Department of Ecology, School of Biology, Aristotle University of Thessaloniki, 54124, Thessaloniki, Greece.
Int J Biometeorol. 2022 May;66(5):895-909. doi: 10.1007/s00484-022-02247-9. Epub 2022 Feb 11.
We studied the diversity and abundance of the airborne fungal spores in the city of Thessaloniki, Greece, for two consecutive years. Air samples were collected at one rooftop station (at 30 m) and six near-ground stations (at 1.5 m) that differed in the size and composition of adjacent green spaces. The effects of meteorological factors on airborne fungal spore concentrations were also explored. Cladosporium spores were dominant everywhere in the air of the city. The total concentration of the airborne fungal spores at 30 m was 10 times lower than near the ground. Differences in concentration and composition were far less pronounced among near-ground stations. The attributes of the fungal spore season did not change in a consistent way among stations and years. Concentrations at the near-ground stations matched the grouping of the latter into stations of high, intermediate, and low urban green space. Minimum air temperature was the primary meteorological factor affecting spore abundance, followed by relative humidity. Airborne fungal spores are more homogeneously distributed in the air of the city, but their concentrations decrease more rapidly with height than pollen.
我们研究了连续两年希腊塞萨洛尼基市空气中气传真菌孢子的多样性和丰度。在一个屋顶站(30 米高)和六个近地面站(1.5 米高)采集了空气样本,这些近地面站在相邻绿地的大小和组成上有所不同。还探讨了气象因素对气传真菌孢子浓度的影响。在城市空气中,到处都是枝孢属孢子占优势。30 米高处空气中的总真菌孢子浓度比近地面处低 10 倍。近地面站之间的浓度和组成差异小得多。各站点和年份之间,真菌孢子季节的特征并没有以一致的方式发生变化。近地面站的浓度与后者按高、中、低城市绿地的分组相匹配。空气温度是影响孢子丰度的主要气象因素,其次是相对湿度。与花粉相比,空气中的气传真菌孢子分布更加均匀,但随着高度的增加,浓度下降得更快。
