
Hair that is tightly coiled offers the best protection against the sun鈥檚 potentially damaging rays, which could explain why this trait evolved in early humans in Africa and straighter hair emerged as some humans moved into cooler areas.
It has long been suggested that the reason our body hair became so fine that it is sometimes barely visible, while our scalp hair remained thick, is to prevent our heads from overheating in the sun. In our bipedal ancestors, the beneficial shading effect of head hair may have outweighed its insulating effect.
at Penn State University wondered if the type of hair on a person鈥檚 head also makes a difference.
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To learn more, Lasisi and her colleagues put three different wigs on a thermal manikin 鈥 a model of the human body with heaters and sensors that is used to measure the thermal effects of clothes.
All the wigs were made of human hair from people of Chinese descent. One wig was straight, one had moderate curls and one had tight curls. Lasisi says the tightly coiled wig was within the range of curl found in people of recent African ancestry.
In tests in a climate-controlled wind tunnel, the team found that the hair鈥檚 type made a big difference to how much heat the head of the manikin gained from simulated sunshine at 30掳C (86掳F).
The head with a straight wig gained less than half as much heat as a control head with no wig. The head wearing the moderately curled wig gained around a quarter as much heat and the head with the tightly curled wig gained less than a tenth as much as the no-wig control.
The researchers think that curls reduce how much heat reaches the skin by increasing the gap between it and the hair surface. Making straight hair longer doesn鈥檛 achieve this because it flops over and lies flat, says Lasisi.
What鈥檚 more, curlier hair appears to maximise the shielding effect from the sun while minimising an unwanted insulating effect. 鈥淚t has this incredible way of bypassing this trade-off,鈥 says Lasisi.
The results also show that all the tested hair types reduce the cooling effect of sweating. When wetting the manikins to simulate sweat, the head with no wig lost twice as much heat via evaporation as those with the wigs.
However, having any head hair more than halves the amount of sweat that is required to prevent the head from gaining heat, with tightly coiled hair reducing this more than moderately curled or straight hair, the results show. Hair, particularly if tightly coiled, therefore lowers the amount of sweat that is required on the scalp to balance the sun鈥檚 heat.
鈥淎ny mechanism that could help cool the body, and at the same time save precious water, would definitely have been acted on strongly by natural selection,鈥 says at North Carolina Agricultural & Technical State University.
When some humans left Africa and moved into cooler climes, the selective pressure for tightly coiled hair would have been lost, says Lasisi, allowing variations to emerge from generation to generation by random chance, but the trait may have re-evolved in some peoples.
The study鈥檚 findings are important because they could help change some people鈥檚 prejudiced views, says Graves, who is the co-author of Racism, Not Race. Research into the physical traits of the first humans can help to erode racist ideas, he says.
The first humans would have had black skin and tightly curled hair, says Graves. It was only relatively recently that other skin colours and hair types appeared, he says. Biologists have begun to study the evolution of skin colour, but this is the first study to look at hair type in an evolutionary context.
鈥淭his is indeed a first-of-its-kind study,鈥 says at the University of Bradford, UK. 鈥淚t is fascinating that curly hair protected against incident solar thermal effects, which would have been important in the development of bipedal hominins.鈥
According to Lasisi, many aspects of the manikins used in聽the study don鈥檛 match human physiology. Much more work needs to be done to understand the effects of hair type and how聽significant a factor it was during our evolution, she says.
Hair type has previously been studied by researchers in聽fields such as cosmetics 补苍诲听forensics, but not from an聽evolutionary perspective, which is probably a聽reflection of聽that field鈥檚 history, says Lasisi.
鈥淲hen it comes to anthropology, it has this history that鈥檚 tightly woven with colonialism and racism,鈥 she says. 鈥淲hat kind of Victorian gentleman would have聽thought that a trait he did not聽possess could be critical to human evolution?鈥
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