At one of the most important ancient graveyards on Earth in North Dakota, palaeontologists unearthed the fossilised remains of fish seemingly killed by the effects of the asteroid that ended the Cretaceous.
We know that a large asteroid struck the Earth 66 million years ago, and around the same time the dinosaurs went extinct. We aren’t completely sure whether the asteroid was solely responsible for the mass extinction, but you might ask, “Shouldn’t we see remnants of animals killed by the asteroid’s effects?” Well, now we have found some.
“This is the last day of the Cretaceous,” David Burnham, professor in the Department of Geology at the University of Kansas and one of the study’s authors, told Gizmodo.
When a giant meteorite strikes, you’d expect chaotic effects, such as rocks altered by the impact’s high pressures and temperatures, enormous earthquakes, and tsunamis. But Earth’s rocks don’t directly preserve single days of the planet’s several billion-year-old history. You have to get creative when it comes to teasing apart the geologic record.
For example, around the world, layers of rock 66 million years old seem to contain excess iridium, presumably deposited by the Chicxulub impactor that struck near what is today the Yucatán Peninsula of Mexico. Then there are tektites, small, glassy spheres of compressed and heated rock. Theoretically, there should also be fossilised evidence of animals killed by the asteroid’s effects.
This is what makes the new research, led by Robert DePalma at the University of Kansas, so exciting — the description of a pair of sediment layers at the Tanis site of the The Hell Creek Formation in southwestern North Dakota. Both layers contain an excess of iridium, but only the lower level contains glass pieces that seemed to have been deposited from an inland-moving force.
They take this to mean that they’re observing two events: The upper layer is the settling dust from after the impact. The lower is a large deposit of sediment from the hours following the impact.
But if the rocks alone don’t convince you, perhaps the fossils in the event deposit will. A large swath of ocean travelled up the interior of the United States during the late Cretaceous, terminating not far from the Tanis region. But the rocks at Tanis preserve a mixture of both freshwater fish, such as paddlefish and sturgeon, and marine molluscs called ammonites — implying that around this time, the ocean had mixed with freshwater rivers.
And lodged inside the fossilised paddlefish’s gills were more of the glass spherules. It appeared that waves containing shocked glass from the impact over 3050km away had inundated the area, and in their dying breaths, the fish had inhaled some of them.
Other researchers were impressed by the work. “When I first read it, I kept saying ‘wow, wow, wow,’” H. Jay Melosh, distinguished professor of Earth, atmospheric and planetary science at Purdue University, told Gizmodo.
“I think this is one of the most spectacular paleontological discoveries of the century. It’s a snapshot of the moment at which major deaths were occurring right after the impact.”
The researchers point out that there are other scenarios that might have brought the glass particles up to Tanis. Maybe there were meteorological events like gale-force winds, or landslides, the authors write in the paper, which will be published on Monday in PNAS.
But the observations have far-reaching implications. The authors write:
Observations at Tanis expand our knowledge of the Chicxulub impact’s damaging effects and their far-reaching scope. The highly probable link between impact-induced seismic shaking and the onshore inundation surge at Tanis reveals an important additional mechanism by which the Chicxulub impact could have caused catastrophic conditions in the Western Interior, and possibly worldwide, far from the impact site.
It’s amazing to imagine how abruptly life on Earth changed in the hours and days after the Chicxulub asteroid hit. And it’s equally amazing that we could find direct evidence from that time locked away in the remains of the creatures who experienced it.