台北地區大氣中真菌孢子與真菌過敏原之粒徑分佈與特性探討

台北地區大氣中真菌孢子與真菌過敏原之粒徑分佈與特性探討



雖然世界各地皆已積極地進行大氣生物性微粒的調查，但在台灣的相關研究並不多。



m)及粗 (2.5-10 m) 微粒所含真菌過敏原濃度之分佈。根據結果發現，研究期間總真 菌孢子平均濃度為 1930.62 spores/m3 ，優勢菌種包括 ascospores 、 basidiospores 、 Cla dosporium 、 unidentified spores 、 Aspergillus/Penicillium 及 Fusarium 。常見真菌濃度有 明顯之季節變化。在多變項迴歸模式中發現，溫度是影響真菌孢子濃度最主要的環境因 子，其他如相對濕度、降雨、臭氧、 PM10 及 PM2.5 等也和真菌孢子的濃度有顯著相 關。調查三種在世界各地常見的真菌過敏原後，發現大部分樣本皆低於偵測極限。其中

， PM2.5-10 及 PM2.5 所含 Cladosporium herbarum 過敏原的平均濃度分別為 0.0440 及 0 .0095 ng/m3 。而 Aspergillus fumigatus 只在 PM2.5 中有測到，其平均濃度為 1.9122 pg/

m3 。



The study on size distributions and characteristics of fungal spores and fungal allergens in the Taipei area



Biological particulates are ubiquitous in ambient air, including pollens, fungal spores, bacteria, viruses, or any fragments originating from plants and animals. Exposure to outdoor biological particulates has been as sociated with infection, allergenic respiratory symptoms, and asthma exacerbation. Although many studies have been conducted worldwide to investigate the distributions and health effects of ambient biological par ticulates, relatively little has been done in Taiwan.



We used a Burkard seven-day recording volumetric spore trap to collect ambient fungal spores from Januar y to December 2005 to establish the baseline data in the Taipei area. We also used a high volume air sampl er to collect ambient particles for two weeks in April and May 2006. The concentrations of fungal allergens in fine (<2.5 m) and coarse (2.5-10 m) particulates were analyzed. According to our results, the average c   oncentration of total fungal spores was 1930.62 spores/m3 during the study period, and the predominant fu ngal taxa were ascospores, basidiospores, Cladosporium, unidentified spores, Aspergillus/ Penicillium and Fusarium. Most common fungi had significant seasonal variations. In regression analyses, we found that te mperature was the most consistent factor correlated with fungal concentrations. Other environmental para meters, including relative humidity, rainfall, ozone, PM10 and PM2.5, also had statistically significant rela tionships with fungal levels. We analyzed three most dominant fungal allergens world-wide and found that the concentrations of these allergens were low in the ambient air in Taipei. The concentrations of Cladospo rium herbarum in PM2.5-10 and PM2.5 were 0.0440 and 0.0095 ng/m3, respectively. Aspergillus fumigatu s was only detected in PM2.5, and its average concentration was 1.9122 pg/m3.



Our study provided the baseline data of ambient biological particles in Taipei metropolis and the relationsh

ips between outdoor fungi and air pollution/meteorological factors. Future studies should be implemented t

o evaluate the health impacts of aeroallergens, and to examine the interactions among fungal spores, meteo

rological factors and air pollutants.