From: University of Queensland
Posted: Friday, July 26, 2002
University of Queensland researchers have for the first time discovered terrestrial evidence of a meteorite bombardment nearly 4 billion years ago.
It is widely accepted that the moon was heavily bombarded at this time, creating huge craters and basins. But although the effect of these impacts is still clearly visible on the moon today, movement of Earth's dynamic plates over geological time have reshaped the terrestrial surface dramatically, leaving little evidence of these catastrophic events.
In a paper published in the international journal Nature, UQ researchers report evidence of the oldest impact events so far discovered on Earth.
The research team of Dr Ronny Schoenberg, Dr Balz Kamber and Professor Ken Collerson of UQ's new Advanced Centre for Isotope Research Excellence (ACQUIRE) made the discovery by analysing 3.8 billion year old rocks from West Greenland collected by Oxford University collaborator Professor Stephen Moorbath and from Northern Labrador in Canada collected by Professor Collerson.
The researchers found these very old metamorphosed sedimentary rocks -- derived from the Earth's early crust -- contain anomalies in the isotope composition of the element tungsten.
"Such anomalies are usually found in meteorites. To our knowledge, this is the first time these anomalies have been shown to exist in terrestrial samples" Professor Collerson said.
"There is no plausible mechanism by which tungsten isotope anomalies could have been preserved in the Earth's dynamic crust-mantle environment. Therefore, we conclude these rocks must contain a compound derived from meteorites."
"We have in effect found a chemical fingerprint in the earth's oldest terrestrial rocks of a heavy meteorite bombardment 3.8 to 4 billion years ago," he said.
"This finding has implications for the origin of life on earth as these giant impacts would have annihilated any possible existing life forms but also delivered complex molecules from carbonaceous chondrites -- a type of meteorite -- to the earth's surface," Dr. Kamber added.
"Further research on this unique collection of rocks will yield insight into the evolution of life on Earth provided provision of adequate research funding," Professor Collerson said.
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