Seismic evidence of the COVID-19 lockdown measures: a case study from eastern Sicily (Italy)

During the COVID-19 pandemic, most countries put in place social interventions, restricting the mobility of citizens, to slow the spread of the epidemic. Italy, the first European country severely impacted by the COVID-19 outbreak, applied a sequence of progressive restrictions to reduce human mobil...

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Bibliographic Details
Published inSolid earth (Göttingen) Vol. 12; no. 2; pp. 299 - 317
Main Authors Cannata, Andrea, Cannavò, Flavio, Di Grazia, Giuseppe, Aliotta, Marco, Cassisi, Carmelo, De Plaen, Raphael S. M, Gresta, Stefano, Lecocq, Thomas, Montalto, Placido, Sciotto, Mariangela
Format Journal Article
LanguageEnglish
Published Gottingen Copernicus GmbH 02.02.2021
Copernicus Publications
Subjects
Analysis
Anthropogenic factors
Case studies
Coronaviruses
COVID-19
Data acquisition
Earth science
Earthquakes
Epidemics
Human influences
Industrial plants
Mobility
Noise
Pandemics
Population density
Roads & highways
Seismic activity
Seismic analysis
Seismic data
Severe acute respiratory syndrome coronavirus 2
Shelter in place
Ships
Time series
Traffic information
Viral diseases
Volcanic activity
Italy
China
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Summary:During the COVID-19 pandemic, most countries put in place social interventions, restricting the mobility of citizens, to slow the spread of the epidemic. Italy, the first European country severely impacted by the COVID-19 outbreak, applied a sequence of progressive restrictions to reduce human mobility from the end of February to mid-March 2020. Here, we analysed the seismic signatures of these lockdown measures in densely populated eastern Sicily, characterized by the presence of a permanent seismic network used for earthquake and volcanic monitoring. We emphasize how the anthropogenic seismic noise decrease is visible even at stations located in remote areas (Etna and Aeolian Islands) and that the amount of this reduction (reaching ∼ 50 %–60 %), its temporal pattern and spectral content are strongly station-dependent. Concerning the latter, we showed that on average the frequencies above 10 Hz are the most influenced by the anthropogenic seismic noise. We found similarities between the temporal patterns of anthropogenic seismic noise and human mobility, as quantified by the mobile-phone-derived data shared by Google, Facebook and Apple, as well as by ship traffic data. These results further confirm how seismic data, routinely acquired worldwide for seismic and volcanic surveillance, can be used to monitor human mobility too.
ISSN:1869-9529
1869-9510
1869-9529
DOI:10.5194/se-12-299-2021