These papers provide highly detailed information about the teeth, rib cage, hands, and feet of this strange relative, known to scientists as Australopithecus sediba. But we still do not know the answer to the biggest question of all. How does sediba fit in the human family tree? Is sediba a direct human ancestor? If not, why are they so similar to us in some respects?
Photo Credit: The reconstructed skull and mandible of Australopithecus sediba.Reconstruction by Peter Schmid, Photo by Lee R. Berger. Image courtesy of Lee R. Berger and the University of the Witwatersrand.
The teeth are mostly like those of Australopithecus africanus but also quite a bit like the earliest examples of the genus Homo. That is surprising. For some experts, it calls into question the standard view that Homo evolved from Australopithecus afarensis, most commonly known as “Lucy.”
The new analysis suggests an evolutionary pathway from africanus to sediba to Homo. In that case, Lucy is a relative but not an ancestor. Sediba is.
Not so fast, others insist. The first examples of Homo may go back to 2.3 million years ago, long before sediba appears at just under two million years ago. Lucy and her afarensis kin lived much earlier, enough to be ancestral to Homo.
Based on what we know now, the debate will continue because the facts just do not line up neatly or offer a simple story. "Our study provides further evidence that sediba is indeed a very close relative of early humans, but we can't definitively determine its position relative to africanus,” study co-author Debbie Guatelli-Steinberg said according to a release from Ohio State University.
What these studies do provide is a remarkably complete picture of what early human-like ancestors look like. They also provide another surprise. Despite having a foot with a narrow heel, similar to chimpanzees, sediba definitely walked upright, maybe even using a somewhat awkward never known before to scientists. They were clearly not knuckle-walkers, like the apes, but they were not nearly as graceful as the humans who followed. It seems they walked upright differently.
For now, what all this suggests is that the story of our deep ancestry is more complex than we usually imagine. Straight ancestral lines are hard to draw. More finds may help sort things out. But they may also add new complexity. The way it looks, multiple forms of early human life may have existed at once. They differed slightly from each other and also in the degree to which they resemble us. That makes it very hard to sort out the lineages.
Is sediba a direct human ancestors? Yes, at least according Lee Berger, who discovered sediba in a pit in northern South Africa in 2008. Most experts, however, argue no, mainly the dates are out of line. What difference does it make? Perhaps the biggest significance of this debate is to show us that the more we know, the more we see a complex picture of multiple species and perhaps interweaving lineages, making it all the more remarkable that we are here at all.
This research is published as a set of six research reports in the April 12, 2012 issue of the journal Science, a publication of the American Association for the Advancement of Science.
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