Archaeologists Found 11,500-Year-Old Tools That Reveal an Incredible Human Adventure
Researchers discovered tools dating as far back as 11,500 years.
The tools could be evidence of the earliest human settlement in Scotland.
Nomads likely crossed into the Isle of Skye via Doggerland—an area that is now covered by the North Sea.
Humans love convenience, and that's a love as old as time (well, maybe that's a stretch).
The oldest tools discovered thus far date back to our early ancestors, around 2.6 million years ago. While these tools were rudimentary (often unaltered sticks and rocks found on the ground), they played a key part in the broader story of human evolution. Not only were they helpful to the early humans who used them back then, but early tools like these also serve as valuable clues for scientists today.
Case in point, a research team just found tools on the Isle of Skye which shed light on Scotland's oldest inhabitants. Researchers dated these new-found Scottish tools back to between 11,500 and 11,000 years ago, during what is called the Late Upper Paleolithic. The 'Upper' part of the Paleolithic Period is a subdivision marked by the development of more advanced tools. The discoveries mean the west coast of Scotland now represents the largest concentration of evidence proving the early presence of people in the area, according to a press release.
The team consisted of researchers from universities of Leeds, Sheffield, Leeds Beckett, and Flinders in Australia. Together, they worked to reconstruct the landscape and changing sea levels of the time. They determined that nomads likely crossed into Skye when much of western Scotland was buried under ice after the Younger Dryas—a sudden cooling period that froze much of the Northern Hemisphere. Researchers theorize that the pioneers crossed via Doggerland, which is now covered by the North Sea.
According to Karen Hardy, leader of the team, the nomads' journey to the Isle of Skye was the 'ultimate adventure story.' She explained in the release that as they followed animal herds northward and entered Scotland, the landscape changed to one that was icy and treacherous.
'A good example of the volatility they would have encountered can be found in Glen Roy,' Hardy said in the press release, 'where the world-famous Parallel Roads provide physical testament to the huge landscape changes and cataclysmic floods that they would have encountered, as they travelled across Scotland.'
Once in Scotland, the pioneers had to adapt to live among the melting glaciers, oceans, and mountains—conditions that were shockingly different from their former homelands in the northwestern Great European Plains. Hardy believes the settlers strategically chose where to base themselves to best access coastal and riverine resources. They also began to value ochre—a pigment that was important to ancient cultures.
Although the exact terrains the nomads crossed can no longer be visited, they can be imagined at places like Sconcer, a township on the same island where the tools were discovered. Needless to say, these findings were crucial in advancing knowledge of ancient Scotland.
'This is a hugely significant discovery which offers a new perspective on the earliest human occupation yet known, of north-west Scotland,' Hardy said.
You Might Also Like
The Do's and Don'ts of Using Painter's Tape
The Best Portable BBQ Grills for Cooking Anywhere
Can a Smart Watch Prolong Your Life?
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Yahoo
3 days ago
- Yahoo
Scottish university to test out Mars Rover on billion-year-old Highland rock
Scotland is making a contribution to space exploration by loaning out one of its ancient rocks to test out a robot bound for Mars, with researchers from one of the country's top universities trialling instruments to be used on the European Mars Rover. Researchers from The University of St Andrews will carry out imaging and analysis of one billion-year-old geological formations that are very like those on Mars to boost the rover's intelligence before its set to launch in 2028. A Mars rover is a remote-controlled motor vehicle that is designed to travel on the surface of Mars and allow scientists to examine more territory, target specific features, and study the planet's geology and environment, reports The Daily Record. Some rovers also collect samples for future return to Earth. READ MORE: Edinburgh man hospitalised after riot police lock down street READ MORE: Two Edinburgh schools to be renamed to 'reduce stigma towards pupils' Using the billion-year-old mudstones that are unique to the north-west Scottish coastline, the researchers will be able to understand how the geological capture of ancient microbial life in these sediments changes the chemistry of the rocks. They can also better understand how these changes can be detected using Mars rover instruments. These ancient rocks are the same that would have been found in Mars' ancient terrains when the environment was much more agreeable to life. Led by Dr Clare Cousins, of the School of Earth and Environmental Sciences, researchers have already been on getting their hands dirty in the fields of north west Scotland with two emulator instruments. "Our understanding of Mars is rooted in geological knowledge inherited from the Earth," Dr Cousins explained. "Rock formations here are vital testing grounds for new instruments that are destined for the Martian surface. "It's hoped these instruments will allow the ExoMars rover team to identify those geological formations at the landing site that not only betray once habitable water-rich environments that existed billions of years ago, but also rocks that are excellent at preserving the long-gone remnants of microbial life.' The University of St Andrews is also part of a larger project in partnership with the University of Western Ontario for their Canadian Space Agency project to test these same instruments at an impact crater site in Germany. It comes after astronomers, including one from University of Edinburgh, have stumbled across a strange object that is emitting radio waves - and they don't know why. The object - a long-period transient (LPT) - is emitting pulses of radio waves and X-rays every 44 minutes. LPTs are a relatively new class of astrophysical objects that are known to emit radio waves periodically. However, this is the first time such objects have been detected in X-rays. Incredibly, the discovery could hint at a new type of physics or new star models in the sky. As of yet, there is no clear cut answer to what the curious entity is, and why it's doing what it's doing. Join Edinburgh Live's Whatsapp Community here and get the latest news sent straight to your messages.
Yahoo
5 days ago
- Yahoo
£1 million project to test AI's effectiveness in Scottish NHS
A £1 million project is underway to test the safety and effectiveness of artificial intelligence in healthcare. Funded by Innovate UK, the scheme brings together hospitals, Glasgow and Edinburgh universities, and technology companies to create a validation framework for AI tools in the Scottish NHS. The project involves collaboration between NHS Greater Glasgow and Clyde, NHS Lothian, and AI evaluation company Aival. Read more: 'I would not be here today': Glasgow nurse's quick thinking saves colleagues life Dr Rishi Ramaesh, consultant radiologist and innovation fellow at NHS Lothian, said: "Artificial intelligence has tremendous potential to improve patient care, but healthcare leaders need confidence that these systems are safe and effective. "This project will help healthcare leaders to evaluate AI, and make sure that new technologies deliver real benefits for patients." Aival's independent evaluation platform will be used to assess AI systems for diagnosing head trauma and lung cancer, aiming to improve care for patients and support NHS staff. The platform allows hospitals to verify AI performance using anonymised patient data and provides ongoing monitoring once the software is deployed. The project will also test the Aival platform's ability to monitor long-term AI performance, addressing concerns about 'drift'—the decline in software accuracy over time due to changes in patient populations, disease trends, or equipment updates. Dr Mark Hall, consultant radiologist at NHS Greater Glasgow and Clyde, said: "Post-deployment surveillance monitoring is a critical yet often overlooked aspect of patient care, especially in radiology, where early detection of disease progression can make all the difference. "Despite its importance, there are currently no standardised guidelines. "AI-powered monitoring software bridges this gap by providing a structured approach." One of the challenges addressed by the project is the lengthy testing process for AI. Currently, it can take more than nine months to evaluate a single product, and there are more than 200 AI options available for some hospital departments. This has limited the rollout of AI solutions in clinical settings. The project will compare six commercial AI products used in stroke and lung cancer triage, including tools developed by InferVision, Annalise-AI, and Luciana D'Adderio, Edinburgh University academic and AI evaluation and assurance expert, said: "AI technology is achieving widespread deployment across healthcare settings, yet its assurance has not received the rigorous attention it demands. "There is an urgent need for innovative tools and technologies for AI assurance, which themselves must undergo thorough evaluation and validation. "This critical challenge forms the cornerstone of our groundbreaking project." Kanwal Bhati, CEO of Aival (Image: Emelie Holgersson) Read more: New general manager expected to be 'big hit' at Glasgow care home Kanwal Bhatia, chief executive officer and founder of Aival, said: "It's vital that we monitor and check AI that's being used in decisions on patients' health, to ensure the best outcomes for patients. "Any healthcare workers using AI need to be sure that the product is doing what it says it does – not just now, but five years in the future. "Putting in place effective validation systems will encourage trust and adoption of AI, and will deliver cost savings and growth in the NHS and in private healthcare. "We work hand in hand with NHS leaders, clinical and technical teams to provide the expertise and software to ensure that their AI systems are doing what they're supposed to do."
Yahoo
5 days ago
- Yahoo
Garden's sapphire tower flower begins to bloom
A rare plant which is native to South America has started to bloom in the south of Scotland. Visitors will have to hurry if they want to see the Puya alpestris - known as the sapphire tower flower - at Logan Botanic Garden as the blooms usually fade within a week. The plant bloomed for the first time at the site near Port Logan in 2024, making it the first outdoor flowering of the species in Scotland. Last year it reached about 4ft (1.2m) high but this year it has grown to about 12ft (3.6m). The plant - native to Chile - is already partially in flower, with more buds forming on the "alien-like" spikes. Curator Richard Baines said: "I've been a horticulturist for over 40 years and the Puya alpestris is truly among the top three most spectacular plants I've ever seen in my career. "Seeing the sapphire tower flower outside its native habitat is a real privilege for us here at Logan and we encourage visitors to come and witness its beauty for themselves over this coming week. "However, while it's wonderful to behold, the incredible growth we're witnessing is likely down to the very warm temperatures we experienced this spring. "Unfortunately, this is one of the anticipated consequences of climate change and a warming planet, with higher temperatures allowing plants like these to flourish in Scotland – outdoors – in ways that were never possible before." The Scottish garden helping Vietnam's plant life
