Construction Workers in Colorado Discover 66-Million-Year-Old Triceratops Skeleton

Denver Museum of Nature & Science
Denver Museum of Nature & Science

Construction projects have yielded some pretty amazing ancient finds: ancient ports, Stone Age homes, forgotten cemeteries, burial grounds, and even the bones of King Richard III. Now, The Denver Post reports that workers in Thornton, Colorado, just north of Denver, recently discovered a 66-million-year-old adult triceratops skull, along with other bones, while breaking ground for the city's new public safety facility. It's an incredibly rare find as most of the fossils found in the region are about 12,000 years old.

Instead of digging on—which may have destroyed the skeleton—the workers contacted experts to take a closer look. Joe Sertich, curator of dinosaurs at the Denver Museum of Nature and Science, was called to the scene to examine the bones.

"This is what we as curators dream about—getting a call about a possible fossil and confirming it's not just a dinosaur fossil, but a record-breaking one!" Sertich said in a statement.

Museum staff, construction staff, and museum volunteers work to excavate the Thornton triceratops skeleton on August 30, 2017.
Museum staff, construction staff, and museum volunteers work to excavate the skeleton on August 30, 2017.
Denver Museum of Nature & Science

So far, scientists and volunteer diggers have unearthed the skull, two horns, a portion of the dinosaur's frill, shoulder bones, the beak at the front of the lower jaw, and ribs and vertebrae. The skeleton appears to be separated, indicating that the dinosaur may have died and lain on the ground for anywhere from a few days to a few weeks, according to The Washington Post. As it decayed, its bones and flesh fell apart, and other dinosaurs, like T. rex, may have even taken a nibble at the corpse.

Joe Sertich, curator of dinosaurs at the Denver Museum of Nature & Science, speaks with a construction worker while leading the excavation in Thornton, Colorado of a newly discovered triceratops skeleton.
Joe Sertich, curator of dinosaurs at the Denver Museum of Nature & Science, speaks with a construction worker while leading the excavation in Thornton, Colorado of a newly discovered triceratops skeleton.
Denver Museum of Nature & Science

Experts say the triceratops skeleton could be the most complete Cretaceous dinosaur ever discovered in the Front Range region, and one of the oldest fossils. They've also noted that the newly discovered dino fits a larger pattern: When found in the Denver area, triceratops are typically half the size of similar ones that once lived in the Dakotas and Montana.

A closeup of the triceratops fossil as it's unearthed in Thornton, Colorado.
A closeup of the triceratops fossil as it's unearthed.
Denver Museum of Nature & Science

"We don't really know why," Sertich said in a Facebook Live broadcast. "Even though we have hundreds of triceratops from the American West, we only have three good skulls. And this might be one of the best skeletons to tell us why Denver triceratops are smaller than all of their cousins everywhere else."

[h/t The Denver Post]

Is There An International Standard Governing Scientific Naming Conventions?

iStock/Grafissimo
iStock/Grafissimo

Jelle Zijlstra:

There are lots of different systems of scientific names with different conventions or rules governing them: chemicals, genes, stars, archeological cultures, and so on. But the one I'm familiar with is the naming system for animals.

The modern naming system for animals derives from the works of the 18th-century Swedish naturalist Carl von Linné (Latinized to Carolus Linnaeus). Linnaeus introduced the system of binominal nomenclature, where animals have names composed of two parts, like Homo sapiens. Linnaeus wrote in Latin and most his names were of Latin origin, although a few were derived from Greek, like Rhinoceros for rhinos, or from other languages, like Sus babyrussa for the babirusa (from Malay).

Other people also started using Linnaeus's system, and a system of rules was developed and eventually codified into what is now called the International Code of Zoological Nomenclature (ICZN). In this case, therefore, there is indeed an international standard governing naming conventions. However, it does not put very strict requirements on the derivation of names: they are merely required to be in the Latin alphabet.

In practice a lot of well-known scientific names are derived from Greek. This is especially true for genus names: Tyrannosaurus, Macropus (kangaroos), Drosophila (fruit flies), Caenorhabditis (nematode worms), Peromyscus (deermice), and so on. Species names are more likely to be derived from Latin (e.g., T. rex, C. elegans, P. maniculatus, but Drosophila melanogaster is Greek again).

One interesting pattern I've noticed in mammals is that even when Linnaeus named the first genus in a group by a Latin name, usually most later names for related genera use Greek roots instead. For example, Linnaeus gave the name Mus to mice, and that is still the genus name for the house mouse, but most related genera use compounds of the Greek-derived root -mys (from μῦς), which also means "mouse." Similarly, bats for Linnaeus were Vespertilio, but there are many more compounds of the Greek root -nycteris (νυκτερίς); pigs are Sus, but compounds usually use Greek -choerus (χοῖρος) or -hys/-hyus (ὗς); weasels are Mustela but compounds usually use -gale or -galea (γαλέη); horses are Equus but compounds use -hippus (ἵππος).

This post originally appeared on Quora. Click here to view.

An Ice Age Wolf Head Was Found Perfectly Preserved in Siberian Permafrost

iStock/stevegeer
iStock/stevegeer

Don’t lose your head in Siberia, or it may be found preserved thousands of years later.

A group of mammoth tusk hunters in eastern Siberia recently found an Ice Age wolf’s head—minus its body—in the region’s permafrost. Almost perfectly preserved thanks to tens of thousands of years in ice, researchers dated the specimen to the Pleistocene Epoch—a period between 1.8 million and 11,700 years ago characterized by the Ice Age. The head measures just under 16 inches long, The Siberian Times reports, which is roughly the same size as a modern gray wolf’s.

Believed to be between 2 to 4 years old around the time of its death, the wolf was found with its fur, teeth, and soft tissue still intact. Scientists said the region’s permafrost, a layer of ground that remains permanently frozen, preserved the head like a steak in a freezer. Researchers have scanned the head with a CT scanner to reveal more of its anatomy for further study.

Tori Herridge, an evolutionary biologist at London’s Natural History Museum, witnessed the head’s discovery in August 2018. She performed carbon dating on the tissue and tweeted that it was about 32,000 years old.

The announcement of the discovery was made in early June to coincide with the opening of a new museum exhibit, "The Mammoth," at Tokyo’s Miraikan National Museum of Emerging Science and Innovation. The exhibit features more than 40 Pleistocene specimens—including a frozen horse and a mammoth's trunk—all in mint condition, thanks to the permafrost’s effects. (It's unclear if the wolf's head is included in the show.)

While it’s great to have a zoo’s worth of prehistoric beasts on display, scientists said the number of animals emerging from permafrost is increasing for all the wrong reasons. Albert Protopopov, director of the Academy of Sciences of the Republic of Sakha, told CNN that the warming climate is slowly but surely thawing the permafrost. The higher the temperature, the likelier that more prehistoric specimens will be found.

And with average temperatures rising around the world, we may find more long-extinct creatures rising from the ice.

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