Enhanced toxicity of aerosol in fog conditions in the Po Valley, Italy

While numerous studies have demonstrated the association between outdoor exposure to atmospheric particulate matter (PM) and adverse health effects, the actual chemical species responsible for PM toxicological properties remain a subject of investigation. We provide here reactive oxygen species (ROS...

Full description

Saved in:
Bibliographic Details
Published in:Atmospheric chemistry and physics 2017-06, Vol.17 (12), p.7721-7731
Main Authors: Decesari, Stefano, Sowlat, Mohammad Hossein, Hasheminassab, Sina, Sandrini, Silvia, Gilardoni, Stefania, Facchini, Maria Cristina, Fuzzi, Sandro, Sioutas, Constantinos
Format: Article
Language:English
Subjects:
Aerosols
Air pollution
Analytical chemistry
Atmospheric particulate matter
Atmospheric particulates
Biomass
Biomass burning
Burning
Carbon
Case studies
Chemical properties
Chemical speciation
Collectors
Combustion
Droplets
Emission
Environmental aspects
Environmental conditions
Evaporation
Fog
Fog droplets
Fog formation
Fog water
Health risks
Ions
Metals
Organic carbon
Organic compounds
Oxidoreductions
Oxygen
Particulate emissions
Particulate matter
Particulates
Pollutants
Pollution
Pollution dispersion
Pollution transport
Reactive oxygen species
Rural areas
Scavenging
Secondary aerosols
Studies
Suspended particulate matter
Toxicity
Traffic
Traffic engineering
Transition metals
Urban areas
Valleys
Water chemistry
Winter
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:While numerous studies have demonstrated the association between outdoor exposure to atmospheric particulate matter (PM) and adverse health effects, the actual chemical species responsible for PM toxicological properties remain a subject of investigation. We provide here reactive oxygen species (ROS) activity data for PM samples collected at a rural site in the Po Valley, Italy, during the fog season (i.e., November–March). We show that the intrinsic ROS activity of Po Valley PM, which is mainly composed of biomass burning and secondary aerosols, is comparable to that of traffic-related particles in urban areas. The airborne concentration of PM components responsible for the ROS activity decreases in fog conditions, when water-soluble species are scavenged within the droplets. Due to this partitioning effect of fog, the measured ROS activity of fog water was contributed mainly by water-soluble organic carbon (WSOC) and secondary inorganic ions rather than by transition metals. We found that the intrinsic ROS activity of fog droplets is even greater (> 2.5 times) than that of the PM on which droplets are formed, indicating that redox-active compounds are not only scavenged from the particulate phase, but are also produced within the droplets. Therefore, even if fog formation exerts a scavenging effect on PM mass and redox-active compounds, the aqueous-phase formation of reactive secondary organic compounds can eventually enhance ROS activity of PM when fog evaporates. These findings, based on a case study during a field campaign in November 2015, indicate that a significant portion of airborne toxicity in the Po Valley is largely produced by environmental conditions (fog formation and fog processing) and not simply by the emission and transport of pollutants.
ISSN:1680-7324
1680-7316
1680-7324
DOI:10.5194/acp-17-7721-2017