• 원예과학기술지
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• 제29권3호
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• pp.260-266
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• 2011

An efficient protocol was established for high frequency somatic embryogenesis through a callus culture of Coelogyne cristata. The best frequency of callusing was obtained from a PLB segment (3-5 mm) cultured on MS medium supplemented with coconut water (CW) and a combination of both 3 $mg{\cdot}L^{-1}$ of 2,4-D and BA. When the calli were sub-cultured on the MS medium without any PGRs, the average number of somatic embryos were higher than those with PGRs treatment. NAA is the most critical factor among PGRs, which dramatically hindered for the formation of a somatic embryo. The efficacy of the addition of coconut powder (CP) for somatic embryogenesis was almost the same in all treatments. However, the number of somatic embryos formed distinctly depended on age of the callus. The somatic embryos converted into healthy plants with well-developed shoots on the same medium. Plantlets showed the best responses of root and shoot growth when transferred to $\frac{1}{2}$ MS medium containing 1.5 $g{\cdot}L^{-1}$ of activated charcoal. All plants with above 3.0-cm-high were successfully acclimatized in the greenhouse.

• 생물환경조절학회지
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• 제25권1호
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• pp.30-41
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• 2016

정부는 정책적으로 ICT 기반 시설원예의 첨단화로 농작물의 생산성을 높이고 에너지 절감형 스마트 온실의 보급 확대를 계획하고자 한다. 그러나 농업 분야에 있어서 모니터링 및 제어의 다양성 및 연계성은 매우 부족한 실정이다. 이에 자동화된 시설원예를 활용하여 다양한 모니터링 및 제어를 위한 복합형 알고리즘을 활용한 농업생산 전주기적 과정의 지능적 시스템화를 위한 현장 중심형 사물인터넷 기반 스마트팜 융합 서비스 시스템의 개발이 필요하다. 따라서, 농업분야 ICT 현장적용 관련 국내 외 연구 동향을 소개하고 이로부터 시설원예 분야에 접목 가능한 ICT 기반 미래 핵심기술을 분석 및 제시하고자 하였다.

• 한국농공학회논문집
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• 제57권5호
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• pp.37-42
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• 2015

In order to provide fundamental data for the creation of environmental design criteria for horticultural facilities, we developed a method to easily calculate the seasonal heating load applying heating degree-hour while taking into account heating load reductions due to solar radiation in the daytime, and reviewed through greenhouse heating experiments. Heating experiments and measuring meteorological environments were carried out in three greenhouses located at Buyeo, Cheonan, and Buan, and we derived reduction factors of seasonal heating load according to hours of sunshine. Daily mean hours of sunshine during the experiment period in each of the greenhouse was 4.0 to 8.3 hours, and the reduction factor of seasonal heating load was 0.64 to 0.85, has been shown to decrease linearly with the increase in hours of sunshine. A method to estimate the seasonal heating load for greenhouses was developed using the reduction factor of seasonal heating load derived from the greenhouse heating experiment, including the adjustment factor of seasonal heating load according to hours of sunshine. The developed method was validated through heating experiments in a greenhouse located at Cheonan. Greenhouse seasonal heating loads calculated by the method developed in this study were analyzed to show the estimate error of 1.2 to 5.0%. It showed that the accuracy increased 2.3 times more than when using the heating load reduction factor of 0.75 applied uniformly in previous studies. Thus, the calculation method of seasonal heating load for greenhouses considering hours of sunshine developed in this study could be utilized for energy estimation, management planning, and economic evaluation in greenhouse design.

• 화훼연구
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• 제18권4호
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• pp.291-294
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• 2010

접목선인장 신품종 '황운'은 해외 수출용 목적으로, 황색과 오렌지색을 가진 복색의 '황월' 품종을 모본으로 황색의 계통 '0111021'을 부본으로 교배하여 2008년에 개발되었다. 이 품종은 처음 기내에서 무병삼각주에 접목된 후 100 mL 시험관에 정식되어 6개월간 생육되었다. 2005년에 기외에서 접목한 후에 2008년까지 3회에 걸쳐 그 특성이 조사되었다. 구는 황색의 편원형이며, 몸체에 7~9개의 결각이 있으며, 갈색의 직립형 가시를 가지고 있다. 10개월간 재배되었을 때 구의 직경은 40.9 mm로 대조 품종 '후광'에 비해 구가 작고, 자구 착생수는 평균 22.3개로 '후광' 품종에 비해 우수하였다.

• 생물환경조절학회지
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• 제17권2호
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• pp.90-95
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• 2008

수직형에 비해 비교적 가격이 저렴하고 냉난방을 동시에 할 수 있는 농업시설에 적합한 10RT 규모의 수평형 지열히트펌프 시스템을 $240m^2$ 면적의 온실에 설치하고, 이 시스템의 냉방성능을 분석하였다. 응축기 출구온도가 $40^{\circ}C$에서 $58^{\circ}C$로 상승함에 따라 소비전력은 11.5kW에서 15kw로 상승하였으며, 고압이 1,617kpa에서 2,450kPa로 변화하였다. 냉방성능계수는 지중온도 $25.5^{\circ}C$에서 2.7 수준이었으며 지온이 상승함에 따라 하강하여 $33.5^{\circ}C$에서 2.0 수준이었다. 또한 온실 내부로부터 흡수하는 열량(냉방열량)은 같은 지중온도 수준에서 각각 28.8kW, 26.5kW이었다. 가동 8시간 후 지열교환기가 설치된 60cm깊이의 지온은 $14.3^{\circ}C$가 상승하였으며 150cm는 $15.3^{\circ}C$가 상승하였다. 반면 지열교환기가 매설되지 않은 60cm 깊이는 2.4, 150cm 깊이는 $4.3^{\circ}C$의 지온상승을 보였다. 열매 체유가 지열교환기를 통과한 후 평균 $7.5^{\circ}C$의 온포가 하강하였으며, 토양온도가 평균 $27.5^{\circ}C$ 수준에서 토양으로 방출하는 열량은 평균 46kw로 지중열교환기의 단위 길이 당 약 36.8W의 열량을 방출하는 것으로 분석되었다. 팬코일 유닛이 온실로부터 흡수하는 냉방 열량은 평균 28.2kW이었으며, 열매체유의 온도는 $4.2^{\circ}C$ 상승하였다. 축열조내 열전달매체유의 온도가 $26.0^{\circ}C$에서 $2.0^{\circ}C$까지 하강하는데 3시간이 소요되었으며, 평균 축열율은 29.7kW, 총 축열량은 321MJ이었다. 또한 $2.0^{\circ}C$까지 냉열을 축열한 후 $25.4^{\circ}C$까지 방열되는 시간은 외기온이 평균 $28.5^{\circ}C$일 때 4시간이었고, 총 313.0MJ의 에너지가 방열되었으며, 이때 평균 방열율은 21.7kW인 것으로 분석되었다.

• Journal of Biosystems Engineering
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• 제38권4호
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• pp.287-294
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• 2013

Purpose: Greenhouses for a protected horticulture covered with a plastic or glass are easy to have weakness in a heat loss by deterioration, damage, poor construction, and so on. To grasp the vulnerable points of heat loss of the greenhouses is important for heating energy saving. In this study, an on-site heat loss audit and energy consulting system were developed for an efficient energy usage of a greenhouse. Method: Developed system was mounted with infrared thermal and visual cameras to grasp the heat loss from the greenhouse quickly and exactly, and a trial calculation program of heating load of greenhouse to provide farmers with the information of heating energy usage. Results: Developed system could print out the reports about the locations and causes of the heat losses and improvement methods made up by an operator. The mounted trial calculation program could print out the information of the period heating load and fuel cost according to the conditions of greenhouse and cultivation. The program also mounted the databases of the information on the 13 horticultural energy saving technologies developed by the Korea Rural Development Administration and simple economic analysis sub-program to predict the payback period of the technologies. Conclusion: The developed system was expected to be used as the basic equipment for an instructors of district Agricultural Technology and Extension Centers to conduct the energy consulting service for the farmers within the jurisdiction.

• Journal of Ginseng Research
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• 제39권4호
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• pp.345-353
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• 2015

Background: Ginseng is a semishade perennial plant cultivated in sloping, sun-shaded areas in Korea. Recently, owing to air-environmental stress and various fungal diseases, greenhouse cultivation has been suggested as an alternative. However, the optimal light transmission rate (LTR) in the greenhouse has not been established. Methods: The effect of LTR on photosynthesis rate, growth, and ginsenoside content of ginseng was examined by growing ginseng at the greenhouse under 6%, 9%, 13%, and 17% of LTR. Results: The light-saturated net photosynthesis rate ($A_{sat}$) and stomatal conductance ($g_{s}$) of ginseng increased until the LTR reached 17% in the early stage of growth, whereas they dropped sharply owing to excessive leaf chlorosis at 17% LTR during the hottest summer period in August. Overall, 6-17% of LTR had no effect on the aerial part of plant length or diameter, whereas 17% and 13% of LRT induced the largest leaf area and the highest root weight, respectively. The total ginsenoside content of the ginseng leaves increased as the LTR increased, and the overall content of protopanaxatriol line ginsenosides was higher than that of protopanaxadiol line ginsenosides. The ginsenoside content of the ginseng roots also increased as the LTR increased, and the total ginsenoside content of ginseng grown at 17% LTR increased by 49.7% and 68.3% more than the ginseng grown at 6% LTR in August and final harvest, respectively. Conclusion: These results indicate that 13-17% of LTR should be recommended for greenhouse cultivation of ginseng.

• 생물환경조절학회지
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• 제23권4호
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• pp.314-320
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• 2014

소형 비닐하우스에 2종류의 기능성 필름과 관행의 PE 필름을 피복하고 청치마, 적치마, 치커리 등 3종의 엽채류를 재배하여 기능성필름의 특성을 검토하였다. 2종류의 기능성 필름은 PO(polyorefine)계 수지로 만들어졌으며, 엽채류는 흙과 펄라이트를 혼합한 배지에서 육묘하였다. 필름의 광학적 특성에 있어서 기능성 필름은 관행의 PE 필름과 비교하여 광합성 유효광(400-700nm)의 투과율이 높고 자외선(300-400nm)의 흡수율이 높았다. 피복 3개월 후의 광합성 유효광 투과율의 감소 수준은 기능성필름이 PE필름보다 작았다. 이 같은 요인으로 인해 엽채류의 생육과 수량이 기능성 필름을 피복한 하우스에서 높았다.

• 원예과학기술지
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• 제34권1호
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• pp.163-171
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• 2016

배수성에 따른 심비디움 꽃 향기의 변화를 알아보기 위해 전자코를 이용하여 C. Golden Elf 'Sundust'의 2배체와 4배체 꽃을 PCA(주성분분석)와 DFA(판별함수분석)로 분석한 결과, 꽃 한 송이의 향기는 2배체에 비해 4배체에서 강하게 나타났고, 화기 조직별 향기는 예주가 가장 강하게 나타났으며 꽃잎과 설판은 근접한 패턴을 보였다. 배수성에 따른 심비디움의 분화수명의 차이를 알아보기 위해 C. Golden Elf 'Sundust'와 C. Elma 'Orient Toyo' 분화의 화경을 조사한 결과 개화기간뿐 만 아니라 화경당 화수, 화경장에서 모두 차이가 나타나지 않았다. 본 연구는 심비디움을 비롯한 다른 종류의 난과식물 배수체 육종에 있어 기초자료로 유용하게 활용 될 것이다.

• Horticulture, Environment, and Biotechnology : HEB
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• 제59권6호
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• pp.827-833
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• 2018

Plasma lighting systems have been engineered to simulate sunlight. The objective of this study was to determine the effects of plasma lighting on tomato plant growth, photosynthetic characteristics, flowering rate, and physiological disorders. Tomato plants were grown in growth chambers at air temperatures of $25/23^{\circ}C$ (light/dark period), in a $16h\;day^{-1}$ light period provided by four different light sources: 1 kW and 700 W sulfur plasma lights (1 SPL and 0.7 SPL), 1 kW indium bromide plasma light, and 700 W high pressure sodium lamp (0.7 HPS) as a control. The totaldry weight and leaf area at 0.7 SPL were approximately 1.2 and 1.3 times greater, respectively, than that of 0.7 HPS at the 62 days after sowing (DAS). The maximum light assimilation rate was observed at 1 SPL at the 73 DAS. In addition, the light compensation and saturation points of the plants treated with plasma lighting were 98.5% higher compared with HPS. Those differences appeared to be related to more efficient light interception, provided by the SPL spectrum. The percentage of flowering at 0.7 SPL was 30.5%, which was higher than that at 0.7 HPS; however, there were some instances of severe blossom end rot. Results indicate that plasma lighting promotes tomato growth, flowering, and photosynthesis. Therefore, a plasma lighting system may be a valuable supplemental light source in a greenhouse or plant factory.