Background : Korea's agriculture has been forced to change due to the decline in agricultural population, the aging of the population and the conclusion of the Convention on Biological Diversity. Thus, agriculture is seeking to develop into a sixth industry. For this reason, it is necessary to find high-function alternative plant resources for health promotion to meet the changes in national needs for agricultural products. The adventitious roots culture of wild mountain ginseng is the raw material of food code that produced by the biotechnology technique. introduced in the culture of the plant, which is the only way to use a raw material of food. Therefore, in order to increase the yield of ginsenoside in adventitious roots culture of wild mountain ginseng, ginsenoside precursor was treated and ginsenoside contents were analyzed. Methods and Results : In order to investigate effect of precursor treatment on the production of ginsenoside in adventitious roots culture of wild mountain ginseng, 5 g of adventitious roots culture of mountain ginseng were cultured in liquid SH media supplemented with 2 ㎎/l IBA, 3% sucrose for 8 weeks, which was co-cultured with β-sitosterol and Squalene (0.0625 to 1 mM) or without. Determination of 17 ginsenosides contents of each extract was carried out by HPLC. Rb3 was accumulated by only β-sitosterol, also it increased production of total ginsenoside in the cultured ginseng roots at a concentration of 0.125 mM, which was 2.47-fold higher than that in the control (78.13 ㎎/g of extract). Conclusion : These results are an important to improve the production yield of ginsenoside in adventitious roots culture of wild mountain ginseng, and they provide an opportunity for development of adventitious roots culture of wild mountain ginseng in dietary health supplement and pharmaceutical industries.

Background : The several studies on the characteristics of Korean ginseng cultivars and breeding lines have already been carried out the level of molecular classification analysis in Korea. In spite of where Geumsan is a representative place of Korean ginseng, Geumsan native species (breeding lines) have not yet been carry out analysis of morphological, genetic characteristics and relationship. We have plan to carry out morphological, genetic characteristics and relationship for Geumsan native species, breeding lines. Furthermore, We could be used diverse genetic resources for Ginseng breeding. Methods and Results : In this study, a total of 71 breeding lines and variety (GS97-1 - Geumwon) consisting of native ginseng collections from Geumsan was analyzed to identify for Korean ginseng variety respectively, and clustered for the selection of Geumsan native ginseng in Korea using DNA markers. We collected 71 Ginseng breeding lines from Geumsan. Analyses of the genetic characteristics of the collection were conducted for extraction gDNA using sprout. We were measured DNA concentration using QIAxpert (QIAGEN). Each DNA sample was quantified at the final DNA concentration of 5 ng/㎖ using sterilized distilled water. Korean ginseng 14 variety and 57 Ginseng breeding lines from Geumsan could be identified polymorphism using the selected 6 primer (MFGp183, MFGp130, MFGp110_E, UFGp163, MFGp108 and UFGp156). Conclusion : These finding could be used for morphological and genetic characteristics for produced native ginseng in Geumsan area. Futhermore, we could be used diverse genetic resources for Ginseng breeding.

Background : For ginseng breed development, mostly the pure-line separation method that registers excellent varieties after performing the regional adaptation test with the varieties selected through the preliminary and main productivity tests on selected excellent individuals cultivated in farms or excellent lineages for growing from collected lineages is used. Recently, the quality of ginseng is degrading while the yield decreases by 15 - 20% due to the high-temperature injury, the physiological disorder and/or 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 Chunpoong and Yunpoong, 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 productivity tests on the 3 lineages (GS98-3-4, GS00-58 and GS97-69) selected for excellent growing while having Chunpoong and Yunpoong as the reference varieties show that on the 2-years-old dormant roots, all of the selected 3 lineages are better in growing compared to the reference varieties. Especially, GS98-3-4 shows excellent leaf lengths and stem lengths while GS97-69 shows excellent leaf widths. On the overground growing of 3-years-old ones, GS00-58 and GS97-69 lineages are exceedingly more excellent compared to the reference varieties while the selected 3 lineages showing superb underground growing. Especially, GS98-3-4 lineage shows great root weights and diameters. Conclusion : According to the productivity tests on the 3 lineages selected for excellent growing, the selected lineages are excellent in both overground and underground growing compared to the reference varieties of Chunpoong and Yunpoong. On the 2-years-old ginsengs, GS98-3-4 shows excellent overground growing while GS97-69 shows excellent underground growing. On the 3-years-old ginsengs, GS00-58 and GS97-69 show excellent overground growing while GS98-3-4 shows excellent underground growing.

Background : This study was carried out to investigate the differences of growth characteristics, photosynthetic rate and ginsenoside content of Panax ginseng C. A. Meyer according to the covering materials during house cultivation. Also the results of this study will be used as basic data for the standardization of ginseng house cultivation. Methods and Results : This experiment site was conducted from March to October, 2017 in the house located in Jinan - gun, Jeollabuk-do. The ginseng cultivar used in the experiment was a violet stem variant of 4-years-old. There are three kinds of covering materials used in the experiments: polyethylene (PE) film, scattering film, and blue-white film. PE film and the scattering film were first coated with 85% of light shielding net after the first installation, and then secondly coated with 75% and 30% of the light shielding net respectively in the middle of May when the house temperature reached 25℃. The blue-white film was cultivated after the initial installation without further treatment. The light transmittance of each covering materials were in the order of scattering film (14.5 ± 1.5%), blue-white film (10.0 ± 1.0%) and PE film (6.7 ± 1.0%). The average photosynthetic rate of each treatment was in the order of scattering film (2.94 μmol CO2/㎡/s), blue film (2.71 μmol CO2/㎡/s) and PE film (2.34 μmol CO2/㎡/s). Aboveground growth characteristics of ginseng were good in a scattering film and blue-white film. Root weights were found in the order of scattering film (47.1 g/plant) > blue-green film (41.3 g/plant) > PE film (37.6 g/plant). Conclusion : In order to select proper covering materials for ginseng house cultivation, the growth and photosynthetic characteristics of each treatment were compared with each other in order of scattering film, blue-white film and PE film. The photosynthetic rate of each treatment was measured according to the growing season. PE film was relatively low during the entire growth period. In the case of scattering film and blue-white film, the rate of photosynthesis was higher in the scattering film with high light transmittance until May, but showed a similar tendency after July. As a result, the difference in the growth characteristics of ginseng is thought to be due to differences in photosynthesis and assimilation according to the coating materials.

Background : This study was carried out to secure technology for stable production of ginseng by developing technology to reduce the high temperature in response to climate change. Methods and Results : Polyethylene film (PE film), scattering film and blue-white double-sided film (85% shading rate) were tested for ginseng rain-shielding materials. The shading materials used were a black shading net (90% shading rate) in the first, and an aluminum screen (40% shading rate) in the second. The first shading materials were installed on April 10 with PE film + black light shielding net, and scattering film + black light shielding net. As the treatment for high temperature injury relief, an aluminum screen was installed under a scattering film + black light shielding net and a blue-white double-sided film at a high temperature. The amount of transmitted light was 12.9% at scattered film, 14.5% at double sided film, and 12.5% at PE film when the primary rain-shielding material was covered. In secondary shading, scattering film + aluminum screen and blue-white double-sided film + aluminum showed 8.6% and 7.6% of light transmitting, respectively. In the case of temperature, the average temperature was lower than the outside temperature at the scattering film + aluminum screen, clear double sided film + aluminum screen and PE film recovery. The differences among the cultivars were significant in plant height, stem height, stem diameter, leaf length, leaf width and leaf area. There were significant differences in the plant height, stem height, leaf length, and leaf width between treatments, but there was no interaction effect between varieties and treatments. The interactions between treatments were found only in the number of brach root. Conclusion : High temperature damage was influenced by the amount of irradiation in the facility rather than the temperature, which was presumed to be due to the accelerated aging of the ginseng leaf as the light transmittance increased.

Background : This experiment was conducted to study the characteristics of Korean ginseng (Panax ginseng C. A. Meyer) growth by LED artificial light source in the plastic house using multi-stage cultivation facility and artificial soil. Methods and Results : Seedlings of Korean ginseng cultivar cultivated from 6:00 am to 6:00 pm by adjusting the ratio of 1 : 1, 2 : 1 and 3 : 1 for red light and blue light for the LED light quality test. Controls were tested by treating the white light (fluorescent lamps) for the same time. The average temperature inside the plastic house remained above 25℃, then below 25℃ after mid-August and below 20℃ after mid-September. The temperature near the roots of the artificial soils was higher than 26℃ in late July and early August and lowered to 20℃ or lower in all treatments in September. The pH of the soil was in the standard range, but the EC value was 2.89 in the soil before the test and 5.83 in the white light treatment, higher than the standard range of 1.0. The light intensities were 95.3 μmol and 94.9 μmol in the 3 : 1 and 2 : 1 ratios of red and blue light, respectively. The photosynthetic rate was 1.72 μmole CO2/㎡/s in 3 : 1 treatment and 1.9 times higher than white light treatment. As the red light ratio increased, the light amount and photosynthetic rate increased. Growth characteristics of aerial parts (plant height, leaf length etc.) by LED irradiation were longer than that of white light treatment in the 2 : 1 or 3 : 1 treatment of red light and blue light. The root length was the longest at 13.7 ㎝ in the 3 : 1 treatment of red and blue light, taproot length were 6.9 ㎝ and 6.6 ㎝ in the 2 : 1 treatment and 3 : 1 treatment, respectively, longer than 4.3 ㎝ in white light. Root fresh weight was the heaviest (3.6 g/plant) in 3 : 1 treatment for red and green lights. Conclusion : It was confirmed that the rate of photosynthesis of Korean ginseng was higher than that of white light treatment and the growth characteristics of aerial and root parts were excellent at the ratio of 3 : 1 of LED red light and blue light in plastic house using multi-stage cultivation facility and artificial soil.

Background : This study was conducted to investigate the effect of inorganic compounds (germanium etc) on the characteristics of growth and ginsenoside contents in Korean ginseng (Panax ginseng C. A. Meyer) cultivated in plastic houses. Methods and Results : The experiments were performed in the Jinan (elevation: 300 meters above sea level). Seedlings (n = 72 per 3.3㎡) of Korean ginseng cultivar were planted on March 23, 2015. Shading material of plastic house was blue-white vinyl. From May to September of each year, 500 and 1,000 times diluted solution of germanium and silicate and these mixed solutions were drenched once a month. The chemical properties of the soil are as follows : pH, EC, organic content, and P2O5 of the soil were within the proper range, and the Mg content of the Ex-cations was lower than the standard value in 3 treatments, including 500 times solution of silicate. The rate of photosynthesis in Korean ginseng leaves were 2.2 - 2.5 μmole CO2/㎡/s in germanium and silicate treatment than in the non-treatment (1.5 μmole CO2/㎡/s). In the mixed treatment of silicate and germanium, the growth characteristics of the aerial parts (leaf and stem) of the Korean ginseng plants tended to be higher and longer than the other treatments. In a mixed germanium and silicate treatment, the root length was 33.3 ㎝, diameter was 23.5 ㎜, and the weight was the best at 53.8 g. The ginsenoside content was 16.8 ㎎/g in germanium treatment, 16.3 ㎎/g in germanium + silicate treatment. These were 37% and 33% higher than the control, respectively. The incidence of disease such as Alternaria panax was less in the inorganic treatment than in the non-treatment, and the incidence of disease was significantly decreased in the treatment with germanium + silicate. Conclusion : By soil drench of inorganic ingredients in Korean ginseng plastic house cultivation, the growth of the aerial and root parts in ginseng were more improved than non-treatment and ginsenoside content was increased and decreased the incidence of disease.

Background : The purpose of this study was to establish the optimum organic compost composition and fertilizer application for nutrient management during the cultivation of Korean ginseng (Panax ginseng C. A. Meyer) in the greenhouse. Methods and Results : Wood chips, popped rice hulls, and mixed expeller cake were mixed with certain contents, fermented microorganisms were added, and fermented for about 100 days to produce organic composts. Organic compost was applied to the greenhouse soils at a rate of 1,500 – 3,000 ㎏/10 a, and the Korean ginseng seedlings were planted (2015) and cultivated. The growth and quality characteristics of 4-years-old Korean ginseng were investigated as follows. In all treatments, the emergence date were April 17, and the emergence rate were 70 - 74%. Soil chemical properties such as pH (6.7 - 6.8) and trace element Ca (7.9 - 9.2 cmol+/㎏) were higher than the standard values, and EC, P2O5 and OM were appropriate. Disease incidence rate were less than 0.2% in the control (treatments of livestock manure compost 1,500 ㎏/10 a) and treatment 3 (wood chips 60% + popped rice hulls 40%), but there were no disease in other treatments. Plant growth such as plant height, leaf length, and stem diameter were superior to treatment 1 (wood chips 20% + popped rice hulls 80%), and growth of underground part such as root length were excellent in treatment 1 as a whole. In particular, in the application of 1,500 - 2,000 ㎏ of treatment 1, root weight (39.9 g, 42.3 g/plant, respectively) were superior to the other treatments. In general, as woodchip content and usage amount increase, root weight tended to decrease. Conclusion : It is considered appropriate to apply 1,500 - 2,000 ㎏/10 a of fermented compost of organic material which is mixed with wood chips (20%) and popped rice hulls (80%) with mixed expeller cake when growing Korean ginseng in the plastic house covered with blue-white vinyl.

Background : Panax ginseng C.A. Meyer belong to Panax species Araliaceae and a perennial plants. It grows in Far East Asia such as the Maritime province in Russia, the Manchuria reg ion of China, and the Korean peninsula. Panax ginseng C.A. Meyer is cultivated by seed sow ing or transplanting-culture, but seedling standing rate is as low as 50%. Therefore, it is impo rtant to increase seedling standing rate. This study was performed to research of plug-seedling cultivation techniques of Panax ginseng C.A. Meyer for increase of seedling standing rate. Methods and Results : Testing material, Panax ginseng C.A. Meyer seed, was sown on 5 kin ds of seedling trays (72, 105, 128, 162, 200 cells) in the middle of February 2016. It was gr own in the seedling green house in medicinal plant resources research department of Gyeongs angnam-do Agricultural Research and Extension Services. Four months after sowing, the seedli ng growth characteristics such as seedling standing rate and seedling withering rate were inves tigated. After transplanting in the mountain area of Hamyang-gun, growth characteristics of the root length, root weight, and other factors were investigated at the beginning of November. A s a result, seedling standing rates were 50.1% to 56.2% and seedling withering rates were 25. 2% to 35.9%. Among the five ports, the seedling standing rate of 105 cells and 72 cells was 56.2% and 55.7%, which were higher than others. In the case of 105 cells, however, seedling withering rate was 35.1% higher than that of 72 cells. Seedling leaf length and width were lo nger at 72, 105, 128 cells than at 162, 200 cells and seedling root length, root fresh weight and shoot fresh weight were the highest at 72 cells. Roughly, the more tray cells, the less se edling growth. After harvesting, among the five ports, root fresh weight and root dry weight per 1 hill of 128 cells were 0.36 g and 0.11 g, respectively, which were higher than those of other cells. Conclusion : The growth characteristics of Panax ginseng C.A. Meyer considering the seedling standing rate and seedling withering rate, among the five ports, 72 cells was most suitable. A mong the five ports, considering root fresh weight and root dry weight after harvesting, 128 c ells was most suitable.

Background: This study was conducted to acquire basic information on the phenotypic and genotypic characteristics of the germplasm of Panax ginseng C. A. Meyer collected from China and Korea, and identify the variations that can be utilized in ginseng breeding programs. Methods and Results: Quantitative parameters were evaluated, and used to compare and analyze on genetic polymorphisms in the germplasm. The genetic characteristics and classifications were compared and analyzed for each character. Stem length followed a normal frequency distribution ranging from 15.5 ㎝ to 40.5 ㎝, with showing approximately 40% having a stem length of 20 - 30 ㎜. Stem diameters ranged from 2.7 ㎜ to 11.3 ㎜. Stem number per plant ranged from 1 to 3; approximately 50% had a single stem, and 45% had two stems. A non-normal frequency distribution was observed for petiole number, with approximately 60% of the germplasm having 3 - 5 petioles. Petiole length exhibited a normal frequency distribution, raging from 4.5 to 10.6. Petiole angle in the germplasm ranged from 28° to 89° and seedstalk length ranged from 5.6 ㎝ to 27.3 ㎝. Conclusions: The genetic polymorphisms identified by complete linkage clustering based on the quantitative characteristics of Panax ginseng C. A. Meyer collected from Korea and China were classified to 6 groups, namely I, II, III, IV, V, and VI with frequencies of 6.7%, 20.0%, 31.7%, 8.3%, 6.7%, and 26.7%, respectively.

Background: Dehisced ginseng seeds need to be stored at cold temperatures for around 3 months to break their physiological dormancy, and thus, to aid in gemination. In the presence of high moisture in such an environment, seed spoilage and pre-germination may lower seed quality and productivity. To improve seed quality during cold-stratification, the effects of seed dehydration and temperature were tested. Methods and Results: In early December, dehisced ginseng seeds were dehydrated at 4 different levels and stored at 2℃- 2℃, and –20℃ for 3 months. Germination was carried out on the filter papers moistened with distilled water; emergence of root, shoot, and seed spoilage were assessed. Seed viability was examined by the tetrazolium test. More than 90% of the seeds stored at 2℃ and –2 ℃ without drying or endocarp dehydration germinated, but seeds that were dehydrated to have a moisture content (MC) below 31% showed poor germination and lost their viability. In addition, the seeds stored at –20℃ failed to show effective germination. Conclusions: Seed storage after endocarp dehydration might help to improve seed quality and increase seedling's ability to stand during the spring-sowing of ginseng.

This study was conducted to examine the antioxidant activities and physiological activities of mixture extracts (Liriope platyphylla, Schizandra chinensis and Panax ginseng C.A. Meyer) with different extraction mixing ratios (MEC, 2:1:1; ME1, 1:2:1; ME2, 1:1:2; ME3, 1.34:1.33:1.33). The yield of extracts ranged from 25.33 to 33.87%. The total polyphenol and total flavonoid contents of ME1 extracts were 1.01 g/100 g, 0.07 g/100 g, respectively. The total sugar contents of MEC extract was 22.83 g/100 g, respectively. The DPPH and ABTS radical scavenging activities of ME1 extracts at 1,000 μg/mL were 26.79% and 21.08%. The superoxide radical scavenging and ferric-reducing antioxidant power of ME1 extracts at 1,000 μg/mL were 67.83% and 295.47 μM, respectively. The functionalities of extracts were investigated with L-132 and RAW264.7 cell lines. The extracts on different mixing ratios did not show the toxicity on L-132 and RAW264.7 cell line in 100-2,500 μg/mL. The ME1 extract of 1,000 μg/mL performed better than other extracts protective effects against oxidative stess in L-132 cells (81.22%) and the ME2 extract at 1,000 μg/mL decreased nitric oxide production by 7.48 μM which was more potent than other extracts. There results suggest that the ME1 extracts may be a useful functional food material in the food industry.

Background : Although ginseng has various bioactive compounds in it, there is lack of study on the variations of bioactive compounds in ginseng according to the cultivation soil and the applied fertilizer types (or amount). Therefore, this study aims to examine the variations of 37 fatty acids (FA) and 8 vitamin E (Vit-E) vitamers in 6-year-old ginseng root cultivated in different soil types with different fertilizers regimes. Methods and Results : The profiling of 37 FAs and 8 Vit-E vitamers in 6-year-old ginseng roots was measured by gas chromatography coupled with a flame ionization detector, and then these results were statistically analyzed with chemometrics. The FA and Vit-E content in ginseng roots varied significantly with respect to soil cultivation conditions due to organic fertilizer types and amounts used. Unsaturated FA in ginseng is approximately 2.7 fold higher than the saturated FA. Linoleic, palmitic, and oleic acids were the most abundant FAs found in the ginseng roots. Also, the major Vit-E vitamer found in ginseng root is α-tocopherol. In particular, the application of rice straw compost or food waste fertilizer was increased to create nutritionally desirable FAs and bioactive Vit-E in ginseng root. In addition, phytonutrient profiling coupled with chemometrics can be used to discriminate the cultivation conditions of ginseng. Conclusion : This study extends our understanding about the variations of FA and Vit-E in ginseng root depending on cultivation conditions. Hence, these results can be useful as basic information for reliable ginseng production containing high amounts of phytonutrients in a paddy-converted field.

Background : In this study, a total of 46 breeding lines consisting of native ginseng collections from Geumsan was analyzed and clustered for the selection of Geumsan native ginseng in Korea using DNA markers. Methods and Results : We collected 46 Ginseng breeding lines from Geumsan : GS97-25 - GS00-58. Analyses of the genetic characteristics of the collection were conducted for extraction gDNA using sprout. 46 Ginseng breeding lines from Geumsan could be identified polymorphism using the selected 5 primer. We determained that the 46 breeding lines analyzed could be classified into 5 groups with similartiy value of 0.77 in dendrogram derived from the cluster analysis based on STS-markers. Group 4, which is the largest one, contained 19 collertions (41%). Conclusion : These finding could be used for morphological and genetic characteristics for produced native ginseng in Geumsan area. Futhermore, We could be used diverse genetic resources for Ginseng breeding.

Background : This study aimed to investigate the effect of elevated temperature by climate change on growth and ginsenoside contents of Korean ginseng, which requires low temperature during growth period. Methods and Results : Yunpoong was transplanted in temperature gradient chamber (TGC) for high temperature treatment and then growth characteristics and ginsenoside contents were investigated by growth period. Stem length, petiole length, leaf length and leaf width were increased as the temperature was higher than Ambient Temperature (Amb), but stalk diameter was decreased and small petiole length, number of petiole and leaf were no significant difference. Root growth, whereas, including length diameter and weight were decreased as the temperature was higher than Amb. Compared with Amb, root length, diameter and weight were decreased by 19.6%, 22.4% and 41.5% at Amb+6, respectively. The higher the temperatures are associated with the more ginsenoside contents. Compared to Amb, total ginsenoside contents were increased by 68% and 78% at Amb+4℃ and Amb+6℃, respectively. Almost all contents of individual ginsenoside, with the exception of Rg1, made a significant difference. Conclusion : When temperatures rises during growth period, the growth of ginseng was decreased but, ginsenoside contents were increased.

Background : The geographical origin of Panax ginseng Meyer, a valuable medicinal plant, is important to both ginseng producers and consumers in the context of economic profit and human health benefits. We therefore aimed to discriminate between the cultivation regions of ginseng using the stable isotope ratios of C, N, O, and S, which are abundant bio-elements in living organisms. Methods and Results : The C, N, O, and S stable isotope ratios were measured by isotope ratio mass spectrometer, and then these isotope ratios profiling was statistically analyzed with chemometrics. The various isotope ratios found in Panax ginseng roots were significantly influenced by region, cultivar, and the interactions between these two factors (P ≤ 0.0002). In particular, δ18O was lower in ginseng roots grown at high altitudes (r = −0.47), while δ34S was higher in ginseng roots grown close to coastal areas (r = −0.48). Chemometric results provided discrimination between the majorities of different cultivation regions. Conclusion : Our case study extends the understanding about the variation of C, N, O, and S stable isotope ratios in ginseng root depending on cultivation region. Hence, the analysis of stable isotope ratios is a suitable tool for discrimination between the regional origins of ginseng samples from Korea, with potential application to other countries.

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 : 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 : This study was carried out to distribute superior cultivars to farmers by analyzing growth characteristics of ginseng and effectively set the target for breeding by investigating annual agronomic characteristics of ginseng. Methods and Results : As a plant materials, Chunpoong (CP), Yunpoong (YP), Gopoong(GP), Gumpoong (GU) and Sunun (SU) were transplanted in Eumseong (ES), Geumsan (GS) and Yeoncheon (YC) on March 2013. Cultivation and management were conducted on the basis of the standard guidelines. According to stem and petiole by region, YC represent the largest stem diameter, leaf length and petiole length of cultivars, followed by those in ES and those in GS. Leaf growth of cultivars was overall the best in YC. Although CP had long and narrow leaves in all regions, YP and SU had short and narrow leaves. Root weight of all cultivars was the best in YC, but there was no significant differences by them. Growth of CP, YP and GP was generally good in ES. Growth of cultivars was relatively even in GS, but it was poor compared to cultivars which were cultivated in ES and YC. Conclusion : There were considerable differences in root growth of cultivars. However, this results suggest that CP of 4-year-old is produced stably in some regions because it had a small coefficient of variation.

Background : Stable ginseng production is highly dependent on specific climate conditions. Recently, ginseng yield and quality are negatively affected by climate changes, particularly global warming. Thus, it is imperative to apply a new systematic cultivation method and to develop new varieties with enhanced heat resistance to cope with elevated temperatures. Up to date, ginseng breeding program has mainly focused on the quantity and process ability of red ginseng. New varieties with increased resistance to diverse abiotic stresses need to be developed. Methods and Results : In this study, 13 varieties and 100 germplasms were screened for resistance to heat stress. To measure heat resistance, seedlings were transplanted to a pot 3 times in threes. Two months later, the pot was placed in a temperature chamber at 46℃ for 1 hour, a critical condition that ginseng appears to stop cellular respiration. After waiting for 1 day, the pot was examined for survival rate and fluorescent reaction. Fluorescent reaction was tested according to Nedbal et al. (2000) and Park et al. (2010) and with an image fluorometer. After testing chlorophyll fluorescent reaction, Fm/Fo, Fv/Fm and Rfd were used as screening indices for high temperature resistance. It was found that the adequate values for Fm/Fo, Fv/Fm and Rfd were over 2.2, over 0.55 and over 0.8, respectively. Also, the degree of the above-ground damage is investigated in the 4-year old field. Under our heat stress conditions, susceptible varieties (Chunpoong) and germplasm lines showed drooping and wilting leaf phenotypes, whereas the leaves of a resistant line (named Eumseong 11) remained healthy. Eumseong 11 had the highest values with 2.3, 0.61 and 0.98 in fluorescent test. In addition, compared to the susceptible lines which were wilted in 4-year old field, no detrimental phenotypes were observed in Eumseong 11. Conclusion : ‘Eumseong11’ was selected as a superior line with increased resistance to heat stress. We are now testing how Eumseong11 responds to other abiotic stresses. Our effort will contribute to increase the farmers' income.