David DeGusta in the National Museum of
Ethiopia, Addis Ababa, holding a fossil hominid tooth his team
recovered in Weyto, Ethiopia.
Courtesy of David DeGusta
When David DeGusta was a
graduate student sorting monkey fossils in an Ethiopian desert in
1995, he had no idea what payoff if any his work would have.
But after spending much of his time over the next five years in
what seemed like the middle of nowhere, and another six years as an
assistant professor of anthropology
at Stanford analyzing the African fossils he collected, DeGusta
finds himself part of a major discovery that sheds new light on one
of the earliest phases of human evolution.
DeGusta is a co-author on two of 11 papers that appear in a
special issue of the journal Science on Friday, Oct.
2, showing how hominids the earliest human ancestors made their way
from living in trees to walking on two legs.
Much of the evidence is contained in fossils of three dozen
4.4-million-year-old hominids dubbed Ardipithecus ramidus
(or "Ardi," for short). The Ardi fossils, which include a partial
skeleton, are more than a million years older than the "Lucy"
skeleton of Australopithecus afarensis, which was discovered
in 1974.
Nearly 10,000 animal fossils, such as the monkey, antelope and
lizard remains that DeGusta analyzed at Stanford, help give a
picture of what Ardi's habitat looked like.
For decades, most scientists thought early humans went through
an evolutionary period of knuckle-walking, like chimpanzees. And
previous research pointed to open grasslands as the place where
hominids learned to walk. But DeGusta and his colleagues led by Tim
White, a paleoanthropologist at UC Berkeley draw on almost two
decades of research to paint a much different portrait of early
human evolution and environment.
By studying the Ardi and animal fossils, the research team
determined that hominids began splitting their time between trees
and the ground in closed woodlands and small patches of forest. But
when on the ground, Ardi walked upright on two legs rather than
knuckle-walking on all fours.
"These new fossils are the earliest good evidence for human
evolution, and they tell us a lot about the initial steps toward
what we look like now," DeGusta said. "People often use modern
chimpanzees as a model for what the common ancestor of humans and
chimpanzees looked like. Ardi shows that the common ancestor was
quite different than living chimps."
DeGusta's current research picks up where Ardi leaves off. He'll
be spending the next two months in the Gobaad Basin of Djibouti,
about 100 miles from where Ardi was found, followed by another
month in the Weyto area of Ethiopia looking for more fossils and
stone tools he hopes will illuminate later time periods in human
evolution.
The work he did on the Ardi project serves as a model for his
upcoming fieldwork, and proves the importance of doing long-term
multidisciplinary research into human evolution.
"The full picture of human evolution is like a jigsaw puzzle,"
DeGusta said. "These current findings are a big piece of that
puzzle. But the puzzle itself is massive and you don't get to
choose what pieces you find you just hope you get some important
ones."