A series of rapid environmental changes in East Africa roughly 2 million
years ago may be responsible for driving human evolution, according to
researchers at Penn State and Rutgers University.
"The landscape early humans were inhabiting transitioned rapidly back
and forth between a closed woodland and an open grassland about five to
six times during a period of 200,000 years," said Clayton Magill,
graduate student in geosciences at Penn State. "These changes happened
very abruptly, with each transition occurring over hundreds to just a
few thousand years."
According to Katherine Freeman, professor of geosciences, Penn State,
the current leading hypothesis suggests that evolutionary changes among
humans during the period the team investigated were related to a long,
steady environmental change or even one big change in climate.
"There is a view this time in Africa was the 'Great Drying,' when the
environment slowly dried out over 3 million years," she said. "But our
data show that it was not a grand progression towards dry; the
environment was highly variable."
According to Magill, many anthropologists believe that variability of experience can trigger cognitive development.
"Early humans went from having trees available to having only grasses
available in just 10 to 100 generations, and their diets would have had
to change in response," he said. "Changes in food availability, food
type, or the way you get food can trigger evolutionary mechanisms to
deal with those changes. The result can be increased brain size and
cognition, changes in locomotion and even social changes -- how you
interact with others in a group. Our data are consistent with these
hypotheses. We show that the environment changed dramatically over a
short time, and this variability coincides with an important period in
our human evolution when the genus Homo was first established and when
there was first evidence of tool use."
The researchers -- including Gail Ashley, professor of earth and
planetary sciences, Rutgers University -- examined lake sediments from
Olduvai Gorge in northern Tanzania. They removed the organic matter that
had either washed or was blown into the lake from the surrounding
vegetation, microbes and other organisms 2 million years ago from the
sediments. In particular, they looked at biomarkers -- fossil molecules
from ancient organisms -- from the waxy coating on plant leaves.
"We looked at leaf waxes because they're tough, they survive well in the sediment," said Freeman.
The team used gas chromatography and mass spectrometry to determine
the relative abundances of different leaf waxes and the abundance of
carbon isotopes for different leaf waxes. The data enabled them to
reconstruct the types of vegetation present in the Olduvai Gorge area at
very specific time intervals.
The results showed that the environment transitioned rapidly back and forth between a closed woodland and an open grassland.
To find out what caused this rapid transitioning, the researchers
used statistical and mathematical models to correlate the changes they
saw in the environment with other things that may have been happening at
the time, including changes in the Earth's movement and changes in
sea-surface temperatures.
"The orbit of the Earth around the sun slowly changes with time,"
said Freeman. "These changes were tied to the local climate at Olduvai
Gorge through changes in the monsoon system in Africa. Slight changes in
the amount of sunshine changed the intensity of atmospheric circulation
and the supply of water. The rain patterns that drive the plant
patterns follow this monsoon circulation. We found a correlation between
changes in the environment and planetary movement."
The team also found a correlation between changes in the environment and sea-surface temperature in the tropics.
"We find complementary forcing mechanisms: one is the way Earth
orbits, and the other is variation in ocean temperatures surrounding
Africa," Freeman said. The researchers recently published their results
in the Proceedings of the National Academy of Sciences along
with another paper in the same issue that builds on these findings. The
second paper shows that rainfall was greater when there were trees
around and less when there was a grassland.
"The research points to the importance of water in an arid landscape
like Africa," said Magill. "The plants are so intimately tied to the
water that if you have water shortages, they usually lead to food
insecurity.
"Together, these two papers shine light on human evolution because we
now have an adaptive perspective. We understand, at least to a first
approximation, what kinds of conditions were prevalent in that area and
we show that changes in food and water were linked to major evolutionary
changes."
The National Science Foundation funded this research.
Journal Reference:
- C. R. Magill, G. M. Ashley, K. H. Freeman. Feature Article: Water, plants, and early human habitats in eastern Africa. Proceedings of the National Academy of Sciences, 2012; DOI: 10.1073/pnas.1209405109
Courtesy: ScienceDaily
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