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Skeletal Changes Due to Erect Posture and Their Implications
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Bipedalism, or the ability to maintain an erect posture, is one of the most distinguishing characteristics of human beings. It is estimated that the human way of walking with an erect posture is about 75% more energy-efficient than the method of walking of other quadrupeds or bipedal animals. This article explores the skeletal changes that have occurred in the human body due to the adoption of an erect posture and the implications of these changes.
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Erect Posture and Its Significance
The process of switching to bipedalism began about four million years ago in primates. This form of erect body posture has resulted in several changes and adaptations in the human skeleton. The different parts of the skeletal system are modified in different ways to facilitate and support an erect posture. Let's delve into these skeletal changes and their implications.
Skull Adaptations
Because of the erect posture of humans, the skull is balanced at a pivotal point on top of the vertebral column. A major part of the brain is transferred behind the spine by the foramen magnum below the skull. A flat facial structure balances the weight of the head. This is how humans can maintain an erect posture without developing a prominent suborbital ridge and strong muscles found in apes.
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Vertebral Column Adjustments
The human vertebral column has a particular bend called the lumbar curve. The spine in human beings is bent forward in the lower (lumbar) region and backward in the upper (thoracic) region. The lumbar curve makes it possible for humans to maintain an erect posture because, without the lumbar curve, the vertebral column would be perpetually bent forward. This would cause a great amount of muscular effort for any bipedal. But because of the lumbar curve, human beings can easily stand and sit straight. This special shape of the vertebral column ensures that the center of gravity of the human body is directly above the feet, helping to maintain balance while standing erect.
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Thoracic Changes
The thorax changes its shape with the change in the axis of the body. The ribs in human beings are more curved, making the thorax barrel-shaped. This makes the thorax's dorso-ventral diameter smaller than the thorax's transverse diameter. This facilitates the erect posture of human beings.
Adaptations in the Pelvis
There is a significant amount of body weight around the human pelvis. This is accommodated by a large pelvic joint. The shape of the pelvic joint is shorter and broader. The shape of the pelvis has altered to bring the vertebral column closer to it. So when walking with an erect posture, the vertebral column can rest on the pelvic joint, thus making it easier to walk erect. The ball and socket joint on which bipedal walking is dependent is relatively unstable. The proximity of the vertebral column to the hip joint makes it easier for the muscles to balance the body without expending too much energy.
Limb Adaptations
The leg muscles of the ankles in human beings facilitate the push that makes walking possible. The leg bones of human beings have evolved to be lengthy. This increased length makes it possible for the leg to be swung forward without the use of muscles. The leg bones can make walking possible on their own. This leaves the arms and hands to be specialized for holding and carrying things. This specialized function of the forelimbs makes them shorter in comparison to other primates. Human beings can walk in an erect posture due to this modification of limb lengths.
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Enlarged Knee Joints
The bodyweight of human beings needs extra support while standing erect. For this reason, the knee joints are enlarged. The degree to which the knee can extend is also decreased, aiding in better maintenance of balance while walking. Since there are two extension/flexion movements in the knee during one walking cycle, it is known as 'double knee action.' This double knee action dramatically reduces the expenditure of energy that would have happened otherwise when the center of gravity moves along a vertical axis.
Foot Adaptations
The early hominids had feet that could curve and grasp things. Humans evolved feet that are like platforms to help support the body's weight while walking. For this reason, the toes of humans are smaller than those of other primates. Human beings also lack opposable toes. Human beings have arched feet, which make walking in an erect posture more efficient.
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Conclusion
There have been several skeletal changes due to an erect posture in the human skeleton. The different joints have adapted to accommodate the motions required to maintain an erect body posture. Several bones have been altered in shape and angled differently to help with balance and locomotion. The erect body posture helps conserve energy and enables human beings to develop specialized functions and manipulate objects with great accuracy and detail. These adaptations in the human skeletal system have played a crucial role in our evolutionary success and the distinctive characteristics that define us as a species.
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Skeletal Changes Due to Erect Posture FAQs
How did an erect posture influence the human skeleton evolutionarily?
An erect posture led to several adaptations in the human skeleton, including a distinctive lumbar curve, modified skull shape, changes in pelvic structure, and longer leg bones. These alterations allowed humans to maintain balance, walk more efficiently, and use their hands for manipulation and tool use.
Why is an arched foot considered beneficial for an erect posture?
Arched feet provide better support for the body's weight while walking in an erect posture. Unlike flat-footed primates, human arched feet facilitate balance and endurance during bipedal locomotion, enhancing energy efficiency.
What are the advantages of the lumbar curve in the human vertebral column?
The lumbar curve, with its forward bend in the lower spine, enables humans to stand and sit more comfortably in an upright position. This curvature helps align the body's center of gravity directly over the feet, reducing the strain on muscles and enhancing balance.
How did changes in the pelvic joint aid bipedalism?
The alterations in the pelvic joint, like becoming shorter and broader, brought the vertebral column closer to it. This closeness allowed the body to balance more effectively, making it easier to walk and stand in an erect position.
What skeletal adaptations resulted in the decreased use of arm muscles for walking?
The elongation of leg bones enabled the legs to swing forward without extensive muscle use. This increased leg length reduced the need for muscular effort, leaving the arms and hands free to perform specialized functions like carrying and manipulating objects.