Particulate matter emission sources and meteorological parameters combine to shape the airborne bacteria communities in the Ligurian coast, Italy

Aim of the present study is to explore how the chemical composition of particulate matter (PM) and meteorological conditions combine in shaping the air microbiome in Savona (Italy), a medium-size, heavily inhabited urban settlement, hosting a wide range of industrial activities. In particular, the a...

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Published inScientific reports Vol. 11; no. 1; pp. 175 - 12
Main Authors Palladino, Giorgia, Morozzi, Pietro, Biagi, Elena, Brattich, Erika, Turroni, Silvia, Rampelli, Simone, Tositti, Laura, Candela, Marco
Format Journal Article
LanguageEnglish
Published England Nature Publishing Group 08.01.2021
Nature Publishing Group UK
Nature Portfolio
Subjects
Agriculture
Air Microbiology
Air Pollutants - analysis
Air pollution
Air Pollution - analysis
Air quality
Airborne bacteria
Airborne microorganisms
Atmosphere
Atmospheric aerosols
Bacteria
Emissions
Industrial areas
Industrial emissions
Industry
Italy
Meteorology
Microbial contamination
Microbiomes
Microorganisms
Particulate matter
Particulate Matter - analysis
Population density
Vehicle Emissions - analysis
Italy
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Summary:Aim of the present study is to explore how the chemical composition of particulate matter (PM) and meteorological conditions combine in shaping the air microbiome in Savona (Italy), a medium-size, heavily inhabited urban settlement, hosting a wide range of industrial activities. In particular, the air microbiome and PM were monitored over six months in 2012. During that time, the air microbiome was highly dynamic, fluctuating between different compositional states, likely resulting from the aerosolization of different microbiomes emission sources. According to our findings, this dynamic process depends on the combination of local meteorological parameters and particle emission sources, which may affect the prevalent aerosolized microbiomes, thus representing further fundamental tools for source apportionment in a holistic approach encompassing chemical as well as microbiological pollution. In particular, we showed that, in the investigated area, industrial emissions and winds blowing from the inlands combine with an airborne microbiome which include faecal microbiomes components, suggesting multiple citizens' exposure to both chemicals and microorganisms of faecal origin, as related to landscape exploitation and population density. In conclusion, our findings support the need to include monitoring of the air microbiome compositional structure as a relevant factor for the final assessment of local air quality.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-020-80642-1