White-tailed deer across Ohio have been infected with the virus that causes COVID-19, new research has found – and the results also show that viral variants evolve about three times faster in deer than in humans.
Scientists collected 1,522 nasal swabs from free-ranging deer in 83 of the state’s 88 counties between November 2021 and March 2022. More than 10% of the samples were positive for the SARS-CoV-2 virus, and at least one positive case was found in 59% of the counties in which testing took place.
Genomic analysis showed that at least 30 infections in deer had been introduced by humans – a figure that surprised the research team.
“We generally talk about interspecies transmission as a rare event, but this wasn’t a huge sampling, and we’re able to document 30 spillovers. It seems to be moving between people and animals quite easily,”
said Andrew Bowman, associate professor of veterinary preventive medicine at The Ohio State
University and co-senior author of the study.
“And the evidence is growing that humans can get it from deer – which isn’t radically surprising. It’s
probably not a one-way pipeline.”
The combined findings suggest that the white-tailed deer species is a reservoir for SARS-CoV-2 that
enables continuing mutation, and that the virus’s circulation in deer could lead to its spread to other
wildlife and livestock.
The study is published today in Nature Communications.
Bowman and colleagues previously reported detection of SARS-CoV-2 infections in white-tailed deer in
nine Ohio locations in December 2021, and are continuing to monitor deer for infection by more recent
variants.
“We expanded across Ohio to see if this was a localized problem – and we find it in lots of places, so it’s
not just a localized event,” Bowman said. “Some of the thought back then was that maybe it’s just in urban deer because they’re in closer contact with people. But in rural parts of the state, we’re finding plenty of positive deer.”
Beyond the detection of active infections, researchers also found through blood samples containing
antibodies – indicating previous exposure to the virus – that an estimated 23.5% of deer in Ohio had been infected at one time or another.
The 80 whole-genome sequences obtained from the collected samples were represented groups of viral
variants: the highly contagious delta variant, the predominant human strain in the United States in the
early fall of 2021 that accounted for almost 90% of the sequences, and alpha, the first named variant of
concern that had circulated in humans in the spring of 2021.
The analysis revealed that the genetic composition of delta variants in deer matched dominant lineages
found in humans at the time, pointing to the spillover events, and that deer-to-deer transmission followed in clusters, some spanning multiple counties.
“There’s probably a timing component to what we found – we were near the end of a delta peak in
humans, and then we see a lot of delta in deer,” Bowman said. “But we were well past the last alpha
detection in humans. So the idea that deer are holding onto lineages that have since gone extinct in
humans is something we were worried about.”
The study did suggest that COVID-19 vaccination is likely to help protect people against severe disease in
the event of a spillover back to humans. An analysis of the effects of deer variants on Siberian hamsters,
an animal model for SARS-CoV-2 studies, showed that vaccinated hamsters did not get as sick from
infection as unvaccinated animals.
That said, the variants circulating in deer are expected to continue to change. An investigation of the mutations found in the samples provided evidence of more rapid evolution of both alpha and delta
variants in deer compared to humans.
“Not only are deer getting infected with and maintaining SARS-CoV-2, but the rate of change is
accelerated in deer – potentially away from what has infected humans,” Bowman said.
How the virus is transmitted from humans to white-tailed deer remains a mystery. And so far, even with
about 30 million free-ranging deer in the U.S., no substantial outbreaks of deer-origin strains have
occurred in humans.
Circulation among animals, however, remains highly likely. Bowman noted that about 70% of free-ranging deer in Ohio have not been infected or exposed to the virus, “so that’s a large body of naive animals that the virus could spread through rather uninhibited.”
“Having that animal host in play creates things we need to watch out for,” he said. “If this trajectory
continues for years and we have a virus that becomes deer-adapted, then does that become the pathway
into other animal hosts, wildlife or domestic? We just don’t know.”
This work was supported by the National Institute of Allergy and Infectious Diseases and Ohio State’s
Infectious Diseases Institute.
Martha Nelson of the National Library of Medicine was co-corresponding author of the study. Ohio State
co-authors Dillon McBride, Steven Overend, Devra Huey, Amanda Williams, Seth Faith and Jacqueline
Nolting worked on the study with co-authors from St. Jude Children’s Research Hospital; the University
of California, Los Angeles; the National Research Centre in Giza, Egypt; PathAI Diagnostics; the Ohio
Department of Natural Resources; the U.S. Department of Agriculture; Columbus and Franklin County
Metroparks; and the Rega Institute for Medical Research in Belgium.