Winchcombe meteorite’s ‘clues as to how life began on Earth’
A meteorite that fell in the UK last year holds key information about how oceans – and life – formed on Earth.
An analysis of the space rock, which crashed onto a driveway in the Winchcombe area of Gloucestershire, has revealed it contains 11 percent water and 2 per cent carbon.
The experts said their findings, published in the journal Science Advances, show that asteroids played a key role in "delivering the ingredients needed to kickstart oceans and life on the early Earth".
Dr Luke Daly, a lecturer in planetary geo science at the university of Glasgow and author on the paper said: "One of the biggest questions asked of the scientific community is how did we get here? This analysis on the Winchcombe meteorite gives insight into how the Earth came to have water– the source of so much life.
"Researchers will continue to work on this specimen for years to come, unlocking more secrets into the origins of our solar system."
The Winchcombe meteorite belongs to a rare class of rocks known as carbonaceous chondrites, which comprise about 3 per cent of all meteorites collected on Earth and are thought to contain unaltered chemicals from the formation of the solar system more than four billion years ago.
Dr Ashley King, of the Natural History Museum in London and author on the paper, said the analysis offers scientists "a tantalising glimpse back through time to the original composition of the solar system 4.6 billion years ago".
Analysis of the meteorite sample revealed extraterrestrial water that is, what the researchers say, "is lockedup in minerals that formed during chemical reactions between fluids and rocks on its parent asteroid in the earliest stages of the solar system".
Chemical analysis revealed this water to closely resemble the composition of water on Earth.
The samples were also found to contain amino acids – molecules that are one of the essential components for the origin of life.
The researchers said rapid recovery of the meteorite allowed experts to analyse its composition while in pristine state.