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Manot is a karstic cave in the North of Israel, very close to the Lebanese border. The first excavations began in 2010 and are continued up to day. Countless archaeological objects were discovered which document the peopling of the cave since more than 100,000 years. Around 30,000 years ago, the roof of the cave collapsed and sealed the archaeological layers until the 21st century. Beside stone tools and animal bones, some few human remains were preserved. The most spectacular finding was made on an elevated shelf within a small chamber of the cave: a very well preserved "calotte", hence the upper part of a braincase. The facial bones which contain a lot of diagnostic traits for paleoanthropologists, were, however, missing.
"Virtual Anthropology" allows identification
The traditional methods of anthropology permit to draw only a coarse picture with regard to classification if it comes to a partial braincase which features mainly smooth curvatures. By means of methods that were developed at the University of Vienna in the last 15 years it is now possible to come to much stronger statements. This "Virtual Anthropology" uses sophisticated mathematical-statistical procedures to analyse 3D data from objects. Professor Gerhard Weber from the Department of Anthropology at the University of Vienna was thus invited by the Israeli colleagues to participate. Together with his former Ph.D. student Dr. Philipp Gunz, who now works at the Max Planck Institute Leipzig, they examined carefully computer-tomographic images of the calotte. In doing so, numerous measuring points in a dense array were located on the virtual representation of Manot and on several hundreds of other braincases to capture differences and similarities. Weber states: "The shape analysis shows very clearly that Manot was a modern human. It is interesting that the most similar skulls in our sample come from recent Africans on the one hand, and on the other hand from those modern humans that lived in Europe between 20-30,000 years ago as, for instance, Mlade? 1 or P?edmostí 4 from the Czech Republic".
Absolute dating proves old age
The morphological results alone would be, however, not enough for a sensation. The Manot people could have been modern humans that later re-migrated from Europe back into the Levant. Luckily, the conditions in the flowstone-cave lead to the accumulation of several thin layers of calcite on the inner and outer surface of the skull fragment. These can be reliably dated with the uranium-thorium method. The Israeli colleagues documented an age of approximately 55,000 years. Manot is thus 10,000 years older than any modern human found in Europe, and about 5-10,000 years younger than the point when geneticists predict the appearance of our direct ancestors in Africa.
The Levant as crossing point of migration
One of the logical migration routes from Africa to Europe leads through the Levantine corridor. The age and the morphology of Manot suggest that the first modern humans took this route. At the same time, they had opportunity to meet Neandertals which occupied the Levant in this time but could never expand further south. Genetic results indicate that recent humans carry between 1-4% of Neandertal genes in their genome. So far it was speculated that admixture could have happened in Europe. Manot is changing this picture. It is likely that interbreeding happened already earlier on the way of the first modern humans through the Levant.
"This skull remain at Manot", Weber summarises "is exactly what we anthropologists have looked for since decades. It connects perfectly in space and time those separated parts of human history that we have known". But Manot is not only a fluke for our knowledge about human evolution. It also lead to a very successful scientific collaboration between Israeli and Austrian, respectively German, institutions. Further projects and increased exchange of know-how are on the way.
Levantine cranium from Manot Cave (Israel) foreshadows the first European modern humans. Hershkovitz, I., Marder, O., Ayalon, A., Boaretto, E., Caracuta, V., Alex, B., Frumkin, A., Goder-Goldberger, M., Gunz, P., Holloway, R., Latimer, B., Lavi, R., Matthews, A., Sloan, V., Bar-Yosef Mayer, D., Berna, F., Bar-Oz, G., May, H., Hans, M., Weber, G.W., Barzilai, O., 2015
Nature, 29th of January 2015, DOI: 10.1038/nature14134.