갈색이고, 초발이소요일수는 30일로 705호(29일) 보다 1일 느렸다. 수량성은 49.1㎏/3.3㎡으로 705호(35.8㎏/3.3㎡)보다 37% 증수되었다. 다향의 개체중은 16.0g으로 705호 (14.0g)보다 무거웠으며, 갓의 두께와 직경이 705호 보다 두꺼웠다. 또한 다향은 705호에 비해 대의 길이가 짧고, 굵을 뿐만 아니라 경도, 탄력성 등 물리성이 양호하였다.
충남 농업기술원에서 육성한‘장생녹각’영지버섯은 국내외에서 수집, 분리된 영지속 9종 48균주에 대한 배양 및 재배 특성 을 검토해 개발한 품종이다. 장생녹각의 균사는 감가배지(PDA)에서 28 배양시 (61㎜/5일) 가장 양호하였고, 균총의 모양 이 불규칙(tuft)한 반면, 영지1, 2호는 원형(smoothy)이었다. 병재시(참나무 톱밥 80%+밀기울 20%, 2,000㏄PP) 균배양 기간은 32일, 초발이기간 11일, 자실체 생육기간 54일로 영지1, 2호 보다 자실체 생육기간이 12∼14일 더 소요되었고, 자실 체는 28∼32 에서 생육이 양호하였다. 장생녹각(대의 수 4.8개, 대길이 38㎜)은 영지1호(대의 수 4.9개, 대길이 18㎜ )와 영 지2호(대의 수 4.2개, 대길이 13㎜)보다 대의 길이가 길었고, 갓의 모양은 녹각형으로 신장형인 영지1, 2호에 비해 관상용으 로도 가치가 기대된다. 장생녹각의 생물전환율은 9.4%으로 영지 1호 8.7%, 영지 2호 6.8%보다 우수하였고, 면역 기능을 활 성화 시켜주는 베타글루칸(β-glucan) 함량은 건조버섯 100g 당 40.1%로 영지 1호 19.3% 보다 2배 이상 높았다.
This study was carried out to investigate the effects of addition ratio(0, 5, 10 and 20%) of various minor ingredients(prosomillet, glutinous barley, oat, wheat, yellow and black soybean, safflower seed, chocolate etc.) on mechanical and sensory characteristics of Sulgiduk. In mechanical evaluation, hardness, cohesiveness and gumminess were increased with increasing the content of prosomillet, glutinous barley, oat and wheat to be added, and did not show any relationship the content of them to be added on yellow and black soybean, safflower seed and chocolate. In sensory evaluation, quality characteristics of Sulgiduk added with prosomillet, oat, yellow and black soybean and chocolate with 5~10%, respectively was better than those of Sulgiduk without the minor ingredients. Change of hardness on Sulgiduk added with oat, yellow soybean, black soybean and chocolate was lower than those of Sulgiduk without them during storage of room temperature.
Background: To enhance the taste and physiological characteristics of Lycii fructus (Gugija) extracts, we investigated the changes in the physiological characteristics of Gugija extracts caused by adding white ginseng (WG) and red ginseng (RG)
Methods and Results: Gugija extracts, including 10G10, 10GW-G8 : 2, -G6 : 4, -G4 : 6, -G2 : 8, and -G0 (mixtures made by replacing 0, 20, 40, 60, 80, and 100% of Gugija with WG), as well as 10G10, 10GR-G8 : 2, -G6 : 4, -G4 : 6, -G2 : 8, and -G0 (mixture made by replacing 0, 20, 40, 60, 80, and 100% of Gugija with RG) were extracted with water at 10 times the respective mixture's volume. The antioxidant activities of Gugija extracts were investigated by assessing their 1,1-diphenyl-2-picrydrazyl (DPPH) and 2,2’-azinobis(3ethylbenzothiazoline-6-sulfonic acid) (ABTS) radical scavenging activity, ferric reducing antioxidant potential (FRAP) activity, nitrite scavenging activity, and angiotensin converting enzyme (ACE) inhibitory activity. As the amount of WG added increased, the DPPH, and, ABTS radical scavenging activity, and FRAP activity of the Gugija extract decreased. The half maximal inhibitory concentration (IC50) value of 10G10, 10GW-G6 : 4, 10GR-G6 : 4, and 10GR-G0 for DPPH radical scavenging activity were 25.50 ± 1.04, 52.06 ± 1.46, 16.87 ± 1.24, and 9.50 ± 0.16 ㎕/㎖, respectively. On the other hand, the physiological activity of Gugija extract increased with the addition of increasing amounts of RG. However, ACE inhibitory activity was the highest (50.25 ± 2.58%) in the Gugija 10-fold extract without any added RG.
Conclusions: From the above results, we suggest that adding RG to Gugija extracts increase their antioxidant, FRAP, and nitrite scavenging activities.
Background : This study examined EC in soil depending on leaking water rate of sun shading facilities and conducted experiments to establish the proper leaking water rate for ginseng depending on rainfall.
Methods and Results : For leakage examination, rainfall flowing into a ridge. As sun shading facilities of ginseng to examine leakage, four kinds such as Blue-Pe-sheet, Pe4 (four–layered polyethylene net) + Pe2 (two–layered polyethylene net), Pe4, Pe2 were installed. As for leakage, a plastic box (23 × 30 × 30 ㎝) was installed on the ridge of ginseng field and outside, rainfall into the box during precipitation was examined, and the leakage quantity was calculated as the ratio of the quantity into the ginseng field regarding rainfall outside. The leakage quantity was examined a total of six times on July 2, July 3, August 24, August 30, August 31, and September 4. Regarding EC in soil, WT–1000n (www.rfsenser.co) which is a EC measuring instrument was used, and the average was calculated through 3 repeated examinations. There are little differences in the leakage quantity depending on the sun shading with 0.1% of the Blue-Pe-sheet, 2.3% of Pe4 + Pe2, 4.3% of Pe4, and 30.7% of Pe2. At the leakage rate of 0.1%, EC decreased from 1.52 ds/m on July 3 to 1.04 ds/m on August 8, and increased again to 1.54 ds/m on September 3 At the leakage rate of 2.4%, EC changes were lower than that of the leakage quantity of 0.1%, and similar results depending on periods were found. At the leakage rate of 4.3%, salt concentration was measured at 0.92 ds/m on July 3, decreased since then, increased to 0.90 ds/m on September 3, and overall concentration was less than 1.0 ds/m. At the leakage rate of 30.7%, EC was the lowest at 0.46 ds/m and similar results were found since then.
Conclusion : The differences in leakage quantity depending on sun shading facilities of ginsengs affected EC in soil, and EC became lower with more leakage quantity. As for the leakage quantity to maintain the EC in soil proper for ginseng growth and development lower than 1.0 ds/m, it was found to be effective to control the leakage quantity at 30% in May - June, and September - October when there are less rainfall, and at 2 - 5% in July - August when there are heavy rainfall.
Background : Among registered fungicides for controlling ginseng disease, the disease occurrence rate from the mixed use of a single ingredient, mancozeb WP, and copper sulfate basic WP was examined, and experiments were conducted to establish safe disease control system.
Methods and Results : As for the medicines used for the experiments, besides registered Pyraclostrobin WG as a single ingredient for ginseng disease control, 14 kinds were used for experiments. The fungicide was sprayed 5 times on June 21, July 4, July 16, August 2 and August 24. The examination was conducted 5 days, 10 days, 15 days, and 20 days after the final fungicide treatment. Anthracnose occurrence rate 5 days after the final fungicide treatment was 0.0 - 61.3% which was different depending on fungicides, and in a single treatment, the occurrence rate was less than 1% in 6 fungicides. In the single treatment, the occurrence rate was more than 1%, but 9 kinds of fungicides which had less than 1% occurrence rate in the case of mixed use with mancozeb, and one kind in the case of mixed use with copper sulfate basic 10 days later, the occurrence rate was 0.0 - 100% and there were lots of differences in the disease occurrence rate depending on fungicides. 10 kinds of fungicides showed the disease occurrence rate of more than 10.0% in the case of a single treatment. Among them, 9 fungicides showed the disease occurrence rate of less than 1.0% in the case of mixed use with mancozeb, indicating the effect of lowering disease occurrence rate in the case of mixed use. 15 days later, 9 fungicides showed disease occurrence rate of more than 2%, 1 kind of fungicide had the disease occurrence rate of less than 1%, and the overall disease occurrence rate increased. Among them, 7 kinds of fungicides showed the disease occurrence rate of less than 1% from the mixed use. 20 days later, 12 kinds of fungicides showed the disease occurrence rate of more than 50%, and only 1 kind of fungicide showed the disease occurrence rate of less than 1%. In the case of mixed use with mancozeb, 2 kinds had the disease occurrence rate of less than 10% and 1 kind of fungicide had the disease occurrence rate of less than 1%.
Conclusion : For prevention of anthracnose disease of ginsengs during a rainy season, the disease occurrence rate from a single or mixed use was examined, and the examination found that rather than a single use, mixed use decreased the disease occurrence rate. In particular, the mixed use with mancozeb showed low disease occurrence rate and prevented the disease occurrence rate for a long time.
Background : Ginseng sometimes develops physiological disorders as EC of soil accumulates in sun shading facilities with no leaking water. In addition, it is difficult to make moisture content of soil and EC stably suitable for ginseng growth and development in the same sun shading facility. Accordingly, this study examined EC in soil depending on leaking water rate of sun shading facilities and conducted experiments to establish the proper leaking water rate for ginseng depending on rainfall.
Methods and Results : For leakage examination, rainfall flowing into a ridge. As sun shading facilities of ginseng to examine leakage, four kinds such as Blue-Pe-sheet, Pe4 (four–layered polyethylene net) + Pe2 (two–layered polyethylene net), Pe4 , Pe2 were installed. As for leakage, a plastic box (23 × 30 × 30 ㎝) was installed on the ridge of ginseng field and outside, rainfall into the box during precipitation was examined, and the leakage quantity was calculated as the ratio of the quantity into the ginseng field regarding rainfall outside. The leakage quantity was examined a total of six times on July 2, July 3, August 24, August 30, August 31, and September 4. Regarding EC in soil, WT-1000n which is a EC measuring instrument was used, and the average was calculated through 3 repeated examinations. There are little differences in the leakage quantity depending on the sun shading with 0.1% of the Blue-Pe-sheet, 2.3% of Pe4 + Pe2, 4.3% of Pe4, and 30.7% of Pe2. At the leakage rate of 0.1%, EC decreased from 1.52 ds/m on July 3 to 1.04 ds/m on August 8, and increased again to 1.54 ds/m on September 3 At the leakage rate of 2.4%, EC changes were lower than that of the leakage quantity of 0.1%, and similar results depending on periods were found. At the leakage rate of 4.3%, salt concentration was measured at 0.92 ds/m on July 3, decreased since then, increased to 0.90 ds/m on September 3, and overall concentration was less than 1.0 ds/m. At the leakage rate of 30.7%, EC was the lowest at 0.46 ds/m and similar results were found since then.
Conclusion : Differences in leakage quantity depending on sun shading facilities of ginseng affected EC in soil, and EC became lower with more leakage quantity. For the leakage quantity to maintain the EC in soil proper for ginseng growth and development lower than 1.0 ds/m, it was found to be effective to control the leakage quantity at 30% in May - June, and September - October when there are less rainfall, and at 2 - 5% in July - August when there are heavy rainfall.
Background : The major active components of ginseng are ginsenosides and their pharmacological effects include anticanser, anti-stress, anti-fatigue, antioxidant and aging inhibitory effects. These ginsenosides components is higher in leaves than roots. Therefore, consumers are increasingly interested in using ginseng sprouts.
Methods and Results : Ginseng sprouts were cultivated during 60 days from June to late July in greenhouse. After 60 days of cultivation, the stem was hardened, and the cultivation was done until 60th because of the tendency that the value of ginseng sprouts was lowered. The content of the three indicator components were analysed by high performance liquid chromatography. Total ginsenoside content increased 1.07 times in leaves and decreased 0.67 times in roots according to cultivated period. The contents of ginsenoside Rg1, Re, Rb1, Rc F3 and F4 of leaves were increased and ginsenoside Rg1, Re, Rb1, Rb2 and Rf of roots were decreased on cultivated 60 days, especially. Total free sugar content increased 1.29 times in leaves and decreased 0.68 times in roots according to cultivated period. The total phenolic acid contents of leaves decreased slightly until 40 days and then increased. The major components of ginsenoside, free sugar and phenolic acid in leaves were Re, sucrose and sinapic acid, respectively.
Conclusion : From the above results, ginseng sprouts cultivated for 60 days is more effective ingredient than roots, so it can be said that it is good for consumers to use.
Background : Peucedanum japonicum Thunberg is herbaceous plant belonging to the umbelliferea. Its root is used as a herbal medicine. Recently, it is cultivated as one of the crops which are attracting attention as a new income crops by using leaf. It is cultivated as native variety and has no standard variety. As a first step to expand cultivation in Korea, we investigated growth characteristics of P. japonicum Thunberg which were collected from domestic regions to select standard variety for P. japonicum Thunberg.
Methods and Results : From April in 2017 to June in 2018, total 245 individuals of Peucedanum japonicum Thunberg in forms of seedling from 24 locations including 7 Chungnam, 10 Gyeongbuk, 2 Jeonnam, 1 Gangwon and 4 Jeju were collected and 40 × 20 ㎝ intervals transplanted. In August 2018, the research was carried out on 4 qualitative traits such as stem color, peduncle color, and 11 qualitative traits such as plant height, leaf length, and leaf width based on the test guidelines. As a result, the 21 - 2 species collected in Jeju showed the best growth with 88.0 ㎝ plant height, 267 leaf number, and 174 peduncle number. A total of 245 collecting species were classified into 4 qualitative traits. The stem color was classified into green 125, red green 98, crimson green 21, and light green 1. The 114 species which were developed into flower were divided into green 94, red green 17, crimson green 2, and light green 1, and immature seed color was classified into green 88 and red green 26. The anthocyanin expression was excellent, and the total number of stem color, peduncle color, and immature seed color were 7 collecting species. The inflorescence type was classified into 54 semi-circular type, 47 straight type, 12 spread type. The 4 - 4 species collected in Taean were not registered in the test guidelines, and the compound umbel and cyme were appeared together.
Conclusion : The growth characteristics show various differences among collection areas. It is considered that the superior lines can be selected as a standard variety breeding material by comparing the growth characteristics of the collected species.
Background : Rural communities were facing labor difficulties due to old age and increasing number of women in the labor force. These factors have caused decrease in effectivity and productivity of ginseng production. Also, due to repetitive ginseng cultivation, salt accumulation in soil becomes more evident. When too much salt is present, ginseng plants appeared to have red colored roots and this caused the fall down of marketability of ginseng. In this study, we tested the use of wide shade facilities to enhance the growth traits of ginseng. Wide shade facilities can also reduce the working expenses of transfer cultivation and replacement by around 1,500,000 won/10a. In addition, this might also reduce the consequences of continuous cropping, thus obtaining a stable and safe field.
Methods and Results : We set up 3 kind of facility as wide shade, supply type wide shade and conventional shade in Ginseng & Medicinal Plant Research Institute, Chungnam Agricultural Research & Extension Services. Wide shade facility used three different types of shade material, black, red, and blue films. Supply type wide shade facility and conventional shade used polyetylene (PE4 + PE2) film. The planting size were 10 ㎝ × 18 ㎝ (9 × 10 plants), planting number: 90 plants/3.2㎡ in wide shade (include supply type wide shade) and 10 ㎝ × 18 ㎝ (8 × 10 plants), planting number: 80 plants/3.2㎡ in conventional shade. Our results showed that temperature was lower (-0.5℃) in wide shade facility than in supply type and conventional shade. conventional shade was lower (-0.5℃) or similar than in supply type shade. We investigated growth of Korean ginseng 3-years-old root for each facility. Results showed that total growth such as root weight, length was higher in supply type facility than in wide shade and conventional shade facility. Root rot was lower in supply type facility.
Conclusion : Wide shade facilities was shown in low temperature than in supply type and conventional shade. Supply type was good for root growth and root rot disease. These finding could be used for place fixed cultivation for ginseng using wide shade facility.
Background : In this study, We will compare germination rate for each bed soil moisture content and find optimal seed germination on bed soil condition. This study was carried out germination efficiency related percent germination, germination energy, mean germination time and germination seed treated bed soil moisture content by volume on dehisced Korean ginseng seeds.
Methods and Results : This study was used for conventional seeds of dehisced Korean ginseng seeds. In order to bed soil moisture treatment, We was dried on the soil until 1.5% moisture content and treated 12 different bed soil, soil 100 g volume up water 10 ㎖ for 10% soil moisture content, that contain moisture content (1.5 - 59.66%) at intervals 5 - 10% moisture content in Wagner ports. For bed soil moisture content test, We was sowed 61 Korean ginseng seeds each port on 18-May. In order to maintain the moisture content, The top of the port was covered with vinyl for blocked from the outside air. After sowing seeds, We was examined the germination rate, germination strength (GS), mean days per germination (MDG), and germination speed (GR) at every two days. Our results showed that germination rate was 94.5% at 47.07% moisture content. It had over 90 percent germination rate from 40.90 to 59.96% moisture content. High germination rate treatments also was higher with another traits such as germination strength (GS), mean days per germination (MDG), and germination speed (GR).
Conclusion : The germination rate is very important in Korean ginseng cultivation of direct sowing. The soil moisture content is one of the most important environment related germination rate of ginseng seeds. According to our result, 40.90 to 59.96% bed soil moisture content had over 90 percent germination rate. These finding could be used to increase high germination rate, is required to proper irrigation. We will need to proper moisture content to increase high germination rate not only bed soil but also soil.
Background : Acanthopanax divaricatus var. is a Korean woody natural plant which can grow in the field placed in low altitude. Cutting is more efficient for propagation than seedling since it takes 3-years to harvest seeds and get seedling. This study was carried out to find out efficient cutting propagation method.
Methods and Results : Hardwood cutting (April 10) and semihardwood cutting (September 7) was performed to accelerate cutting propagation rate on 5 type nursery box soil composed of Sand, vermiculite, peat moss, perlite, and perlite + peat moss. In order to verify growth regulators on cutting propagation, rooton, IBA 2,000 ppm, IBA 3,000 ppm, NAA 500 ppm, NAA 1,000 ppm were treated and cutting performed in sand nursery box soil on March 30 and September 7 with 3 replications of 50 plants. In terms of rooting traits of cutting in April 10 according to nursery box soil, rooting rate was higher as 67% in sand and lower as 11% in peat moss. Root length, root number, and root weight was also higher in sand. In terms of rooting traits of cutting in September 7, rooting rate was higher as 60% in sand and root number was higher in sand and perlite. Root weight was higher in perlite. The result of growth regulator effect on cuttings was as follows. Rooton increased rooting rate higher as 68.7% in cutting on March 30 and IBA 3,000 ppm also increased higher root length, root number, and root weight as 5.4 ㎝, 12.3 ea/plant, 3.13 g/10plant respectively. rooton increased rooting rate higher as 67.3% in cutting on September 7 as same as cutting on March 30 with no significant difference and root length, root number, and root weight were all higher in rooton treatment too.
Conclusion : The result of cutting treatment in 5 type nursery box soil on April 10 and September 7 to accelerate cutting propagation rate of A. divaricatus var. shows that sand was most efficient with higher root length, root weight, and rooting rate. Most efficient growth regulator for rooting was rooton with higher rooting rate and better rooting traits altogether same in cuttings on March 30 and September 7.
Background : Polygonati rhizoma is used for medicine using rhizome of Polygonatum sibiricum Redoute belonging to Liliaceae. This study was carried out to find proper method to establish the guideline of GAP post-harvest management.
Methods and Results : Six-years-old polygonati rhizoma harvested in march in Geumsan was used for this study. Steaming was treated for 1, 2, and 3 hours respectively and drying was treated at 45℃, 50℃, 55℃, and 60℃ using hot-air drying machine with checking moisture content at intervals of a day. Moisture contents of polygonati rhizoma according to drying temperature after steaming showed that drying was faster in higher drying temperature treatment after steaming. Moisture content was below 10% as 9.6% and 9.4% at 55℃ drying treatment after steaming for 1 hour and 2 hours respectively. Color value according to treatments was as follows, L-value was lower in longer steaming and higher drying temperature. a-Value was higher in steaming an higher drying temperature.
Conclusion : In steaming and hot-air drying treatment to establish the guideline of GAP post-harvest management, moisture content was most proper as 9.4% below 10% in 2-hour steaming and 55℃ hot-air drying for 6 days. L-value was 27.49 and a-value and b-value were 4.38 and 9.73 in this treatment and dried rhizome looked glossy and transparent with higher quality. Proper drying method for polygonati rhizoma was considered as 2-hour steaming and 55℃ hot-air drying for 6 days.
Background : Rehmannia glutinosa L. that is a perennial plant belonging to the family Scrophulariaceae is one of the most popular local income crops. Recently, the cultivation area of Chungnam (2017) accounts for 50.5% (106 ha) of the whole country. In July and August, which is the off-season at the highest price of R, glutinosa L. This experiment was carried out to develop early harvest cultivation technology for the improve farm income.
Methods and Results : In order to investigate the growth characteristic and yield of R, glutinosa L. by using the rhizome of 'Tokang' were transplanted four times at intervals of 10 days from mid-March to mid-April 2017 and 2018. Growth characteristics of the above and under ground part were investigated by 3 repetitions for 10 ea harvested in mid-July. Regression analysis was performed on the relationship between the planting time and fresh root weight. The highest emergence rate was 88.7% in the mid-March, and the highest above ground part growth was observed in the plant height, leaf number, leaf length, leaf width, and fresh leaves weight. The number of days to flowering tended to be shortened to 60, 53, 52, and 49 days from the mid-March to the mid-April. The growth of underground part was also highest in mid-March and the total root weight per 10 a was also 1,127.4 ㎏ in mid-March. The faster the planting time, the higher the yield. The results of the linear regression on the roots weight according to the planting time showed that there was a negative correlation relation between the planting time, the marketable roots weight, rhizome weight and total roots weight.
Conclusion : The total roots weight improved by 80% in the mid-March than mid-April. Therefore, mid-March is considered optimal planting time for off-season production of R. glutinosa L.
Background : Recently, the quality of ginseng is degrading while the yield decreases by 15 - 20% due to the high-temperature injury, the physiological disorder and the diseases caused by the climate warming so that development of disaster tolerant varieties strong against high temperatures, salts and diseases are demanded. For such reason, three lineages showing excellent overground and underground growing were selected from the gene resources collected from 1997 to 2000. And the productivity test has been conducted with these lineages having Cheonpung and Yeonpung, the existing varieties as the reference varieties. For the lineages excellent in growing, the variety registration will be performed after the regional adaptation test.
Methods and Results : The results of preliminary yield trial on the 3 lines (GS98-3-4, GS00-58 and GS97-69) show that the above-ground and underground growth of the 4-years-old ginseng group selected as superior lines were superior to that of Chunpoong and Yunpoong. eference varieties. Especially, GS98-3-4 shows excellent root weight and root diameter, while GS97-69 shows excellent leaf length and leaf widths. Replicated yield trial on the 3 lines (GS97-62, GS98-1-5, GS00-44) show that the above-ground and underground growth of three lines were superior to that of Chunpoong and Yunpoong. In particular, the underground root weight of GS00-44 was the heaviest.
Conclusion : According to the productivity tests on the 3 lines selected for excellent growing, the selected lineages are excellent in both above-ground and underground growing compared to the reference varieties of Cheonpung and Yeonpung. On the 4-years-old ginseng, GS00-44 & GS98-3-4 show excellent underground growing while GS98-1-5 & GS97-62 show excellent overground growing.
Background : The insufficient soil moisture due to spring drought causes the germination rate of ginseng seeds to be remarkably lowered and the low seeding depth causes the roots not to be settled but remain in the surface soil containing moisture, resulting in the ill-shaped ginseng. Especially, in the case of paddy soil, the soil environment is often over-humidified or over-dried, resulting in high rate of occurrence of physiological disorders such as rough skin, yellow-colored root and red-colored root, etc. compared to the upland soil, requiring more care in managing the soil. Therefore, this study was conducted with the aim to investigate the effects of stamping treatment on the direct seeding cultivation in the paddy soil and to investigate the survival and growth characteristics according to the seeding method.
Methods and Results : We investigated the effects of stamping on the emergency rate and growth by using rollers (15, 20, 25, 30 ㎏), and also investigated the growth characteristics according to the direct sowing methods (broadcast planting, motorized seeder, semi-automatic seeder, manual seeder, hoop-type seeder). In the emergency rate of 1-year-old ginseng group directly sowing and treated with trampling, the group treated with 25 ㎏ & 30 ㎏ showed the highest emergency rate & growth, and above-ground & underground parts growth of 1-year-old ginseng by sowing method, there was no significant difference between sowing methods, the emergency rate of motorized seeder and semi-automatic seeder was high.
Conclusion : In the paddy soils, the 25 – 30 ㎏ stamping after direct seeding showed superior above-ground growth and emergency rate, and there was no significant difference in growth, but motorized seeder and semi-automatic seeder had a higher rate of emergency in 1-year-old ginseng.