TY - JOUR
T1 - Important Contribution to Aerosol Oxidative Potential from Residential Solid Fuel Burning in Central Ireland
AU - Rinaldi, Matteo
AU - Manarini, Francesco
AU - Lucertini, Mattia
AU - Rapuano, Marco
AU - Decesari, Stefano
AU - Paglione, Marco
AU - Facchini, Maria Cristina
AU - Lin, Chunshui
AU - Ceburnis, Darius
AU - D. O’Dowd, Colin
AU - Buckley, Paul
AU - Hellebust, Stig
AU - Wenger, John
AU - Ovadnevaite, Jurgita
N1 - Publisher Copyright:
© 2024 by the authors.
PY - 2024/4
Y1 - 2024/4
N2 - Numerous studies have shown negative health effects related to exposure to ambient particulate matter (PM), likely due to induced oxidative stress. In this study, we have examined ambient PM samples from Birr, a small (~5000 inhabitants) town in central Ireland, for their water-soluble DTT-based oxidative potential (OP_DTT) with a resolution of 6 h, together with online chemical characterization measurements, to assess the OP of organic aerosols, in particular from residential solid fuel burning. The OP_DTT normalized by the volume of sampled air shows a high variability, ranging from <0.1 to 3.8 nmol min−1 m−3, and a high correlation with PM mass. A lower variability was associated with the mass-normalized OP. Nevertheless, both tended to present higher values during night-time pollution episodes. Simple and multivariate linear regression approaches linked OP_DTT to residential solid fuel burning, and in particular to wood (~87%) and peat (~13%) combustion. The results of the present study show how residential solid fuel burning can have a severe impact on air quality, even in small towns, with potential negative health effects on the exposed population.
AB - Numerous studies have shown negative health effects related to exposure to ambient particulate matter (PM), likely due to induced oxidative stress. In this study, we have examined ambient PM samples from Birr, a small (~5000 inhabitants) town in central Ireland, for their water-soluble DTT-based oxidative potential (OP_DTT) with a resolution of 6 h, together with online chemical characterization measurements, to assess the OP of organic aerosols, in particular from residential solid fuel burning. The OP_DTT normalized by the volume of sampled air shows a high variability, ranging from <0.1 to 3.8 nmol min−1 m−3, and a high correlation with PM mass. A lower variability was associated with the mass-normalized OP. Nevertheless, both tended to present higher values during night-time pollution episodes. Simple and multivariate linear regression approaches linked OP_DTT to residential solid fuel burning, and in particular to wood (~87%) and peat (~13%) combustion. The results of the present study show how residential solid fuel burning can have a severe impact on air quality, even in small towns, with potential negative health effects on the exposed population.
KW - biomass burning aerosol
KW - fine aerosol
KW - organic aerosol
KW - oxidative potential
KW - source apportionment
UR - https://www.scopus.com/pages/publications/85191399794
U2 - 10.3390/atmos15040436
DO - 10.3390/atmos15040436
M3 - Article
SN - 2073-4433
VL - 15
JO - Atmosphere
JF - Atmosphere
IS - 4
M1 - 436
ER -
