Due to the hostile or indifferent response of his peers, Dart never followed up the find with further excavations, and no other specimens of the species have been found at Taung. Dart dedicated himself to developing the anatomy department at the University of Witwatersrand, and it would be twenty years later when sites like Sterkfontein were found that corroborated Darts ideas.

Though the genus designation mixed both Latin ("australo") and Greek ("pithecus"), the genus name has become accepted as the label by which the group of pre-Homo hominids in Africa have come to be known. Dart claimed that A. africanus was bipedal due to the position of the foramen magnum, and was vindicated by later finds, such as STS 14, which showed unequivocally that africanus was an obligate biped.

Diagnostic Features

The earliest africanus material comes from sites such as Sterkfontein, Makapansgat, Gladysvale, and Taung. This material dates to the end of the Early Pliocene, mostly between 2.9-2.4 myr, with the Sterkfontein Member 2 material (possibly afarensis or other species) being the earliest known possible africanus, dating to about 3.5 myr. The Sterkfontein material is problematic, as there may be intrusions from later strata, and there is a heterogeneous mixture of earlier and more modern faunal species, and thus, this material may be as young as 1.0 myr.

Most postcranial material attributed to africanus is well within the range of variation of the afarensis material, however, the limb proportions may be different. STS 14 is a 2.5 myr old specimen from Sterkfontein. This specimen is particularly important as it includes both os coxa, as well as many of the vertebrae. This find showed unequivocally that these hominids were bipedal, and were not simply apes, vindicating Raymond Dart. Features of STS 14 that align it with a more humanlike locomotor capacity include:

• The iliac blade is short and wide.
• There is a well-developed sciatic notch.
• There is a strong anterior inferior iliac spine.
  

STS 14 has six lumbar vertebrae (whereas modern humans have five, and chimps usually have three). With an increased number of lumbar vertebrae (the ancestral condition, as in cercopithecoids), bipedalism may have been the ancestral condition (from a very small-bodied primate?). While it is very similar in morphology (relative to its size), there are also differences. This specimen differs from modern human in that:

• There is a forward projecting anterior superior iliac spine.
• A very small articular surface for the sacrum.
• A marked outward flare of the iliac blades.

There is a fairly large sample of africanus teeth known (though not as large a sample as the afarensis material). The material shows several important differences when compared to afarensis that include:

• Postcanine teeth are larger, more bulbously cusped, and relatively broader (the size difference is greater in the later erupting teeth of each type), and may have somewhat thicker enamel, especially on the tooth walls.
  Dm1 is larger and more squared, with more equal sized cusps.
• The anterior lower premolars are always bicuspid, usually with equal or close to equal sized cusps, and wear more similarly to the other premolars.
• The anterior lower premolars have greater enamel thickness.
• Compared intrasexually, the africanus central incisors show no reduction but the other anterior teeth are usually smaller. The ranges almost completely overlap, however, and there are very large canines and incisors in both samples.
  

No canines wear to have cutting edges (canine-premolar diatemata are rare), even though a few are large enough to project beyond the level of the other teeth (this is much more common in the afarensis sample).
Although the canines are reduced compared with the earlier Pliocene samples, their roots - especially those of the maxilla teeth - are still long and robust. The canines also wear more rapidly than the afarensis material, with the wear almost always on the tips. There is significant sexual dimorphism in the canines, although not as much as any of the apes, while there is sexual dimorphism on the level of gorillas in the postcanine material. This pattern of big teeth seems to have been influenced by the africanus diet and chewing pattern. A. Walker and M. Wolpoff claim that the africanus chewing pattern is similar to modern hunter-gatherer groups, with the molars and premolars designed to last a lifetime of wear and tear (the oldest individuals dying at about the time they have no crowns left in their mouth - max age about 35). The diet of these South African hominids seems to have been seasonal, with emphasis on a frugivorous diet, with seeds and other hard objects being masticated.

There is a good sampling of africanus crania, allowing reasonably strong comments to be made on the materials affinities to other material. Some of the better-known specimens include STS 5 (Mrs. Ples), a 2.5 myr cranium of an adult male with a brain about 485 cc, STS 71, a 2.5 myr male partial cranium with an estimated 428 cc brain, STW 505, an individual with a brain estimated to have been 625 cc, and the type specimen of africanus, the Taung Child. The facial features of the africanus material are a mixture of more modern and archaic ones, with similarity to (and important differences between) the afarensis material. Some of these features (relative to afarensis) include:

• Retraction of the palate from a position in front of the face to under it.
  Forward shift of the zygomatic processes of the maxilla, the zygomatic bone, and the front of the masseter muscle, creating the zygomatic prominence.
• Expansion of the anterior part of the temporalis muscle.
• A broader nasal aperture.
• Anterior pillars extending above the canine roots, of variable expression creating thickened lateral nasal margins.
• Structural changes in the jaw related to expanding premolars and molars, as well as incisor and (especially) canine reduction and decreased emphasis on anterior loading.

Conclusions

The africanus material is seen as different things by different people. Some see this as a regional variation or subspecies of afarensis, some see it as two completely different species, and some consider the africanus material to be the descendants of afarensis. Another important question that has been, is, and will probably always be debated is the question of whether the africanus material represents two or more species, a sexually dimorphic species, or a very variable species (especially with regards to inter-era speculation). The accepted view seems to be that they deserve separate species status due to both their differences from the afarensis material and their geographic separation from them. However, a very important question in debate is whether or not this species contributed to the modern human lineage.

Bibliography

Abitbol, M.M. 1995. "Reconstruction of the STS 14 (Australopithcus africanus) pelvis" In American Journal of Physical Anthropology, vol. 96, pp. 143-158.

Aiello, L., and C. Dean. 1990. An Introduction to Human Evolutionary Anatomy. London: Academic Press.

Berger, L.R., and R.J. Clarke. 1995. "Eagle involvement of the Taung child fauna." In Journal of Human Evolution, vol. 29, pp. 275-299.

Broom, R. 1925. "Some notes on the Taungs skull." In Nature, vol. 115, pp. 569-571.

Broom, R. 1947. "Discovery of a new skull of the South African ape-man, Plesianthropus." In Nature, vol. 159, pp. 672.

Broom, R. and J.T. Robinson. 1949 "A new mandible of the ape-man Plesianthropus transvaalensis." In American Journal of Physical Anthropology, vo. 7, pp. 123-127.

Broom, R., J.T. Robinson, and G.W.H. Schepers. 1950. "Sterkfontein Ape-man Plesianthropus" In Memoirs of the Transvaal Museum, no. 4.

Clarke, R.J. 1996. "The genus Paranthropus: What's in a name?" In Contemporary Issues in Human Evolution., ed. by W.E. Meikle, F.C. Howell, and N.G. Jablonski, pp. ?-?. San Francisco: California Academy of Science.

Dart, R. 1925. "Australopithecus africanus. The man-ape of South Africa." In Nature, vol. 115, pp. 195-199.

Dart, R. 1967. Adventures with the Missing Link. Philadelphia: The Institutes Press.

Johanson, D., and B. Edgar. 1996. From Lucy to Language. New York: Simon and Schuster Editions.

Jones, S., R. Martin, and D. Pilbeam, eds. 1992. The Cambridge Encyclopedia of Human Evolution. Cambridge: Cambridge University Press.

McHenry, H. 1994. "Behavioral ecological implications of early hominid body size." In Journal of Human Evolution, vol. 27, pp. 77-87.

McHenry, H. 1998. "Body proportions in Australopithecus afarensis and A. africanus and the origin of the genus Homo." In Journal of Human Evolution, vol. 35, pp. 1-22.

Rak, Y. 1983. The Australopithecine face. New York: Academic Press.

Robinson, J.T. 1956. The Dentition of the Australopithecinae. Transvaal Museum Memoir No. 9, pp. 1-179.

Robinson, J.T. 1972. Early Hominid Posture and Locomotion. Chicago: University of Chicago Press.

Tobias, P.V. 1992. "New researches at Sterkfontein and Taung with a note on Piltdown and its relavence to the history of paleo-anthropology." In Transactions of the Royal Society of South Africa, vol. 48, pp. 1-14.

Wolpoff, M. 1999. Paleoanthropology. second edition. Boston: McGraw-Hill.