Seals and sea birds share a beach

A seal may contract the virus if it comes in contact with a sick bird’s excrement or water contaminated by that excrement. Seals and sea birds have environmental contact, if not direct contact, since they share the same water and shoreline. Photo: Milton Levin / Permit # NMFS 21719-01

Bird Flu Associated with Hundreds of Seal Deaths in New England in 2022, Tufts Researchers Find

A new study from Cummings School of Veterinary Medicine is the first to connect highly pathogenic avian influenza to a large scale mortality event in wild mammals

Researchers at Cummings School of Veterinary Medicine at Tufts University found that an outbreak of highly pathogenic avian influenza (HPAI) was associated with the deaths of more than 330 New England harbor and gray seals along the North Atlantic coast in June and July 2022, and the outbreak was connected to a wave of avian influenza in birds in the region.

The study was published on March 15 in the journal Emerging Infectious Diseases.

HPAI is more commonly known as bird flu, and the H5N1 strain has been responsible for about 60 million poultry deaths in the U.S. since October 2020, with similar numbers in Europe. The virus was known to have spilled over from birds into mammals, such as mink, foxes, skunk, and bears, but those were mostly small, localized events. This study is among the first to directly connect HPAI to a larger scale mortality event in wild mammals.

The co-first authors on the paper—virologist and senior scientist Wendy Puryear and post-doctoral researcher Kaitlin Sawatzki, who both work in the Runstadler Lab at Cummings School—have been researching viruses in seals for years. They credit their findings in the new study to a unique and robust data set made possible by a collaboration with wildlife clinics and rehabilitation and response organizations in the region, in particular with Tufts Wildlife Clinic and director Maureen Murray, V03, associate clinical professor at Cummings School, and an author on the paper.

“We have a better resolution and greater depth of detail on this virus than before because we were able to sequence it and detect changes almost in real time,” said Puryear. “And we have pairings of samples, sometimes literally from a bird and a seal on the same beach.”

The clinic has been conducting avian influenza surveillance on birds and some mammals since January 2022, shortly after this strain of avian influenza took a trans-Atlantic journey from Europe into the U.S. Through this testing, the team found a wide range of flu viruses, including at least three strains that crossed the Atlantic, and they witnessed consistent waves of infection in birds.

At the same time, in collaboration with NOAA’s Greater Atlantic Region Marine Mammal Stranding Network, they were able to screen nearly all seals that came through the network, whether or not the animal appeared sick. The stranding network is composed of experts from state and federal wildlife and fisheries agencies, non-profit rehabilitation and response facilities, aquariums, and academic institutions who respond to strandings.

“Because of the genetic data that we gathered, we were the first to see a strain of the virus that's unique to New England. The data set will allow us to more meaningfully address questions of which animals are passing the virus to which animals and how the virus is changing,” said Sawatzki.

How HPAI Is Transmitted

In addition to poultry, H5N1 also has had a huge impact on wild birds, especially sea birds. Multiple locations around the globe have experienced large die-offs, such as recently in Peru, where the virus killed 60,000 pelicans, penguins, and gulls.

At the time of the seal mortality event in New England, the virus was hitting gulls particularly hard, the researchers found. There are lots of ways gulls and other birds may transmit the virus to seals, they said. Seals and sea birds are coastal animals living in the same areas that have environmental contact, if not direct contact, since they share the same water and shoreline. A seal may contract the virus if it comes in contact with a sick bird’s excrement or water contaminated by that excrement, or if it preys upon an infected bird.

The accepted knowledge is that H5N1 is nearly 100% fatal for domestic and wild birds other than waterfowl, and the same is proving true when it comes to spillover in wild mammals. All the seals that tested positive for HPAI were deceased at the time of sampling or succumbed shortly after. None of the animals that tested positive recovered. However, it’s possible some asymptomatic or recovered cases never came into the stranding networks.

In addition to the seal mortality event in New England, which was the first time H5N1 was detected in marine mammals in the wild, other locations have lost marine mammals to the virus. Peru announced about 3,500 sea lions died from the virus, Canada reported a seal mortality event along the St. Lawrence Estuary, and there was a similar event with seals in the Caspian Sea, according to news reports from Russia.

A hotly debated topic among scientists is whether there has been mammal-to-mammal transmission of HPAI between seals.

“It's not surprising that you might have transmission between the seals, because it has happened with low pathogenic avian influenza,” said Puryear. “However, we can't say definitively whether or not there has been mammal-to-mammal transmission of HPAI.”

“To get strong evidence of mammal-to-mammal transmission, you need two things: lots of infected animals and time,” explained Sawatzki. “Time for the virus to mutate, and time for the mutated virus to be transmitted to another seal. As the virus acquires mutations, we can see shared mutations in the sequences that are specific only to mammals and that haven’t been seen in a bird before. We had the numbers, but this outbreak didn't last long enough to provide evidence for seal-to-seal transmission.”

Senior scientist Wendy Puryear and senior research technician Alexa Foss, a co-author on the paper, were geared up and ready to gather samples from seals.

Senior scientist Wendy Puryear and senior research technician Alexa Foss, a co-author on the paper, were geared up and ready to gather samples from seals. Photo: Milton Levin / Permit # NMFS 21719-01

The research team found evidence that the virus mutated in a small number of seals. But fortunately, they have not seen a case of bird flu in seals along the Atlantic coast since the end of last summer. However, stranding season is about to start for harbor seals and gray seals, so they are bracing themselves for what might happen.

Prevention and Risk to Humans

The risk to the public remains low, according to the Centers for Disease Control and Prevention. Since December 2021, less than 10 human cases of H5N1 have been reported globally, and those cases occurred in people with direct exposure to infected poultry. There are no documented cases of human transmission for this variant.

However, there is the possibility it could become a larger issue for human health. Avian influenza emerged in 1996, and since 2003, 868 cases of human infection with H5N1 have been reported worldwide, according to the World Health Organization. Of those, 457 were fatal, roughly a 50% fatality rate.

“And that’s why people get nervous about it,” Puryear said.

There is a single-dose vaccine available for poultry, but it’s not currently administered on a large scale—in part because of cost and logistics, and in part because there’s some concern it may make future surveillance of the virus more difficult. There’s not much that can be done in terms of responding to the virus for wildlife, particularly given the scale at which infection is occurring.

Biosecurity is important in limiting the ways in which the virus can spread between and within species, the researchers said. For example, wild birds should be kept separate from domestic birds, such as backyard chickens. In addition, thorough and timely surveillance of domestic animals and wildlife is key to understanding how the virus is evolving to prepare the best possible vaccines and treatments.

"This critical research exemplifies Tufts University's commitment to animal health and public health, and it demonstrates the strength of our research collaborations with other institutions," said Bernard Arulanandam, vice provost for research at Tufts and professor of immunology. "It's one of many ways that Tufts is helping to prevent the next pandemic."

Citation: Research reported in this article was supported by the National Institutes of Health’s National Institute of Allergy and Infectious Disease under award 75N93021C00014. Complete information on authors, funders, and conflicts of interest is available in the published paper.

DISCLAIMER: The content is solely the responsibility of the authors and does not necessarily represent the official views of the funders.

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