Human height
Human height, or
stature, is the height of a
human being. Adult height generally varies little between people compared to other anthropometric measures. Exceptional height (variation from the average of around 20%) is usually due to
gigantism or
dwarfism.Adult height for one sex in a particular ethnic group follows more or less a
Gaussian distribution (bell curve) but with some individuals lying several
standard deviations away from the mean. (The
tallest well-documented giant was 8 foot 11.1 inches (2.72 m) tall.) Height is determined by the interaction of genes and environment. Final adult height may be attained anywhere from the early teens to early 20s, though it is most commonly reached during the mid teens for females and late teens for males. A person's height also varies over the course of the day, by an average of 19 mm (¾ in), gradually shrinking as the spine compresses over the course of a day, and stretching back out overnight (Tyrrell, et al. 1985).
Human height is regulated by many factors. Since the development of modern
medicine and plentiful nutrient-rich food in the developed world average height has increased dramatically.
Nutrition is the most important factor in determining height; and height records from military records and other documents can be used to quite accurately compare nutrition and height in various eras. Evidence has shown that height decreased in
Britain in the early
nineteenth century, before beginning its long increase around mid-century. Increase in height has not been constant, however. The European
Middle Ages was an era of tallness with men of above six feet (1.83 m) considered unremarkable. In Europe human height reached its nadir at the start of the nineteenth century. Until the general rise in
human health, as urbanization increased, the accompanying trend was a height decline.
Europeans in North America were far taller than those in Europe in the eighteenth and nineteenth centuries, in fact the tallest in the world. The original indigenous population was also among the tallest populations of the world at the time. However, several nations, indeed many nations in Europe, have now surpassed the US in terms of average stature, particularly the
Netherlands and
Scandinavian nations. Most markedly is the Netherlands where average height has increased at the greatest rates. For instance: the Netherlands was in the late nineteenth century a land renowned for its short population, but today it has the tallest average in the world with young men averaging 1.83 m tall. The Dutch are now well known in Europe for extreme tallness. The increase has been so dramatic that various things have been redesigned to fit the much taller frames. In contrast, average male height in impoverished
Vietnam and
North Korea[The Seattle Times: "Short stature evident in North Korean generation" (free registration required)] remains comparatively small at 5 ft 4 in (1.63 m) and 5 ft 5 in (1.65 m) respectively. Currently, young North Korean males are actually significantly shorter. This contrasts greatly with the extreme growth occurring in surrounding Asian populations with correlated increasing
standards of living. Young
South Koreans are about 3 inches (8 cm) taller than their
North Korean counterparts, on average. The difference between South Koreans, and even older North Koreans, compared to young North Koreans who grew up during the famine of the 1990s-2000s is extraordinary.
|
An example of human growth velocity under optimal conditions (Courtesy: Richard Steckel) |
The study of
human growth is known as
auxology. Growth and height have long been recognized as a measure of the
health and
wellness of individuals, hence part of the reasoning for the use of growth charts. For individuals, as indicators of health problems, growth trends are tracked for significant deviations and growth is also monitored for significant deficiency from genetic expectations. Genetics is a major factor in determining the height of individuals, though it is far less influential in regard to populations. Average height is increasingly used as a measure of the health and wellness (
standard of living and
quality of life) of populations. Attributed as a significant reason for the trend of increasing height in parts of Europe is the egalitarian populations where proper
medical care and adequate nutrition are relatively equally distributed. Changes in
diet (nutrition) and a general rise in quality of health care and standard of living are the cited factors in the Asian populations. Average height in the United States has remained essentially stagnant since the 1950s. Severe
malnutrition is known to cause stunted growth in North Korean, portions of African, certain historical European, and other populations. Diet (in addition to needed nutrients; such things as junk food and attendant health problems such as
obesity),
exercise,
fitness,
pollution exposure,
sleep patterns, climate (see
Allen's rule and
Bergmann's Rule for example), and even happiness (psychological well-being) are other factors that can affect growth and final height.
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Sir Francis Galton's (1889) data showing the relationship between offsping height (928 individuals) as a function of mean parent height (205 sets of parents). Heritability (h^2) is equal to the slope of the regression line, 0.57. |
Height is determined by the complex interactive combination of
genetics and
environment. Genetic potential plus nutrition minus stressors is a basic formula. Humans grow fastest (other than in the womb) as
infants and
toddlers (birth to roughly age 2) and then during the
pubertal growth spurt. A slower steady growth velocity occurs throughout
childhood between these periods; and some slow, steady, declining growth after the pubertal growth spurt levels off is common. These are also critical periods where stressors such as malnutrition (or even severe child neglect) have the greatest effect. Conversely, if conditions are optimal then growth potential is maximized; and also there is catch-up growth for those experiencing poor conditions when those conditions improve.
Moreover, the health of a mother throughout her life, especially during her critical periods, and of course during
pregnancy, has a role. A healthier child and adult develops a body that is better able to provide optimal prenatal conditions. The pregnant mother's health is important as
gestation is itself a critical period for an
embryo/
fetus, though some problems affecting height during this period are resolved by catch-up growth assuming childhood conditions are good. Thus, there is an accumulative generation effect such that nutrition and health over generations influences the height of descendants to varying degrees.
The precise relationship between
genetics and environment and exact role of genetics itself is complex and uncertain. Human height is both of moderately high
phenotypic plasticity and is highly
heritable. Height is a
multigenic trait. There are substantial relationships in the heights among biological families; the heights of parents and family are a good predictor for the height of their children. Environmental influences are most pronounced if they are highly favorable or unfavorable to growth, especially when occurring during critical periods and when continuing multigenerationally. Genetic profile (
genotype) provides potentialities or proclivities which interact with environmental factors throughout the period of growth resulting (
phenotype) in final adult height. Essentially, the developing body devotes energy to growth after other bodily functions are satisfied.
Asian populations were once thought to be inherently shorter, but with the increases in height in East Asian nations such as
China and
South Korea as diet changes, it now seems that humans as a species probably possess a roughly similar genetic height potential (excluding permutations like the
Pygmies), and that thus a predictive genotypic basis for height differentiation has not yet evolved.
Growth in stature, determined by its various factors, results from the lengthening of bones via cellular divisions chiefly regulated by
somatotropin (
human growth hormone (hGH)) secreted by the anterior
pituitary gland. Somatotropin also stimulates the release of another growth inducing hormone
insulin-like growth factor 1 (IGF-1) mainly by the liver. Both hormones operate on most tissues of the body, have many other functions, and continue to be secreted throughout life; with peak levels coinciding with peak growth velocity, and gradually subsiding with age after
adolescence. The bulk of secretion occurs in bursts (especially for adolescents) with the largest during sleep. Exercise promotes secretion. (indeed, adolescents who take steroids can experience stunted growth). A positive net nutrition is also important, with proteins and various other nutrients especially important.
The majority of linear growth occurs as growth of cartilage at the
epiphysis (ends) of the
long bones which gradually
ossify to form hard bone. The legs compose approximately half of adult human height, and is a somewhat
sexually dimorphic trait. Height is also attained from growth of the spine, and contrary to popular belief, men are the "leggier" gender with a longer leg to torso ratio, conversely to women's longer torso to leg ratio. (The illusion of the proportion being the other way around is caused by fatty deposits placed high on women's hips). Some of this growth occurs after the growth spurt of the long bones has ceased or slowed. The majority of growth during growth spurts is of the long bones. Additionally, the variation in height between populations and across time is largely due to changes in leg length. The remainder of height consists of the cranium. Height is obviously sexually dimorphic and statistically it is more or less normally distributed, but with
heavy tails.
Most intra-population variance of height is genetic.
Short stature and
tall stature are usually not a health concern. If the degree of deviation from normal is significant, hereditary short stature is known as
familial short stature and tall stature is known as
familial tall stature. Confirmation that exceptional height is normal for a respective person can be ascertained from comparing stature of family members and analyzing growth trends for abrupt changes, among others. There are, however, various diseases and disorders that cause growth abnormalities. Most notably, extreme height may be pathological, such as
gigantism (very rare) resulting from childhood hyperpituitarism, and
dwarfism which has various causes. Rarely, no cause can be found for extreme height; very short persons may be termed as having
idiopathic short stature. The
Food and Drug Administration (FDA) in 2003 approved hGH treatment for those 2.25 standard deviations below the population mean (approximately the lowest 1.2% of the population). An even rarer occurrence, or at least less used term and recognized "problem", is idiopathic tall stature.
Tallness has been suggested to be associated with better cardio-vascular health and overall better than average health and longevity (Njolstad et al. 1996, McCarron et al 2002). However height may not be causative of better health and longevity (Miura et al. 2002). Other studies have found no association, or suggest that shorter stature is associated with better health (Samaras & Elrick, 1999). On the other hand being too tall can cause awkward situations in society and not being able to fit into society. [
1]
Height often plays a crucial role in sports. For most sports, height is useful as it affects the leverage between muscle volume and bones towards greater speed of movement. It is most valuable in sports like
basketball and
volleyball, where the "short" players are well above average in height compared to the general population. In some sports, such as horse racing,
auto racing, and gymnastics, a smaller frame is more valuable.
In other sports, the role of height is specific to particular positions. For example, in
soccer, a tall goalkeeper is at an advantage because he has a greater armspan and can more easily jump higher, so one will rarely, if ever, see a short goalkeeper in professional soccer. In
rugby union, lineout jumpers are usually the tallest players on the pitch, as this increases their chance of winning clean ball, whereas
scrum-halves are usually relatively short. In
American football, a tall
quarterback is at an advantage because it is easier for him to see over the heads of large offensive and defensive linemen while he is in the pocket on a pass play. Tall
wide receivers are at an advantage because they can out jump shorter defensive backs to catch high balls. By contrast, shorter running backs are often thought to be at an advantage because they can get "lost" behind large offensive linemen, making it harder for defenders to react at the beginning of a play. Thus, in the
NFL and in
NCAA Division I football, running backs under 6 ft 0 in (1.83 m) are more common than running backs over 6 ft 3 in (1.91 m). Former
Heisman Trophy winner and NFL All-Pro
Barry Sanders, thought by some to be the greatest running back in history, is a classic example of a running back with an extraordinarily low center of gravity. However, Jim Brown, usually considered the greatest running back of all time, was more than 6 ft 2 in (1.88 m) tall, helping display the benefits conferred by the greater leverage which height provides.
| | colspan=2|Imperial system | | | | Country | Males | Females | Males | Females | Age range sampled | Source |
|---|
| Australia | 178.4 cm | 163.9 cm | 5 ft 10.2 in | 5 ft 4.5 in | 18-24 (measured) | g |
| Australia | 179.9 cm | 164.9 cm | 5 ft 10.8 in | 5 ft 4.9 in | 18-24 (self reported) | g |
| Canada | 180.0 cm | 164.9 cm | 5 ft 10.9 in | 5 ft 5.0 in | 18-24 (self reported) | j |
| China | 169.7 cm | 158.6 cm | 5 ft 6.8 in | 5 ft 2.4 in | Adult population | v |
| Denmark | 180.3 cm | 165.2 cm | 5 ft 10.9 in | 5 ft 5.0 in | 18-24 (measured) | u |
| Dinaric Alps | 185.6 cm | 171 cm | 6 ft 1 in | 5 ft 7.3 in | 17 | q |
| France | 173.1 cm | 161.8 cm | 5 ft 8.2 in | 5 ft 3.7 in | | a |
| France | 175.6 cm | 162.5 cm | 5 ft 9.2 in | 5 ft 4.0 in | | n |
| Finland | 176.6 cm | 163.5 cm | 5 ft 9.5 in | 5 ft 4.3 in | | a |
| Finland | 178.2 cm | 164.7 cm | 5 ft 10.1 in | 5 ft 4.7 in | 15-64 (self reported) | p |
| Germany | 174.5 cm | 163.5 cm | 5 ft 8.7 in | 5 ft 4.4 in | | c |
| Germany | 180.2 cm | 169.0 cm | 5 ft 10.9 in | 5 ft 6.5 in | | e |
| - | Italy | 174.58 cm | 166.2 cm | 5 ft 8.7 in | 5 ft 5.4 in | Athletes | s |
| Japan | 165.6 cm | 153.0 cm | 5 ft 5.2 in | 5 ft 0.2 in | | c |
| Japan | 171.1 cm | 157.5 cm | 5 ft 7.3 in | 5 ft 2.2 in | 18 | m |
| Korea, South | 173.3 cm | 160.9 cm | 5 ft 8.2 in | 5 ft 3.3 in | 18 | m |
| Lithuania | 181.2 cm | 167.5 | 5 ft 11.3 in | 5 ft 6.0 in | Adult population | r |
| Netherlands | 178.7 cm | 167.1 cm | 5 ft 10.3 in | 5 ft 5.7 in | | a |
| Netherlands | 181.8 cm | 170.1 cm | 5 ft 11.6 in | 5 ft 7 in | secondary school students | d |
| Netherlands | 184.0 cm | 170.6 cm | 6 ft 0.4 in | 5 ft 7.2in | 21 | h |
| New Zealand | 177.0 cm | 165.0 cm | 5 ft 9.7 in | 5 ft 5 in | 19-45 | k |
| Norway | 179.8 cm | 167.6 cm | 5 ft 10.8 in | 5 ft 5.9 in | 18-19? | f/x? |
| Spain | 170.0 cm | 160.3 cm | 5 ft 6.9 in | 5 ft 3.1 in | | a |
| Spain | 169.0 cm | 158.3 cm | 5 ft 7 in | 5 ft 2.9 in | 45-69 (self reported) | o |
| Spain | 173.0 cm | 161 cm | 5 ft 8.2 in | 5 ft 3.3 in | entire population (self reported) | o |
| Spain | 177.0 cm | 164.3 cm | 5 ft 10 in | 5 ft 4.6 in | 18-29 (self reported) | o |
| Spain | 173.0 cm | 164.0 cm | 5 ft 8.2 in | 5 ft 4.5 in | 18 (measured) | y |
| Sweden | 177.9 cm | 164.6 cm | 5 ft 10 in | 5 ft 4.6 in | | a |
| Sweden | 180.1 cm | 167 cm | 5 ft 10.9 in | 5 ft 5.7 in | 16-24 | l |
| Switzerland | 175.4 cm | 164.0 cm | 5 ft 9 in | 5 ft 3.8 in | | a |
| Taiwan | 171.62 cm | 159.46 cm | 5 ft 7.5 in | 5 ft 2.75 in | 18 | 2003 |
| UK | 175.0 cm | 161.4 cm | 5 ft 9 in | 5 ft 3.5 in | Entire population | x |
| UK | 177.2 cm | 163.0 cm | 5 ft 9.5 in | 5 ft 4 in | 16-24 | x |
| USA | 175.5 cm | 162.6 cm | 5 ft 9 in | 5 ft 3.3 in | | c |
| USA | 176.2 cm | 162.5 cm | 5 ft 9.4 in | 5 ft 4 in | 20-74 | i |
| USA | 178.2 cm | 164.1 cm | 5 ft 10.2 in | 5 ft 4.6 in | 20-39 non-Hispanic whites | i |
| USA | 177.8 cm | 164.0 cm | 5 ft 10 in | 5 ft 4.6 in | 20-39 non-Hispanic blacks | i |
| USA | 169.7 cm | 158.1 cm | 5 ft 6.8 in | 5 ft 2.3 in | 20-39 Mexican Americans | i |
|
Sources::a = Cavelaars et al 2000*:b = kurabe.net**:c = 'Fitting the Task to the Man':d = Netherlands Central Bureau for Statistics, 2000:e = Eurostats Statistical Yearbook 2004:f = Statistics Norway 2002:g = ABS How Australians Measure Up 1995 data:h = Leiden University Medical Centre 1997:i = Mean Body Weight, Height, and Body Mass Index 1960-2002:j = Progress in Prevention 1995***:k = Size and Shape of New Zealanders: NZ Norms for Anthropometric Data 1993****:l = Statistics Sweden 2000:m = Official Statistics by Ministry of Health, Labour and Welfare[
2]:n = UFIH (French Union of Clothing Industries) 2006:o = Sigma Dos Statistics 2003:p = National Public Health Institute(Finland)[
3]:q = Dynamique de l'evolution humaine 2005:r = Department of Anatomy, Histology and Anthropology, Faculty of Medicine, Vilnius University, Vilnius, Lithuania:s = ISTAT, 1980 Birth Cohorts. Females: Average statures of athletes.:u = Committee for determining the eligibility of young men for military service.:v =
National statistics, 2001 (website in Chinese):x = Health Survey for England 2004[
4]:y = Vall d'Hebron HospitalNotes::a* Based on self reported and not measured height:b** Some values from this site have been disputed, see the
talk page for more information.:j*** Based on self reported and not measured height:k**** Based on British norms and their relations to New Zealand values
*
Fitting the Task to the Man, 1987 (for heights in USA and Japan)
* Eurostats Statistical Yearbook 2004 (for heights in Germany)
* Netherlands Central Bureau for Statistics, 1996 (for average heights)
*
Mean Body Weight, Height, and body mass index, United States 1960 - 2002*
How Australians Measure Up*
UK Department of Health - Health Survey for England*
Statistics Norway, Conscripts, by height, Per cent*
Statistics Sweden (in Swedish)*
Burkhard Bilger. "The Height Gap." The New Yorker* A collection of data on human height, referred to here as "karube" but originally collected from other sources, was originally available
here but is no longer. A copy is available
here. (an English translation of this Japanese page would make it easier to evaluate the quality of the data...).
* http://www.cdc.gov/nchs/pressroom/04news/americans.htm
* Bogin, B.A. (1999) Patterns of human growth. 2nd ed Cambridge U Press
* Bogin, B.A. (2001) The growth of humanity Wiley-Liss
* Cavelaars,A.E.J.M.,Kunst,A.E.,Geurts,J.J.M.,Crialesi,R.,Grotvedt,L.,Helmert U. Persistent variations in average height between countries and between socio-economic groups: an overview of 10 European countries. Annals of Human Biology. 27(4),407 - 421.
* Eveleth, P.B. & Tanner, J.M. (1990) Worldwide variation in human growth, 2nd ed. Cambridge University Press.
* McCarron, P., Okasha, M., McEwen, J. et al. (2002) Height in young adulthood and risk of death from cardiorespiratory disease: a prospective study of male former students of Glasgow University, Scotland. Am. J. Epidemiol. 155:683â€"687.
* Miura, K. Nakagawa, H. & Greenland, P. (2002) Invited commentary: height-cardiovascular disease relation: where to go from here? Am. J. Epidemiol. 155:688â€"689.
* Ruff, C. (2002) Variation in human body size and shape. Ann. Rev. Anthropol. 31:211-232;
* Samaras, T.T. & Elrick, H. 1999. Height, body size and longevity. Acta Med Okayama. 53:149-169
* Njolstad I, Arnesen E, Lund-Larsen PG. (1996) Body height, cardiovascular risk factors, and risk of stroke in middle-aged men and women: a 14-year follow-up of the Finnmark Study. Circulation 94:2877â€"2882.
* Tyrrell, A.R., Reilly, T., Troup, J.D., 1983. Circadian variation in stature and the effect of spinal loading. Spine 10, 161--164.
*
Average height of adolescents in the Dinaric Alps*
Spaniards are taller than 20 years ago (in Spanish)Notes
*
Heightism*
Anthropometry*
Human weight*
Human variability*
Human biology*
List of famous short women*
List of famous tall men*
List of famous tall women*
List of famous short men*
CDC National Center for Health Statistics: Growth Charts of American PercentilesFor a more accurate worldwide statistical study data covering males and females from 1 - 18 years of age, check this link (scroll down to table III - IV).*
www.fao.org: Body Weights and Heights by Countries
