Comparisons of Aerosol Generation Across Different Musical Instruments and Loudness

Jiang-han Tian, Henry E Symons, Natalie Watson, Justice Archer, Lauren P McCarthy, Joshua Harrison, Malcolm S D Kittle, William J Browne, Brian Saccente-Kennedy, Ruth Epstein, Christopher Orton, James Calder, Pallav Shah, Declan Costello, Jonathan P Reid, Bryan R Bzdek*

*Corresponding author for this work

Research output: Contribution to journalArticle (Academic Journal)peer-review

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Abstract

Highlights

•Aerosol number and mass concentrations measured during musical instrument playing.
•A 1 dBA increase in sound pressure level yields ∼10% increase in number concentration.
•Loudness of playing explains some but not all differences across instruments.
•Musical instrument playing size distributions are consistent with those of breathing.
•Simple songs sufficient to characterise aerosol emission during actual performance.


Abstract

Respiratory aerosols can serve as vectors for disease transmission, and aerosol emission is highly activity-dependent. COVID-19 severely impacted the performing arts due to concerns about disease spread by respiratory aerosols and droplets generated during singing and playing musical instruments. Aerosol generation from woodwind and brass performance is less understood compared to singing due to uncertainty about how the diverse range of musical instruments may impact respiratory aerosol concentrations and size distributions. Here, aerosol number and mass concentrations along with size distributions were measured for breathing, speaking, and playing four different woodwind and brass instruments by 23 professional instrumentalists. We find that a 1 dBA increase in sound pressure level corresponds to a ∼10% increase in aerosol number concentration. The aerosol size distribution is consistent with that of breathing. Differences in aerosol emission across musical instruments can be partly explained by the loudness of performance. Measuring aerosol generation from single notes or simple songs may be sufficient to characterise the aerosol emission range during actual performance, provided a range of loudnesses are accessed. These results provide insight into the factors contributing to aerosol emission during musical performance and facilitate risk assessments associated with infectious respiratory disease transmission in the performing arts.
Original languageEnglish
Article number106318
Number of pages13
JournalJournal of Aerosol Science
Volume177
Early online date20 Dec 2023
DOIs
Publication statusPublished - 1 Mar 2024

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