In 1925 South African anthropologist Raymond Dart coined the genus name Australopithecus to identify a child’s skull recovered from mining operations at Taung in South Africa. He called it Australopithecus africanus, meaning “southern ape of Africa.” From then until 1960 almost all that was known about australopiths came from limestone caves in South Africa. The richest source is at Sterkfontein, where South African paleontologist Robert Broom and his team collected hundreds of specimens beginning in 1936. At first Broom simply bought fossils, but in 1946 he began excavating, aided by a crew of skillful workers. Excavation continues to this day. Sterkfontein is one of the richest sources of information about human evolution in the time period between about 3.0 and 2.5 mya.
The A. africanus remains of Sterkfontein include skulls, jaws, and numerous skeletal fragments. In 1947 a partial skeleton was unearthed that revealed the humanlike specializations for bipedalism now known to be characteristic of all australopiths. Almost all of the A. africanus remains from Sterkfontein come from a deposit where there is a conspicuous absence of stone tools. An older deposit contains a beautifully preserved skeleton called “Little Foot” and a skull of what might be an early variant of A. africanus. Another source of A. africanus is at Makapansgat, South Africa, where Dart and his team collected about 40 specimens during expeditions from 1947 to 1962.
Volanic sediments useful in argon radiometric dating in eastern Africa are absent in South Africa. Hence, the dating of australopith sites in South Africa can only be approximated based on stratigraphy that uses time-diagonostic animal species for correlation with other argon-dated occurrences. The oldest dates are approximately 3.3 mya for hominin specimens (perhaps A. africanus) discovered in the late 1990s at Sterkfontein. Most of the samples of this species are between about 3.0 and perhaps 2.4 million years old.
A. africanus is quite a variable species in its anatomy, reflective of normal morphological variation, sexual variation, and perhaps even geographic variation. Naturally, there are overall similarities with A. afarensis, but A. africanus possesses unique specializations that are related to mastication. These include the expansion of the cheek teeth, increased jaw size, and changes to the skull to accommodate powerful chewing. Male representatives of A. africanus weighed approximately 41 kg (90 pounds) and stood 138 cm (4 feet 6 inches) tall, whereas females weighed about 30 kg (66 pounds) and stood 115 cm (3 feet 9 inches) tall. Brain size averages 448 cc (27.3 cubic inches), closer to modern chimpanzees (395 cc [24.1 cubic inches]) than to humans (1,350 cc [82.4 cubic inches]).
Australopithecus sediba
In 2008 the first A. sediba remains, a fossilized jawbone and collarbone belonging to a juvenile male hominin, were found outside Malapa Cave in the Transvaal area of South Africa. This find led to the recovery of two partial hominin skeletons, a juvenile associated with a cranium and an adult female with a nearly complete arm and hand. The age of both specimens was estimated to be between about 1.8 million and 2.0 million years old. Using the size of the remains to estimate height, the male was thought to have stood approximately 1.3 metres (about 4.25 feet) tall; the female was taller.
Subsequent laboratory analyses revealed information about the possible origin of this species and its place within the timeline of human evolution. A number of similarities in facial structure and dentition between A. sediba and A. africanus suggested that A. sediba could have been a direct descendant of A. africanus. In addition, the mosaic of humanlike and apelike characteristics displayed by these two specimens of A. sediba indicated that this species was unlike any other known hominin. Some of the most-striking features were present in the hand and wrist of the female specimen, which was the most complete of any extinct hominin known. It displayed shorter fingers and an elongated thumb, which may have allowed A. sediba to make and use simple tools, perhaps even stone tools. The presence of these and other humanlike structures in the pelvis, foot and leg, and skull—many of which also occured in H. erectus, the earliest undisputed precursor to modern humans—led some paleoanthropologists (that is, those who study the origins and development of early humans) to speculate that A. sediba could have been the direct ancestor of Homo. Other paleoanthropologists disputed this claim, arguing that A. sediba may have been part of A. africanus and existed concurrently with the true direct ancestors of Homo found in eastern Africa.
Australopithecus aethiopicus
Australopithecus aethiopicus (2.7–2.3 mya), formerly known as Paranthropus aethopicus, is the earliest of the so-called robust australopiths, a group that also includes A. robustus and A. boisei (described below). Robust refers to the heavily built mandible, crested cranium, and very large cheek teeth, and some scholars place the robusts in the separate genus Paranthropus.
Specializations for powerful chewing occur in A. aethiopicus fossils. The fossils include the Omo remains, discovered in the Omo River valley in southern Ethiopia, and KNM-WT 17000 (“Black Skull”), found on the western shore of Lake Turkana in northern Kenya, and suggest an adaptation for eating tough, hard food. The Black Skull possesses enormous molars and premolars, a thick palate and cheek bones, and a bladelike sagittal crest. These traits tie the skull with later skulls of A. boisei and suggest that an ancestor-descendent relationship existed between the two species. In other respects the Black Skull bears strong resemblances with A. afarensis—such as the projecting lower face and relatively large anterior teeth.