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Scientists Date Remains of Ancient Child that Resembles Both Humans, Neanderthals

This photo provided by João Zilhão shows forearm bone fragments belonging to an ancient child that appeared to have features from both humans and Neanderthals. (João Zilhão via AP)
This photo provided by João Zilhão shows forearm bone fragments belonging to an ancient child that appeared to have features from both humans and Neanderthals. (João Zilhão via AP)
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Scientists Date Remains of Ancient Child that Resembles Both Humans, Neanderthals

This photo provided by João Zilhão shows forearm bone fragments belonging to an ancient child that appeared to have features from both humans and Neanderthals. (João Zilhão via AP)
This photo provided by João Zilhão shows forearm bone fragments belonging to an ancient child that appeared to have features from both humans and Neanderthals. (João Zilhão via AP)

Scientists have dated the skeleton of an ancient child that caused a stir when it was first discovered because it carries features from both humans and Neanderthals.
The child's remains were discovered 27 years ago in a rock shelter called Lagar Velho in central Portugal. The nearly complete skeleton was stained red, and scientists think it may have been wrapped in a painted animal skin before burial.
When the humanlike child was discovered, scientists noted that some of their attributes — including body proportions and jawbone — looked Neanderthal. The researchers suggested that the child was descended from populations in which humans and Neanderthals mated and mixed. That was a radical notion at the time, but advances in genetics have since proven those populations existed — and people today still carry Neanderthal DNA.
But trying to figure out when exactly the child lived has been difficult. Small roots had grown through the bones and contamination — from plants or other sources — made it impossible for scientists to use traditional carbon dating to measure the child's age. They instead dated the charcoal and animal bones around the skeleton to between 27,700 and 29,700 years ago.
Techniques have improved, and researchers reported Friday in the journal Science Advances that they were able to date the skeleton by measuring part of a protein that's found primarily in human bones, The Associated Press reported.
Examining part of a crushed arm, they revealed that the earlier estimate was in the ballpark: the skeleton was from between 27,700 and 28,600 years ago.
“Being able to successfully date the child felt like giving them back a tiny piece of their story, which is a huge privilege,” said Bethan Linscott, a study author now at the University of Miami, in an email.
She noted the initial discovery was more than a skeleton — it was also the grave of a young child. When dating the bones, she couldn’t help but wonder who loved the child, what made them laugh and what their world looked like in the short four years they walked the planet.
Paul Pettitt, an archaeologist at Durham University in England who was not involved with the new research said in an email that the study is an example of how dating methods are becoming more effective and helping scientists better understand the past.
The study of where humans came from is important “for the same reason we keep the portraits of our parents and grandparents,” said study author João Zilhão from the University of Lisbon.
“It's a way of remembering,” he said.

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Sharks Are Famous for Fearsome Teeth, but Ocean Acidification Could Make them Weaker

In this undated handout photo provided by Heinrich Heine University Duesseldorf in January 2026, a blacktip reef shark swims at Sealife Oberhausen in Oberhausen, Germany. (Maximilian Baum/Heinrich Heine University Duesseldorf via AP)
In this undated handout photo provided by Heinrich Heine University Duesseldorf in January 2026, a blacktip reef shark swims at Sealife Oberhausen in Oberhausen, Germany. (Maximilian Baum/Heinrich Heine University Duesseldorf via AP)
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Sharks Are Famous for Fearsome Teeth, but Ocean Acidification Could Make them Weaker

In this undated handout photo provided by Heinrich Heine University Duesseldorf in January 2026, a blacktip reef shark swims at Sealife Oberhausen in Oberhausen, Germany. (Maximilian Baum/Heinrich Heine University Duesseldorf via AP)
In this undated handout photo provided by Heinrich Heine University Duesseldorf in January 2026, a blacktip reef shark swims at Sealife Oberhausen in Oberhausen, Germany. (Maximilian Baum/Heinrich Heine University Duesseldorf via AP)

Sharks are the most feared predators in the sea, and their survival hinges on fearsome teeth that regrow throughout their lives. But changes in the ocean's chemistry could put those weapons at risk.

That is the takeaway from a study performed by a group of German scientists who tested the effects of a more acidic ocean on sharks' teeth. Scientists have linked human activities including the burning of coal, oil and gas to the ongoing acidification of the ocean, The Associated Press reported.

As oceans become increasingly acidic, sharks' teeth could become structurally weaker and more likely to break, the scientists found. That could change the big fishes' status at the top of the ocean's food chain, they wrote.

The ocean will not become populated with toothless sharks overnight, said the study's lead author, Maximilian Baum, a marine biologist at Heinrich Heine University Düsseldorf. But the possibility of weaker teeth is a new hazard to sharks that already face pollution, overfishing, climate change and other threats, Baum said.

“We found there is a corrosion effect on sharks' teeth,” Baum said. “Their whole ecological success in the ocean as the rulers of other populations could be in danger.”

The researchers, who published their work in the journal Frontiers in Marine Science, performed their study as ocean acidification has become an increasing focus of conservation scientists.

Acidification occurs when oceans absorb more carbon dioxide from the air, the National Oceanic and Atmospheric Administration has said. The ocean is expected to become almost 10 times more acidic than it currently is by the year 2300, the German scientists wrote.

The scientists performed their study by collecting more than 600 discarded teeth from an aquarium that houses blacktip reef sharks, a species of shark that lives in the Pacific and Indian oceans and typically grows to about 5.5 feet (1.7 meters) long. They then exposed the teeth to water with the acidity of today and the projected acidity of 2300.

The teeth exposed to the more acidic water became much more damaged, with cracks and holes, root corrosion and degradation to the structure of the tooth itself, the scientists wrote.

The results “show that ocean acidification will have significant effects on the morphological properties of teeth,” the scientists wrote.

Still the ocean's top predator Shark teeth are “highly developed weapons built for cutting flesh, not resisting ocean acid,” Baum said. Sharks will go through thousands of teeth in a lifetime, and the teeth are critical for allowing sharks to regulate populations of fish and marine mammals in the oceans.

Many sharks are also facing extinction jeopardy, as more than a third of shark species are currently threatened with extinction according to the International Union for Conservation of Nature. Thankfully, sharks have a number of factors that can help them stave off the negative effects of ocean acidification, said Nick Whitney, senior scientist at the Anderson Cabot Center for Ocean Life at the New England Aquarium.

Whitney, who was not involved in the study, said the scientists' work on the shark teeth was sound. However, because shark teeth develop inside the mouth tissue of sharks, they will be shielded from changes in ocean chemistry for a time, he said.

And history has taught us that sharks are survivors, Whitney said.

“They've been around for 400 million years and have evolved and adapted to all kinds of changing conditions,” he said.

Ocean acidification could be a concern, but overfishing remains the biggest threat to sharks, said Gavin Naylor, director of the Florida Program for Shark Research at the Florida Museum of Natural History.

Acidification will bring many changes Naylor and others cautioned that ocean acidification is indeed going to pose many threats to the ocean beyond just sharks. Ocean acidification is expected to be especially harmful to shellfish such as oysters and clams because it will make it more difficult for them to build shells, NOAA has said.

It could also make fish scales weaker and more brittle. It's tough to say now whether that could ultimately benefit the sharks that feed on them, Naylor said.

For now, ocean acidification can't be disregarded as a threat facing sharks, Baum said. Some shark species could come close to extinction in the coming years and ocean acidification could be one of the factors causing that to happen, he said.

“The evolutionary success of sharks is dependent on their perfectly developed teeth,” Baum said.

Varieties

Mummified Cheetahs Found in Saudi Caves Shed Light on Lost Populations

This undated image provided by Communications Earth and Environment shows the mummified remains of a cheetah. (Ahmed Boug/Communications Earth and Environment via AP)
This undated image provided by Communications Earth and Environment shows the mummified remains of a cheetah. (Ahmed Boug/Communications Earth and Environment via AP)
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Mummified Cheetahs Found in Saudi Caves Shed Light on Lost Populations

This undated image provided by Communications Earth and Environment shows the mummified remains of a cheetah. (Ahmed Boug/Communications Earth and Environment via AP)
This undated image provided by Communications Earth and Environment shows the mummified remains of a cheetah. (Ahmed Boug/Communications Earth and Environment via AP)

Scientists have uncovered the mummified remains of cheetahs from caves in northern Saudi Arabia.

The remains range from 130 years old to over 1,800 years old. Researchers excavated seven mummies along with the bones of 54 other cheetahs from a site near the city of Arar.

Mummification prevents decay by preserving dead bodies. Egypt's mummies are the most well-known, but the process can also happen naturally in places like glacier ice, desert sands and bog sludge.

The new large cat mummies have cloudy eyes and shriveled limbs, resembling dried-out husks.

“It’s something that I’ve never seen before,” said Joan Madurell-Malapeira with the University of Florence in Italy, who was not involved with the discovery.

Researchers aren’t sure how exactly these new cats got mummified, but the caves’ dry conditions and stable temperature could have played a role, according to the new study published Thursday in the journal Communications Earth and Environment.

They also don't know why so many cheetahs were in the caves. It could have been a denning site where mothers birthed and raised their young.

Scientists have uncovered the rare mummified remains of other large cats, including a saber-toothed cat cub in Russia.

It's uncommon for large mammals to be preserved to this degree. Besides being in the right environment, the carcasses also have to avoid becoming a snack for hungry scavengers like birds and hyenas.

Cheetahs once roamed across most of Africa and parts of Asia, but now live in just 9% of their previous range and haven't been spotted across the Arabian Peninsula for decades. That’s likely due to habitat loss, unregulated hunting and lack of prey, among other factors.

In a first for naturally mummified large cats, scientists were also able to peek at the cheetahs' genes and found that the remains were most similar to modern-day cheetahs from Asia and northwest Africa. That information could help with future efforts to reintroduce the cats to places they no longer live.

Varieties

Vonn Launches Social Media Search Mission After Ski Pole Goes Missing

US' Lindsey Vonn crosses the finish line to win the Women's Downhill event of the FIS Alpine Ski World Cup in Altenmarkt Zauchensee, Austria, on January 10, 2026. (AFP)
US' Lindsey Vonn crosses the finish line to win the Women's Downhill event of the FIS Alpine Ski World Cup in Altenmarkt Zauchensee, Austria, on January 10, 2026. (AFP)
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Vonn Launches Social Media Search Mission After Ski Pole Goes Missing

US' Lindsey Vonn crosses the finish line to win the Women's Downhill event of the FIS Alpine Ski World Cup in Altenmarkt Zauchensee, Austria, on January 10, 2026. (AFP)
US' Lindsey Vonn crosses the finish line to win the Women's Downhill event of the FIS Alpine Ski World Cup in Altenmarkt Zauchensee, Austria, on January 10, 2026. (AFP)

Lindsey Vonn may be dominating World Cup downhills at 41, but even the US speed queen is not immune to missing equipment.

Vonn took to social media on Thursday with an unusual plea after losing a ski pole in Tarvisio, Italy, ahead of this weekend's World Cup event.

"Someone took ‌my pole ‌in the parking ‌lot ⁠today in ‌Tarvisio. If you have seen it, please respond to this. Thank you," Vonn wrote on X, posting a photo of the matching pole complete with her initials on the ⁠hand strap.

Vonn, a favorite for the speed events ‌at next month's Milano-Cortina ‍Olympics, retired ‍from the sport in 2019 and ‍had a partial knee replacement in April 2024 but returned to competition later that year and has been enjoying a fairy-tale comeback that has defied age and expectation.

Already the oldest ⁠World Cup winner of all time, Vonn continued her astonishing, age-defying form with a downhill victory in Zauchensee, Austria last week.

That triumph marked Vonn's fourth podium from four downhills this season, cementing her lead in the World Cup standings and her status as the woman to ‌beat at next month's Olympics.