Human ancestors making 'bone tech' 1.5 million years ago, say scientists

Our ancestors were making tools out of bones 1.5 million years ago, winding back the clock for this important moment in human evolution by more than a million years, a study said Wednesday.
Ancient humans -- also called hominins -- such as the robust Australopithecus are known to have used fragments of bones to dig up tubers from termite mounds.
Even today our closest living relative, chimpanzees, use sticks in a similar way to dig out termites for a tasty treat.
And more than two million years ago, hominins were using crude stone tools in Tanzania's Olduvai Gorge, one of the world's most important prehistoric sites.
But there were no known examples of anyone systematically making bone tools more than 500,000 years ago -- until now.
At Olduvai, a Spanish-led team of researchers found 27 tools made out of the leg and arm bones of big mammals, mainly elephants and hippos.
The discovery "sheds new light on the almost unknown world of early hominin bone technology," they wrote in a study in the journal Nature.
To the untrained eye, the tools might seem like random bits of bone.
But for the researchers, they are proof of the remarkable cognitive abilities of our distant ancestors, showing they were capable of choosing the appropriate material and fashioning it for their needs.
"There is a clear desire to change the shape of the bone to turn them into very heavy, long tools," Francesco d'Errico, an archaeologist at France's Bordeaux University and study co-author, told AFP.
The unknown hominins used rocks as hammers to shape the bones. The resulting tools ranged from 20 to 40 centimetres (eight to 15 inches) long, some weighing up to a kilo.
"In some cases there are even notches in the middle of the bone, possibly so they could hold it better in their hands," d'Errico said.
The big, pointy tools are thought to have been used to butcher the carcasses of large animals.
- From axes to needles -
At the time, stone tools were being made in a far more rudimentary manner.
Very few large stone tools have been found at Olduvai, d'Errico said, possibly because the quartz available at the site was not well-suited to the difficult job of cutting up big animals.
It was the Acheulean culture, which was emerging in Africa at around the same time, that first cut stones into hand axes, also called bifaces.
This invention represented a major advance, making it possible for ancient humans to properly slice or skin their prey.
"The hypothesis of the study is that the bone-cutting at Olduvai is an original invention, during a moment of transition to bifaces," d'Errico said.
According to this theory, the bone techniques developed at Olduvai disappeared from the planet for a million years.
It would eventually reappear in places such as the area of modern-day Rome, where a lack of good big rocks spurred hominins to carve elephant bones into hand axes.
It is also possible that the techniques continued throughout the years "but these bones have not been properly identified in other archaeological sites," d'Errico said.
As the human line evolved, so did the sophistication of the tools we carved out of bone.
For example, the first needles with eyes were made from bone in China and Siberia, only arriving in Europe around 26,000 years ago, d'Errico said.
But that is another "very long story," he added.
pcl/dl/fg

Try Our AI Features

Explore what Daily8 AI can do for you:

Learn with AIFact CheckingText to SpeechAI Summary

Related Articles

Tom's Guide

5 hours ago

• Tom's Guide

Slash your biological age by up to 16 years by doing this one thing during your daily walk — new study says

There's a way to roll back the clock on your biological age — and, according to a new(ish) study, you can do it on your daily walk. No frills, no nonsense, just a small tweak for big results. We already know there are many benefits to walking, including a boost to your cardiovascular health, stronger muscles, bones and joints, ramped up calorie burn, a healthier metabolism and better mood and emotional wellbeing. If that's not enough, research straight out of Britain has shown that one particular aspect of your walks could supercharge your results, including reducing your biological age by up to 16 years. Yep, you read that correctly. And no, it's not 10,000 steps, a weighted vest, or walking backwards. This is the one thing you need to know the next time you lace up a pair of the best hiking boots and head out. Research, published in Nature in 2022, found that your speed could play a role in cutting your biological age. The study assessed over 400,000 Brits and biological age (how quickly you're aging based on chemical markers) and found that speed made a difference. Results showed that those with a steady to average and brisk walking pace 'had significantly longer LTL compared with slow walkers.' LTL, meaning leucocyte telomere length, is a marker of biological age. Using 'accelerometer-assessed measures of physical activity,' the researchers found associations between longer LTL and 'habitual activity intensity,' rather than total amount of activity. In other words, your pace may do more for your health than total steps. Get instant access to breaking news, the hottest reviews, great deals and helpful tips. While it's true that the more you move during the day, the better for your metabolism and overall health, we now know that you don't need 10,000 steps every day to maximize it; as little as 7,000 steps per day could be enough! But if you plan to track your step count, making your walk more brisk could be more beneficial across the same distance than an amble. That said, I love a slow walk, and recently took up intuitive walking to boost mindfulness, so I'm a firm believer in a time and place for everything. Given that brisk walking, like power walking, can have a positive impact on weight management and cardiovascular fitness, it checks out that this could also improve your biological age, too. So what about speed? The study used self-reported walking pace, providing participants with a touchscreen Q&A and response options of 'slow,' 'steady/average,' or 'brisk.'Slow pace was defined as less than 3mph, steady pace was between 3 -4mph and brisk walking was over 4mph. There you have it. A faster walking pace is associated with longer LTL, potentially cutting up to 16 years off your biological age. The study showed that brisk walkers had a biological age of up to 16 years younger, and that brisk walking could lead to a younger biological age rather than the other way around. The study also suggests that time spent habitually in higher-intensity activities like brisk walking had a stronger association with biological age than the total amount of walking or distance. All in all, this supports the idea that more intensive and habitual movement, like increased walking pace, can impact biological markers and overall health. And better still, if you increase your pace, even a short walk could boost longevity.

Yahoo

a day ago

• Yahoo

Vera C. Rubin debut images: How to see the groundbreaking space photos from the world's largest camera

When you buy through links on our articles, Future and its syndication partners may earn a commission. The new Vera C. Rubin Observatory is set to release its debut images — taken with the largest digital camera ever built — on Monday (Jun. 23). The world-first images and videos will be ultra-high-definition and will show off the observatory's highly anticipated, cutting-edge capabilities for the first time. Here's what you need to know. If you want to watch from home, a news conference will be streaming on YouTube in English and Spanish at 11:00 a.m. EDT on Monday. The link to watch is posted on the observatory's website, and is also embedded here. If you'd prefer to bask in the awe of the cosmos with friends, you may be able to attend a watch party near you — or even host one of your own. Groups will gather across the globe in planetariums and universities to admire the highly detailed images and videos as they are released. The observatory has shared links to a map of all registered watch parties, as well as a link to sign up to become a host. During the news conference, the observatory team will introduce the Rubin Observatory before showcasing the new images and discussing their significance. Watch parties may also hear from local scientists and special guests. Be sure to check out the details of a watch party before you attend to learn about any extra programming. The observatory, perched high on a mountain in the Chilean Andes, will peer at interstellar comets and dangerous asteroids, as well as larger objects, like twisting galaxies and exploding supernovas. Related: 'People thought this couldn't be done': Scientists observe light of 'cosmic dawn' with a telescope on Earth for the first time ever Inside Rubin lies the world's largest digital camera and six of the largest optical filters ever produced. Together, they allow researchers to observe different facets of the universe in many wavelengths of light and remarkably high detail. The camera will take a new high-resolution photo of the sky around every 40 seconds. The images will then be transmitted via fiber optic cables to a supercomputer in California, which will analyze the photos. When stitched together, the images can act as a time-lapse video of space, one that is planned to span 10 years. RELATED STORIES —Space photo of the week: Observatory, or alien planet? Boggle your mind with this 360-degree image —Vera C. Rubin Observatory: The groundbreaking mission to make a 10-year, time-lapse movie of the universe —3,200-megapixel camera of the future Vera Rubin Observatory snaps record-breaking 1st photos Using its groundbreaking instruments, the observatory is expected to contribute to current understanding of widely debated phenomena, including dark energy and dark matter — two components that are thought to make up a vast majority of the universe, but remain poorly understood. The new images could be the first of many that vastly improve our understanding of the cosmos. Whether you join a watch party or tune in from the comfort of your couch, these photos are not to be missed.

Los Angeles Times

a day ago

• Los Angeles Times

Early humans adapted to extreme habitats. Researchers say it set the stage for global migration

WASHINGTON — Humans are the only animal that lives in virtually every possible environment, from rainforests to deserts to tundra. This adaptability is a skill that long predates the modern age. According to a new study published this week in Nature, ancient Homo sapiens developed the flexibility to survive by finding food and other resources in a wide variety of difficult habitats before they dispersed from Africa about 50,000 years ago. 'Our superpower is that we are ecosystem generalists,' said Eleanor Scerri, an evolutionary archaeologist at the Max Planck Institute of Geoanthropology in Jena, Germany. Our species first evolved in Africa around 300,000 years ago. Though prior fossil finds show some groups made early forays outside the continent, lasting human settlements in other parts of the world didn't happen until a series of migrations around 50,000 years ago. 'What was different about the circumstance of the migrations that succeeded — why were humans ready this time?' said study co-author Emily Hallett, an archaeologist at Loyola University Chicago. Earlier theories held that Stone Age humans might have made a single important technological advance or developed a new way of sharing information, but researchers haven't found evidence to back that up. This study, whose findings were published Wednesday, took a different approach by looking at the trait of flexibility itself. The scientists assembled a database of archaeological sites showing human presence across Africa from 120,000 to 14,000 years ago. For each site, researchers modeled what the local climate would have been like during the time periods that ancient humans lived there. 'There was a really sharp change in the range of habitats that humans were using starting around 70,000 years ago,' Hallet said. 'We saw a really clear signal that humans were living in more challenging and more extreme environments.' Though humans had long survived in savannas and forests, they shifted into diverse environments including dense rainforests and arid deserts in the period leading up to 50,000 years ago, developing what Hallet called an 'ecological flexibility that let them succeed.' Although this leap in abilities is impressive, it's important not to assume that only Homo sapiens did it, said University of Bordeaux archaeologist William Banks, who was not involved in the research. Other groups of early human ancestors also left Africa and established long-term settlements elsewhere, including those that evolved into Europe's Neanderthals, he said. The new research helps explain why humans were ready to expand across the world way back when, he said, but it doesn't answer the lasting question of why only our species remains today. Larson writes for the Associated Press.