Associated environments were subtropical deciduous woodlands and subtropical evergreen laurophyllous woodland in southern Europe. This body plan was retained in part in some later Miocene apes (10 Ma), some of which also had more elongated limbs and hands (thumb length not known), and hind limbs modified for greater flexibility, analogous with the orang utan. Associated environments were deciduous woodland rather than forest. These adaptations may have been linked with more upright posture, as in the living apes, but unlike them, the hand phalanges were short, robust and less curved, and the thumb remained long. Towards the end of the middle Miocene (12 Ma), some fossil ape species had broadened chests, long clavicles, medial torsion of the humerus and re-positioning of the scapula to the back. In the early middle Miocene (15–16 Ma), apes were still monkey-like in body plan and posture and were associated almost entirely with non-forest, deciduous woodland habitats, with increasing evidence of terrestrial adaptations. Their hands had long and opposable thumbs, and the phalanges were curved. In the early Miocene (18–20 million years ago, Ma), fossil apes were pronograde arboreal slow climbers, associated mainly with forest environments and deciduous woodland and with some indications of terrestrial behaviour, particularly the larger species. They also occupied a range of habitats, of which tropical forest was only a part, and there is evidence of increasing terrestriality in the fossil record as it is known at present (2019). This article originally appeared on DiscoveryNews.For much of their history, fossil apes retained many monkey-like features in posture and body structure. Related: Ape-like ancestors had human-like hands Our hands, however useful, may instead represent a very primitive anatomical structure that's been around for millions of years. The new study challenges the assumption that the evolution of a more "sophisticated" hand in humans first appeared in the common ancestor of chimps and our species. Even then, the tree scaling is just to escape threats or to forage for food. While we tend to think that gorillas spend much of their time hanging around in trees, the truth is that they only spend about 5 to 20 percent of their time in trees. While chimps and orangutans became tree-climbing specialists, humans evolved to become more terrestrial. Each gorilla foot has five toes, but their big toe is opposable and can move much more flexibly than ours can.Īlmécija and his colleagues suspect that all living primates survived a late Miocene (12 to 5 million years ago) extinction event by specialising to exist in certain habitats. Like human hands, gorilla hands have five fingers, including an opposable thumb. Gorillas also appear to have inherited our more primitive hand structure. As a result, chimps and orangutans do not have opposable thumbs as we do. Since the thumb is not as long, it just meets up with the palm, while the chimp's other four fingers extend upward. "Human hands are marked by a relatively long thumb when compared to the length of their four other fingers - a trait that is often cited as one of the reasons for the success of our species because it facilitates a 'pad-to-pad precision grip,'" says Hiatt.Ĭonversely, chimp hands are much longer and narrower. The researchers, led by Sergio Almécija, a scientist in the university's Center for the Advanced Study of Human Paleobiology, analysed the hands of humans, chimps and orangutans, as well as the remains of hands for early apes like Proconsul heseloni and the hands of human ancestors, such as Ardipithecus ramidus and Australopithecus sediba.Īlmécija and colleagues, Jeroen Smaers and William Jungers from Stony Brook University, discovered that human hands today are not that different from those of the early human ancestors. "The findings suggest that the structure of the modern human hand is largely primitive in nature, rather than, as some believe, the result of more recent changes necessary for stone tool-making," says Kurtis Hiatt, a spokesperson for The George Washington University. The study, published in the the journal Nature Communications, found that human hand proportions have changed little from those of the last common ancestor of chimps and humans, while the hands of chimps and orangutans have evolved quite a bit. Hand evolution The development of an opposable thumb that enables humans to grip and manipulate objects is widely believed to give us an evolutionary edge.īut new research finds that human hands are more primitive than those of our closest primate ancestors chimpanzees. Human hands are marked by a relatively long thumb when compared to the length of their four other fingers (Source: stockdevil/iStockphoto)
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