Ergosterol, arabitol and manitol as tracers for biological aerosols

Airborne fungi can cause a wide array of adverse responses in humans depending on the type and quantity present. Since dose and human response is highly individual, the sensitivity of a person exposed is also an important consideration. The abundance of bioaerosols in the ambient air and their health impacts depend on the season and on the environmental conditions. In order to quantify and identify fungi bioaerosols’ contribution to atmospheric aerosols and the impact to public health, it has been suggested to use chemicals that are typical of bioaerosols as biomarkers in chemical analysis of collected aerosols. An often used biomarker for determining the fungal biomass is ergosterol. Recently, Bauer et al. (2008) found that mannitol and arabitol concentrations are correlated with the fungal spore counts in atmospheric PM10. In this study, ergosterol, arabitol and mannitol were quantified in ambient aerosols collected in the Eastern Mediterranean region for 12 months in order to understand their annual and seasonal behavior and to test whether arabitol and mannitol are good predictors of fungi. Finally, correlations between ergosterol abundances with inorganic ions, humidity, temperature, and synoptic data in order to identify dominant sources of fungal spores were also studied. We will report on the measurements and the observed correlations between the different tracers.