Almost 300 grams (10.6 ounces) of the meteorite have been collected from the small Gloucestershire town of Winchcombe by scientists, who said the rock was formed of carbonaceous chondrite. The substance is some of the most primitive and pristine material in the solar system and has been known to contain organic material and amino acids — the ingredients for life.
The Natural History Museum in London said the fragments were retrieved in such good condition and so quickly after the meteorite’s fall that they are comparable to rock samples returned from space missions, both in quality and quantity.
“I was in shock when I saw it and immediately knew it was a rare meteorite and a totally unique event. It’s emotional being the first one to confirm to the people standing in front of you that the thud they heard on their driveway overnight is in fact the real thing,” said Richard Greenwood, a research fellow in planetary sciences at The Open University, in a statement from the museum. He was the first scientist to identify the meteorite.
There are approximately 65,000 known meteorites on Earth, the museum said. Only 1,206 have been witnessed to fall, and of these, only 51 are carbonaceous chondrites.
The fireball was seen by thousands of eyewitnesses across the UK and Northern Europe and was captured on home surveillance and other cameras when it fell to Earth at 9:54 p.m. GMT on February 28.
The original space rock was traveling at nearly 14 kilometers per second before hitting the Earth’s atmosphere and ultimately landing on a driveway in Winchcombe. Other pieces of the meteorite have been recovered in the local area.
Footage of the fireball shot by members of the public and the UK Fireball Alliance camera networks helped locate the meteorite and determine exactly where it came from in the solar system, the museum said.
“Nearly all meteorites come to us from asteroids, the leftover building blocks of the solar system that can tell us how planets like the Earth formed. The opportunity to be one of the first people to see and study a meteorite that was recovered almost immediately after falling is a dream come true!” said Ashley King, UK research and innovation future leaders fellow in the department of earth sciences at the Museum.
Meteorites are much older than any rock from the Earth. They typically travel for many thousands of years through space before being captured — usually by the sun, but occasionally by Earth, the museum said. As these cosmic objects travel through the atmosphere, they sometimes produce a bright fireball before landing on Earth, as was the case with this meteorite.
The space rock, the museum said, was similar to the sample recently returned to Earth from space by the Japanese Hayabusa2 mission, which returned about 5.4 grams of fragments from the asteroid Ryugu, according to the Japan Aerospace Exploration Agency.
More fragments of the meteorite — which might be found as black stones, piles of tiny rock or even dust — may yet be discovered, according to the museum.
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