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Body height, or how tall people become, generally varies little between people compared to other anthropometric measures. Exceptional height variation (around 20% deviation from average) is usually due to gigantism or dwarfism.
Adult height for one sex in a particular ethnic group follows more or less a normal distribution.
- 1 Average adult height around the world
- 2 Human Height Distribution (USA)
- 3 Determinants of growth and height
- 4 Process of growth
- 5 Height abnormalities
- 6 Role of an individual's height
- 7 The role of height in sports
- 8 History of human height
- 9 See also
- 10 Bibliography
- 11 External links
Average adult height around the world[edit | edit source]
Below are average adult heights by country. (The original studies and sources should be consulted for details on methodology and the exact populations measured, surveyed, or considered.)
|Metric system||Imperial system|
|Country/Region||Males||Females||Males||Females||Age range sampled||Source|
|Argentina||172.0 cm||161 cm||5 ft 8.7 in||5 ft 3.4 in||19 (measured)||SciELO Argentina (2005)|
|Australia||174.8 cm||163.9 cm||5 ft 10.2 in||5 ft 4.2 in||18-24 (measured)||g|
|Belgium||178.0 cm||166.0 cm||5 ft 10 in||5 ft 5.5 in||18-24 (measured)||g|
|Brazil||168.99 cm||158.0 cm||5 ft 6.5 in||5 ft 2.2 in||adult population(measured)||IBGE(2005)|
|Canada||174.0 cm||161.0 cm||5 ft 8.5 in||5 ft 3.4 in||adult population (measured)||j²|
|Canada||180 cm||165 cm||5 ft 10.9 in||5 ft 5.0 in||18-24 (self reported)||j|
|China (PRC)||164.8 cm||154.5 cm||5 ft 4.8 in||5 ft 0.8 in||30-65 (measured)||CHNS(1997)|
|Czech Republic||180.3 cm||167.3 cm||5 ft 11 in||5 ft 6.0 in||18 (measured)||Blaha et al. 2005|
|Denmark||180.9 cm||169.1 cm||5 ft 11.2 in||5 ft 6.6 in||19 (conscripts)||u|
|Dinaric Alps||185.6 cm||171 cm||6 ft 1 in||5 ft 7.3 in||17||q|
|Estonia||179.1 cm||5 ft 10.5 in||17||ff|
|Finland||176.7 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 in||5 ft 4.7 in||15-64 (self reported)||p|
|France||173.2 cm||161.8 cm||5 ft 8.1 in||5 ft 3.7 in||a|
|France||175.7 cm||162.5 cm||5 ft 9.2 in||5 ft 4.0 in||n|
|Germany||178.1 cm||165 cm||5 ft 10 in||5 ft 4.9 in||entire population||s|
|Germany||181 cm||167 cm||5 ft 11 in||5 ft 6 in||18-19 (2005)||s|
|Iceland||181.7 cm||167.6 cm||5 ft 11.5 in||5 ft 6 in||20||cc|
|Israel||175.6 cm||162.8 cm||5 ft 9.1 in||5 ft 4.1 in||20-22 (between 1980-2000)||y|
|Italy - Middle & North||176.9 cm||163.2 cm||5 ft 9.5 in||5 ft 4.2 in||20(between 1994-2000)||Cacciari et al. 2001|
|Italy - South||174.2 cm||160.8 cm||5 ft 8.0 in||5ft 3.3 in||20(between 1994-2000)||Cacciari et al. 2001|
|Japan||166.7 cm||153.0 cm||5 ft 5.2 in||5 ft 0.2 in||adult population (1980)||c|
|Japan||172.18 cm||158.92 cm||5 ft 7.8 in||5 ft 2.6 in||20-24||m²|
|Korea, South||173.6 cm||161.1 cm||5 ft 8.3 in||5 ft 3.4 in||17||aa|
|Korea, South||173.9 cm||161.1 cm||5 ft 8.4 in||5 ft 3.4 in||17||2006 aa¹|
|Korea, South||173.6 cm||5 ft 8.3 in||19 examination for conscription||a³|
|Lithuania||176.3 cm||5 ft 9.4 in||20||r|
|Malta||169 cm||159 cm||5 ft 6.5 in||5 ft 2.6 in||all adult population||z|
|Malta||175.2 cm||163.8 cm||5 ft 9 in||5 ft 4.5 in||25-34||z|
|Netherlands||178.8 cm||167.1 cm||5 ft 10.3 in||5 ft 5.7 in||a|
|Netherlands||184.8 cm||168.7 cm||6 ft 0.8 in||5 ft 6.5 in||20-30||DINED 2004 TU Delft|
|New Zealand||177.0 cm||165.0 cm||5 ft 9.7 in||5 ft 5 in||19-45||k|
|Norway||179.9 cm||167.2 cm||5 ft 10.8 in||5 ft 5.9 in||men measured at 18-19||SSB|
|Philippines||163.3 cm||151.4 cm||5 ft 4.3 in||4 ft 11.6 in||20-39 (measured)||5Th National Nutrition Survey|
|Philippines||158.9 cm||147.8 cm||5 ft 2.6 in||4 ft 10.2 in||60 and over (measured)||5Th National Nutrition Survey|
|Portugal||172.8 cm||5 ft 8 in||21 conscription exam. (1998-99)||dd|
|Poland||176.9 cm||5 ft 9.6 in||19 conscription exam (1995)||ee|
|Singapore||172.0 cm||160 cm||5 ft 7.8 in||5 ft 3 in||17-25||Deurenberg et al. 2003|
|Spain||173.1 cm||161 cm||5 ft 8.2 in||5 ft 3.3 in||entire population (self reported)||o|
|Spain||177.1 cm||164.3 cm||5 ft 9.7 in||5 ft 4.6 in||18-29 (self reported)||o|
|Catalonia, Spain||173.0 cm||164 cm||5 ft 8 in||5 ft 4.6 in||18 (measured)||x|
|Madrid, Spain||177.0 cm||164 cm||5 ft 9.7 in||5 ft 4.6 in||18 (measured)||x|
|Galicia, Spain||177.0 cm||164 cm||5 ft 9.7 in||5 ft 4.6 in||18 (measured)||x|
|Zaragoza, Spain||177.0 cm||162 cm||5 ft 9.7 in||5 ft 4.6 in||18 (measured)||x|
|Sweden||180.2 cm||167 cm||5 ft 10.9 in||5 ft 5.7 in||16-24||Statistiska Centralbyrån|
|Switzerland||175.5 cm||164.0 cm||5 ft 9 in||5 ft 3.8 in||a|
|Taiwan||172.04 cm||159.68 cm||5 ft 7.73 in||5 ft 2.8 in||18.5||bb|
|United Kingdom||175.1 cm||161.4 cm||5 ft 8.9 in||5 ft 3.5 in||entire population||v|
|United Kingdom||177.3 cm||163.0 cm||5 ft 9.8 in||5 ft 4.1 in||16-24||v|
|USA||175.8 cm||162.5 cm||5 ft 9.2 in||5 ft 3.77 in||20+||i|
|USA||178.2 cm||164.1 cm||5 ft 10.1 in||5 ft 4.6 in||20-39 Whites||i|
|USA||177.8 cm||164.0 cm||5 ft 10.0 in||5 ft 4.6 in||20-39 African-American||i|
|USA||169.7 cm||158.1 cm||5 ft 6.8 in||5 ft 2.2 in||20-39 Mexican-Americans||i|
|USA||179.25 cm||165.05 cm||5 ft 10.6 in||5 ft 5 in||'80 - '83 born Whites (measured)||gg|
|USA||178.22 cm||163.65 cm||5 ft 10.2 in||5 ft 4.4 in||'80 - '83 born African-Americans||gg|
- a = Cavelaars et al 2000*
- b = kurabe.net**
- c = 'Fitting the Task to the Man'
- ger = Official statistics ot the Federal Statistical Office of Germany
- d = Netherlands Central Bureau for Statistics, 2000
- e = Eurostats Statistical Yearbook 2004
- f = Statistics Norway 2006 
- 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
- j² = 2005 Canadian Community Health Survey 3.1
- j = Canadian Fitness and Lifestyle Research Institute
- k = (page 60) Size and Shape of New Zealanders: NZ Norms for Anthropometric Data 1993****
- l = Statistics Sweden
- m² = Official Statistics by Ministry of Education, Culture, Sports, Science and Technology
- n = UFIH (French Union of Clothing Industries) 2006
- o = Sigma Dos Statistics 2003
- p = National Public Health Institute (Finland)
- q = (Full text source is pay, lists the statistics as based on these regions: Dalmatia (Split, Sibenik, Drnis, Sinj, Imotski, Vrgorac) and Hercegovina (Mostar, Trebinje, Konjic) Dynamique de l'evolution humaine 2005
- r = VISUOMENĖS SVEIKATA Anthropometrical data and physical fitness of Lithuanian soldiers
- s = 
according to the sociodemographic characteristics
- s = Committee for determining the eligibility of young men for military service.
- u = 
- v = Health Survey for England 2004
- x = Vall d'Hebron Hospital pediatric study about 18-year-old Spaniards, dated in 2004, and other values mentioned in the article below.
- y = (a study made between the years 1980-2000)
- z = 2003 study. A 2007 Eurostat study revealed the same results - the average Maltese person is 164.9cm (5'4.9") compared to the EU average of 169.6 cm (5'6.7").
- aa = Korean statistical information system (between) 1970-2004 Source: Ministry of Education and Human Resources Development [korea]
- aa¹ = Physique of primary & secondary students Pdf file
- aa² = Empas news (website in Korean)
- a³ = MMA (Military Manpower Administration) White book 2004~6(South Korea)
- bb = Ministry of Education, Republic of China (Taiwan)
- cc = Icelandic boys, girls
- dd = Tendências do Peso em Portugal no Final do Século XX
- ee = 
- ff = 
- gg = 
- 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
Human Height Distribution (USA)[edit | edit source]
Table showing percentile smaller than stated height
|Height (feet/inch)||Height (cm)||Male||Female|
|5 ft 0in||152cm||0.2%||9.7%|
|6 ft 0in||183cm||88.2%||99.5%|
- Source - This data is based on a sample of 12,867 people by the Third National Health and Nutrition Examination Survey between 1988 and 1994. Study is based on Adults between 18 and 65 (men) and 60 (women)
Determinants of growth and height[edit | edit source]
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.
Height is, like other phenotypic traits, determined by a combination of genetics and environmental factors. Genetic potential plus nutrition minus stressors is a basic formula. Genetically speaking, the heights of mother and son and of father and daughter correlate, suggesting that a short mother will more likely bear a shorter son, and tall fathers will have tall daughters. 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 — which can be significant — 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 is complex and uncertain. Human height is 90% heritable and has been considered polygenic since the Mendelian-biometrician debate a hundred years ago. The only gene so far attributed with normal height variation is HMGA2. This is only one of many, as each copy of the allele concerned confers an additional 0.4 cm, accounting for just 0.3% of population variance.
Race and height[edit | edit source]
The Nilotic peoples of Sudan such as the Dinka have been described as the tallest in the world, with the males in some communities having average heights of 1.9 m (6 ft 3 in) and females at 1.8 m (5 ft 11 in). A notable example is Manute Bol, who, at 2.31m(7ft 7in), was the tallest basketball player in the NBA. The Dinka are characterized as having long legs, narrow bodies and short trunks, an adaptation to hot weather. However, a 1995 study casts doubt on the claim of extraordinary height in Dinka, which after studying the average height of Dinka males in one location, listed the actual number as 1.76 m (5 ft 9.45 in.)  Adults of Pygmy peoples have an approximate average height of 4ft 11in.
At 2.57 metres (8 ft 5.5 in), Leonid Stadnyk is the world's tallest living man and is from Ukraine. The tallest man that ever lived was Robert Pershing Wadlow from Alton, Illinois, who was born in 1918 and stood 8 ft 11.1 inches (2.72 m) at the time of his death in 1940. The tallest man without a growth disorder is Bao Xishun at 2.361 metres (7 ft 8.95 in) tall.
Process of growth[edit | edit source]
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 leg length is a somewhat sexually dimorphic trait. Height is also attained from growth of the spine, and contrary to popular belief, men are the "leggier" sex 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.
Height abnormalities[edit | edit source]
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.
If not enough growth hormone is produced and/or secreted by the pituitary gland, then a patient with growth hormone deficiency can undergo treatment. This treatment involves the injection of pure growth hormone into thick tissue to jump-start the growth process.
Role of an individual's height[edit | edit source]
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 excessively tall can cause various medical problems, including cardiovascular issues, due to the increased load on the heart to supply the body with blood, and issues resulting from the increased time it takes the brain to communicate with the extremities. For example, Robert Wadlow, the tallest man known to verifiable history, developed walking difficulties as his height continued to increase throughout his life. In many of the pictures of the later portion of his life, Wadlow can be seen gripping something for support. Late in his life he was forced to wear braces on his legs and to walk with a cane, and he died after developing an infection in his legs because he was unable to feel the irritation and cutting caused by his leg braces (it is important to note that he died in 1940, before the widespread use of modern antibiotics). Height extremes of either excessive tallness or shortness can cause social exclusion and discrimination for both men and women (heightism).
Epidemiological studies have also demonstrated a positive correlation between height and intelligence. The reasons for this association appear to include that height serves as a biomarker of nutritional status or general mental and physical health during development, that common genetic factors may influence both height and intelligence, and that both height and intelligence are affected by adverse early environmental exposures.
- Main article: Height and intelligence
In addition, an individual's height can be largely a part of what social clique, or group that they fall in to, though this is usually associated with pre-teens and teenagers. For example, in some schools, students on the basketball team might be "cool", and those with short stature wouldn't likely make the team. Therefore, in some cases, this could contribute to them being classified as "uncool", which can be detrimental to that particular individual's self-esteem.
This can also sometimes be translated over into the corporate world. Individuals with short stature can sometimes appear to not have any leadership ability or power, since some people might not take them seriously due to their short stature. However, this is not always the case with most employers. Historically this assumption has not always reflected reality; for instance Napoleon was not much taller than 5ft according to sources (though Napoleon's height is subject to great debate, and he may have been as much as 5' 7", see Napoleon's height for further information) and Deng Xiaoping of China who undertook massive reforms to the Chinese economy in the 1980s was reported to have only been 5 ft 2.(which was shorter than the average Chinese) Both were considered very strong leaders.
The role of height in sports[edit | edit source]
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 almost always well above average in height compared to the general population. In men's professional basketball, the guards, the smallest players, are usually around 6'2" to 6'6" (1.88 to 1.98 m), and the centers, the tallest players, are generally from 6'10" to 7'2" (2.08 to 2.18 m). Famous basketball player Shaquille O'Neal is listed at 7'1" (2.16 m). Some sports, such as horse racing, auto racing, figure skating, diving, and gymnastics, a smaller frame is more valuable. In other sports, the role of height is specific to particular positions (i.e . In American Football, running backs have an advantage if they are shorter than the defenders due to lower centers of gravity and decreased visibility.) In weightlifting shorter levers are advantageous and taller than average competitors usually compete in the 105 kg + group.
Soccer[edit | edit source]
For example, in soccer, tall goalkeepers have an advantage because they have greater armspans and can jump higher easily, so one will rarely, if ever, see a short goalkeeper at the professional level. However, shorter goalkeepers will have an easier time reaching low shots as they can reach the ground fractionally sooner than taller keepers. In attacking and wide positions, height is not always important with some of the best players in the world (e.g. Lionel Messi, Romario and Maradona) being shorter than average and in many cases gaining an advantage with their low center of gravity. However, height is generally considered advantageous for central defenders.
Cricket[edit | edit source]
Similarly, in cricket, some good batsmen like Donald Bradman (5'7"/1.70 m), Sachin Tendulkar (5'5"/1.65 m) and Aravinda De Silva (5'2") are/were short. On the other hand, many successful fast bowlers are/were well over 6 ft/1.83 m; for examples, past greats Joel Garner, Courtney Walsh, and Curtly Ambrose were all 6'6"/1.98 m or taller and the recently retired Glenn McGrath is 6'4¾"/1.95 m. In general, taller bowlers have a higher point of release in their bowling action, making it easier for them to make the ball rear-up from a length. Also, they can generate more pace with longer arms and the sling action associated with bowling.
Rugby[edit | edit source]
In rugby union, lineout jumpers, generally Template:Locks, are usually the tallest players on the pitch, as this increases their chance of winning clean ball, whereas Template:Scrum-half are usually relatively short. As examples, current world-class locks Victor Matfield, Chris Jack, and Paul O'Connell are all at least 6'6"/1.98 m, while the sport's all-time leader in international appearances, scrum-half George Gregan, is 5'8"/1.73m.
Football[edit | edit source]
In 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 in a passing situation. Tall wide receivers have an advantage of being able to outjump shorter defensive backs to catch highly thrown passes. By contrast, shorter defensive backs are utilized because of their typically greater agility, as the ability to change directions instantly is a prerequisite for the position. Short running backs are at an advantage because their shorter stature and lower center of gravity generally makes them harder to tackle effectively. In addition, they can easily "hide" 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 Pro Football Hall of Famer 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, as he stood only 5 ft 7 1/2 in (1.71 m). However, Jim Brown, another player often considered the greatest running back of all time, was more than 6 ft 2 in (1.88 m) tall, demonstrating benefits conferred by the greater power and leverage which height provides.
Kickers are generally short, they are shorter becuase this allows them to get under the ball easier. Punters are generally very tall because of longer legs achieving greater leg swing and this translates into more power on the ball.
Cornerbacks are generally matched with taller recievers if they are very good at blocking off the line. But for plays where it is a definite deep pass, then taller corners are used. To increase the chaces of a batted down pass or an interception.
Safetys are tall to pick off passes and intimidate backs and recievers.
Basketball[edit | edit source]
Basketball players tend to be extremely tall with the tallest players being the centers, as their position is nearest the basket. Height helps them make easy dunks and gives them a better chance of not having their shots blocked. The shortest players are usually the pointguards, whose low center of gravity helps them dribble closer to the ground.
Baseball[edit | edit source]
In baseball, pitchers tend to be taller than position players. Being taller means longer legs, which power pitches use to generate velocity and a release point closer to the plate, which means the ball reaches the batter quicker. While tall position players have a larger strike zone, most position players are at least of average height because the larger frame allows them to generate more power. Most successful modern pitchers are safely over 6 feet/1.83 m, some to extremes (e.g., the 6'10"/2.08 m Randy Johnson), with the 5'11"/1.80 m Pedro Martínez a notable exception.
History of human height[edit | edit source]
In the 18th and 19th centuries, Europeans in North America were far taller than those in Europe[How to reference and link to summary or text]. In fact, they were the tallest in the world. The original indigenous population of Plains Indians was also among the tallest populations of the world at the time. Several nations, including many nations in Europe, have now surpassed the US, particularly the Netherlands, and the Scandinavian nations.
In the late nineteenth century, the Netherlands was a land renowned for its short population, but today it has the 2nd tallest average in the world, with young men averaging 183 cm (6 ft) tall and only shorter than the peoples of the Dinaric Alps (Montenegro, Herzegovina, Coastal Croatia), where males average 186 cm (6 ft 1.1 in) tall. The Dinarians and Dutch are now well known in Europe for extreme tallness. In Africa, the Maasai, Dinka and Tutsi populations are known for their tallness.
Average male height in impoverished Vietnam and North Korea remains comparatively small at 163 cm (5 ft 4 in) and 165 cm (5 ft 5 in), respectively. Currently, young adult 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 12 cm (5.5 inches) taller than their North Korean counterparts, on average. There is also an extreme difference between older North Koreans and young North Koreans who grew up during the famines of the 1990s-2000s; there is virtually no height difference among North Korean and South Korean adults older than 40, who came of age at a time when the North's economy was on a par with that of the South.
See also[edit | edit source]
- Body image
- Height and intelligence
- Human weight
- Human variability
- Human biology
- Physical attractiveness
Bibliography[edit | edit source]
- 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...).
- Aminorraya, A. et al.: Growth Charts of Heights and Weights of Male Children and Adolescents of Isfahan, Iran. Journal of Health and Population Nutrition, 21(4):2003, p. 341-346
- Blaha, P. et al.: 6. Celostatni antropologicky vyzkum deti a mladeze 2001, Ceska republika [6th Nationwide anthropological research of children and youth 2001, Czech republic], Charles University in Prague 2005
- 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.
- Deurenberg P., Kalpana Bhaskaran, Petrina Lim Kim Lian: Singaporean Chinese adolescents have more subcutaneous adipose tissue than Dutch Caucasians of the same age and body mass index. Asia Pacific Journal of Clinical Nutrition, 12(3):2003, p. 261-265
- Eveleth, P.B. & Tanner, J.M. (1990) Worldwide variation in human growth, 2nd ed. Cambridge University Press.
- Lintsi, M., Kaarma, H.: Growth of Estonian seventeen-year-old boys during the last two centuries. Economics and Human Biology 4 (2006) 89–103.
- Miura, K. Nakagawa, H. & Greenland, P. (2002) Invited commentary: height-cardiovascular disease relation: where to go from here? Am. J. Epidemiol. 155:688–689.
- Ruff, C. (2002) Variation in human body size and shape. Ann. Rev. Anthropol. 31:211-232.
- Average height of adolescents in the Dinaric Alps
- Average height of young Spaniards (in Spanish)
- Differences between height (stature) and recumbent length
- Mandel, MD, E. Zimlichman, MD, F. B. Mimouni, MD, FACN, FAAP, I. Grotto, MD, MPH, and Y. Kreiss, MD Height-Related Changes in Body Mass Index: A Reappraisal
- A. Case, PhD, C. Paxson, PhD, Stature and Status: Height, Ability, and Labor Market Outcomes
- Global Height Trends in Industrial and Developing Countries, 1810-1984: An Overview 2006 10 20
References[edit | edit source]
- Mariana del Pino, Luisa Bay, Horacio Lejarraga, Irina Kovalskys, Enrique Berner and Cecile Rausch Herscovic. Archik;hK:Mvos Argentinos de Pediatría. SciELO Argentina.
- M.N. Weedon et al. (Advanced online publication 2007). A common variant of HMGA2 is associated with adult and childhood height in the general population. Nature Genetics.
- R.A. Fisher (1918). The correlation between relatives on the supposition of mendelian inheritance. Trans. R. Soc. Edinburgh: 399–433.
- the tallest people in the world
- climate sculpts bodies
- Chali D. (1995) 'Anthropometric measurements of the Nilotic tribes in a refugee camp', Ethiopian Medical Journal, 33, 4, 211-217.
- 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 94:2877–2882.
- 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. 155:683–687
- Samaras, T.T. & Elrick, H. 1999. Height, body size and longevity. Acta Med Okayama. 53:149-169
- E! News
- Bogin 2001, citing height and distribution data of 8 plains Indian tribes collected by Frank Boas during 1888-1903 published by Prince & Steckel 1998, "Tallest in the world: Native Americans of the Great Plains in the nineteenth century". National Bureau of Economic Research Working Paper Series. Historical paper 112 1-35
- The Seattle Times: "Short stature evident in North Korean generation" (free registration required)
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For 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
- Height to Weight Charts Height to weight charts according to small, medium and large frame for both men and women.
- Standard to Metric Human Height Converter
- BMI Calculator Calculate a persons Body Mass Index
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