During a blip in time in the late Jurassic, a dinosaur that weighed no more than a chinchilla flung itself from tree to tree, spread its wings and tried to soar. In theory, it sounds beautiful — an early attempt at flight before birds figured out the blueprint.
In practice, it was chaotic.
The dinosaur, Yi qi, only barely managed to glide, stretching out and shimmying its skin-flap, downy-feathered wings in a valiant attempt at flying. “It was rocketing from tree to tree, desperately trying not to slam into something,” said Alex Dececchi, a paleontologist at Mount Marty University in South Dakota. “It wouldn’t be something pleasant.”
Unsurprisingly, Yi qi is not an ancestor of modern birds. It went extinct after just a few million years, presumably doomed by its sheer lack of competency in the air. In a study published Thursday in the journal iScience, Dececchi and other researchers analyzed how Yi qi and the dinosaur Ambopteryx could have flown. Both animals were scansoriopterygids, a little-known group of small dinosaurs. The researchers did not expect the two to be great flyers, but their results painted a picture of bumbling creatures that weren’t truly at home on the ground, among the trees or in the sky.
Found by a farmer in northeastern China, Yi qi was first described in 2015 by paleontologists Xing Xu of the Chinese Academy of Sciences and Xiaoting Zheng of Linyi University. When Dececchi first learned about the dinosaur’s bizarre anatomy, he was taken aback. “I said words that cannot be put into print,” he said.
In addition to the batlike wings, which had never before been observed in a dinosaur, Yi qi had an extraordinary long bone jutting out from its wrist. “Like Edward Scissorhands,” said Michael Pittman, a paleontologist at the University of Hong Kong and an author of the paper.
In 2018, Dececchi presented Yi qi in one of his classes as a way of teaching the scientific method: “Here’s a weird creature. How do you think it would fly?” The more he thought about the question, the more he wanted to answer it.
When Dececchi presented a preliminary paper on Yi qi at a conference in 2018, he saw a similar paper by Arindam Roy, a graduate student in Pittman’s lab. The scientists decided to collaborate, with Pittman reconstructing the dinosaur’s wing and Dececchi modeling its flight. When Ambopteryx was described in 2018, the scientists incorporated the dinosaur into the study.
Pittman’s lab scanned the fossil using a technique called laser-stimulated fluorescence to detect soft tissues that might have gone unnoticed when the Yi qi was first described. The laser technique revealed new soft tissues around the neck and face and provided close-up images of the membrane, which allowed Pittman to revise the model for what Yi qi’s wing might have looked like.
With wing models in hand, Dececchi ran the dinosaurs through a panoply of mathematical models to test its flight ability. “I tried to give them the benefit of the