Human

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Human[2]
Temporal range: 0.195–0Ma
Pleistocene – Recent
Adult human male (left) and female (right) from Southeast Asia
Conservation status
Scientific classification
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Order: Primates
Family: Hominidae
Tribe: Hominini
Genus: Homo
Species: H. sapiens
Binomial name
Homo sapiens
Linnaeus, 1758
Subspecies

Homo sapiens idaltu White et al., 2003
Homo sapiens sapiens

Range of Homo sapiens (green)
Synonyms

Humans (variously Homo sapiens and Homo sapiens sapiens) are primates of the family Hominidae, and the only extant species of the genus Homo.[3][4] Humans are distinguished from other primates by their bipedal locomotion, and especially by their relatively larger brain with its particularly well developed neocortex, prefrontal cortex and temporal lobes, which enable high levels of abstract reasoning, language, problem solving, and culture through social learning. Humans use tools to a much higher degree than any other animal, and are the only extant species known to build fires and cook their food, as well as the only known species to clothe themselves and create and use numerous other technologies and arts. The scientific study of humans is the discipline of anthropology.

Humans are uniquely adept at utilizing systems of symbolic communication such as language and art for self-expression, the exchange of ideas, and organization. Humans create complex social structures composed of many cooperating and competing groups, from families and kinship networks to states. Social interactions between humans have established an extremely wide variety of values, social norms, and rituals, which together form the basis of human society. The human desire to understand and influence their environment, and explain and manipulate phenomena, has been the foundation for the development of science, philosophy, mythology, and religion.

The human lineage diverged from the last common ancestor with its closest living relative, the chimpanzee, some five million years ago, evolving into the australopithecines and eventually the genus Homo.[5] The first Homo species to move out of Africa was Homo erectus, the African variety of which, together with Homo heidelbergensis, is considered to be the immediate ancestor of modern humans.[6][7] Homo sapiens originated in Africa, where it reached anatomical modernity about 200,000 years ago and began to exhibit full behavioral modernity around 50,000 years ago.[8] Homo sapiens proceeded to colonize the continents, arriving in Eurasia 125,000–60,000 years ago,[9][10] Australia around 40,000 years ago, the Americas around 15,000 years ago, and remote islands such as Hawaii, Easter Island, Madagascar, and New Zealand between the years AD 300 and 1280.[11][12]

Humans began to practice sedentary agriculture about 12,000 years ago, domesticating plants and animals which allowed for the growth of civilization. Humans subsequently established various forms of government, religion, and culture around the world, unifying people within a region and leading to the development of states and empires. The rapid advancement of scientific and medical understanding in the 19th and 20th centuries led to the development of fuel-driven technologies and improved health, causing the human population to rise exponentially. With individuals widespread in every continent except Antarctica, humans are a cosmopolitan species. By 2012 the global human population was estimated to be around 7 billion.[13][14]

Etymology and definition

In common usage, the word "human" generally refers to the only extant species of the genus Homo — anatomically and behaviorally modern Homo sapiens. Its usage often designates differences between the species as a whole, against any other nature or entity. The term "human" also designates the collective identity, often applied to superseding concepts of race and creed; e.g. "our" human nature and humanity.[citation needed]

In scientific terms, the definition of "human" has changed with the discovery and study of the fossil ancestors of modern humans. The previously clear boundary between human and ape blurred, resulting in "Homo" referring to "human" now encompassing multiple species. There is also a distinction between anatomically modern humans and Archaic Homo sapiens, the earliest fossil members of the species, which are classified as a subspecies of Homo sapiens, e.g. Homo sapiens neanderthalensis.

The English adjective human is a Middle English loanword from Old French humain, ultimately from Latin hūmānus, the adjective form of homō "man". The word's use as a noun (with a plural: humans) dates to the 16th century.[15] The native English term man can refer to the species generally (a synonym for humanity), and could formerly refer to specific individuals of either sex. The latter use is now obsolete.[16] Generic uses of the term "man" are declining, in favor of reserving it for referring specifically to adult males. The word is from Proto-Germanic mannaz, from a Proto-Indo-European (PIE) root man-.

The species binomial Homo sapiens was coined by Carl Linnaeus in his 18th century work Systema Naturae, and he himself is the lectotype specimen.[17] The generic name Homo is a learned 18th century derivation from Latin homō "man", ultimately "earthly being" (Old Latin hemō, a cognate to Old English guma "man", from PIE dʰǵʰemon-, meaning "earth" or "ground").[18] The species-name sapiens means "wise" or "sapient". Note that the Latin word homo refers to humans of either gender, and that sapiens is the singular form (while there is no word sapien).

History

Evolution

Scientific study of human evolution studies the development of the genus Homo, reconstructing the evolutionary divergence of the human lineage from other hominins (members of the human clade after the split from the chimpanzee lineage), hominids (great apes) and primates. Modern humans are defined as belonging to the species Homo sapiens, specifically to the single extant subspecies Homo sapiens sapiens.

Evidence from molecular biology

Family tree showing the extant hominoids: humans (genus Homo), chimpanzees and bonobos (genus Pan), gorillas (genus Gorilla), orangutans (genus Pongo), and gibbons (four genera of the family Hylobatidae: Hylobates, Hoolock, Nomascus, and Symphalangus). All except gibbons are hominids.

The closest living relatives of humans are chimpanzees (genus Pan) and gorillas (genus Gorilla).[19] With the sequencing of both the human and chimpanzee genome, current estimates of similarity between human and chimpanzee DNA sequences range between 95% and 99%.[19][20][21] By using the technique called a molecular clock which estimates the time required for the number of divergent mutations to accumulate between two lineages, the approximate date for the split between lineages can be calculated. The gibbons (Hylobatidae) and orangutans (genus Pongo) were the first groups to split from the line leading to the humans, then gorillas (genus Gorilla) followed by the chimpanzees and bonobos (genus Pan). The splitting date between human and chimpanzee lineages is placed around 4–8 million years ago during the late Miocene epoch.[22][23][24]

Evidence from the fossil record

Skulls of 1. Gorilla 2. Australopithecus 3. Homo erectus 4. Neanderthal (La Chapelle aux Saints) 5. Steinheim Skull (Archaic Homo sapiens) 6. Anatomically modern Homo sapiens

There is little fossil evidence for the divergence of the gorilla, chimpanzee and hominin lineages.[25][26] The earliest fossils that have been proposed as members of the hominin lineage are Sahelanthropus tchadensis dating from 7 million years ago, and Orrorin tugenensis dating from 5.7 million years ago and Ardipithecus kadabba dating to 5.6 million years ago. Each of these has been argued to be a bipedal ancestor of later hominins, but in each case the claims have been contested. It is also possible that either of these species is an ancestor of another branch of African apes, or that they represent a shared ancestor between hominins and other Hominoidea. The question of the relation between these early fossil species and the hominin lineage is still to be resolved. From these early species the australopithecines arose around 4 million years ago diverged into robust (also called Paranthropus) and gracile branches, one of which (possibly A. garhi) went on to become ancestors of the genus Homo.

The earliest members of the genus Homo are Homo habilis which evolved around 2.3 million years ago. Homo habilis is the first species for which we have positive evidence of use of stone tools. The brains of these early hominins were about the same size as that of a chimpanzee, and their main adaptation was bipedalism as an adaptation to terrestrial living. During the next million years a process of encephalization began, and with the arrival of Homo erectus in the fossil record, cranial capacity had doubled. Homo erectus were the first of the hominina to leave Africa, and these species spread through Africa, Asia, and Europe between 1.3 to 1.8 million years ago. One population of H. erectus, also sometimes classified as a separate species Homo ergaster, stayed in Africa and evolved into Homo sapiens. It is believed that these species were the first to use fire and complex tools. The earliest transitional fossils between H. ergaster/erectus and archaic humans are from Africa such as Homo rhodesiensis, but seemingly transitional forms are also found at Dmanisi, Georgia. These descendants of African H. erectus spread through Eurasia from ca. 500,000 years ago evolving into H. antecessor, H. heidelbergensis and H. neanderthalensis. The earliest fossils of anatomically modern humans are from the Middle Paleolithic, about 200,000 years ago such as the Omo remains of Ethiopia and the fossils of Herto sometimes classified as Homo sapiens idaltu.[27] Later fossils of archaic Homo sapiens from Skhul in Israel and Southern Europe begin around 90,000 years ago.[28]

Anatomical adaptations

Reconstruction of Homo habilis, the first human ancestor to use stone tools

Human evolution is characterized by a number of morphological, developmental, physiological, and behavioral changes that have taken place since the split between the last common ancestor of humans and chimpanzees. The most significant of these adaptations are 1. bipedalism, 2. increased brain size, 3. lengthened ontogeny (gestation and infancy), 4. decreased sexual dimorphism. The relationship between all these changes is the subject of ongoing debate.[29] Other significant morphological changes included the evolution of a power and precision grip, a change first occurring in H. erectus.[30]

Bipedalism is the basic adaption of the hominin line, and it is considered the main cause behind a suite of skeletal changes shared by all bipedal hominins. The earliest bipedal hominin is considered to be either Sahelanthropus[31] or Orrorin, with Ardipithecus, a full bipedal, coming somewhat later. The knuckle walkers, the gorilla and chimpanzee, diverged around the same time, and either Sahelanthropus or Orrorin may be humans' last shared ancestor with those animals. The early bipedals eventually evolved into the australopithecines and later the genus Homo. There are several theories of the adaptational value of bipedalism. It is possible that bipedalism was favored because it freed up the hands for reaching and carrying food, because it saved energy during locomotion, because it enabled long distance running and hunting, or as a strategy for avoiding hyperthermia by reducing the surface exposed to direct sun.

The human species developed a much larger brain than that of other primates – typically 1,330 cc in modern humans, over twice the size of that of a chimpanzee or gorilla.[32] The pattern of encephalization started with Homo habilis which at approximately 600 cc had a brain slightly larger than chimpanzees, and continued with Homo erectus (800–1100 cc), and reached a maximum in Neanderthals with an average size of 1200-1900cc, larger even than Homo sapiens. The pattern of human postnatal brain growth differs from that of other apes (heterochrony), and allows for extended periods of social learning and language acquisition in juvenile humans. However, the differences between the structure of human brains and those of other apes may be even more significant than differences in size.[33][34][35][36] The increase in volume over time has affected different areas within the brain unequally – the temporal lobes, which contain centers for language processing have increased disproportionately, as has the prefrontal cortex which has been related to complex decision making and moderating social behavior.[32] Encephalization has been tied to an increasing emphasis on meat in the diet,[37][38] or with the development of cooking,[39] and it has been proposed that intelligence increased as a response to an increased necessity for solving social problems as human society became more complex.

The reduced degree of sexual dimorphism is primarily visible in the reduction of the male canine tooth relative to other ape species (except gibbons). Another important physiological change related to sexuality in humans was the evolution of hidden estrus. Humans are the only ape in which the female is fertile year round, and in which no special signals of fertility are produced by the body (such as genital swelling during estrus). Nonetheless humans retain a degree of sexual dimorphism in the distribution of body hair and subcutaneous fat, and in the overall size, males being around 25% larger than females. These changes taken together have been interpreted as a result of an increased emphasis on pair bonding as a possible solution to the requirement for increased parental investment due to the prolonged infancy of offspring.

Rise of Homo sapiens

The path followed by humans in the course of history

By the beginning of the Upper Paleolithic period (50,000 BP), full behavioral modernity, including language, music and other cultural universals had developed.[40][41] As modern humans spread out from Africa they encountered other hominids such as Homo neanderthalensis and the so-called Denisovans, who may have evolved from populations of Homo erectus that had left Africa already around 2 million years ago. The nature of interaction between early humans and these sister species has been a long standing source of controversy, the question being whether humans replaced these earlier species or whether they were in fact similar enough to interbreed, in which case these earlier populations may have contributed genetic material to modern humans.[42] Recent studies of the human and Neanderthal genomes suggest gene flow between archaic Homo sapiens and Neanderthals and Denisovans.[43][44][45]

This dispersal out of Africa is estimated to have begun about 70,000 years BP from northeast Africa. Current evidence suggests that there was only one such dispersal and that it only involved a few hundred individuals. The vast majority of humans stayed in Africa and adapted to diverse array of environments.[46] Modern humans subsequently spread globally, replacing earlier hominins (either through competition or hybridization). They inhabited Eurasia and Oceania by 40,000 years BP, and the Americas at least 14,500 years BP.[47][48]

Transition to civilization

The rise of agriculture, and domestication of animals, led to stable human settlements.

Until c. 10,000 years ago, humans lived as hunter-gatherers. They generally lived in small nomadic groups known as band societies. The advent of agriculture prompted the Neolithic Revolution, when access to food surplus led to the formation of permanent human settlements, the domestication of animals and the use of metal tools for the first time in history. Agriculture encouraged trade and cooperation, and led to complex society. Because of the significance of this date for human society, it is the epoch of the Holocene calendar or Human Era.

About 6,000 years ago, the first proto-states developed in Mesopotamia, Egypt's Nile Valley and the Indus Valley. Military forces were formed for protection, and government bureaucracies for administration. States cooperated and competed for resources, in some cases waging wars. Around 2,000–3,000 years ago, some states, such as Persia, India, China, Rome, and Greece, developed through conquest into the first expansive empires. Ancient Greece was the seminal civilization that laid the foundations of Western culture, being the birthplace of Western philosophy, democracy, major scientific and mathematical advances, the Olympic Games, Western literature and historiography, as well as Western drama, including both tragedy and comedy.[49] Influential religions, such as Judaism, originating in West Asia, and Hinduism, originating in South Asia, also rose to prominence at this time.

The late Middle Ages saw the rise of revolutionary ideas and technologies. In China, an advanced and urbanized society promoted innovations and sciences, such as printing and seed drilling. In India, major advancements were made in mathematics, philosophy, religion and metallurgy. The Islamic Golden Age saw major advancements in mathematics, astronomy, optics, biology, medicine, art and architecture in Muslim empires. In Europe, the rediscovery of classical learning and inventions such as the printing press led to the Renaissance in the 14th and 15th centuries. Over the next 500 years, exploration and colonialism brought great parts of the world under European control, leading to later struggles for independence. The Scientific Revolution in the 17th century and the Industrial Revolution in the 18th–19th centuries promoted major innovations in transport, such as the railway and automobile; energy development, such as coal and electricity; and government, such as representative democracy and Communism.

With the advent of the Information Age at the end of the 20th century, modern humans live in a world that has become increasingly globalized and interconnected. As of 2010, almost 2 billion humans are able to communicate with each other via the Internet,[50] and 3.3 billion by mobile phone subscriptions.[51]

Although interconnection between humans has encouraged the growth of science, art, discussion, and technology, it has also led to culture clashes and the development and use of weapons of mass destruction. Human civilization has led to environmental destruction and pollution significantly contributing to the ongoing mass extinction of other forms of life called the holocene extinction event,[52] which may be further accelerated by global warming in the future.[53]

Habitat and population

The Earth, as seen from space in October 2000, showing the extent of human occupation of the planet. The bright lights signify both the most densely inhabited areas and ones financially capable of illuminating those areas.

Early human settlements were dependent on proximity to water and, depending on the lifestyle, other natural resources used for subsistence, such as populations of animal prey for hunting and arable land for growing crops and grazing livestock. But humans have a great capacity for altering their habitats by means of technology, through irrigation, urban planning, construction, transport, manufacturing goods, deforestation and desertification. Deliberate habitat alteration is often done with the goals of increasing material wealth, increasing thermal comfort, improving the amount of food available, improving aesthetics, or improving ease of access to resources or other human settlements. With the advent of large-scale trade and transport infrastructure, proximity to these resources has become unnecessary, and in many places, these factors are no longer a driving force behind the growth and decline of a population. Nonetheless, the manner in which a habitat is altered is often a major determinant in population change.

Technology has allowed humans to colonize all of the continents and adapt to virtually all climates. Within the last century, humans have explored Antarctica, the ocean depths, and outer space, although large-scale colonization of these environments is not yet feasible. With a population of over seven billion, humans are among the most numerous of the large mammals. Most humans (61%) live in Asia. The remainder live in the Americas (14%), Africa (14%), Europe (11%), and Oceania (0.5%).[citation needed]

Human habitation within closed ecological systems in hostile environments, such as Antarctica and outer space, is expensive, typically limited in duration, and restricted to scientific, military, or industrial expeditions. Life in space has been very sporadic, with no more than thirteen humans in space at any given time.[54] Between 1969 and 1972, two humans at a time spent brief intervals on the Moon. As of February 2014, no other celestial body has been visited by humans, although there has been a continuous human presence in space since the launch of the initial crew to inhabit the International Space Station on October 31, 2000.[55] However, other celestial bodies have been visited by human-made objects.

Since 1800, the human population has increased from one billion[56] to over seven billion,[57] In 2004, some 2.5 billion out of 6.3 billion people (39.7%) lived in urban areas. In February 2008, the U.N. estimated that half the world's population would live in urban areas by the end of the year.[58] Problems for humans living in cities include various forms of pollution and crime,[59] especially in inner city and suburban slums. Both overall population numbers and the proportion residing in cities are expected to increase significantly in the coming decades.[60]

Humans have had a dramatic effect on the environment. Humans are apex predators, being rarely preyed upon by other species.[61] Currently, through land development, combustion of fossil fuels, and pollution, humans are thought to be the main contributor to global climate change.[62] If this continues at its current rate it is predicted that climate change will wipe out half of all plant and animal species over the next century.[63][64]

Biology

Basic anatomical features of female and male humans. These models have had body hair and male facial hair removed and head hair trimmed. The female model is wearing red nail polish on her toenails and a ring.
Vitruvian Man, Leonardo da Vinci's image is often used as an implied symbol of the essential symmetry of the human body, and by extension, of the universe as a whole.

Anatomy and physiology

Most aspects of human physiology are closely homologous to corresponding aspects of animal physiology. The human body consists of the legs, the torso, the arms, the neck, and the head. An adult human body consists of approximately 100 trillion cells. Most commonly defined body systems in humans are the nervous, the cardiovascular, the circulatory, the digestive, the endocrine, the immune, the integumentary, the lympathic, the muscoskeletal, the reproductive, the respiratory, and the urinary system.[65][66]

Humans, like most of the other apes, lack external tail, have several blood type systems, opposable thumbs, and are sexually dimorphic. The comparatively minor anatomical differences between humans and chimpanzees are a result of human bipedalism. As a result, humans are slower over short distances, but are among the best long-distance runners in the animal kingdom.[67][68] Humans' thinner body hair and more productive sweat glands help avoid heat exhaustion while running for long distances.[69]

As a consequence of bipedalism human females have narrower birth canals. The construction of the human pelvis differs from other primates, as do the toes. A trade-off for these advantages of the modern human pelvis is that childbirth is more difficult and dangerous than in most mammals, especially given the larger head size of human babies compared to other primates. This means that human babies must turn around as they pass through the birth canal which other primates do not do, and it makes humans the only species where females require help from their conspecifics to reduce the risks of birthing. As a partial evolutionary solution, human fetuses are born less developed and more vulnerable. Chimpanzee babies are cognitively more developed than human babies until the age of six months when the rapid development of human brains surpasses chimpanzees’. Another difference between women and chimpanzee females is that women go through menopause and become unfertile decades before the end of their lives. All non-human apes are capable of giving birth until death. Menopause has probably developed among aged women as it has provided an evolutionary advantage (more caring time) to young relatives.[68]

Other than bipedalism, humans differ from chimpanzees mostly in smelling, hearing, digesting proteins, brain size, and the ability of language. Humans have about three times bigger brain than chimpanzees. More importantly, the brain to body ratio is much higher in humans than in chimpanzees and humans have a significantly more developed cerebral cortex with a larger number of neurons. The mental abilities of humans are remarkable compared to other apes. Humans’ ability of speech is unique among primates. Humans are able to create new and complex ideas, and to develop technology, which is unprecedented among other organisms on Earth.[68]

The average human male is about 1.7–1.8 metres (5.6–5.9 ft), the average human female is about 1.6–1.7 metres (5.2–5.6 ft) in height.[70] Shrinkage of stature may begin in middle age in some individuals but tends to be universal in the extremely aged.[71] Through history human populations universally became taller, probably as a consequence of better nutrition, healthcare, and living conditions.[72] The average mass of an adult human is 54–64 kg (120–140 lbs) for females and 76–83 kg (168–183 lbs) for males.[73] Like many other conditions, body weight and body type is influenced by both genetic susceptibility and environment and varies greatly among individuals. (see obesity)[74][75]

Although humans appear hairless compared to other primates, with notable hair growth occurring chiefly on the top of the head, underarms and pubic area, the average human has more hair follicles on his or her body than the average chimpanzee. The main distinction is that human hairs are shorter, finer, and less heavily pigmented than the average chimpanzee's, thus making them harder to see.[76] Humans have about 2 million sweat glands spread over their entire bodies, much more than that of the chimpanzees whose sweat glands are scarce and are mainly located on the palm of the hand and on the soles of the feet.[77]

The dental formula of humans is: 2.1.2.32.1.2.3. Humans have proportionately shorter palates and much smaller teeth than other primates. They are the only primates to have short, relatively flush canine teeth. Humans have characteristically crowded teeth, with gaps from lost teeth usually closing up quickly in young individuals. Humans are gradually losing their wisdom teeth, with some individuals having them congenitally absent.[78]

Genetics

A graphical representation of the ideal human karyotype, including both the male and female variant of the sex chromosome (number 23).

Like all mammals humans are a diploid eukaryotic species. Each somatic cell has two sets of 23 chromosomes, each set received from one parent, gametes have only one set of chromosomes which is a mixture of the two parental sets. Among the 23 chromosomes there are 22 pairs of autosomes and one pair of sex chromosomes. Like other mammals, humans have an XY sex-determination system, so that females have the sex chromosomes XX and males have XY.

One human genome was sequenced in full in 2003, and currently efforts are being made to achieve a sample of the genetic diversity of the species (see International HapMap Project). By present estimates, humans have approximately 22,000 genes.[79] The variation in human DNA is minute compared to that of other species, possibly suggesting a population bottleneck during the Late Pleistocene (ca. 100,000 years ago), in which the human population was reduced to a small number of breeding pairs.[80][81] Nucleotide diversity is based on single mutations called single nucleotide polymorphisms (SNPs). The nucleotide diversity between humans is about 0.1%, which is 1 difference per 1,000 base pairs.[82][83] A difference of 1 in 1,000 nucleotides between two humans chosen at random amounts to approximately 3 million nucleotide differences since the human genome has about 3 billion nucleotides. Most of these SNPs are neutral but some (about 3 to 5%) are functional and influence phenotypic differences between humans through alleles.

By comparing the parts of the genome that are not under natural selection and which therefore accumulate mutations at a fairly steady rate, it is possible to reconstruct a genetic tree incorporating the entire human species since the last shared ancestor. Each time a certain mutation (Single nucleotide polymorphism) appears in an individual and is passed on to his or her descendants a haplogroup is formed including all of the descendants of the individual who will also carry that mutation. By comparing mitochondrial DNA which is inherited only from the mother, geneticists have concluded that the last female common ancestor whose genetic marker is found in all modern humans, the so-called mitochondrial Eve, must have lived around 200,000 years ago.

The forces of natural selection have continued to operate on human populations, with evidence that certain regions of the genome display directional selection in the past 15,000 years.[84]

Life cycle

A 10 mm human embryo at 5 weeks
Boy and girl before puberty
Adult man and woman in the reproductive age
Elderly man and woman

As with other mammals, human reproduction takes place as internal fertilization by sexual intercourse. During this process, the erect penis of the male is inserted into the female's vagina until the male ejaculates semen, which contains sperm. The sperm travels through the vagina and cervix into the uterus or Fallopian tubes for fertilization of the ovum. Upon fertilization and implantation, gestation then occurs within the female's uterus.

The zygote divides inside the female's uterus to become an embryo, which over a period of 38 weeks (9 months) of gestation becomes a fetus. After this span of time, the fully grown fetus is birthed from the woman's body and breathes independently as an infant for the first time. At this point, most modern cultures recognize the baby as a person entitled to the full protection of the law, though some jurisdictions extend various levels of personhood earlier to human fetuses while they remain in the uterus.

Compared with other species, human childbirth is dangerous. Painful labors lasting 24 hours or more are not uncommon and sometimes lead to the death of the mother, the child or both.[85] This is because of both the relatively large fetal head circumference and the mother's relatively narrow pelvis.[86][87] The chances of a successful labor increased significantly during the 20th century in wealthier countries with the advent of new medical technologies. In contrast, pregnancy and natural childbirth remain hazardous ordeals in developing regions of the world, with maternal death rates approximately 100 times greater than in developed countries.[88]

In developed countries, infants are typically 3–4 kg (6–9 pounds) in weight and 50–60 cm (20–24 inches) in height at birth.[89] However, low birth weight is common in developing countries, and contributes to the high levels of infant mortality in these regions.[90] Helpless at birth, humans continue to grow for some years, typically reaching sexual maturity at 12 to 15 years of age. Females continue to develop physically until around the age of 18, whereas male development continues until around age 21. The human life span can be split into a number of stages: infancy, childhood, adolescence, young adulthood, adulthood and old age. The lengths of these stages, however, have varied across cultures and time periods. Compared to other primates, humans experience an unusually rapid growth spurt during adolescence, where the body grows 25% in size. Chimpanzees, for example, grow only 14%, with no pronounced spurt.[91] The presence of the growth spurt is probably necessary to keep children physically small until they are psychologically mature. Humans are one of the few species in which females undergo menopause. It has been proposed that menopause increases a woman's overall reproductive success by allowing her to invest more time and resources in her existing offspring and/or their children (the grandmother hypothesis), rather than by continuing to bear children into old age.[92][93]

For various reasons, including biological/genetic causes,[94] women live on average about four years longer than men — as of 2013 the global average life expectancy at birth of a girl is estimated at 70.2 years compared to 66.1 for a boy.[95] There are significant geographical variations in human life expectancy, mostly correlated with economic development — for example life expectancy at birth in Hong Kong is 84.8 years for girls and 78.9 for boys, while in Swaziland, primarily because of AIDS, it is 31.3 years for both sexes.[96] The developed world is generally aging, with the median age around 40 years. In the developing world the median age is between 15 and 20 years. While one in five Europeans is 60 years of age or older, only one in twenty Africans is 60 years of age or older.[97] The number of centenarians (humans of age 100 years or older) in the world was estimated by the United Nations at 210,000 in 2002.[98] At least one person, Jeanne Calment, is known to have reached the age of 122 years;[99] higher ages have been claimed but they are not well substantiated.

Diet

Humans preparing a meal in Bali, Indonesia
Venus of Willensdorf statuette from the Upper Palaeolithic period
Two starved boys during the Russian famine of 1921

Humans are omnivorous, capable of consuming a wide variety of plant and animal material.[100][101] Varying with available food sources in regions of habitation, and also varying with cultural and religious norms, human groups have adopted a range of diets, from purely vegetarian to primarily carnivorous. In some cases, dietary restrictions in humans can lead to deficiency diseases; however, stable human groups have adapted to many dietary patterns through both genetic specialization and cultural conventions to use nutritionally balanced food sources.[102] The human diet is prominently reflected in human culture, and has led to the development of food science.

Until the development of agriculture approximately 10,000 years ago, Homo sapiens employed a hunter-gatherer method as their sole means of food collection. This involved combining stationary food sources (such as fruits, grains, tubers, and mushrooms, insect larvae and aquatic mollusks) with wild game, which must be hunted and killed in order to be consumed.[103] It has been proposed that humans have used fire to prepare and cook food since the time of Homo erectus.[104] Around ten thousand years ago, humans developed agriculture,[105] which substantially altered their diet. This change in diet may also have altered human biology; with the spread of dairy farming providing a new and rich source of food, leading to the evolution of the ability to digest lactose in some adults.[106][107] Agriculture led to increased populations, the development of cities, and because of increased population density, the wider spread of infectious diseases. The types of food consumed, and the way in which they are prepared, has varied widely by time, location, and culture.

In general, humans can survive for two to eight weeks without food, depending on stored body fat. Survival without water is usually limited to three or four days. About 36 million humans die every year from causes directly or indirectly related to hunger.[108] Childhood malnutrition is also common and contributes to the global burden of disease.[109] However global food distribution is not even, and obesity among some human populations has increased rapidly, leading to health complications and increased mortality in some developed, and a few developing countries. Worldwide over one billion people are obese,[110] while in the United States 35% of people are obese, leading to this being described as an "obesity epidemic".[111] Obesity is caused by consuming more calories than are expended, so excessive weight gain is usually caused by a combination of an energy-dense high fat diet and insufficient exercise.[110]

Biological variation

People in warm climates are often relatively slender, tall and dark skinned, such as these Maasai men from Kenya.
People in cold climates tend to be relatively short, heavily built and fair skinned such as these Inuit women from Canada.

No two humans – not even monozygotic twins – are genetically identical. Genes and environment influence human biological variation from visible characteristics to physiology to disease susceptibly to mental abilities. The exact influence of genes and environment on certain traits is not well understood.[112][113]

Most current genetic and archaeological evidence supports a recent single origin of modern humans in East Africa[114] with first migrations placed at 60,000 years ago. Compared to the other great apes, human gene sequences – even among African populations – are remarkably homogeneous.[115] On average, genetic similarity between any two humans is 99.9%.[116][117] There is about 2–3 times more genetic diversity within the wild chimpanzee populations on a single hillside in Gombe, than in the entire human gene pool.[118][119][120][121]

The human body’s ability to adapt to different environmental stresses is remarkable, allowing humans to acclimatize to a wide variety of temperatures, humidity, and altitudes. As a result, humans are a cosmopolitan species found in almost all regions of the world, including tropical rainforests, arid desert, extremely cold arctic regions, and heavily polluted cities. Most other species are confined to a few geographical areas by their limited adaptability.[122]

There is biological variation in the human species — with traits such as blood type, cranial features, eye color, hair color and type, height and build, and skin color varying across the globe. Human body types vary substantially. The average height of an adult human is between 1.4 m (4 ft 7 in) to 1.9 m (6 ft 3 in) tall and this varies significantly depending on sex and ethnic origin.[123][124] Body size is determined by genes and is significantly influenced by environmental factors such as diet, exercise, and sleep patterns, especially as an influence in childhood. Adult height for one sex in a particular ethnic group follows more or less a normal distribution. Those aspects of genetic variation that give clue to human evolutionary history, or which are relevant for medical research have received particular attention. For example the genes that cause adult humans to be able to digest lactose are present in high frequencies in populations that have long histories of cattle domestication, suggesting natural selection having favored that gene in populations that depend on cow milk. Some hereditary diseases such as sickle cell anemia are frequent in populations where Malaria has been endemic throughout history — it is believed that the same gene causes increased resistance to Malaria among those who are unaffected carriers of the gene. Similarly, populations that have inhabited specific climates for a long time such as arctic or tropical regions or high altitudes, tend to have developed specific phenotypes that are beneficial for conserving energy in those environments — short stature and stocky build in cold regions, tall and lanky in hot regions, and with high lung capacities in high altitudes. Similarly, skin color varies clinally with darker skin around the equator - where the added protection from the sun is thought to give an evolutionary advantage against ultraviolet radiation - and lighter skin tones closer to the poles.[125][126][127][128]

The hue of human skin and hair is determined by the presence of pigments called melanins. Human skin color can range from darkest brown to lightest pinkish-white, or even nearly white or colorless in cases of albinism.[121] Human hair ranges in color from white to brown to red to the most commonly black.[129] Hair color depends on the amount of melanin (an effective sun blocking pigment) in the skin and hair, with hair melanin concentrations in hair fading with increased age, leading to grey or even white hair. Most researchers believe that skin darkening was an adaptation that evolved as a protection against ultraviolet solar radiation, which also helps balancing folate, which is destroyed by ultraviolet radiation. Light skin pigmentation provides advantages against vitamin D depletion, which requires sunlight to make.[130] Skin pigmentation of contemporary humans is clinally distributed across the planet, and in general, correlates with the level of ultraviolet radiation in a particular geographic area. Human skin also has a capacity to darken (tan) in response to exposure to ultraviolet radiation.[131][132][133]

Structure of variation

A Libyan, a Nubian, a Syrian, and an Egyptian, drawing by an unknown artist after a mural of the tomb of Seti I.
The ancestors of Native Americans, such as this Yanomami woman, crossed into the Americas from Northeast Asia, and genetic and linguistic evidence links them to North Asian populations, particularly those of East Siberia.[1]

Within the human species, the greatest degree of genetic variation exists between males and females. While the nucleotide genetic variation of individuals of the same sex across global populations is no greater than 0.1%, the genetic difference between males and females is between 1% and 2%. Although different in nature, this approaches the genetic differentiation between men and male chimpanzees or women and female chimpanzees. The genetic difference between sexes contributes to anatomical, hormonal, neural, and physiological differences between men and women, although the exact degree and nature of social and environmental influences on sexes are not completely understood. Males on average are 15% heavier and 15 cm taller than females. There is a difference between body types, body organs and systems, hormonal levels, sensory systems, and muscle mass between sexes. There is a difference of about 40–50% in upper body strength and 20–30% in lower body strength between men and women. Women generally have higher body fat percentage than men. Women of the same population have lighter skin than men; this has been explained by a higher need for vitamin D (which is synthesized by sunlight) in females during pregnancy and lactation. As there are chromosomal differences between females and males, some X and Y chromosome related conditions and disorders only affect either men or women. Other conditional differences between males and females are not related to sex chromosomes. Even after controlling for body weight and volume, male voice is usually an octave deeper than females’. Women have a longer life span in almost every population around the world.[134][135][136][137][138][139][140][141][142]

Males typically have larger tracheae and branching bronchi, with about 30 percent greater lung volume per body mass. They have larger hearts, 10 percent higher red blood cell count, higher hemoglobin, hence greater oxygen-carrying capacity. They also have higher circulating clotting factors (vitamin K, prothrombin and platelets). These differences lead to faster healing of wounds and higher peripheral pain tolerance.[143] Females typically have more white blood cells (stored and circulating), more granulocytes and B and T lymphocytes. Additionally, they produce more antibodies at a faster rate than males. Hence they develop fewer infectious diseases and succumb for shorter periods.[143] Ethologists argue that females, interacting with other females and multiple offspring in social groups, have experienced such traits as a selective advantage.[144][145][146][147][148] According to Daly and Wilson, "The sexes differ more in human beings than in monogamous mammals, but much less than in extremely polygamous mammals."[149] But given that sexual dimorphism in the closest relatives of humans is much greater than among humans, the human clade must be considered to be characterized by decreasing sexual dimorphism, probably due to less competitive mating patterns. One proposed explanation is that human sexuality has developed more in common with its close relative the bonobo, who have similar sexual dimorphism and which are polygynandrous and use recreational sex to reinforce social bonds and reduce aggression.[150]

Humans of the same sex are 99.9% genetically identical. There is extremely little variation between human geographical populations and most of the variation that does occur is in the personal level within local areas, and not between populations.[121][151][152] Of the 0.1% of human genetic differentiation, 85% exists within any randomly chosen local population, be they Italians, Koreans, or Kurds. Two randomly chosen Koreans may be genetically as different as a Korean and an Italian. Any ethnic group contains 85% of the human genetic diversity of the world. Genetic data shows that no matter how population groups are defined, two people from the same population group are about as different from each other as two people from any two different population groups.[121][153][154][155]

Most of the world's genetic diversity is represented in Africa.

Current genetic research have demonstrated that humans on the African continent are the most genetically diverse.[156] There is more human genetic diversity in Africa than anywhere else on Earth. The genetic structure of Africans was traced to 14 ancestral population clusters. Human genetic diversity decreases in native populations with migratory distance from Africa and this is thought to be the result of bottlenecks during human migration.[157][158] Humans have lived in Africa for the longest time which allowed accumulation of a higher diversity of genetic mutations in these populations. Only part of Africa’s population migrated out of the continent, bringing just part of the original African genetic variety with them. African populations harbor genetic alleles that are not found in other places of the world. All the common alleles found in populations outside of Africa are found on the African continent.[121]

Geographical distribution of human variation is complex and constantly shifts through time which reflects complicated human evolutionary history. Most human biological variation is clinally distributed and blends gradually from an area to the next. Groups of people around the world have different frequencies of polymorphic genes. Furthermore, different traits are non-concordant and each have different clinal distribution. Adaptability varies both from person to person and from population to population. The most efficient adaptive responses are found in geographical populations where the environmental stimuli are the strongest (e.g. Tibetans are highly adapted to high altitudes). The clinal geographic genetic variation is further complicated by the migration and mixing between human populations which has been occurring since prehistoric times.[121][159][160][161][162][163]

Human variation is highly non-concordant: most of the genes do not cluster together and are not inherited together. Skin and hair color are not correlated to height, weight, or athletic ability. Human species do not share the same patterns of variation through geography. Skin color varies with latitude and certain people are tall or have brown hair. There is a statistical correlation between particular features in a population, but different features are not expressed or inherited together. Thus, genes which code for superficial physical traits – such as skin color, hair color, or height – represent a minuscule and insignificant portion of the human genome and do not correlate with genetic affinity. Dark-skinned populations that are found in Africa, Australia, and South Asia are not closely related to each other.[128][133][162][163][164][165] Even within the same region, physical phenotype is not related to genetic affinity: dark-skinned Ethiopians are more closely related to light-skinned Armenians than to dark-skinned Bantu populations.[166] Despite pygmy populations of South East Asia (Andamanese) having similar physical features with African pygmy populations such as short stature, dark skin, and curly hair, they are not genetically closely related to these populations.[167] Genetic variants affecting superficial anatomical features (such as skin color) – from a genetic perspective, are essentially meaningless – they involve a few hundred of the billions of nucleotides in a person's DNA.[168] Individuals with the same morphology do not necessarily cluster with each other by lineage, and a given lineage does not include only individuals with the same trait complex.[121][154][169]

Due to practices of group endogamy, allele frequencies cluster locally around kin groups and lineages, or by national, ethnic, cultural and linguistic boundaries, giving a detailed degree of correlation between genetic clusters and population groups when considering many alleles simultaneously. Despite this, there are no genetic boundaries around local populations that biologically mark off any discrete groups of humans. Human variation is continuous, with no clear points of demarcation. There are no large clusters of relatively homogeneous people and almost every individual has genetic alleles from several ancestral groups.[121][161][162][170][171][172][173][174][175][176][177][178]

Psychology

Drawing of the human brain, showing several important structures

The human brain, the focal point of the central nervous system in humans, controls the peripheral nervous system. In addition to controlling "lower", involuntary, or primarily autonomic activities such as respiration and digestion, it is also the locus of "higher" order functioning such as thought, reasoning, and abstraction.[179] These cognitive processes constitute the mind, and, along with their behavioral consequences, are studied in the field of psychology.

Generally regarded as more capable of these higher order activities, the human brain is believed to be more "intelligent" in general than that of any other known species. While some non-human species are capable of creating structures and using simple tools—mostly through instinct and mimicry—human technology is vastly more complex, and is constantly evolving and improving through time.

Sleep and dreaming

Humans are generally diurnal. The average sleep requirement is between seven and nine hours per day for an adult and nine to ten hours per day for a child; elderly people usually sleep for six to seven hours. Having less sleep than this is common among humans, even though sleep deprivation can have negative health effects. A sustained restriction of adult sleep to four hours per day has been shown to correlate with changes in physiology and mental state, including reduced memory, fatigue, aggression, and bodily discomfort.[180] During sleep humans dream. In dreaming humans experience sensory images and sounds, in a sequence which the dreamer usually perceives more as an apparent participant than as an observer. Dreaming is stimulated by the pons and mostly occurs during the REM phase of sleep.

Consciousness and thought

Humans are one of the relatively few species to have sufficient self-awareness to recognize themselves in a mirror.[181] Already at 18 months, most human children are aware that the mirror image is not another person.[182]

Lecture at the Faculty of Biomedical Engineering, CTU, in Prague.

The human brain perceives the external world through the senses, and each individual human is influenced greatly by his or her experiences, leading to subjective views of existence and the passage of time. Humans are variously said to possess consciousness, self-awareness, and a mind, which correspond roughly to the mental processes of thought. These are said to possess qualities such as self-awareness, sentience, sapience, and the ability to perceive the relationship between oneself and one's environment. The extent to which the mind constructs or experiences the outer world is a matter of debate, as are the definitions and validity of many of the terms used above.

The physical aspects of the mind and brain, and by extension of the nervous system, are studied in the field of neurology, the more behavioral in the field of psychology, and a sometimes loosely defined area between in the field of psychiatry, which treats mental illness and behavioral disorders. Psychology does not necessarily refer to the brain or nervous system, and can be framed purely in terms of phenomenological or information processing theories of the mind. Increasingly, however, an understanding of brain functions is being included in psychological theory and practice, particularly in areas such as artificial intelligence, neuropsychology, and cognitive neuroscience.

The nature of thought is central to psychology and related fields. Cognitive psychology studies cognition, the mental processes' underlying behavior. It uses information processing as a framework for understanding the mind. Perception, learning, problem solving, memory, attention, language and emotion are all well researched areas as well. Cognitive psychology is associated with a school of thought known as cognitivism, whose adherents argue for an information processing model of mental function, informed by positivism and experimental psychology. Techniques and models from cognitive psychology are widely applied and form the mainstay of psychological theories in many areas of both research and applied psychology. Largely focusing on the development of the human mind through the life span, developmental psychology seeks to understand how people come to perceive, understand, and act within the world and how these processes change as they age. This may focus on intellectual, cognitive, neural, social, or moral development.

Some philosophers divide consciousness into phenomenal consciousness, which is experience itself, and access consciousness, which is the processing of the things in experience.[183] Phenomenal consciousness is the state of being conscious, such as when they say "I am conscious." Access consciousness is being conscious of something in relation to abstract concepts, such as when one says "I am conscious of these words." Various forms of access consciousness include awareness, self-awareness, conscience, stream of consciousness, Husserl's phenomenology, and intentionality. The concept of phenomenal consciousness, in modern history, according to some, is closely related to the concept of qualia. Social psychology links sociology with psychology in their shared study of the nature and causes of human social interaction, with an emphasis on how people think towards each other and how they relate to each other. The behavior and mental processes, both human and non-human, can be described through animal cognition, ethology, evolutionary psychology, and comparative psychology as well. Human ecology is an academic discipline that investigates how humans and human societies interact with both their natural environment and the human social environment.

Motivation and emotion

Motivation is the driving force of desire behind all deliberate actions of humans. Motivation is based on emotion—specifically, on the search for satisfaction (positive emotional experiences), and the avoidance of conflict. Positive and negative is defined by the individual brain state, which may be influenced by social norms: a person may be driven to self-injury or violence because their brain is conditioned to create a positive response to these actions. Motivation is important because it is involved in the performance of all learned responses. Within psychology, conflict avoidance and the libido are seen to be primary motivators. Within economics, motivation is often seen to be based on incentives; these may be financial, moral, or coercive. Religions generally posit divine or demonic influences.

Happiness, or the state of being happy, is a human emotional condition. The definition of happiness is a common philosophical topic. Some people might define it as the best condition that a human can have—a condition of mental and physical health. Others define it as freedom from want and distress; consciousness of the good order of things; assurance of one's place in the universe or society.

Emotion has a significant influence on, or can even be said to control, human behavior, though historically many cultures and philosophers have for various reasons discouraged allowing this influence to go unchecked. Emotional experiences perceived as pleasant, such as love, admiration, or joy, contrast with those perceived as unpleasant, like hate, envy, or sorrow. There is often a distinction made between refined emotions that are socially learned and survival oriented emotions, which are thought to be innate. Human exploration of emotions as separate from other neurological phenomena is worthy of note, particularly in cultures where emotion is considered separate from physiological state. In some cultural medical theories emotion is considered so synonymous with certain forms of physical health that no difference is thought to exist. The Stoics believed excessive emotion was harmful, while some Sufi teachers felt certain extreme emotions could yield a conceptual perfection, what is often translated as ecstasy.

In modern scientific thought, certain refined emotions are considered a complex neural trait innate in a variety of domesticated and non-domesticated mammals. These were commonly developed in reaction to superior survival mechanisms and intelligent interaction with each other and the environment; as such, refined emotion is not in all cases as discrete and separate from natural neural function as was once assumed. However, when humans function in civilized tandem, it has been noted that uninhibited acting on extreme emotion can lead to social disorder and crime.

Sexuality and love

Human parents continue caring for their offspring long after they are born.

For humans, sexuality has important social functions: it creates physical intimacy, bonds and hierarchies among individuals, besides ensuring biological reproduction. Humans are one of only two primate species, the other being the bonobo, that frequently have sex outside of female fertile periods and that also often engage in sexual activity for no other purpose than pleasure and enjoyment, something that is very rare among other animals.[citation needed] Sexual desire or libido, is experienced as a bodily urge, often accompanied by strong emotions such as love, ecstasy and jealousy. The significance of sexuality in the human species is reflected in a number of physical features among them hidden ovulation, the evolution of external scrotum and penis suggesting sperm competition, the absence of an os penis, permanent secondary sexual characteristics and the forming of pair bonds based on sexual attraction as a common social structure. Contrary to other primates that often advertise estrus through visible signs, human females do not have a distinct or visible signs of ovulation plus they experience sexual desire outside of their fertile periods. These adaptations indicate that the meaning of sexuality in humans is similar to that found in the bonobo, and that the complex human sexual behavior has a long evolutionary history.[184]

Human choices in acting on sexuality are commonly influenced by cultural norms which vary widely. Restrictions are often determined by religious beliefs or social customs. The pioneering researcher Sigmund Freud believed that humans are born polymorphously perverse, which means that any number of objects could be a source of pleasure. According to Freud humans then pass through five stages of psychosexual development and can fixate on any stage because of various traumas during the process. For Alfred Kinsey, another influential sex researcher, people can fall anywhere along a continuous scale of sexual orientation, with only small minorities fully heterosexual or homosexual.[185][186] Recent studies of neurology and genetics suggest people may be born predisposed to various sexual tendencies.[187][188]

Culture

Human society statistics
World population 7.1 billion
Population density[citation needed] 12.7 per km² (4.9 mi²) by total area
43.6 per km² (16.8 mi²) by land area
Largest agglomerations[citation needed] Beijing, Bogotá, Buenos Aires, Cairo, Delhi, Dhaka, Guangzhou, Istanbul, Jakarta, Karachi, Kinshasa, Kolkata, Lagos, Lima, London, Los Angeles, Manila, Mexico City, Moscow, Mumbai, New York City, Osaka, Paris, Rio de Janeiro, São Paulo, Seoul, Shanghai, Shenzhen, Tehran, Tianjin, Tokyo, Wuhan
Most widely spoken native languages[189] Chinese, Spanish, English, Hindi, Arabic, Portuguese, Bengali, Russian, Japanese, Javanese, German, Lahnda, Telugu, Marathi, Tamil, French, Vietnamese, Korean, Urdu, Italian, Malay, Persian, Turkish, Oriya
Most popular religions[190] Christianity, Islam, Hinduism, Buddhism, Sikhism, Judaism, Baha'i
GDP (nominal)[citation needed] $36,356,240 million USD
($5,797 USD per capita)
GDP (PPP)[citation needed] $51,656,251 million IND
($8,236 per capita)

Humans are highly social beings and tend to live in large complex social groups. More than any other creature,[citation needed] humans are adept at utilizing systems of communication for self-expression, the exchange of ideas, and organization, and as such have created complex social structures composed of many cooperating and competing groups. Human groups range from families to nations. Social interactions between humans have established an extremely wide variety of values, social norms, and rituals, which together form the basis of human society.

Culture is defined here as patterns of complex symbolic behavior, i.e. all behavior that is not innate but which has to be learned through social interaction with others; such as the use of distinctive material and symbolic systems, including language, ritual, social organization, traditions, beliefs and technology.

Language

While many species communicate, language is unique to humans, a defining feature of humanity, and a cultural universal. Unlike the limited systems of other animals, human language is open – an infinite number of meanings can be produced by combining a limited number of symbols. Human language also has the capacity of displacement, using words to represent things and happenings that are not presently or locally occurring, but reside in the shared imagination of interlocutors.[78] Language differs from other forms of communication in that it is modality independent; the same meanings can be conveyed through different media, auditively in speech, visually by sign language or writing, and even through tactile media such as braille. Language is central to the communication between humans, and to the sense of identity that unites nations, cultures and ethnic groups. The invention of writing systems at least five thousand years ago allowed the preservation of language on material objects, and was a major technological advancement. The science of linguistics describes the structure and function of language and the relationship between languages. There are approximately six thousand different languages currently in use, including sign languages, and many thousands more that are extinct.[191]

Gender roles

The sexual division of humans into male and female has been marked culturally by a corresponding division of roles, norms, practices, dress, behavior, rights, duties, privileges, status, and power. Cultural differences by gender have often been believed to have arisen naturally out of a division of reproductive labor; the biological fact that women give birth led to their further cultural responsibility for nurturing and caring for children. Gender roles have varied historically, and challenges to predominant gender norms have recurred in many societies.

Kinship

Humans often live in family-based social structures.

All human societies organize, recognize and classify types of social relationships based on relations between parents and children (consanguinity), and relations through marriage (affinity). These kinds of relations are generally called kinship relations. In most societies kinship places mutual responsibilities and expectations of solidarity on the individuals that are so related, and those who recognize each other as kinsmen come to form networks through which other social institutions can be regulated. Among the many functions of kinship is the ability to form descent groups, groups of people sharing a common line of descent, which can function as political units such as clans. Another function is the way in which kinship unites families through marriage, forming kinship alliances between groups of wife-takers and wife-givers. Such alliances also often have important political and economical ramifications, and may result in the formation of political organization above the community level. Kinship relations often includes regulations for whom an individual should or shouldn't marry. All societies have rules of incest taboo, according to which marriage between certain kinds of kin relations are prohibited – such rules vary widely between cultures. Some societies also have rules of preferential marriage with certain kin relations, frequently with either cross or parallel cousins. Rules and norms for marriage and social behavior among kinsfolk is often reflected in the systems of kinship terminology in the various languages of the world. In many societies kinship relations can also be formed through forms of co-habitation, adoption, fostering, or companionship, which also tends to create relations of enduring solidarity.

Ethnicity

Humans often form ethnic groups, such groups tend to be larger than kinship networks and be organized around a common identity defined variously in terms of shared ancestry and history, shared cultural norms and language, or shared biological phenotype. Such ideologies of shared characteristics are often perpetuated in the form of powerful, compelling narratives that give legitimacy and continuity to the set of shared values. Ethnic groupings often correspond to some level of political organization such as the band, tribe, city state or nation. Although ethnic groups appear and disappear through history, members of ethnic groups often conceptualize their groups as having histories going back into the deep past. Such ideologies give ethnicity a powerful role in defining social identity and in constructing solidarity between members of an ethno-political unit. This unifying property of ethnicity has been closely tied to the rise of the nation state as the predominant form of political organization in the 19th and 20th century.[192][193][194][195][196][197]

Society, government, and politics

The United Nations complex in New York City, which houses one of the largest political organizations in the world

Society is the system of organizations and institutions arising from interaction between humans. A state is an organized political community occupying a definite territory, having an organized government, and possessing internal and external sovereignty. Recognition of the state's claim to independence by other states, enabling it to enter into international agreements, is often important to the establishment of its statehood. The "state" can also be defined in terms of domestic conditions, specifically, as conceptualized by Max Weber, "a state is a human community that (successfully) claims the monopoly of the 'legitimate' use of physical force within a given territory."[198]

Government can be defined as the political means of creating and enforcing laws; typically via a bureaucratic hierarchy. Politics is the process by which decisions are made within groups; this process often involves conflict as well as compromise. Although the term is generally applied to behavior within governments, politics is also observed in all human group interactions, including corporate, academic, and religious institutions. Many different political systems exist, as do many different ways of understanding them, and many definitions overlap. Examples of governments include monarchy, Communist state, military dictatorship, theocracy, and liberal democracy, the last of which is considered dominant today. All of these issues have a direct relationship with economics.

Trade and economics

Buyers and sellers bargaining in a market

Trade is the voluntary exchange of goods and services, and is a form of economics. A mechanism that allows trade is called a market. The original form of trade was barter, the direct exchange of goods and services. Modern traders instead generally negotiate through a medium of exchange, such as money. As a result, buying can be separated from selling, or earning. The invention of money (and later credit, paper money and non-physical money) greatly simplified and promoted trade. Because of specialization and division of labor, most people concentrate on a small aspect of manufacturing or service, trading their labor for products. Trade exists between regions because different regions have an absolute or comparative advantage in the production of some tradable commodity, or because different regions' size allows for the benefits of mass production.

Economics is a social science which studies the production, distribution, trade, and consumption of goods and services. Economics focuses on measurable variables, and is broadly divided into two main branches: microeconomics, which deals with individual agents, such as households and businesses, and macroeconomics, which considers the economy as a whole, in which case it considers aggregate supply and demand for money, capital and commodities. Aspects receiving particular attention in economics are resource allocation, production, distribution, trade, and competition. Economic logic is increasingly applied to any problem that involves choice under scarcity or determining economic value.

War

The mushroom cloud of the atomic bombing of Nagasaki, the final act of the World War II.

War is a state of organized armed conflict between states or non-state groups. War is characterized by the use of lethal violence between combatants and/or upon civilians to achieve military goals through force. Lesser, often spontaneous conflicts, such as brawls, riots, revolts, and melees, are not considered to be warfare. Revolutions can be nonviolent or an organized and armed revolution which denotes a state of war. During the 20th century, it is estimated that between 167 and 188 million people died as a result of war.[199] A common definition defines war as a series of military campaigns between at least two opposing sides involving a dispute over sovereignty, territory, resources, religion, or other issues. A war between internal elements of a state is a civil war.

There have been a wide variety of rapidly advancing tactics throughout the history of war, ranging from conventional war to asymmetric warfare to total war and unconventional warfare. Techniques include hand to hand combat, the use of ranged weapons, naval warfare, and, more recently, air support. Military intelligence has often played a key role in determining victory and defeat. Propaganda, which often includes information, slanted opinion and disinformation, plays a key role in maintaining unity within a warring group, and/or sowing discord among opponents. In modern warfare, soldiers and combat vehicles are used to control the land, warships the sea, and aircraft the sky. These fields have also overlapped in the forms of marines, paratroopers, naval aircraft carriers, and surface-to-air missiles, among others. Satellites in low Earth orbit have made outer space a factor in warfare as well as it is used for detailed intelligence gathering, however no known aggressive actions have been taken from space.

Material culture and technology

An array of Neolithic artifacts, including bracelets, axe heads, chisels, and polishing tools.

Stone tools were used by proto-humans at least 2.5 million years ago.[200] The controlled use of fire began around 1.5 million years ago. Since then, humans have made major advances, developing complex technology to create tools to aid their lives and allowing for other advancements in culture. Major leaps in technology include the discovery of agriculture – what is known as the Neolithic Revolution, and the invention of automated machines in the Industrial Revolution.

Archaeology attempts to tell the story of past or lost cultures in part by close examination of the artifacts they produced. Early humans left stone tools, pottery, and jewelry that are particular to various regions and times.

Body culture

Throughout history, humans have altered their appearance by wearing clothing[201][202] and adornments, by trimming or shaving hair or by means of body modifications.

Body modification is the deliberate altering of the human body for any non-medical reason, such as aesthetics, sexual enhancement, a rite of passage, religious reasons, to display group membership or affiliation, to create body art, shock value, or self-expression.[203] In its most broad definition it includes plastic surgery, socially acceptable decoration (e.g. common ear piercing in many societies), and religious rites of passage (e.g. circumcision in a number of cultures).[203]

Religion and spirituality

Religion and spirituality are important aspects of human cultures, as is seen in The Creation of Adam by Michelangelo.
Nsibidi script from Nigeria. A means of communication among the initiates of the Ekpe secret society.[1]

Religion is generally defined as a belief system concerning the supernatural, sacred or divine, and practices, values, institutions and rituals associated with such belief. Some religions also have a moral code. The evolution and the history of the first religions have recently become areas of active scientific investigation.[204][205][206] However, in the course of its development, religion has taken on many forms that vary by culture and individual perspective. Some of the chief questions and issues religions are concerned with include life after death (commonly involving belief in an afterlife), the origin of life, the nature of the universe (religious cosmology) and its ultimate fate (eschatology), and what is moral or immoral. A common source for answers to these questions are beliefs in transcendent divine beings such as deities or a singular God, although not all religions are theistic. Spirituality, belief or involvement in matters of the soul or spirit, is one of the many different approaches humans take in trying to answer fundamental questions about humankind's place in the universe, the meaning of life, and the ideal way to live one's life. Though these topics have also been addressed by philosophy, and to some extent by science, spirituality is unique in that it focuses on mystical or supernatural concepts such as karma and God.

Although the exact level of religiosity can be hard to measure,[207] a majority of humans professes some variety of religious or spiritual belief, although many (in some countries a majority) are irreligious. This includes humans who have no religious beliefs or do not identify with any religion. Humanism is a philosophy which seeks to include all of humanity and all issues common to humans; it is usually non-religious. Most religions and spiritual beliefs are clearly distinct from science on both a philosophical and methodological level; the two are not generally considered mutually exclusive and a majority of humans hold a mix of both scientific and religious views. The distinction between philosophy and religion, on the other hand, is at times less clear, and the two are linked in such fields as the philosophy of religion and theology.

Philosophy and self-reflection

Statue of Confucius on Chongming Island in Shanghai

Philosophy is a discipline or field of study involving the investigation, analysis, and development of ideas at a general, abstract, or fundamental level. It is the discipline searching for a general understanding of reality, reasoning and values. Major fields of philosophy include logic, metaphysics, epistemology, philosophy of mind, and axiology (which includes ethics and aesthetics). Philosophy covers a very wide range of approaches, and is used to refer to a worldview, to a perspective on an issue, or to the positions argued for by a particular philosopher or school of philosophy.

Science and mathematics

Another unique aspect of human culture and thought is the development of complex methods for acquiring knowledge through observation and quantification. The scientific method has been developed to acquire knowledge of the physical world and the rules, processes and principles of which it consists, and combined with mathematics it enables the prediction of complex patterns of causality and consequence. Some other animals are able to recognize differences in small quantities ,[citation needed] but humans are able to understand and recognize much larger, even abstract, quantities, and to recognize and understand algorithmic patterns which enables infinite counting routines and algebra, something that is not found in any other species.

Art, music, and literature

Allegory of Music (ca. 1594), a painting of a woman writing sheet music by Lorenzo Lippi
Art is a cultural universal, and humans have been producing artistic works at least since the days of Cro Magnon. As a form of cultural expression, art may be defined by the pursuit of diversity and the usage of narratives of liberation and exploration (i.e. art history, art criticism, and art theory) to mediate its boundaries. This distinction may be applied to objects or performances, current or historical, and its prestige extends to those who made, found, exhibit, or own them. In the modern use of the word, art is commonly understood to be the process or result of making material works that, from concept to creation, adhere to the "creative impulse" of human beings. Art is distinguished from other works by being in large part unprompted by necessity, by biological drive, or by any undisciplined pursuit of recreation.

Music is a natural intuitive phenomenon based on the three distinct and interrelated organization structures of rhythm, harmony, and melody. Listening to music is perhaps the most common and universal form of entertainment, while learning and understanding it are popular disciplines.[citation needed] There are a wide variety of music genres and ethnic musics. Literature, the body of written—and possibly oral—works, especially creative ones, includes prose, poetry and drama, both fiction and non-fiction. Literature includes such genres as epic, legend, myth, ballad, and folklore.

See also

References

  1. Diringer, David, "The alphabet: a key to the history of mankind", Volume 1, p 107, Funk & Wagnalls, 1968.
  2. 2.0 2.1 Groves, C. P. (2005). Wilson, D. E.; Reeder, D. M, eds. Mammal Species of the World (3rd ed.). Baltimore: Johns Hopkins University Press. OCLC 62265494. ISBN 0-801-88221-4. 
  3. Goodman M, Tagle D, Fitch D, Bailey W, Czelusniak J, Koop B, Benson P, Slightom J (1990). "Primate evolution at the DNA level and a classification of hominoids". J Mol Evol 30 (3): 260–266. doi:10.1007/BF02099995. PMID 2109087. 
  4. "Hominidae Classification". Animal Diversity Web @ UMich. Retrieved 2006-09-25. 
  5. Tattersall Ian, Schwartz Jeffrey (2009). "Evolution of the Genus Homo". Annual Review of Earth and Planetary Sciences 37: 67–92. doi:10.1146/annurev.earth.031208.100202. 
  6. Antón Susan C., Swisher Carl C., III; Swisher (2004). "Early Dispersals of homo from Africa". Annual Review of Anthropology 33: 271–296. doi:10.1146/annurev.anthro.33.070203.144024. 
  7. Trinkaus Erik (2005). "Early Modern Humans". Annual Review of Anthropology 34: 207–30. doi:10.1146/annurev.anthro.34.030905.154913. 
  8. McHenry, H.M (2009). "Human Evolution". In Michael Ruse & Joseph Travis. Evolution: The First Four Billion Years. Cambridge, Massachusetts: The Belknap Press of Harvard University Press. p. 265. ISBN 978-0-674-03175-3. 
  9. "Hints of Earlier Human Exit From Africa". Science News. doi:[http://dx.doi.org/10.1126%2Fscience.1199113. 10.1126/science.1199113.] Retrieved 2011-05-01. 
  10. Paul Rincon Humans 'left Africa much earlier' BBC News, 27 January 2011
  11. Lowe, David J. (2008). "Polynesian settlement of New Zealand and the impacts of volcanism on early Maori society: an update". University of Waikato. Retrieved 29 April 2010. 
  12. Tim Appenzeller, Nature Human migrations: Eastern odyssey 485, 24–26 doi:10.1038/485024a 2 May 2012
  13. "World Population Clock". Census.gov. United States Census Bureau, Population Division. Retrieved 2012-09-15. 
  14. Roberts, Sam (31 October 2011). "U.N. Reports 7 Billion Humans, but Others Don’t Count on It". The New York Times. Retrieved 2011-11-07. 
  15. OED, s.v. "human".
  16. The OED considers obsolete the sense "a designation applied equally to particular individuals of either sex", citing a 1597 source as the most recent ("The Lord had but one paire of men in Paradise.") while it continues to endorse the sense "as a general or indefinite designation" as current in English.
  17. Porkorny (1959) s.v. "g'hðem" pp. 414–416; "Homo." Dictionary.com Unabridged (v 1.1). Random House, Inc. 23 September 2008. "Homo". Dictionary.com. 
  18. 19.0 19.1 Wood, Bernard; Richmond, Brian G. (2000). "Human evolution: taxonomy and paleobiology". Journal of Anatomy 197 (1): 19–60. doi:10.1046/j.1469-7580.2000.19710019.x. PMC 1468107. PMID 10999270. 
  19. Ajit, Varki and David L. Nelson. 2007. Genomic Comparisons of Humans and Chimpanzees. Annu. Rev. Anthropol. 2007. 36:191–209: "Sequence differences from the human genome were confirmed to be ∼1% in areas that can be precisely aligned, representing ∼35 million single base-pair differences. Some 45 million nucleotides of insertions and deletions unique to each lineage were also discovered, making the actual difference between the two genomes ∼4%."
  20. Ken Sayers, Mary Ann Raghanti, and C. Owen Lovejoy. 2012 (forthcoming, october) Human Evolution and the Chimpanzee Referential Doctrine. Annual Review of Anthropology, Vol. 41
  21. Ruvolo, M. 1997. Genetic Diversity in Hominoid Primates. Annual Review of Anthropology , Vol. 26, (1997), pp. 515–540
  22. Ruvolo, Maryellen (1997). "Molecular phylogeny of the hominoids: inferences from multiple independent DNA sequence data sets". Molecular Biology and Evolution 14 (3): 248–265. doi:10.1093/oxfordjournals.molbev.a025761. PMID 9066793. 
  23. Dawkins R (2004) The Ancestor's Tale. ^ "Query: Hominidae/Hylobatidae". Time Tree. 2009. Retrieved December 2010.
  24. Begun, David R. 2010. Miocene Hominids and the Origins of the African Apes and Humans. Annual Review of Anthropology, Vol. 39: 67 -84
  25. Begun David R., Nargolwalla Mariam C., Kordos Laszlo (2012). "European Miocene Hominids and the Origin of the African Ape and Human Clade". Evolutionary Anthropology 21 (1): 10–23. doi:10.1002/evan.20329. PMID 22307721. 
  26. White, Tim D.; Asfaw, B.; DeGusta, D.; Gilbert, H.; Richards, G. D.; Suwa, G.; Howell, F. C. (2003). "Pleistocene Homo sapiens from Middle Awash, Ethiopia". Nature 423 (6491): 742–747. doi:10.1038/nature01669. PMID 12802332 
  27. Trinkaus, E. (1993). "Femoral neck-shaft angles of the Qafzeh-Skhul early modern humans, and activity levels among immature near eastern Middle Paleolithic hominids". Journal of Human Evolution (INIST-CNRS) 25 (5): 393–416. doi:10.1006/jhev.1993.1058. ISSN 0047-2484. 
  28. Boyd, Robert; Silk, Joan B. (2003). How Humans Evolved. New York, New York: Norton. ISBN 0-393-97854-0. 
  29. Brues, Alice M.; Snow, Clyde C. (1965). "Physical Anthropology". Biennial Review of Anthropology 4: 1–39. ISBN 9780804717465. 
  30. Brunet, M.; Guy, F.; Pilbeam, D.; Mackaye, H.; Likius, A.; Ahounta, D.; Beauvilain, A.; Blondel, C.; Bocherens, H.; Boisserie, J.; De Bonis, L.; Coppens, Y.; Dejax, J.; Denys, C.; Duringer, P.; Eisenmann, V.; Fanone, G.; Fronty, P.; Geraads, D.; Lehmann, T.; Lihoreau, F.; Louchart, A.; Mahamat, A.; Merceron, G.; Mouchelin, G.; Otero, O.; Pelaez Campomanes, P.; Ponce De Leon, M.; Rage, J.; Sapanet, M.; Schuster, M.; Sudre, J.; Tassy, P.; Valentin, X.; Vignaud, P.; Viriot, L.; Zazzo, A.; Zollikofer, C. (2002). "A new hominid from the Upper Miocene of Chad, Central Africa". Nature 418 (6894): 145–151. doi:10.1038/nature00879. PMID 12110880. 
  31. 32.0 32.1 P. Thomas Schoenemann (2006). "Evolution of the Size and Functional Areas of the Human Brain". Annu. Rev. Anthropol 35: 379–406. doi:10.1146/annurev.anthro.35.081705.123210. 
  32. Park, Min S.; Nguyen, Andrew D.; Aryan, Henry E.; U, Hoi Sang; Levy, Michael L.; Semendeferi, Katerina (2007). "Evolution of the human brain: changing brain size and the fossil record". Neurosurgery 60 (3): 555–562. doi:10.1227/01.NEU.0000249284.54137.32. PMID 17327801. 
  33. Bruner, Emiliano (2007). Cranial shape and size variation in human evolution: structural and functional perspectives (PDF) 23 (12). pp. 1357–1365. doi:10.1007/s00381-0. PMID 17680251. Archived from the original on 2013-05-24. Retrieved 2014-01-08. 
  34. Potts Richard (2012). "Evolution and Environmental Change in Early Human Prehistory". Annu. Rev. Anthropol 41: 151–67. doi:10.1146/annurev-anthro-092611-145754. 
  35. Leonard, William R. , J. Josh Snodgrass, and Marcia L. Robertson. 2007. Effects of Brain Evolution on Human Nutrition and Metabolism. Annu. Rev. Nutr. 27:311–27
  36. "06.14.99 – Meat-eating was essential for human evolution, says UC Berkeley anthropologist specializing in diet". Berkeley.edu. 1999-06-14. Retrieved 2012-01-31. 
  37. "Meat in the human diet: an anthropological perspective. – Free Online Library". Thefreelibrary.com. 2007-09-01. Retrieved 2012-01-31. 
  38. Organ, Chris (22 August 2011). "Phylogenetic rate shifts in feeding time during the evolution of Homo". PNAS. Retrieved 17 April 2012. 
  39. Nowell April (2010). "Defining Behavioral Modernity in the Context of Neandertal and Anatomically Modern Human Populations". Annual Review of Anthropology 39: 437–452. doi:10.1146/annurev.anthro.012809.105113. 
  40. Francesco d'Errico and Chris B. Stringer. 2011. Evolution, revolution or saltation scenario for the emergence of modern cultures? Phil. Trans. R. Soc. B 12 April 2011 vol. 366 no. 1567 1060–1069. doi:10.1098/rstb.2010.0340
  41. Wood, Bernard A. (2009). "Where does the genus Homo begin, and how would we know?". In Grine, Frederick E.; Fleagle, John G.; Leakey, Richard E. (eds). The First Humans: Origin and Early Evolution of the Genus Homo. London, UK: Springer. pp. 17–27. ISBN 978-1-4020-9979-3. 
  42. Brown, Terence A. (8 April 2010). "Human evolution: Stranger from Siberia". Nature 464 (7290): 838–839. doi:10.1038/464838a. PMID 20376137. 
  43. Reich, David; Patterson, Nick; Kircher, Martin; Delfin, Frederick; Nandineni, Madhusudan R.; Pugach, Irina; Ko, Albert Min-Shan; Ko, Ying-Chin et al. (2011). "Denisova Admixture and the First Modern Human Dispersals into Southeast Asia and Oceania". The American Journal of Human Genetics 89 (4): 516–28. doi:10.1016/j.ajhg.2011.09.005. PMC 3188841. PMID 21944045 
  44. Hebsgaard MB, Wiuf C, Gilbert MT, Glenner H, Willerslev E (2007). "Evaluating Neanderthal genetics and phylogeny". J. Mol. Evol. 64 (1): 50–60. doi:10.1007/s00239-006-0017-y. PMID 17146600. 
  45. Vigilant et al. (1991). "African populations and the evolution of human mitochondrial DNA". Science 253 (5027): 1503–1507. doi:10.1126/science.1840702. 
  46. Wolman, David (April 3, 2008). Fossil Feces Is Earliest Evidence of N. America Humans. news.nationalgeographic.com. 
  47. Wood B (1996). "Human evolution". BioEssays 18 (12): 945–954. doi:10.1002/bies.950181204. PMID 8976151. 
  48. Thornton, Bruce (2002). Greek Ways: How the Greeks Created Western Civilization. San Francisco, CA, USA: Encounter Books. pp. 1–14. ISBN 1-893554-57-0. 
  49. "Internet Usage Statistics – The Internet Big Picture". internetworldstats.com/. Retrieved 19 November 2010. 
  50. "Reuters homepage". Reuters. Archived from the original on 2008-12-17. Retrieved 19 November 2010. 
  51. Pimm S, Raven P, Peterson A, Sekercioglu CH, Ehrlich PR (2006). "Human impacts on the rates of recent, present, and future bird extinctions". Proc. Natl. Acad. Sci. U.S.A. 103 (29): 10941–6. doi:10.1073/pnas.0604181103. PMC 1544153. PMID 16829570. 
    *Barnosky AD, Koch PL, Feranec RS, Wing SL, Shabel AB (2004). "Assessing the causes of late Pleistocene extinctions on the continents". Science 306 (5693): 70–5. doi:10.1126/science.1101476. PMID 15459379. 
  52. Lewis OT (2006). "Climate change, species-area curves and the extinction crisis" (PDF). Philos. Trans. R. Soc. Lond., B, Biol. Sci. 361 (1465): 163–71. doi:10.1098/rstb.2005.1712. PMC 1831839. PMID 16553315. 
  53. Nancy Atkinson (2009-03-26). "Soyuz Rockets to Space; 13 Humans Now in Orbit". Universetoday.com. Retrieved 2011-12-10. 
  54. Kraft, Rachel (December 11, 2010). "JSC celebrates ten years of continuous human presence aboard the International Space Station". JSC Features. Johnson Space Center. 
  55. "World's population reaches six billion". BBC News. August 5, 1999. Retrieved February 5, 2008. 
  56. "UN population estimates.". Population Division, United Nations. Retrieved 4 July 2013. 
  57. Whitehouse, David (May 19, 2005). "Half of humanity set to go urban". BBC News. 
  58. Urban, Suburban, and Rural Victimization, 1993–98 U.S. Department of Justice, Bureau of Justice Statistics,. Accessed 29 Oct 2006
  59. "World Urbanization Prospects, the 2011 Revision". Population Division, United Nations. Retrieved 4 July 2013. 
  60. Scientific American (1998). Evolution and General Intelligence: Three hypotheses on the evolution of general intelligence.
  61. "Climate Change 2001: Working Group I: The Scientific Basis". grida.no/. Retrieved 2007-05-30. 
  62. American Association for the Advancement of Science. Foreword. AAAS Atlas of Population & Environment.
  63. Wilson, E.O. (2002). The Future of Life.
  64. Page 21 Inside the human body: using scientific and exponential notation. Author: Greg Roza. Edition: Illustrated. Publisher: The Rosen Publishing Group, 2007. ISBN 1-4042-3362-8, ISBN 978-1-4042-3362-1. Length: 32pages
  65. "Human Anatomy". Inner Body. Retrieved 6 January 2013. 
  66. Parker-Pope, Tara (October 27, 2009). "The Human Body Is Built for Distance". The New York Times. 
  67. 68.0 68.1 68.2 O'Neil, Dennis. "Humans". Primates. Palomar College. Retrieved 6 January 2013. 
  68. John, Brenman. "What is the role of sweating glands in balancing body temperature when running a marathon?". Livestrong.com. Retrieved 6 January 2013. 
  69. "Human body". The Human Body. www.human-body.org. Retrieved 6 January 2013. 
  70. "Senior Citizens Do Shrink – Just One of the Body Changes of Aging". News. Senior Journal. Retrieved 6 January 2013. 
  71. Bogin B, Rios L (September 2003). "Rapid morphological change in living humans: implications for modern human origins". Comparative Biochemistry and Physiology. Part a, Molecular & Integrative Physiology 136 (1): 71–84. doi:10.1016/S1095-6433(02)00294-5. PMID 14527631. 
  72. "Human weight". Articleworld.org. Retrieved 2011-12-10. 
  73. Kushner, Robert (2007). Treatment of the Obese Patient (Contemporary Endocrinology). Totowa, NJ: Humana Press. p. 158. ISBN 1-59745-400-1. Retrieved April 5, 2009. 
  74. Adams JP, Murphy PG (July 2000). "Obesity in anaesthesia and intensive care". Br J Anaesth 85 (1): 91–108. doi:10.1093/bja/85.1.91. PMID 10927998. 
  75. Why Humans and Their Fur Parted Way by Nicholas Wade, New York Times, August 19, 2003.
  76. Kirchweger, Gina. "The Biology of Skin Color: Black and White". Evolution: Library. PBS. Retrieved 6 January 2013. 
  77. 78.0 78.1 Collins, Desmond (1976). The Human Revolution: From Ape to Artist. p. 208. 
  78. Pertea, Mihaela; Salzberg, Steven L. (2010). "Between a chicken and a grape: estimating the number of human genes". Genome Biology 11 (5): 206. doi:10.1186/gb-2010-11-5-206. PMC 2898077. PMID 20441615. 
  79. Harpending HC, Batzer MA, Gurven M, Jorde LB, Rogers AR, Sherry ST. (1998). "Genetic traces of ancient demography" (PDF). Proc Natl Acad Sci USA 95 (4): 1961–7. doi:10.1073/pnas.95.4.1961. PMC 19224. PMID 9465125. 
  80. Jorde LB, Rogers AR, Bamshad M, Watkins WS, Krakowiak P, Sung S, Kere J, Harpending HC. (1997). "Microsatellite diversity and the demographic history of modern humans" (PDF). Proc Natl Acad Sci USA 94 (7): 3100–3. doi:10.1073/pnas.94.7.3100. PMC 20328. PMID 9096352. 
  81. Jorde, Lynn B.; Wooding, Stephen P. (2004). "Genetic variation, classification and race". Nature Genetics 36 (11 Suppl): S28–S33. doi:10.1038/ng1435. PMID 15508000. 
  82. Tishkoff SA, Kidd KK (November 2004). "Implications of biogeography of human populations for 'race' and medicine". Nat. Genet. 36 (11 Suppl): S21–7. doi:10.1038/ng1438. PMID 15507999. 
  83. Wade, Nicholas (March 7, 2007). "Still Evolving, Human Genes Tell New Story". The New York Times. Retrieved 2012-02-13. 
  84. According to the July 2: 2007 Newsweek magazine, a woman dies in childbirth every minute, most often due to uncontrolled bleeding and infection, with the world's poorest women most vulnerable. The lifetime risk is 1 in 16 in sub-Saharan Africa, compared to 1 in 2,800 in developed countries.
  85. LaVelle, M. (1995). "Natural selection and developmental sexual variation in the human pelvis". American Journal of Physical Anthropology 98 (1): 59–72. doi:10.1002/ajpa.1330980106. PMID 8579191. 
  86. Correia, H.; Balseiro, S.; De Areia, M. (2005). "Sexual dimorphism in the human pelvis: testing a new hypothesis". Homo 56 (2): 153–160. doi:10.1016/j.jchb.2005.05.003. PMID 16130838. 
  87. Rush, David (2000). "Nutrition and maternal mortality in the developing world". American Journal of Clinical Nutrition 72 (1 Suppl): 212S–240S. PMID 10871588. 
  88. "Low Birthweight". Archived from the original on May 13, 2007. Retrieved 2007-05-30. 
  89. Khor, G. (2003). "Update on the prevalence of malnutrition among children in Asia". Nepal Medical College Journal 5 (2): 113–122. PMID 15024783. 
  90. Leakey, Richard; Lewin, Roger (1993). Origins Reconsidered: In Search of What Makes Us Human. New York, New York: Anchor Books. ISBN 978-0-385-46792-6. 
  91. Diamond, Jared (1997). Why is Sex Fun? The Evolution of Human Sexuality. New York, New York: Basic Books. pp. 167–170. ISBN 0-465-03127-7. 
  92. Peccei, Jocelyn Scott (2001). "Menopause: adaptation or epiphenomenon?" (PDF). Evolutionary Anthropology 10 (2): 47–57. doi:10.1002/evan.1013. 
  93. Kalben, Barbara Blatt. "Why Men Die Younger: Causes of Mortality Differences by Sex". Society of Actuaries", 2002.http://www.soa.org/news-and-publications/publications/other-publications/monographs/m-li01-1-toc.aspx
  94. "CIA World Factbook - World entry". Central Intelligence Agency. Retrieved 5 July 2013. 
  95. "Human Development Report 2006," United Nations Development Programme, pp. 363–366, November 9, 2006
  96. The World Factbook, U.S. Central Intelligence Agency. Retrieved April 2, 2005.
  97. U.N. Statistics on Population Ageing, United Nations press release, February 28, 2002. Retrieved April 2, 2005.
  98. Maier, Heiner (2010). Supercentenarians. Heidelberg, Germany: Springer. p. 288. ISBN 978-3-642-11519-6. 
  99. Haenel H (1989). "Phylogenesis and nutrition". Nahrung 33 (9): 867–87. PMID 2697806. 
  100. Cordain, Loren (2007). "Implications of Plio-pleistocene diets for modern humans". In Peter S. Ungar. Evolution of the human diet: the known, the unknown and the unknowable. pp. 264–5. ""Since the evolutionary split between hominins and pongids approximately 7 million years ago, the available evidence shows that all species of hominins ate an omnivorous diet composed of minimally processed, wild-plant, and animal foods." 
  101. American Dietetic, Association; Dietitians Of, Canada (2003). "Vegetarian Diets". Journal of the American Dietetic Association 103 (6): 748–765. doi:10.1053/jada.2003.50142. PMID 12778049. 
  102. Cordain L, Eaton SB, Sebastian A et al. (February 2005). "Origins and evolution of the Western diet: health implications for the 21st century". Am. J. Clin. Nutr. 81 (2): 341–54. PMID 15699220. 
  103. Ulijaszek SJ (November 2002). "Human eating behaviour in an evolutionary ecological context". Proc Nutr Soc 61 (4): 517–26. doi:10.1079/PNS2002180. PMID 12691181. 
  104. Earliest agriculture in the Americas Earliest cultivation of barley Earliest cultivation of figs – URLs retrieved February 19, 2007
  105. Krebs JR (September 2009). "The gourmet ape: evolution and human food preferences". Am. J. Clin. Nutr. 90 (3): 707S–711S. doi:10.3945/ajcn.2009.27462B. PMID 19656837. 
  106. Holden C, Mace R (October 1997). "Phylogenetic analysis of the evolution of lactose digestion in adults". Hum. Biol. 69 (5): 605–28. PMID 9299882. 
  107. United Nations Information Service. "Independent Expert On Effects Of Structural Adjustment, Special Rapporteur On Right To Food Present Reports: Commission Continues General Debate On Economic, Social And Cultural Rights". United Nations, March 29, 2004, p. 6. "Around 36 million people died from hunger directly or indirectly every year.".
  108. Murray C, Lopez A (1997). "Global mortality, disability, and the contribution of risk factors: Global Burden of Disease Study". Lancet 349 (9063): 1436–42. doi:10.1016/S0140-6736(96)07495-8. PMID 9164317. 
  109. 110.0 110.1 Haslam DW, James WP (October 2005). "Obesity". Lancet 366 (9492): 1197–209. doi:10.1016/S0140-6736(05)67483-1. PMID 16198769. 
  110. Catenacci VA, Hill JO, Wyatt HR (September 2009). "The obesity epidemic". Clin. Chest Med. 30 (3): 415–44, vii. doi:10.1016/j.ccm.2009.05.001. PMID 19700042. 
  111. Edwards, JH; T Dent and J Kahn (June 1966). "Monozygotic twins of different sex". Journal of Medical Genetics 3 (2): 117–123. doi:10.1136/jmg.3.2.117. PMC 1012913. PMID 6007033. 
  112. Machin, GA (January 1996). "Some causes of genotypic and phenotypic discordance in monozygotic twin pairs". American Journal of Medical Genetics 61 (3): 216–228. doi:10.1002/(SICI)1096-8628(19960122)61:3<216::AID-AJMG5>3.0.CO;2-S. PMID 8741866. 
  113. Liu, Hua; Prugnolle, Franck; Manina, Andrea; Balloux, François (2006). "A geographically explicit genetic model of worldwide human-settlement history". The American Journal of Human Genetics 79 (2): 230–237. doi:10.1086/505436. PMC 1559480. PMID 16826514. 
  114. Race, Ethnicity, and Genetics Working Group (2005). "The use of racial, ethnic, and ancestral categories in human genetics research". American Journal of Human Genetics 77 (4): 519–532. doi:10.1086/491747. PMC 1275602. PMID 16175499. 
  115. Dr. Shafer, Aaron. "Understanding Genetics". The Tech. Stanford University. Retrieved 13 December 2013. "The DNA sequence in your genes is on average 99.9% identical to ANY other human being." 
  116. "Genetic - Understanding Human Genetic Variation". Human Genetic Variation. National Institute of Health (NIH). Retrieved 13 December 2013. "Between any two humans, the amount of genetic variation—biochemical individuality—is about 0.1 percent." 
  117. "Human Diversity - Go Deeper". Power of an Illusion. PBS. Retrieved 6 January 2013. 
  118. Waugh, Rob. "Mystery as scientists find more DNA differences between chimps from two sides of the same river than humans from different continents". Mail Online. Retrieved 6 January 2013. 
  119. "Chimps show much greater genetic diversity than humans". Media. University of Oxford. Retrieved 13 December 2013. 
  120. 121.0 121.1 121.2 121.3 121.4 121.5 121.6 121.7 Roberts, Dorothy (2011). Fatal Invention. London, New York: The New Press. 
  121. O'Neil, Dennis. "Human Biological Adaptability; Overview". Palomar College. Retrieved 6 January 2013. 
  122. O'Neil, Dennis. "Adapting to Climate Extremes". Human Biological Adaptability. Palomar College. Retrieved 6 January 2013. 
  123. de Beer H (2004). "Observations on the history of Dutch physical stature from the late-Middle Ages to the present". Econ Hum Biol 2 (1): 45–55. doi:10.1016/j.ehb.2003.11.001. PMID 15463992. 
  124. Hedrick PW (2011). "Population genetics of malaria resistance in humans". Heredity 107 (4): 283–304. doi:10.1038/hdy.2011.16. PMC 3182497. PMID 21427751. 
  125. Weatherall DJ (2008). "Genetic variation and susceptibility to infection: The red cell and malaria". British Journal of Haematology 141 (3): 276–86. doi:10.1111/j.1365-2141.2008.07085.x. PMID 18410566. 
  126. Beja-Pereira A et al. Gene-culture coevolution between cattle milk protein genes and human lactase genes" Nat Genet 2003; 35: 311−313.
  127. 128.0 128.1 Nina, Jablonski (2004). "The evolution of human skin and skin color". Annual Review of Anthropology 33: 585–623. doi:10.1146/annurev.anthro.33.070203.143955. 
  128. Rogers, Alan R., Iltis, David & Wooding, Stephen (2004). "Genetic variation at the MC1R locus and the time since loss of human body hair". Current Anthropology 45 (1): 105–108. doi:10.1086/381006. 
  129. Jablonski, N.G. & Chaplin, G. (2000). The evolution of human skin coloration (pdf), 'Journal of Human Evolution 39: 57–106.
  130. Harding RM, Healy E, Ray AJ et al. (April 2000). "Evidence for variable selective pressures at MC1R". Am. J. Hum. Genet. 66 (4): 1351–61. doi:10.1086/302863. PMC 1288200. PMID 10733465. 
  131. Robin, Ashley (1991). Biological Perspectives on Human Pigmentation. Cambridge: Cambridge University Press.
  132. 133.0 133.1 Muehlenbein, Michael (2010). Human Evolutionary Biology. Cambridge University Press. pp. 192–213. 
  133. Birke, Lydia. The Gender and Science Reader ed. Muriel Lederman and Ingrid Bartsch. New York, Routledge, 2001. 306–322
  134. Gustafsson A & Lindenfors P (2004). "Human size evolution: no allometric relationship between male and female stature". Journal of Human Evolution 47 (4): 253–266. doi:10.1016/j.jhevol.2004.07.004. PMID 15454336. 
  135. Dominance and the evolution of sexual dimorphism in human voice pitch Puts, David Andrew and Gaulin, Steven J.C and Verdolini, Katherine; Evolution and Human Behavior, ISSN 1090-5138, 2006, Volume 27, Issue 4, pp. 283 - 296
  136. "Ogden et al (2004). Mean Body Weight, Height,and Body Mass Index, United States 1960–2002 ''Advance Data from Vital and Health Statistics'', Number 347, October 27, 2004." (PDF). Retrieved 2013-07-27. 
  137. Gender Differences in Endurance Performance and Training
  138. Miller, AE; MacDougall, JD; Tarnopolsky, MA; Sale, DG (1993). "Gender differences in strength and muscle fiber characteristics". European journal of applied physiology and occupational physiology 66 (3): 254–62. doi:10.1007/BF00235103. PMID 8477683. 
  139. "Women nose ahead in smell tests". BBC News. 2002-02-04. Retrieved 2010-05-23. 
  140. "Study Reveals Reason Women Are More Sensitive To Pain Than Men". Sciencedaily.com. 2005-10-25. Retrieved 2013-07-27. 
  141. Gender, women, and health Reports from WHO 2002–2005
  142. 143.0 143.1 Alfred Glucksman (1981). Sexual Dimorphism in Human and Mammalian Biology and Pathology. Academic Press. pp. 66–75. ISBN 978-0-12-286960-0. OCLC 7831448. 
  143. Jo Durden-Smith & Diane deSimone (1983). Sex and the Brain. New York: Arbor House. ISBN 978-0-87795-484-2. 
  144. Eileen S. Gersh & Isidore Gersh (1981). Biology of Women. Baltimore: University Park Press. ISBN 978-0-8391-1622-6. LCCN 80-025534. OCLC 6914860. 
  145. Jay H. Stein (1987). Internal Medicine (2nd ed.). Boston: Little, Brown. ISBN 978-0-316-81236-8. 
  146. M. McLaughlin & T. Shryer (8 August 1988). "Men vs women: the new debate over sex differences". U.S. News & World Report: 50–58. 
  147. B. S. McEwen (1981). "Neural gonadal steroid actions". Science 211 (4488): 1303–1311. Bibcode:1981Sci...211.1303M. doi:10.1126/science.6259728. PMID 6259728. 
  148. Martin Daly & Margo Wilson (1996). "Evolutionary psychology and marital conflict". In David M. Buss & Neil M. Malamuth. Sex, Power, Conflict: Evolutionary and Feminist Perspectives. Oxford University Press. p. 13. ISBN 978-0-19-510357-1. 
  149. Christopher Ryan & Cacilda Jethá (2010). Sex at Dawn: The Prehistoric Origins of Modern Sexuality. Harper. ISBN 978-0-06-170780-3. 
  150. "The Science Behind the Human Genome Project". Human Genome Project. US Department of Energy. Retrieved 6 January 2013. "Almost all (99.9%) nucleotide bases are exactly the same in all people." 
  151. O'Neil, Dennis. "Ethnicity and Race: Overview". Palomar College. Retrieved 6 January 2013. 
  152. "Genetic - Understanding Human Genetic Variation". Human Genetic Variation. National Institute of Health (NIH). Retrieved 13 December 2013. "In fact, research results consistently demonstrate that about 85 percent of all human genetic variation exists within human populations, whereas about only 15 percent of variation exists between populations." 
  153. 154.0 154.1 Goodman, Alan. "Interview with Alan Goodman". Race Power of and Illusion. PBS. Retrieved 6 January 2013. 
  154. Marks, J. (2010) Ten facts about human variation. In: Human Evolutionary Biology, edited by M. Muehlenbein. New York: Cambridge University Press
  155. Jorde, L.; Watkins, W; Bamshad, M; Dixon, M; Ricker, C.; Seielstad, M.; Batzer, M. (2000). "The distribution of human genetic diversity: a comparison of mitochondrial, autosomal, and Y-chromosome data". American Journal of Human Genetics 66 (3): 979–988. doi:10.1086/302825. PMC 1288178. PMID 10712212. 
  156. "New Research Proves Single Origin Of Humans In Africa". Science Daily. 19 July 2007. Retrieved 2011-09-05. 
  157. Manica, A; Amos, W; Balloux, F; Hanihara, T (2007). "The effect of ancient population bottlenecks on human phenotypic variation". Nature 448 (7151): 346–8. Bibcode:2007Natur.448..346M. doi:10.1038/nature05951. PMC 1978547. PMID 17637668. 
  158. O'Neil, Dennis. "Adapting to High Altitude". Human Biological Adaptability. Palomar College. Retrieved 6 January 2013. 
  159. O'Neil, Dennis. "Overview". Human Biological Adaptability. Palomar College. Retrieved 6 January 2013. 
  160. 161.0 161.1 O'Neil, Dennis. "Models of Classification". Modern Human Variation. Palomar College. Retrieved 6 January 2013. 
  161. 162.0 162.1 162.2 Marks, Jonathan. "Interview with Jonathan Marks". Race - The Power of an Illusion. PBS. Retrieved 6 January 2013. 
  162. 163.0 163.1 Goodman, Alan. "Background Readings". Race - Power of an Illusion. PBS. Retrieved 6 January 2013. 
  163. Bower, C.; Stanley (1992). "The role of nutritional factors in the aetiology of neural tube defects". Journal of Paediatrics and Child Health 28: 12–16. 
  164. O'Neil, Dennis. "Overview". Modern Human Variation. Palomar College. Retrieved 6 January 2013. 
  165. Wilson, James F.; Weale, Michael E.; Smith, Alice C.; Gratrix, Fiona; Fletcher, Benjamin; Thomas, Mark G.; Bradman, Neil; Goldstein, David B. (2001). "Population genetic structure of variable drug response". Nature Genetics 29 (3): 265–9. doi:10.1038/ng761. PMID 11685208. "62% of the Ethiopians fall in the first cluster, which encompasses the majority of the Jews, Norwegians and Armenians, indicating that placement of these individuals in a ‘Black’ cluster would be an inaccurate reflection of the genetic structure. Only 24% of the Ethiopians are placed in the cluster with the Bantu" 
  166. Liu, James J.Y. The Chinese Knight Errant. London: Routledge and Kegan Paul, 1967 ISBN 0-226-48688-5.
  167. Iqbal, Saadia. "A New Light on Skin Color". National Geographic Magazine. Retrieved 6 January 2013. 
  168. Keita; Kittles, Royal, Bonney, Furbert-Harris, Dunston, Rotimi (2004). "Conceptualizing human variation". Nature 36: S17–S20. doi:10.1038/ng1455. PMID 15507998. 
  169. Keita; Kittles, Royal, Bonney, Furbert-Harris, Dunston, Rotimi (2004). "Conceptualizing human variation". Nature 36: S17–S20. doi:10.1038/ng1455. PMID 15507998. "Modern human biological variation is not structured into phylogenetic subspecies ('races'), nor are the taxa of the standard anthropological 'racial' classifications breeding populations. The 'racial taxa' do not meet the phylogenetic criteria. 'Race' denotes socially constructed units as a function of the incorrect usage of the term." 
  170. "Census, race and science". Nature Genetics 24: 97–98. 2000. doi:10.1038/72884. "That race (…) is not a scientific term is generally agreed upon by scientists—and a message that cannot be repeated often enough." 
  171. Harrison, Guy (2010). Race and Reality. Amherst: Prometheus Books. "Race is a poor empirical description of the patterns of difference that we encounter within our species. The billions of humans alive today simply do not fit into neat and tidy biological boxes called races. Science has proven this conclusively. The concept of race (...) is not scientific and goes against what is known about our ever-changing and complex biological diversity." 
  172. Roberts, Dorothy (2011). Fatal Invention. London, New York: The New Press. "The genetic differences that exist among populations are characterized by gradual changes across geographic regions, not sharp, categorical distinctions. Groups of people across the globe have varying frequencies of polymorphic genes, which are genes with any of several differing nucleotide sequences. There is no such thing as a set of genes that belongs exclusively to one group and not to another. The clinal, gradually changing nature of geographic genetic difference is complicated further by the migration and mixing that human groups have engaged in since prehistory. Genetic studies have substantiated the absence of clear biological borders; thus the term "race" is rarely used in scientific terminology, either in biological anthropology and in human genetics. Race has no genetic or biological basis. Human beings do not fit the zoological definition of race. Race is not a biological category that is politically charged. It is a political category that has been disguised as a biological one." 
  173. Goodman, Alan. "Interview with Alan Goodman". Race Power of and Illusion. PBS. Retrieved 6 January 2013. "There's no biological basis for race. And that is in the facts of biology, the facts of non-concordance, the facts of continuous variation, the recentness of our evolution, the way that we all commingle and come together, and how genes flow. (…) There's no generalizability to race. There is no center there (…). It's fluid." 
  174. Steve Olson, Mapping Human History: Discovering the Past Through Our Genes, Boston, 2002
  175. "RACE - The Power of an Illusion". PBS. Retrieved 2 January 2013. 
  176. Jablonski, Nina (2004). "The evolution of human skin and skin color". Annual Review of Anthropology 33: 585–623. doi:10.1146/annurev.anthro.33.070203.143955. 
  177. Palmié, Stephan (May 2007). "Genomics, divination, 'racecraft'". American Ethnologist 34: 205–22. doi:10.1525/ae.2007.34.2.205. 
  178. 3-D Brain Anatomy, The Secret Life of the Brain, Public Broadcasting Service. Retrieved April 3, 2005.
  179. Grandner, Michael A.; Patel, Nirav P.; Gehrman, Philip R.; Perlis, Michael L.; Pack, Allan I. (2010). "Problems associated with short sleep: bridging the gap between laboratory and epidemiological studies". Sleep Medicine Reviews 14 (4): 239–47. doi:10.1016/j.smrv.2009.08.001. PMC 2888649. PMID 19896872. 
  180. Leary, Mark R.; Tangney, June Price (2005). Handbook of Self and Identity. New York, New York: Guilford Press. pp. 576–577. ISBN 978-1-59385-237-5. 
  181. Dr. Jack Palmer. "Consciousness and the Symbolic Universe". Retrieved March 17, 2006. 
  182. Ned Block: On a Confusion about a Function of Consciousness in: The Behavioral and Brain Sciences, 1995.
  183. Haviland, Wiliam A.; Prins, Harald E.L.; McBride, Bunny; Walrath, Dana (2010). Cultural Anthropology: The Human Challenge. Belmont, California: Wadsworth/Cengage Learning. p. 82. ISBN 978-0-495-81082-7. 
  184. Wikimedia Foundation. "Anthropology". Wikimedia Foundation. p. 87. Retrieved 10 August 2013. 
  185. MobileReference (15 December 2009). "The Illustrated Encyclopedia of North American Mammals". MobileReference. p. 601. Retrieved 10 August 2013. 
  186. Buss, David M. (2003). The Evolution of Desire: Strategies of Human Mating. Revised Edition. New York, New York: Basic Books. ISBN 978-0-465-00802-5. 
  187. Thornhill, Randy; Palmer, Craig T. (2000). A Natural History of Rape. Biological Bases of Sexual Coercion. Cambridge, Massachusetts: MIT Press. ISBN 978-0-262-70083-2. 
  188. "Statistical Summaries". Ethnologue. Retrieved 2011-12-10. 
  189. "CIA – The World Factbook". Cia.gov. Retrieved 2011-12-10. 
  190. Comrie, Bernard; Polinsky, Maria; Matthews, Stephen (1996). The Atlas of Languages: The Origin and Development of Languages Throughout the World. New York, New York: Facts on File. pp. 13–15. ISBN 978-0-8160-3388-1. 
  191. J. Hutchinson & A.D. Smith (eds.), Oxford readers: Ethnicity (Oxford 1996), "Introduction"
  192. Smith, Anthony D. (1999) Myths and Memories of the Nation. Oxford University Press. pp.4–7
  193. Banton, Michael. (2007) Weber on Ethnic Communities: A critique. Nations and Nationalism 13 (1), 2007, 19–35.
  194. Delanty,Gerard & Krishan Kumar (2006) The SAGE Handbook of Nations and Nationalism. SAGE. ISBN 1412901014 p. 171
  195. Ronald Cohen 1978 "Ethnicity: Problem and Focus in Anthropology" in Annual Review of Anthropology 7: 383 Palo Alto: Stanford University Press
  196. Thomas Hylland Eriksen (1993) Ethnicity and Nationalism: Anthropological Perspectives. London: Pluto Press
  197. Max Weber's definition of the modern state 1918, by Max Weber, 1918. Retrieved March 17, 2006.
  198. Ferguson, Niall. "The Next War of the World." Foreign Affairs, Sep/Oct 2006
  199. Clark, J.D.; de Heinzelin, J.; Schick, K.D.; et al. (1994). "African Homo erectus: old radiometric ages and young Oldowan assemblages in the Middle Awash Valley, Ethiopia". Science 264 (5167): 1907–1910. doi:10.1126/science.8009220. PMID 8009220. 
  200. Balter M (2009). "Clothes Make the (Hu) Man". Science 325 (5946): 1329. doi:10.1126/science.325_1329a. PMID 19745126. 
  201. Kvavadze E, Bar-Yosef O, Belfer-Cohen A, Boaretto E,Jakeli N, Matskevich Z, Meshveliani T. (2009).30,000-Year-Old Wild Flax Fibers" Science 325(5946) 1359. doi:10.1126/science.1175404 PMID 19745144 Supporting Online Material
  202. 203.0 203.1 Margo DeMello (2007). Encyclopedia of Body Adornment. ABC-CLIO. pp. 17–. ISBN 978-0-313-33695-9. Retrieved 6 April 2012. 
  203. "Evolutionary Religious Studies: A New Field of Scientific Inquiry". 
  204. Boyer, Pascal (2008). "Being human: Religion: bound to believe?". Nature 455 (7216): 1038–1039. doi:10.1038/4551038a. PMID 18948934. 
  205. Emmons, Robert A.; Paloutzian, Raymond F. (2003). "The psychology of religion". Annual Review of Psychology 54 (1): 377–402. doi:10.1146/annurev.psych.54.101601.145024. PMID 12171998. 
  206. Hall, Daniel E.; Meador, Keith G.; Koenig, Harold G. (2008). "Measuring religiousness in health research: review and critique". Journal of Religion and Health 47 (2): 134–163. doi:10.1007/s10943-008-9165-2. PMID 19105008. 

Further reading

  • Freeman, Scott; Jon C. Herron, Evolutionary Analysis (4th ed.) Pearson Education, Inc., 2007. ISBN 0-13-227584-8 pages 757–761.

External links

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