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Meet the Family

Our family tree includes different species from our evolutionary past. Extending back for five to seven million years to the time when our ancestors took their first two-legged steps on the path toward becoming human. Discover the different species.

Humans are unusual primates

Primates are a group of mammals that include lemurs, lorises, tarsiers, monkeys, apes and humans. Primates have some distinctive features, including highly developed binocular vision with enclosed eye sockets in the skull, mobile fingers and toes with flat nails instead of claws, sensitive finger pads and a large brain relative to body size. They have a reduced sense of smell and an even shorter snout than other animals with this characteristic.

Hominins are a group of primates that walk upright and have relatively large brains. Humans and great apes belong to this group.

Humans are unusual primates. We walk upright on two legs with the aid of a specialized pelvis, hip and leg muscles and an s-shaped instead of c-shaped spine. Compared to other primates such as chimpanzees and gorillas, we have a short, flat face with a protruding nose and very small canine teeth. We have a very prolonged infancy and childhood and have developed speech, abstract thought and a very complex social structure. We have also developed the ability to make and use complex tools.

Hominid and hominin

The terms 'hominid' and 'hominin' are frequently used in human evolution.

What's the difference?

The terms 'hominid' and 'hominin' are frequently used in human evolution.

New definitions

The most recent definitions are:

Hominid - the group consisting of all modern and extinct Great Apes (that is, modern humans, chimpanzees, gorillas and orang-utans plus all their immediate ancestors).

Hominin - the group consisting of modern humans, extinct human species and all our immediate ancestors (including members of the genera Homo, Australopithecus, Paranthropus and Ardipithecus).

Previous definitions

Current use of the term 'hominid' can be confusing because the definition of this word has changed over time.

The term 'hominid' used to have the same meaning that 'hominin' now has. It was therefore a very useful term to designate the line leading to modern humans and was used when referring to various members of our human evolutionary tree.

'Hominid' has now been assigned a broader meaning and now refers to all Great Apes and their ancestors. This new terminology is being used in many scientific journals already, and it is only a matter of time (but possibly many years) before everyone catches up to using the new term.

Many texts still use the old system and websites also haven't caught up, even those of many reputable scientific establishments. So be aware that 'hominids' can mean two different things depending on how up-to-date a reference is with regard to incorporating these taxonomy/classification changes.

Why have these changes occurred?

'Hominid' and 'hominin' are derived from names used in the scientific classification of apes (including humans). By international convention, certain word endings are used for specific taxons or levels within this classification. For example, 'family' names always end in '-idae' (eg Hominidae), 'subfamily' names end in 'inae' (eg Homininae) and 'tribe' names end in 'ini' (eg Hominini). These formal names are then abbreviated to give the common names hominid, hominine and hominin respectively.

The word 'tribe' as used here and in biological classification has a particular meaning. It refers to a taxonomic group that occurs in the classification hierarchy between superfamily and genus. If using this terminology with students, ensure that they understand this word's meaning in a taxonomic context rather than in other contexts where it may mean 'a social division of our own species, Homo sapiens '.

The name changes that have occurred have arisen due to changes in the way humans, chimpanzees, gorillas and orang-utans are classified. For example, it was once thought that apes should be divided into three different groups (families). In this old scheme, humans were seen to be so different to other apes that we should be placed into our own distinct family, the Hominidae or hominids.

Over time, biological classifications change due to improved techniques and better knowledge about the biology and the evolutionary relationships of different living things. Now, with their better knowledge, scientists have revised their classifications to develop more up-to-date evolutionary trees.

In this scheme, only two families are recognised with all the Great Apes (including humans) placed into the same family, the Hominidae or hominids. The next branching of this evolutionary tree divides the orang-utans into one subfamily and all the remaining Great Apes into another subfamily. Then at the tribe level, gorillas, chimpanzees and humans separate onto different branches of the evolutionary tree with humans in the Hominini or hominin branch. As a result of this classification change, modern humans and all our extinct ancestors on our own branch of the evolutionary tree are now known as hominins rather than as hominids as they were formerly known in old classifications.

The human story

The human story comes to us from the Earth. Fossils and other evidence of human habitation provide the data from which the human story is unfolding, with palaeontologists and archaeologists working on each new piece of evidence, and changing the story as they go. The cast of characters includes not only early humans themselves, but also the scientists who, through discovery and debate, piece together the fragments of jig-saw puzzle.

Cultural evolution

Cultural evolution is the passing on of information through teaching rather than just observation. Particular types of stone tools act as important markers for certain periods in human cultural evolution, stages in technological development and different regional styles. It is thought that there is a connection between cultural and genetic evolution. Learned behaviour (such as stone tool making) and biological evolution interplay, creating a feedback system resulting in accelerated cultural innovation and biological evolution.