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UCLA Scientists, Colleagues Validate
the Biological Origin of Earliest Fossils
UCLA paleobiologist J. William Schopf and colleagues have substantiated the biological origin of the earliest known
cellular fossils, which are 3.5 billion years old.
The research is published in the March 7 issue of the journal Nature.
Schopf and a team of scientists at the University of Alabama, Birmingham have devised a new technique using a unique
laser-Raman imaging system that enables them to look inside of rocks and determine what they are made of, providing a
molecular map.
"This new technique is a tremendous breakthrough, and is something we have sought for 25 years," Schopf said.
"Because Raman spectroscopy is non-intrusive, non-destructive and particularly sensitive to the distinctive carbon
signal of organic matter of living systems, it is an ideal technique for studies of ancient microscopic fossils. Raman
imagery can show a one-to-one correlation between cell shape and chemistry, and prove whether fossils are biological."
Schopf and his colleagues applied the new technique to ancient fossil microbe-like objects, including the oldest
specimens reported from the geological record.
"There is no question at all that we have substantiated the biological origin of the oldest fossils now known," Schopf
said. "We have established that the ancient specimens are made of organic matter just like living microbes, and no
non-biological organic matter is known from the geological record. In science, facts always prevail, and the facts
here are quite clear."
In addition to being a paleobiologist, Schopf is also a geologist, microbiologist and organic geochemist. Director of
UCLA's Center for the Study of Evolution and the Origin of Life, Schopf was awarded the 2000 Phi Beta Kappa Award in
Science for his book, "Cradle of Life: The Discovery of Earth's Earliest Fossils" (Princeton University Press). The
annual award is presented for "outstanding contributions" to the literature of science.
As an honors student at Oberlin College in Ohio in the 1960s, Schopf learned in great detail about the most recent 500
million years of the planet's history. But geologic time covers more than 4.5 billion years, and Schopf's textbooks
and professors taught virtually nothing about the Earth's first four billion years. The reason this period was
neglected, Schopf learned, was that nobody knew much about it. He vowed to fill that black hole of knowledge, and he
explained in "Cradle of Life" how he and other scientists succeeded in doing so.
He is editor of "Earth's Earliest Biosphere" and "The Proterozoic Biosphere: A Multidisciplinary Study," companion
books that provide the most comprehensive knowledge of more than 4 billion years of the Earth's history, from the
formation of the solar system 4.6 billion years ago to events halfabillion years ago.
Schopf's co-authors on the Nature paper are UCLA graduate student Andrew Czaja, who conducts his research in Schopf's
laboratory, and University of Alabama, Birmingham physics professors David Agresti, Anatoliy Kudryavtsev and Thomas
Wdowiak.
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