This study aimed to develop an optimal greenhouse model for strawberry seedling during the summer high-temperature period based on the results of field surveys. We conducted a survey on the structure types of 46 strawberry seedling farms nationwide, including width, ridge height, eaves height, ventilation method, seedling bed width, and spacing. Based on the survey results, we derived the optimal greenhouse model by considering various factors. The greenhouse width was set at 14 meters to maximize the efficiency of seedling beds and overall space. The height was determined at 2 meters, taking into account ventilation during the summer season. To reduce stress on the supporting structure due to snow loads, we established a reinforcement installation angle of 50 degrees. We analyzed two different models that use support beams with dimensions of φ48.1×2.1t and φ59.9×3.2t, respectively, to ensure structural safety against meteorological disasters, considering regional design wind speeds and snow accumulation. We utilized these developed greenhouse model to conduct strawberry seedling experiments, resulting in a high survival rate of average 93.2%. These findings confirm the usefulness of the strawberry seedling greenhouse in improving the seedling environment and enhancing overall efficiency.
토마토를 저면관비 방법으로 육묘할 때 유묘 생장과 상토 무기원소 농도 변화에 적합한 추비의 종류 및 농도를 구명하기 위해 본 실험을 수행하였다. 육묘용 2종류의 동절기 혼합상토 피트모스 0-6mm(PM06)+perlite 1- 2mm(PE2)(7:3, v/v)와 피트모스 5-15mm(PM515)+PE2(7:3, v/v)를 72공 플러그 트레이에 각각 충전하고 토마토 ‘도태 랑다이아’ 종자를 파종하여 발아시킨 후 생장상에서 35 일간 육묘하였다. 자엽형성기에 추비를 시작하였고 13- 2-13, 15-0-15, 20-9-20(N-P2O5-K2O) 복합비료를 순서대로 처리하였다. 추비시 생육 단계별로 25mg·L-1의 농도 차(N 기준)를 둔 3종류의 Program을 두어 시비하였으며, 플러그 트레이의 수분이 포화 기준으로 40-50%로 감소 하였을 때 저면관비하였다. 파종 후 1, 2, 4 및 5주째 혼합상토를 상부, 중간, 하부로 3등분하여 포화추출한 후 추출용액의 pH, EC 및 무기이온 농도를 분석하고, 5주 후에 유묘생장을 조사하였다. 육묘 기간 중 상토의 pH는 PM06+PE2가 PM515+PE2 보다 높았으며, 하부와 중간이 상부보다 높은 경향이었다. EC는 PM06+PE2가 PM515+PE2보다 높았으며 평균적으로 상부가 하부보다 2배 이상 높았다. NH4-N과 K+ 농도는 2종류 혼합상토의 모든 시비 Program에서 육묘 후 5주까지 높아졌으며, PM06+PE2의 추비 프로그램 3에서 가장 높았다. NO3-N 농도는 PM06+PE2에서 육묘기간 동안 높아졌고 추비 농도가 높을수록 그러한 경향이 뚜렷하였다. 지상부 생 체중을 비롯한 유묘의 생장은 PM06+PE2의 추비 Program 2에서 가장 우수하였다. 따라서 2종류 혼합상토 를 이용한 공정육묘시 13-2-13, 15-0-15 및 20-9-20을 순서대로, 질소 기준 25mg·L-1에서 125mg·L-1까지 육묘 기에 따라 점차적으로 높여 추비하는 방법이 적합하다고 판단하였다.
본 연구는 플라스틱하우스 수박 재배 시 육묘 포트종류와 그 정식 방법이 정식 후 생육 및 과실 특성에 미치는 영향을 알아보기 위해 수행하였다. 잎의 수, 면적 및 광합성률, 초장, 생체중량 모두 정식 후 시간이 경과하면서 관행포트 묘에 비해 이중플라스틱포트 묘에서 우수한 경향을 나타내었다. 수확과의 과고, 과폭 및 과중도 이중플라스틱포트 묘에서 다른 포트 묘에 비해 다소 큰 경향이었다. 과피두께는 사각형피트포트 묘에서 가장 얇았고 관행포트 묘에서 가장 두꺼웠으며, 배꼽 직경은 과피두께 결과와 반대의 경향을 나타내었다. 그리고 이중플라스틱포트 묘의 정식 깊이에 따른 초기 생육은 포트 높이의 2/3 정도에서 가장 우수하였다.
본 연구는 지황의 플러그 육묘 재배가 생산량을 증가시킬 수 있는지 평가하고, 강원도 남부지역에 플러그 육묘를 이용한 지황 재배 시 중부지역의 직파재배만큼 생산량을 늘릴 수 있는지 알아보기 위해 수행하였다. 수량의 경우 음성 육묘재배(1,376 ㎏/10a)가 가장 높았고, 그 다음으로 평창 육묘재배(1,256 ㎏ /10a), 음성 직파재배(1,253 ㎏/10a), 평창 직파재배(923 ㎏ /10a) 순으로 나타나, 강원도에서 육묘재배시에 중부지역 직파 재배만큼 생산량을 늘릴 수 있는 것으로 나타났다. 또한, 지황은 근경 굵기가 8-12 ㎜가 중품(中品), 그 이상이 상품(上品)의 등급으로 팔리는데, 재배실험지역과 재배방법에 상관없이 모두 14 ㎜가 넘어 상품성(商品性)에도 문제가 없었다. 그러므로 생산량과 품질 조건을 고려해 볼 때, 플러그 육묘 재배를 통해 생산량을 늘릴 수 있었으며, 강원도에서 플러그 육묘를 이용한 지황 재배 시 중부지방의 직파재배와 비슷한 생산이 가능할 것으로 생각된다. 그러나 본 연구결과를 적용하기에는 늘어나는 생산비와 증가되는 수익을 고려한 경제성 분석이 더 필요할 것으로 생각된다.
Background : Rehmannia glutinosa is a perennial herb belonging to family Scrophulariaceae. This study was conducted to evaluate the appropriateness through seedling cultivation of R. glutinosa.
Methods and Results : The root of R. glutinosa cultivar (Jihwang 1) was harvested in the middle of March. Seed rhizomes were seedling after air curing for three days. And seed rhizomes were plug seedlings for 30 days (30D), 45 days (45D) and 60 days (60D) then planted in the test field. Mat formation rate in 30D, 45D and 60D was 81.3, 100 and 100% respectively. Flowering occurred only in 45D and 60D except 30D. Flowering rate of 45D and 60D were 7.3 ± 3.06 and 13.3 ± 1.15%. Agronomic characteristics were evaluated in comparison with ND (directly seeded group). As a results, aerial parts of 30D in plant height, leaf length and leaf width were better than other treatment group but the number of leaf per plant was statistically the same. Also, root shape was similar when comparing ND and seedling groups.
Conclusion : Taken together, it is thought that the cultivation of R. glutinosa. seedlings is possible. However, further evaluation of the economic aspect is needed.
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 : 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.
This study was conducted to dentify the optimum plantlet type of ‘Solara’ potatoes (Solanum tuberosum L.) for growth in an aeroponics system. Plantlets of ‘Solara’ were transplanted on March 16, 2015 in a greenhouse, and growth and yield characteristics were investigated at 70 and 78 days after transplanting, respectively. Stem length was shorter in plantlet of 15-day-old stem cuttings and acclimatization of culture, and the stem length of plantlets of stem cuttings tended to increase with increasing stem cutting age. The fresh weight of plants was the highest in the plantlets of 40-day-old stem cuttings and the lowest in non-rooted stem cuttings and acclimatization of culture. The highest number of first stolons was obtained in 35-day-old stem cuttings. The number of second stolons was the highest in plantlets of 35-day-old stem cuttings, acclimatization of culture, and 30- day-old stem cuttings. The total number of tubers was higher in plantlets of 35-day-old stem cuttings and acclimatization of culture, and the number of tubers above 3 g was the highest in plantlets of 35-day-old stem cuttings. The weight of tubers above 3 g was the heaviest in plantlets of 35-day-old stem cuttings(1,947 g per 10 plants), followed by plantlets of 30-day-old stem cuttings. These results indicate that plantlets of 30 to 35-day-old stem cuttings could be the best for production of ‘Solara’ potato tubers in an aeroponics system.
Background : The production of healthy ginseng seedling is a critical part of growing 5-6-year-old fresh ginseng. Recently, for the problem of replant failure, it becomes more and more difficult to find first planted field for ginseng seedling cultivation. In this situation, This study was conducted to examine the possibility of seedling production practices of ginseng by utilizing the multi-beds cultivation system as a way to produce ginseng seedling stably. Methods and Results : This experiment was conducted by installing a 3-layed cultivation beds using 50㎜ sandwich panels. As the 1st and 2nd beds get insufficient amount of light, fluorescent lights were installed in 2 rows to further lighten up. And the 3rd bed used natural light. The bed soil used was formulated by mixing saprolite, yakto and peat moss. The control was cultivated under natural light on 1-layed bed with commercial bed soil for ginseng seedling. The commercial bed soil had pH 7.24, higher than the standard of permission, 6.5; and its calcium and sodium contents were 10.7, and 0.85 cmol+/㎏, respectively, higher than the standard. The available phosphate concentration was 34.0㎎/㎏, lower than the appropriate level of 100 ㎎/㎏. The mixing bed soil also had pH 7.69, higher than the standard but its nitrate and phosphate were within the appropriate range. The intra-facility light quantities of the 1st and 2nd beds were constant at around 100 μmol during days. But the light quantity of the 3rd bed was 51.4 μmol in average daily value. The roots of the 1st-3rd beds were found to weigh 0.58 – 0.73 g while those of the control group, about 0.47g to show heavier root weight of the multi-beds cultivation ginseng than that of the control. As for the yield, the control showed 145 ㎏/10a whereas the 1st-3rd beds showed higher levels between 183 – 228 ㎏/10a. Conclusion : In the multi-beds cultivation of ginseng seedling, fluorescent lamps seem to have provided sufficient light as an artificial light source. The soil for ginseng seedling production is different from ginseng cultivation field soil, additional study will be also necessary to set up the physiochemical range of bed soil for ginseng seedling.
This study was performed to investigate the effects of sowing density and number of seeds sown on the emergence rate and growth characters of Panax ginseng C. A. Meyer under direct sowing cultivation in a blue plastic greenhouse. Ginseng seedlings, derived from seeds sown directly at different densities (90, 108, 135, and 162 seeds per 162m2), were cultivated in sandy loam soil within a blue plastic greenhouse. In contrast to the emergence rate, which decreased with an increase of sowing density, number of survival plant showed an increasing trend. Interestingly, the emergence and number of survival plant were significantly enhanced when 2 or 3 seeds were sown per hole compared with when one seed was sown per hole. Growth of the aerial parts of ginseng were not markedly influenced by sowing density or the number of seeds sown. However, chlorophyll content (SPAD values) increased with an increase in sowing density. Root parameters, such as root length, diameter, and weight, and the number of lateral roots decreased with an increase in sowing density, but were not noticeably influenced by the number of seeds sown. Total saponin content was the highest in the treatment plot containing 135 seeds. Similarly, the content of each ginsenoside was also tended to be higher in this treatment than in other treatment plots. On the basis of the results obtained in this study, it was possible to determine the optimal sowing density and seed number for the direct sowing cultivation of ginseng in blue plastic greenhouse.
극만기 벼 재배시 적응 품종을 선택할 때 7월 30일 전후의 이앙시기에서 불시출수 현상을 보이지 않으면서 적당한 출엽수를 확보하는 품종 특성을 구비해야 하는데 금오벼1호나 만종벼는 후기작 이앙시기에서도 출엽수 감소가 적고 규칙적인 출엽 양상을 보여 극만기 벼 재배시기에 안정적인 재배가 가능하였다. 관행 벼육묘상자 육묘에 비해 포트육묘로 벼의 생육단계를 진전시켜 이앙하면 후기작에서 출수기까지 1~3일의 생육기간이 단축되었다. 벼 폿트육묘상자를 이용했을 때와 좀더 공간이 큰 폿트육묘 상자를 이용하여 초기 벼 생육을 높여도 출수기 단축효과는 2일 이내로 크지 않았다. 따라서 벼 육묘상자와 폿트육묘의 출수기 단축효과는 초기 생육단계의 차이보다 이앙후 뿌리가 잘리지 않아 생기는 빠른 활착효과 때문으로 추정된다. 800℃ 이상의 등숙온도가 확보되는 출수시기는 익산은 9월 12일이었다. 폿트육묘를 할 경우 출수기가 1~3일 빨라지기 때문에 출수 후 50일간 평균온도가 조금 높아지는 결과를 얻었는데, 7월 26일 이앙에서는 20℃ 에 근접한 온도가 유지되었고, 7월 31일에는 19℃ 전후, 8월 5일에는 17.5~18.0℃ 로 5일간 이앙시기가 지연됨에 따라서 등숙기 평균온도는 1℃ 정도씩 저하되었다. 극만기 벼 재배에서 폿트육묘후 이앙한 경우 수량이 증대하였다. 폿트육묘하여 이앙하는 경우는 각 주별 식물체가 1~3개로 육묘상자로 육묘한 경우보다 적어 짧은 생육기간에 적정 수수를 확보하기 어려웠다. 따라서 폿트육묘로 후기작 재배시에는 재식밀도를 높여야 수량 증대 효과를 크게 얻을 수 있을 것으로 생각된다.
This study was carried out to know the characteristics of flowering and bearing fruit, the optimum period, regions and methods for seed harvesting, the optimum temperatures for seed storage and germination, and the optimum period for sowing at nursery bed and seedling transplanting of Valeriana fauriei Briquet. The flowering and bearing fruit of Valeriana fauriei was developed from the before-year root. Optimum period for seed harvest of Valeriana fauriei was from late July to middle August, and optimum areas were the high elevated areas over 500 m above the sea level as Jinbu-myeon, Pyeongchang-gun, Gangwon-do. Using of net-bag for seed harvesting was the effective method to gather the full ripe seed, and bagging of net-bag was necessary from the season of middle May that was the flowering middle-stage. Germination rates don't show the difference among the different temperatures of storage as approximately 41% at -20℃, 2℃ or 20℃ of seed storage temperatures. The optimum temperature range was in 15~30℃ for seed germination at nursery bed. The optimum period for seed sowing at nursery bed was the late February, and the optimum period for seedling transplanting was the middle April.
본 연구는 다양하게 재배되고 있는 강활의 육묘이식 재배방법 중 추대억제에 효과적이면서 고품질의 약재생산이 가능한 육묘이식 방법을 구명하고자 수행하였다. 강활 재배에서 추대억제 및 고품질의 한약재 생산을 위하여 육묘이식 재배방법에 따른 수량 및 성분함량을 비교 분석한 결과는 다음과 같다. 지상부 생육은 야생종근이식과 노지육묘이식재배가 양호하였고 다음으로 트레이육묘이식, 직파재배 순이었으며, 추대는 직파와 트레이육묘 이식재배에서는 나타나지 않았고, 야생종근이식재배와 노지육묘이식재배가 각각 11.4%, 19.7%의 추대율이 나타났다. 수량은 트레이육묘 이식재배가 426 kg/10a로 가장 높았고, 직파재배가 187 kg/10a로 가장 낮았다. 강활근의 주요 성분은 oxypeucedanin, bisabolangelone이었고, 처리별 함량에서는 야생종근 이식재배가 전반적으로 다른 처리에 비해 낮게 나타났다.
This study was conducted to find out some conditions for optimum cultivation of Angelica gigas Nakai by theinvestigation of root yield and decursin content from different seeding sizes and accumulative temperature. Accumulativetemperature from April to October was 4,309℃ on altitude 100m , 4,242℃ on 250m, 3,662℃ on 530m, 3,435℃ on 730m,and altitude 530~730m was less 650~870℃ than altitude 100m cultivation areas of A. gigas. Seedling stand rate wasincreased from 86.4% to more than 90% as accumulative temperature decreases, and was increased in above 7㎜ of seed-ling size, and 10% in non-mulching more than PE film mulching. Yield was increased as accumulative temperaturedecreases and in PE film mulching as 310.2㎏/10a. Also, Yield was increased in 7~9㎜ than seedling diameter 5~7㎜ as313.0㎏/10a. Decursin content of primary roots was increased as altitude rises, ie, as 2.55% on altitude 100m, 3.33% on250m, 5.51% on 530m, and 6.24% on 730m. Decursinol angelate content appeared little than decursin content as 1.08%on altitude 100m, 1.37% on 250m, 1.99% on 530m, 2.38% on 730m, and as altitude was heightened, content was increased.
This experiment was conducted to investigate the effects of turf grass growth to seedling rates and bed soil types. The results of this experiment were summarized as follows; the more increasing the seedling rates, the plant height and leaf length were longer, but the number of leaf and number of branch were fewer. Incase of transplanting of turf grass seedling by rice transplanting machine, it might be considered that the proper alternative bed soil was sandy loam soil with regarding to the economic aspects. The maximum seedling rate of turf grass in the seedling tray for rice was 1,000 of seedling amount due to the nutrient competition with intensive seedling. As the results indicated, it might be recommended that the proper alternative bed soil was sandy loam soil with 1,000 of seedling rates in case of transplanting of turf grass seedling by rice transplanting machine.