An unusual meteorite that could reveal crucial information about the evolution of solar system has been found at the Nullarbor desert in Western Australia.
The cricket-ball sized meteorite -- Bunburra Rockhole -- is an unusual type of basaltic igneous rock with a different composition suggesting that it comes from an uncommon asteroid.
“The fact that this meteorite is compositionally unusual increases its value. It helps us to uncover more information about the conditions of the early solar system and how it was formed and evolved,” said Gretchen Benedix, a mineral expert at the Natural History Museum (NHM) in London.
Bunburra, which was tracked to the ground using the time-lapse images of fireballs recorded by a photographic observatory in Nullarbor, follows an orbit different from that of other meteorites.
The meteorite began its journey as part of an asteroid in the innermost main asteroid belt between Mars and Jupiter. Its orbit gradually evolved into one very similar to Earth’s.
Other meteorites for which data exist have orbits that take them into the main asteroid belt, the Natural History Museum reported.
Most meteorites found on the Earth are believed to be fragments of asteroids -- ancient rocks that formed during the creation of the solar system about 4.56 billion years ago.