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1 week ago
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Since Covid-19 brought the world to a standstill back in 2020, thoughts have turned to what the next global pandemic could be.
Many scientists are focusing their research on a hypothetical future 'Disease X'.
But according to a new study, the answer could actually lie in the Arctic.
Scientists have warned that melting ice at the North Pole could unleash 'zombie' viruses with the potential to trigger a new pandemic.
These so-called 'Methuselah microbes' can remain dormant in the soil and the bodies of frozen animals for tens of thousands of years.
But as the climate warms and the permafrost thaws, scientists are now concerned that ancient diseases might infect humans.
Co-author Dr Khaled Abass, of the University of Sharjah, says: 'Climate change is not only melting ice—it's melting the barriers between ecosystems, animals, and people.
'Permafrost thawing could even release ancient bacteria or viruses that have been frozen for thousands of years.'
Melting ice and thawing permafrost in the Arctic could release a deadly 'zombie virus' and start the next pandemic, scientists have warned. Pictured: Scientists walk over the thawing Greenland icecap
So-called 'Methuselah microbes' can remain dormant in the soil and the bodies of frozen animals for tens of thousands of years. Scientists have managed to revive some of these ancient diseases in the lab, including this Pithovirus sibericum that was isolated from a 30,000-year-old sample of permafrost
Glaciers can also store huge numbers of frozen viruses. As scientists predict that the world's glaciers will vanish by 2100, there are concerns that these ancient pathogens could be released
For over a decade, scientists known that bacteria and viruses frozen in the Arctic could still have the potential to infect living organisms.
In 2014, scientists isolated viruses from the Siberian permafrost and showed they could still infect living cells despite being frozen for thousands of years.
Similarly, in 2023, scientists successfully revived an amoeba virus that had been frozen for 48,500 years.
However, the risks are not limited to permafrost regions, as dormant pathogens can also be found in large bodies of ice such as glaciers.
Last year, scientists found 1,700 ancient viruses lurking deep inside a glacier in western China, most of which have never been seen before.
The viruses date back as far as 41,000 years and have survived three major shifts from cold to warm climates.
While these viruses are safe so long as they remain buried in the permafrost, the big concern for climate scientists is that they may not remain that way for long.
When ice or permafrost is disturbed or melts, any microbes inside are released into the environment - many of which could be dangerous.
The bodies of frozen animals like mammoths or woolly rhinoceros (pictured) can harbour ancient organisms which survive in a dormant state. When these animals are disturbed or thaw, the microbes are released
Some of these microbes have the potential to be dangerous, such as Pacmanvirus lupus (pictured) which was found thawing from the 27,000-year-old intestines of a frozen Siberian wolf
Which zombie viruses could be released?
Influenza
- Scientists have found strains of influenza in the lungs of frozen victims from as far back as 1918.
Pithovirus sibericum
- Despite being frozen for 30,000 years the virus was still infectious.
Mollivirus sibericum
- While not a threat to humans and animals, scientists found this virus can survive for thousands of years.
Pandoravirus and Megavirus mammoth
- These viruses were found in a clump of frozen mammoth wool and are able to infect both human and mouse cells.
'Wolf' virus - Pacmanvirus lupus
- An ancient relative of African swine fever virus, this was found thawing from the 27,000-year-old intestines of frozen Siberian wolf.
For example, researchers discovered an ancient relative of African swine fever virus, Pacmanvirus lupus was found thawing from the 27,000-year-old intestines of frozen Siberian wolf.
Despite having been frozen since the Middle Stone Age, this virus was still capable of infecting and killing amoebas in the lab.
Scientists estimate that four sextillion - that's four followed by 21 zeros - cells escape permafrost every year at current rates.
While researchers estimate that only one in 100 ancient pathogens could disrupt the ecosystem, the sheer volume of microbes escaping makes a dangerous incident more likely.
In 2016, for example, anthrax spores escaped from an animal carcass that had been frozen in the Siberian permafrost for 75 years, leaving dozens hospitalized and one child dead.
Yet the bigger risk is that the disease becomes established in the animal population, where increasing contact with humans makes it more likely that the disease will jump into humans as a 'zoonotic' disease.
According to the researchers, about three-quarters of all known human infections are zoonotic, including those found in the Arctic.
If a zoonotic disease emerged from a dormant state in the frozen Arctic, our bodies might not have the defences needed to fight an infection.
Scientists warn that pathogens from frozen animals, such as this 39,500-year-old cave bear from Siberia, could jump to modern species. If this happened, there is a serious risk of humans becoming infected by the ancient disease
The Arctic is an especially dangerous region for zoonotic diseases because health monitoring services are so limited. The researchers point out that diseases like Toxoplasma gondii are already spreading widely through people and animals in the region (illustrated)
This type of infection could lead to a particularly dangerous and hard-to-control pandemic.
Dr Abbas says: 'Climate change and pollution are affecting both animal and human health—our research looked into how these two forces are interconnected.
'As the Arctic warms faster than most other parts of the world, we're seeing changes in the environment—like melting permafrost and shifting ecosystems—that could help spread infectious diseases between animals and people.'
The researchers warn that Arctic regions are an especially dangerous starting point for a pandemic since the region has so little medical infrastructure.
Health and research services are limited, meaning a disease may spread widely before the authorities have the chance to react.
Already, the researchers point out that zoonotic diseases such as Hantavirus hemorrhagic fever and the parasite Toxoplasma gondii have spread throughout the Arctic region.
However, Dr Abbas cautions that what is happening in the Arctic 'doesn't stay in the Arctic'.
'The environmental stressors we studied have ripple effects that reach far beyond the polar regions.'
WHAT IS PERMAFROST AND WHAT HAPPENS IF IT MELTS?
Permafrost is a permanently frozen layer below the Earth's surface found in Arctic regions such as Alaska, Siberia and Canada.
It typically consists of soil, gravel and sand bound together by ice, and is classified as ground that has remained below 0°C (32°F) for at least two years.
It is estimated 1,500 billion tons of carbon is stored in the world's permafrost - more than twice the amount found in the atmosphere.
The carbon comes in the form of ancient vegetation and soil that has remained frozen for millennia.
If global warming were to melt the world's permafrost, it could release thousands of tonnes of carbon dioxide and methane into the atmosphere.
Because some permafrost regions have stayed frozen for thousands of years, it is of particular interest for scientists.
Ancient remains found in permafrost are among the most complete ever found because the ice stops organic matter from decomposing.
A number of 2,500-year-old bodies buried in Siberia by a group of nomads known as the Scythians have been found with their tattooed skin still intact.
A baby mammoth corpse uncovered on Russia's Arctic coast in 2010 still sported clumps of its hair despite being more than 39,000 years old.
Permafrost is also used in the study of Earth's geological history as soil and minerals buried deep in Arctic regions for thousands of years can be dug up and studied today.
