Bipedalism In The Evolution Of The Human Body

What evidence shows the changing from the early hominids to the modern humans? Throughout the human evolution body parts like legs and harms have changed for the better. By the early hominids being biped, meaning they are able to stand and even walk on two feet, it helped them to be able to do more things like getting around more and help with their tool making and hunting. A lot of the fossils discovered were found in the Great Rift Valley in East Africa, which contained many different lakes and small rivers. For many years researchers have been finding new species. These species have been named Australopithicus, robust australopithecines , Orrorin tugenensis, Homo habilis, Homo erectus, neanderthal, and Homo sapiens. These early

accommodate this strange position, we have developed a specialized pelvis, hip and leg muscles, and an S-shaped vertebral column. Because these changes can be documented in fossil bone, bipedalism is seen as the defining trait of the sub family Homininae.

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The Australopithecine are some of the earliest known hominids and they embody many characteristics that are associated with bipedalism. Bipedalism is a highly specialized and unusual form of primate locomotion that sets modern humans apart from all other living primates as we are the only extant obligate bipeds. Many evolutionary biologists and paleoanthropologists have devoted innumerable research hours to attempting to understand this unique form of locomotion and how it evolved. A number of interdependent morphological adaptations occurred over a long period of time to solve challenges posed by habitual bipedalism. As a result, there are obvious differences that exist between early and late hominin species.

In the article “Born to Run” by Adam Summers, who is an assistant professor of bioengineering and ecology and evolutionary biology at the University of California, Irvine, the author states that throughout time bipedalism has evolved to benefit endurance running. Summers also claims that bipedalism modern humans have differs from the one our early ancestors had. The author relies on the research by Dennis M. Bramble and Daniel E. Lieberman that have improved the understanding of human bipedalism and its evolution. According to Summers, the corrections made by Bramble and Lieberman’s research helped to draw a more accurate picture of an early human.

Primates first evolved from the trees of tropical forests, later to the ground. Through the times of promisians to human, many characteristics has been represented due to the adaptations to new environments and resulted in evolutionary changes. The Earth has encountered several geological and climatic changes over time. For the primates existed at that time had to adjust itself especially in body configurations and locomotion in order to better survive. It is important to be aware of this information since we are the part of occurring changes as well. Throughout the evolution owing to

Primates first evolved from the trees of tropical forests, later to the ground. Through the times of prosimians to human, many characteristics has been represented due to the adaptations to new environments and resulted in evolutionary changes. The Earth has encountered several geological and climatic changes over time. For the primates existed at that time had to adjust itself especially in body configurations and locomotion in order to better survive. It is important to be aware of this information since we are the part of occurring changes as well. Throughout the evolution owing to the transforming environments interacting with natural selection, primates developed their own ways to move better (meaning changes in locomotion) with different types of bodies (meaning changes in body configuration).

First, evidence from the hominid fossil Ardy and archaeological evidence from the same area where Ardy was found points to the evolution of bipedalism in a woodland environment. This goes against the previous assumption that bipeds adapted to a more desolate environment. Additionally, it was also previously believed that bipedalism started with organisms that walked on two legs and their knuckles as a today’s chimp walk. However, there is no evidence in Ardy’s bones that it ever walked using its knuckles. On the other hand, Ardy possesses a short, broad hipbone which allows for bipedalism, but also a much longer lower half of the pelvis which would be more useful for climbing. Consequently, while Ardy could walk on two legs, it could not walk as well as future bipeds such as the fossil Lucy or modern humans. Lucy is often described as “the ape who stood up” and is further down the evolutionary track toward modern humans. This evolutionary adaptation to stand and walk on two legs opened great doors for humankind. Most important was the fact that walking on two limbs rather than four freed up our very special hands and empowered humankind to build tools and reshape the world as no creature could

Bipedalism was the first evolutionary change to define the hominid lineage. It was a major evolutionary change that changed the way we move. Bipedalism is the condition of using two feet for standing and walking. Before bipedalism emerged we were walking on all fours just as many animals do presently. Bipedal locomotion dates back to 7 million years ago with one of the candidates which is Sahelanthropus tchadensis. The other two candidates for the earliest bipedal hominid are Orrorin tugenesis, and Genus Ardipithecus. This evolutionary change brings about several benefits such as being better adapted to live on savannas, having freed hands, more efficient for travel, and better regulation of body temperature. However, similar to many evolutionary changes, Bipedalism comes with “costs” or disadvantages. These disadvantages include our loss of speed, and more stress on lower body joints including the spine.

Approximately 4 million years ago a wonderful evolutionary phenomenon was happening in Africa. Early hominids, man’s ancestors, were beginning a giant leap in their evolution. These hominids were moving out of the forest and beginning to walk upright, out on the open plains (Fagan, 98). This change from quadrupedalism was the most significant adaptation that ever happened to these early hominids. It caused many adaptations that make man what he is today. This process occurred in early hominids for many different reasons, each reason helping to perfect the upright walking posture. Bipedalism is thought to have occurred because of changes in environment, feeding habits, thermal regulation, and

There are many theories as hypotheses that attempt to explain why the appearance of bipedal creatures known as hominins. One possible scenario that could have contributed to the emergence of bipedalism among hominins is evolutionary advantages of being taller. By standing upright and walking on two feet, one is able to see things from a new line of vision. Standing upright would change eye level and would likely allow the hominins to see things from a greater distance. This could make hunting easier, as one would be able to spot prey from farther away. Furthermore,, hominins might be able to see possible predators from farther away and respond appropriately to avoid injury. Lastly, the increase in height could possibly act on sexual selection.

There has been much debate concerning the origins of bipedalism. Bipedalism, or the ability to move on two legs (eLucy, 2007) was said to have emerged due to climate change in East Africa, for sexual display purpose, to reduce exposure to sunlight, the need to use weapons and tools and many more (NOVA, 2013). There are numerous arguments associated with bipedalism as no one can be entirely sure as to what constituted to the emergence of this trait, which was first present in hominins Australopithecus Afarensis. Anthropologists claim that there is a missing link in the evolutionary lineage that makes it hard to confirm the real cause of bipedalism emergence. However, there are some models which are widely accepted by scientific world, such

Why early hominins, the evolutionary ancestors of Homo sapiens, originally became bipedal is a source of contention among many physical anthropologists both today and in the past. There are multiple theories and models that have surfaced over the years to explain why these early hominins evolved to become bipedal, but because there is limited fossil evidence and very few intact pelvises from that time period to study, it’s difficult to conclusively conjecture about why this bipedal trait was initially selected for, and also what events or characteristics made bipedalism more useful to early hominins. One of the more interesting models to be developed on the subject of bipedalism was

The first of our ancestors who had a distinct evolution of bipedalism were the A. Afarensis. By studying the bones of A. Afarensis, their bone structures from neck down are very similar to modern humans today. Their body structures like the knee joints, pelvis is adapted for walking in an upright position, and the feet have a slight arch show us that they were adapting to bipedal locomotion. “Approximately 3.7 Ma, 3 A. Afarensis individuals walked through a muddy layer of volcanic ash that preserved their foot prints after the ash hardened. A. Afarensis walked with an upright posture, with a strong heel strike and follow-through to the ball of the foot, with the hallux making last contact with the ground before push-off” (Efossil). With the

The human foot is an example of micro-evolutionary and macro-evolutionary changes. It has had to adapt to bipedal walking and the stress that is caused by being upright. To identify changes in the human foot; comparative, molecular, and biocultural approaches and their paradigms are used. Therefore, different, and cumulative approaches are needed to make informed hypotheses in biological anthropology. The foot will be shown as an example of approaches commonly used and the resulting perspectives in biological anthropology.