Meet the 'Dragon Prince': New dinosaur discovery rewrites the Tyrannosaur family tree
A fascinating fossil discovery in
Mongolia
has uncovered a new species of
dinosaur
that could reshape everything we thought we knew about the evolution of Tyrannosaurs. Named Khankhuuluu Mongoliensis, or "Dragon Prince of Mongolia", this 86-million-year-old predator is now considered the closest known ancestor of the fearsome Tyrannosaurus rex. With its transitional traits and smaller size, the find reveals a crucial evolutionary chapter between small, agile hunters and the massive apex predators that ruled the Late Cretaceous. Scientists say the discovery, buried for decades in a museum collection, offers fresh insight into how Tyrannosaurs evolved their powerful bite, skull shape, and dominant ecological role in both Asia and North America.
A dinosaur fossil of 'Dragon Price' hidden in plain sight
The partial skeletons that led to this discovery were actually excavated in Mongolia back in the 1970s. At the time, they were thought to belong to a species called Alectrosaurus. It wasn't until PhD student Jared Voris took a closer look, decades later, that the unique features of this new species began to emerge. Working alongside Professor
Darla Zelenitsky
from the University of Calgary, Voris spotted key differences in the skull and nasal bones that clearly separated it from other known dinosaurs.
What is Khankhuuluu Mongoliensis
Named after the word for 'dragon' in Mongolian and the region it was found in, Khankhuuluu Mongoliensis bridges a crucial gap in the
Tyrannosaur
timeline. Weighing around 750 kilograms, it was far smaller than the T. rex, which could tip the scales at over 6 tonnes. But it had key traits that hint at the future kings of the dinosaur world. Its skull showed signs of strengthening, and its jaw was developing the structure needed for the bone-crushing bite Tyrannosaurs are known for.
The evolution of Tyrannosaurs
Early members of the Tyrannosaur family were small, quick-footed hunters living in the shadows of larger meat-eaters. Khankhuuluu represents a shift from these agile predators towards the bulkier, more powerful giants of the Late Cretaceous. With stronger jaws and a larger build than its predecessors, it shows how evolution favoured size and strength over time. These adaptations eventually led to the dominance of species like T. rex, which could take down massive prey and even crush bones.
A journey across continents
Another important insight from this discovery is the role of ancient land bridges between Asia and North America. During the Late Cretaceous period, areas like Siberia and Alaska were connected, allowing species like Tyrannosaurs to migrate and evolve in new environments. This movement helped spark the emergence of distinct groups on different continents, explaining how similar predators could be found in both Asia and North America.
Rewriting the family tree
With the addition of Khankhuuluu Mongoliensis to the record, palaeontologists now have a clearer picture of how Tyrannosaurs evolved. It fills a key gap between the small early forms and the gigantic predators that came later. The findings, published in the journal Nature, could prompt scientists to revisit other old fossils that may have been misclassified. This discovery serves as a reminder that sometimes the answers to big questions have been waiting quietly in storage.
What museum collections can still teach us
What makes this story even more remarkable is that the fossil had been sitting in a
Mongolian museum
for over 40 years. It highlights how valuable museum collections are and how new techniques, fresh perspectives and even young researchers can uncover major breakthroughs from existing specimens. Not every discovery requires a dig, some are hidden in plain sight.
Before the kings, there were princes
The discovery of Khankhuuluu Mongoliensis gives us a rare look at the early days of a dynasty. While this dinosaur didn't have the size or fearsome presence of its famous descendants, it carried the building blocks of what would become one of Earth's most iconic predators. As Professor Zelenitsky put it, 'Before Tyrannosaurs became the kings, they were princes.' And this dragon prince may just be the missing link we didn't know we needed.
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Time of India
17 hours ago
- Time of India
Meet the 'Dragon Prince': New dinosaur discovery rewrites the Tyrannosaur family tree
A fascinating fossil discovery in Mongolia has uncovered a new species of dinosaur that could reshape everything we thought we knew about the evolution of Tyrannosaurs. Named Khankhuuluu Mongoliensis, or "Dragon Prince of Mongolia", this 86-million-year-old predator is now considered the closest known ancestor of the fearsome Tyrannosaurus rex. With its transitional traits and smaller size, the find reveals a crucial evolutionary chapter between small, agile hunters and the massive apex predators that ruled the Late Cretaceous. Scientists say the discovery, buried for decades in a museum collection, offers fresh insight into how Tyrannosaurs evolved their powerful bite, skull shape, and dominant ecological role in both Asia and North America. A dinosaur fossil of 'Dragon Price' hidden in plain sight The partial skeletons that led to this discovery were actually excavated in Mongolia back in the 1970s. At the time, they were thought to belong to a species called Alectrosaurus. It wasn't until PhD student Jared Voris took a closer look, decades later, that the unique features of this new species began to emerge. Working alongside Professor Darla Zelenitsky from the University of Calgary, Voris spotted key differences in the skull and nasal bones that clearly separated it from other known dinosaurs. What is Khankhuuluu Mongoliensis Named after the word for 'dragon' in Mongolian and the region it was found in, Khankhuuluu Mongoliensis bridges a crucial gap in the Tyrannosaur timeline. Weighing around 750 kilograms, it was far smaller than the T. rex, which could tip the scales at over 6 tonnes. But it had key traits that hint at the future kings of the dinosaur world. Its skull showed signs of strengthening, and its jaw was developing the structure needed for the bone-crushing bite Tyrannosaurs are known for. The evolution of Tyrannosaurs Early members of the Tyrannosaur family were small, quick-footed hunters living in the shadows of larger meat-eaters. Khankhuuluu represents a shift from these agile predators towards the bulkier, more powerful giants of the Late Cretaceous. With stronger jaws and a larger build than its predecessors, it shows how evolution favoured size and strength over time. These adaptations eventually led to the dominance of species like T. rex, which could take down massive prey and even crush bones. A journey across continents Another important insight from this discovery is the role of ancient land bridges between Asia and North America. During the Late Cretaceous period, areas like Siberia and Alaska were connected, allowing species like Tyrannosaurs to migrate and evolve in new environments. This movement helped spark the emergence of distinct groups on different continents, explaining how similar predators could be found in both Asia and North America. Rewriting the family tree With the addition of Khankhuuluu Mongoliensis to the record, palaeontologists now have a clearer picture of how Tyrannosaurs evolved. It fills a key gap between the small early forms and the gigantic predators that came later. The findings, published in the journal Nature, could prompt scientists to revisit other old fossils that may have been misclassified. This discovery serves as a reminder that sometimes the answers to big questions have been waiting quietly in storage. What museum collections can still teach us What makes this story even more remarkable is that the fossil had been sitting in a Mongolian museum for over 40 years. It highlights how valuable museum collections are and how new techniques, fresh perspectives and even young researchers can uncover major breakthroughs from existing specimens. Not every discovery requires a dig, some are hidden in plain sight. Before the kings, there were princes The discovery of Khankhuuluu Mongoliensis gives us a rare look at the early days of a dynasty. While this dinosaur didn't have the size or fearsome presence of its famous descendants, it carried the building blocks of what would become one of Earth's most iconic predators. As Professor Zelenitsky put it, 'Before Tyrannosaurs became the kings, they were princes.' And this dragon prince may just be the missing link we didn't know we needed.
Time of India
4 days ago
- Time of India
73-million-year-old bird fossils found in Arctic, hint at nesting during dinosaur age
At a time when the Arctic was home to some of the last remaining dinosaurs, birds were not just surviving there– they were nesting and raising their young. A new international study has found fossil evidence confirming that birds were breeding in polar regions as far back as 73 million years ago, during the Late Cretaceous period. The discovery significantly pushes back the known timeline of bird activity in the Arctic and reveals that these ancient species were far more adaptable than previously believed. Fossil clues from Alaska offer fresh insight The research was carried out by an international team led by the University of Alaska Fairbanks, with participation from the University of Reading in the UK. The team studied over 50 small fossil specimens, including bones and teeth, collected from the Prince Creek Formation in northern Alaska– an area already known for dinosaur discoveries. According to Dr Jacob Gardner from the University of Reading, a co-author of the study, and as quoted by the University of Reading website, 'For the first time, we determined the identities of large numbers of fossils using high-resolution scans and the latest computer tools, revealing an enormous diversity of birds in this ancient Arctic ecosystem.' Juvenile bird fossils point to nesting behaviour Among the fossils, researchers identified several bones belonging to very young birds. by Taboola by Taboola Sponsored Links Sponsored Links Promoted Links Promoted Links You May Like This Wrinkle Cream Keeps Selling Out At Costco (Find Out Why) The Skincare Magazine Undo This rare find strongly suggests that birds were not simply migrating through the Arctic but were nesting and raising their offspring in the region. 'Finding bird bones from the Cretaceous period is already very rare. To find baby bird bones is almost unheard of. That is why these fossils are significant,' said Lauren Wilson, the lead author of the study, as quoted by the UAF website. Polar nesting began much earlier than thought The fossils are around 73 million years old, showing that birds were nesting in the Arctic at least 30 million years earlier than scientists thought. This discovery changes what we know about how early birds lived and how they adapted to harsh environments. As Wilson stated, 'Birds have existed for 150 million years. For half of the time they have existed, they have been nesting in the Arctic.' Range of bird types identified According to the report, the fossil remains showed several types of birds, including early diving birds, gull-like birds, and ones similar to today's ducks and geese. These birds seemed well-suited to life in the ancient Arctic, which was warmer than it is now but still tough for nesting. The study gives a rare and important look at how birds lived with dinosaurs in northern regions, helping us learn more about life in ancient ecosystems.
Time of India
6 days ago
- Time of India
76-million-year-old mystery: Crocodile-like predator left its mark on this fossil
A fossil unearthed in the badlands of Alberta, Canada, has offered a rare glimpse into the interactions between ancient reptiles that lived over 76 million years ago. Researchers studying the remains of a young flying reptile have found what appears to be clear evidence of a crocodile-like predator bite, making it an unusual and scientifically valuable discovery from the Late Cretaceous period. Bone with a bite: Pterosaur fossil found with tooth mark The fossil, a small neck bone of a juvenile pterosaur, was discovered in July 2023 during a field course led by Dr Brian Pickles from the University of Reading. After a detailed analysis, scientists identified a puncture wound on the bone, which they believe was caused by the tooth of a crocodilian species from the same era. The research was conducted jointly by scientists from the University of Reading, the Royal Tyrrell Museum of Palaeontology (Canada), and the University of New England (Australia). According to the team, micro-CT scans confirmed the mark was not the result of post-burial damage or fossilisation but a bite that likely occurred during the animal's lifetime or shortly after its death. Fragile fossil, uncommon evidence Pterosaur bones, due to their lightweight and hollow structure, rarely preserve well. This makes any fossilised sign of damage or interaction with other animals a rare find. As quoted by the BBC, according to Dr Caleb Brown from the Royal Tyrrell Museum of Palaeontology, 'Pterosaur bones are very delicate, so finding fossils where another animal has clearly taken a bite is exceptionally uncommon.' by Taboola by Taboola Sponsored Links Sponsored Links Promoted Links Promoted Links You May Like 5 motivi per rottamare ora la caldaia per una pompa di calore Aira Scopri di più Undo Dr Brown, who is the lead author of the research paper, further said, 'This specimen being a juvenile makes it even rarer.' The juvenile is believed to have belonged to the Azhdarchid group of pterosaurs. Researchers estimate this individual had a wingspan of about 2 metres. In contrast, adults of the same group were significantly larger, reaching wingspans of up to 10 metres. Insight into Cretaceous ecosystems Dr Brian Pickles, under whose supervision the discovery was made, highlighted the importance of such findings. 'Bite traces help to document species interactions from this period,' he said, as quoted by the BBC. He also explained that while it remains uncertain whether the young pterosaur was alive at the time of the bite, the fossil does indicate interaction between crocodilians and pterosaurs. 'We can't say if the pterosaur was alive or dead when it was bitten, but the specimen shows that crocodilians occasionally preyed on, or scavenged, juvenile pterosaurs in prehistoric Alberta over 70 million years ago,' Dr Pickles said, as quoted by the BBC. First of its kind in the North American fossil record This discovery is being noted as the first confirmed instance in North America of a crocodile-like predator feeding on a pterosaur. The scientific community regards it as a rare and significant addition to existing knowledge of Mesozoic-era life. The fossil provides a rare and direct record of how prehistoric creatures interacted within their ecosystems, especially involving species that rarely leave behind such detailed evidence. The study was published in the Journal of Palaeontology and adds a meaningful layer to our understanding of predator-prey dynamics in the Late Cretaceous period. Image credit: Created by Canva AI. For representational purposes only.
