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Transformative Approach To Investigate the Microphysical Factors Influencing Airborne Transmission of Pathogens

Mara Otero-Fernandez, Richard J. Thomas, Henry P. Oswin, Allen E. Haddrell, Jonathan P. Reid

2020Applied and Environmental Microbiology28 citationsDOIOpen Access PDF

Abstract

A transformative approach to identify the physicochemical processes that impact the biological decay rates of bacteria in aerosol droplets is described. It is shown that the evaporation process and changes in the phase and morphology of the aerosol particle during evaporation impact microorganism viability. The equilibrium droplet size was found to affect airborne bacterial viability. Furthermore, the presence of Escherichia coli MRE162 in a droplet does not affect aerosol growth/evaporation but influences the dynamic behavior of the aerosol by processing the culture medium prior to aerosolization, affecting the hygroscopicity of the culture medium; this highlights the importance of the inorganic and organic chemical composition within the aerosolized droplets that impact hygroscopicity. Bacteria also act as crystallization nuclei. The novel approach and data have implications for increased mechanistic understanding of aerosol survival and infectivity in bioaerosol studies spanning the medical, veterinary, farming, and agricultural fields, including the role of microorganisms in atmospheric processing and cloud formation.

Topics & Concepts

AerosolAerosolizationBioaerosolMicroorganismEvaporationBacteriaEnvironmental scienceEnvironmental chemistryChemistryBiologyMeteorologyPhysicsInhalationOrganic chemistryGeneticsAnatomyInfection Control and VentilationIndoor Air Quality and Microbial ExposureInhalation and Respiratory Drug Delivery
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