Category: Flu Virus

In the perpetual battle against influenza, a virus that mutates with a cunning persistence, a groundbreaking discovery emerges from the laboratories of the National Institutes of Health (NIH). Scientists have identified antibodies that home in on a previously underexplored region of the influenza virus, referred to as its 'dark side'. This revelation is not just a scientific curiosity but a beacon of hope for the development of broad-spectrum influenza countermeasures that could one day render the annual flu season less of a global health menace.

The 'dark side', located on the neuraminidase (NA) protein of the influenza virus, has remained largely uncharted territory until now. Researchers at the National Institute of Allergy and Infectious Diseases' Vaccine Research Center, part of NIH, have successfully isolated human antibodies from individuals who had recovered from H3N2 influenza, a particularly virulent strain. These antibodies have a unique ability to inhibit virus propagation across various influenza subtypes and offer protection in animal models, both before and after infection. This approach targets a conserved region across many influenza viruses, including the H3N2 subtype, potentially paving the way for vaccines and therapies that are effective against a wide range of influenza viruses, including those with drug-resistant mutations.

The implications of this discovery are vast. By targeting the NA protein's 'dark side', scientists hope to develop influenza vaccines that do not require yearly reformulation, a current necessity given the flu virus's ability to rapidly evolve. This could not only improve vaccine effectiveness but also significantly enhance global preparedness for flu seasons and potential pandemics. Moreover, the identification of these unique epitopes opens new avenues for therapeutic strategies, offering hope for more effective treatments for those infected by the virus.

This breakthrough is a testament to the importance of advanced microscopy techniques, which have allowed researchers to analyze the structure of antibodies bound to the NA 'dark side', revealing multiple target areas within this region. However, the journey doesnt end here. The global impact of influenza, causing millions of illnesses and deaths annually, underscores the need for continuous research and innovation. The study, published in the journal Immunity, is a significant step forward but also a reminder of the challenges that lie ahead in the quest to outsmart influenza.

As researchers continue to explore the depths of the influenza virus, the identification of the 'dark side' of the NA protein offers a promising new frontier in the development of vaccines and treatments. This breakthrough could mark the beginning of a new era in influenza prevention, one where the annual flu season could be met with unprecedented confidence in our ability to protect global public health.

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NIH Scientists Unveil Groundbreaking Discovery in Influenza Research: Targeting the Virus's 'Dark Side' - Medriva

If you've been bit by a stomach bug lately, you're not alone. The Centers for Disease Control and Prevention (CDC) is reporting significant norovirus activity across the country, especially in the West and Northeast.

The latest trend reports show that in the West region, more than 12% of tests for norovirus were coming back positive, while that number was more than 13% in the Northeast. Activity in the Midwest and Southern regions was slightly lower, with around 10% of tests coming back positive.

Norovirusesare usually more widespread in the fall and winter, but you can get sick from the virus any time of the year. The Centers for Disease Control and Prevention (CDC) says norovirus is theleadingcause of vomiting and diarrhea from acute gastroenteritis in the U.S.

Norovirus infection, sometimes referred to as stomach flu, is unrelated to the flu caused by the influenza virus.Dr. Nipunie Rajapakse,apediatric infectious diseases physician with theMayo Clinic Children's Center, says it's a virus that causesgastroenteritis.

"Norovirus is a type of virus that causes gastroenteritis or stomach flu. Usually, it presents with symptoms like vomiting and diarrhea. Most healthy people will have recovery over a few days. But for people with a weakened immune system, for example, their symptoms can last longer than that," she says.

Watch: Dr. Nipunie Rajapakse explains norovirus and how to avoid it

Journalists: Broadcast-quality sound bites are available in the downloads at the end of the post. Please courtesy: "Mayo Clinic News Network." Name super/CG: Nipunie Rajapakse, M.D./Pediatric Infectious Diseases/Mayo Clinic.

Dehydration is a concern, especially for young children, older adults, and those with other health issues or who are pregnant. Those symptoms can include decreased urination, dry throat and mouth, and feeling dizzy when standing up.

"Norovirus is spread through contact with the virus. People sick with norovirus shed the virus in high amounts in their vomit and stool, so coming into contact with the virus is how you get sick. This can be through direct contact or through contaminated food, or you can pick it up from a surface. That's why hand-washing is important and the best way to prevent getting sick with norovirus," says Dr. Rajapakse.

The CDC says that around half of food-related sickness outbreaks caused by norovirus are linked to restaurants or food-related environments. This happens when infected food workers and staff touch food or when it is contaminated.

Dr. Rajapakse saysfood that is contaminated with norovirus usually looks, smells and tastes normal so it can be difficult to tell it is contaminated.

Norovirus can quickly spread, especially in confined spaces, such as day care centers, nursing homes, schools and cruise ships. These viruses are tough to eliminate since they can endure high and low temperatures and most disinfectants.

"One of the common places that we see norovirus outbreaks occur is in close confined settings, like cruise ships, for example, where you have a lot of people eating from the same places and living in close proximity to each other," says Dr. Rajapakse. "Even one case of norovirus on a cruise ship can spread quickly to others there. That's why it's crucial to make sure that you're washing your hands well, especially before you eat."

Antibiotics won't help because it's a viral infection, not bacterial. The best protection is prevention.

Tips to prevent the spread of norovirus:

And use caution when traveling. The CDC tracks outbreaks of norovirus and other diseases. You can learn more on their website.

The CDC says outbreaks from norovirus are usually more common in the winter months. In countries above the equator, outbreaks are most common from November to April, while they are most common from May to September in countries below the equator.

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Norovirus: What to know and how to avoid it - Mayo Clinic

A deadly type of bird flu has been confirmed on the mainland of Antarctica for the first time, scientists said, a potential risk for the southern region's huge penguin colonies.

"This discovery demonstrates for the first time that the Highly Pathogenic Avian Influenza virus has reached Antarctica despite the distance and natural barriers that separate it from other continents," Spain's Higher Council for Scientific Investigation (CSIC) said on Sunday.

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The presence of the virus was confirmed on Saturday (February 24) in samples of dead skua seabirds that were found by Argentine scientists near the Antarctic base Primavera, CSIC added.

The confirmed case on the Antarctic peninsula, coming after cases on islands nearby, including amongst gentoo penguins, highlights the risk to colonies in the region to the H5N1 avian flu that has decimated bird populations around the world in recent months.

"Analysis has conclusively shown that the birds were infected with the H5 subtype of avian influenza and at least one of the dead birds contained the highly pathogenic avian influenza virus," CSIC said in a statement.

Argentina's Antarctic Institute on Monday said that the South American country had worked with Spanish researchers to test samples from dead birds found earlier in the year near the Argentine base, which confirmed the presence of the virus.

Hundreds of thousands of penguins gather in tightly packed colonies on the Antarctic continent and nearby islands, which could enable the deadly virus to easily spread.

Data from the Scientific Committee on Antarctic Research also showed a now-confirmed case at the research base.

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Karishma Saurabh Kalita

Published On:

Feb 27, 2024

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Scientists find bird flu virus for first time in mainland Antarctica - India Today

Avian influenza, also known as the bird flu virus, is ravaging the storied swans of Lake Eola.

City officials say two of the birds, a Royal Mute swan and an Australian black swan, have tested positive for the virus after being found dead in the park. Just this past weekend, the discoveries of two dead black-necked swans pushed the death toll further.

The city is awaiting results of necropsies for the second pair, although officials believe criminal activity resulted in at least one of the birds deaths. Police are actively investigating.

Ashley Papagni, a spokeswoman for the city, said it is taking precautions to limit the spread of the virus, which can be transmitted from wildlife to people in rare instances. Symptoms resemble those of the common flu, but rarely result in death for humans, according to the Centers for Disease Control and Prevention.

For birds, the virus is almost always fatal.

In an abundance of caution, the city has proactively disinfected multiple surfaces throughout the park and will continue to do so during this time, Papagni said in an email. The city has also advised its staff to take further precautions, such as washing shoes, uniforms and equipment, like bike tires.

Concern over the well-being of the swans in Lake Eolawho number more than 60began two weeks ago when city workers discovered several different dead birds in the park. That set off alarms because the virus is highly contagious.

The city said it is following the guidance of the Florida Fish and Wildlife Conservation Commission as well as local veterinarians as it seeks to limit the spread.

Parkgoers are strongly advised to avoid direct contact with the birds at Lake Eola Park during this time. People and their pets should observe birds from a distance and avoid contact with any excrement from birds, Papagni said. Its also recommended that people who visit the park remove their shoes when entering their homes and clean their shoes carefully but thoroughly if contamination is suspected.

The FWC said the best course of action, considering the size of the park and its bird population, is to allow the Avian Influenza to run its course as some birds may build immunity. The agency estimates it will take a month before the infections dissipate.

The city will continue to actively track, monitor and report any new infections to FWC and remain vigilant in our efforts related to disinfecting the park,Papagni said.

The swans swimming or waddling beneath the trees at Lake Eola are a treasured experience for parkgoers. The population was established beginning in 1922, according to the city, and includes five of the six known species of swans: trumpeter swans, black-necked swans, whooper swans, Royal Mute swans and Australian black swans. The city later added swan-shaped paddle boats to the lake to capitalize on the birds popularity.

Individual swans have become especially popular, like Queenie once Lake Eolas only black-necked swan before having three black-necked babies.

City officials reassured the Sentinel that Queenie is alive and uninfected, to their knowledge. Unfortunately, two of her offspring have died.

Orlandos quest to find Queenie a mate in 2019 drew excited reactions from bird-loving residents and visitors. They followed along as she tested out companions, and the frenzy fueled an initiative called Swan-A-Thon encouraging residents to contribute funds for the care of the swans through the nonprofit Orlando Community Youth Trust.

This is a developing story.

arabines@orlandosentinel.com

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Bird flu is killing the swans of Orlando's Lake Eola - Orlando Sentinel

Bird flu has reached mainland of Antarctica for the first time, officials have confirmed.

The H5N1 virus was found on Friday in two dead scavenging birds called skuas near Primavera Base, the Argentinian scientific research station on the Antarctic peninsula.

Additional suspected cases have been reported in brown skua, south polar skua and kelp gull in Hope Bay, also on the Antarctic peninsula, according to data from the Scientific Committee on Antarctic Research.

This discovery demonstrates for the first time that the highly pathogenic avian influenza virus has reached Antarctica, despite the distance and natural barriers that separate it from other continents, said a Spanish government report on Sunday.

These are the first confirmed cases on the continent itself, which shows the virus is spreading in the region, most likely via migratory birds. This H5N1 outbreak is thought to have killed millions of wild birds globally since 2021, and has spread to every continent except Oceania.

Avian flu reached the wider Antarctic region in October last year when it was reported on sub-Antarctic islands. The virus was first detected on the British overseas territory of South Georgia and the South Sandwich Islands, about 1,000 miles (1,600km) away from the continent of Antarctica. It was also found in the Falkland Islands, which is 600 miles north-west of South Georgia.

Initially it was reported in birds such as gulls, skuas and terns, but has since been found in albatross, penguins and southern fulmars. It has also spread to Antarctic mammals, with mass deaths of elephant seals and fur seals. The virus is also ripping through wildlife populations in the Arctic. In December, it was confirmed that the first polar bear had died of H5N1.

There are many reports now of highly pathogenic avian influenza (HPAI) affecting several species in the Antarctic regions this season, said Matthew Dryden from the UK Health Security Agency. It may not have been reported on the Antarctic mainland until now because of the difficulties of accessing and sampling wildlife [there].

The dead birds from mainland Antarctica were found by Argentinian scientists and sent to scientists from the Centro de Biologa Molecular Severo Ochoa in Madrid, who were working at the Spanish Antarctic base on Deception Island.

The problem is how long is it going to take before it transmits to other species like penguins. We need to monitor that, said Antonio Alcam, a researcher from the Spanish National Research Council who works at the Centro de Biologa Molecular Severo Ochoa CSIC, who is based at the Spanish Antarctic base and tested the carcasses. Im afraid I think it probably will transmit into penguins. The skuas live pretty close, and so there are many opportunities for transmission, but we will see.

Previous outbreaks in South Africa, Chile and Argentina have shown that penguins are susceptible to the virus. Since H5N1 arrived in South America, more than 500,000 seabirds have died of the disease, with penguins, pelicans and boobies among the most heavily affected.

Researchers wrote in a pre-print research paper in November last year: If the virus does start to cause mass mortality events across penguin colonies, it could signal one of the largest ecological disasters of modern times.

Diana Bell, the emeritus professor of conservation biology at the University of East Anglia, said the news was sadly not surprising, given its previously reported presence on Antarctic islands in birds and elephant seals. It seems unlikely that the penguins there will not be infected.

Dryden added: Biosecurity is important so that humans are not exposed to the virus. HPAI can rarely infect humans but close, prolonged contact is required.

While a number of wildlife sites had been closed to tourists to limit spread of the virus, Dryden said, little else could be done to stop it spreading. Nothing more can be done to limit transmission in wildlife and the outbreak will have to resolve naturally.

Find more age of extinction coverage here, and follow biodiversity reporters Phoebe Weston and Patrick Greenfield on X for all the latest news and features

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Scientists confirm first cases of bird flu on mainland Antarctica - The Guardian

A Spanish-led research team yesterday announced that highly pathogenic H5 avian flu has been confirmed for the first time on Antarctica's mainland, according to an announcement from Spain's ministry of science, innovation, and universities.

Part of a southward spread over the past year, the virus had previously been found in birds and sea mammals in sub-Antarctic areas, including the South Georgia and the South Sandwich Islands. And in late January, H5N1 was detected for the first time in Antarctic penguins, which were found dead off the Falklands Islands coast.

The latest detection came from scientists at the Severo Ochoa Biology Center, part of the Spanish science ministry's Higher Council for Scientific Research. The group is based at Spain's Antarctic research base, called Gabriel de Castilla on Deception Island.

The researchers found the virus in two dead skuas that Argentinan scientists collected near Argentina's Antarctic research base, Primavera, which is on the northern tip of Antarctica's mainland. Skuas are large seabirds that breed in sub-Antarctic and Antarctic zones and move farther north when not breeding.

Spain's science ministry said the confirmation was made possible by international collaboration and that the discovery will help the national polar programs take steps to avoid transmitting the virus from people to animals and from animals to people.

"This discovery demonstrates for the first time that the Highly Pathogenic Avian Influenza virus has reached Antarctica despite the distance and natural barriers that separate it from other continents," the group said. "This finding could also explain the bird deaths recorded during the Antarctic summer."

Over the past several months, animal health groups have warned about the threat of further spread of H5N1 to Antarctica's wildlife, especially since they haven't been exposed to the virus before and often live in densely packed colonies.

The US Department of Agriculture (USDA) Animal and Plant Health Inspection Service (APHIS) reported more highly pathogenic avian flu outbreaks in poultry flocks in five states, according to its latest updates.

The virus struck three turkey farms and a layer farm in Missouri's Dallas County.

Also, outbreaks were reported in backyard flocks in Indiana, New York, Maryland, and Ohio.

Overseas, outbreaks continue, including in Europe, where recent events involving poultry were reported from a number of countries, according to notifications posted by the World Organization for Animal Health (WOAH). Norway reported an H5N1 outbreak at a commercial farm in Rogaland County in the western region. Italy reported the virus at a farm in Veneto region. Moldova also reported another event. Norway also reported an H5 detection in a red fox found in Skibotn in Trom County in the north, according to a WOAH notification.

Peru recently reported a highly pathogenic H5 outbreak at a commercial layer farm in La Libertad in the northwest.

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Avian flu reaches Antarctica's mainland | CIDRAP - University of Minnesota Twin Cities

For the first time ever, a deadly strain of avian flu has been detected on the Antarctic mainland, raising concerns for the penguin colonies inhabiting the region.

According to aSpanish-led research team, the highly pathogenic avian influenza virus (HPAI) was identified on Feb. 24 in two samples taken from dead skua seabirds found by Argentine scientists near the Primavera Antarctic base.

This discovery demonstrates for the first time that the Highly Pathogenic Avian Influenza virus has reached Antarctica despite the distance and natural barriers that separate it from other continents, scientists from the Severo Ochoa Molecular Biology Center of the Higher Council for Scientific Research statedin a press release.

In the past year, the virus has been spreading across the world in both avian and mammals such as seals, polar bears and elephants. In late January, it was detected for the first time in Antarctic penguins found dead off the Falkland Islands coast but not in the actual Antarctic territory.

This highly contagious virus has led to thedeaths of millionsof birds worldwide due to its rapid spread. Scientists warn that it poses a significant threat to Antarctica's wildlife because the region's penguins, which haven't been exposed to the virus before, typically reside closely together in colonies, making it easier to spread to a higher number more quickly.

You have these massive, densely packed together bird colonies and some of those megacharismatic, highly threatened species, which are all packed together down there, Christian Walzer, a wildlife veterinarian and executive director of health at the Wildlife Conservation Society told theScientific American. If [a virus outbreak] does hit, the impacts will be potentially really devastating ... Entire populations may disappear ... This would be a catastrophe.

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Deadly bird flu hits Antarctica for first time, threatening penguins - WGBA NBC 26 in Green Bay

A study conducted at Harvard Medical School in association with Massachusetts General Hospital, USA, finds that influenza vaccination in October has the most protective efficacy against seasonal influenza infection in young children.

The study is published in the British Medical Journal.

Study: Optimal timing of influenza vaccination in young children: population based cohort study. Image Credit:Ira Lichi/ Shutterstock

Recent guidelines by the US Centers for Disease Control and Prevention (CDC) advise administering influenza vaccination among children and older adults in September or October to maximize its protective efficacy against seasonal influenza virus infection.

Administering the vaccine too early, i.e., in the summer months, may lead to the waning of vaccine efficacy during the upcoming influenza season (September to May). Similarly, delaying vaccination may result in exposure to the circulating influenza virus without gaining vaccine-induced immunity.

The timing of influenza vaccination is particularly vital for young children who are at higher risk of severe infections and related hospitalization. Young children primarily receive vaccines during protective care visits, which are often purposefully scheduled around their birthdays. Thus, a child's birthday is likely to impact the timing of influenza vaccination.

In this study, scientists have analyzed the rate of influenza diagnosis among vaccinated children to determine optimal vaccination timing.

The study population included commercially insured children aged 2 5 years who received influenza vaccination between 2011 and 2018. Only children with birthdays between August 1 and January 31 were included because these children are expected to have their birthday influence on the timing of influenza vaccination.

The participants' medical data were collected from the MarketScan Research Database, which contains insurance claims of approximately 30 40 million commercially covered Americans. Confounding factors that were considered in the analysis included age, sex, healthcare use, and medical comorbidities of the child, number of beneficiaries on the same policy, and medical comorbidities and healthcare use of family members.

Data were analyzed to determine the optimal timing of influenza vaccination and its impact on the rate of influenza diagnosis among vaccinated young children.

A total of 819,223 children who received influenza vaccination between August and January of a given influenza season were included in the analysis. A similar pattern of vaccination timing and a differential pattern of influenza diagnosis timing was observed in the study.

The analysis of medical data revealed that the majority of children received influenza vaccination in October. The lowest possibility of influenza diagnosis was observed among children who received vaccination in November or December, as compared to those vaccinated in other months.

As mentioned by the scientists, the timing of vaccination may be influenced by many confounding factors. Thus, they could not derive a causal relationship between vaccination timing and influenza diagnosis. Instead, they assessed relationships between birth month, the timing of preventive care visits and vaccination, and the risk of influenza infection.

Birth month and vaccination timing

About 90% of enrolled children who received vaccination during August-January had a preventive care visit during that period. Among children aged 2 years, 3 years, 4 years, and 5 years, about 56%, 59%, 51%, and 41% had a visit in the two weeks around their birth months, respectively. The majority of these children received vaccination on the day of the preventive care visit.

In contrast, a lower probability of receiving the vaccine on the preventive care visit day was observed for children born in December or January. One possible reason could be that many of these children may have received the vaccine earlier in the fall.

A variation in vaccination timing was observed across birth months. The average duration between birth month and vaccination timing was 10 weeks for August-born children, 12 weeks for October-born children, and 14 weeks for December-born children. Children born in October showed a significantly higher probability of being vaccinated in the same month compared to children born in other months.

Birth month and influenza diagnosis

The lowest rate of influenza diagnosis was observed for children born in October. Specifically, the average infection diagnosis rate across influenza seasons was 3% for August-born children, 2.7% for October-born children, and 2.9% for December-born children.

The study finds that October-born children are most likely to be vaccinated against the influenza virus in the month of October and are least likely to be diagnosed with influenza infection in the following flu season.

These findings support the CDC recommendations that promote October vaccination to prevent influenza outbreaks.

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Study finds October-born kids less likely to catch flu post-vaccination - News-Medical.Net

An apocalyptic mass mortality event that has left thousands of sea lions and elephant seals dead on the beaches of South America is raising alarms among some California sea mammal experts who fear similar scenes could play out along Californias Pacific Coast and other continents as the H5N1 bird flu continues its march across the globe.

The highly pathogenic avian influenza virus has become notorious for its devastating affects on wild and domestic bird populations over the last four years, but only recently has it inflicted so many deaths in a mammal population.

Up until now, the ability of the virus to jump from mammal to mammal has been limited, but the scale of infections and deaths in South America has raised troubling questions about whether something has changed.

While it remains unclear whether this particular strain of H5N1 has improved its ability to pass easily between mammals, such a development would have potentially devastating consquences for endangered and non-endangered species alike.

The disease presents an existential threat to the worlds biodiversity, wrote Chris Walzer, executive director of health for the Wildlife Conservation Society in a January statement, noting that the scene of dead elephant seals could only be described as apocalyptic.

According to the Centers for Disease Control and Prevention, the H5N1 viruses circulating in birds are believed to pose a low risk to the general public in the United States; however, people who have job-related or recreational exposures to infected birds may be at higher risk of infection and should take appropriate precautions outlined in CDC guidance.

The World Health Organization has also deemed the risk of human-to-human transmission to be low, and notes that candidate vaccines have been developed for pandemic preparedness.

Yet the speed with which the virus has destroyed once-thriving animal populations is breathtaking, said Marcela Uhart, a wildlife veterinarian with UC Davis One Health institute, who is based in Argentina.

In October, the mortality rate for newborn elephant seal pups reached 96% on one beach in Argentina astronomically higher than the 0.8% mortality rate observed there in 2022.

Ten days and its done. Theres nothing left alive, Uhart said.

Die-offs have also been observed in South American dolphins and fur seals. And the virus is practically knocking on Antarcticas front door, where more than 100 million birds, including colony-living penguins, and marine mammals congregate.

Theres climate change and habitat destruction, which are taking their toll on the planets wildlife species, said Rebecca Duerr, an avian veterinarian with International Bird Rescue in Long Beach. And then this. Its grim.

In California, some experts say they worry about the vulnerability of sea lions and sea otters.

California has been spared some of the huge die-off events being seen somewhere else in the world. But we still have species that are very vulnerable to it. Were not out of the woods by any stretch of the imagination, Duerr said.

Sea lion pups congregate at a rookery at Boomer Beach, next to Point La Jolla, in San Diego, in August 2020.

(Eduardo Contreras / San Diego Union-Tribune)

Colony nesting of seabirds and breeding of marine mammals occurs all along the California Coast, the Channel Islands and Farallon Islands. They are seasonally populated by such species as terns, sea lions and sea otters, among others.

Theres a whole lot of concern still for what will happen in the bigger picture over time, she said. This summer is breeding season, the time that other areas of the world have seen huge die-offs at breeding colonies.

The effects wouldnt be limited to just the infected animals either, Duerr said. These animals are critical within wider ecosystems. Guano produced from breeding bird colonies provides nutrients for marine invertebrates and fish, for instance.

And if sea otters were to suffer such losses, that would endanger the health of Californias vast kelp forests, which would be left prey to sea urchins, said Christine Johnson, professor of epidemiology and ecosystem health at UC Davis.

And although Southern and Northern hemisphere populations of marine mammals dont have much, if any contact, Johnson said the world is changing so quickly, we cant really be sure about anything.

The distribution of marine species is largely dictated on where their food goes, which itself is dictated by ocean trends and warming, Johnson said. Are there species that are now overlapping that hadnt been before, based on climate or other factors?

She said forces such as climate change and habitat destruction could have played a role in the virus geographical expansion, as well as its initial and sustained grasp on wildlife.

Theres increasing evidence that pandemics that come from wildlife, in particular, are increasing in frequency, Johnson said. Theres not a lot of segregation or separation between wild animals and their pathogens and domestic animals and people.

Until recently, highly pathogenic avian influenza, or HPAI, was considered strictly a poultry disease. It would flare up here and there primarily in Asia and get stomped out quickly by killing all the birds on an infected farm.

But in 2002, the virus jumped to wild birds, and in 2005, it had spread to Eastern Europe, where seven people were infected after de-feathering wild swans. Four of the people died. Nine years later, the disease reached North America presumably via Alaska, where birds from around the world migrate and feast during the summer. And although it died down for a bit in Canada and the U.S. flaring up occasionally in Asia, Europe and Africa it came back with a vengeance in 2021.

Since that time, not only have hundreds of millions of domestic birds been culled, but countless numbers of wild birds and animals have contracted the virus.

Julianna Lenoch, the national coordinator of wildlife services for the U.S. Department of Agricultures Animal and Plant Health Inspection Service, said that while scientists are waiting for genetic information from South America, there is no evidence that is of high concern yet in the United States, but I think watching mammal spillover and potential mammalian spread is something the global community is looking for.

The agency routinely samples wild birds, and only samples mammals in which there is suspicion.

We pick them up from state agencies or wildlife rehabilitation facilities or from someone who has an indication of suspicion ... so, what we have is probably an undercount, she said.

But so far, the situation in North America is different from the craziness being seen in South America.

In the United States and Canada, the only mammals that have gotten the disease such as foxes, skunks, coyotes and bears are those known to scavenge on dead birds. There is no indication there is any mammal-to-mammal passage.

Sea otters relax in the Morro Bay marina. Some marine mammal experts worry that the furry mammals may be vulnerable to the spreading H5N1 bird flu.

(Marc Martin / Los Angeles Times)

But North American animals may also share a defense that South American wildlife does not.

Because the virus has had a presence in North America since 2014, most of the continents wildlife has some sort of base immunity to influenza, said Deborah Fauquier, a veterinary medical officer with the National Oceanic and Atmospheric Administration. They have some antibodies. Maybe not the perfect ones ... but theyve seen the virus before.

In South America ... those populations were basically naive, and had not seen high path (influenza) before. ... So they just dont have that type of immunity that we have in our seals as well as our birds, she said.

So, whether the massive marine mammal die-offs are the result of a novel exposure to the disease, or because the virus has acquired the ability to move between mammals, remains unclear.

In either case, however, it does not bode well for wildlife in the last remaining areas of the world where the disease has not been detected: Antarctica and Oceania the region that includes Australia, New Zealand and the surrounding islands.

Uhart said she was setting out in late February to sample animals in Antarctica hitching a ride on a cruise ship. Before tourists are allowed off the boat for a landing, she said, shell go out and do surveillance and make sure everything looks normal; shell also collect samples.

Weve seen it enough, she said. I know really well what it looks like.

Johnson said the nations of the world need to be on heightened surveillance as the virus continues its scourge.

Just as in the case of the coronavirus that caused COVID-19, this flu strain is constantly evolving and changing with new variants appearing all the time. Yet, fatigue is setting in among many governments across the world that have been battling the virus for three or four years now.

Nobody wants to think about or talk about another pandemic, she said. But keeping a handle on its whereabouts and changes is critical for conservation, the ecosystem and human health.

I think countries need to start preparing for the response efforts thats needed for ... big biosafety concerns, she said. It does have a high mortality rate in people and were talking about a lot of virus on the landscape.

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What is driving the spread of avian flu? - Los Angeles Times

Three poultry farms in Dallas County tested positive for Avian Influenza virus, otherwise known as bird flu on Feb. 21, 2024. The USDA has identified the type A virus exposed flocks in the county and is working to prevent further spreading by administering the appropriate. precautions and disposing of the contagious birds.

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Dallas County has three cases of bird flu - Buffalo Reflex