This studies were carried out in summer season to increase high temperature tolerance using hydrogen peroxide treatments on cucumber in greenhouse. The water stress of cucumber in greenhouse by the hydrogen peroxide treatments showed as control〉250 mM〉500 mM treatments in order. The photosynthesis rate of cucumber at 30℃ did not show difference with each hydrogen peroxide treatment in temperature controlled greenhouse. However, the photosynthesis rate of cucumber in the control and hydrogen peroxide treatments at 40℃ was significantly different. The photosynthesis rate of cucumber in combined treatment with 1,000 mg·L-1 CO2 supply and hydrogen peroxide was also higher than control, however, there was no different of photosynthesis in 250 mM and 500 mM treatment. The value of Fv/Fm and Fm/Fo of chlorophyll fluorescent in 500 mM hydrogen peroxide treatment at 40℃ was highest. Also the activity of POD, the antioxidant enzyme, was higher with high hydrogen peroxide concentration than the other treatments. The high temperature limits for growth were 43℃ in the control, 44℃ in the 250 mM and 46℃ in the 500 mM according to analyze chlorophyll fluorescent Fo. The high temperature tolerance in cucumber increased approximately 3℃ by the hydrogen peroxide treatments under this experiment conditions.

길이 40m,폭 5.5m의 단일피복 구조의 8연동 무가온하우스 상단부에 설계적설심 19.1 cm의 눈이 쌓인다는 조건과 시설 측면으로 설계풍속 36.6 m·s-1의 바람이 분다는 조건 그리고 참고자료로 활용하기 위해 적용한 최대적설심 37.8cm의 눈이 쌓인다는 조건과 순간최대풍속 60.0 m·s-1의 강풍이 분다는 조건에서 유동 및 구조강도 해석을 수행하였다. 적설하중 조건에서는 설계적설심 19.1 cm와 최대적설심 37.8cm에서 파이프에 걸리는 최대응력이 각각 53.8 N·mm-2과 107 N·mm-2으로 재료의 허용응력 보다 작은 것으로 나타나 안전한 것으로 분석되었으나, 설계풍속 36.6 m·s-1와 순간최대풍속 60.0 m·s-1의 풍하중 조건에서는 파이프에 걸리는 최대응력이 각각 250 N·mm-2과 672 N·mm-2으로 재료의 허용응력을 모두 초과하여 플라스틱하우스가 불안전한 것으로 분석되었다.

본 연구에서는 반사필름 멀칭과 북측면의 반사판설치에 의한 보광이 토마토의 광이용에 미치는 영향을 밝히기 위해 토양 및 수경재배를 통해 토마토의 엽온변화, 기공특성, 증산.광합성속도 등의 변화들을 중심으로 검토하였다. 보광 처리에 의해 토마토엽의 기공밀도는 증가하였으나 기공의 크기와 면적은 차이가 얼었다. 근권부의 삼투포텐셜이 낮으면 광반사에 의한 기공저항이 컸고 증산속도는 낮았으며 엽온은 40.62℃까지 상승했다. 또한 보광에 의해 광합성속도도 저하했으나 엽록소 함량에는 차이가 없었다. 반사필름 멀칭으로 온실가루이의 기피효과는 있었다 약광기 동절기에 반사필름 멀칭 등의 보광처리에 의한 증수나 품질향상은 엽의 기공밀도의 증가로 활발한 증산 .광합성작용으로 체내의 물질대사나 생장에 영향을 주고 그 결과 간접적으로 무기성분의 흡수나 분배에 영향을 주어 생육 및 수량 둥이 양호했다고 생각된다.

In this study, strawberry cultivation environment in a greenhouse located in Jeonju was monitored and internal environmental parameters were analyzed. Temperature, humidity, RAD, and PPF sensors were installed to monitor environmental conditions in the test greenhouse. Data were collected every 10 minutes during four winter months from sensors placed across the greenhouse to assess its permeability and environmental uniformity. Temperature and humidity inside the greenhouse were relatively uniform with negligible deviations among the center, south, and north; however, it was judged that further analysis of gradients of these parameters f rom the east to t he w est of t he g reenhouse w ould b e needed. Both R AD (Total solar radiation) a nd P PF (Photosynthetic photon flux) had high values on the south and were low on the north and the reduction rate of these parameters was 54% and 61%, respectively, indicating that a significant amount of light could not be transmitted. This implied a significant decrease in the amount of light entering the greenhouse during winter. Therefore, it is concluded that environmental control devices and auxiliary lighting are needed to achieve uniform greenhouse environment for efficient strawberry cultivation.

본 논문은 한국형 무경운 재배 토양에서 유기물 투입과 분할 관수가 고추 생육 및 수량 과 토양 화학성, 생물다양성에 미치는 영향을 구명하고자 추진하였다. 시험 후 토양에 화학 성을 조사한 결과 토양 pH는 5.6~6.2, 유기물 함량은 32~42 g ㎏-1, EC는 1.0~2.7 dS m-1, 치 환성 K은 0.08~0.24 cmol+ kg-1, Ca은 9.5~12.8 cmol+ kg-1, Mg은 2.7~3.2 cmol+ kg-1 수준이었 으며, 유효인산은 1,011~1,137 mg kg-1 수준이었다. 무처리에서 토양에 미소동물은 톡토기와 응애류 등 5종 54개체가 포획되었으나, 대두박을 투입한 처리는 9종 271개체가 포획되어 되었다. 토양환경의 지표가 되는 자연도 점수가 대두박 투입 처리는 11점으로 무 투입 5점 에 비하여 2배 정도 증가되었다. 대두박 투입은 무 투입에 비하여 고추의 수확과수의 감소 로 수량이 감소되는 경향이었다. 그러나 대두박 무 투입 조건에서 표준시비량의 33~66% 수준에서고추 수량은 증수되었으며 대두박 투입에서는 표준시비량의 33% 수준에서 증수 되었다. 2회 분할관수는 1회 전량관수에 비하여 고추의 수확 과수가 12.5~34.9% 증가되었 고, 수량은 13.5~34.4% 정도 증수되었다.

Background : This experiment was conducted to select suitable industrial crop after Panax ginseng cultivation under the greenhouse in the middle area. Methods and Results : This experiment was conducted in greenhouse of Chungbuk Agricultural Research Service and extension services from 2015 and 2016 years. Ginseng grown four years in greenhouse. After cropping of Panax ginseng was transplanted Cynanchum wilfordii, Platycodon grandiflorm, Dioscorea opposita, and Codonopsis lanceolata. Non-cultivated field that were grown sesame. Cynanchum wilfordii, Platycodon grandiflorm, and Codonopsis lanceolata was collected in the Chungbuk area and Dioscorea opposita was collected in Andong-si. Each industrial crop after panax ginseng cultivation under the greenhouse was sowing from late April to early May 2015 years. The growth and yield of crop examined in the experiment were good on the whole except Codonopsis lanceolata without disease due to continuous cropping of Panax ginseng. The yield of Cynanchum wilfordii, Platycodon grandiflorm, Dioscorea opposita, and Codonopsis lanceolata was 803kg, 1,393kg, 1031kg, 412kg per 10a respectively, and the every decline yield index was by 1%, 8%, 12%, and 31% respectively. The proper crop in after cropping of Panax ginseng was cynanchum wilfordii, which was yielded 1,393kg per 10a by fresh tuber and it was 1% decline compared to the non-cultivated field. Conclusion : In this study, Cynanchum wilfordii, Platycodon grandiflorm, Dioscorea opposita was recommended as a crop after Panax ginseng cultivation under the greenhouse in the middle area.

두둑을 재활용한 무경운 재배 토양의 고추의 생육량은 관행경운 토양에 비하여 22% 정 도 증가되었고, 무경운 3년차는 12% 정도 증가되었다. 무경운 재배 2년차 토양에서 생산된 풋고추 건물중은 348.4 kg 10-1으로 관행 경운 토양에 비하여 16% 증가되었으나, 무경운 3 년차는 감소되었다. 무경운 2년차 토양의 세균은 관행 경운 토양에 비하여 유의적인 증가를 보였으나, 무경 운 3년차에서는 관행 경운 토양과 유의적인 차이가 없었다. 방선균도 경운 토양에 비하여 무경운 2년차 토양은 유의적인 증가를 보였으나 무경운 3년차는 감소되었다. 곰팡이는 경 운토양에 비하여 무경운 2~3년차 토양에서 1.3~1.7배 정도 증가되었다. 무경운 재배 토양의 CO2 발생량은 경운재배 토양에 비하여 41% 수준으로 발생량이 현저 하게 감소되었다. 고추 생육 초기 관행 경운 토양의 미소동물은 톡토기목과 응애목 2종 6개체가 포획되었 으나, 무경운 1년차 토양에서는 지네강 등 5종 11개체가 포획되었고, 무경운 2년차는 딱정 벌레와 지네강 등 3종 5개체가 포획되었다. 고추 정식 46일 후에 조사한 경운재배 토양은 보라톡토기 등 4종 40개체를 포함 큰집게벌레 등 8종 97개체가 포획되었다. 무경운 재배 토양은 9~10종 101~107개체가 포획되었다. 지표생물로서 환경의 변화의 기준이 되는 자연도 점수는 관행경운양 19점에 비하여 무 경운 토양의 자연도 점수는 33점으로 1.74배 정도 높았다. 따라서 두둑과 고랑을 재활용한 한국형 무경운 농업은 관행 경운토양에 비하여 작물의 생육과 토양 미생물, 토양 곤충을 포함한 토양생물 다양성, 온실가스 발생량 감소에 긍정적 인 역할을 하는 것으로 판단되었다.

Background : Root diseases caused by Cylindrocarpon destructans and Fusarium solani decrease the yield and quality of ginseng. Cylindrocarpon root rot is a major disease caused by replanting failure in ginseng garden. Methods and Results : Solarization was done in the infested soil of the greenhouse for summer season (from July 24 to Autumn 31, 2014) after putting green manure (Sudan grass) and calcium cyanamide (CC) into the soil. Mycelium and conidia of C. destructans died at 4 0℃ after 15 hours, and 45℃ after 5 h, but it did not die at 35℃ after 15 h. Those of C. destructans died after keeping it for 2 hours daily at 40℃ for 9 days, and 45℃ for 8 days, but did not die at 38℃ for 9 days. Maximum soil temperature was 55.4℃ in 5 cm depth, 48.7℃ in 10 cm, 44.7℃ in 15 cm, 42.5℃ in 20 cm, and 31.9℃ in 30 cm by putting green manure into the soil and solarization. Reduction of sudan grass increased electrical conductivity (EC), organic matter, P2O5, K, and Mg, while decreased pH, NO3-N, and Na. Addition of calcium cyanamide and urea gave a negative effect on the growth of ginseng because EC and NO3-N were increased excessively than the optimal range. Solarization using green manure mixed with CC was the most effective in decreasing soil-borne pathogens of 2-year-old ginseng. But the root disease that occurred between single treatment of sudan grass and the treatment mixed with calcium cyanamide showed not a significant different. Addition of calcium cyanamide showed the decrease of root weight because leaves were dead early by a excessive increase of EC and NO3-N. Conclusion: Soil disinfection using green manure and solarization in greenhouse was effective in inhibiting root rot, however, it did not completely kill the soil-borne pathogens.

Background: Root diseases caused by Cylindrocarpon destructans and Fusarium solani decrease the yield and quality of ginseng. Cylindrocarpon root rot is a major disease caused by replant failure in ginseng fields. Methods and Results: Solarization of infested greenhouse soil was carried out during the summer season after applying green manure (Sudan grass) and Calcium Cyanamide (CC) on the soil. Mycelium and conidia of C. destructans died at 40℃ after 15 h, but they did not die at 35℃ after 15 h. They also died after keeping the soil at 40℃ for 2 h daily for 9 days, and at 45℃ for 8 days, but they did not die at 38℃ for 9 days. Maximum soil temperature was 55.4℃ at 5 ㎝ depth, 48.7℃ at 10 ㎝, 44.7℃ at 15 ㎝, 42.5℃ at 20 ㎝, and 31.9℃ at 30 ㎝ by incorporating green manure into the soil and using solarization. Solarization using green manure mixed with CC was the most effective in decreasing soil-borne pathogens of 2-year-old ginseng. However, the addition of CC decreased the root weight due to the increase in EC and NO3-N. Conclusions: Soil disinfection using green manure and solarization in a greenhouse environment was effective in inhibiting root rot, however, it did not completely kill the soil-borne pathogens.

This study was conducted to determine the effects of organic vegetable cultivation on the soil physical properties in 33 farmlands under plastic greenhouse in Korea. We were investigated 5~8 farms per organic vegetable crops during the period from August to November 2014. The main cultivated vegetables were leafy lettuce (Lactuca sativa L.), Perilla leaves (Perilla frutescens var. Japonica Hara), cucumber (Cucumis sativus L.), strawberry (Fragaria ananassa L.) and tomato (Lycopersicon spp.). We have analyzed soil physical properties. The measured soil physical parameters were soil plough layer, soil hardness, penetration resistance, three soil phase, bulk density and Porosity. The measurement of the soil plough layer, soil hardness and penetration resistance were carried out direct in the fields, and the samples for other parameters were taken using the soil core method with approximately 20 mm diameter core collected from each organic vegetable field. Soil plough layer was average 36 cm and ranged between 30 and 50 cm, and slightly different depending on the sorts of vegetable cultivation. The soil hardness was 0.17±0.15~1.34±1.02 in the topsoil, 0.55±0.34~1.15±0.62 in the subsoil. It was not different between topsoil and subsoil, but showed a statistically significant difference between the leafy and fruit vegetables. Penetrometer resistance is one of the important soil physical properties that can determine both root elongation and yield. The increase in density under leafy vegetables resulted in a higher soil penetrometer resistance. Soil is a three-component system comprised of solid, liquid, and gas phases distributed in a complex geometry that creates large solidliquid, liquid-gas, and gas-solid interfacial areas. The three soil phases were dynamicand typically changed in organic vegetable soils under greenhouse. Porosity was characterized as range of 54.2±2.2~60.3±2.4%. Most measured soils have bulk densities between 1.0 and 1.6 g cm-3. To summarize the above results, Soil plough layer has been deepened in organic vegetable cultivation soils. Solid hardness (the hardness of the soil) and bulk density (suitable for the soil unit mass) have been lowered. Porosity (soil spatial content) was high such as a well known in organic farmlands. Important changes were observed in the physical properties according to the different vegetable cultivation. We have demonstrated that the physical properties of organic cultivated soils under plastic greenhouse were improved in the results of this study.

유채 종자에서 기름을 착유한 후 부산물인 유채박을 토양에 처리하여 토양 내 선충을 친환경적으로 방제하기 위하여 실험 한 결과를 보면, 유채박을 혼합한 토양이 OM, Av.P₂O₅, Ca, Mg, CEC 등의 수치가 증가하였으며, 유기물함량은 무처리 토양보 다 3배가량 높게 나타났다. 또한 유채박의 glucosinolate 함량 은 제주재래종 유채박이 199.97 μmol/g로 선망 유채박의 함량 보다 76.62 μmol/g 더 많았으며, 특히 progoitrin, gluconapin, glucobrassicanapin, 및 sinigrin 등의 함량이 높게 나타나기 때 문에 유채박의 선충밀도 감소에 효과가 있으며 ‘선망’ 유채박보 다 제주재래종 유채박이 선충밀도를 더 줄여주었지만 유의적인 차이는 아니었다.

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.

비닐하우스 내 강제환기가 시금치 노균병 발생에 미치는 영향을 구명하기 위해 비닐하우스에 수직환기팬 및 수평공기순환팬을 각각 설치한 후 밤 동안 환기를 시킨 하우스와 환기팬을 설치하지 않은 하우스에서 시금치를 재배하면서 온도 및 습도의 변화, 시금치 생장 정도 및 노균병 발생 정도를 조사하였다. 하우스 내의 온도변화는 각 하우스 별로 큰 차이가 없었으나, 밤 동안 상대습도는 수직강제환기팬을 설치한 하우스가 팬을 설치하지 않은 하우스보다 9.2% 낮게 유지되었다. 파종 60일 후에 조사한 시금치의 개체 당 생체중은 수직강제환기팬을 설치한 하우스에서는 17.8g으로 환기팬을 설치하지 않은 하우스의 10.1g과 비교하여 7.7g 높았다. 노균병은 환기팬을 설치하지 않은 하우스에서는 파종 후 20일부터 발생하기 시작하여 60일 후에는 34.7%의 이병엽률을 보였으나, 수직강제환기처리한 하우스에서는 파종 40일 후부터 발생하기 시작하였으며 60일 후 이병엽률은 4.0%로 매우 낮았다. 야간에 비닐하우스 내 공기를 수직강제환기팬을 이용하여 환기시킨 결과 환기팬을 설치하지 않은 하우스와 비교하여 시금치 수확량은 76.2% 증가되었으며, 노균병 발생은 20일 정도 늦었으며, 88.5% 노균병 발생 억제효과가 있었다.

본 연구는 4종의 녹비 작물, hairy vetch, Italian ryegrass, crimson clover, orchard grass 등을 도입하여 연작장해를 일으키는 토마토 시설재배지의 토양개량에 미치는 효과를 구명하였다. 각각의 녹비 작물을 시용한 후, 후 작물로서 토마토를 정식하여 토양의 물리화학성 및 토마토 건물 중 등을 조사하여 녹비작물 재배의 효과 조사하였다. 그 결과 녹비작물 시용에 따라 토양 경도가 감소되었다. Orchard grass와 Italian ryegrass는 토양습도를 증가시키는 요인으로 토양 메트릭스에서 더 많이 무효화 시킬 수 있었다. 녹비작물 시용 2개월 후, Italian ryegrass와 orchard grass 처리구에서 토양 건조 밀도가 감소를 보였으나, 대조구와 녹비구간 통계적 유의성이 인정되지 않았다. 녹비작물로서 Italian ryegrass와 hairy vetch의 시용이 토마토 생육에 영향을 주어 건물중의 증가 및 양호한 생육을 보였다. 또한 orchard grass는 상대적으로 적은 바이오메스인데도 불구하고, 토양 개량에 효과적이었다.

This experiment was conducted to develop optimum sesame cultivation practices as succeeding cropping system of watermelon in the greenhouse condition. We also compared major components in sesame seed cultivated in the greenhouse and open field condition. The adaptable varieties under the greenhouse condition were white sesame 'Pyoungan' and black sesame 'Jinki' which showed higher yield and disease resistance. We also conducted several experiments to determine optimum sowing date, planting density and pinching time. Grain yields were statistically different according to the several sowing dates. In general, sesame sowing on June 30th showed higher grain yields than July 10th, July 20th and July 30th in the greenhouse. We also found out sesame cultivation practice with the row spacing of 40 cm and interplant spacing of 30 cm (a few branch type) or 40 cm (many branch type) showed higher yield than other treatments. Optimum pinching time was 25 days after first flowering in main stem when thousand seed weight and grain yield were highest. In the comparison of major components of sesame at the different cultivation conditions, sesame seeds cultivated in the greenhouse contained 4% much more oil content than open field condition. The lignan compounds, sesamin and sesamolin were also higher by 6% in the greenhouse than open field condition. It was concluded that sesame cultivation practices as succeeding cropping system of watermelon in the greenhouse condition guaranteed higher grain yield with less labor input which is now emerging alternative farming practice system in present aging rural society and will also give sesame cultivation farmers to increase net income in Korea.

도깨비고비 분화생산시에는 화분이 클수록 초장이 크고 엽수도 많았으며 엽장과 엽폭도 크게 나타났다. 도깨비고비는 화분크기 및 저면 관수 주기 모두 통계적 유의성이 인정되어 직경 7~10cm크기의 화분은 5일에 한번씩 저면 관수하는 것이 좋은 것으로 나타났다.

비닐하우스에서 생강재배시 종강의 크기와 재식거리가 생강의 생육 및 수량에 미치는 영향을 조사하였다. 비닐하우스 내의 기온은 노지에 비하여 평균 9℃ 높았으며, 지온은 평균 2-4℃ 높았다. 하우스 재배는 노지재배에 비하여 초장, 엽면적, 경수, 괴경 수량이 크게 증가하였다. 하우스에서의 재식거리 30×30cm에서 근경수량은 노지보다 121-183%의 증수 효과가 있었다. 60×30cm의 재식거리구에서는 재식거리 30×30cm구에 비하여 감소하였으나 노지재배에 비하여 76-82%증수되었다. 단위면적당 근경수량은 재식 밀도가 30×30cm이고, 종구의 크기가 40g 일 때(4,631kg/10a)가장 많았다.