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Bat-Borne Sarbecoviruses Spilled Over in Southeast Asia Pre-Pandemic

Study Underscores Importance of Surveillance in Rural, High-Risk Areas

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elephant loggers ride atop elephants in Myanmar with logs to the side and forest in background
Elephant loggers bring in a timber harvest in Myanmar. (Tierra Smiley Evans/51ԹϺ Davis)

A virus previously found only in bats was detected in the antibodies of people screened for exposure to sarbecoviruses between 2017 and 2020 in rural Myanmar in Southeast Asia, according to a study from the University of California, Davis and collaborators in Myanmar and Singapore. The work is published in the International Journal of Infectious Diseases.

Sarbecoviruses are a group of coronaviruses. found exposure to diverse sarbecoviruses, including some known to be closely related to SARS-CoV-2, such as RaTG13.

The study found that people were significantly more likely to have been exposed to sarbecoviruses if their livelihood involved working directly with or close to bats, such as logging, hunting or harvesting bat guano.

“This study provides new evidence that bat-borne coronaviruses can and do spill over to people, underscoring the importance of surveillance in high-risk rural areas, where humans and wildlife closely interact,” said lead author Tierra Smiley Evans, an epidemiologist and research faculty with the One Health Institute in the 51ԹϺ Davis School of Veterinary Medicine.

Reconnaissance work

Partnering with local clinics in Myanmar, the study’s scientists screened nearly 700 people for sarbecoviruses between July 2017 and February 2020, before the first reported case of SARS-CoV-2 in Myanmar. They did not detect any active infections. However, 12% of study participants had antibodies in their system indicating they had been exposed to a sarbecovirus in their past.

While both rural and urban residents were tested, only people from rural areas had been exposed, and most of them worked in forested areas and extractive industries, such as mining, logging or hunting. This suggests that newly disturbed, biodiverse environments can increase the risk of wildlife-to-human transmission of viruses.

No wildlife were sampled for the study. Instead, people seeking treatment for fever in rural and urban clinics were enrolled in the surveillance studies, as were patients from clinics near local elephant logging camps. In Myanmar, the traditional method of using elephants to harvest timber is still practiced, so a network of temporary logging villages dots the forest edges. Samples were also collected from healthy people living in regions believed to have high levels of contact with bats.

“It’s like reconnaissance work,” Smiley Evans said. “We get an idea of what’s in the forest by looking at what people have been exposed to, without even going into the forest.”

Evidence of spillover

The study provides epidemiologic and immunologic evidence that zoonotic spillover is occurring.

“Our findings underpin the critical importance of continued surveillance at the rural wildlife-human interface in Southeast Asia, where some of the highest levels of known mammalian diversity exist and where future emergence of zoonotic diseases is likely,” the study said.

The study was funded by the National Institutes of Health, National Institute of Allergy and Infectious Diseases, National Science Foundation, United States Agency for International Development, and the National Medical Research Council Singapore.

Funding newly awarded from the NIH will allow the scientists to further investigate behaviors that contribute to sarbecovirus spillover and strategies to mitigate exposure.

Media Resources

Media Contact:

  • Kat Kerlin, 51ԹϺ Davis News and Media Relations, kekerlin@ucdavis.edu

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