Tag Archives: rhinoceros

14,400-Year-Old Woolly Rhinoceros Genome Reveals No Signs of Recent Inbreeding

Posted on by
Reply

The Woolly Rhino (Coelodonta antiquitatis) is a fascinating cold-adapted herbivore that went extinct approximately 14,000 years ago. Despite its extinction, little is understood about the factors leading to its population decline. A recent study by scientists from the Center for Paleogenetics and Stockholm University successfully generated a high-coverage genome from one of the last known woolly rhinoceros specimens, recovered from the stomach of a frozen wolf pup in Siberian permafrost. This genomic analysis, when combined with data from two other late Pleistocene woolly rhinoceroses, reveals that the population was stable, lacking any genomic evidence of rapid declines before extinction—contrasting sharply with other endangered and extinct species.

This depiction of a Pleistocene landscape in northern Spain features woolly mammoths (Mammuthus primigenius), equids, woolly rhinoceros (Coelodonta antiquitatis), and the European cave lion (Panthera leo spelaea) alongside reindeer carcasses. Image credit: Mauricio Anton.

The woolly rhino, a cold-adapted herbivore, first appeared around 350,000 years ago and thrived across northern Eurasia until its extinction roughly 14,000 years ago.

Its habitat began to contract eastward approximately 35,000 years ago, likely due to adverse environmental conditions in Western Europe.

This species persisted in northeastern Siberia and showcased complex range shifts in response to changing environments until disappearing from the fossil record.

Earlier genomic studies have shown no signs of recent inbreeding in individuals dating back 18,400 and 48,500 years; however, this is the first time an entire genome has been successfully recovered from a specimen so close to the extinction timeline.

“Recovering genomes from individuals that lived just before extinction is challenging but crucial for understanding a species’ decline, which can inform current conservation efforts for endangered species,” stated Dr. Camilo Chacon-Duque, the lead author of the study.

The newly sequenced woolly rhinoceros genome was sourced from muscle tissue found within a permafrost-preserved wolf pup recovered from northeastern Siberia.

Radiocarbon dating indicates that both the wolf and the tissue are about 14,400 years old, making it one of the youngest known woolly rhino remains.

“Sequencing the entire genome of an Ice Age animal found in another animal’s stomach is unprecedented,” Dr. Chacon-Duque commented.

By comparing this genome with two previously published late Pleistocene woolly rhinoceros genomes, researchers assessed genome-wide diversity, inbreeding, genetic load, and population size changes before extinction.

Results indicated a lack of long homozygous segments typically seen in populations experiencing recent inbreeding, suggesting stability in population size just centuries before extinction.

“DNA extraction from such a rare sample was both thrilling and immensely challenging,” said Solveig Gjonsdottir, the lead study author.

Researchers also mapped changes in effective population size and found no decline at the beginning of the Inter-Bolling-Allerod warm period, starting around 14,700 years ago.

The data imply that woolly rhinoceros extinction likely happened rapidly during this climate change period, or over a timeframe that left no detectable genomic evidence.

“Our analysis reveals an unexpectedly stable genetic pattern, showcasing unaltered inbreeding levels over tens of thousands of years prior to the woolly rhino’s extinction,” said co-author Dr. Edana Lord.

“Our findings indicate that woolly rhinos maintained viable populations for 15,000 years following the arrival of the first humans in northeastern Siberia. This suggests that climate warming, rather than human hunting, was the primary driver of their extinction,” co-author Professor Rab Dalen concluded.

For further details, refer to the study results published in Genome Biology and Evolution.

_____

Solveig M. Gudjonsdottir et al. 2026. Genome reveals no recent inbreeding in endangered woolly rhinoceros sample found in ancient wolf stomach. Genome Biology and Evolution 18 (1): evaf239; doi: 10.1093/gbe/evaf239

Source: www.sci.news

Scientists Find Woolly Rhinoceros DNA in Stomach of Mummified Wolf Pup

Posted on by
Reply

Two ancient wolf cubs, discovered buried in the Siberian permafrost over a decade ago, are now shedding new light on their past through rich DNA evidence hidden in their remains.

For the first time, researchers have uncovered a piece of woolly rhino meat—an animal comparable in size to modern white rhinos but with a thick furry coat—preserved in the stomach of one of the wolf puppies. The DNA from this meat and fur has remarkably survived for over 14,000 years under the ice, enabling scientists to sequence the entire genome. They published their findings in the Wednesday Journal “Genome Biology and Evolution”.

“This is the first instance where an entire genome has been reconstructed from an Ice Age animal found within another Ice Age animal,” stated study author Camilo Chacón-Duque, an evolutionary biologist from Uppsala University in Sweden. “The genome quality is exceptional and of high resolution.”

A piece of woolly rhinoceros tissue found in the stomach of a preserved wolf pup in Stockholm in 2020.love darren

The woolly rhinoceros in question went extinct approximately 14,400 years ago, just a few hundred years prior to its disappearance from the fossil record. This gives researchers a unique glimpse into the genome of a species on the brink of extinction.

“This sample represents the youngest woolly rhinoceros ever sequenced, marking the closest proximity of the species to extinction,” Chacon-Duque noted.

Evolutionary biologists have long debated whether it was human hunters or climate change that ultimately led to the woolly rhinoceros’s extinction. New genomic data indicates that the population may have been robust until its sudden decline.

Tumat-1 wolf pup in Vienna in 2018.Miech Germonpre

The first of the two small puppies was discovered by ivory hunters searching for mammoth tusks in Siberia nearly 15 years ago, with the other being found four years later.

These mummified animals, known as the “Tumat pups,” have unexpectedly aided scientists in exploring the fate of another species.

According to the research, both puppies were female and likely littermates, found just six feet apart and sharing several DNA traits, as noted in a study published in Quaternary Research magazine last year.

A section of permafrost where a Tumat wolf pup was discovered near the Russian village of Tumato in 2011. Co-author Sergei Fedorov and his colleagues are in the foreground.Sergey Fedorov

“They died at a young age, around nine weeks,” explained Anne-Catherine Wyborg Runge, co-author of the Quaternary research paper. “At that age, they still had their baby teeth.”

Initial studies suggested that thawing permafrost may have triggered landslides, entombing the wolves in ice and snow, although it’s also possible that the puppies perished due to a collapsing burrow.

“They would have been buried instantly and then frozen for 14,000 years,” noted Runge’s co-author Nathan Wales, a senior archaeology lecturer at the University of York, UK.

Interestingly, the puppies were discovered near where ancient humans hunted woolly mammoths, suggesting they might have been domesticated dogs rather than wild wolves. However, no mammoth DNA was found in the pup’s stomach. Researchers believe one pup’s last meal was woolly rhinoceros meat, while the other had recently eaten a bird, leaving behind rhino meat and some feathers in the permafrost.

Study co-authors Sergei Fedorov and Mikkel Sinding conducted an autopsy in Vienna in 2018 on a Tumat wolf pup whose stomach contained woolly rhinoceros tissue fragments.Miech Germonpre

In a recent study published Wednesday, Chacón-Duque sequenced resilient chunks of meat from the animal’s last meal.

“This piece had remained in the pup’s stomach for years. It’s truly remarkable,” Runge remarked.

Although complete woolly rhinoceros genomes are rare, researchers compared their findings with two other high-quality genomes from rhinos that went extinct approximately 18,000 and 49,000 years ago.

Rab Dalen, co-author of the new study, poses with a woolly rhinoceros horn.Irina Kirilova

Chacón-Duque and team detected no signs of inbreeding or harmful mutations within the population, indicating it was robust.

“They haven’t identified any indicators suggesting population collapse, which is peculiar considering the species went extinct,” noted Wales, an ancient DNA expert not involved in the study.

Several centuries after the woolly rhinoceros roamed these areas, a significant warming phase commenced in the Northern Hemisphere, marking the end of the Ice Age. Study authors believe this newly sequenced DNA supports the hypothesis that climate change contributed to the woolly rhino’s extinction.

J Camilo Chacón Duque, co-author of the groundbreaking study.Natalia Romagosa

Chacón-Duque posits that the rising temperatures likely exert stress on cold-adapted populations, and human expansion could have facilitated the spread of diseases affecting the woolly rhino.

“All these factors likely interacted synergistically, contributing to the species’ ultimate demise,” Chacón-Duque concluded. “Without a doubt, climate change played a significant role.”

Mick Westbury, an associate professor and expert on ancient rhinos from the Technical University of Denmark, agrees with the theory’s plausibility.

However, Westbury points out that rare ancient DNA can pose interpretation challenges and that generational changes can heavily impact a species’ genetics. The woolly rhinoceros may have been at risk even if genetic analyses did not immediately indicate it.

“Sometimes, genomics alone doesn’t provide the complete picture,” Westbury remarked.

Nonetheless, Westbury suggests that these findings could offer vital insights for conservation efforts as human-induced climate change becomes an increasing threat to existing species.

“Our results indicate that the woolly rhino does not appear to be on the brink of extinction,” Westbury noted. “A species may seem genetically viable on the surface but still face vulnerabilities.”

Source: www.nbcnews.com

Ancient Woolly Rhinoceros Genome Found in Frozen Wolf Pup’s Stomach Meat

Posted on by
Reply

Woolly Rhinoceros - an ancient herbivore

Woolly Rhinoceros: Icon of the Last Ice Age

History Collection / Alamy

A recently reconstructed genome from a piece of flesh found in the stomach of a wolf pup, dated to 14,400 years ago, reveals that the woolly rhinoceros was genetically robust despite its close proximity to extinction.

While the exact cause of the young female wolf pup’s death, near present-day Tumato in northern Siberia, remains a mystery, it is believed she and her sister, referred to as Tumat puppies, had recently consumed woolly rhinoceros meat (Coelodonta antiquitatis). Their mother inadvertently caused their burial in permafrost when their burrow collapsed.

The first puppy was discovered on-site in 2011, with the second found in 2015. Examination of one puppy’s stomach contents revealed remnants of woolly rhino meat.

Edana Road, a member of the research team at Stockholm University, remarked that the preserved material resembled “fluffy jerky.”

“It was astonishing to see hair still intact,” Lord commented.

Lord stated that the preservation of the tissue was almost miraculous.

“It’s remarkable that, thousands of years later, we retrieved a beautifully preserved mummified wolf pup, analyzed its stomach contents, and uncovered this woolly rhinoceros tissue, shedding light on a previously different species,” Lord adds.

Tumat Wolf Pup: Evidence of Woolly Rhinoceros Diet

Mietje Germonpre

Lord’s team successfully reconstructed the woolly rhinoceros genome, identifying it as a female with no signs of inbreeding.

This groundbreaking finding is significant because it marks the first time DNA has been recovered from a woolly rhinoceros close to the time of its extinction.

The cause behind the woolly rhinoceros’ extinction remains a topic of debate, encompassing the impacts of human hunting, climate change, and inbreeding.

Another researcher on the team, Darren Love, noted that the sample’s hair was yellowish, leading to initial thoughts that it belonged to a cave lion carcass (Panthera spelaea) until DNA analysis was performed.

“As far as I know, sequencing an entire ancient genome from stomach contents has never been accomplished before,” Darren stated.

The research team compared the new genome with two others from the woolly rhinoceros, dating back 18,000 and 49,000 years, discovering no evolution in genetic diversity or inbreeding levels over time.

“Had populations dwindled, we would expect a drop in genetic diversity among woolly rhinoceroses, alongside an increase in inbreeding,” Darren explained.

The researchers concluded that the most probable driver behind the woolly rhinoceros extinction was a rapid climate shift between 14,700 and 12,900 years ago, during the Bølling-Allerød Interstadial, which drastically altered the species’ habitat.

Topics:

Source: www.newscientist.com

Paleontologists reveal that Extinct North American rhinoceros thrived in large groups

Posted on by
Reply

Paleontologists looked at the teeth Teleoce’s major – Found in an extinct species of nasal bacteria that lived in North America from 17.5 million to 5 million years ago. Ash falling fossil bed Nebraska, USA. Here, over 100 Teleoce’s major The individual in a single hole died and was buried in ashes from the eruption of Yellowstone’s superintendent.

The flock of Teleotheras Sister. Image credit: Jay Matternes/Smithsonian Museum.

Since discovering the rhinoceros at Nebraska’s Ashwood Fossil Bed State Park in 1971, researchers have wondered what attracted so many animals in the same location.

Did they converge from afar? Perhaps they sought shelter from natural disasters that unfolded volcanic eruptions with those asphyxiation ash?

“We found out they weren’t moving much,” said Clark Ward, a researcher at the University of Minnesota.

“We found no evidence of seasonal migration or disaster response.”

Ward and colleagues looked at the ratio of strontium, oxygen and carbon isotopes Teleoce’s major Teeth tracking long, operating animal movements across the landscape.

“By studying the carbon of animals, we can reconstruct the carbon of our environment and understand what kind of vegetation lived there,” Ward said.

“You can use it to reconstruct how wet and dry the environment is.”

“And strontium tells us where the animals are forged because isotopic ratios are associated with soil and supporting bedrock.”

Teleoce’s major It was a one-horned rhino with a barrel-shaped body and sturdy hippo-like legs. Like hippos, they ate grass.

And, like hippos, researchers believe that these rhinoceros have spent a lot of time in and around the water.

Due to their vast size, they had few predators during the Miocene era.

However, their calves would have been vulnerable to predators like hyenas, known as bone-breaking dogs.

In fact, some of the specimens found on the Nebraska site have evidence that the scavenger removed some of the bodies after its death. And ancient trucks from a 45 kg (100 pound) dog are found there.

The giant Yellowstone volcano has erupted many times over the past 12 million years.

“The ashes from the eruption traveled 1,127 km (700 miles) in what is now Nebraska, where they piled up in snow, like snow,” Ward said.

“But the ashes that were blown by the wind continued to fall into Nebraska, long after the first eruption.”

“The ashes would have covered everything: grass, leaves, water.”

“Reconstructing how we equip the ancient landscapes that have disappeared provides an important context for understanding their paleoecology and sociality, and the environment in which they lived,” the scientists concluded.

Their paper Published in the journal Scientific Report.

____

CT Word et al. 2025. Enamel carbon, oxygen and strontium isotopes reveal limited mobility in extinct rhinoceros in Ashford Fossil Bed, Nebraska, USA. Sci Rep 15, 11651; doi:10.1038/s41598-025-94263-z

Source: www.sci.news