Vestigial Structures

Vestigial Structures Definition

Vestigial structures are various cells, tissues, and organs in a body which no longer serve a function. A vestigial structure can arise due to a mutation in the genome. This mutation will cause a change in the proteins that are required for the formation of the structure.

Vestigial Structures Explained

Although the structure no longer functions, the prevalence of the vestigial structure may increase in the population if it is advantageous to survival or reproduction. In cave-dwelling fish, for example, the development and upkeep of eyes are an unnecessary energetic expense when there is no light. Therefore, vestigial eyes may be selected for over functioning eyes.

Since the earliest days of studying the anatomy of various animals, vestigial structures have been encountered and observed in almost every species. The process of evolution is an imperfect one. While evolution constantly drives to adapt organisms perfectly to the conditions present, it can only work with what it is given. 

Therefore, any time a population moves environments or the environment changes, resulting adaptations must be made. In many organisms, vestigial structures are the result of a large evolutionary change that resulted in a previously functional structure to become burdensome and useless.

Vestigial alone means lacking function or use and can apply to behaviors, chemical pathways, and other aspects of an organism’s existence that are not directly physical. However, these useless aspects are also controlled by the genome and have become vestigial because of a mutation or a change in the environment. 

The mutation, although advantageous to the population, has not removed a trait or behavior entirely. That is why vestigial structures, behaviors, and pathways are still present.

Vestigial Structure Examples

Vestigial Structures in Fruit Flies

The common laboratory organism Drosophila melanogaster (the fruit fly) was one of the first to have its small genome mapped. During the mapping of the genome, scientists found many genes that if inactivated would cause vestigial mutations in the fruit flies. Hundreds of mutations were found that could produce vestigial structures. 

The wings, eyes, feet, and many organs could become vestigial through the deactivation of different genes. Using these flies as a model, scientist were able to accurately and clearly show how vestigial structures can arise through simple sexual reproduction, and how these vestigial structures could become frequent in a population.

Populations of fruit flies have been developed to have different vestigial structures for different purposes. Flies with vestigial wings are bred and used as feeder insects for pet frogs. Because humans supply an environment with plenty of food and no predators, the flies can still grow and reproduce. When it is time to feed the pet frogs, the flies can be easily tapped out of their culture tube. 

With no wings, the flies cannot fly away or otherwise escape the frog’s enclosure. In other cases, scientists may want to test the sensory organs of flies. By producing flies with vestigial eyes, for instance, the other senses can be tested without the variable of sight being added in.

Vestigial Limbs

Before the days of fossil records, x-rays, and DNA analysis, it was long assumed that snakes gave rise to lizards, not the other way around. When scientist started really observing the anatomy of snakes, they began to realize that many snakes still have vestigial structures where a lizard’s limbs would have been. Other vestigial structures in snakes, such a vestigial lung, were also evidence that snakes evolved from an ancestor that used two lungs and walked with 4 limbs. 

This, coupled with a fossil record that showed a decline in limb size leading to snakes and mounting DNA evidence revealed that the opposite was true: snakes came from lizards and not the other way around.

Loss of limbs is also seen in whales. The ancestors of whales were organisms somewhat like hippos, which slowly moved into the water. In the water, limbs create drag and making swimming less efficient. Slowly, the front limbs were changed to fins, and the back limbs were lost entirely. However, the skeleton of a whale will reveal a set of bones, not attached to the main skeleton, where the hind-limbs used to be. 

The bones do not leave the body and seem to only provide minor support to the muscles. These vestigial structures are a clue that like snakes, whales came from a 4-legged ancestor.

Vestigial Structures in Humans

Humans have a wide range of traits that are considered vestigial structures. One of the most obvious is the tailbone, or coccyx. The coccyx is a small series of fused vertebrae that exist at the base of the pelvis. In our ancestors, it probably formed a large prehensile tail, capable of grabbing branches. 

As we evolved into bipeds, less time was spent in the trees and more time spent walking and sitting on the ground. As seen in the transition from monkeys to great apes, the loss of a tail represents a less arboreal, or tree-based lifestyle.

If you’ve ever had your wisdom teeth removed, you know that vestigial structures can be more than useless. In the case of wisdom teeth, the human skull has been shrinking as we evolve. Part of the reason is that our diet has become much softer and easier to chew because we cook or otherwise process our food. 

While our jaw has become smaller, the last tooth in the jaw has not been lost. In most people, this tooth will cause pain as it comes in and may deform the other teeth in the jaw.

Have you ever gotten goose-bumps when you get cold? When this happens, small vestigial muscles at the base of your hair follicles pull the hair so it stands upward. In our ancestors, this created a much fluffier and thicker coat, which could hold more air. An animal’s coat functions by trapping air and heating it up. 

Humans have lost the coat but retained the muscles that make hairs stand up. The pathways that cause the hair to stand up can also be considered vestigial. While they do help us know we’re cold, they certainly don’t help warm us up.


What are vestigial structures?

Vestigial structures are anatomical features that have lost most or all of their original function in a species. They are remnants of structures that were functional in the ancestors of the species but are no longer necessary for survival or reproduction.

What are some examples of vestigial structures?

Some examples of vestigial structures in humans include the appendix, the coccyx (tailbone), and the muscles that control the movement of the ears. In other animals, examples of vestigial structures include the wings of flightless birds and the reduced hind limbs of snakes.

What causes vestigial structures to evolve?

Vestigial structures evolve as a result of changes in the environment or the behavior of a species. If a structure is no longer necessary for survival or reproduction, natural selection may gradually reduce its size or eliminate it altogether over time.

What is the significance of vestigial structures?

Vestigial structures provide evidence for evolution by natural selection, as they demonstrate the ways in which structures can evolve over time as a result of changes in the environment or the behavior of a species. They also provide insights into the evolutionary history of a species and the adaptations that were necessary for survival in the past.

Do vestigial structures have any current functions?

While vestigial structures have lost most or all of their original function, they may still have some residual functions or be co-opted for new functions. For example, the human appendix may play a role in the immune system, and the muscles that control the movement of the ears may be involved in facial expressions. However, these functions are generally minor and do not affect the survival or reproduction of the species.

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