We designed a system that can automatically collect, convey, and control cool air of 15oC-20oC containing carbon dioxide from a mushroom cultivation house to a strawberry plastic house. We recorded the temperature at various positions from July to August 2017. The average temperature of the green house during day and at night was maintained at 33oC and 26oC, respectively. In the moveable three-tier cylindrical bed, the average temperature around root was maintained at 26oC and 21oC during day and at night, respectively. On the high-bench in the green house, the temperature was maintained at 32oC and 30oC during day and at night, respectively. The carbon dioxide concentration was maintained around 800-1,600 ppm in the mushroom cultivation system and 400-800 ppm in the strawberry plastic house. The growth characteristics of the strawberry treated with moveable three-tier cylindrical bed were significantly different from those of the untreated high-bench bed. In addition, during the summer season, moveable three-tier cylindrical bed showed more tendency to increase in normal fruit number (NFN) and to decrease in defective fruit number (DFN) compare to the high-bench bed. Therefore, the moveable three-tier cylindrical bed showed a tendency to be more than 2 times higher yields than that of the high-bench bed. It was confirmed that everbearing strawberry cultivars could be cultivated in green house due to the cool air supply from the mushroom cultivation system in the summer season.

표고 재배용 액체종균 배지조성은 대두박분 배지에 입도가 850 μm이하인 참나무분 0.3% 첨가 시 균사체 건중량이 457 mg으로 다소 높았으며, Laccase 활성도는 참나무분 첨가율별 대두박분 배지에 큰 차이가 없었으나 Cellulase 활성도는 CMC Agar Plate에서 26.4 mm로서 참나무분 첨가율별 대두박분 액체종균 처리구중에서 가장 우수하였다. 액체종균의 통기량이 증가할수록 이산화탄소 발생량이 증가하여 배양 7일째 최대치를 나타내었으며 균사체 건중량은 10일째 3.0g/l로 가장 우수한 것으로 나타났다. 통기량이 증가할수록 이산화탄소 발생량, 균사체 건중량도 증가하였으며 0.6vvm 처리시 배지 증발율이 32%, 균사체 건중량이 3.5g/l로서 우수하였다. 선발된 액체종균을 톱밥 종균과 생산성 비교를 위하여 톱밥재배 봉지배지에 시험한 결과, 액체종균의 생육기간이 톱밥종균에 비해 1일 지연되었으나, 봉지당 유효 개체수와 수량에는 유의적인 차이가 없는 것으로 나타났다.

느타리버섯 수확후 배지를 이용하여 표고 톱밥배지로 활용하기 위한 연구 수행결과 다음과 같다. 느타리버섯 수확후 배지를 톱밥 첨가량의 20~50%로 4처리로 혼합하여 분석한 결과 C/N은 62~76으로 나타났다. 느타리버섯 수확후 배지 첨가구는 대조구에 비해 질소와 폴리페놀 함량은 상대적으로 높고, 과당과 유기산 함량은 낮은 경향이었다. 특히, 미강이 첨가되지 않은 50% 처리구는 과당, 유기산 함량이 현저하게 낮았다. 초발이기간은 20, 25%가 7일로 대조구와 같았으나 30%와 50%는 각각 6일, 11일로 대조에 비해 각각 1, 4일 지연되었다. 표고버섯 3주기 수량은 20% 처리구가 268.7 g으로 대조와 비슷하였으나 첨가수준이 높을수록 감소하여 특히, 50% 첨가구에서는 버섯 발생이 거의 이루어지지 않았다. 따라서 느타리버섯 수확후 배지를 표고 배지로 이용하기 위해서는 톱밥 첨가량의 20% 수준이 바람직할 것으로 생각된다.

백령버섯 병재배용 배지 주재료는 콘코브 배지보다는 미루나무톱밥 배지 처리구에서 발이 및 생육특성이 가장 양호하였으며, 배지 영양원으로는 면실피, 면실박, 밀기울, 옥수수분, 미강 등이 적합하였고, 배지 혼합 비율은 58% 이내 범위에서 재료별로 질소함량을 고려하여 가감 사용하는 것이 적당하였으며, T-N 함량이 높은 면실박 사용량은 20% 수준으로 조절할 필요가 있었다. 또한, 배지 첨가제는 탄산칼슘 처리가 소석회 처리보다 양호하였으며, 무처리구의 경우 갓과 대의 탄력성은 감소하고 경도는 증가되는 경향을 보였다. 따라서, 백령버섯 병재배용 최적배지는 미루나무톱밥+면실피+면실박+밀기울+옥수수분+탄산칼슘이 40:20:20:15:3:2의 혼합 비율로 조성되는 처리구였다.

This experiment was conducted to establish the best salting for oyster mushrooms fermented pickles to develop new product and enhance quality for long term preservation. Changes of brine solution and mushroom were investigated during salting 10, 13, 16, 19% for 20 days by raw, blanched and dried type. The pH of the brine solution in the raw and dried mushroom form decreased and increased in the blanched form during storage. There was general increasing tendency of salinity of the brine solution as preservation period increases. The final salinity of mushroom after 20 days was generally lower than initial salinity and moisture content tended to be lowered as the salinity increases. The final hardness of mushroom after 20 days was mostly high in dried type and tended to be lowered in high salinity. The L value on the stand part of mushroom was brighter as the salinity decreases and the b value tended to be lowered as the salinity increases.

This study was carried out to establish a cultivation technique for increasing the γ-aminobutyric acid (GABA) content in the fruit body of mushrooms by adding processed by-products. For the oyster mushroom ‘Heucktari’, addition of green tea powder, sea tangle powder, and green tea dregs resulted in very poor primordia formation, fruit body growth, and increased GABA. However, addition of 10% schizandra berry dregs and 1% rice bran to the basal substrate induced 100% and 10% increases, in GABA content in the fruit bodies compared to the control treatment without by-product, respectively. In addition, fruit body growth and primordia formation were greatly increased by these treatments. Therefore, GABA content was increased when the substrate was prepared by mixing an appropriate amount of schizandra berry dregs and rice bran.

The beneficial effects of EM on plant growth, yield, quality in agriculture have been consistently demonstrated. In this study, EM of four types used is Lactobaillus sp., saccharomyces cerevisiea, Rhodobacter sp. and Bacillus sp.. Bacillus sp. inhibited Mycelium growth of the oyster mushroom in agar plate. Bacillus sp. is known to suppress plant pathogenic microorganism in soil. The other three type of EM did not inhibit mycelium growth of oyster mushroom. Also when filtering media of Lactobacillus sp. and saccharomyces cerevisiea cultivation add to liquid media(PDB) of oyster mushroom, mycelium growth was a little faster than control. In the column test, Mycelium growth of the medium inoculated with 0.5% saccharomyces cerevisiea was faster than the control. In the substrate inoculated Rhodobacter sp. was similar to the control. In the substrate inoculated Lactobacillus sp. of higher concentration, mycelium growth of the oyster mushroom was showed late than control.

Mycelial growth of oyster mushroom is very important. Because the management of careless mycelial growth can be caused contamination and low yield of fruit body. To reduce contamination, it is necessary to maintain clean the cooling room, inoculation room and cultivation room. In generally, most farmers maintain clean cooling room and inoculation room. However It is very difficult to cleanly manage the culture room. So we set up HEPA filter in the culture room of three farms, investigated the density and type of drop microorganism before and after using HEPA filter in the cultivation room. The density of drop microorganism after using HEPA filter in cultivation room was lower than that of before using HEPA filter. The density of drop microorganism of three farms was showed same results. Also when using a HEPA filter in the cultivation room, the contamination rate was reduced.

This study was conducted to reduce contamination ratio of oyster mushroom bottle cultivation. The optimalconditions of substrate sterilization for reducing of contamination ratio were at 121oC for 90min. In addition, UV-C irradiation isgood for lower contamination ratio to continue over 6 hours at cooling and inoculation room after sterilization. Thecontamination ratio and density of microorganisms of substrate were showed 0% after sterilization at 121oC for 90min.Trichoderma sp., main pathogen of mushrooms, was detected from substrate after sterilized during 2 or 4 hours at 101oC and 105oC,respectively. The amount of electricity used was the lowest at 121oC for 90min than that of other sterilization conditions. The UV-Cirradiation treatment was used UV-C lamp(40 watts) in the inoculation room(56m3). The density of bacteria did not detected after UV-C irradiation for 6 hours. And the death ratio of bacteria and Trichoderma sp. was 99.9% after UV-C irradiation for 6 hours. However,in the same UV-C irradiation time, the death ration of Cladosporium sp. was 90.9%. Therefore, the death ratio of fungi was lower thanthat of bacteria at the same UV-C irradiation treatment.

The study was conducted to investigate the effects of post-incubation period and temperature treatment conditionsduring incubation on the uniform primordia formation and cultural characteristics of oyster mushroom (Pleurotus ostreatus). Threekinds post-incubation period; 25, 30, 35 days and control were applied for 30 days while two kinds incubation roomtemperature 23oC and 26oC and control were used 20oC. The substrate temperature during pre-incubation was of ‘Suhan No. 1’and ‘Gonji No. 7’. Oyster mushroom varieties tended to increase between 24oC to 26oC at 11 to 15 days after inoculation andthen they were maintained in treatment temperature during post -incubation period. The CO2 occurrence was at the highest at6,500ppm for ‘Suhan No. 1’ and 5,800ppm for ‘Gonji No. 7’ at the time of the highest temperature increase. The ratio of un-uniformal primordia formation and the ratio of non-commercial fruit body were reduced by 40%, 10.5%, respectively comparedto control for ‘Suhan No. 1’ when in the post-incubation temperature was 26oC, and incubated for 10days and 15daystreatment. Also, ‘Gonji No. 7’ was reduced by 19%, 9.5%, respectively when in the post-incubation temperature was 26oC, andincubated for 10 days treatment. Therefore, the higher post-incubation temperature of room and longer post-incubation periodresulted in the higher percentage of primordia formation of two cultivars.

표고 톱밥배지 재배시 녹색LED 광량에 따른 생육특성 분석 결과 5 umol ·m -2 · s -1에서 3주기 기준 배지당 자실체 의 수량은 239 g으로 형광등 202 g 대비 18% 증수효과가 있었으며, 자실체 폴리페놀 함량은 형광등 107 ppm에 대 비 78.4 ppm으로 27% 정도 낮았지만 에르고스테롤 함량 은 형광등 145 ppm 대비 307 ppm으로 2.1배 높은 함량을 보였다. 전력소모량은 형광등 대비 15.9%의 에너지 절감 율을 보였으며, 전등의 에너지 효율이 77.5%로 가장 컸다.

Mycelial growth of Oyster mushroom is very important. Because the management of careless mycelial growth can be caused contamination and low yield of fruit body. To reduce contamination, it is necessary to maintain clean cooling room, inoculation room and cultivation room. First of all, we investigate death rate of microorganism according to ultraviolet(uv) irradiation in cooling room, inoculation room and contamination rate according to sterilization condition of substrate. Though contamination rates according to sterilization conditions were not showed big differences, the amount of electricity-used was the lowest at 121°C for 90 minute. As results of UV irradiation time effect on death rate of microorganism, density of bacteria was not detected after UV irradiation for 6 hours by using UV lamp(40watt) in the room of 56m3. However the death rate of fungi is not big in the same UV irradiation conditions.

In previous studies, we selected green LED(light emitting diodes) for suitable wavelength of light by higher commercial yields and lower ratio of abnormal fruit body in Lentinula edodes. In this study, we aim to select efficient irradiation intensity of green LED. Stronger irradiation intensity of green LED resulted in more polyphenol contents of fruit body. In four level of irradiation intensity, 5, 10, 15, 20umol/m2/sec there was no big difference in commercial yields and characteristics of fruit body. In addition, Lower irradiation intensity resulted in smaller amount of electircity used. In conclusion, we selected 5umol/m2/sec for suitable irradiation intensity in Lentinula edodes with sawdust substrate cultivation.

A new rose variety, was selected from the progenies of a cross between “osai”and “okimeky”in 2006 after evaluation trials for three years (2004-2006). “altz”was developed because of many petals and powdery mildew resistance. A standard type with large sized flower, “altz”shows in 11.0 cm flower diameter. “altz”produces 130 stems･m-2 in a year. It has red-white color flower and 49.6 petals per flower. The stem length of cut flower was long with 69.3 cm. Vase life of the variety could be as long as 9.6 days.