Back to top

Naked Apes

Forums: 

Image by paulhurren83 from http://Pixabay.com

Why Did Humans Lose Their Fur?

We are the naked apes of the world, having shed most of our body hair long ago ...

Millions of modern humans ask themselves the same question every morning while looking in the mirror: Why am I so hairy? As a society, we spend millions of dollars per year on lip waxing, eyebrow threading, laser hair removal, and face and leg shaving, not to mention the cash we hand over to Supercuts or the neighborhood salon. But it turns out we are asking the wrong question—at least according to scientists who study human genetics and evolution. For them, the big mystery is why we are so hairless.

Evolutionary theorists have put forth numerous hypotheses for why humans became the naked mole rats of the primate world. Did we adapt to semi-aquatic environments? Does bare skin help us sweat to keep cool while hunting during the heat of the day? Did losing our fur allow us to read each other's emotional responses such as fuming or blushing? Scientists aren't exactly sure, but biologists are beginning to understand the physical mechanism that makes humans the naked apes. In particular, a recent study in the journal Cell Reports has begun to depilate the mystery at the molecular and genetic level.

Sarah Millar, co-senior author of the new study and a dermatology professor at the University of Pennsylvania’s Perelman School of Medicine, explains that scientists are largely at a loss to explain why different hair patterns appear across human bodies. “We have really long hair on our scalps and short hair in other regions, and we’re hairless on our palms and the underside of our wrists and the soles of our feet,” she says. “No one understands really at all how these differences arise.”

In many mammals, an area known as the plantar skin, which is akin to the underside of the wrist in humans, is hairless, along with the footpads. But in a few species, including polar bears and rabbits, the plantar area is covered in fur. A researcher studying the plantar region of rabbits noticed that an inhibitor protein, called Dickkopf 2 or Dkk2, was not present in high levels, giving the team the fist clue that Dkk2 may be fundamental to hair growth. When the team looked at the hairless plantar region of mice, they found that there were high levels of Dkk2, suggesting the protein might keep bits of skin hairless by blocking a signaling pathway called WNT, which is known to control hair growth.

To investigate, the team compared normally developing mice with a group that had a mutation which prevents Dkk2 from being produced. They found that the mutant mice had hair growing on their plantar skin, providing more evidence that the inhibitor plays a role in determining what’s furry and what’s not.

But Millar suspects that the Dkk2 protein is not the end of the story. The hair that developed on the plantar skin of the mice with the mutation was shorter, finer and less evenly spaced than the rest of the animals’ hair. “Dkk2 is enough to prevent hair from growing, but not to get rid of all control mechanisms. There’s a lot more to look at.”

Even without the full picture, the finding could be important in future research into conditions like baldness, since the WNT pathway is likely still present in chrome domes—it’s just being blocked by Dkk2 or similar inhibitors in humans. Millar says understanding the way the inhibitor system works could also help in research of other skin conditions like psoriasis and vitiligo, which causes a blotchy loss of coloration on the skin.

With a greater understanding of how skin is rendered hairless, the big question remaining is why humans became almost entirely hairless apes. Millar says there are some obvious reasons—for instance, having hair on our palms and wrists would make knapping stone tools or operating machinery rather difficult, and so human ancestors who lost this hair may have had an advantage. The reason the rest of our body lost its fur, however, has been up for debate for decades.

One popular idea that has gone in and out of favor since it was proposed is called the aquatic ape theory. The hypothesis suggests that human ancestors lived on the savannahs of Africa, gathering and hunting prey. But during the dry season, they would move to oases and lakesides and wade into shallow waters to collect aquatic tubers, shellfish or other food sources. The hypothesis suggests that, since hair is not a very good insulator in water, our species lost our fur and developed a layer of fat. The hypothesis even suggests that we might have developed bipedalism due to its advantages when wading into shallow water. But this idea, which has been around for decades, hasn’t received much support from the fossil record and isn’t taken seriously by most researchers.

A more widely accepted theory is that, when human ancestors moved from the cool shady forests into the savannah, they developed a new method of thermoregulation. Losing all that fur made it possible for hominins to hunt during the day in the hot grasslands without overheating. An increase in sweat glands, many more than other primates, also kept early humans on the cool side. The development of fire and clothing meant that humans could keep cool during the day and cozy up at night.

But these are not the only possibilities, and perhaps the loss of hair is due to a combination of factors. Evolutionary scientist Mark Pagel at the University of Reading has also proposed that going fur-less reduced the impact of lice and other parasites. Humans kept some patches of hair, like the stuff on our heads which protects from the sun and the stuff on our pubic regions which retains secreted pheromones. But the more hairless we got, Pagel says, the more attractive it became, and a stretch of hairless hide turned into a potent advertisement of a healthy, parasite-free mate.

One of the most intriguing theories is that the loss of hair on the face and some of the hair around the genitals may have helped with emotional communication. Mark Changizi, an evolutionary neurobiologist and director of human cognition at the research company 2AI, studies vision and color theory, and he says the reason for our hairless bodies may be in our eyes. While many animals have two types of cones, or the receptors in the eye that detect color, humans have three. Other animals that have three cones or more, like birds and reptiles, can see in a wide range of wavelengths in the visible light spectrum. But our third cone is unusual—it gives us a little extra power to detect hues right in the middle of the spectrum, allowing humans to pick out a vast range of shades that seem unnecessary for hunting or tracking.

Changizi proposes that the third cone allows us to communicate nonverbally by observing color changes in the face. “Having those two cones detecting wavelengths side by side is what you want if you want to be sensitive to oxygenation of hemoglobin under the skin to understand health or emotional changes,” he says. For instance, a baby whose skin looks a little green or blue can indicate illness, a pink blush might indicate sexual attraction, and a face flushing with red could indicate anger, even in people with darker skin tones. But the only way to see all of these emotional states is if humans lose their fur, especially on their faces.

In a 2006 paper in Biology Letters, Changizi found that primates with bare faces and sometimes bare rumps also tended to have three cones like humans, while fuzzy-faced monkeys lived their lives with just two cones. According to the paper, hairless faces and color vision seem to run together.

Millar says that it’s unlikely that her work will help us directly figure out whether humans are swimming apes, sweaty monkeys or blushing primates. But combining the new study’s molecular evidence of how hair grows with physical traits observed in humans will get us closer to the truth—or at least closer to a fuller, shinier head of hair.

Jasen Daley

https://www.smithsonianmag.com/science-nature/why-did-humans-evolve-lose-fur-180970980/

Posted for Educational purposes only.

 

Member Content Rating: 
5
Your rating: None Average: 5 (1 vote)