Scientists at the US Department of Energy's Pacific Northwest National Laboratory estimated that droplets encased in mucus could remain moist for up to 30 minutes and travel up to about 200 feet. "There are reports of people becoming infected with a coronavirus downwind of an infected person or in a room several minutes after an infected person has exited that room," said Leonard Pease, the corresponding author of the study.
"The idea that enveloped virions may remain well hydrated and thus fully infective at substantial distances is consistent with real-world observations. Perhaps infectious respiratory droplets persist longer than we have realised," Pease added. The findings were published in the journal International Communications in Heat and Mass Transfer.
The team analysed the mucus that coats the respiratory droplets that people spew from their lungs. Scientists know that mucus allows many viruses to travel further than they otherwise would, enabling them to journey from one person to another. Conventional wisdom has been that very small, aerosolised droplets of just a few microns, like those produced in the lungs, dry out in the air almost instantly, becoming harmless. But the team found that mucus changes the equation.
The team found that the mucus shell that surrounds respiratory droplets likely reduces the evaporation rate, increasing the time that viral particles within the droplets are kept moist. Since enveloped viruses like SARS-CoV-2 have a fatty coating that must be kept moist for the virus to be infectious, the slower evaporation allows viral particles to be infectious longer. "While there have been many factors proposed as variables in how Covid spreads," said Pease, "mucus remains largely overlooked."