Bipedaling Toward Truth
A new geology study recently published online in Geology led by Sarah Feakins, assistant professor of earth sciences in USC Dornsife, raises questions about the environment in which our ancestors took shape and developed bipedalism.
What came first: the bipedal human ancestor or the grassland encroaching on the forest?
A new analysis of vegetation change in the cradle of humanity over the past 12 million years is challenging long-held beliefs about the world in which our ancestors took shape — and, by extension, the impact it had on them.
The research combined sediment core studies of the waxy molecules from plant leaves with pollen analysis, yielding data of unprecedented scope and detail on what types of vegetation dominated the landscape surrounding the African Rift Valley, including present-day Kenya, Somalia and Ethiopia, where early hominin fossils trace the history of human evolution.
“It is the combination of molecular and pollen evidence that allows us to say just how long we’ve seen Serengeti-type open grasslands,” said Sarah Feakins, assistant professor of earth sciences in USC Dornsife and lead author of the study, published online in Geology on Jan. 17.
Feakins worked with USC Dornsife graduate student Hannah Liddy and undergraduate Alexa Sieracki; Naomi Levin of Johns Hopkins University; Timothy Eglinton of the Eidgenössische Technische Hochschule and Raymonde Bonnefille of the Université d’Aix-Marseille.
The role that the environment played in the evolution of hominins — the tribe of human and ape ancestors whose family tree split from the ancestors of chimpanzees and bonobos about 6 million years ago — has been the subject of a century-long debate.
Among other things, one theory dating back to 1925 posits that early human ancestors developed bipedalism as a response to savannas encroaching on shrinking forests in northeast Africa. With fewer trees to swing from, human ancestors began walking to get around.
While the shift to bipedalism appears to have occurred somewhere between 6 and 4 million years ago, Feakins’ study finds that thick rainforests had already disappeared by that point — replaced by grasslands and seasonally dry forests some time before 12 million years ago.
In addition, the tropical C4-type grasses and shrubs of the modern African savanna began to dominate the landscape earlier than thought, replacing C3-type grasses that were better suited to a wetter environment. (The classification of C4 versus C3 refers to the manner of photosynthesis each type of plant utilizes.)
While earlier studies on vegetation change during this period relied on the analysis of individual sites throughout the Rift Valley — offering narrow snapshots — Feakins took a look at the whole picture by using a sediment core taken in the Gulf of Aden, where winds funnel and deposit sediment from the entire region. She then cross-referenced her findings with Levin, who compiled data from ancient soil samples collected throughout eastern Africa.
“The combination of marine and terrestrial data enable us to link the environmental record at specific fossil sites to regional ecological and climate change,” Levin said.
In addition to informing scientists about the environment in which our ancestors took shape, Feakins’ study provides insights into the landscape that herbivores (horses, hippos and antelopes) grazed, as well as how plants across the landscape reacted to periods of global and regional environmental change.
“The types of grasses appear to be sensitive to global carbon dioxide levels,” said Liddy, who is currently working to refine the data pertaining to the Pliocene, to provide an even clearer picture of a period that experienced similar atmospheric carbon dioxide levels to present day.
“There might be lessons in here for the future viability of our C4-grain crops,” Feakins said.
Funding for the research was provided by the U.S. National Science Foundation HOMINID and from USC.
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