4.7 Article

Impact of meteorological parameters and air pollutants on airborne concentration of Betula pollen and Bet v 1 allergen

Journal

ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH
Volume 30, Issue 42, Pages 95438-95448

Publisher

SPRINGER HEIDELBERG
DOI: 10.1007/s11356-023-29061-z

Keywords

Bet v 1 allergen; Birch pollen; Allergenicity of pollen; Air pollutants; ELISA assay; Cyclone sampler

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The intensity of birch pollen season can be measured by the seasonal pollen integral (SPIn) and pollen allergen potency (PAP). The study found that the variation in SPIn is mainly attributed to changes in environmental conditions during the pre-season period, while the year-to-year variation in PAP levels is affected by both pre- and in-season conditions. The environmental conditions, such as weather and air pollutants, have significant impacts on the SPIn and PAP levels.
The intensity of birch pollen season is expressed by seasonal pollen integral (SPIn, the sum of the mean daily pollen concentration during the birch pollination period) and the amount of Bet v 1 allergen released per birch pollen grain expressed by pollen allergen potency (PAP). Betula pollen and Bet v 1 allergen were simultaneously measured in the air of Bratislava from 2019 to 2022 by using two Burkard traps (Hirst-type and cyclone) in order to evaluate the causes of the seasonal variation in the SPIn and PAP levels. The highest SPIn (19,975 pollen/m(3)) was observed in 2022 and the lowest one (1484 pollen/m(3)) in 2021. The average daily PAP level (4.0 pg Bet v 1/pollen) was highest in 2019 and lowest (2.5 pg Bet v 1/pollen) in 2020. We found that seasonal variation in SPIn was associated mainly with the changes in environmental conditions during the pre-season period, whereas the year-to-year variation in PAP levels was attributed to environmental conditions during both pre- and in-season periods. Our results indicate that rainy weather in June 2020 and cold overcast weather in January-February 2021 resulted in low SPIn in 2021. On the other hand, dry weather in June 2021 and warm weather in January-February 2022 resulted in high SPIn in 2022. The low average daily PAP level in 2020 was associated with (1) low levels of gaseous air pollutants in March, when the ripening of pollen takes place; (2) an earlier start of the birch main pollen season (MPS); and (3) dry weather during the MPS. On the other hand, high PAP level in 2019 was associated with higher levels of air pollutants in March and during the MPS.

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