Background : With the recent increase in the area of ginseng cultivation in greenhouses, demand for studies of proper cropping patterns in direct seedling of ginseng and varieties of cultivation are increasing, and the needs for clean production of quality ginseng in greenhouses are emerging in connection with the consumer demand for pesticide-free ginseng and the supply and demand of ginseng seedling for cultivation of young ginseng. Therefore, this study is to provide baseline data in improving of quality of ginseng cultivated in greenhouses by examining the contents of ginsenoside in ginseng cultivated in different cropping patterns and different varieties. Methods and Results : As a result of examining the contents of ginsenoside in 3-year old, direct seedling ginseng cultivated in greenhouses in different depths – 10 ㎝, 20 ㎝ and 30 ㎝ - and width – 90 ㎝, 100 ㎝, 110 ㎝ and 120 ㎝ - of furrows, the contents of ginsenoside showed little differences by the depths of furrow in the furrow width of 90 ㎝ but, the highest content of ginsenoside Rb1 was observed in the furrow width of 120 ㎝ and depth of 20 ㎝, while the ginsenoside contents were high in the furrow depth of 20 ㎝ and width of 100 ㎝ and 120 ㎝. The contents of ginsenoside in different varieties of direct seedling cultivation in greenhouses were greater in the following order: Geumgin > Geumsun > Chunpoong, while the contents of ginsenoside Rb1 were observed to be superior in Sunhyang, Gopoong and Geumseon and the contents of ginsenoside Rb2 were greater in the order of Geumgin > Guemsun > Cheonpoong. Conclusion : Based on the results, the contents of ginsenoside in different cropping patterns of direct seedling cultivation in greenhouses were higher in lower depths of furrow - 10 ㎝ and 20 ㎝ - at furrow widths wider than 100 ㎝. The contents of ginsenoside in different varieties of direct seedling cultivation in greenhouses were higher in varieties of Geumjin, Geumsun and Chunpoong.
Background : The main ingredients of bed soil specialized for ginseng, which is often used in cultivation of young ginseng, are peat moss, vermiculite and cocopeat. These ingredients are imported from overseas countries because they are not produced in Korea, and thus play an important role in pricing of the bed soil. The bed soil products show satisfactory ability to retain moisture but, are known to require different containers and water management methods depending on the components of the soil and the crops to be cultivated. However, proper studies on cultivation of young ginseng in greenhouses are yet to be conducted, and research data on water management methods and irrigation amount for box culture of young ginseng are largely unavailable. Methods and Results : To establish the proper method of irrigation for cultivation of young ginseng, young ginseng were cultivated while providing water once a week through the method of drip irrigation and the method that combines drip irrigation and sprinkler irrigation. To establish the proper amount of water required, each box is provided with 2 ℓ, 3 ℓ and 4 ℓ of water respectively and the growth and development of both above and below aerial parts were examined after 45 days. The growth and development of both above and below aerial parts of young ginseng did not show any statistically significant differences between the two irrigation methods but, the young ginseng provided with water through the method that combines drip irrigation and sprinkler irrigation showed a relatively superior growth. Conclusion : Based on the above results, the proper method of irrigation for greenhouse cultivation of young ginseng is to combine the sprinkler irrigation - before budding - and the drip irrigation - after budding. The young ginseng showed the most satisfactory growth when provided with 4 ℓ water once a week, while those provided with less water – 2 ℓ - showed poor growth. For short-term cultivation of 45 days, the growth and development of young ginseng showed little difference regardless of the irrigation methods and the amount of water provided.
Background : In recent, a nationwide decrease in ginseng cultivation area and production is observed, and as the sales of ginseng decreases due to the economic downturn, the ginseng industry in Korea is going through more and more difficulties. However, sales of young ginseng, which are ready for the market after a short-term cultivation - 25 to 45 days - of 1 year old ginseng seedlings or 2 - 3 year old young ginseng in greenhouses and plant factories without using any chemical fertilizers, in large grocery chains and online shops is increasing. However, proper studies on cultivation of young ginseng in greenhouses are yet to be conducted, and thus, experiencing several issues including the cost burden of bed soil and disease occurred from reuse of the soil. Therefore, this study is to provide solutions for farmers cultivating young ginseng by determining the optimal type and amount of bed soil for box culture. Methods and Results : To determine the optimal type of bed soil for cultivation of young ginseng, six types of bed soil were produced by blending bed soil specialized for ginseng, granite residual soil and leaf mold in different ratios. To determine the optimal amount of bed soil for box culture of young ginseng, 1 year old ginseng seedlings are planted in three boxes - each in size of 52 ㎝ × 36.5 ㎝ × 9 ㎝ (W × L × H) filled with soils of 6 ℓ, 7 ℓ and 8 ℓ for an experimentation. Growth and development of 45-day old young ginseng showed satisfactory progress in the following order: 100% commercially available bed soil > 80% commercially available bed soil + 20% granite residual soil > 60% commercially available bed soil + 20% granite residual soil + 20% leaf mold, while the gross weight of below-aerial parts showed the same result. Conclusion : The optimum type of bed soil for greenhouse cultivation of young ginseng is the commercially available bed soil specialized for ginseng cultivation. However, the young ginseng showed relatively satisfactory growth and development in mixed bed soil - 60% commercially available bed soil + 20% granite residual soil + 20% leaf mold - and the growth and development of young ginseng were most satisfactory when the box (52 ㎝ × 36.5 ㎝ × 9 ㎝, W × L × H) was filled with 8 ℓ bed soil.
Background : The organic matter content of land clearing or soil brought from an other place is very low, less than 0.5%. However, the organic matter content of natural habitat soil and leader farmhouse soil was two to three times higher than that of general farmhouse soil. As a result, the yield of Gastrodia elata was higher than that of general farmhouse. Therefore, this experiment was carried out to investigate the yield of G. elata according to the application of green manure crops (GMCs). Methods and Results : This experiment was carried out in a soil with organic matter content of 0.5% in rain shelter greenhouse. The kind of GMCs are corn, Sudan grass, sorghum and oats, and the throughputs per 10 a were 2,000 ㎏, 2,200 ㎏, 1,500 ㎏ and 700 ㎏ of each. The soil preparation was carried out after treated of GMCs at least one month before G. elata was formally planted. As the results of these experiment, organic matter content in soils increased 4 - 5 times compared with before treatment. As a result, the yield of G. elata increased by 21 - 41% in all treatments of GMCs. In addition, there was 2 - 5% more G. elata of good merchantable quality. However, the soil temperature in the summer season period of 2016 (7.1 - 8.31) was 1.2 - 1.6℃ higher than the previous year. The day when the outside temperature was above 30℃ was 41 days. It doubled from the previous year. Soil moisture content showed similar tendency according to treatments. As a result, 20 - 30% of high temperature damage and 20 - 50% of putrefaction occurred, and the total yield also decreased by 20 - 30% compared to normal year. Conclusion : In conclusion, some organic matter is needed for cultivation of G. elata. Therefore, it is considered that it would be better to keep the organic matter content at 2 - 3% when the destination are managed, and to use corn or Sudan grass as the GMCs.
Background : This project was conducted to determine proper seed harvest time and seed storage methods of Adenophora triphylla var. japonica Hara. Methods and Results : When Adenophora triphylla var. japonica Hara. transplanted this year, seeding can only be done the following year. Therefore, the seeds harvested in the interval of ten (10) days were investigated for seed harvest amount, germination rate, seed storage temperature and storing on container, between the period late August and mid-October. It is when the seed fructification started and ended. The seeds harvested from the first ten (10) days of October to mid October were 87.9% in whole seeds. The proper seed harvesting time was mid October which has a germination rate of 75% in whole seed harvest time. The lowest germination rate of 27.3% was at the germination temperature of 15℃. As the temperature rises, the germination rate increases. In 29℃, the germination rate was at 79% which is the highest; and from 30℃, the germination rate decreased to 71%. When the storage temperature was at 0℃ after storage of 5 months, the germination rate was at 83%. However, after storage of 12 months, it decreased by 7% that was 76%. When in 4℃, after storage of 5 months the germination rate was at 85%. However, after storage of 12 months it decreased by 8% which was 77%. In room temperature after storage of 5 months, germination rate was at 77%, but after storage of 12 months it decreased by 22% which was 55%. When seeds were stored in vinyl container, it was observed that the germination rate was at 86% after 5 months of storage, which was 9% higher than seed stored in paper which was 77%. After 12 months storage, seed in vinyl container had a germination rate of 71%, which was 3% higher than seed in paper at 68%. Conclusion : It is concluded that the proper time of seed gathering of Adenophora triphylla var. japonica Hara. is during the first ten (10) days of October to mid-October. When the long time storage is needed, below zero temperature with vinyl container is more appropriate.
Background : This study aimed to determine the use of proper organic fertilizer through side dressing application in the environmental cultivation of Adenophora triphylla var. japonica Hara. to improve farming income. Methods and Results : In the cultivation of eco-friendly and environmental medicinal plant like Adenophora triphylla var. japonica Hara., it is necessary to use organic instead of chemical fertilizer. Organic fertilizers such as HL, CK, OK were applied three (3) times during the last ten days of July, August, and September. There was no significant difference between CF and NT, in terms of the number of rooting per 1㎡ which was 12.1 -12.9. There were also no significant differences in plant length, leaf length, leaf width and dry weight. The root length was 19.9 ㎝, which was the longest in CK, and 16.8 ㎝, the shortest in ST, but described as no significant difference. The root width was 14.8 – 5.5 ㎜, and the number of rootlet was 5.7 - 7.1, but was considered not a significant difference. The dry weight was 16.6 g in HL, 16.3 g in CK and ST, and 15.6 g in OK, but still there were no significant differences observed. However, it was 14.6 g in NT, which was considered the lowest, thus there was a significant difference. The number of dry root per 10 a was 149 ㎏ which is considered the most in HL, 141 ㎏ in CK, 140 ㎏ in ST, and 138kg in OK yet there were no significant differences observed. While NT only had 123 ㎏ hence, there was a significant difference on the number of dry root per 10a as compared with the group applied with the three organic fertilizers. Conclusion : In conclusion, it is proper to use Organic Fertilizer HL and CK through side dressing application in growing Adenophora triphylla var. japonica Hara.
Background : The study is designed to select the organic fertilizer as an additional fertilizer suitable for improving the yield of ginseng cultivar K-1 at low productive land when it is cultivated as 6-year old red ginseng. Methods and Results : This study was conducted in 2016 at a farm in Paju cultivating 6-year old ginseng root. As for the management of the cultivation land, in 2010 and 2011, Sudangrass was cultivated in order to make the organic matter content and chemical composition suitable for ginseng cultivation, and more than 15 tillage works were carried out a year. The transplantation was carried out at the planting density of 63 weeks / 1.62 ㎡ in April 2012. On May 2, the amount of 15 ℓ / 1.62 ㎡ of N 1.5 ㎏/1,000 ㎡ was supplied to the non-treatment, liquid fertilizer of fermented rice bran, liquid fertilizer of fermented soybean, seaweed and liquid yeast. N 1.5 ㎏/1,000 ㎡ was put into the soil for the fermented soybean and leaf mold. The photosynthetic rate was measured on the middle part of the small leaf by using a photosynthetic analyzer (LI-6400, Li-COR) at 10 : 00 - 14 : 00 on a clear day under PAR (photosynthetically active radiation) of 100, 200, 400, 600, 800, 1,000, 1,400, 1,800 μmol s-1m-2. The growth features of ginseng (including the length of stem, length of leaf, width of leaf, length of root and yield, etc.) as well as leaf discoloration, and root rot, etc were examined. The statistical analysis was performed 3 times in the randomized block design. For the rate of photosynthesis, the liquid fertilizer of fermented rice bran > liquid fertilizer of fermented soybean ≒ untreated ≒ fermented soybean > seaweed > liquid yeast > leaf mold was higher in that order. The survival rate ranged from 42.9% to 51.9%. As for the above-ground growth characteristics, the liquid fertilizer of fermented rice bran, liquid fertilizer of fermented soybean, seaweed and liquid yeast showed higher performance than the non-treated while the fermented soybean and leaf mold showed similar performance to the non-treatment. As for the underground growth, the liquid fertilizer of fermented rice-bran, liquid fertilizer of fermented soybean, fermented soybean, or leaf mold showed the same performance as non-treatment while the fermented soybean or leaf mold showed shorter length than non-treatment. As for the yield, the liquid fertilizer of fermented rice-bran, or liquid fertilizer of fermented soybean showed better performance than non-treatment. Conclusion : In conclusion, it was found that liquid fertilizer of fermented rice bran and liquid fertilizer of fermented soybean are the suitable organic fertilizers which can be used in ginseng cultivation for improving the quantitative yield of 6-year-old ginseng in low-producing area.
Background : This study is designed to select the best shading materials for the 4-year old ginseng K-1 variety by examining the light volume, photosynthesis and growth characteristics of ginseng. Methods and Results : The ginseng seedling was transplanted in the 7 lines x 9 rows (63 plants)/ 1.65 ㎡. The shading materials were installed in the form of rear line with 170 ㎝ high for front pole and 100 ㎝ high for rear pole. The installation of shading materials were installed in combination of polyethylene, blue polyethylene sheet + polyethylene, polyethylene + polyethylene, polyethylene + aluminium screen 70%, polyethylene + aluminium screen 100%, aluminium shade plate to inspect the photosynthesis and ginseng's growth characteristics. The photosynthetic rate was measured on the middle of small leaf using the photosynthetic tester (L1-6400, Li-COR) a t 10 : 00 – 14 : 00 on a clear day with the light volume of 100, 200, 400, 600, 800, 1,000, 1,400, 1,800 μmol s-1m-2.For the ginseng K-1, which is 4-years old, the aerial parts growth (such as survival rate, height of plant, length of stem, diameter of steam and length of leaf) and underground part (length, diameter and weight of root) were examined in 2016. As for the PAR (photosynthetically active radiation), the aluminum shade plate showed the best performance while the polyethylene + polyethylene showed the least. As for the photosynthetic rate, the following order was shown in the decreasing order: blue polyethylene sheet + polyethylene > polyethylene > aluminium shade plate ≒ polyethylene + aluminium screen 100%, > polyethylene + polyethylene > polyethylene + aluminium screen 70%. As for the survival rate for 4-year old ginseng, the polyethylene + aluminium screen 70% showed the highest survival rate with 91.0%. As for the growth of aerial part of ginseng, the polyethylene and polyethylene + polyethylene showed the best growth. As for the underground part of ginseng, the polyethylene, blue polyethylene sheet + polyethylene, and polyethylene + polyethylene showed the best growth in the length of roots and length of main root while polyethylene and blue polyethylene sheet + polyethylene showed the best growth in the weight of roots. Conclusion : In conclusion, considering the characteristics of photosynthesis and the underground parts of ginseng, it was found that the best shading materials for K-1 4-year old ginseng is blue polyethylene sheet + polyethylene.
Background : Unlike Dioscorea japonica or Dioscore opposita, Dioscore alata is a high-temperature crop mainly cultivated in Africa and subtropical regions. Due to recent climate change, its cultivation area is expanding in Korea. In 2016, the Institute for Bioresource Research clarified optimal harvesting stage to increase its tuber yield and ensure safe storability. Methods and Results : As the seed-tubers for this study, Dioscorea alata tubers were cut into a size of 50 g, disinfected with lime powder, dentated on the seed bed with electrothermal wire installed on March 20th, and then planted on the main field on April 15th. The planting distance was 120 ㎝ in width, where the furrows of 90 ㎝ were cladded with black vinyl, in two rows with a column spacing of 25 ㎝. The amounts of applied fertilizers were 2,000 ㎏ compost, 34 ㎏ N2, 28 ㎏ P2O6, and 28 ㎏ K2O. The compost and P2O5 were used in full, where as N2 and K2O were used as original fertilizer 14 (10 ㎏) and additional fertilizer 20 (18 ㎏), respectively. The crop was harvested in six times from September 20th to November 9th, in an interval of 10 days. While harvesting, the ground fresh weight yield and underground tuber yield were investigated. The underground tuber yield was 836, 1,744 and 2,975 ㎏ low at the early harvests on September 20th, 30th, and October 10th, respectively, while it was 3,622, 3,828, 3,818 ㎏ high on October 20th, 30th, and November 9th, respectively. The ground fresh weight yield remained the same. To clarify tuber storability by harvest time, they were stored at 15℃after harvest, and then healthy and corrupt tubers were studied on March 23th. The corruption ratio by harvest time was highest at 39.1% and 29.3% on October 30th and November 9th, respectively, when frost and low temperature damaged harvest. It was 59.0% and 42.8% at the early harvests on September 20th and 30th, respectively. The corruption ratio was lowest on October 20th and October 10th at 29.3% and 39.1%, respectively. Conclusion : Ford. Dioscore alata cultivation, Korea presents a premature and disadvantageous environment with lower temperature and pre-harvest frost at the time of planting. After raising seeding on an electrically heated hot bed, the optimal harvesting stage should be from planting in the middle of April where temperature rises above 1 5℃ to harvesting in the period October 10th - 20th so as to achieve the maximum tuber yield and high storability.
Background : This study was carried out to investigate the changes of the growth of ginseng in the house when the light intensity was increased. Three shading screens were used: shading materials 85%, 77%, and 55% net. Changes in the growth of ginseng and the quality of red ginseng were investigated in these shading materials. Methods and Results : The test site was a three house constructed in the Punggi Ginseng Research Institute, Gyeongsangbuk - do Agricultural Research and Extension Services. The entrance to the house is located east-west, and the structure is double steel frame. The inside of the house is covered with vinyl, and 85%, 75%, 55% shading net is installed for each shading treatment. From the end of June to the middle of August, a 55% shading net was double covered to reduce the high temperature damage. The test material was grafted on March 20, 2013. The management of the irrigation water was from 30 kPa to 10 kPa. The aM-21A data log of Wise Sensing Co., Ltd. was used to measure the cultivation environment in the house. Photosynthesis was measured using Lci Compact Photosyntheisi System, adc, UK. Surveys were carried out in accordance with the inspection standards of the Rural Development Administration. The data were analyzed statistically using SPSS. Conclusion : The summer temperature of shading method was more than 2℃ higher than other treatments in 55% shading treatment and more than 6℃ in autumn. The light intensity of 90 μmol/s/㎡ was lower than that of August, and the light intensity was higher than 400 μmol at the end of September. The 55% shading method showed twice as much light in summer and more than four times in autumn. The amount of photosynthesis increased due to the light intensity of 55% treatment, especially in the morning of May. In the light of shading method, 85% light shading method showed the best growth at 2 years, but 55% at 3 years and more, and 5 years at 5 years.
Background : The Production of high quality ginseng seedling become increasingly important in the cultivation of ginseng because the quality of ginseng seedling is closely related to yield of ginseng. However, it has become difficult to produce high quality ginseng seedling due to environmental instability such as an increase in the occurrence of abnormal climate and pests, and the difficulty in obtain new place to cultivate ginseng seedling. This study was carried out to analyze the growth characteristics of ginseng seedling according to application of fermented compost during ginseng seedling cultivation Methods and Results : In order to evaluate the effect of fermented compost on the growth of ginseng seedling, fermented compost containing antagonistic microorganism was prepared and applied 300kg per 10a to planned place for ginseng cultivation. After seeding of the ginseng seeds, the growth of ginseng was analysed. The pH, EC, organic matter, P2O5 and NO3-N of the compost treated group were 6.1, 2.75 ds/m, 18.97 g/㎏, 1,202 ㎎/㎏ and 287.4 ㎎/㎏, respectively, while those of non-treated group were 6.6, 0.25 ds/m, 14.67 g/㎏, 1,055 ㎎/㎏ and 8.77 ㎎/㎏, respectively. As a result of analyzing the growth characteristics of ginseng seedling, the growth of aboveground part was not significantly different between the treated and non-treated group. The root length and root diameter were 13.0 ± 1.50 ㎝ and 5.5 ± 0.27 ㎜, respectively, which were not significantly different from non-treated group. However, root weight was 1.20 ± 0.14 g, which is 1.4 times higher than that of control. Conclusion : It was confirmed that the quality of ginseng seedling was improved by compost application. These results suggested that fermented compost could be used as a material for nutrients management in ginseng seedling cultivation.
Background : This study was conducted to determine the optimal ginseng greenhouse shading material for minimizing heat injury and maximizing the yield of ginseng plants in an effort to develop a stable ginseng cultivation technology and contribute to popularizing ginseng greenhouse farming. Methods and Results : Three different types of greenhouse shading material were used: polyethylene (PE) film + black screen (95%), light scattering film + black screen (75%), and blue-white vinyl. Important experimental details were implemented in accordance with the Analysis Standard of Agricultural Test and Research set out by the Rural Development Administration. The average greenhouse temperature for the period of May through October was 20.0℃ under the PE film + black screen, 20.2℃under the light scattering film + black screen, and 19.7℃ under the blue/white vinyl. High average photosynthesis rates of ginseng plants were demonstrated by light scattering film+black screen (2.35 μmole CO2/㎡/s) and blue-white vinyl (2.38 μmole CO2/㎡/s), with the PE film + black screen showing a considerably lower photosynthesis rate (1.55 μmole CO2/㎡/s). Heat injury occurred in 0.3%, 10%, and 0.1% of the plants grown under the PE film + black screen, light scattering film + black screen, and blue-white vinyl, respectively. As for the roots, the blue-white vinyl outperformed the other shading materials in root length (25.7 ㎝), taproot length (5.9 ㎝), and the number of fine roots (23.2). The blue-hite vinyl also yielded the greatest root fresh weight (30.2 g), followed by the light scattering film + black screen (29.1 g), with the PE + black screen yielding by far inferior average weight (22.0 g). The highest crude saponin content was yielded by the light scattering film+black screen (16.61 ㎎/g), followed by blue-white vinyl (11.36 ㎎/g) and PE + black screen (11.0 ㎎/g). Conclusion : Comparing the effects of three different shading materials on greenhouse-cultivated 3-year-old ginseng plants, the blue/white vinyl outperformed two other shading materials in most of the growth characteristics, whereas the and the light scattering film + black screen yielded the highest ginsenoside content.
Background : This study was conducted to examine the suitability of the blue/white vinyl for ginseng cultivation greenhouses in different regions in an effort to develop a stable ginseng cultivation technology and contribute to popularizing ginseng greenhouse farming. Methods and Results : For comparison purposes, ginseng plants were cultivated in the traditional shading and greenhouse shading facilities. The average temperature in the greenhouse shading facilities during the period of May through October was 20.5℃ in Namwon, 21.4℃ in Jinan, and 23.3℃ in Iksan, with Iksan recording a 1.9–2.8℃ higher average temperature, presumably due to its location in a plain area with low elevation. The average temperatures in the traditional shading facilities ranged between 22.9℃ and 25.7℃, 2.4–2.6℃ higher compared with the greenhouse shading facilities. As for the incidence of disease and pest, as low as 0.1–0.3% of the plants grown under greenhouse shading were infected with Colletotrichum dematium, Alternaria panax, and Rhizoctonia solani, whereas much higher incidences were noted in the control plants, with 3.3–11.3%, 4.7–17.0%, 0.1–0.5%, and 3.0–5.7% infected with Colletotrichum dematium, Alternaria panax, Rhizoctonia solani, and Phytophthora cactorum, respectively, throughout the regions. Heat injury occurred only in Iksan (0.3%) in the case of greenhouse-shaded plants, whereas the control plants suffered from much severer heat injury: 3.5% in Namwon, 10% in Jinan, and as high as 35.3% in Iksan. As for the roots, Namwon outperformed other regions in root length (29.7 ㎝), taproot length (8.7 ㎝), and taproot diameter (25.3 ㎜), and also the root fresh weight (53.4 g), followed by Jinan (48.7 g) and Iksan (40.4 g). In yield as well, the greenhouse in Namwon outperformed other regions with 1,297㎏/10a, followed by Jinan (1,183 ㎏) and Iksan (932 ㎏). The effect of greenhouse blue-white vinyl shading on yield by region was analyzed to increase of 177% in Namwon, 209% in Jinan, and 173% in Iksan with respect to their respective traditional shading facilities. Conclusion : The suitability of the blue/white vinyl shading in ginseng cultivation greenhouses was tested experimentally in three different regions. As a result, greenhouse-shaded ginseng plants were found to be much less affected by heat injury compared with traditionally shaded ginseng plants, resulting in much higher yields in all regions. This allows the conclusion that greenhouse ginseng cultivation can contribute to more stable ginseng yield and popularization of ginseng cultivation.
Background : Gangwon-do (Province) is chief producing district of six-year-old raw material of red ginseng and transplanting culture is more than 90%. The 6-year-old red ginseng is easy to differentiate in quality and can secure a stable market, but it has high disadvantages such as high seedling cost, effort cost, and long term cultivation. Therefore, it is necessary to develop environment-friendly products that enhance price competitiveness based on 3 to 4-year-old ginseng by using direct seedling cultivation techniques. When ginseng seed sown directly, it is highly productive and has high disease resistance, which is advantageous for environment-friendly cultivation. Thus, it is advantage to save work force in seed production stage. The purpose of this study is to find the planting density for 4-year-old ginseng. Methods and Results : In order to determine proper planting density, ginseng growth characteristics such as root length, root diameter, raw weight, and yields were investigated at 4-year-old ginseng after planting 34, 67, and 100 roots per ㎡. As a result, the root length was the longest at 33.9 ± 5.45 ㎝ in 67 roots/㎡, and there was no difference in root diameter. The raw weight of 4-year-old ginseng was the highest at 65.1g in 34 roots/㎡. However, yields were 4.3 ± 0.78 and 4.8 ± 0.50 ㎏ in the 67 roots/㎡ and 100 roots/㎡, respectively, which were higher than the 34 roots/㎡. Conclusion : The proper planting density for direct seedling cultivation of yunpung cultivar was 67 - 100 roots/㎡, and these results could be applied to increase productivity in direct seeding cultivation of ginseng.
Background : The hyphal growth of Poria cocos are known to grow well under medium temperature(25 - 28 ℃) and acidic(pH 4.0 - 5.0) conditions. Also, it is known that a large difference in the yield of Poria cocos depending on the cultivation method and environment. Therefore, this research was carried out to secure stable yield of Poria cocos using plastic house and bed soil. Methods and Results : The inoculation time was in mid-April 2016 and the inoculation amount was 3/4 lb each in pine trees of 60 (L) × 10 (D) ㎝. The inoculated wood was buried directly in the bed by soil composition and growth characteristics investigated after cultivating in plastic house from April to September, 2016. The composition of the bed soil was 6 treatments using peatmoss, cocopeat and perlite. The combination ratio ranges of peatmoss, cocopeat and perlite were 0 to 80 %, 0 to 60 % and 20 to 60 %, respectively. We assumed that the combination ratio of peatmoss (organic material) 60 % : perlite(inorganic material) 40% is good for the growth of the Poria cocos. In this ratio, instead of peatmoss, the amount of cocopeat was replaced by 20, 40, and 60 %, respectively. The pH and EC range of bed soil was 4.8 - 5.6, 0.7 - 2.2 dS/m, respectively. pH and EC tended to be lower in treatments with only peat moss and perlite. On the other hand pH and EC tended to raise with increasing cocopeat content. Volumetric soil water content and soil temperature were in the range of 13 - 28 % and 20 - 29℃, respectively, during the period of July to September. Soil water content tended to be higher with increasing cocopeat and peatmoss content and soil temperature tended to be lower. The degree of initial hyphal development and sclerotia formation were good in all treatments compared to the control. However, the number of sclerotia was 6 times higher in the ② treatment than in the control. The size of sclerotia was also the best at 12 (L) × 8 (W) ㎝ in the ② treatment. Conclusion : As a result of cultivating Poria cocos in plastic house, growth characteristics were different according to composition of bed soil. The first reason for this result is that the difference of soil moisture content depending on organic matter content affected the soil temperature. Actually, the average soil water content and soil temperature of ① treatment (organic material 80% ) showed 24% and 22℃ respectively during July to September, and no sclerotia was formed. However, in the ② treatment(organic material 60%), the average soil moisture and soil temperature were 14% and 26℃ during July to September, respectively and sclerotia formation was good. Another reason is that the pH of the bed soil affects the formation of sclerotia. Overall, the degree of hyphal development was good in low pH treatments, but no significant difference was found between the pH and the formation of sclerotia.
Background : The study is designed to establish the standard of wide-shading facilities for the energy-saving and labor-free system in response to the shortage of manpower in rural areas by introducing North American style Ginseng cultivation facility. Methods and Results : This study was carried out at the Income & Resources Research Institute, Gyeonggi Agricultural Research & Extension Services, located in Shinseo-myeon, Yeoncheon-gun, Gyeonggi-do in 2015 in order to establish the standards for wide-shading facilities for energy-saving and labor-free system in response to Korea's climate and lack of manpower in rural area. The shading materials used were blue shading net made with coolaroo fabric, aluminum screen (shading rate 40%) and black shading net (shading rate 40%). As for the installation of additional shading materials, the blue shading nets (200 g/㎡ and 220 g/㎡) were installed on Apr. 1, and then the aluminum screens and black shading net were installed on Jun. 1 when it was hot (with the outside temperature of 30℃ or above. To determine the suitability of the shading materials, the growth environment in the shading facilities such as temperature and humidity, light quantity, and water leakage were measured. The growth was investigated for the above-ground part and underground part of the plants in accordance with the research standards of the Rural Development Administration (RDA). As for the temperature in the shading facilities, the temperature in the aluminum screen was higher than that of the black shading net, and the humidity in the aluminum screen was lower than that of the black shading net. The light intensity and transmittance were higher in the aluminum screen than those in the black shading net. The water leakage was absent on aluminum screen, but it was 8.1 - 11.5% in the black shading net. Although the growth of shoots above the ground showed no difference between shading materials, the growth of the shoot underground was better in the black shading net than in the aluminum screen in high temperature. In particular, the weight of Ginseng root increased by 19.1% in the black light shade compared to that of the aluminum screen. Conclusion : The results of the study showed that the combination of shading materials suitable for wide shading facilities in Korea in response to the lack of manpower in rural areas due to climate change and rural aging is the combination of "blue shading net + black shading net".
Background : The use of the rain shelter facility gets more prevalent in the Ginseng cultivation area these days. This study is designed to establish a technique for the stable cultivation of Ginseng in the rain shelter facilities in high temperature (above 30 ℃) without the damage from high temperature Methods and Results : This study was carried out on 3-year Ginseng roots in 2016 in order to find out how to stably cultivate Ginseng in high temperature without suffering the high temperature damage during the cultivation of Ginseng under rain shelter facilities. The rain shading materials were coated with scattering film (scattering film + black shading net 90%), bluish white double-sided film (shading 85%) and PE film (PE film + black shading net 90%). The damage reduction by high temperature was made to the scattering film and bluish-white double-ended film only. An aluminum screen (shading rate: 40%) was installed when the high temperature (above 30℃) was reached while the isoprene (solution of 2000 times) was sprayed 4 times every 7 days from the full development stage. The light transmittance was 12.6 - 13.4% for the scattering film, 10.5 - 10.8% for the bluish-white double sided film and 7.1% for the PE film in the first coating while it was 7.3% for the scattering film and 7.1% for the bluish-white double-sided film when the aluminum screen was installed in high temperature. The high, average and low values in the relative humidity were higher inside the facility than in the outside during the survey period. The area of leaf was the largest under the scattering film. The area of leaf was the largest for the scattered film under the aluminum shade of 40% shading followed by that of spraying of isoprene 4 times, and that of the no-treatment. As for the growth under ground, the growth of underground shoots increased by 40% in aluminum screen, 53.7% in shading and 26.1% in the spraying of isoprene 4 times than non-shading while there was no difference among other rain shelter materials. Conclusion : The result of the research showed that when the scattering film is selected as the rain shelter material film for the cultivation of Ginseng, it is necessary to shade the sunlight as much as 40% by using the aluminum screen or the shading net to reduce the high temperature damage.
Background : Acreage of rain-shelter plastic greenhouse to prevent anthrax is being gradually increased according to growing importance of safe Boxthorn production. But When Boxthorn is grown in the hot season in rain-shelter plastic greenhouse, Fertility decreases. The fertilization rate tends to be different according to cultivated variety and ventilation type of rain-shelter plastic greenhouse. Therefore it is necessary to identify cause and look for a solution. Methods and Results : In the experiment, ‘Cheongun’ cultivar was grown in the rain-shelter plastic greenhouses for the tests. Environment of rain-shelter plastic greenhouses, fertilization rate and density of flower visiting insect were investigated according to ventilation type. Pollen germination and pollen tube elongation on stigma were investigated according to temperature. In mid-July, the temperature on a clear day rose to 45℃ in rain-shelter plastic greenhouse of side vents. Pollen germination and pollen tube elongation on stigma were normal for 3 hours on 30, 35℃. Fertilization rate was somewhat reduced on 40℃ but Pollen germination and pollen tube elongation was good. On 45℃, fertilization rate was very poor and There was no pollen germination. Density of flower visiting insect in rain-shelter plastic greenhouse of roof and side vents was higher than that in rain-shelter plastic greenhouse of side vents. The fertilization rate on high temperature did not show any difference regardless of ventilation type. The rate of artificial cross-fertilization and airborne fertilization were high in rain-shelter plastic greenhouse of roof and side vents. It was necessary to improve airborne fertilization rate because airborne fertilization rate was significantly lower than artificial cross-fertilization regardless of ventilation type. Conclusion : When it was cultivated in rain-shelter plastic greenhouse, the reasons for the lowering of the fertilization rate were as follows. Density of flower visiting insect was low. Boxthorn, which was insect pollination crop, was needed sufficient flower visiting insect on flowering period. But it was insufficiency especially in rain-shelter plastic greenhouse of side vents. Another reason was decrease in pollen germination and pollen tube elongation. Pollen germination was suppressed in the high temperature.
Background : Natural Mortality Vinyl much culture are increased crop yield and saved weeding workforce. But research is insufficient that of Liriope Pilatyphylla Wang et Tang. Black non-woven fabric mulch culture are increased crop yield and superior to occurrence of weeds, but to the removal and planting more labor needed, so, Farmers are avoidance using that. Methods and Results : So this study designed in order to selecting the best covering material. Using in this study, covering materials were Conventional practices (non covering), Natural mortality vinyl and black non-woven fabric. Soil temperature was continued highly after planting from in mid-may to in august a regular. among them natural mortality vinyl mulch was the highest. Natural mortality vinyl mulch was the fastest that humidity of soil change and Growth and development situation by maintaining proper temperature and humidity. Non mulching was little change in temperature and humidity and the slowest in the Growth and development situation. The main event of weeds were Cyperus serotinus Rottb and Portulaca oleracea L. Weeding labor was saved from 43 to 57 percent in the natural mortality vinyl and black non-woven fabric mulch. Plant length was the shortest in the conventional practices and Root length, Leaf number and number of plants were little changed. Yield was increased from 27 to 29 percent in the natural mortality vinyl and black non-woven fabric mulch than conventional practices. Result of comprehensive economic analysis including weeding labor and yield, the natural mortality vinyl mulch culture was income increased 92 percent than conventional practices. Conclusion : Natural mortality vinyl mulch culture were weeds shooting controled and increased yield 39, income 92 percent than conventional practices (non covering).