The present study was carried out to investigate the concentration and species diversity of airborne fungi in thermophilic mushroom cultivation houses. Fungal concentration measurements were performed in April and May 2022 for a Pleurotus ostreatus cultivation house, in July and August 2023 for a Pleurotus sajor-caju and Agaricus blazei cultivation house, and in June, July and August 2023 for a Pleurotus pulmonarius, Pleurotus sajor-caju and Calocybe indica cultivation house. The airborne fungal concentration was 2.95 × 102 CFU/m3~105CFU/m3, above 105CFU/m3, and 1.12 × 103 CFU/m3~ 9.17 × 103 CFU/m3 in the three cultivation houses, respectively. A total of 8 genera and 22 species of airborne fungi were isolated from three mushroom cultivation houses. 5 genera and 7 species were identified from P. ostreatus cultivation house. Furthermore, 4 genera 6 species were found from A. blazei and C. indica cultivation house. In addition, 5 genera and15 species were isolated from P. pulmonarius, P. sajor-caju and C. indica cultivation house. Among the fungi isolated, the class of Eurotiomycetes was the most common. Among the 22 fungal species, Aspergillus flavus, A. ochraceus A. sydowii, A. tubingensis, A. westerdijkiae, Penicillium brevicompactum, P. citrinum, and P. steckii have been reported as harmful species to mushrooms, food, and human.
Airborne bacteria in mushroom growing environments are a potential risk of contamination in commercial mushroom production. Controlling contamination in mushroom farms requires understanding the bacterial ecology in the cultivation environment. This study was conducted to investigate the concentration and species diversity of floating bacteria in a thermophilic mushroom cultivation room. Temperature, humidity, temperature, humidity, and bacterial concentration measurements were performed in April and May 2022 for a Pleurotus ostreatus cultivation house, in July and August 2023 for a Pleurotus sajor-caju and a Agaricus blazei cultivation house, and in June, July and August 2023 for a Pleurotus pulmonarius, Pleurotus sajor-caju and Calocybe indica cultivation house. The airborne bacterial concentration was 5.27 × 103~105 CFU/m3, 3.81 × 102 ~1.37 × 103 CFU/m3, and 2.55 × 102 ~1.37 × 102 CFU/m3 in the three cultivation houses, respectively. A total of 23 genera and 37 species of airborne bacteria were isolated from the three mushroom cultivation houses. 12 genera and 18 species were identified from P. ostreatus cultivation house. Furthermore, 4 genera and 4 species were found from A. blazei and C. indica cultivation house. In addition, 11 genera and 18 species were isolated from P. pulmonarius, P. sajor-caju and C. indica cultivation house. Among the bacteria isolated, the Bacilli class was the most common, followed by Gammaproteobacteria. Among the 37 bacterial species, it was determined that Bacillus cereus, B. licheniformis, Cedecea neteri, Exiguobacterium acetylicum and Raoultella terrigena could negatively affect humans or foodstuff. Cedecea neteri is also known to cause diseases among mushrooms.
This study was carried out to examine the concentration and distribution characteristics of total airborne bacteria (TAB) and airborne mold in non-regulated public-use facilities. The arithmetic mean (AM) of the TAB in all facilities was 356.5 ± 419.3 CFU/m3, and the geometric means (GM) was 157.8 CFU/m3, which did not exceed the standard value of 800 CFU/m3. The highest concentration was 637.3 ± 372.0 CFU/m3 (GM: 534.9 CFU/m3) in the underground shopping mall. The AM of airborne mold in all facilities was 448.2 ± 429.6 CFU/m3 (GM: 285.4 CFU/m3), which did not exceed the standard value of 500 CFU/m3, but was close to it. In particular, subway station (AM: 661.5 ± 441.2 CFU/m3, GM: 540.0 CFU/ m3), large-scale store (AM: 587.6 ± 683.2 CFU/m3, GM: 297.8 CFU/m3), and private educational institute (AM: 528.8 ± 379.6 CFU/m3, GM: 373.7 CFU/m3) exceeded the standard. Operational taxonomic unit of 16S rDNA and ITS2 rDNA region was analyzed to profile bacteria and mold component in the air of the public-use facilities. As a result, Pseudomonas and Morganella are the major bacterial groups. Regarding mold, Aspergillus, Candida, Malassezia, and Penicillium are the major groups. Component of each airborne bacterial and mold groups varied depending on the type of public-use facilities.
This study was conducted to help manage total floating bacteria and fungi in the indoor air by studying the characteristics of total floating bacteria and fungi according to the indoor CO2 concentration of daycare centers. The sampling and analysis of samples was based on the indoor air quality process test method, and the result analysis was conducted using the SPSS statistical program to perform correlation and regression analysis. Correlation and regression results show that CO2 and total airborne bacteria showed positive relationships, but airborne mold did not show relevance. In addition, in order to identify factors affecting airborne mold, correlation analysis and regression analysis were performed regarding total airborne bacteria, PM10, PM2.5, HCHO, outdoor mold, I/O ratio, indoor temperature/ humidity, area per classroom and volume. The results showed that the factors affecting airborne mold were I/O ratio, outdoor airborne mold, and total airborne bacteria. Research results show that CO2 and total airborne bacteria can be reduced and controlled by natural ventilation, and in the case of airborne mold, mechanical forced ventilation such as hoods will be necessary due to the introduction of outdoor airborne mold. In addition, it is necessary to consider I/O ratio criteria in order to confirm effective indoor mold contamination, taking into account the effect of outdoor mold inflow.
Odor compounds and air-born microorganisms are simultaneously emitted from various aeration processes such as aerobic digestion, food-waste compositing, and carcass decomposition facilities that are biologically-treating wastes with high organic contents. The air streams emitted from these processes commonly contain sulfur-containing odorous compounds such as hydrogen sulfide(H2S) and bacterial bioaerosols. In this study, a wet-plasma method was applied to remove these air-born pollutants and to minimize safety issues. In addition, the effects of a gas retention time and a liquid-gas ratio were evaluated on removal efficiencies in the wet-plasma system. At the gas reaction time of 1.8 seconds and the liquid-gas ratio of 0.05 mLaq/Lg, the removal efficiency of bioaerosol was approximately 75 %, while the removal efficiency of H2S was lower than 20 %, indicating that the gaseous compound was not effectively oxidized by the plasma reaction at the low liquid addition. When the liquid-gas ratio was increased to 0.25 mLaq/Lg, the removal efficiencies of both H2S and bioaerosol increased to greater than 99 %. At the higher liquid-gas ratio, more ozone was generated by the wet-plasma reaction. The ozone generation was significantly affected by the input electrical energy, and it needed to be removed before discharged from the process.
This study investigated the emission characteristics of airborne particles and bacteria from six types of household vacuum cleaners in the closed chamber. A test cleaner without HEPA filter was examined focusing on the first one minute of initial operation, observing significant generation of airborne particles, and especially for particle size of 0.5 to 2.5 μm, the generation rate increased up to 68.5 × 103 particles/min. Concentrations of airborne particles and bacteria depends on the production year, the motor power, and the dust filter efficiency of the vacuum cleaner. The observed results should be taken into consideration in the design of the vacuum cleaner as well as how they are operated in indoor environment.
The current interest in atmospheric particulate matter (PM) is mainly due to its effect on human health.Exposure to outdoor PM is associated with a wide range of adverse health effects. Indoor air contains a complexmixture of bioaerosols such as bacteria, fungi and allergens. Children are known to be more susceptible tothe exposures of PM and bioaerosols which are represented by airborne bacteria, fungi, and allergens. Thisstudy is to assess concentrations of the atmospheric PM and bioaerosols indoors and outdoors at 15 daycarecenters for children located in Seoul. Particles were measured indoors and outdoors with automatic particlemonitoring using beta radiation absorption. Airborne bacteria and fungi were sampled by Anderson sampler.Analysis shows that average indoor PM10 was 95.7µg/m³ (SD 26.6µg/m³) and average level of airbornebacteria and fungi were 575.0CFU/m³ (SD 431.6CFU/m³) and 77.9CFU/m³ (SD 45.6CFU/m³), respectively.Finally, efficient ventilation and effective air cleaning strategies are necessary to reduce indoor concentrationsof particles and bioaerosols.
Recently SARS and bird flu has been infected widely in the world; we have to care about germs and virus in indoor air environment. Especially that transmission by means of transportation is a major infection route. In this study, a private car simulated with CFD for prediction of indoor airborne microbe transport. Simulation performed with real situation in car, four occupants with a infected driver and four stage air ventilation controled by HVAC system. Result show that CFD can be visualized microbe transport other occupants and who is more exposed to airborne microbe. also it make a prediction of microbe transport in car.
The transmission of the world Installed in an Office occurs through the air. Preventing that transmission, especially in indoor environments like those in airplanes, schools and offices, is a major public health concern. in this study the real situation of lab which is consist of dilution, Ultraviolet-C based air sterilization system. This model include indoor microbe transport which is generated human source. a computer simulation was performed to determine if such simulation can be used effectively to predict the more accurate, but difficult to perform, actual physical experiment. Result show that CFD can be modeled microbe transport effectively and it can be visualized microbe transport separation from flow streamline. also it make a good prediction of microbe transport.
To evaluate the indoor air quality of food manufacturing plants, the presence of viable bacteria and fungi was assessed in the indoor air of the facilities at which 9 food items were manufactured. Air samples were collected from the general zone, low clean zone and clean zone of each factory with an air sampler, in combination with plate counts agar using for bacteria, and dichloran-glycerol agar for fungi. The samples were incubated at 25℃for 4 to 7 days. After culture, the colony forming units (CFU) on each plate were counted and corrected with a positive hole conversion table. The average concentration of bacteria was 2.2 × 10³ CFU/㎥ in the general zone, 1.2 ×10³ CFU/㎥ in the low clean zone and 7.3 × 10² CFU/㎥ in the clean zone. The average concentration of fungal microbes was 2.5 × 10³ CFU/㎥ in the general zone, 2.6 × 10³ CFU/㎥ in the low clean zone, and 2.0 × 10² CFU/㎥in the clean zone. No meaningful differences were detected between the general zone and the low clean zone, but the clean zone had significantly lower concentrations than the other zones. Additionally, the identification of the fungi was performed according to morphological method using a giant culture and slide culture. The fungi were identified as belonging to 18 genera, and the genera Cladosporium(33%), Penicillium(29%) and Aspergillus(26%), predominated. Aspergillus isolates were identified to species level, and A. ochraceus, a mycotoxigenic species, was identified. As part of the effort to control the quality of the indoor air of food manufacturing plants, our results show that continued studies are clearly warranted.
본 연구의 목적은 공기감염성 가축질병 유발의 주요 인자인 부유 세균 및 바이러스 등의 생물학상 인자들에 대한 유형별 공기청정기의 제균 효과를 비교 평가하는 데 있다. 시료 채취 장비에 대한 포집 성능 평가에서는 MS2 바이러스와 Pseudomonas fluorescens 모두 Button sampler보다는 Biosampler에 의한 채취 효율이 유의하게 높았다 (p<0.05). 공기청정기 유형 및 시료채취 방법에 관계없이 MS2 바이러스의 경우 초기 농도 대비 가동 후 5분에 50% 이상, 15분에 70% 이상, 30분에 80% 이상, 그리고 마지막 측정 시점인 60분에는 90% 이상의 제거 효율을 보이는 것으로 나타났다. P. fluorescens 세균의 경우 초기 농도 대비 가동 후 5분에 45% 이상, 15분에 50% 이상, 30분에 70% 이상, 그리고 마지막 측정 시점인 60분에는 75% 이상의 제거 효율을 보이는 것으로 나타났다. 유형별 공기청정기의 상대적 제균 효율을 비교해 보면 MS2 바이러스의 경우 이온 발생 방식>전기 집진 방식>습식 방식>건조 방식, P. fluorescens 세균의 경우 전기 집진 방식>이온 발생 방식>건조 방식>습식 방식의 순서로 조사되었다.
The objective of this study is to assess a level of microbial contamination in the KTX. Investigation sites in the KTX were cabin, gateway, toilet and passenger seat. It was found that the mean concentrations of airborne bacteria and fungi were 157 CFU/m3 and 84 CFU/m3 , respectively, in all of the investigation sites of the KTX. They did not exceed the domestic standard (800 CFU/m3 ) for airborne bacteria and the guideline (150 CFU/m3 ) for airborne fungi recommended by WHO. Mean levels of bacteria and fungi distributed in passenger seat were 2.6×105 cfu/m3 and 3.7×104 cfu/m3 , respectively. The predominant genera identified in the KTX were Bacillus, Corynebacterium, Staphylococcus and Micrococcus for bacteria and Aspergillus, Cladosporium and Penicillium for fungi, respectively. Based on identification result, the profiles of airborne bacteria and fungi in the KTX was wholly similar to those of bacteria and fungi distributed in the passenger seat.
The aims of this study are to examine the concentration and identification of airborne organism at exhibit hall and storage in museums and to provide fundamental data to protect cultural assests from damage. This study surveyed the concentration of airborne bacteria and fungi at exhibit hall and storage in museums located 4 metropolitans from July to October, 2007 and literature data on airborne microbes of museums in Korea that were publiced in relevant Korean journals. The concentrations of airborne bacteria and fungi were higher than those in storage. Pseudomonas spp. and Bacillus spp for bacteria and Aspergillus spp. and Penicillium spp. for fungi were shown mainly in museums. Pooled average concentration of airborne bacteria in museums was 34.2±10.1 CFU/m3 for exhibit hall and 17.2±10.0 CFU/m3 for storage, respectively. Pooled average concentration of airborne fungi in museum was 26.0±11.2 CFU/m3 for exhibit hall and 16.6±11.0 CFU/m3 for storage, respectively.
The objective of this study is to offer basic scientific data to support policy decision-making for the improved control of suspended microorganism and to provide baseline data in order to improve the studies of bioaerosol in Korea. Therefore, this study collected and re-analyzed articles on suspended microorganism in various indoor environments and atmospheric environment in Korea that were published in environmental journals since 1980. The survey on the bioaerosol concentration in hospital among the public facilities have been performed abundantly. Also, the survey on the distribution of microorganism during yellow sand, pollen and fungus in atmosphere have been performed mostly. The impactional sampling method that is the sampling method of suspended microorganism have been used mostly in the survey on bioaerosol in Korea. Among the various indoor environments, the pooled average total bacteria concentration of 222.75 CFU/㎥ (95% CI:210.29 ∼ 245.22 CFU/㎥) was found in hospitals. It were lower than the guideline concentration (800 CFU/㎥) recommended by the Korean Ministry of Environment. And the pooled average concentration of bacteria and fungi in houses was 148.06 CFU/㎥(95% CI : 20.39 ∼ 275.74 CFU/㎥) and 22.66 CFU/㎥(95% C I:0 ∼ 49.73 CFU/㎥) respectively. Staphylococcus spp., Micrococcus spp., Enterococcus., Corynebacterium., Escherichia spp., and Pseudormonas spp. for bacteria and Penicillium spp., and Aspergillus spp. for fungi were showed in various indoor environments.
음식물류 폐기물은 높은 수분 및 유기물 함량으로 인해 쉽게 부패되며, 그 과정에서 TVOC 및 황화수소 등 많은 종류의 악취와 다양한 미생물들이 발생한다. 황계열 및 TVOC 와 같은 악취물질은 수거용기 내부에서 발생하여 생활악취 민원의 주요 원인이 되고 있다. 또한 음식물류 폐기물을 버리고 부패되는 과정에서 부유미생물이 발생하여 병원성 세균감염 및 알레르기를 일으킬 가능성이 있다. 따라서 음식물류 폐기물의 악취 및 부유미생물에 대한 대책이 시급한 상황이나 이에 대한 연구는 미흡한 실정이다. 음식물류 폐기물에서 발생하는 악취 및 부유미생물은 계절, 기온, 재료에 따라 많은 차이가 생겨 처리장치의 설계인자를 도출하거나 성능을 정량적으로 평가하기에 어려움이 있다. 따라서 처리장치의 설계 및 성능평가를 위해 성상이 비교적 일정한 표준화 된 음식물류 폐기물의 제조가 필요하며 본 연구에서는 서울시에서 규정한 ‘음식물쓰레기 감량기기, 종량기기 가이드라인(2014)’의 중량비율을 참고하여 채소류, 과일류, 곡물류, 어육류 및 함수율을 조정하여 표준화 된 음식물류 폐기물을 제조하였다. 제조한 음식물류 폐기물의 부패기간에 따른 TVOC 및 복합악취, 부유미생물의 발생 경향을 파악함으로써 처리장치의 기초설계 인자를 도출하고자 하였다. 실험실에서 제조한 음식물류 폐기물의 부패기간에 따른 악취 및 부유미생물의 농도 변화를 측정하기 위하여 12시간 간격으로 TVOC, 복합악취, 부유미생물의 농도변화를 관찰하였다. 실험결과 TVOC, 복합악취, 부유미생물 농도가 60시간까지 지속적으로 증가하였으며 최대농도는 TVOC 86 ppm, 복합악취 3000배, 부유미생물 2517 CFU/m³로 측정되었다. 그리고 72시간 부패 후 TVOC 농도는 84 ppm이 측정되어 소량 감소되었지만 복합악취와 부유미생물의 농도는 복합악취 1000배, 부유미생물 1700 CFU/m³로 측정되었으며 확연히 감소되는 경향을 볼 수 있었다.