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Over 500 fossilized poops show how dinosaurs came to rule the Earth

Researchers used fossilized poos, known scientifically as coprolites, to learn more about how dinosaurs came to rule the Earth.
Grzegorz Niedźwiedzki
Researchers used fossilized poos, known scientifically as coprolites, to learn more about how dinosaurs came to rule the Earth.

Researchers have conducted what could be the largest study ever of dinosaur poop. The findings shed new light on how dinosaur's diets allowed them to dominate the planet.

The analysis of hundreds of fossilized droppings (plus a little bit of petrified vomit) from roughly 230 million years ago shows that dinosaurs persevered because they were not picky eaters.

"The first dinosaur ancestors were opportunistic," says Martin Qvarnström, a paleontologist at Uppsala University in Sweden, who led the study. "They were eating insects, fish, plants — everything that they came across."

Ultimately, he says, over millions of years, that dietary flexibility allowed them to rule the Earth.

Rise of the dinosaurs

The end of the dinosaurs is well known: A giant asteroid came down and wiped them out. But how did they get their start?

"We know a lot about the life and extinction of the dinosaurs, but not so much the rise of the dinosaurs," Qvarnström says.

At the beginning of the Triassic period, dinosaurs were one of many lizards roaming the Earth. "Most of the animals in the ecosystem were the various relatives of crocodiles," Qvarnström says.

But by the end of the Triassic, around 200 million years ago, things had changed quite a bit. Dinosaurs became the dominant species, and other animals took a back seat. There were various theories as to why, but no smoking gun, like an asteroid, to explain their rise.

Enter Qvarnström, who specializes in dinosaur droppings. A few years ago, he and his colleague Grzegorz Niedźwiedzki were analyzing a small number of the droppings, known as coprolites. They started noticing little traces of what the dinosaurs had eaten inside slices of the samples.

"As it turned out, all of our samples contained undigested food residues," he says.

A fish scale here, an insect there — each dropping was a tiny window into what was on the menu. With enough poop, he realized, it might be possible to reconstruct the entire food web from the period when dinosaurs rose to power. He and his colleagues assembled a collection of samples from the Polish Basin in Central Europe. They gathered all the fossilized poop they could, from dinosaurs and other animals as well. They ended up with over 500 samples.

"That's a lot of poop," Qvarnström says.

The poop was exhaustively analyzed by a research team of more than a dozen scientists using advanced techniques, and even a synchrotron particle accelerator, to probe each piece of excrement down to the molecular level.

The results were published this week in the journal Nature. They show that while other lizards at the time were focused on one type of plant or other food source, dinosaurs were eating lots of stuff.

Coprolites contain fish scales, insects and other tasty treats enjoyed by dinosaurs.
Grzegorz Niedźwiedzki /
Coprolites contain fish scales, insects and other tasty treats enjoyed by dinosaurs.

A shifting climate

And that mattered, because during the late Triassic, a giant supercontinent called Pangea was breaking apart. Oceans were forming, volcanoes erupted violently and the climate underwent dramatic shifts. "Dinosaurs were really quick to adapt to the new conditions, whereas the previous more specialized animals had a tougher time," Qvarnström says. Over the course of around 30 million years, he says, dinosaurs became the dominant species on land.

Lawrence Tanner, a professor of environmental science at Le Moyne College in Syracuse, N.Y., says interest in fossilized coprolites goes way back.

"People have collected and classified coprolites for decades, even hundreds of years," he says. "But no one has studied them in this detail before."

Tanner, who was not involved in the study, applauds the new work, but says it looks at only poo from what is modern-day Central Europe. "What we need now is to try to see if we can see the same sorts of transitions between animal groups at other locations," he says.

In other words, scientists need to study even more fossilized poo.

Qvarnström says he's hoping to have a long career that will remain, at least sometimes, focused on coprolites. "I think it's really cool and an underestimated part of paleontology," he says.

Copyright 2024 NPR

Geoff Brumfiel works as a senior editor and correspondent on NPR's science desk. His editing duties include science and space, while his reporting focuses on the intersection of science and national security.