벗초파리기생벌인 A. japonica의 벗초파리 유충의 발육단계에 따른 기생특성과 기생당한 유충과 번데기에서 형태적인 차이를 조사하였다. 또한 A. japonica의 우화기간이 벗초파리 우화일수 보다 더 소요되는 것을 확인하였다. A. japonica는 벗초파리 유충에 효과적인 기생 및 살충 효과를 나타내었으며 벗초파리 방제를 위한 천적으로 활용이 가능할 것으로 보인다.
본 연구에서는 단일 시료를 검사하는 식품공전의 방법을 통계적 개념인 n, c, m, M을 도입하여 국제기준에 발 맞춘 시스템을 확립하고자 식품 중 미생물 오염실태 조사 및 기준·규격 재평가를 실시하였다. 즉석섭취·편의식품 류에 대한 미생물의 오염도 조사를 위한 모니터링을 실시 하였으며, 이를 바탕으로 통계적 개념을 도입하여 새로운 기준·규격을 마련하고자 하였다. 즉석섭취·편의식품류 총 2,040건(즉석섭취식품 630건, 즉석조리식품1,020건, 신 선편의식품390건)을 구입하여 일반세균수, 대장균군, E. coli, B. cereus, S. aureus, C. perfringens 에 대한 모니터 링을 진행하였다. 즉석섭취·편의식품류의 일반세균수는 평균 2.10 log CFU/ g, 대장균군은 평균 −0.60 log CFU/g, E.coli은 평균 −1.33 log CFU/g, B.cereus은 평균 −1.23 log CFU/g으로 검출되었 으며, S.aureus은 신선편의식품에서만 평균 −1.35 log CFU/ g, C. perfringens은 즉석조리식품에서만 평균 −1.37 log CFU/g 검출되었다. 일반세균수, B. cereus, S. aureus, C. perfringens은 현 기준규격을 초과하지 않은 것으로 나타났으나, 신선편의식품에 한하여 E. coli 는 34건이 식품기 준 및 규격을 초과 하였다. 즉석섭취·편의식품류의 모니 터링 결과를 바탕으로 Newsamplesplan 2 프로그램을 활용하여 이론적 규격을 도출하였다. 오염 분포도가 넓어 사 실상 규격 마련의 실효성이 없는 것으로 파악되었고, 대장균은 즉석섭취식품 및 즉석조리식품에서 n=5 c=1 m=0 M=10으로, 신선편의식품에서는 n=5 c=1 m=10 M=100으로 이론적 규격이 필요할 것으로 판단된다.
대나무를 닮았다고 해서 이름이 붙은 대벌레는 단위생식으로 번식을 하며, 불완 전변태, 날개퇴화, 의태 등의 특성을 갖는 학습애완용 산업곤충으로 매우 유망한 곤충이다. 자연에서는 참나무, 밤나무, 아까시나무 등 활엽수 잎을 주로 먹지만 학 습애완용으로 학생들이 동절기에도 안정적으로 사육하기 위해서는 인공먹이의 개 발이 필요하다. 증류수 100ml에 맥아 14g, 이스트 7.5g, 비타민 1.9g 등을 넣고 아까 시나무 잎 가루를 20, 25%, Agar를 1, 2, 3%로 달리하여 인공먹이를 제작하고 대벌 레를 유충부터 성충까지 사육하여 천연먹이와 비교하였다. 아까시나무 잎 25%처 리에서 20%에 비해 약충 발육기간이 증가하는 경향을 보였으며 천연먹이에서의 55.3±4.6일과 비슷하였다. 성충크기는 7.7~8.0cm로 인공먹이 처리간 차이가 크지 않았으나, 천연먹이에서 7.5±0.4cm 보다는 큰 경향이었다. 아까시나무 잎 25%와 Agar 1%처리에서 1령 약충에서 성충발생율이 89.8%로 가장 높았고, 30일이내 성 충 사망률은 5.7%로 가장 낮았다. 성충수명과 산란수도 아까시나무 잎 25%와 Agar 1% 인공먹이에서 각각 100.4±36.8일, 145.0±63.0개로 천연먹이로 사육하였 을 때 49.7±16.0일, 109.5±70.5개보다 증가하였다. 이상의 결과로 대벌레 안정적 인 사육을 위해 아까시나무 잎 25%에 Agar를 1% 첨가하여 인공먹이를 제작하는 것이 가장 효과적이었다.
Background : This study was conducted to develop sustainable and safe ginseng cultivation facilities to cope with climate change and to save labor due to the decrease of labor force in rural areas.
Methods and Results : In 2017, we designed the wide-shading facility which was unmanned and labor saving to cope with climate warming and decreasing labor force in farming area for stable and sustainable production of ginseng. The developed model is called model Ⅰ(Slope-shading facility, Gyeongsangbuk-do ARES), model Ⅱ (Slope-shading facility, Gyeonggi-do ARES) and Model Ⅲ (Roof-type shading facility, RDA, NIHHS, Department of Herbal Crop Research). The tested varieties were stem-violet variant, and the transplanting was done by using the 2-years-old seedlings on April 3, 2017 and the planting density was 90 plant/1.62㎡. A thermometer, a light meter, and a rain gauge were installed in the center of the facility on April 13, 2017 to measure the micro-weather in the facility. Micro-weather observations were made from April 14 to October 10, measuring temperature, humidity, light intensity, soil moisture content, water leakage, and wind speed. Surveys were carried out on June 20 and September 29, respectively. The maximum temperature in the facility was 2 to 3℃ lower than the outside, but the relative humidity was 2 - 3% higher in the facility than in the outside. Soil moisture did not show a clear trend among the models. The light transmittance was 5 - 10% and it was the highest in model I, where the height of the shading facility was the highest. Rain leakage was 10 - 36%, the most in model Ⅱ. The amount of leaks increased with the amount of precipitation per hour. In all models, ginseng stem and leaf were damaged due to excessive water leakage. On July 10, stem and leaf were grown well only in wide-shading facility where leakage was adequately blocked with double-sided film. The average wind speed was less than 1.6 m/s during the survey period. The maximum wind speed was 8.8 m/s or less, which did not affect the deformation of the wide-shading facility. In all models, there was no difference in growth of aboveground part and root.
Conclusion : As a result, in order to grow ginseng continuously and stably using wide-shading facilities, it is considered that the amount of leakage should be minimized by using material that can prevent leakage in cope with rainfall or heavy rain rather than wind-resistance.
Background : Development of new real-time PCR diagnosis method for simultaneous diagnosis of Cylindrocarpon destructans and Fusarium solani, causative fungi of ginseng root rot disease. C. destructans and F. solani are known to be the major pathogens of ginseng root rot disease. Root rot caused by these pathogens is a disease that is difficult to control because the disease progresses slowly and it is difficult to diagnose early and even when symptoms of plant seeding are present, the disease is already spread in the roots. Diagnostic methods to detect the presence or absence of ginseng roots rot fungi in soil before ginseng cultivation are currently being used as a method for controlling. However, commercialized soil extraction kits and PCR diagnostics have cost, diagnostic time, and single diagnostic problems, and need to develop new diagnostic methods.
Methods and Results : Primers and probes in the beta-tubulin 2 gene were designed for species-specific detection. In silico analysis, the detection rate of C. destructans was 100% and the detection rate of F. solani was 95%. The multiplex real time PCR optimization conditions including the internal control were established. The analytical sensitivity using positive samples was 10 copies/㎕ for C. destructans and 10 copies/㎕ for F. solani. As a result of performance comparison test with conventional PCR diagnosis methods, it was confirmed that the developed multiplex real time PCR method has the same or better performance in terms of sensitivity. In the developed soil extraction kit, the extraction time was reduced and the extracted DNA quality was improved, compared to the used soil extraction kit.
Conclusion : From the above results, we expect that the developed C. destructans / F. solani multiplex real time PCR diagnosis method and soil extraction kit will be useful for real-time monitoring of ginseng root rot pathogenic fungi in the soil of ginseng cultivation area and diagnosis of suitability of ginseng cultivation area.
Background : This study examines the main growth characteristics, physiological stress, or diseases damage for 3 and 4-years-old ginseng in the new lines cultivated in Gyeonggi for development of new lines of Ginseng.
Methods and Results : Eumseong 13, 14 and 15, which are two-years-old seedling in the new line ginseng were transplanted in 7 lines × 9 rows (70 plants)/1.62㎡ in 2015 along with Gumpoong and Yeonpoong as the control lines while Eumseong 16 and 17 as well as Chunpoong as the control line were transplanted in the same way in 2016. The ginseng shading was installed with the front post of 170 ㎝ high and the rear post of 100 ㎝ high using the rear line while as the sun blocking material, the aluminum shade plate was used. As for the new growth lines of 3 and 4-years ginseng in the new growth line, the aerial parts of the ginseng and underground part of ginseng were examined. In addition, the physiological stress such as the leaf discoloration, rusty root and root rot as well as the resistance against the disease were examined. It was found out that as for the aerial parts of 3-years-old ginseng in test line, Eumseong 16 and 17 were better in the growth than the control lines were while in 4 years old ginseng, Eumseong 13 and 14 were better in the growth than Gumpoong as the control line was. As for the root weight of the 4-years-old ginseng for the underground part, there was no significant difference compared with control line while in 3-years-old ginseng, Eumseong 16 and 17 were heavier. The leaf discoloration did not happen to both 3 and 4-years-old ginseng. As for the root rot, 3-years-old Eumseong 16 and 17 suffered less root rot in the same way as for the control line. 4-years-old Eumseong 14 and 15 had less root rot in the same way as for the control line. 3-years-old Eumseong 16 and 17 have less rusty root in the same way as the control line while as for 4-years-old ginseng, Eumseong 13, 14 and 15 showed a lot of rusty roots in the same way as the control line.
Conclusion : Finally, considering the growth characteristics, physiological stress and root rusty of the aerial parts and underground parts of the ginseng, we selected Eumseong 16 and 17 as the excellent lines for 3-years-old ginseng.
Background : Ginseng is an important agriculture plant in Korea. However, plant yield is reduced by pathogens. Cylindrocarpon destructans and Fusarium solani are responsible for root-rot and replant failure of ginseng in Korea. Because of root rot pathogen, the productivity decreased and repeated cultivation is difficult.
Methods and Results : The number of Cylindrocarpon destructans and Fusarium solani in soils can be measured by real-time PCR. This methode makes it possible to select of land for caltivation of ginseng. The specific primers of C. destructans and F. solani were synthesized from β-tubulin region. The equation of the standard curve between the colony forming unit(cfu) and the Ct value in the C. destructans was y (Ct value) = -1.608X (cfu) + 39.325. The equation of the standard curve between the colony forming unit (cfu) and the Ct value in the Fusarium solani was y (Ct value) = -1.608X (cfu) + 39.077. This method makes possible to rapidly exactly measure the number of pathogens in soil. C. destructans, a ginseng root rot fungus, was detected in soil samples of 32 (16%) in soil samples. 35.5% of paddy field, 34.3% of paddy field, 64.1% of field, and 65.6% of paddy field were found in perennial plant.
Conclusion : As a result, the major causative agent of ginseng root rot was Cylindrocarpon and the onset density was 102 cfu/g in soil. There was no significant difference in density between fusarium and disease.
Background : This study was conducted to select a optimal combination of LED light sources for stable production of sprout ginseng used as vegetables throughout the year.
Methods and Results : The treatments to select the optimum LED light source for the production of functional sprout ginseng were ①Blue40%: Green40%: Red40% (B40 + G12 + R20 umol·m-2S-1), ②B50: G25: R10 (B50 + G8 + R5 umol·m-2S-1), ③B50: G20: R40 (B50 + G6 + R20 umol·m-2S-1), ④B35: G20: R35 (B35 + G6 + R18 umol·m-2S-1), ⑤B20: G0: R40 (B20 + R20 umol·m-2S-1), ⑥control (a general fluorescent lamp for plant cultivation, FL40W, PG, 35.0 umol). The ginseng seedlings used in the test were subject to preconditioning process for one week after the cold treatment at 4℃ for at least three months. The root media were composed of porous artificial soil 40% + peat moss 30% + perlite 20% + Vomito (brand name)10%. We planted 35 seedlings (planting density 5 × 7 ㎝) in a 480 × 380 × 295 ㎜ plastic box. The two liters of water were irrigated per a plastic box when water potential reached -33 kPa using a tensimeter. The cultivation room was maintained at 25℃ with 45% of the relative humidity, and 16 hours of lighting for growing conditions. The growing period was 40 to 60 days after planting. The results were as follows; the treatment of LED B50%: G25%: R10% (B50 + G8 + R5 umol·m-2S-1) increased the diameter of the sprout ginseng by 10.3% (4.95 → 5.46 ㎜), root weight 27.3% (1.1 → 1.4 g), fresh weight 38.9% (1.8 → 2.5 g) in comparison with the control. The contents of ginsenoside such as Re, Rg2, Rc, Rb2, and Rd increased 24.2% (24.8 → 30.8 ㎎/g).
Conclusion : The optimal light source for sprout ginseng was LED B50%: G25%: R10% (B50 + G8 + R5 umol·m-2S-1), which increased sprout production by 38.9% in comparison with the control.
Background: This study was carried out to determine the best time for collecting ginseng berries without reducing the ginsenoside- Re content of ginseng roots, which are used as food, medicine, or cosmetic materials.
Methods and Results: The test variety of ginseng used in this study was is Chunpung, which was collected from a 4-year-old ginseng field. Ginseng berries were collected at 7, 14, 21, 28, 35, 42, 49, and 56 days after flowering. The number of berry bunches per 1.62㎡ ranged from 43.4 to 61.4, while the weight of berries per 1.62㎡ was the greatest when they were collected 49 days after flowering. The root fresh weight per 1.62㎡ was increased by 0.21 - 1.00 ㎏ compared with that before the test, but root weight gain was decreased as the berry collection time was delayed. Total ginsenoside content of 4-year-old ginseng was the highest when berries were collected 7 days after flowering, while the ginsenoside-Re contents was the highest when collection was done 14 days after flowering.
Conclusions: The most suitable period for ginseng berry collection was proposed to be from 14 to 21 days after flowering, as this is when the content of ginsenoside-Re, which is useful as a medicinal or cosmetic material, is still high and the ginseng root has not yet decreased in weight.
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 study researches on the microclimate, photosynthesis and growth characteristics for the development of shading materials proper for the wide and inclined ginseng cultivation facility which can respond to climate change and save labor.
Methods and Results : The wide shading facilities were installed on the area of 1,000 ㎡ in 2014 and 4 facilities were installed on the test ginseng cultivation area. On Mar. 29, 2017, 2 blue shading nets [with the sun blocking rate of 85% (200 g/㎡) and 90% (220 g/㎡)] were installed each for 4 facilities. On June 26, 2017, the aluminum screen and black shading net (with the sun blocking rate of 40% each) were installed during the period of high temperature (30℃ or higher) for each facility. The maximum light intensity under the shading facility was high with blue shading net 85% and PE black shading net 40%, or blue shading net 85% and aluminum screen 40%, higher than other treatments. They were higher by 4.8 - 7.3%, 5.3 - 7.8% each in July and August. Among the coating materials for reducing the high temperature, the aluminum screen coating had less water leakage in early July, late July, mid-August and late August when the precipitation was more than 100 ㎜. The death of the aerial part of ginseng occurred less until October. The growth of the aerial part of 4-year ginseng was better in blue shading net 85% and PE black shading net 40%, blue shading net 85% and aluminum screen 40% or blue shading net 90% and PE black shading net 40% than in blue shading net 90% and aluminum screen 40% The photosynthesis rate was the highest in June with 3.67 μmol CO2/㎡/s under the blue shading net 90% and aluminum screen 40% and with 3.55 μmol CO2/㎡/s under blue shading net 85% and PE black shading net 40% for K-1. As for the land races ginseng, it was the highest with 3.55 μmol CO2/㎡/s under the blue shading net 85% and PE black shading net 40%. For the growth of the underground part of the 4-year ginseng, the blue shading net 85% + PE black shading net 40% or the blue shading net 85% + aluminum screen 40% was the best with respect to the growth of the ground part of the ginseng such as the length of root, the length of main root, diameter of root and weight of root than other treatment.
Conclusion : Best coating materials for the wide shading facilities are the blue shading net 85% and aluminum screen 40%.
Background : Korean ginseng is an important cash crop in Asian countries. However, plant yield is reduced by pathogens. Among the Ilyonectria radicicola-species complex, I. mors-panacis is responsible for root-rot and replant failure of ginseng in Asia. It is essential to find a way to reveal the existence of the pathogen before starting cultivation. Therefore, qRT-PCR method is developed to detect and quantify the pathogen in ginseng soils. Methods and Results : In this study, species specific Histone H3 primer set is developed for the quantification of I. mors-panacis. The primer set was applied on DNA of other microbes to evaluate its sensitivity and selectivity on I. mors-panacis DNA. Sterilized soil samples artificially infected by the pathogen in different concentrations were used to evaluate the ability of the primer set to detect the pathogen population in the soil DNA. Finally, the pathogen was quantified in many natural soil samples. The designed primer set was found to be sensitive and selective to I. mors-panacis DNA. In artificially infected sterilized soil samples, the estimated template using qRT-PCR was positively correlated with the pathogen concentration in soil samples (R2=0.94), disease severity index (R2=0.99), and colony forming unit (R2=0.87). In the natural soils, the pathogen was recorded in the most of fields produce bad yields with the range of 5.82 ± 2.35 to 892.34 ± 103.70 pg/g of soil. Conclusion : According to the presented results, the proposed primer set is applicable for estimating soils quality before ginseng cultivation. This will help in the disease management and crop protection in the future.
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 : 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 : 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.