Abstract
A preliminary local database of potential (opportunistic) airborne human and plant pathogenic and non-pathogenic species detected in PM10 samples collected in winter and spring is provided, in addition to their seasonal dependence and relationships with meteorological parameters and PM10 chemical species. The PM10 samples, collected at a Central Mediterranean coastal site, were analyzed by the 16S rRNA gene metabarcoding approach, and Spearman correlation coefficients and redundancy discriminant analysis tri-plots were used to investigate the main relationships. The screening of 1187 detected species allowed for the detection of 76 and 27 potential (opportunistic) human and plant pathogens, respectively. The bacterial structure of both pathogenic and non-pathogenic species varied from winter to spring and, consequently, the inter-species relationships among potential human pathogens, plant pathogens, and non-pathogenic species varied from winter to spring. Few non-pathogenic species and even fewer potential human pathogens were significantly correlated with meteorological parameters, according to the Spearman correlation coefficients. Conversely, several potential plant pathogens were strongly and positively correlated with temperature and wind speed and direction both in winter and in spring. The number of strong relationships between presumptive (human and plant) pathogens and non-pathogens, and meteorological parameters slightly increased from winter to spring. The sample chemical composition also varied from winter to spring. Some potential human and plant pathogens were correlated with chemicals mainly associated with marine aerosol and/or with soil dust, likely because terrestrial and aquatic environments were the main habitats of the detected bacterial species. The carrier role on the species seasonal variability was also investigated.
Highlights
Natural and anthropogenic air pollution consists of complex mixtures of chemical and biochemical species as well as airborne pathogens
The PM10 mass concentration and the total number of operational taxonomic units (OTUs), phyla, orders, genera, and species detected in each sample were provided
We provided a preliminary local database of airborne potential pathogenic and non-pathogenic bacterial species in PM10 samples collected at a monitoring site in southeastern Italy
Summary
Natural and anthropogenic air pollution consists of complex mixtures of chemical and biochemical species as well as airborne pathogens. In addition to the human health risks posed by fine aerosol particles, bioaerosols can influence public health and ecological systems [1,2], since biological airborne contaminants (or bioaerosols) like bacteria, viruses, and fungi are usually transported by aerosols [3,4,5]. Potential pathogenic bacteria are of considerable interest since they can spread and induce diseases [6,7]. The current progress in airborne metagenomics has offered a unique opportunity to analyze bacterial and viral diversity in the air and monitor their spread locally or across the globe, since bio-surveillance activities should be promoted by national strategies to prevent the dissemination of pathogenic biological agents [3]
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