EDMONTON—It had feathers and looked as if it were part-penguin, part-duck, and part-swan.
It was between the size of a chicken and a turkey, and ate the same sorts of things in the same sorts of places as a heron.
But it was a dinosaur.
“This is kind of a bizarre one," said University of Alberta paleontologist Philip Currie, who introduced his new feathered friend in the journal "Nature.”
Halszkaraptor escuilliei (let's call it Halzie) is a member of the same dinosaur family as the famous raptors from “Jurassic Park,” but it wouldn't have been chasing any human-sized prey through the wetlands and swamps of the late Cretaceous era.
“This guy is a lot smaller and a lot more bird-like,” noted Currie.
But it's Halzie's anatomy, not its movie possibilities, that make it so interesting.
Like all members of the dinosaur raptor family, Halzie stood upright on its hind legs with a foot featuring a long, elevated claw, but leaned forward like a short-tailed bird.
Its neck was huge—about half of its total length.
“It would be a perfect neck for an animal that was wading in the water and, if something went by, it would strike with its sharp little beak,” Currie said.
Halzie's short little arms seemed to be adapted to swimming, with flat, thin-walled bones and hands with an elongated outside finger—much like those seen in the feet of other aquatic dinosaurs.
“It sure looks like it's a swimming appendage of some kind," noted Currie. ”It's certainly doing something different.
“We have other dinosaurs that are adapted to living in the water, but they tend to look more like crocodiles,” he added.
Halszkaraptor originally hails from a site in Mongolia that Currie and his colleagues had been excavating for years.
But that's not where they found it.
It had been poached from its original bed and a French colleague spotted the dinosaur in a warehouse in Europe, where it was waiting to be shipped to a retail outlet.
That colleague alerted Currie.
He had the fossil, encased in one solid block, examined minutely using a high-energy synchrotron beam, which revealed all kinds of details that wouldn't have been apparent normally.
It turned out, for example, that Halzie had 112 teeth—“amazing for such a small animal.”
It all paints an increasingly detailed picture of Earth's remarkable biodiversity during Halzie's day, between 70 million and 75 million years ago.
“By late Cretaceous times, the environments weren't that dissimilar to modern environments,” Currie said.
“The diversity on [Halzie's] site is quite amazing," he added. ”A lot of it would be quite similar to an ecosystem today, in terms of numbers of species.
“The only difference is, in addition to the fish, the turtles, the snakes, the lizards, the mammals, the birds, you had dinosaurs.”
The bone beds of Mongolia and Alberta account for about 10 percent of all the world's known dinosaurs, a remarkable variety.
But Currie said there's no reason to believe that dinosaurs—who lived everywhere on Earth in hundreds of different environments—weren't equally varied across the rest of the planet.
“What it says loud and clear is that if we had this kind of dinosaur diversity everywhere in the world, we probably know less than one percent of one percent of all the dinosaurs,” he stressed.
“We're always going to be finding new dinosaurs. It's quite staggering,” Currie added.