They survived ice ages and hunted mammoths; so why did the Neanderthals suddenly disappear? Now a physicist blames something in the sky
Now, a new and unusual theory suggests that space weather, not climate, competition, or disease, may have played a decisive role.
A recent study by Dr. Agnit Mukhopadhyay, a space physicist from the
University of Michigan
, proposes that a powerful cosmic event known as the
Laschamp excursion
might have played a part in the Neanderthals' decline. The findings were published in the journal Science Advances.
by Taboola
by Taboola
Sponsored Links
Sponsored Links
Promoted Links
Promoted Links
You May Like
If You Eat Ginger Everyday for 1 Month This is What Happens
Tips and Tricks
Undo
The Laschamp event occurred about 41,000 years ago, when the Earth's magnetic poles temporarily flipped. During this brief reversal, the planet's magnetic field, which normally protects us from cosmic radiation, dramatically weakened for several centuries.
Mukhopadhyay argues that this weakening may have exposed the Earth's surface to much higher levels of ultraviolet (UV) and cosmic radiation, particularly in some parts of the world.
Live Events
Radiation as a Hidden Killer?
The core of the hypothesis is that Neanderthals, already living in small, isolated populations, may have been more vulnerable to this radiation than Homo sapiens. The study claims that Homo sapiens had tighter clothing, used red ochre as UV protection, and took shelter in caves helping them survive the radiation. Neanderthals, in contrast, might have lacked these protections.
Computer simulations in the study even show that auroras, a sign of increased solar activity, might have been visible across much of the world during this time, proof, the author argues, of the heightened radiation environment.
While the theory is bold and imaginative, many experts are skeptical.
Researchers José-Miguel Tejero and Montserrat Sanz Borràs, writing for The Conversation, point out that the idea rests on shaky archaeological evidence.
For example, it assumes that Neanderthals didn't wear fitted clothing. While it's true that no sewing needles have been found at Neanderthal sites, there is clear evidence that they processed animal hides and likely wore functional garments using other techniques, such as tying hides with leather cords or splinters.
In fact, genetic studies of lice suggest that humans, possibly including Neanderthals, were already wearing clothes over 200,000 years ago. The absence of needles doesn't prove the absence of clothes.
The study also claims that Homo sapiens used red ochre as sunblock. While experiments show that ochre can somewhat block UV rays, this claim is also disputed. Ochre was widely used by both Neanderthals and modern humans, often for symbolic or cosmetic reasons. There is no solid evidence that either group used it primarily for sun protection.
Neanderthals are known to have used ochre for over 100,000 years. In one example, a painted scallop shell found in a Neanderthal cave in Spain shows their symbolic use of pigments long before Homo sapiens arrived in Europe.
Most scientists believe that multiple factors caused the Neanderthals' disappearance. These include, interbreeding with Homo sapiens (evident in modern DNA), smaller populations that were more vulnerable to decline, limited long-range hunting tools, unlike the projectile weapons used by sapiens, Changing climate, and possibly, competition for resources.
In this broader context, Mukhopadhyay's theory appears too narrow. Critics note that there is no archaeological evidence of a sudden, global collapse of Neanderthal populations tied to the Laschamp event. If radiation were such a major factor, it would have also harmed Homo sapiens populations living outside caves in sunny Africa, which doesn't seem to have happened.
A Caution Against Oversimplification
The Neanderthal story is complex. These early humans were not primitive brutes. They developed tools, built shelters, made symbolic objects, and survived in extreme climates for hundreds of thousands of years. They even lived through earlier magnetic reversals, such as the Blake event 120,000 years ago.
Mukhopadhyay's theory adds an intriguing piece to the puzzle, but it's far from conclusive.
So, did a shift in Earth's magnetic field doom the Neanderthals?
Probably not. While the Laschamp event may have had some environmental impact, there's no strong evidence that it caused
Neanderthal extinction
. The theory suggests that the disappearance of Neanderthals was likely due to a mix of climate, biology, and human interaction.
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Time of India
2 hours ago
- Time of India
‘Jurassic World: Rebirth' box office collections day 2: Film clocks Rs 22 crore; Thanks to Saturday boost
(Picture Courtesy: Facebook) 'Jurassic World: Rebirth' seems to be doing exactly what fans hoped — bringing back the thrill of the original series while drawing solid crowds to theatres. According to the Sacnilk website, the film opened with Rs 9 crore on Friday and jumped to an estimated Rs 13 crore on Saturday, taking the two-day total to Rs 22 crore. Dinosaurs still have box office power Directed by Gareth Edwards, this new chapter stars Scarlett Johansson , Mahershala Ali, and Jonathan Bailey. There was already buzz leading up to its release, and now with early numbers looking strong, it's clear that people are turning up — maybe out of nostalgia, maybe for the spectacle, or maybe just to see dinosaurs wreck things on a giant screen. 03:50 Kareena Kapoor FANGIRLS Over Brad Pitt after watching 'F1' Evening shows drove the Saturday climb The big shift came Saturday evening. While morning shows started off slow, occupancy picked up across languages — especially for the English 3D version. Tamil screenings also held up well, particularly in major cities. Hindi audiences came in stronger than expected by nightfall, which helped push the day's total up. Even premium screens — Dolby, IMAX, and 3D — saw decent footfall. That's always a good sign. When people are choosing better formats over basic ones, it usually means there's genuine excitement about the film, not just casual interest. by Taboola by Taboola Sponsored Links Sponsored Links Promoted Links Promoted Links You May Like Top Arduino Projects for Beginners CircuitDigest Learn More Undo Will Sunday keep the momentum going? With Sunday being the most crucial day of the weekend, trade experts believe Rebirth could comfortably go past Rs 35 crore before Monday morning. If it happens, the film might just cement itself as a mid-year hit. At the moment, things are looking up. The dinosaurs aren't just stomping around on screen — they're pulling crowds, filling seats, and giving theatres something to cheer about. ETimes review for the film reads, "It's a heartwarming family watch that blends comedy, compassion, and charm, and is definitely worth a trip to the theatre."
Time of India
2 hours ago
- Time of India
The high price China pays for rare earths dominance
Chinese mines and refineries produce most of the world's rare earth metals and practically all of a few crucial kinds of rare earths. This has given China's govt near complete control over a critical choke point in global trade. But for decades in northern China, toxic sludge from rare earth processing has been dumped into a 4-square-mile artificial lake. In south-central China, rare earth mines have poisoned dozens of once-green valleys and left hillsides stripped to barren red clay. Achieving dominance in rare earths came with a heavy cost for China, which largely tolerated severe environmental damage for years. The industrialised world, by contrast, had tighter regulations and stopped accepting even limited environmental harm from the industry as far back as the 1990s. In China, the worst damage occurred around Baotou, a flat, industrial city of 2 million people in China's Inner Mongolia, on the southern edge of the Gobi Desert. Baotou calls itself the world capital of the rare earth industry but the city and its people bear the scars from decades of poorly regulated rare earths production. The artificial lake of sludge known as the Weikuang Dam holds the waste left over after metals are extracted from mined ore. by Taboola by Taboola Sponsored Links Sponsored Links Promoted Links Promoted Links You May Like An engineer reveals: One simple trick to get internet without a subscription Techno Mag Learn More Undo During the winter and spring, the sludge dries out. The dust that then blows off the lake is contaminated with lead, cadmium and other heavy metals, including traces of radioactive thorium, according to technical papers by Chinese scholars. In Baotou, radioactive thorium was simply dumped into the lake for decades instead of being stored in special repositories, as required in the West. During the summer rainy season, the sludge becomes coated with a layer of water that mixes with poisons and thorium. The Weikuang Dam, also known as a tailings lake, is 7 miles north of the Yellow River and was built in the 1950s without the thick, waterproof liner underneath that became standard in the West in the 1970s. Baotou's lake is so large that it cannot easily be rebuilt with a liner. Any effort to move and store the sludge would be a logistical challenge. (In the days of the Soviet Union, thorium dust blew across Scandinavia from a tailings pond at a rare earth processing facility in Estonia. Soon after the disintegration of the USSR in 1991, the EU spent close to $1.2 billion to build an adjacent pit with 10-foot-thick concrete walls, move the sludge into it and cover it with 30 ft dirt.) The enormous Bayan Obo iron ore and rare earths mine, 80 miles north of the city in the Gobi Desert, produces most of China's light rare earths, like lanthanum for oil refining, and most of its medium rare earths, like samarium for the magnets in fighter jets and missiles. In trade disputes with the US and the EU, China has since April halted exports of samarium to any country and has restricted exports of heavy rare earths, which are mined separately near Longnan in south-central China.
Time of India
2 hours ago
- Time of India
Igniting Minds: DIY Science Revolution At A NMC School
Nagpur: Inside a set of three transformed classrooms at Hindi Mor School in Ramdaspeth, science is no longer a subject limited to books or blackboard teachings. Beakers bubble, models whirl, and students' eyes light up with curiosity. This is the Young Kalam Discovery Science Centre, a vibrant space where learning becomes an experience, not a lecture. Launched by the Nagpur Municipal Corporation (NMC) in partnership with the HCL Foundation and the Social Economic Development Trust (SEDT), the centre is designed to spark scientific thinking among students of Classes 5 to 10 studying in NMC-run schools. The goal is to cultivate a generation of thinkers, creators, and innovators who engage with science not as a subject, but as a tool to understand the world. "This centre allows students to experience science," explains additional municipal commissioner Vaishnavi B. "They don't just hear about Newton's Laws or DNA structures — they see them in action and understand how it applies to real life." The process begins with a 30-mark objective test to evaluate students' existing knowledge, followed by immersive experiments in physics, chemistry, biology, and astronomy. by Taboola by Taboola Sponsored Links Sponsored Links Promoted Links Promoted Links You May Like This Could Be the Best Time to Trade Gold in 5 Years IC Markets Learn More Undo The initiative enjoys strong backing from municipal commissioner Abhijeet Chaudhari. During a recent visit to the centre, Chaudhari expressed his appreciation for the initiative's ability to transform dry classroom theory into exciting learning journeys. "It's about building scientific temper, as envisioned by Dr APJ Abdul Kalam," Chaudhari said. The science centre's journey began in 2017, when NMC and HCL Foundation first collaborated to introduce interactive science education tools for municipal school students. Initially based in Lalganj, the centre was shifted to Barrister Sheshrao Wankhede Vidyaniketan in Ramdaspeth in 2019. Three classrooms were redesigned into full-fledged science laboratories. The materials and experimental kits used at the centre were sourced from HCL Foundation's hub in Kerwadi, Parbhani, known for its pioneering work in rural science education. The centre's team of facilitators, including Nikhil Lakshane and Kalidas Nakade, bring science alive through engaging, demonstrative teaching. Each session is carefully curated to align with the school curriculum while going far beyond textbook explanations. Students handle solar energy models, DNA helix kits, Newton's colour wheel, water harvesting systems, and even soil-type samplers. "Hands-on learning brings clarity," says Lakshane, adding: "Students who were once unsure about basic principles now articulate them confidently." After going through the experiments, students take another test, and the improvement in scores often surprises both students and teachers. Beyond the curriculum, the centre nurtures creative scientific expression. Students are encouraged to design and present their own models at science festivals. Many have gone on to win Inspire Awards, a national initiative recognising innovative projects built by young minds. The three laboratories are filled with vibrant, tactile teaching tools, from a model of the Tower of Pisa demonstrating centre of gravity to interactive games explaining solar and lunar eclipses. Students explore human anatomy, illusions, wind turbines, and more — all designed to make complex ideas accessible and exciting. "Children remember what they enjoy," says Sadhana Sayam, NMC's education officer. "These labs not only build knowledge but also foster imagination and problem-solving. They leave children wondering, exploring, and dreaming bigger," she adds. As India seeks to strengthen its future in science and innovation, initiatives like the Young Kalam Discovery Science Centre are quietly, yet powerfully, laying the foundation — one experiment at a time.
