Hair on the arm
Distribution of body hair in women and men
Body hair, or androgenic hair, is the terminal hair that develops on the human body during and after puberty. It is differentiated from the head hair and less visible vellus hair, which is much finer and lighter in color. The growth of androgenic hair is related to the level of androgens (often referred to as male hormones) and the density of androgen receptors in the dermal papillae. Both must reach a threshold for the proliferation of hair follicle cells.
From childhood onward, regardless of sex, vellus hair covers almost the entire area of the human body. Exceptions include the lips; the backs of the ears; the palms of hands; the soles of the feet; certain external genital areas; the navel; and scar tissue. The density of hair – i.e. the number of hair follicles per unit area of skin – varies from person to person. In many cases, areas on the human body that contain vellus hair will begin to produce darker and thicker body hair, such as the first growth of beard hair on a male and female adolescent's previously smooth chin; although it may appear thinner on the female.
Androgenic hair follows the same growth pattern as the hair that grows on the scalp, but with a shorter anagen phase and longer telogen phase. While the anagen phase for the hair on one's head lasts for years, the androgenic hair growth phase for body hair lasts a few months. The telogen phase for body hair lasts close to a year. This shortened growing period and extended dormant period explains why the hair on the head tends to be much longer than other hair found on the body. Differences in length seen in comparing the hair on the back of the hand and pubic hair, for example, can be explained by varied growth cycles in those two regions. The same goes for differences in body hair length seen in different people, especially when comparing men and women.
Like much of the hair on the human body, leg, arm, chest, and back hair begin as vellus hair. As people age, the hair in these regions will often begin to grow darker and more abundantly. This will typically happen during or after puberty. Men will often have more abundant, coarser hair on the arms and back, while women tend to have a less drastic change in the hair growth in these areas but do experience a significant change in thickness of hairs. However, some women will grow darker, longer hair in one or more of these regions.
Chest and abdomen
Vellus hair grows on the chest and abdomen of both sexes at all stages of development. After puberty and extending into adulthood, most males grow increasing amounts of terminal hair over the chest and abdomen areas. Adult women also typically can grow terminal hairs around the areola though in many cultures these hairs are typically removed.
Arm hair grows on a human's forearms, sometimes even on the elbow area. Terminal arm hair is concentrated on the wrist end of the forearm, extending over the hand. Terminal hair growth in adolescent males is often much more intense than that in females, particularly for individuals with dark hair. In some cultures, it is common for women to remove arm hair, though this practice is less frequent than that of leg hair removal.
Terminal hair growth on arms is a secondary sexual characteristic in boys and appears in the last stages of puberty. Vellus arm hair is usually concentrated on the elbow end of the forearm and often ends on the lower part of the upper arm. This type of intense arm vellus hair growth sometimes occurs in young women and people of both sexes until puberty. Even though this causes the arms to appear hairy, it is not caused solely by testosterone. The hair is softer and different from men's arm hair, in texture.
Visible hair appearing on the top surfaces of the feet and toes generally begins with the onset of puberty. Terminal hair growth on the feet is typically more intense in adult and adolescent males than in females.
Leg hair sometimes appears at the onset of adulthood, with the legs of men more often hairier than those of women. For a variety of reasons, people may shave their leg hair, including cultural practice or individual needs. Around the world, women generally shave their leg hair more regularly than men, to conform with the social norms of many cultures, many of which perceive smooth skin as a sign of youth, beauty, and in some cultures, hygiene. However, athletes of both sexes – swimmers, runners, cyclists and bodybuilders in particular – may shave their androgenic hair to reduce friction, highlight muscular development or to make it easier to get into and out of skin-tight clothing.
Pubic hair is a collection of coarse hair found in the pubic region. It will often also grow on the thighs and abdomen. Zoologist Desmond Morris disputes theories that it developed to signal sexual maturity or protect the skin from chafing during copulation, and prefers the explanation that pubic hair acts as a scent trap. Also, both sexes having thick pubic hairs act as a partial cushion during intercourse.
The genital area of males and females are first inhabited by shorter, lighter vellus hairs that are next to invisible and only begin to develop into darker, thicker pubic hair at puberty. At this time, the pituitary gland secretes gonadotropin hormones which trigger the production of testosterone in the testicles and ovaries, promoting pubic hair growth. The average ages pubic hair begins to grow in males and females are 12 and 11, respectively. However, in some females, pubic hair has been known to start growing as early as age 7.
Just as individual people differ in scalp hair color, they can also differ in pubic hair color. Differences in thickness, growth rate, and length are also evident.
Islamic hygienical jurisprudence teaches that pubic and armpit hair must be pulled out or shaven to be considered as Sunnah. Trimming is acceptable. In Western culture, beginning in the 1980s, there has been a trend among women to remove or trim pubic hair, either partially or completely; the trend later spread to men as well. Fashions for both men and women to either shape or remove pubic hair rise and fall throughout much of history, though it is more often considered as a practice for women alone.
Today in much of the world, it is common for women to regularly shave their underarm hair. The prevalence of this practice varies widely, though. The practice became popular for cosmetic reasons around 1915 in the United States and United Kingdom, when one or more magazines showed a woman in a dress with shaved underarms. As women's armpit hair contrasts more noticeably with her other body hair than does a man's, it is a significant indicator of sexual maturity and therefore unwelcome in conventional western polite society. Regular shaving became feasible with the introduction of the safety razor at the beginning of the 20th century. While underarm shaving was quickly adopted in some English speaking countries, especially in the US and Canada, it did not become widespread in Europe until well after World War II. Since then the practice has spread worldwide. Some men also choose to shave their armpits.
Facial hair grows primarily on or around one's face. Both men and women experience facial hair growth. Like pubic hair, non-vellus facial hair will begin to grow in around puberty. Moustaches in young men usually begin to grow in at around the age of puberty, although some men may not grow a moustache until they reach late teens or at all. For some cases facial hair development may take longer to mature than in the late teens but a lot of men experience no facial development even at an older age. Facial hair development has often been associated with stress levels.
It is common for many women to develop a few facial hairs under or around the chin, along the sides of the face (in the area of sideburns), or on the upper lip. These may appear at any age after puberty but are often seen in women after menopause due to decreased levels of estrogen. A darkening of the vellus hair of the upper lip in women is not considered true facial hair, though it is often referred to as a "moustache"; the appearance of these dark vellus hairs may be lessened by bleaching. A relatively small number of women are able to grow enough facial hair to have a distinct beard. In some cases, female beard growth is the result of a hormonal imbalance (usually androgen excess), or a rare genetic disorder known as hypertrichosis. Sometimes it is caused by use of anabolic steroids. Cultural pressure leads most women to remove facial hair, as it may be viewed as a social stigma.
Hair follicles are to varying degrees sensitive to androgen, primarily testosterone and its derivatives, particularly dihydrotestosterone, with different areas on the body having different sensitivity. As androgen levels increase, the rate of hair growth and the weight of the hairs increase. Genetic factors determine both individual levels of androgen and the hair follicle's sensitivity to androgen, as well as other characteristics such as hair colour, type of hair and hair retention.
Rising levels of androgen during puberty cause vellus hair to transform into terminal hair over many areas of the body. The sequence of appearance of terminal hair reflects the level of androgen sensitivity, with pubic hair being the first to appear due to the area's special sensitivity to androgen. The appearance of pubic hair in both sexes is usually seen as an indication of the start of a person's puberty. There is a sexual differentiation in the amount and distribution of androgenic hair, with men tending to have more terminal hair in more areas. This includes facial hair, chest hair, abdominal hair, leg hair, arm hair, and foot hair. Women retain more of the less visible vellus hair, although leg, arm, and foot hair can be noticeable on women. It is not unusual for women to have a few terminal hairs around their nipples as well. In the later decades of life, especially after the 5th decade, there begins a noticeable reduction in body hair especially in the legs. The reason for this is not known but it could be due to poorer circulation, lower free circulating hormone amounts or other reasons.
Androgenic hair provides tactile sensory input by transferring hair movement and vibration via the shaft to sensory nerves within the skin. Follicular nerves detect displacement of hair shafts and other nerve endings in the surrounding skin detect vibration and distortions of the skin around the follicles. Androgenic hair extends the sense of touch beyond the surface of the skin into the air and space surrounding it, detecting air movements as well as hair displacement from contact by insects or objects.
Determining the evolutionary function of androgenic hair must take into account both human evolution and the thermal properties of hair itself.
The thermodynamic properties of hair are based on the properties of the keratin strands and amino acids that combine into a 'coiled' structure. This structure lends to many of the properties of hair, such as its ability to stretch and return to its original length. This coiled structure does not predispose curly or frizzy hair, both of which are defined by oval or triangular hair follicle cross-sections.
Evolution of less body hair
Hair is a very good thermal conductor and aids heat transfer both into and out of the body. When goose bumps are observed, small muscles (Arrector pili muscle) contract to raise the hairs both to provide insulation, by reducing cooling by air convection of the skin, as well as in response to central nervous stimulus, similar to the feeling of 'hairs standing up on the back of your neck'. This phenomenon also occurs when static charge is built up and stored in the hair. Keratin however can easily be damaged by excessive heat and dryness, suggesting that extreme sun exposure, perhaps due to a lack of clothing, would result in perpetual hair destruction, eventually resulting in the genes being bred out in favor of high skin pigmentation. It is also true that parasites can live on and in hair thus peoples who preserved their body hair would have required greater general hygiene to prevent diseases.
Markus J. Rantala of the Department of Biological and Environmental Science, University of Jyväskylä, Finland, said humans evolved by "natural selection" to be hairless when the trade off of "having fewer parasites" became more important than having a "warming, furry coat".
P.E. Wheeler of the Department of Biology at Liverpool Polytechnic said quadrupedal savannah mammals of similar volume to humans have body hair to keep warm while only larger quadrupedal savannah mammals lack body hair, because their body volume itself is enough to keep them warm. Therefore, Wheeler said humans who should have body hair based on predictions of body volume alone for savannah mammals evolved no body hair after evolving bipedalism which he said reduced the amount of body area exposed to the sun by 40%, reducing the solar warming effect on the human body.
Loss of fur occurred at least 2 million years ago, but possibly as early as 3.3 million years ago judging from the divergence of head and pubic lice, and aided persistence hunting (the ability to catch prey in very long distance chases) in the warm savannas where hominins first evolved. The two main advantages are felt to be bipedal locomotion and greater thermal load dissipation capacity due to better sweating and less hair.
Markus J. Rantala of the Department of Biological and Environmental Science, University of Jyväskylä, Finland, said the existence of androgen dependent hair on men could be explained by sexual attraction whereby hair on the genitals would trap pheromones and hair on the chin would make the chin appear more massive.
In 1876, Oscar Peschel wrote that North Asiatic Mongols, Native Americans, Malays, Hottentots and Bushmen have little to no body hair, while Semitics, Indo-Europeans, and Southern Europeans (especially the Portuguese and Spanish) have extensive body hair.
Anthropologist Joseph Deniker said in 1901 that the very hairy peoples are the Ainus, Iranians, Australian aborigines (Arnhem Land being less hairy), Toda, Dravidians and Melanesians, while the most glabrous peoples are the American Indians, San, and East Asians, who include Chinese, Mongols, and Malays. Deniker said that hairy peoples tend to have thicker beards, eyelashes, and eyebrows but fewer hairs on their scalp.
C.H. Danforth and Mildred Trotter of the Department of Anatomy at Washington University conducted a study using army soldiers of European origin in 1922 where they concluded that dark-haired white men are generally more hairy than fair-haired white men.
H. Harris, publishing in the British Journal of Dermatology in 1947, wrote American Indians have the least body hair, Chinese and black people have little body hair, white people have more body hair than blacks and Ainu have the most body hair.
Stewart W. Hindley and Albert Damon of the Department of Anthropology at Stanford University studied, in 1973, the frequency of hair on the middle finger joint (mid-phalangeal hair) of Solomon Islanders, as a part of a series of anthropometric studies of these populations. They summarize other studies on prevalence of this trait as reporting, in general, that Caucasoids are more likely to have hair on the middle finger joint than Negroids and Mongoloids, and collect the following frequencies from previously published literature: Andamanese 0%, Eskimo 1%, African American 16% or 28%, Ethiopians 25.6%, Mexicans of the Yucatan 20.9%, Penobscot and Shinnecock 22.7%, Gurkha 33.6%, Japanese 44.6%, various Hindus 40–50%, Egyptians 52.3%, Near Eastern peoples 62–71%, various Europeans 60–80%. However, they never completed an Androgenic hair map.
According to anthropologist and professor Ashley Montagu in 1989, Asian people and black people such as the San people are less hairy than white people. Montagu said that the hairless feature is a neotenous trait.
Eike-Meinrad Winkler and Kerrin Christiansen of the Institut für Humanbiologie studied, in 1993, Kavango people and !Kung people of body hair and hormone levels to investigate the reason black Africans did not have bodies as hairy as Europeans. Winkler and Christiansen concluded the difference in hairiness between black Africans and Europeans had to do with differences in androgen or estradiol production, in androgen metabolism, and in sex hormone action in the target cells.
Valerie Anne Randall of the Department of Biomedical Sciences, University of Bradford, said in 1994 beard growth in Caucasian men increases until the mid-thirties due to a delay caused by growth cycles changing from vellus hair to terminal hair. Randall said white men and women are hairier than Japanese men and women even with the same total plasma androgen levels. Randall says that the reason for some people being hairy and some people not being hairy is unclear, but that it probably is related to differing sensitivity of hair follicles to 5α-reductase.
Rodney P.R. Dawber of the Oxford Hair Foundation said in 1997 that East Asian males have little or no facial or body hair and Dawber also said that Mediterranean males are covered with an exuberant pelage.
Milkica Nešić and her colleagues from the Department of Physiology at the University of Niš, Serbia, cited prior studies in a 2010 publication as indicating that the frequency of hair on the middle finger joint (mid-phalangeal hair) in whites is significantly higher than in black populations.
Androgenic hair as biometric
It has been shown that individuals can be uniquely identified by their androgenic hair patterns. For example, even when one's particular distinguishing features such as face and tattoos are obscured, persons can still be identified by their hair on other parts of their body.
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- Morris, Desmond (1985). Bodywatching: a field guide to the human species. London: Jonathan Cape. p. 209.
- Ismail, Buyukcelebi (2003). Living in the Shade of Islam: A Comprehensive Reference of Theory and Practice. Tughra Books. p. 169. ISBN 1-932-09921-2.
- Friedland, Roger. "Looking Through the Bushes: The Disappearance of Pubic Hair". Huffington Post.
- Hope, Christine (1982). "Caucasian Female Body Hair and American Culture". Journal of American Culture. 5 (1): 93–99. doi:10.1111/j.1542-734X.1982.0501_93.x.
- Adams, Cecil (6 February 1991). "Who decided women should shave their legs and underarms?". The Straight Dope. Retrieved 22 January 2015.
- Taylor, Sarah K (18 June 2009). "Congenital Hypertrichosis Lanuginosa". Emedicine. Medscape. Retrieved 4 December 2009.
- N. H. Sabah (1 February 1974). "Controlled Stimulation of Hair Follicle Receptors" (PDF). Journal of Applied Physiology. 36 (2): 256–257.
- "Neuroscience for Kids – Receptors". Faculty.washington.edu. Retrieved 28 December 2011.
- "Hair Shape". Hair-science.com. 1 February 2005. Archived from the original on 22 December 2008. Retrieved 18 September 2009. Cite uses deprecated parameter
- "Properties Of Hair". Hair-science.com. 1 February 2005. Archived from the original on 4 April 2018. Retrieved 18 September 2009. Cite uses deprecated parameter
- Rantala, M.J. (1999). Human nakedness: adaptation against ectoparasites? International Journal for Parasitology 29 1987±1989
- Wheeler, P.E. (1985). The Loss of Functional Body Hair in Man: the Influence of Thermal Environment, Body Form and Bipedality. Journal of Human Evolution. 14, 23–28
- Kittler R, Kayser M, Stoneking M: Molecular evolution of Pediculus humanus and the origin of clothing. Curr Biol. 2003, 13: 1414-1417. 10.1016/S0960-9822(03)00507-4. Erratum: Curr Biol 2004, 14:2309.
- Peschel, O. (1876). The Races of Man and Their Geographical Distribution. London: Henry S. King & Co. Pages 96, 97 & 403. Retrieved January 21, 2017, from link.
- Deniker, Joseph (1901). "Chapter I. Somatic Characteristics". The Races of Man: An Outline of Anthropology and Ethnography. London: The Walter Scott Pub. Co. Archived from the original on 15 November 2009. Cite uses deprecated parameter
- Danforth, C. H. and Trotter, M. (1922), The distribution of body hair in white subjects. American Journal of Physical Anthropology, 5: 259–265. doi:10.1002/ajpa.1330050318:10.1002/ajpa.1330050318:10.1002/ajpa.1330050318
- HARRIS, H. (1947), THE RELATION OF HAIR-GROWTH ON THE BODY TO BALDNESS. British Journal of Dermatology, 59: 300–309. doi:10.1111/j.1365-2133.1947.tb10910.x:10.1111/j.1365-2133.1947.tb10910.x:10.1111/j.1365-2133.1947.tb10910.x
- Arnold Henry Savage Landor (1970). Alone with the hairy Ainu: or, 3.800 miles on a pack saddle in Yezo and a cruise to the Kurile islands
- Hindley, S. W. and Damon, A. (1973), Some genetic traits in Solomon Island populations IV. Mid-phalangeal hair. American Journal of Physical Anthropology, 39: 191–194. doi:10.1002/ajpa.1330390208:10.1002/ajpa.1330390208:10.1002/ajpa.1330390208
- Montagu, Ashley. Growing Young. Published by Greenwood Publishing Group, 1989 ISBN 0-89789-167-8 0-89789-167-8 0-89789-167-8
- Winkler, E.-M. and Christiansen, K. (1993), Sex hormone levels and body hair growth in !Kung San and Kavango men from Namibia. American Journal of Physical Anthropology, 92: 155–164. doi:10.1002/ajpa.1330920205:10.1002/ajpa.1330920205:10.1002/ajpa.1330920205
- Randall, V. A. (1994), Androgens and human hair growth. Clinical Endocrinology, 40: 439–457. doi:10.1111/j.1365-2265.1994.tb02483.x:10.1111/j.1365-2265.1994.tb02483.x:10.1111/j.1365-2265.1994.tb02483.x
- Dawber R.P.R. (1997). Diseases of the head and scalp (3rd ed.). Virginia:Blackwell Science Ltd.
- Nešić, M. et al. (2010). Middle phalangeal hair distribution in Serbian high school students. Arch. Biol. Sci., Belgrade, 62 (3), 841–850, doi:10.2298/ABS1003841N:10.2298/ABS1003841N:10.2298/ABS1003841N
- Su, H., & Kong, A. W. K. (2014). A study on low resolution androgenic hair patterns for criminal and victim identification. IEEE transactions on information forensics and security, 9(4), 666–680.
- Huynh, N. Q., Xu, X., Kong, A. W. K., & Subbiah, S. (2014, December). A preliminary report on a full-body imaging system for effectively collecting and processing biometric traits of prisoners. In Computational Intelligence in Biometrics and Identity Management (CIBIM), 2014 IEEE Symposium on (pp. 167–174). IEEE.