Characterization of long-range transported bioaerosols in the Central Mediterranean
Characterization of long-range transported bioaerosols in the Central Mediterranean
Airborne bacteria were characterized over a 2-y period via high-throughput massive sequencing of 16S rRNA gene in aerosol samples collected at a background mountain European Monitoring and Evaluation Programme (EMEP) Network site (Monte Martano, Italy) located in the Central Mediterranean area. The air mass origin of nineteen samples was identified by air mass modelling and a detailed chemical analysis was performed. Four main origins (Saharan, North-western, North-eastern, and Regional) were identified, and distinct microbial communities were associated with these air masses. Samples featured a great bacterial diversity with Protobacteria being the most abundant phylum, and Sphingomonas followed by Acidovorax, Acinetobacter and Stenotrophomonas the most abundant genera of the dataset. Bacterial genera including potential human and animal pathogens were more abundant in European and in Regional samples compared to Saharan samples; this stressed the relevance of anthropic impact on bacterial populations transported by air masses that cross densely populated areas. The principal aerosol chemical characteristics and the airborne bacterial communities were correlated by cluster analysis, similarity tests and non-metric multidimensional scaling analysis, explaining most of the variability observed. However, the strong correlation between bacterial community structure and air mass origin hampered the possibility to disentangle the effects of variations in bacterial populations and in dust provenance on variations in chemical variables.
Air mass origin, Airborne bacteria, Chemical speciation, Illumina sequencing, Saharan dust
Petroselli, Chiara
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Montalbani, Elena
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La Porta, Gianandrea
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Crocchianti, Stefano
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Moroni, Beatrice
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Casagrande, Chiara
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Ceci, Elisa
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Selvaggi, Roberta
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Sebastiani, Bartolomeo
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Gandolfi, Isabella
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Franzetti, Andrea
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Federici, Ermanno
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Cappelletti, David
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Petroselli, Chiara
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Montalbani, Elena
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La Porta, Gianandrea
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Crocchianti, Stefano
d55d377c-32eb-4aa4-9940-7193fe9b875c
Moroni, Beatrice
40dfe2d4-7325-410b-ac6a-ec45846a5485
Casagrande, Chiara
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Ceci, Elisa
540d3cf2-ee2c-444d-9bf7-00d3fc22c4fa
Selvaggi, Roberta
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Sebastiani, Bartolomeo
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Gandolfi, Isabella
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Franzetti, Andrea
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Federici, Ermanno
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Cappelletti, David
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Petroselli, Chiara, Montalbani, Elena, La Porta, Gianandrea, Crocchianti, Stefano, Moroni, Beatrice, Casagrande, Chiara, Ceci, Elisa, Selvaggi, Roberta, Sebastiani, Bartolomeo, Gandolfi, Isabella, Franzetti, Andrea, Federici, Ermanno and Cappelletti, David
(2020)
Characterization of long-range transported bioaerosols in the Central Mediterranean.
Science of the Total Environment, [143010].
(doi:10.1016/j.scitotenv.2020.143010).
Abstract
Airborne bacteria were characterized over a 2-y period via high-throughput massive sequencing of 16S rRNA gene in aerosol samples collected at a background mountain European Monitoring and Evaluation Programme (EMEP) Network site (Monte Martano, Italy) located in the Central Mediterranean area. The air mass origin of nineteen samples was identified by air mass modelling and a detailed chemical analysis was performed. Four main origins (Saharan, North-western, North-eastern, and Regional) were identified, and distinct microbial communities were associated with these air masses. Samples featured a great bacterial diversity with Protobacteria being the most abundant phylum, and Sphingomonas followed by Acidovorax, Acinetobacter and Stenotrophomonas the most abundant genera of the dataset. Bacterial genera including potential human and animal pathogens were more abundant in European and in Regional samples compared to Saharan samples; this stressed the relevance of anthropic impact on bacterial populations transported by air masses that cross densely populated areas. The principal aerosol chemical characteristics and the airborne bacterial communities were correlated by cluster analysis, similarity tests and non-metric multidimensional scaling analysis, explaining most of the variability observed. However, the strong correlation between bacterial community structure and air mass origin hampered the possibility to disentangle the effects of variations in bacterial populations and in dust provenance on variations in chemical variables.
Text
Characterization of long-range transported bioaerosols
- Accepted Manuscript
More information
Accepted/In Press date: 7 October 2020
e-pub ahead of print date: 19 October 2020
Additional Information:
Funding Information:
We thank MIUR and University of Perugia for financial support through AMIS project (“Dipartimenti di Eccellenza–2018–2022”).
Publisher Copyright:
© 2020 Elsevier B.V.
Keywords:
Air mass origin, Airborne bacteria, Chemical speciation, Illumina sequencing, Saharan dust
Identifiers
Local EPrints ID: 444929
URI: http://eprints.soton.ac.uk/id/eprint/444929
ISSN: 0048-9697
PURE UUID: 52cbc844-4e16-4cc5-9360-5176322ea466
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Date deposited: 12 Nov 2020 17:31
Last modified: 17 Mar 2024 06:02
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Contributors
Author:
Chiara Petroselli
Author:
Elena Montalbani
Author:
Gianandrea La Porta
Author:
Stefano Crocchianti
Author:
Beatrice Moroni
Author:
Chiara Casagrande
Author:
Elisa Ceci
Author:
Roberta Selvaggi
Author:
Bartolomeo Sebastiani
Author:
Isabella Gandolfi
Author:
Andrea Franzetti
Author:
Ermanno Federici
Author:
David Cappelletti
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