Check the evolution in your own body

42% of the US population and 11.5% of the Spanish people do not believe in evolution. However, there are different evidence that Darwin was right, some of them in your own body. Have you had your appendix or wisdom teeth removed? Find out in this post which vestigial organs you have inherited from your ancestors.

WHAT ARE VESTIGIAL STRUCTURES?

Vestigial structures (often called organs althouth they are not organs properly) are body parts that have been reduced or have lost its original function during the evolution of a species. They can be found in many animals, including humans.

Orca skeleton in which vestiges of the hind limbs can be seen. This is a proof of its terrestrial origins. Photo: Patrick Gries

Vestigial structures were fully functional in the ancestors of these species (and in the homologous structures of other existing species), but currently its function is practically useless or it has changed. For example, the second pair of flying wings in some insects such as flies have lost their function and they have been reduced to balance organs (halteres). If you want to know more about the evolution of flight in insects click here.

Besides physical structures, vestigial features can also manifest itself in behavior or biochemistry processes.

WHY ARE THEY  EVIDENCE OF EVOLUTION?

Natural selection acts on species favoring features that increase their survival and eliminating the ones with no benefits, for example when changes appear in the habitat. Individuals with unfavorable characteristics will die or will breed less and that feature will be removed after some generations, while favorable traits will remain as their carriers can pass them to the next generation.

Sometimes there are features that are neither favorable nor unfavorable, so they continue appearing in the next generations. But all has a cost structure (energy, risk to become infected, develop tumors…), so selective pressure continues acting to eliminate something that is not conducive to the success of the species. This is the case of vestigial structures, which “take longer” disappear throughout evolution. Their existence reveal that in the past these structures had an important role in our ancestors.

FIND YOUR VESTIGIAL TRAITS

THE NICTITATING MEMBRANE

We talked about it in How animals see the world. The third eyelid is a transparent or translucent membrane that protects and moisten the eye without losing visibility. It is common in amphibians, reptiles and birds. Among primates, it is only functional in lemurs and lorises.

Nictitating membrane or third eyelid of a masked lapwing (Vanellus miles). Photo: Toby Hudson

In humans the plica semilunaris is a remnant of the nictitating membrane. Obviously we can not move it but still has some lacrimal drainage function and helps on the eye movement (Dartt, 2006).

Plica semilunaris. Photo: unknown

DARWIN’S TUBERCLE AND EAR MUSCLES

10% of the population has a thickening in the ear, a vestige of the common pointy ear in primates. This structure is called Darwin’s tubercle and has no function.

Variability of Darwin’s tubercle at the top of the ear (0 = absent).  Credit.

Comparison between the ear of a yellow baboon (Papio cynocephalus) and ours. Credit

Also, primates (and other mammals) have mobile ears to lead the pinna toward the sound source: surely you have noticed it in your house dog or house cat. Humans (and chimps) no longer have that great mobility, although some people may move slightly pinna. It has been proven with electrodes these muscles are excited when we perceive a sound that comes from a particular direction (2002).

Auricular muscles responsible of movement of the pinna. Credit

The occipitofrontalis muscle has lost its function to prevent the head from falling, but participates in facial expression.

PALMARIS LONGUS MUSCLE

16% of Caucasians do not have this muscle on the wrist, neither 31% of nigerian people neither 4,6% of chinese people. It can even appear in one arm and not in the other or be double.

It is believed that this muscle actively participated in the arboreal locomotion of our ancestors, but currently has no function, because it does not provide more grip strength. This muscle is longer in completely arboreal primates (like lemurs) and shorter in land primates, like gorillas (reference).

And do you have it or not? Try it: join your thumb and pinky and raise your hand slightly.

I have two palmaris longus in the left arm and one on the right. Photo: Mireia Querol

WISDOM TEETH

35% of people do not have wisdom teeth or third molar. In the rest, its appearance is usually painful and removal is necessary.

I don’t have the third molar. Photo: Mireia Querol Rovira

Our hominin ancestors had them, much bigger than ours. A recent research explains that when a tooth develops, emits signals that determine the size of the neighboring teeth. Reducing the mandible dentition and the other along evolution has resulted in reduced molars (and eventually the disappearance of the third).

Comparison between the dentition of a chimpanzee, Australopithecus afarensis and Homo sapiens. Look at the reduction of the last three molars between afarensis and sapiens, Credit

THE TAILBONE

If you touch your spine till the end, you will reach the coccyx or tailbone. It is three to five fused vertebrae, vestige of the tail of our primate ancestors. In fact, when we were in the womb, in the early stages of embryo development a 10-12 tail vertebrae formation is observed.

Different stages in human embryonic development (1 to 8) and comparison with other species. Credits in the image.

Subsequently it is reabsorbed, but not in all cases: it has been reported 40 newborns with a tail.

Infant born with tail. A mutation has prevented the growth inhibition of the tail during pregnancy. Credit

Although we have no tail, currently these bones serve as anchors of some pelvic muscles.

Tailbone position. Photo: Mireia Querol Rovira

SUPERNUMERARY NIPPLES (POLYTHELIA)

It is estimated that up to 5% of the world population has more than two nipples. These “extra” nipples can be presented in different ways so sometimes are confused with freckles or moles. They are located in the mammillary line (from the axilla to the groin), exactly in the same position as other mammals with more than two breasts (observe your house dog, for example). Usually the number of breasts corresponds to the average of offspring that has a mammal, so extra nipples would be a vestige from when our ancestors had more offspring per birth. Usual is 3 nipples, but has been documented a case of up to 8 nipples in a person.

Additional nipple below the main one. Credit

FIND YOUR VESTIGIAL REFLEXES AND BEHAVIOURS

PALMAR AND FOOT SOLE GRASP REFLEX

Surely you’ve experienced that if you bring anything into the hands of a baby, automatically he grabs it with such a force that would be able to hold his own weight. This reflex disappears at 3-4 months of age and is a remnant of our arboreal past and the way to grab the hair of the mother, as with the other current primates. Watch the next video in 1934 on a study of twins (minute 0:34):

On the feet there is also a reflex of trying to grab something when the foot of a baby is touched. It disappears at 9 months of age.

By the way, have you noticed how easily children climb on any handrails or higher zones in a playground?

GOOSEBUMPS

Cold, stress or intense emotion (eg, listening to some music) causes the piloerector muscle to raise the hair giving the skin the appearance of a plucked chicken. It is an involuntary reflex in which some hormones, like adrenaline (which is released in the mentioned situations) are involved. What utility had this to our ancestors and has in modern mammals?

• Increasing the space between the skin and the external surface, so that hot air trapped between hair helps on maintaining temperature.
• Looking bigger to scare off potential predators or competitors.

Chimpanzee with hair bristling in a display before a conflict. Photo: Chimpanzee Sanctuary Northwest

Obviously we have lost hair in most parts of the body, so although we retain the reflex, it has no use to us or to keep warm or to ward off predators. The hair has been preserved abundantly in areas where protection is necessary or due to sexual selection (head, eyebrows, eyelashes, beard, pubis…), but in general, can also be considered a vestigial structure.

There are more vestigial structures but in this post we have focused on the most observable. In future posts we will discuss other internal structures, like the famous appendix or vomeronasal organ.

REFERENCES

• Proof of evolution that you can find on your own body
• 10 Vestigial Traits You Didn’t Know You Had
• Darwin was right
• Los reflejos de prensión palmar y plantar
• Resuelto el enigma de las muelas del juicio
• Politelia bilateral familiar

Evolution for beginners

Biological evolution is still not well understood by general public, and when we speak of it in our language abound expressions that confuse even more how mechanisms that lead to species diversity work. Through questions you may have ever asked yourself, in this article we will have a first look at the basic principles of evolution and debunk misconceptions about it.

IS EVOLUTION REAL? IT IS NOT JUST A THEORY OR AN IDEA WITHOUT EVIDENCES?

Outside the scientific field, the word “theory” is used to refer to events that have not been tested or assumptions. But a scientific theory is the explanation of a phenomenon supported by evidence resulting from the application of the scientific method.

The scientific method. Image by Margreet de Heer.

Theories can be modified, improved or revised if new data don’t continue to support the theory, but they are always based on some data, repeatable and verifiable experiments by any researcher to be considered valid.

So few people (sic) doubts about the heliocentric theory (the Earth rotates around the Sun), or the gravitational theory of Newton, but in the popular imagination some people believe that the theory of evolution made by Charles Darwin (and Alfred Russell Wallace) is simply a hypothesis and has no evidence to support it. With new scientific advances, his theory has been improved and detailed, but more than 150 years later, nobody has been able to prove it wrong, just the contrary.

WHAT EVIDENCE WE HAVE THAT EVOLUTION IS TRUE?

We have many evidences and in this post we will not delve into them. Some of the evidence available to us are:

• Paleontological record: the study of fossils tell us about the similarities and differences of existing species with others thousands or millions old, and to establish relationships respect each other.
• Comparative anatomy: comparison of certain structures that are very similar between different organisms, can establish whether they have a common ancestor (homologous structures, for example, five fingers in some vertebrates) if they have developed similar adaptations (analogous structures, for example, the wings of birds and insects), or if they have lost their function (vestigial organs, such as the appendix).

Homologous organs in humans, cats, whales and bats

• Embryology: the study of embryos of related groups shows a strong resemblance in the earliest stages of development.
• Biogeography: The study of the geographical distribution of living beings reveals that species generally inhabit the same regions as their ancestors, although there are other regions with similar climates.
• Biochemistry and genetics: chemical similarities and differences allow to establish relationships among different species. For example, species closely related to each other have a structure of their DNA more similar than others more distant. All living beings share a portion of DNA that is part of your “instructions”, so there are also found in a fly, a plant or a bacterium, proof that all living things have a common ancestor.

IS IT TRUE THAT ORGANISMS ADAPT TO THE ENVIRONMENT AND ARE DESIGNED FOR LIVING IN THEIR HABITAT?

Both expressions, frequently used, mean that living beings have an active role to adapt to the environment or “someone” has designed them to live exactly where they are. It is a typical example of Lamarck and giraffes: as a result of stretching the neck to reach the higher leaves of the trees,  currently giraffes have this neck for giving it this use. They have a necessity, they change their bodies to success. It is precisely upside down: it is the habitat that selects the fittest, nature “selects” those that are most effective to survive, and therefore reproduce. It is what is known as natural selection, one of the main mechanisms of evolution. It needs three requirements to act:

• Phenotypic variability: there must be differences between individuals. Some giraffes necks were slightly longer than others, just as there are taller people than others, with blue or brown eyes.
• Biological fitness: this difference has to suppose an advantage. For example, giraffes with a slightly longer neck could survive and reproduce, while the others don’t.
  
• Heredity: these characters must be transmitted to the next generation, the offspring will be slightly different to that feature, while “short neck” feature transmits less and less.

The variability in the population causes individuals with favorable characteristics to reproduce more and pass on their genes to the next generation, increasing the proportion of those genes. Image taken from Understanding evolution

Over the years these changes are accumulated until the genetic differences are so big that some populations may not mate with others: a new species has appeared.

If you thought that this is similar to artificial selection that we do with the different breeds of dogs, cows who give more milk, trees bearing more fruit and larger, congratulations, you think like Darwin as it was inspired by some of these facts. Therefore, living beings are mere spectators of the evolutionary process, depending of changes in their habitat and their genetic material.

WHY ORGANISMS ARE SO DIVERSE?

Genetic variability allows natural selection act. Changes in the genetic material (usually DNA) are caused by:

• Mutations: changes in the genome that may be adverse or lethal for survival, indifferent or beneficial to survival and reproduction. If they have benefits, they will pass to the next generations.
• Gene flow: is the motion of genes between populations (migration of individuals allows this exchange when mate with others in a different population).
• Sexual reproduction: allows recombination of genetic material of different individuals, giving rise to new combinations of DNA.

Populations that have more genetic variability are more likely to survive if happen any changes in their habitat. Populations with less variability (eg, being geographically isolated) are more sensitive to any changes in their habitat, which may cause their extinction.

Evolution can be observed in beings with a very high reproduction rate, for example bacteria, since mutations accumulate more quickly. Have you ever heard that bacteria become resistant to our antibiotics or some insects to pesticides? They evolve so quickly that within a few years were selected the fittest to survive our antibiotics.

ARE WE THE MOST EVOLVED ANIMALS?

Theory of Evolution has various consequences, such as the existence of a common ancestor and that therefore, that we are animals. Even today, and even among the young ones, there is the idea that we are something different between living beings and we are in a special podium in the collective imagination. This anthropocentric thinking caused Darwin mockery and confrontations over 150 years ago.

Caricature of Darwin as an orangutan. Public domain image first published in 1871

We use our language to be “more evolved” as a synonym for more complex, and we consider ourselves one species that has reached a high level of understanding of their environment, so many people believe that evolution has come to an end with us.

The question has a mistake of formulation: actually evolving pursues no end, it just happens, and the fact that millions of years allows the emergence of complex structures, it does not mean that simpler lifeforms are not perfectly matched in the habitat where they are. Bacteria, algae, sharks, crocodiles, etc., have remained very similar over millions of years. Evolution is a process that started acting when life first appeared and continues to act in all organisms, including us, although we have changed the way in which natural selection works  (medical and technological breakthroughs, etc.).

SO IF WE COME FROM MONKEYS, WHY DO STILL MONKEYS EXIST?

The truth is that we don’t come from monkeys, we are monkeys, or to be more rigorous, apes. We have not evolved from any existing primate. As we saw in a previous post, humans and other primates share a common ancestor and natural selection has been acting differently in each of us. That is, evolution has to be viewed as a tree, and not as a straight line, where each branch would be a species .

First scheme of the evolutionary tree of Darwin in his notebook (1837). Public domain image.

Some branches stop growing (species become extinct), while others continue to diversify. The same applies to other species, in case you have asked yourself, “if amphibians come from fish, why are there still fish?”. Currently, genetic analyzes have contributed so much data that they make so difficult to redesign the classical Dariwn’s tree.

Classification of live organisms based on the three domains Archaea, Bacteria and Eukarya, data of Carl R. Woese (1990). Included in Eukarya there are the Protista, Fungi, Plantae and Animalia kingdoms. Image by Rita Daniela Fernández.

Evolution is a very broad topic that still generates doubts and controversies. In this article we have tried to bring to uninitiated people some basics, where we can delve into the future. Do you have any questions about evolution? Are you interested into a subject that we have not talked about? You can leave your comments below.

REFERENCES

• Darwin’s Tree of Life is a Tangled Bramble Bush
• Algunas reflexiones sobre la clasificación de los seres vivos
• Museos vivos. Evidencias de la evolución
• Las ideas en la ciencia: Teoría, hipótesis y leyes
• Frequently asked questions about evolution
• Brock et. al. 1999. Biología de los microorganismos. Ed. Prentice Hall.
• Massa, Renato. El origen de la vida. La evolución de las especies. Ed. Susaeta.
• Cover image