* Astronomy

Fossils discovered in eastern Ethiopian desert are a missing link between our ape-man ancestors some 3.5 million years ago and more primitive hominids a million years older, according to a new study released on Wednesday.
The fossils are from the most primitive species of Australopithecus, known as Australopithecus anamensis, and date from about 4.1 million years ago, reported researchers from Ethiopia, Japan, France and the United States.
Australopithecus anamensis is intermediate between the two not only chronologically but also in terms of its anatomy.
The findings were published in an April 13 issue of the journal Nature.

More primitive hominids in the genus Ardipithecus date from between 4.4 million and 7 million years ago and were much more ape-like, though they walked on two legs.

"This new discovery closes the gap between the fully blown Australopithecines and earlier forms we call Ardipithecus. We now know where Australopithecus came from before 4 million years ago" - Tim White, lead author of the Nature paper and professor at the University of California, Berkley.

Professor Tim White of the University of California, Berkeley, and colleagues unearthed the cache of fossils in the Middle Awash region of Ethiopia.

Since the first Australopithecus skull was discovered in South Africa 82 years ago, fossils of this hominid have been found all over eastern Africa spanning a 3-million-year time period.
Seven separate species have been named, including the most primitive, Australopithecus anamensis, which dates from 4.2 million years ago, and Australopithecus africanus. The most specialised species, Australopithecus boisei, died out about 1.2 million years ago, long after the more human-like genus Homo had spread throughout the world.

On the other hand, Ardipithecus was discovered by White and his team in 1992. White and his team named the 4. 4 million-year-old fossils Ardipithecus ramidus. But the relationship between Australopithecus and Ardipithecus remained unclear, because of a million-year gap between these two genera.

"The fact anamensis is sandwiched between earlier and later hominids is what is really significant about this Ethiopian sequence" - Tim White.

The new fossil finds, jawbones and teeth from each of two localities, bridge that gap. With Ardipithecus in older rocks and Australopithecus afarensis in overlying rocks, the newly announced fossils are intermediate in time and anatomy.

The fossils represent at least eight individuals and include the largest hominid canine ever found, the earliest known Australopithecus thigh bone as well as hand and foot bones.
The excavation at Asa Issie also uncovered the remains of pigs, monkeys and big cats. The fauna suggest that anamensis was living in a closed, wooded habitat.
The teeth tell a story about the organism's diet. Australopithecus's large cheek teeth allowed it to subsist on a broader diet of tough, fibrous plants. The teeth of Ardipithecus were smaller, restricting it to a diet of softer, less abrasive food.

With its teeth, Australopithecus became a superior omnivore, able to eat tubers and roots with more fibre and grit, adapting it better to times of scarcity during periods of extended drought.

"They may have been small brained, but they stuck around a longtime, fully half of our zoological family's 6-million-year existence on the planet" - Tim White.

The researchers are cautious about claiming that the new fossils are closely related to the most recent member of the genus Ardipithecus, Ardipithecus ramidus, since the two are separated by only 300,000 years. But the fossils show clear descent from the genus Ardipithecus.

The fact that fossils of Ardipithecus ramidus, Australopithecus anamensis and Australopithecus afarensis have been found in successive sediment layers in the same area also indicates an evolutionary sequence.
Australopithecus afarensis was first recognised in the 1970s on the basis of the now famous "Lucy" skeleton from Hadar, Ethiopia, and footprints preserved in volcanic ash at Laetoli, Tanzania.

"It is fair to say that some species of Ardipithecus gave rise to Australopithecus" - Tim White.

One explanation is that one species simply evolved into the other - so-called phyletic evolution.
Another possibility is that Australopithecus first emerged as a side branch of Ardipithecus. Under this scheme the mother species would have lived alongside the daughter species for some period of time before the mother species died out.
But no overlap between any of the three species has been found in Ethiopia.

Tim White, Gen Suwa and Berhane Asfaw discovered the first Ardipithecus ramidus fossils in the 1990s.