Dinosaur-Killing Asteroid's Impact Also Caused Abrupt Global Warming : The Two-Way The crash of the space rock that slammed into the Yucatan Peninsula also warmed up the Earth's atmosphere for 100,000 years. And scientists say it's a cautionary tale for people living today.
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Asteroid Impact That Wiped Out The Dinosaurs Also Caused Abrupt Global Warming

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Asteroid Impact That Wiped Out The Dinosaurs Also Caused Abrupt Global Warming

Asteroid Impact That Wiped Out The Dinosaurs Also Caused Abrupt Global Warming

Asteroid Impact That Wiped Out The Dinosaurs Also Caused Abrupt Global Warming

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  • <iframe src="https://www.npr.org/player/embed/614105843/614195927" width="100%" height="290" frameborder="0" scrolling="no" title="NPR embedded audio player">
  • Transcript

An artist's rendering of the Chicxulub impact crater on Mexico's Yucatan Peninsula from an asteroid that slammed into the planet some 65 million years ago. SPL/Science Source hide caption

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SPL/Science Source

An artist's rendering of the Chicxulub impact crater on Mexico's Yucatan Peninsula from an asteroid that slammed into the planet some 65 million years ago.

SPL/Science Source

The asteroid impact that ended the age of the dinosaurs also released so much carbon dioxide into the atmosphere that the planet warmed up by about 5 degrees Celsius — and the hot spell persisted for roughly 100,000 years.

That's according to a new study in the journal Science that offers a cautionary tale about how Earth's climate will react to the carbon dioxide that's being pumped into the atmosphere now by the burning of fossil fuels.

Scientists have long wondered about the long-term environmental effects of the notorious Chicxulub impact that occurred about 65 million years ago, when a space rock more than 5 miles wide slammed into the Yucatan Peninsula. The crash must have produced a blast of intense heat that vaporized rock and set off massive wildfires.

A vast cloud of ash and soot then must have blocked the sun for months, years, or decades, ushering in a global winter that killed off plants and animals (including non-avian dinosaurs) in a mass extinction. After the skies cleared, researchers believe the planet must have warmed up because all of those fires and zapped minerals put lots of carbon dioxide in the atmosphere.

But evidence of those environmental effects has been hard to discern from the geologic record. "To date, there's really been no good empirical estimates on what temperature is doing following the impact, in terms of hundreds of thousands of years," says Page Quinton, a geologist at the State University of New York at Potsdam.

She worked with Ken MacLeod, a paleontologist at the University of Missouri, Columbia, to look at one possible recorder of temperatures — oxygen isotope signatures — from fossils of fish that were alive way back when. The bits of fish remains are so small, they just look like grains of sand or crud.

"But under the microscope, they are unequivocally fish fossils. They're these millimeter or half-millimeter long little teeth, and under the microscope they are gorgeous," says MacLeod, adding that they also find tiny fish scales or bits of bone.

The researchers painstakingly searched for them in pounds of rock from El Kef, Tunisia, a site that is famous for having well-preserved rock layers that span the time periods both before and after the asteroid impact. Julio Sepulveda, a geologist at the University of Colorado, Boulder, worked with M.H. Negra of the University of Tunis to collect the samples from a deep trench dug into a hillside.

"We basically have to go very carefully looking at layer by layer until we find a very characteristic layer that is red in color. It is at most a centimeter thick," Sepulveda says. "That contains all the material that came from the impact itself, from the body that impacted our planet. It's kind of reddish in color, because of the metals that are present."

He says his team retrieved rock from several feet below this layer and a couple feet above it.

By analyzing the fish fossils inside, researchers determined that global temperatures were stable for a long time before the asteroid impact, but then, afterwards, temperatures quickly rose and stayed about 5 degrees Celsius warmer for about 100,000 years.

MacLeod says it's notable that the impact pumped up carbon dioxide over a short time span that, geologically speaking, is comparable to what humans have been doing in burning fossil fuels since the start of the Industrial Revolution.

"The atmosphere was loaded for a very brief interval of time, and the consequences of that change in atmospheric composition lasted for 100,000 years," MacLeod says. "So it illustrates, I think, really strongly, even if we went back to 1850 levels of carbon dioxide emission, it's going to take a 100,000 years for the carbon dioxide that we've already put in the atmosphere to cycle through the Earth's systems."

Brian Huber, a paleobiologist at the Smithsonian's National Museum of Natural History who wasn't part of the research team, says this paper is real step forward in understanding temperature changes around the time of this mass extinction event. And he agrees that the results have implications for thinking about the future.

"I think the stunning result of this is that this temperature warming after the impact persisted for 100,000 years," Huber says. "It's, to me, stunning and a little bit frightening about the course of what happens with burning so much coal, so much petroleum, in just a few decades."

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