Es ist ein Mädchen! Das "älteste" Baby stellt sich vor
Fund eines dreijährigen Australopithecus afarensis Kindes ermöglicht erstmals, Fragen zur frühen Evolution des Menschen zu beantworten
Vor 3,3 Millionen Jahren starb ein 3-jähriges Mädchen in der Region Dikika im heutigen Äthiopien. Sein fast vollständig erhaltenes Skelett gibt den Forschern nun einmalige Einblicke in unsere Vergangenheit. Das historische Alter des Skelettes und das biologische Alter des Kindes zum Todeszeitpunkt machen diesen Fund zu einem in der Geschichte der Paläoanthropologie einmaligen. Der von einem Forscherteam unter der Leitung von Zeresenay Alemseged vom Leipziger Max-Planck-Institut für evolutionäre Anthropologie in der Fachzeitschrift Nature (September 21, 2006) vorgestellte Fund wird substanziell dazu beitragen Gestalt, Körperbau, Verhalten, Fortbewegungs- und Entwicklungsmuster unserer frühen Vorfahren besser zu verstehen und viele neue Wege zur Erforschung der Kindheit unserer frühmenschlichen Vorfahren eröffnen.
The arid badlands of Ethiopia's Afar region have long been a favourite hunting ground for palaeoanthropologists. The area is perhaps best known for having yielded "Lucy," the 3.2 million-year-old skeleton of a human ancestor known as Australopithecus afarensis. Now researchers have unveiled another incredible find, from a site called Dikika, just four kilometres from where Lucy turned up.
The 3.3-million-year-old fossilised remains of a human-like child have been unearthed in Ethiopia's Dikika region.
The female bones are from the species Australopithecus afarensis, which is popularly known from the adult skeleton nicknamed "Lucy". Scientists are thrilled with the find, reported in the journal Nature. They believe the near-complete remains offer a remarkable opportunity to study growth and development in an important extinct human ancestor.
The last known refuge of the Neanderthals before they were driven to extinction by Modern Man and climate change has been traced to a cave in Gibraltar.
Our evolutionary cousin the Neanderthal may have survived in Europe much longer than previously thought. A study in Nature magazine suggests the species may have lived in Gorham's Cave on Gibraltar up to 24,000 years ago. The Neanderthal people were believed to have died out about 35,000 years ago, at a time when modern humans were advancing across the continent. The new evidence suggests they held on in Europe's deep south long after the arrival of Homo sapiens. The research team believes the Gibraltar Neanderthals may even have been the very last of their kind.
"It shows conclusively that Gorham's Cave today was the last place on the planet where we know Neanderthals lived" - lead author Professor Clive Finlayson, director of heritage at the Gibraltar Museum.
Evidence is emerging from Africa that colours were being used in a symbolic way perhaps 200,000 years ago, a UK scientist working in the region claims.
Lawrence Barham has been studying tools and other artefacts left by ancient humans at a site in Zambia. He says the range of mineral pigments, or ochres, found there hints at the use of paint, perhaps to mark the body. If correct, it would push back the earliest known example of abstract thinking by at least 100,000 years.
Located on the left bank of the Po Co River, in Sa Binh Commune, Sa Thay District, Kon Tum Province, Lung Leng, Vietnam used to be a small gold mine. It was excavated in 1999 and 2001 on an area of 11,500 square meters and is one of Vietnam’s biggest-ever archaeological excavations.
In the second excavation archaeologists found 20 relics with 14,552 stone objects, 224 pottery objects and 37 metal objects. 500 objects were sorted out into various collections of pottery, ornaments, Gong (cong chieng), alcohol jars, and ethnic costumes to be displayed in the HCM City Historical Museum. Many tools showing the indications of the Son Vi culture from the Palaeolithic age were found in the Central Highlands for the first time.
Neanderthals were much more like modern humans than had been previously thought, according to a re-examination of finds from one of the most famous palaeolithic sites in Europe by Bristol University archaeologist, Professor Joao Zilhao, and his French colleagues.
Professor Zilhao has been able to show that sophisticated artefacts such as decorated bone points and personal ornaments found in the Châtelperronian culture of France and Spain were genuinely associated with Neanderthals around 44,000 years ago, rather than acquired from modern humans who might have been living nearby. His findings are published in the Proceedings of the National Academy of Sciences (PNAS) USA. The site from which this Neanderthal culture derives its name is the Grotte de Fées at Châtelperron in Central France, first excavated in the 1840s. It has been one of the most important and controversial places to understand how modern humans that had previously moved out of Africa replaced the Neanderthals, often portrayed as more ‘primitive’. In the conventional interpretation of the rock strata of the site, the cave was thought to have evidence of both modern human and Neanderthal occupation in interleaved layers. The fact that Neanderthals came back to the site after modern humans had lived in it for quite some time would prove the long-term contemporaneity of the two groups, and validate the notion that the cultural novelties seen among the latest Neanderthals represented imitation or borrowing, not innovation.
Now archaeologists can show that the Grotte des Fées stratigraphic pattern is illusory because the supposedly Neandertal levels overlying those belonging to the modern human Aurignacian culture are in fact backdirt from nineteenth-century fossil hunting. According to Professor Zilhao and his team, this adds to the evidence from other sites in the region that the Neanderthals already had the capacity for symbolic thinking before the arrival of the modern humans into western Europe, which has been radiocarbon dated to around 40,000 years ago.
"This discovery, along with research on the rock strata at other cave sites, has huge implications for how we view the European Neanderthals and, more widely, human evolution. The differences between Neanderthals and modern humans may be much less than had been previously thought, suggesting that human cognition and symbolic thinking may date back to before the two sub-species split around 400,000 years ago" - Professor Joao Zilhao.
Fragments of ostrich eggs, perforated beads and finely shaped arrowheads have provided the first firm archaeological evidence for the 'out of Africa' origins of the world's human population. Scientists have found stark similarities in the ancient cultural artefacts made and used by Stone Age people who migrated out of Africa and into Asia more than 50,000 years ago. It is the first time that archaeologists have been able to link African and Indian artefacts so closely together even though they were discovered 3,000 miles apart - suggesting they were made by the same people, albeit of different generations. Until now the 'out of Africa' hypothesis has relied almost entirely on the analysis of human skeletal remains or on DNA studies. But a comparative study of Stone Age artefacts found in Africa and India, carried out by Professor Paul Mellars, a Cambridge University archaeologist, has revealed remarkable cultural and technological similarities that suggest a common origin. It is thought that anatomically modern humans crossed over from Africa to Asia by boat around 55,000 years ago, probably via the Bab el-Mandeb straits at the southern end of the Red Sea. The comparative study suggests a strong degree of cultural continuity during the presumably long human migration from Africa to Asia. The finds, which were discovered by various archaeologists over many years, come from southern and east Africa and from India and Sri Lanka. However it is the Cambridge University study which has for the first time demonstrated the similarities between the African and Asian material. Most of the African finds date from between 70,000 and 50,000 years ago, while the earliest Indian artefacts discovered so far are just 35,000 years old. Further research is expected to push the Indian dates back further.
"We have long suspected that the archaeological evidence for African migration to Asia must exist - and now we seem to have found it" - Professor Paul Mellars.
The finds, at Jwalapuram in south-east India and Batadomba-lena in Sri Lanka, show striking resemblances to those from eastern and southern Africa. They include small stone tools that may have been arrow- or spearheads, and carefully shaped and perforated beads manufactured from fragments of ostrich eggshell. A further piece of ostrich eggshell, incised with a distinctive criss-cross motif, has also been found. This would suggest that man could have crossed from Africa via only one dispersal route into Arabia. The migration route would have split at a later stage, perhaps in eastern Arabia or Iran. Archaeologists will need more evidence before they know where. Prehistorians already know that Homo sapiens left Africa between 50,000 and 60,000 years ago. Eventually, some of these people reached Europe, bringing stone tools with them. We also know there was a similar dispersal east. These people reached Australia, moving along the coast through Arabia, Asia and the Malay peninsula. The evidence from Australia consists of much simpler tools. Archaeologists presumed there were two separate dispersals, by distinct peoples harbouring different levels of technology. But this contradicts DNA analysis which has found such strong similarities in the genetic make-up of Eurasian peoples that it is difficult to see how they could have come from two or more separate sources. For the first time, Professor Mellars' study lends credence to that theory by giving it the hard, archaeological evidence it was missing. Now the argument is no longer one just based on the DNA of these people, but on their technology and behaviour as well. Professor Mellars believes the comparatively simple nature of the remains found in Australia can be explained by established patterns that show technology often devolves when humans are continually on the move.
"Up until now, it was felt that the tools found in Australia look so different from those found in Europe that they must have been carried by a separate dispersal. But what we are finding in Australia could actually be a simplified version of what you get in Africa and India - and Europe. If populations are constantly moving, you would expect some devolution and for the tools to get simpler" - Professor Paul Mellars.