Fossils discovered east of Africa’s Lake Turkana confirm that there were two additional species of our genus – Homo – living alongside our direct human ancestral species, Homo erectus, almost two million years ago. Pictured above is a cranium, discovered in 1972, combined with a newly found lower jaw. They are thought to belong to the same species. The lower jaw is shown as a photographic reconstruction, and the cranium is based on a computed tomography scan. © Photo by Fred Spoor
Fossils discovered east of Africa’s Lake Turkana confirm that there were two additional species of our genus – Homo – living alongside our direct human ancestral species, Homo erectus, almost two million years ago. The finds, announced in the journal Nature, include a face, a complete lower jaw, and part of a second lower jaw.
The fossils were uncovered between 2007 and 2009 by the Koobi Fora Research Project (KFRP), led by Meave and Louise Leakey. NYU Anthropology Professor Susan Antón, a member of the research team, was part of the effort to compare these fossils with those from earlier finds.
“These new fossils provide great tests of earlier hypotheses of how diverse the early Homo record was,” explained Antón. “They provide anatomical support for the idea of multiple species of early Homo, but, more importantly, they suggest ideas about how the species might have divided up the environment– these species weren’t separated into a large species and a small species; instead, the fossils suggest remarkable size variation within each species, but with different facial anatomies.”
Four decades ago, the KFRP discovered the enigmatic fossil known as KNM–ER 1470 (“1470” for short). This skull, distinguished by its large brain size and long flat face, ignited a longstanding debate about just how many different species of early Homo lived alongside Homo erectus during the Pleistocene epoch, which spanned from 2.6 million to 11,700 years ago. 1470’s unusual morphology was attributed by some scientists to sexual differences and natural degrees of variation within a single species, whereas others interpreted the fossil as evidence of a separate species.
This decades-‐old dilemma has endured for two reasons. First, comparisons with other fossils have been limited due to the fact that 1470’s remains do not include its teeth or lower jaw. Second, no other fossil skull has mirrored 1470’s flat and long face, leaving in doubt just how representative these characteristics are. The new fossils address both issues.
“For the past 40 years we have looked long and hard in the vast expanse of sediments around Lake Turkana for fossils that confirm the unique features of 1470’s face and show us what its teeth and lower jaw would have looked like,” said Meave Leakey, co-leader of the KFRP and a National Geographic Explorer-in-Residence. “At last we have some answers.”
“Combined, the three new fossils give a much clearer picture of what 1470 looked like,” added Fred Spoor, leader of the scientific analyses. “As a result, it is now clear that two species of early Homo lived alongside Homo erectus. The new fossils will greatly help in unraveling how our branch of human evolution first emerged and flourished almost two million years ago.”
Found within a radius of just over 10km from 1470’s location, the three new fossils are dated between 1.78 million and 1.95 million years old. The face KNM-ER 62000, discovered in 2008, is very similar to that of 1470. Moreover, the face’s well-preserved upper jaw has almost all of its cheek teeth still in place, which for the first time makes it possible to infer the type of lower jaw that would have fitted 1470. A particularly good match can be found in the other two new fossils, the lower jaw KNM-ER 60000, found in 2009, and part of another lower jaw, KNM-ER 62003, found in 2007. KNM-ER 60000 stands out as the most complete lower jaw of an early member of the genus Homo yet discovered.
The team working on the new finds included Christopher Kiarie of the Turkana Basin Institute (TBI), who carried out the laboratory preparation of the fossils, Rutgers University’s Craig Feibel , who studied the age of the fossils, as well as NYU’s Antón, University College London’s Christopher Dean, Meave and Louise Leakey of TBI, Kenya and Stony Brook University, and Fred Spoor of the Max Planck Institute for Evolutionary Anthropology, Leipzig and University College London, who analyzed the fossils.
The National Geographic Society funded the fieldwork, the Leakey Foundation funded geological studies, and the Max Planck Society supported laboratory work. KFRP’s fieldwork was facilitated by the Turkana Basin Institute, and supported by the National Geographic Society, which has funded the KFRP since 1968.
