Okladnikov Cave

From Wikipedia, the free encyclopedia

Okladnikov Cave
Пещера Окладникова
Бол. сибирячихинская пещера.JPG
Entrance to the cave
Okladnikov Cave is located in Altai Krai
Okladnikov Cave
Location in Russia
Alternative nameSibiryachikha
LocationSoloneshensky District, Altai Krai, Russia
RegionAnuy Basin, Altai-Sayan region
Coordinates51°40′N 84°20′E / 51.667°N 84.333°E / 51.667; 84.333Coordinates: 51°40′N 84°20′E / 51.667°N 84.333°E / 51.667; 84.333
Altitude350 or 650 m (1,148 or 2,133 ft)[1][2]
Typelimestone cave
Length35 metres (115 ft)
History
Foundedca. 45,000 BP
Abandonedca. 38,000 BP
PeriodsPaleolithic
CulturesMousterian
Associated withNeanderthals
Site notes
Excavation dates1984-1987

Okladnikov Cave (Russian: пещера Окладникова) is a paleoanthropological site located in the foothills of the Altai Mountains in Soloneshensky District, Altai Krai in southern Siberia, Russia. The cave faces south and is located on a Devonian karst escarpment, lying about 14 metres (46 ft) above the left bank of the Sibiryachikha River valley below; the river itself is a tributary of the Anuy River.[2][3]

Okladnikov Cave is one of the most extensively studied Paleolithic sites in the Altai-Sayan region. A rich Mousterian stone industry, dating to between 33,000 and 44,000 years ago, was discovered, as well as several highly fragmented hominin fossils. Along with a few other Neanderthal sites in the Altai-Sayan region, Okladnikov Cave contains fossil evidence for the most easterly confirmed site with Neanderthal presence.

Background[]

As viewed from Sibiryachikha

The cave was originally named after a nearby village, Sibiryachikha, located 1 kilometre (0.62 mi) away. The cave was renamed by Anatoly P. Derevianko in honor of Alexey Okladnikov.[2] Okladnikov Cave was first excavated in 1984.[2] The cave is one of several Paleolithic sites located in the Anuy Basin, along with Denisova Cave, Ust-Karakol, Kamminaya Cave, Isrkra Cave, Karama and Anuy I-III.[4]

Palynological evidence suggest that, like today, the surrounding area during the time associated with Paleolithic hominin finds was composed primarily of dry forest steppe,[3] albeit in a slightly colder and more humid context.[5]

Description[]

Situated around 50 km (31 mi) north of Denisova Cave, Okladnikov Cave is actually a complex of interconnected cavities: the cave consists of an overhang, an entrance stone bench that is 8 m (26 ft) wide, 2 m (6.6 ft) high and 4.2 m (13.78 ft) deep; and five corridors (galleries). The narrow cave extends into the hill for about 35 m (115 ft). Its entrance faces south at 14 m (46 ft) above the river. Just one hundred meters away is an animal cave, dubbed Sibiryachikha VI, in which an as yet unclassified child’s humerus was found in 1985. Researchers suggested that this cave would have served better for human use than the actual Okladnikov Cave, although they found no traces of human occupation.[2]

Archaeology[]

Stratigraphy[]

Archaeologists have identified seven archaeological layers at Okladnikov Cave.[2]

Artefacts[]

Nearly 4000 lithic tools have been recovered from Okladnikov Cave.[2] Mousterian artefacts are found throughout all seven layers.[3] The tool assemblage consisted mostly of scrapers and scraper-knives.[5] Around a quarter of the tools at Okladnikov Cave were made from jasperoids, while around 5% were made from hornstones.[5]

The lithic industry at Okladnikov Cave shares most similarities with another site in the Altai-Sayan region, Chagyrskaya Cave, and are rather distinct from other Altai sites.[5] However, unlike at Chagyrskaya Cave, Levallois-type tools are uniquely found at Okladnikov Cave.[5] Both sites contain a great number of Neanderthal/Mousterian stone tools.[6] The lithic culture was initially referred to as the Altai Mousterian; nowadays, the culture is more commonly referred to as the Sibiryachikha culture[5][6] or the Sibiryachikha variant.[4]

Fauna[]

Over 6000 animal fossil elements were discovered at the cave, representing at least 20 different species. The remains of marmot, gray wolf, red fox, bear, horse, cave hyena, woolly rhinoceros, reindeer, steppe bison, red deer, Siberian ibex and argali sheep were commonly found inside the cave, with a heavy presence of cave hyena and woolly rhinoceros remains.[2][3] Some beaver, Panthera spelaea and red wolf remains were also discovered.[2]

The heavy presence of cave hyena remains indicate that the cave was most likely intermittently shared between cave hyenas and hominins.[2]

Diet[]

Comparative studies on diet show that Neanderthals from the Altai-Sayan region lived in a manner similar to that of late European Neanderthals. Both show signs of being specialized hunters who were likely dependent on the subsistence hunting of large herbivores.[7]

Hominin fossils[]

168 hominin fossil elements were discovered at the cave, with the majority coming from adults.[2] The hominin remains include five teeth and nine cranial fragments, most likely representing at least four distinct individuals.[6] Archaeologists had long suspected that the fossil hominin remains belonged to Neanderthals; however, some had argued that the remains belonged to humans with mixed Homo erectus traits.[8] Rather fragmented and consequently hard to classify, morphological comparisons with Neanderthals did not produce definitively convincing results.[8] This question was resolved through the successful application of DNA testing to some of the hominin fossil remains.[8]

Samples[]

Dating information was directly obtained from several hominin fossil elements at Okladnikov Cave (Source:[9]).

Lab number Material Normalized Age Locality
KIA-27010 Neanderthal adult humerus 24260 ± 180 Sibiryachikha
RIDDL-719 Neanderthal adult humerus 37750 ± 750 Sibiryachikha
RIDDL-721 sub adult neanderthal 32400 ± 500 Sibiryachikha
RIDDL-722 sub adult neanderthal 43300 ± 1500 Sibiryachikha
RIDDL-720 sub adult neanderthal 40700 ± 1100 Sibiryachikha
SOAN-2459 sub adult neanderthal 28470 ± 1250 Sibiryachikha
SOAN-2458 sub adult neanderthal 16210 ± 0 Sibiryachikha
RIDDL-718 bone 33500 ± 700 Sibiryachikha

Archaeogenetics[]

In 2007, researchers from the Max Planck Institute for Evolutionary Anthropology succeeded in extracting DNA from two fossil hominin fragments from Okladnikov Cave: the humeral diaphysis of a juvenile and a separate femur fragment.[8][6] mtDNA sequencing confirmed that both fragments most likely belonged the same individual, dubbed Okladnikov 2.[6][8][10] The mtDNA sequences of the HVR I (hypervariable region I) from Okladnikov 2 confirmed that the individual was Neanderthal.[6][8] On the basis of mtDNA analysis, Okladnikov 2 was found to be more related to European and western Asian Neanderthals.[8] A 2014 re-analysis teasing out ancient DNA from contaminated sequences allowed researchers to complete the mtDNA sequence from Okladnikov 2. The completed sequence shows that the Okladnikov 2 mtDNA is basal to that sequenced from Mezmaiskaya 1 from Mezmaiskaya Cave and is even closer to western Neanderthals than previously thought.[10]

Implications[]

DNA extracted from skeletal remains has shown that Altai Neanderthals (closely related to Neanderthals found in western Europe) roamed some 2000 kilometres further east than previously thought.[11]

The local habitat was rich in mammalian resources, allowing the Altai Neanderthals to permanently settle in the foothills of the Altai Mountains by at least 300,000 years ago. The Altai Neanderthals appeared to have chosen occupational sites primarily based on their strategic locations close to rivers and within valleys, locations ideal for hunting prey. During the early to middle Late Pleistocene, the broader region in general was most likely composed of forest and forest tundra, based on a mix of conifer and some broad-leaved trees. Under these conditions, the Altai-Sayan region provided the early hominin inhabitants with a very appealing environment.[11]

References[]

Citations[]

  1. ^ Anatoly P. Derevianko; Alexander V. Postnov; Eugeny P. Rybin; Yaroslav V. Kuzmin; Susan G. Keates (2007). "The Pleistocene peopling of Siberia: A review of environmental and behavioural aspects". Bulletin of the Indo-Pacific Prehistory Association. 25: 57–68. Archived from the original on 25 December 2016. Retrieved 18 March 2018.
  2. ^ a b c d e f g h i j k Turner 2013.
  3. ^ a b c d Peregrine 2001.
  4. ^ a b Zwyns 2014.
  5. ^ a b c d e f Derevianko 2013.
  6. ^ a b c d e f Viola 2013.
  7. ^ Dobrovolskaya 2013.
  8. ^ a b c d e f g Krause 2007.
  9. ^ CARD.
  10. ^ a b Skoglund 2014.
  11. ^ a b Derevianko 2007.

Bibliography[]

Retrieved from ""