Tag Archives: specimens

Two New Edmontosaurus anectens Specimens Reveal Scale and Hoof Details

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Paleontologists studied two remarkable specimens of end-Cretaceous duck-billed dinosaurs, Edmontosaurus anectens. They employed various imaging techniques to reconstruct the species’ physical appearance during its life, showcasing features such as the prominent crest over the neck and torso, a row of spikes on the tail, and the hooves covering the toes. Alongside fossilized footprints, Edmontosaurus anectens is now in my grasp.

Reconstruction of the life of Edmontosaurus anectens. Image credit: Dani Navarro.

“This marks the first time we’ve been able to capture a comprehensive and specific depiction of a large dinosaur,” stated researchers from the University of Chicago, including Professor Paul Sereno, the lead author of the study.

“The badlands of Wyoming, where this discovery occurred, serve as a unique ‘mummy zone’, promising additional surprises from fossils collected over years by a team of university undergraduates.”

Professor Sereno and colleagues utilized historical photographs and field research to outline a compact “mummy zone” in central-eastern Wyoming, home to several notable dinosaur “mummies” unearthed in the early 20th century.

They discovered two new mummies within piles of river sand: Edmontosaurus anectens — consisting of juveniles and adults — which preserved a large, continuous area of the external skin surface.

Using these specimens, they reconstructed a complete, fleshy profile of the species.

“The two specimens complemented each other exceptionally well,” Professor Sereno remarked.

“For the first time, we could visualize the entire outline rather than isolated patches.”

Paleontologists identified a continuous midline feature that begins as a fleshy crest along the neck and torso, transitioning into a row of spikes across the hips and down the tail. Each spike was identified on a single vertebra and interlocked with one another.

The lower body and tail featured the largest polygonal scales, while the majority were small, pebble-like scales just 1 to 4 millimeters in diameter, surprisingly tiny for a dinosaur exceeding 12 meters (40 feet) in length.

Wrinkles on the thorax indicate that this dinosaur had thin skin.

The hind legs of the significant “mummy” revealed the most unexpected finding: hooves.

The tips of each of the three hind legs were encased in wedge-shaped hooves with flat soles, akin to a horse’s.

Researchers utilized CT scans of the specimen’s feet and 3D images of the best-preserved footprints from the same era to accurately map the former to the latter.

Data from both sources enabled precise reconstruction of the hind paw’s appearance.

In contrast to the front feet, which made contact with the ground solely via the hooves, the hind feet featured thick heel pads behind the hooves.

“These duck-billed ‘mummies’ reveal several remarkable ‘firsts’: the oldest hooves ever found in a land vertebrate, the first ungulate reptile identified, and the first ungulate quadruped exhibiting distinct front and hind limb postures,” Professor Sereno asserted.

The team’s paper was published in today’s magazine, Science.

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Paul C. Sereno et al. 2025. The fleshy midline and hooves of a duck-billed dinosaur reveal a template for terrestrial clay ‘mummification.’ Science, published online October 23, 2025. doi: 10.1126/science.adw3536

Source: www.sci.news

New Archeopteryx specimens discovered in Germany

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Paleontologists explain new specimens of the genus Archeopteryx From the Mercim Formation in Franconia Albus in Bavaria, Germany.

Karlsruhe specimen: (a) Original condition of the slab before preparation. (b) Slab containing the remains of the left arm and fragments of the right arm after initial preparation. Image credit: foth et al. , doi: 10.3897/fr.28.131671.

Archeopteryx It is a genus of dinosaurs, like feathered birds, that lived during the Jurassic period about 150 million years ago.

3 species and over 10 specimens Archeopteryx It is now all known from Bavaria, Germany.

It is considered the first known bird, Archeopteryx It had primitive properties like teeth and long bone tails, and was similar in size to Eurasian magpies.

Archeopteryx Dr. Christian Foss, a paleontologist at Friborg and Rostock University, and his colleagues, said:

“To date, this taxa is known only from the lower Titonians of Bavaria in Germany. Nine of the 11 specimens currently known as this genus have been excavated from the Altmühltal Formation.”

“Morphological variation, such as dentition and limb proportions – suggestions within the genus Archeopteryx They may experience evolutionary changes and be divided into different species during this period. ”

“For over 150 years, the genus Archeopteryx “It was the only Jurassic representative that could be introduced to the Pareve, the theropod clade, which includes the bird and its closest parents, Doromaosaurid and Trudontid,” they added.

“Discovering diverse communities of Pallavia packaging from slightly older rocks in northeastern China over the past decades, identification of fragmented harem specimens. Archeopteryx As another taxa, Ostromia Classicesand discovery Alcmonavis Poeschlielucidated the previously unexpected complexity of the evolution, diversity and distribution of Pallavia in the late Jurassic period. ”

Reconstruction of Archeopteryx albersdoerferi. Image credit: Zhao Chuang/Martin Kundrát.

new Archeopteryx The specimen – a fragmentary skeleton – was discovered in May 2019 in the Mörnsheim Formation in Mörnsheim, Baibaria, Southern Germany.

“The skeleton is the third Aviala specimen found in the Mörnsheim formation,” the paleontologist said.

“It consists of fragments of both the right forelimb and shoulder, left forelimb and both the hind limb.”

Unofficially called Karlsruhe specimen, the new fossil is about 149 million years old, and is the 12th specimen representing it Archeopteryx Genus.

“The specimens are within the size range of specimens for Dating, Munich, Thermopolis and feather wings and therefore represent one of the medium sizes. Archeopteryx Samples,” the researchers said.

Their paper It was published in the journal in January 2025 Fossil Record.

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C. foth et al. 2025. new Archeopteryx From the Mercim Formation in lower Titonia at Mullheim (Jurassic Evening). Fossil Record 28(1):17-43; doi:10.3897/fr.28.131671

Source: www.sci.news

Nearly 50 hidden pterodactyl specimens discovered through UV-stimulated fluorescence

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These relatives are Pterodactylus. This will allow paleontologists to reconstruct the flying reptile’s life history from hatching to adulthood.

holotype specimen of Pterodactylus antiquus. Image credit: Robert SH Smyth & David M. Unwin, doi: 10.1080/14772019.2024.2421845.

Almost 250 years ago, the first pterosaur fossil was discovered in a quarry in northern Bavaria, Germany.

Dubbing Pterodactylus, this 150-million-year-old fossil provides the first evidence of a group of extraordinary flying reptiles that filled the skies of the Mesozoic Era, soaring above dinosaurs on wings spanning up to 10 meters or more.

This first pterosaur was only about the size of a turtledove, but it completely reshaped our understanding of prehistoric life.

Despite being the original “pterodactyl”, Pterodactylus was soon overshadowed, quite literally, in people’s consciousness by the more dramatic appearance of giant pterosaurs. Pteranodon and Quetzalcoatlus attracted attention. but Pterodactylus remained popular among pterosaur scientists.

For centuries, Pterodactylus and other similar pterosaurs in Bavaria are the focus of ongoing scientific research, and much of what we know about pterosaurs, from the shape of their wings and the way they fly to the way they eat and grow. It helps shape the.

But one question always remains. Among these many pterosaurs, which one is the true pterosaur? Pterodactylus And which belong to completely different species?

This confusion has continued for centuries and continues to this day.

Thanks to a new study that analyzed data from dozens of Pterodactylus The mysteries of specimens displayed in museums around the world have been solved, and the true nature of these fossils has finally been revealed.

Paleontologists Robert Smith and Dave Unwin from the University of Leicester shine an intense UV torch on fossil bones to make them fluoresce, allowing them to distinguish one type of pterosaur from another, almost visually. The researchers succeeded in revealing the details of tiny bones that cannot be seen.

Use Pterodactylus Unique features found in the head, hips, hands, and feet led them to systematically examine other fossils from the same deposits, and to their surprise, they discovered many other fossil examples. Pterodactylus It was “hidden” among what is believed to be another species of pterosaur.

“By examining many fossils in collections across Europe, we were able to re-identify more than 40 specimens. Pterodactylus” said Smith.

“UV-excited fluorescence is amazing in the amount of detail it can reveal. Features that were once hidden are now clearly visible.”

Complete your entire concept in the blink of an eye Pterodactylus It has changed dramatically.

With nearly 50 examples confirmed to date, knowledge about this most important pterosaur is exploding.

“We are now able to construct a complete and detailed skeletal anatomy of this important pterosaur,” Dr. Unwin said.

“The soft tissues of more than 20 specimens have been fossilized, allowing us to reconstruct the top of the head, the shape of the body, the webs of the feet, and even the wings.”

“UV-excited fluorescence is a well-known technique, but the difference in this case is that we were able to combine a new, high-quality light source with a systematic ‘catch-all’ approach, which revolutionized our research and will have a significant impact. Understanding pterosaurs.”

of result Published in Journal of Systematic Paleontology.

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Robert S. H. Smith & David M. Unwin. 2024. Re-evaluation of Pterodactylus antiquus and Diopecephalus flathead: Two troublesome classification concepts. Journal of Systematic Paleontology 22 (1): 2421845;doi: 10.1080/14772019.2024.2421845

Source: www.sci.news