Obi-Rakhmat Grotto
M. M. Gerasimov , H. K. Nasretdinov |
The Obi-Rakhmat Grotto is a
Excavations
The Obi-Rakhmat Grotto was discovered in 1962 by a team from the Institute of History and Archaeology of Uzbekistan, headed by A. R. Mukhamedzhanov. Initial excavations were carried out under the supervision of
Stratigraphy
The cave is 9 m (30 ft) long, 20 m (66 ft) wide at the entrance and 11.8 m (38.71 ft) high and sitting at an elevation of 1,250 m (4,100 ft),[2]
The sequence of deposits has a depth of about 10 m (33 ft) and divides into 22
suggest prolonged Neanderthal occupation.- Artefacts: core-burins on large flakes, unidirectional blade and flake cores, (mostly retouched blades and retouched pointed blades, while other common types include burins, atypical end scrapers, sidescrapers (grattoir de côté) and Mousterian points) and Levallois forms. The Levallois forms are concentrated in the basal layers, especially stratum 19. The principal raw material is local petrified limestone.
Obi-Rakhmat's tool industry differs in only minor ways from the classic and elongated Levallois points of Kara-Bom. Obi-Rakhmat's finds share features of both the late Middle Paleolithic and the early Upper Paleolithic artifacts of Southwest Asia and the Altai Mountains. It appears that the Upper Paleolithic in the Altai emerged from a local Middle Paleolithic culture established in the area around 100,000 to 50,000 years ago. Based on material of the most recent excavations from 2007 to 2009 there is reason to assume that the Obi-Rakhmat lithic artefacts represent a transitional Middle-to-Upper Paleolithic industry.[3]
Stratum 19 seems to represent a series of exceptionally intensive occupational episodes because of the high density of finds and the presence of charcoal, burnt bones and artefacts.[2][1]
Chronology
(
Parts of the sequence is beyond the limit of sensitivity of the C14 dating method. However layer 9, dated to 42,100 years BP is well within the limit. Possibly, the age of layer 14.1 (48,800 years BP) may be a minimal estimate, but more study is necessary to precisely determine the age. The true age of layer 14 at Obi-Rakhmat site is still open to discussion.[3][4]
Fauna
The faunal assemblage is dominated by the
Evidence of human modification of the bones including cut marks, conchoidal impact, scars and burning, is consistently present. The lithic artefacts and faunal remains recovered at Obi-Rakhmat suggest that the site was repeatedly used by hominins as a short-term hunting and butchery station.[2]
Hominin remains
OR 1
In 2003, hominin remains were recovered from stratum 16. They consist of 6 isolated permanent upper teeth and 121 cranial fragments from a single juvenile.[5]
Morphology
Six isolated permanent teeth were found. They consisted of an upper lateral incisor, upper third premolar, upper fourth premolar, upper first molar, and an upper second molar, as well as 121 cranial fragments. All of the teeth found had complete crowns with developed roots. The varying size of the roots in each tooth make it difficult to determine if they are damaged, or the length they are because of development. It was determined that all of the pieces belonged to a 9-12-year-old juvenile. The sex of this particular fossil remains unknown. The teeth found have Neanderthal features, as some of them show Taurodontism, which is primarily found in the Neanderthal morphology. Studies of the pieces of cranium found are more ambiguous and harder to link to Neanderthals. The Parietal bone has a stronger likeness to anatomically modern humans, while other bones of the skull can be linked to Neanderthal craniums. Most researchers believe that this particular fossil is a Neanderthal because of the analysis of its dentition.
The Obi-Rakhmat fossil expresses a relatively Neanderthal-like dentition coupled with more ambiguous cranial anatomy (e.g., its parietal size and aspects of the external surface of its temporal) that does not conform to existing descriptions of sub-adult Neanderthals. It represents an individual of roughly 9 to 12 years of age at death, estimated from the examination of relative root development and degree of dental wear.[5]
The sub-adult bone yielded non-calibrated dates ranging from 29,990 ± 500 years BP to 37,800 ± 450 years BP.[6] To date, the best chronological estimate for the hominid remains from Obi-Rakhmat is ca. 60,000 to 90,000 years BP [5] and 70,000 years BP.[7]
DNA analysis
The
See also
References
- ^ a b Andrei I. Krivoshapkin and P. Jeffrey Brantingham, The Lithic Industry of Obi-Rakhmat Grotto, Uzbekistan "The Lithic Industry of Obi-Rakhmat Grotto, Uzbekistan" (PDF). Archived from the original (PDF) on April 22, 2006.. In: Actes du XIV Congres UISPP, 2–8 septembre 2001. BAR International 1240: 203-214
- ^ a b c Carolina Mallol, Susan M. Mentzer and Patrick J. Wrinn, A Micromorphological and Mineralogical Study of Site Formation Processes at the Late Pleistocene Site of Obi-Rakhmat, Uzbekistan"ineralogical Study of Site Formation Processes at the Late Pleistocene Site of Obi-Rakhmat".. Geoarchaeology: An International Journal, Vol. 24, No. 5, 548–575 (2009). Published online in Wiley Interscience (www.interscience.wiley.com). DOI:10.1002/gea.20280
- ^ a b c Andrei I Krivoshapkin, Yaroslav V Kuzmin, A J Timothy Jull, Chronology of the Obi-Rakhmat Grotto (Uzbekistan): First Results on the Dating and Problems of the Paleolithic Key Site in Central Asia "First Results on the Dating and Problems of the Paleolithic Key Site in Central Asia".. Proceedings of the 20th International Radiocarbon Conference, edited by A J T Jull. RADIOCARBON, Vol 52, Nr 2–3, 2010, p 549–554
- ^ Andrei I Krivoshapkin, Yaroslav V Kuzmin, A J Timothy Jull, Chronology of the Obi-Rakhmat Grotto (Uzbekistan): First Results on the Dating and Problems of the Paleolithic Key Site in Central Asia. Proceedings of the 20th International Radiocarbon Conference, edited by A J T Jull. RADIOCARBON, Vol 52, Nr 2–3, 2010, p 549–554. p 553]
- ^ PMID 18499228.. Journal of Human Evolution 55 (2008) 223–237. doi:10.1016/j.jhevol.2007.12.007 "New hominin remains from Uzbekistan". for free
- ^ S2CID 2084412.
- .. Proceedings of the 7th International Symposium on EPR Dosimetry and Applications and the 2nd International Conference on Biodosimetry. Radiation Measurements; Volume 42, Issues 6–7, July–August 2007, Pages 1237–1242