Subscribe

Scientists to dig deep into dino-killing-impact crater

Scientists plan to drill some 5,000 feet deep into the Chicxulub crater, which is believed to have been created by an impact 65.5. million years ago that ended the age of dinosaurs.

  • close
    A giant space rock that slammed into Earth 65.5 million years ago is blamed for killing off the dinosaurs.
    Painting by Donald E. Davis.
    View Caption
  • close
    Topological features of the Chicxulub crater can be seen in this gravity map (red and yellow indicate high gravity, while green and blue are gravity lows).
    NASA
    View Caption
  • About video ads
    View Caption
of

The catastrophic asteroid crash blamed for the demise of the dinosaurs also left a gaping scar in the Earth. That sprawling crater made 65.5 million years ago may hold the answers to many mysteries surrounding the space-rock event.

Now, scientists plan to drill 5,000 feet (1,500 meters) below the surface of the Chicxulub crater in Mexico to bring up a giant core — and delve 10 million to 15 million years into the past. The endeavor would result in the first offshore core taken from near the center of the crater, which is named for a nearby seaside village located on the Yucatán Peninsula.

An international team of scientists met last week in Mérida, Mexico, located within the 125-mile-wide (200 kilometers) Chicxulub crater, to discuss their plans for the drilling project, slated to start in spring 2016. [Crash! The 10 Biggest Impact Craters on Earth]

Why now? "The Chicxulub impact crater has been a remarkable scientific opportunity for the 20 years since it's been discovered," said Sean Gulick, of The University of Texas at Austin Institute for Geophysics. And, for the first time, scientists have subsurface images from the offshore part of the crater, so they can pinpoint a spot for sampling. They chose a spot along the crater's peak ring — a ring of mountainlike structures around the center of the crater.

By sampling there, the researchers can get a clearer picture of ancient biological and geological processes.

Scientists think that, when a big rock smashes into Earth at high enough velocities, the collision causes the crust temporarily to act sort of like a liquid, first forming a so-called transient crater (like the indentation that forms on a lake surface after a rock is thrown in), and the center rebounds, or splashes, upward and then outward. "We think the peak ring is the record of the material that rebounded and splashed outward," Gulick told Live Science.

All of these ideas are based on models and aren't necessarily what happened. "We've never gotten a rock back from a peak ring to know if that's correct," Gulick said.

The researchers also hope to find details about the process that weakened the granite of the crust to get it to flow like a liquid, Gulick noted. "We don't understand that process," he said.

Chicxulub is also the only impact crater on Earth linked to a mass extinction event. As such, the samples could provide more information about that extinction and what came after it. More recent layers of rock could yield traces of life, which would provide clues about how long it took for life to return to the area, he said.

The roughly $10 million project is a collaboration between the European Consortium for Ocean Research Drilling (part of the International Ocean Discovery Program) and the International Continental Scientific Drilling Program.

Gulick and Joanna Morgan, of Imperial College London, will lead the team of scientists.

Follow Jeanna Bryner on Twitter and Google+. Follow us @livescienceFacebook & Google+. Original article on Live Science.

Copyright 2015 LiveScience, a Purch company. All rights reserved. This material may not be published, broadcast, rewritten or redistributed.

About these ads
Sponsored Content by LockerDome
 
 
Make a Difference
Inspired? Here are some ways to make a difference on this issue.
FREE Newsletters
Get the Monitor stories you care about delivered to your inbox.
 

We want to hear, did we miss an angle we should have covered? Should we come back to this topic? Or just give us a rating for this story. We want to hear from you.

Loading...

Loading...

Loading...

Save for later

Save
Cancel

Saved ( of items)

This item has been saved to read later from any device.
Access saved items through your user name at the top of the page.

View Saved Items

OK

Failed to save

You reached the limit of 20 saved items.
Please visit following link to manage you saved items.

View Saved Items

OK

Failed to save

You have already saved this item.

View Saved Items

OK