Scientists are BAFFLED by a mysterious deformed skull discovered in Argentina - as some claim it could be so-called 'ANTMEN'
With its weird elongated skull, it looks like the long lost remains of an alien visitor to Earth.
Wherever it's from, scientists have been left utterly baffled by this mysterious deformed skull discovered in Argentina.
Archeologists say the skull – found by workers at San Fernando, Catamarca province – has a structure that differs markedly from that of a conventional person.
The cranium is hugely elongated, as if it once housed a brain that was bigger and more powerful than that of any known human.
Some local media have been describing it as a newly-found group of archaic humans.
Others have been dubbing it 'antmen' in reference to the dog-sized army of ants that appeared in Greek mythology.
Also known as Myrmekes, antmen lived in enormous anthills with complex winding passageways loaded with stolen loot, according to legend.
But the skull's head shape also bears a stunning similarity to the extraterrestrials that appeared in the 1990s sci-fi classic ' Mars Attacks!'
The 'unexpected discovery' was made by construction workers during an excavation for the installation of drinking water, local daily newspaper El Ancasti reports.
The workers found two funerary urns containing human remains – one of which contained the unusually-shaped skull.
One of the urns reportedly contained a complete skeleton, while the other contained partial remains that will also be analysed by experts at the National University of Catamarca.
'What drew the most attention was the unusual shape of one of the skulls , whose structure differs markedly from that of a conventional human,' the paper said.
'The discovery generated great interest and was reported to the provincial anthropology authorities, who are expected to arrive on the site.
'The site has been fenced and remains under guard to preserve the remains and facilitate the work of specialists.'
As the news was revealed locally, certain media described the skull as 'antmen' in reference to the Greek legend, Heritage Daily reports, but the truth may be even more grizzly and unpleasant
It's possible the owner had their skull cruelly deformed in a barbaric method called 'artificial cranial deformation'.
Artificial cranial deformation involved applying pressure to infants' skulls with splints or bandages when the bones were still flexible, resulting in an elongated skull with a flat or curved line across the back marking the area where the pressure was applied.
This ancient cultural practice was commonplace by groups such as the Ciénaga and Aguada people that lived between the 3rd and 12th centuries AD.
Rick Schulting, a professor of prehistoric archaeology at the University of Oxford, said cranial modification was a common practice in many parts of the world, including western South America.
'This was done for various reasons, including aesthetics and marking out social groups – e.g., ethnicity or higher social status,' he told MailOnline.
'It was done by binding an infant's head with bands, sometimes using boards to achieve the desired shape. There is no evidence that this ever harmed the infant.'
Dr Heidi Dawson-Hobbis, senior lecturer in biological anthropology at the University of Winchester, said 'it looks like the skull may be of a juvenile'.
'From looking at the photo my first thought was hydrocephalus (fluid on the brain), but it is difficult to tell from the photograph,' she told MailOnline.
'Alternatively depending on the date of the remains various different cultures in South America practised head binding or the use of cradle boards which led to modified skull shapes.'
'Trepanning', also known as 'trepanation', involved a piece of bone being drilled and removed from the skull. Pictured, a trepanated Neolithic skull
Other artificial cranial shapes opted for by various cultures around the world included rounded and conical, but ancient people worldwide practiced even more dramatic alterations to their skull, including 'trepanning', also known as 'trepanation'.
This involved a piece of bone being drilled and removed from the skull, usually with the goal of relieving pressure or fulfilling ritualistic practices.
It's unclear what state the second skull newly found in the other Argentinian funerary urn is in; MailOnline has contacted the authorities for more information.
In a statement, experts at National University of Catamarca said: 'Interpreting these findings offers and opportunity to deepen our connection with our ancestry.
'By respecting and valuing these cultural practices and their meanings, we honour the memory of our ancestors and connect with them through our shared human experience.'
THE BIZARRE HISTORICAL PRACTICE OF TREPANATION
Trepanation is a procedure which was done throughout human history.
It involves removing a section of the skull and was often done on animals and humans.
The first recorded proof of this was done on a cow in the Stone Age 3,000 years ago.
It was a process that was still being conducted in the 18th century.
The belief was that for many ailments that involved severe pain in the head of a patient, removing a circular piece of the cranium would release the pressure.
Before then, dating back to the Neolithic era, people would drill or scrape a hole into the head of people exhibiting abnormal behaviour.
It is thought that this would release the demons held in the skull of the afflicted.
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
The Independent
9 hours ago
- The Independent
Scientists find mysterious particle that wobbles is still acting weird
Final results from a long-running U.S. experiment have revealed that a tiny particle continues to act strangely, which scientists say is good news for our current understanding of the laws of physics. The experiment focused on muons, mysterious particles considered heavier cousins to electrons. Muons wobble like a top when inside a magnetic field, and scientists have been studying that motion to see if it lines up with the Standard Model, the foundational rulebook of physics. Tova Holmes, an experimental physicist at the University of Tennessee Knoxville, who is not part of the collaboration, said the experiment is "a huge feat in precision." Experiments in the 1960s and 1970s seemed to indicate all was well. However, tests at Brookhaven National Laboratory in the late 1990s and early 2000s produced something unexpected: the muons weren't behaving as they should. Decades later, an international collaboration of scientists decided to rerun the experiments with an even higher degree of precision. The team raced muons around a magnetic, ring-shaped track — the same one used in Brookhaven's experiment — and studied their signature wiggle at the Fermi National Accelerator Laboratory near Chicago. The first two sets of results — unveiled in 2021 and 2023 — seemed to confirm the muons' weird behavior, prompting theoretical physicists to try to reconcile the new measurements with the Standard Model. Now, the group has completed the experiment and released a measurement of the muon's wobble that agrees with what they found before, using more than double the amount of data compared to 2023. They submitted their results to the journal Physical Review Letters. That said, it's not yet closing time for our most basic understanding of what's holding the universe together. While the muons raced around their track, other scientists found a way to more closely reconcile their behavior with the Standard Model with the help of supercomputers. There's still more work to be done as researchers continue to put their heads together and future experiments take a stab at measuring the muon wobble — including one at the Japan Proton Accelerator Research Complex that's expected to start near the end of the decade. Scientists also are still analyzing the final muon data to see if they can glean information about other mysterious entities like dark matter. 'This measurement will remain a benchmark ... for many years to come,' said Marco Incagli with the National Institute for Nuclear Physics in Italy. By wrangling muons, scientists are striving to answer fundamental questions that have long puzzled humanity, said Peter Winter with Argonne National Laboratory. 'Aren't we all curious to understand how the universe works?' said Winter. ___ The Associated Press Health and Science Department receives support from the Howard Hughes Medical Institute's Science and Educational Media Group and the Robert Wood Johnson Foundation. The AP is solely responsible for all content.
The Independent
10 hours ago
- The Independent
A long-running experiment finds a tiny particle is still acting weird
Final results from a long-running U.S.-based experiment announced Tuesday show a tiny particle continues to act strangely -- but that's still good news for the laws of physics as we know them. 'This experiment is a huge feat in precision,' said Tova Holmes, an experimental physicist at the University of Tennessee, Knoxville who is not part of the collaboration. The mysterious particles called muons are considered heavier cousins to electrons. They wobble like a top when inside a magnetic field, and scientists are studying that motion to see if it lines up with the foundational rulebook of physics called the Standard Model. Experiments in the 1960s and 1970s seemed to indicate all was well. But tests at Brookhaven National Laboratory in the late 1990s and early 2000s produced something unexpected: the muons weren't behaving like they should. Decades later, an international collaboration of scientists decided to rerun the experiments with an even higher degree of precision. The team raced muons around a magnetic, ring-shaped track — the same one used in Brookhaven's experiment — and studied their signature wiggle at the Fermi National Accelerator Laboratory near Chicago. The first two sets of results — unveiled in 2021 and 2023 — seemed to confirm the muons' weird behavior, prompting theoretical physicists to try to reconcile the new measurements with the Standard Model. Now, the group has completed the experiment and released a measurement of the muon's wobble that agrees with what they found before, using more than double the amount of data compared to 2023. They submitted their results to the journal Physical Review Letters. That said, it's not yet closing time for our most basic understanding of what's holding the universe together. While the muons raced around their track, other scientists found a way to more closely reconcile their behavior with the Standard Model with the help of supercomputers. There's still more work to be done as researchers continue to put their heads together and future experiments take a stab at measuring the muon wobble — including one at the Japan Proton Accelerator Research Complex that's expected to start near the end of the decade. Scientists also are still analyzing the final muon data to see if they can glean information about other mysterious entities like dark matter. 'This measurement will remain a benchmark ... for many years to come,' said Marco Incagli with the National Institute for Nuclear Physics in Italy. By wrangling muons, scientists are striving to answer fundamental questions that have long puzzled humanity, said Peter Winter with Argonne National Laboratory. 'Aren't we all curious to understand how the universe works?' said Winter. ___ The Associated Press Health and Science Department receives support from the Howard Hughes Medical Institute's Science and Educational Media Group and the Robert Wood Johnson Foundation. The AP is solely responsible for all content.
Daily Mail
10 hours ago
- Daily Mail
West Antarctic Ice Sheet is on the verge of COLLAPSING - sparking 13 feet of irreversible global sea level rise, scientists warn
Containing around 750,000 cubic miles of ice – enough to fill Wembley stadium nearly 3 billion times – the West Antarctic Ice Sheet is a rich reservoir of precious frozen freshwater. Now, scientists warn that the vast natural feature is on the brink of a disastrous 'irreversible' collapse. The collapse would cause a devastating sea-level rise globally over the next few hundred years of 13 feet (4 metres), the experts say. And it could be triggered with ocean warming only slightly above the rate that we're seeing in the present day. 'As little as 0.25°C deep ocean warming above present-day can trigger the start of a collapse,' said study author David Chandler at Norwegian Research Centre (NORCE). 'With our present-day climate, the transition to the collapsed state will be slow, maybe 1,000 years, but it will likely be much faster if there is additional global warming.' In a future scenario of sea level rises, cities and towns are flooded more easily, meaning people would have to flee their homes and move further inland. Other small island nations might be gradually plunged underwater entirely, forcing inhabitants to emigrate. Ice sheets are masses of glacial ice extending more than 19,000 square miles (50,000 square kilometers). There are two ice sheets on Earth – the Greenland Ice Sheet and the Antarctic Ice Sheet – and together they contain about 99 per cent of the freshwater on Earth. As the name suggests, the West Antarctic Ice Sheet is the western segment of the latter – and is more strongly affected by climate change. And unlike its eastern counterpart, the West Antarctic Ice Sheet largely rests on the sea bed. In other words, the West Antarctic Ice Sheet is sitting in water – and today this water is getting warmer and warmer due to global warming. 'Both East and West Antarctica have really thick ice – well over 3km (2 miles), even 4.9km (3 miles) at its thickest,' Chandler told MailOnline. 'West Antarctica is important for two reasons; first, if even a small fraction of all that ice melts it will cause devastating sea-level rise. 'Second, the ice sheet itself influences climate, so if you melt some of it, that could cause climate changes even as far away as Europe.' What is an ice sheet? An ice sheet is a a layer of ice covering an extensive tract of land - more than 20,000 square miles (50,000 square kilometers). The two ice sheets on Earth today cover most of Greenland and Antarctica. During the last ice age, ice sheets also covered much of North America and Scandinavia. Together, the Antarctic and Greenland ice sheets contain more than 99 per cent of the freshwater ice on Earth. Source: National Snow and Ice Data Center The research team – also including experts from academic institutions in the UK and Germany – ran model simulations through the glacial cycles over the last 800,000 years. During this period, the Earth's climate has switched several times between cold periods known as 'glacials' and warmer periods called 'interglacials'. Some of these past interglacials were likely warmer than our present-day climate and give a picture of how the vast Antarctic Ice Sheet could respond to future warming. During interglacials, warm ocean water would have melted and thinned out the floating ice shelves that surround and protect West Antarctic Ice Sheet, leaving it vulnerable. 'In the past 800,000 years, the Antarctic Ice Sheet has had two stable states that it has repeatedly tipped between,' said Chandler. 'One, with the West Antarctic Ice Sheet in place, is the state we are currently in. The other state is where the West Antarctic Ice Sheet has collapsed.' Because the heat needed to melt ice in Antarctica is supplied mostly by the ocean, the concern now is that warming waters from climate change will tip the West Antarctic Ice Sheet to the collapsed state again. Ice loss from this 'vast freshwater reservoir' could threaten coastal communities and the global economy if the ice volume decreases by just a few per cent. Once the ice sheet has tipped to the collapsed state, reversal back to the stable present-day state would need several thousands of years of relatively cool temperatures (at or below pre-industrial conditions). 'Once tipping has been triggered it is self-sustaining and seems very unlikely to be stopped before contributing to about four meters of sea-level rise – and this would be practically irreversible,' Chandler said. In 2023, experts at the British Antarctic Survey (BAS) said the West Antarctic Ice Sheet will continue to increase its rate of melting over the rest of the century, no matter how much we reduce fossil fuel use. Even if greenhouse gas emissions are controlled to achieve the best possible scenario, melting of the ice sheet will continue to accelerate this century, at a speed three times faster than during the 20th century, the BAS team found. If it melts completely, the ice sheet will release enough water to raise sea levels worldwide by 17ft (5.3 metres). However, scientists say that it is 'only' likely to make them rise by 3.2ft (one metre) by the end of the century. Antarctica's ice sheets contain 70% of world's fresh water - and sea levels would rise by 180ft if it melts Antarctica holds a huge amount of water. The three ice sheets that cover the continent contain around 70 per cent of our planet's fresh water - and these are all to warming air and oceans. If all the ice sheets were to melt due to global warming, Antarctica would raise global sea levels by at least 183ft (56m). Given their size, even small losses in the ice sheets could have global consequences. In addition to rising sea levels, meltwater would slow down the world's ocean circulation, while changing wind belts may affect the climate in the southern hemisphere. In February 2018, Nasa revealed El Niño events cause the Antarctic ice shelf to melt by up to ten inches (25 centimetres) every year. El Niño and La Niña are separate events that alter the water temperature of the Pacific ocean. The ocean periodically oscillates between warmer than average during El Niños and cooler than average during La Niñas. Using Nasa satellite imaging, researchers found that the oceanic phenomena cause Antarctic ice shelves to melt while also increasing snowfall. In March 2018, it was revealed that more of a giant France-sized glacier in Antarctica is floating on the ocean than previously thought.
