Lost ancient world preserved under ice discovered in Antarctica: 'It's a time capsule'
The hidden terrain lies in a remote region known as Wilkes Land, a part of East Antarctica roughly the size of Belgium and located deep inland, far from the coastline.
Using satellite data and ice-penetrating radar, scientists revealed that this ancient world, now sealed under ice, once featured rivers, forests, and possibly even palm trees.
In fact, pollen from palm trees has previously been found along the nearby Antarctic coast, providing striking evidence of a once-lush environment.
Researchers estimate the buried landscape spans more than 12,000 square miles, about the size of Maryland.
'It's like uncovering a time capsule,' said Professor Stewart Jamieson, lead author of the study from Durham University.
Tens of millions of years ago, as the continents gradually shifted, Antarctica drifted toward the South Pole.
This movement helped form a powerful ocean current around the continent, isolating it from warmer waters. At the same time, atmospheric carbon dioxide levels dropped, cooling the planet.
Together, these changes triggered the formation of massive ice sheets, transforming Antarctica into the frozen desert we know today.
'The land underneath the East Antarctic ice sheet is less well-known than the surface of Mars,' said Stewart Jamieson, lead author of the study and a professor of geography at Durham University.
'We're investigating a small part of that landscape in more detail to see what it can tell us about the evolution of the landscape and the evolution of the ice sheet,' said professor Jamieson.
Scientists have uncovered a dramatic ancient landscape buried beneath Antarctica's thick ice sheet, revealing towering ridges and deep valleys frozen in place for millions of years.
The study identified three massive blocks of elevated ground, each measuring between 75 and 105 miles long and up to 53 miles wide, separated by valleys as wide as 25 miles and plunging nearly 3,900 feet deep.
Unlike many glaciers that grind down the terrain beneath them, the ice in this part of East Antarctica is extremely cold and slow-moving, shifting less than 16 feet per year.
This slow movement has preserved the landscape in remarkable detail. Scientists refer to this as a 'cold-based' ice sheet, meaning the ice is frozen to the ground and causes minimal erosion.
'It is remarkable that this landscape, hidden in plain sight for many years, can tell us so much about the early and long-term history of the East Antarctic ice sheet,' said Neil Ross, professor of environmental geophysics at Newcastle University and a co-author of the study.
'It also helps us understand how it might evolve in response to future climate change.'
Researchers used satellite imagery to detect subtle surface bumps and ran computer models to trace how the landscape has shifted over time.
Some areas of the buried terrain have risen by as much as 1,600 feet, slowly pushed upward by the sheer weight of overlying ice.
The preserved terrain offers a rare window into Antarctica's deep past, long before ice claimed the continent.
'What we find is an ancient land surface that has not been eroded by the ice sheet, and instead it looks like it was created by rivers before the ice came along,' said Professor Jamieson.
Back then, the region likely featured flowing rivers and dense forests, thriving in a temperate climate.
As the ancient supercontinent Gondwana began to break apart, the shifting landmass created deep cracks and fissures, which likely split the high ground into distinct block before the first glaciers arrived.
Over time, the climate cooled, and small glaciers formed, gradually carving the valleys deeper and sculpting the landscape into classic U-shaped formations typical of mountain glaciation.
Roughly 14 million years ago, the expanding East Antarctic Ice Sheet engulfed the area in ice.
Even during later warm periods, such as the mid-Pliocene, around 3 million years ago, the region remained frozen.
Although surrounding ice may have partially melted during these warm spells, it was never enough to expose the ancient terrain.
That's what makes this discovery so critical today, as Earth approaches carbon dioxide levels and temperatures not seen since those ice-free days.
If global warming continues, scientists caution that parts of the ice sheet could eventually retreat again, though drilling through more than a mile of solid ice to reach this lost landscape would require substantial time, effort, and investment.
'We'll continue exploring the landscape, doing our best to fill in gaps where surveys don't exist,' Professor Jamieson said, 'and using that information to understand how the ice sheet and its underlying landscape have changed over their long history.'
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Daily Mail
2 days ago
- Daily Mail
Google Maps users are baffled after spotting a mysterious FACE on a mountain top in Chile - as one claims it could be an 'alien base'
From UFOs buried in the Sahara Desert to mysterious doorways in Antarctica, Google Maps users have made dozens of wild discoveries over the years. But the latest sighting is one of the strangest yet. Eagle–eyed Google Maps users have spotted a mysterious face on a mountain top in Chile. The face is located on a remote island right at the south of the country – and some viewers claim it could be an ' alien base'. Scott C Waring, a UFO hunter who spotted the face, asked: 'Are these aliens? 'The oldest aliens in our universe might be seen as angels or demons with such even god or gods.' While Mr Waring believes this could be an alien base, not everyone is convinced. In fact, scientists say there is a much simpler explanation for this confounding illusion. Mr Waring spotted the face at the coordinates 55°32'35"S, 69°15'56"W while scouring Google Maps. He posted a video to YouTube revealing his finding, and many excited alien hunters were quick to comment. 'I found some in Antarctica I couldn't work out what they were or are at first I thought they were like some sort of digital error or random digital program issue but now I'm starting think your right and these could be like those ancient nasca glyphs but good find mate,' one user commented. Another added: 'This is truly the most significant find to date! Bravo!' And one wrote: 'You are the best. Thank you very much for your efforts.' There's a very good reason why all sorts of geological structures get mistaken for faces or skulls. When faced with a structure containing intricate and varied patterns, the brain turns this noisy, dynamic information into patterns and objects that we can understand. The brain gets this right most of the time, but sometimes certain predispositions cause errors which disturb our perceptions. Dr Robin Kramer, an expert on face perception from the University of Lincoln, told Daily Mail: 'Our face detection system has evolved to be great at detecting faces and it makes more sense to err on the side of caution by occasionally seeing faces where there aren't any, rather than missing faces where there are.' Scientists call this phenomenon pareidolia, which is a bias towards seeing meaningful patterns in inanimate objects. 'Face pareidolia explains why we might see faces in geological structures, as well as pretty much anything else,' Dr Kramer added. Scientists think that we evolved this sensitivity towards faces because it helped our ancestors find friends and spot enemies. For hunter-gatherers, it was better to briefly mistake a bush for your neighbour's animal than miss someone sneaking up on you. Professor Kevin Brooks, a psychologist at Macquarie University, told Daily Mail: 'We tend to classify anything vaguely face-like as a face until proven otherwise – it's safer that way. 'Evolutionary psychologists speculate that we evolved this mechanism to help our survival, and increase our chances of passing on our genes, bringing forth another generation of people who are also good at face detection.' Some people are more sensitive to faces and so might experience more pareidolia in their daily lives. Dr Susan Wardle, a researcher at the National Institutes of Health, told Daily Mail that pareidolia isn't 'usually' a sign of any psychological or neurological issues. However, a high rate of pareidolia might be a sign of someone's bias towards believing in the paranormal. A Finnish study conducted in 2012 found that people with religious or paranormal beliefs were much more likely to see faces in random stimuli. This could explain why alien hunters seem to find faces or patterns in geological features so frequently. Dr Wardle concludes: 'Most people who see faces in things recognise that the faces are not real. 'Issues can arise when people interpret visual patterns to have meaning that they do not, or when they have difficulty distinguishing true perceptions from illusory ones.' WHY DO WE SEE FACES IN INANIMATE OBJECTS? Pareidolia is the psychological response to seeing faces and other significant and everyday items in random stimuli. It is a form of apophenia, when people see patterns in random, unconnected data. There have been multiple occasions when people have claimed to see religious images and themes in unexpected places. On the red planet, one of the most famous is the 'face on Mars' spotted by one of the Viking orbiters in 1976. This was later proven to just be a chance alignment of shifting sand dunes.
The Guardian
3 days ago
- The Guardian
Scientists map Antarctic seafloor canyons to help predict climate breakdown
Scientists have mapped 332 Antarctic canyon networks to help assess the future course of climate breakdown. The research, published in the journal Marine Geology, shows in high resolution submarine valleys that can reach down more than 4,000 metres, more than twice the depth of the Grand Canyon in the US. The resulting data shows that the canyons may have a bigger impact than thought on ocean circulation, ice-shelf thinning and climate change. The study was carried out by researchers from the Faculty of Earth Sciences at the University of Barcelona, Spain, and the marine geosciences research group at University College Cork, Ireland. The Antarctic canyons resemble those elsewhere 'but tend to be larger and deeper because of the prolonged action of polar ice and the immense volumes of sediment transported by glaciers to the continental shelf', said David Amblàs of the research team. He added: 'That's why we must continue to gather high-resolution bathymetric data in unmapped areas that will surely reveal new canyons, collect observational data … and keep improving our climate models to better represent these processes and increase the reliability of projections on climate change impacts.' Submarine canyons are carved valleys on the seafloor that play a crucial role in the movement of sediments, nutrients and the creations of biodiverse habitats. Antarctica's canyons become enlarged because of the turbulent water currents that carry sediments at high speed through them. Scientists have been able to map in high resolution only 27% of the Earth's seafloor, uncovering 10,000 submarine canyons worldwide. But most of these canyons remain underexplored, especially in polar regions. Using data from the International Bathymetric Chart of the Southern Ocean, researchers produced high-resolution maps of 332 Antarctic canyon networks, five times as many as previous studies had managed. The most spectacular of these are in east Antarctica and 'characterised by complex, branching canyon systems', said Amblàs. Sign up to Down to Earth The planet's most important stories. Get all the week's environment news - the good, the bad and the essential after newsletter promotion Maps of the Antarctic submarine canyons are increasingly recognised by scientists as essential for understanding the impact of the climate crisis. The canyons channel warm water from the open sea towards the coastline, thinning the floating ice shelves and contributing to the rise in global sea levels, said Riccardo Arosio, another of the researchers. Mapping the seafloor and its influence on the movement of water is necessary to build accurate ocean circulation models that can be used to predict the impact of the climate crisis, especially in vulnerable polar regions.
The Guardian
4 days ago
- The Guardian
Scientists map Antarctic seafloor canyons to help predict climate change
Scientists have mapped 332 Antarctic canyon networks to help assess the future course of climate breakdown. The research, published in the journal Marine Geology, shows in high resolution submarine valleys that can reach down more than 4,000 metres, more than twice the depth of the Grand Canyon in the US. The resulting data shows that the canyons may have a bigger impact than thought on ocean circulation, ice-shelf thinning and climate change. The study was carried out by researchers from the Faculty of Earth Sciences at the University of Barcelona, Spain, and the marine geosciences research group at University College Cork, Ireland. The Antarctic canyons resemble those elsewhere 'but tend to be larger and deeper because of the prolonged action of polar ice and the immense volumes of sediment transported by glaciers to the continental shelf', said David Amblàs of the research team. He added: 'That's why we must continue to gather high-resolution bathymetric data in unmapped areas that will surely reveal new canyons, collect observational data … and keep improving our climate models to better represent these processes and increase the reliability of projections on climate change impacts.' Submarine canyons are carved valleys on the seafloor that play a crucial role in the movement of sediments, nutrients and the creations of biodiverse habitats. Antarctica's canyons become enlarged because of the turbulent water currents that carry sediments at high speed through them. Scientists have been able to map in high resolution only 27% of the Earth's seafloor, uncovering 10,000 submarine canyons worldwide. But most of these canyons remain underexplored, especially in polar regions. Using data from the International Bathymetric Chart of the Southern Ocean, researchers produced high-resolution maps of 332 Antarctic canyon networks, five times as many as previous studies had managed. The most spectacular of these are in east Antarctica and 'characterised by complex, branching canyon systems', said Amblàs. Sign up to Down to Earth The planet's most important stories. Get all the week's environment news - the good, the bad and the essential after newsletter promotion Maps of the Antarctic submarine canyons are increasingly recognised by scientists as essential for understanding the impact of the climate crisis. The canyons channel warm water from the open sea towards the coastline, thinning the floating ice shelves and contributing to the rise in global sea levels, said Riccardo Arosio, another of the researchers. Mapping the seafloor and its influence on the movement of water is necessary to build accurate ocean circulation models that can be used to predict the impact of the climate crisis, especially in vulnerable polar regions.
