버섯은 대부분 시설에서 재배되기 때문에 안전하게 고품질의 버섯 생산을 위해서는 재배사 내 환경에 대한 정보가 필요하다. 따라서 본 연구에서는 헤파필터 교체에 따른 큰느타리 재배사 대기중 미생물상 변화를 분석하여 헤파필터 적정 교체기간을 설정하고자 연구를 수행하였다. 헤파필터 교체 전 재배단계별 대기중 세균 및 진균 밀도는 배지제조과정에서 세균 169.7 cfu/m 3 , 진균 570 cfu/m 3 , 균 긁기과정에서 세균 126.3 cfu/m 3 , 진균 560cfu/m 3로 부유균 의 밀도가 가장 높았다. 헤파필터 교체 후 세균의 밀도는 배양실에서 가장 낮아졌고, 진균의 밀도는 냉각실에서 가장 낮게 나타났다. 헤파필터 교체전 Cladosporium sp. 등 7속 7종이었고, 교체 후 1개월은 Penicillium sp. 등 6속 6종, 2개월은 Cladosporium cladosporioides 등 4속 7종, 3 개월차는 Mucor plumbeus 등 5속 7종, 4개월에서 6개월까지는 Penicillium brevicompactum 등 각각 5속 12종, 5속 10종, 5속 10종으로 교체 후 기간이 지날수록 종이 다양해지고 증가하였다. 부유균의 밀도는 헤파필터 교체 후 2개월 후 가장 낮았고 차츰 증가하다가 6개월에는 교체전 밀도와 비슷해지거나 높아지는 것을 확인하였다. 따라서 헤파필터는 6개월마다 교체하는 것이 오염저감을 위해 효율적인 것으로 판단된다.

This study was conducted to set up a proper replacement cycle of High Efficiency Particulate Air (HEPA) filters by observing the microbial populations in the air of the cultivation house of Pleurotus eryngii, before and after HEPA filter replacement at different periods . The density of bacteria and fungi in the air during each cultivation stage was measured using a sampler before the replacement of the HEPA filter. The results showed that airborne microorganisms had the highest density in the mushroom medium preparation room, with 169.7 CFU/m3 of bacteria and 570 CFU/m3 of fungi, and the removed old spaun had 126.3 CFU/m3 of bacteria and 560 CFU/m3 of fungi. The density of bacteria and fungi in the air at each cultivation stage before the replacement of the HEPA filter was 169.7 CFU/m3 and 570 CFU/m3, and 126.3 CFU/m3 and 560 CFU/m3, during the medium production and harvesting processes, respectively. After the replacement of the HEPA filter, the bacterial density was the lowest in the incubation room and the fungal density was the lowest in the cooling room. The microbial populations isolated at each period consisted of seven genera and seven species before the replacement, including Cladosporium sp., six genera and six species after 1 month of replacement, including Penicillium sp., 5 genera and 7 species after 3 months of replacement, including Mucor plumbeus, and 5 genera and 12 species, 5 genera and 10 species, and 5 genera and 10 species, 4, 5, and 6 months after the replacement, respectively, including Penicillium brevicompactum. During the period after replacement, the species were diversified and their number increased. The density of airborne microorganisms decreased drastically after the replacement of the HEPA filter. Its lowest value was recorded after 2 months of replacement, and it increased gradually afterwards, reaching a level similar to or higher than that of the pre-replacement period. Therefore, it was concluded that replacing the HEPA filter every 6 months is effective for reducing contamination.

• 박혜성(농촌진흥청 국립원예특작과학원 인삼특작부 버섯과/단국대학교 자연과학대학 미생물학과) | Hye-Sung Park (Mushroom Research Division, NIHHS, RDA/Department of Microbiology College of Natural Science, Dankook University) Corresponding author
• 민경진(농촌진흥청 국립원예특작과학원 인삼특작부 버섯과) | Gyong-Jin Min (Mushroom Research Division, NIHHS, RDA)
• 이은지(농촌진흥청 국립원예특작과학원 인삼특작부 버섯과) | Eun-Ji Lee (Mushroom Research Division, NIHHS, RDA)
• 이찬중(농촌진흥청 국립원예특작과학원 인삼특작부 버섯과) | Chan-Jung Lee (Mushroom Research Division, NIHHS, RDA)