Meteorite gouged huge Greenland crater 58 million years ago, study finds
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 [March 10, 2022]
By Will Dunham
WASHINGTON (Reuters) - An immense crater in
northwestern Greenland, buried under a thick sheet of ice and first
spotted in 2015, is much older than previously suspected - formed by a
meteorite impact 58 million years ago, rather than 13,000 years ago as
had been proposed.
Scientists said on Wednesday they used two different dating methods on
sand and rock left over from the impact to determine when the crater -
about 19 miles (31 km) wide - was formed. They found that the meteorite
- roughly one to 1.25 miles (1.5-2 km) in diameter - struck Greenland
about 8 million years after a larger asteroid impact at Mexico's Yucatan
Peninsula wiped out the dinosaurs.
The crater lies beneath Greenland's Hiawatha Glacier, covered by an ice
sheet six tenths of a mile (1 km) deep. It had remained undetected until
airborne ice-penetrating radar data tipped off scientists about its
existence.
It is one of Earth's 25 largest-known impact craters. Over the eons,
Earth has been hit by space rocks innumerable times, though gradual
changes in the planet's surface have erased or obscured many of the
craters.
Greenland at the time - during the Paleocene Epoch - was not the icy
place it is today, and instead was covered with temperate rain forests
populated by a variety of trees and inhabited by some of the mammals
that became Earth's dominant land animals after the dinosaurs - aside
from their bird descendants - went extinct.
The meteorite released millions of times more energy than an atomic
bomb, leaving a crater big enough to swallow the city of Washington.
"The impact would have devastated the local region," said Swedish Museum
of Natural History geologist Gavin Kenny, lead author of the research
published in the journal Science Advances.
"The air blast from the impact would have knocked down most trees within
tens to hundreds of kilometers, and the thermal blast from the impact
would have ignited trees up to hundreds of kilometers from the site of
impact, starting enormous forest fires," Kenny added.
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The site of field work at the edge of the Greenland Ice Sheet where
scientists studied the age of the 19-mile-wide (31- km-wide)
Hiawatha impact crater that is buried under ice six-tenths of a mile
(1 km) thick is seen in 2019. Pierre Beck/Handout via REUTERS.
 The impact also would have triggered
regional seismic shaking while ash from the forest fires and dust
and molten rock that had been violently ejected into the atmosphere
would have rained down, yielding a thick blanket of debris, Kenny
said.
As bad as it was, it did not approach the scale of
calamity wrought by the asteroid - estimated at 7.5 miles (12 km)
wide - that struck 66 million years ago, erasing three quarters of
Earth's species and initiating a global climate catastrophe.
"Whether the impact had a long-lasting effect on the global climate
is currently unclear, but unlikely in my opinion," said geology
professor and study co-author Michael Storey of the Natural History
Museum of Denmark.
Some scientists had hypothesized that the impact occurred after the
Greenland Ice Sheet formed 2.6 million years ago and perhaps even as
recently as about 13,000 years ago to initiate a documented cold
period.
The researchers used two dating methods based on radioactive decay -
the transformation of atoms of one element into atoms of another
element. Because the ice-encased crater is inaccessible, they tested
sand from rocks superheated by the impact and minerals called
shocked zircons contained in pebbles - all scooped up from a river
carrying material from the crater out of the glacier. Both methods
yielded the same age results.
"Thus, the impact did not happen - or cause a climate-change event -
in the time of humans as had been proposed and speculated
previously," Kenny said.
"Impacts of this size occur only every few million years so we don't
need to be very worried about such an impact happening anytime
soon," Kenny added.
(Reporting by Will Dunham, Editing by Rosalba O'Brien)
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