Scientific Reports (Dec 2023)

Metagenomic sequencing detects human respiratory and enteric viruses in air samples collected from congregate settings

  • Nicholas R. Minor,
  • Mitchell D. Ramuta,
  • Miranda R. Stauss,
  • Olivia E. Harwood,
  • Savannah F. Brakefield,
  • Alexandra Alberts,
  • William C. Vuyk,
  • Max J. Bobholz,
  • Jenna R. Rosinski,
  • Sydney Wolf,
  • Madelyn Lund,
  • Madison Mussa,
  • Lucas J. Beversdorf,
  • Matthew T. Aliota,
  • Shelby L. O’Connor,
  • David H. O’Connor

DOI
https://doi.org/10.1038/s41598-023-48352-6
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 10

Abstract

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Abstract Innovative methods for evaluating virus risk and spread, independent of test-seeking behavior, are needed to improve routine public health surveillance, outbreak response, and pandemic preparedness. Throughout the COVID-19 pandemic, environmental surveillance strategies, including wastewater and air sampling, have been used alongside widespread individual-based SARS-CoV-2 testing programs to provide population-level data. These environmental surveillance strategies have predominantly relied on pathogen-specific detection methods to monitor viruses through space and time. However, this provides a limited picture of the virome present in an environmental sample, leaving us blind to most circulating viruses. In this study, we explore whether pathogen-agnostic deep sequencing can expand the utility of air sampling to detect many human viruses. We show that sequence-independent single-primer amplification sequencing of nucleic acids from air samples can detect common and unexpected human respiratory and enteric viruses, including influenza virus type A and C, respiratory syncytial virus, human coronaviruses, rhinovirus, SARS-CoV-2, rotavirus, mamastrovirus, and astrovirus.