1. Factors controlling benzo(a)pyrene concentration in aerosols in the urbanized coastal zone. A case study: Gdynia, Poland (Southern Baltic Sea)
- Author
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Magdalena Bełdowska, Bożena Graca, Dominika Saniewska, and Marta Staniszewska
- Subjects
Heating season ,Oceans and Seas ,Health, Toxicology and Mutagenesis ,Gdynia ,The Gulf of Gdansk coastal zone ,chemistry.chemical_compound ,Coastal zone ,Benzo(a)pyrene ,polycyclic compounds ,Ecotoxicology ,Environmental Chemistry ,Precipitation ,High humidity ,Aerosols ,Hydrology ,Urbanization ,General Medicine ,Pollution ,chemistry ,Baltic sea ,Environmental chemistry ,Environmental science ,Pyrene ,Poland ,Seasons ,Water Pollutants, Chemical ,Research Article ,Environmental Monitoring - Abstract
Annual study on the benzo(a)pyrene (BaP) concentration in aerosols in the coastal zone of the Gulf of Gdansk (southern Baltic) has been performed at Gdynia station. Combustion processes, especially domestic heating of both local and regional origin, were identified as the main sources of benzo(a)pyrene in this area. Concentrations observed during the heating season (mean 2.18 ng m(-3)) were significantly higher than these recorded in the non-heating season (mean 0.05 ng m(-3)). High benzo(a)pyrene concentrations were associated with low temperature and high humidity. Whereas high levels of precipitation usually decreased the BaP concentration in aerosols. The concentration of this factor in the studied area depended also on the wind direction and air masses trajectories. During heating season, continental air masses (coming from S, SE, SW) seemed to increase benzo(a)pyrene concentration, while maritime air masses (from N, NE, NW) caused its decrease. The differences in the BaP concentration resulting from potentially different emission levels of this compound during working and non-working days were not clearly pronounced.
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