Fungal origin bioaerosols identification in the city of São Paulo

Although the biogenic components of Particulate Matter (PM) can have a direct relationship with the outbreak of respiratory diseases and can be linked to changes in climate processes there are very few studies related to its characterization in the atmospheric aerosols. Among the bioaerosols, the airborne fungi were studied, and the Basidiomycota, Ascomycota and Mitosporic fungi were the main characterized. The goal of this work was to estimate the contribution of the fungal aerosol to the RMSP atmosphere, with samplings in two sites: Cidade universitária (USP) and Pico do Jaraguá (PJ). For that, the fungi types were characterized using an optical microscope and it was estimated the mass of the fungal aerosol using biomarkers. Sampling was carried out during 2013, 2014 and 2015 with the \"Burkard 7-day Recording Sampler\", and in 2015, filters were sampled with the \"Airmetrics MiniVol portable Sampler. It was identified and determined the concentration of the fungi types observed in the RMSP atmosphere, and were found 39 main groups of fungi. The main group was the Basidiomycota. The mean concentration of the total fungi was 5736 (± 2459) spores/m³ per day. The Ascomycota, Basidiomycota and the mitosporic fungi correlated in different ways with the meteorological variables. A variation of the spores concentration during different times of the day was observed, with the occurrence of the highest concentration of spores at dawn, possibly due to weather conditions (high humidity and cooler temperatures), but the concentration of the mitosporic fungi was higher during the afternoon, mainly due to the spores release mechanisms. In the summer and spring were observed higher concentrations of Ascospores and Basidiospores and in the autumn and winter were obtained higher concentration of Mitospores. Besides that, it was also observed a positive and significant correlation between the fungal spore with the particulate matter, indicating that both are influenced in the same way by weather variables and/or has a common source such as soil resuspension. Arabitol, Mannitol, Threitol and the fungi spores are positive correlated, indicating that these three sugar alcohols can be a tracer for fungi spores in the atmosphere. Using the conversion factor proposed in the literature was possible to estimate that 2% of the PM10 concentration and 8% of the OC concentration it is due to fungi spores, indicating its importance. Using receptor modeling it was identified six sources for PM10, the biomass burning resulting from industrial processes, the biomass burning resulting from vegetation burning, the fungal aerosol, the secondary formation aerosol, the soil resuspension and vehicular emission. These results are a breakthrough for research on bioaerosols in Brazil, since many of this analyzes had never been performed in urban areas in Brazil (AU)