Tag Archives: Cheetah

Cheetah Discovered Preserved as a Mummy in a Cave in Saudi Arabia

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One of the mummified cheetahs found in a cave

Ahmed Boug et al. 2025/Saudi Arabia’s National Center for Wildlife

Recent findings report the discovery of seven cheetah mummies, dating back thousands of years, in caves located in Saudi Arabia.

The cheetah (acinonyx jubatus) populations have seen drastic reductions due to habitat destruction, hunting, and the wildlife trade, leading to their disappearance from the Arabian Peninsula several decades ago. Ahmed Boug and his associates at the National Wildlife Centre in Riyadh revealed details about these seven mummified cheetahs along with 54 skeletal sites found in the Lauga Cave Network in northern Saudi Arabia during the years 2022 and 2023.

The mummies, preserved through a unique process that inhibits decomposition, date back approximately 4,000 to 100 years.

“These discoveries are incredibly significant,” states Anne Schmidt Künzel from the Cheetah Conservation Fund in Namibia. “While the mummification of Negrids isn’t wholly unexpected, this marks a groundbreaking and important find.”

“The stable temperature and low humidity in the cave environment likely aided the mummification process,” the researchers noted.

The reason for the cheetahs’ presence in the cave remains a mystery, as these animals typically do not utilize caves as dens or for storing carcasses. At the time of investigation, none of the five caves revealed any water supply.

Many of the remains were located in caves accessible solely via sinkholes, leading Schmidt Künzel to propose that the cheetahs may have fallen and become trapped. Additionally, remains of other animals including insects, wolves, striped hyenas, gazelles, and red foxes were also discovered here.

Upon examining 20 complete cheetah skulls, researchers found that six belonged to adults, while the rest were from individuals aged between 6 and 24 months. There were also nine cub skeletons located in the primary cave. The abundance of young cheetahs indicates that adult females might have used the cave for collective protection, according to Schmidt Künzel.

Camera traps set up during the investigation indicated that wolves were also using these caves. “This implies that during the cheetah’s lifespan, they may have frequented several, if not all, of these caves, enabling them to enter intentionally,” Schmidt Künzel added.

While there is only one species of cheetah, it is divided into four genetically distinct subspecies. The Southeast African cheetah (acinonyx jubatus jubatus) is the most populous, while the Northeast African cheetah (acinonyx jubatus soemmeringii) and Northwest African cheetah (acinonyx jubatus heck) exist in smaller, fragmented groups. The Asian cheetah (acinonyx jubatus venaticus), meanwhile, has very few remaining members in Iran.

Boug and his team sequenced the genomes of three sets of artifacts. Their research indicated that the mummified individuals are most closely related to the Asian subspecies, currently found in that region.

Schmidt-Künzel emphasizes that this work supports the notion that all cheetah subspecies can adapt to similar arid conditions, making it feasible to reintroduce them to the area through selective breeding of African subspecies.

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Source: www.newscientist.com

Research Shows That the Medium Size of a Cheetah Contributes to its Unmatched Speed

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The fastest animals are neither large elephants nor small ants, but intermediate sizes such as: Cheetah(Acinonychus jubatus). Why does running speed deviate from the regular patterns that govern an animal's anatomy and most other aspects of performance? A new study shows that, as previously thought, maximum running speed This suggests that there is not one limit to speed, but two: the speed and distance at which the muscle contracts. The maximum speed an animal can reach is determined by which limit is reached first, and that limit is determined by the size of the animal.

Cheetah (Acinonychus jubatus).

University of the Sunshine Coast researcher Professor Christopher Clemente said: “The key to our model is understanding that maximum running speed is limited by how fast the muscles contract and how much they can shorten during contraction. ” he said. University of Queensland.

“Animals as big as cheetahs exist in a physical sweet spot of about 50 kg where these two limits meet. Therefore, these animals are the fastest, with speeds of up to 105 km/h (65 mph). will reach.”

The first limit is called the “kinetic energy capacity limit'' and suggests that muscles in small animals are limited by how fast they can contract.

Because small animals generate large forces relative to their body weight, running for them is similar to trying to accelerate in a low gear when riding a bicycle downhill.

The second limitation is called the “work capacity limitation” and suggests that muscles in large animals are limited by the range over which they can contract.

Large animals are heavy, so their muscles produce less force relative to their body weight, and running is similar to trying to accelerate up a hill in a high gear on a bicycle.

“For large animals like rhinos and elephants, running can feel like lifting huge weights because their muscles are relatively weak and gravity takes a big toll on them,” says Harvard University. says researcher Dr. Peter Bishop.

“As a result of both, animals eventually have to slow down as they grow.”

To test the model's accuracy, the authors compared its predictions to land animal speed and size data from more than 400 species, ranging from large mammals, birds, and lizards to small spiders and insects.

The model accurately predicted how maximum running speed varied with body size for animals whose weights varied by more than 10 orders of magnitude, from a tiny 0.1 milligram tick to a 6-ton elephant.

Their findings shed light on the physical principles behind how muscles evolved and could inform future designs of robots that can match the athletic performance of the best animal runners.

The new model may not only explain how fast animals can run, but also provide important clues for understanding differences between groups of animals.

Large reptiles, such as lizards and crocodiles, are generally smaller and slower than large mammals.

“One possible explanation for this may be that reptiles' limb muscles make up a small proportion of their body mass, meaning that reptiles reach their work limits quickly when they are light. It needs to stay small in order to move,” he said. Taylor Dick is a researcher at the University of Queensland.

The researchers' model, combined with data from living species, also predicted that land animals weighing more than 40 tonnes would be unable to move.

The heaviest land mammal living today is the African elephant, which weighs approximately 6.6 tons, but there are also land dinosaurs such as: Patagotitanit probably weighed well over 40 tons.

“This indicates that caution is needed in extrapolating the muscle anatomy of extinct animals from data from non-extinct animals,” the researchers said.

“Rather, the data indicate that extinct giants may have evolved unique muscle anatomy, which warrants further study.”

Dr David Labonte, a researcher at Imperial College London, said: “Our study raises many interesting questions about muscle physiology in both extinct animals and living animals, including human athletes.” said.

“Physical constraints affect animals that swim and fly just as they do animals that run, and lifting these constraints is our next challenge.”

a paper The survey results were published in a magazine nature communications.

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D. Labonte other. 2024. Dynamic similarity and unique allometry of maximum running speed. Nat Commune 15, 2181; doi: 10.1038/s41467-024-46269-w

Source: www.sci.news