• Proceedings of the Korean Society of Crop Science Conference
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• 2023.04a
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• pp.121-121
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• 2023

• Proceedings of the Korean Society of Agricultural Engineers Conference
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• 2004.11a
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• pp.48-48
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• 2004

• Journal of Bio-Environment Control
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• v.12 no.4
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• pp.200-206
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• 2003

Pleurotus eryngii(King oyster) is one of the most promising mushrooms produced on the domestic farms. The quality as well as quantity of Eryngii is sensitively affected by micro climate factors such as temperature, relative humidity, $CO_2$ concentration, and light intensity. To safely produce high-quality Eryngii all the year round, it is required that the environmental factors be carefully controlled by well designed structures equipped with various facilities and control systems. At the commercial mushroom cultivation house(A,B), this study was carried out to find out reasonable range of each environmental factor and yield together with economic and safe structures influencing on the optimal productivity of Eryngii. this experiment was conducted for about two-month from Nov. 11, 2002 to Dec. 30, 2002 in Eryngii. cultivation house-A, B. Ambient temperature during the experiment period was not predominantly different from that of a normal year. The capacity of the hot water boiler and the piping systems were not enough. Maximum air temperature difference between the upper and lower growth stage during a heating time zone was about 2~3$^{\circ}C$. The max. and min. relative humidity were ranged approximately 60~100%, and average relative humidity was ranged approximately 80~100%. And $CO_2$concentration increased until maximum 1,600~1,800 ppm with the passing growing period. The illuminance in cultivation house was widely distributed from 20lx to 160 lx in accordance with position, and it was maintained lower than the recommended illuminance range 100~200 lx. The average yield per bottle was about 67~85g. But the optimal productivity will be evaluated by considering the quality and quantity of mushroom production, energy requirements, facility construction and management cost, etc.

• Proceedings of the Korean Society for Agricultural Machinery Conference
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• 2002.02a
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• pp.242-247
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• 2002

가. 느타리버섯 폐면 버섯퇴비를 종균과 혼합 입상하는 폐면입상기의 주요부위는 진동식 변량공급장치, 버킷엘리베이터 승강기, 승강식 수평 벨트콘베이어 수평이송장치로 구성되며, 통로가 좁은 생육분리형 재배사와 재래식 재배사에도 적응할 수 있도록 제작되었다. 나. 폐면 공급장치의 폐면 공급성능은 캠행정이 13mm로부터 16mm, 19mm로 커 질수록, 캠축의 회전수가 300rpm에서 700rpm으로 증가할수록 폐면의 공급성능은 높아지는 경향이었다. 다. 폐면 공급장치의 공급성능과 기체진동, 폐면 부착수준 등의 작업상태를 고려할 때 캠행정 16mm 회전수 550rpm 내외가 적당한 것으로 판단된다. 라. 시작기의 작업능률은 표준규격 200m$^3$인 버섯재배사 1동 1회당 14시간으로 관행(인력)작업의 50시간에 비해 3.5배 능률적이었다. 마. 버섯입상, 종균접종 작업경비는 1동 1회당 관행(인력)작업이 320,800원/200m$^3$.동에 비해 시작기는 130,300원/200m$^3$.동으로서 59,7%의 작업경비를 절감할 수 있는 것으로 분석되었다.

• Journal of Mushroom
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• v.12 no.4
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• pp.263-269
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• 2014

Although sawdust cultivation of shiitake (Lentinula edodes) is becoming more common, it is insufficiently competitive in spring and autumn, the best time to breed shiitake. Thus, it is urgently needed to develop a technique for all year round cultivation of shiitake using mushroom growing beds. In the present study, the temperature changes according to the location of shiitake cultivation facilities were investigated. We confirmed that a refrigerator, an air conditioner, triple membranes, shiitake cultivation beds, fog nozzles which were installed in the shiitake cultivation facilities play an important role in keeping the low temperature. Bag cultivation of shiitake was tested in temperature variation from $14^{\circ}C$ to $29^{\circ}C$ with a $3^{\circ}C$ interval to know its cultivating temperature range in hot summer season. In summary, the sawdust cultivation of shiitake is possible when the temperature difference between top and bottom is maintained below $1^{\circ}C$. And the temperature of the shiitake cultivation facilities should be maintained below $23^{\circ}C$ in the induction period for fruitbody formation.

• 물만먹고자라요
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• no.3
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• pp.20-23
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• 1998

• Journal of Mushroom
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• v.15 no.1
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• pp.14-20
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• 2017

The oyster mushroom cultivation house typically has multiple layers of growing shelves that cause the disturbance of air circulation inside the mushroom house. Due to this instability in the internal environment, growth distinction occurs according to the area of the growing shelves. It is known that minimal air circulation around the mushroom cap facilitates the metabolism of mushrooms and improves their quality. For the purpose of this study, a CFD analysis FLUENT R16 has been carried out to improve the internal environment uniformity of the oyster mushroom cultivation house. It is found that installing a section of the working passage towards the ceiling is to maintain the internal environment uniformity of the oyster mushroom cultivation house. When all the environment control equipment - including a unit cooler, an inlet fan, an outlet fan, an air circulation fan, and a humidifier - were operated simultaneously, the reported Root Mean Square (RMS) valuation the growing shelves were as follows: velocity 23.86%, temperature 6.08%, and humidity 2.72%. However, when only a unit cooler and an air circulation fan operated, improved RMS values on the growing shelves were reported as follows: velocity 23.54%, temperature 0.51%, and humidity 0.41%. Therefore, in order to maintain the internal environment uniformity of the mushroom cultivation house, it is essential to reduce the overall operating time of the inlet fan, outlet fan, and humidifier, while simultaneously appropriately manage the internal environment by using a unit cooler and an air circulation fan.

• Journal of Mushroom
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• v.1 no.1
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• pp.28-33
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• 2003

Pseudomonas tolaasii causing brown blotch disease was detected by PCR from water samples collected from the oyster mushroom cultivation farms to find the contamination level of the pathogen in water. Sixteen water samples (28.1%) contain less than 1,000 cfu, 31 samples (54.4%) contain 1,001-10,000 cfu, 6 samples (10.5%) contain 10,001-100,000 cfu, and 4 samples (7%) contain of bacteria per milliliter. P. tolaasii-specific DNA band was amplified in 3 samples (5.3%) by nested-PCR and in 20 samples (35.1%) by immunocapture (IC)-nested PCR respectively. These results suggest that IC-nested-PCR was much more sensitive than nested-PCR in detection of P. tolaasii and a quite few waters using for oyster mushroom cultivation were contaminated with P. tolaasii.

• Journal of Mushroom
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• v.13 no.1
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• pp.26-29
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• 2015

Since button mushroom (Agaricus bisporus) cultivation is performed in closed environment, the understanding of indoor environment becomes essential for the quality and quantitative production of the greenhouse-grown mushroom. To generate information on indoor environmental factors affecting on fruiting body quality, we investigated temperature, humidity, and bacterial concentration and species in a greenhouse located in Buyeo, Chungnam Province. Temperature and humidity were recorded as $19.75{\pm}0.35^{\circ}C$ and $87{\pm}3.67%$, respectively. The total concentration of bacteria was measured as $3.84{\times}10^3CFU/M^3$. Advenella kashmirensis, Bacillus vietnamensism, B. licheniformis, Burkholderia sordidicola, Fictibacillus phosphorivorans, Lysobacter daejeonensis, Microbacterium esteraromaticum, Pseudomonas aeruginosa, P. protegens, P. gessardii, P. mosseli were identified from indoor air of the greenhouse.

• Journal of Mushroom
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• v.21 no.4
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• pp.266-269
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• 2023

This study aimed to address the increasing demand for technologies preventing mushroom fly damage. By monitoring the annual occurrence patterns of pests over several years and accumulating data, we conducted an analysis to evaluate the efficacy of preventive measures applied before the surge in mushroom fly infestation, typically observed in May. For preemptive control, physical measures involved installing air curtains at cultivation facility entrances and placing sticky traps and insect traps around entry points to block external entry and reduce internal insect density. Additionally, we applied an organic agricultural material, Dalmatian chrysanthemum extract, weekly alongside chemical control measures. To assess the reduction in mushroom fly populations, yellow sticky traps (15×25 cm) were placed at three locations within the mushroom cultivation facility, and the occurrence patterns before and after implementing preventive measures were compared. Compared to conventional practices, the application of preventive techniques resulted in a significant reduction, with a 60% decrease from 15 levels of mushroom flies/m² to 6 levels of mushroom flies/m² in May and a 40% decrease from 10 levels of mushroom flies/m² to 6 levels of mushroom flies/m² in June. While achieving over 50% efficacy during the peak mushroom fly season with preventive measures, we identified complementary actions such as blocking external sources (gaps in cultivation facility doors) and maintaining cleanliness around cultivation facilities (proper disposal of spent substrate) for further improvement. Comprehensive analysis and safety studies, including correlation analysis with contaminants and pathogens, are recommended to ensure the widespread adoption of mushroom fly preventive techniques for safe and stable mushroom production in the agricultural sector.