Халықаралық ғылыми-тәжірибелік конференция материалдары
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- RECENT SCIENTIFIC ANALYSES AT BOTAI AND ELSEWHERE
| Alan K. Outram
Professor of Archeology, Co-Director of the Center: "Human-Animal- Environment" University of Exeter, United Kingdom. WHAT CAUSED SPECIALISED EQUINE ECONOMY OF THE ENEOLITHIC OF NORTHERN KAZAKHSTAN AND WHAT WAS ITS LEGACY? THE IMPLICATIONS OF RECENT SCIENTIFIC ANALYSES AT BOTAI AND ELSEWHERE In recent years a considerable raft of new scientific techniques have been applied to help understand the economy and lifeways of the Botai people. These techniques have included next generation ancient genomics of horses, humans and dogs, isotopic analyses, lipid and proteomic residue analyses, AMS dating, geophysical and geochemical survey, archaeobotany and soil micromorphology, as well as new approaches to zooarchaeology. Our understanding of Botai has already been revolutionized by some of these techniques and others are likely to do the same in the near future. Furthermore, excavations in other regions of northern Kazakhstan have revealed sites with horse-dominated economies that require similar multiproxy analysis. This paper provides an overview of new information acquired in the last ten years and presents the author’s current view of how the horse economy of Botai functioned, why horse specialization occurred when it did and what the legacy of Eneolithic horse herders may have been. The paper concludes with a discussion of key lines of evidence that are still missing in relation to our complete understanding of the processes in play. Recent studies of the ancient genomics of both Botai horses and humans, discussed in greater detail in other papers presented at this conference, have fundamentally changed our understanding of the Botai phenomenon. Firstly, in relation to horse genetics, there is additional evidence for the domesticity of Botai horses in relation to coat colour. There is evidence of insertions associated with the leopard-spotting complex. When heterozygous in individuals this allele tends to result in patches of white and/or spotting, but when homozygous there tends to be a more uniformly white coat and the animal may suffer from congenital stationary night blindness. The 10 presence of leopard spotting amongst Botai horses implies a degree of human selection and husbandry. The selection may have been intentional to increase the number with a desirable coat colour, but husbandry might equally have removed causes for negative selection normally seen in the wild. Secondly, horse demographic profiles, in terms of changing effective populations, can be modelled over time from levels of genetic drift. Such a Bayesian demographic profile for horses shows a strongly negative trajectory from the last glacial maximum into the early Holocene, something that only reverses again after the spread of domestic horses in the last 5,000 years. The horse went extinct in North America, whilst in Eurasia it appears populations were also in severe decline and becoming more fragmented. Having been mixed hunter-gatherers through the Mesolithic and Neolithic, it seems almost inconceivable that, faced with plummeting horse populations, they would suddenly focus all their effort on hunting just that species whilst simultaneously becoming less mobile and settling in large villages. On the other hand, if their reaction to the problem was to domesticate the animal, breed it and control it, then this sudden change of lifestyle makes sense. However, having added yet more strong lines of evidence that Botai horses were domestic, this new work also shows that Botai horses were not the main genetic source for modern domestic horse stock. One obvious implication would be that there is a second, and more successful, centre for early horse domestication, and that second clade comes to dominate with only a limited amount of Botai admixture surviving by the Iron Age. In addition to having whole genomes for Botai horses we now also have three whole genomes for Botai humans, and indeed a series of other Eneolithic and Early Bronze Age peoples of the northern Central Asian steppe. These results are also surprising and significant. They show that the people of this region at this time were effectively a very late relict population that had changed very little over the thousands of years since the Palaeolithic and showed little sign of admixture from outside. There are a series of significant implications to this, but in relation to Botai it tells us something about the possible circumstances of horse domestication in that culture. Zeder (2012) laid out a number 11 of pathways to animal domestication: ‘commensal’, ‘prey’ and ‘direct’. Commensal is where an unintended close living association might eventual change into domesticity, with the dog being an oft cited example of this. Prey route is where the relationship with a common quarry changes over time (again potentially unintentionally) to involve more and more control. This is the most common form of domestication relating to food animals and one most frequently undertaken by peoples who were already plant agriculturalists, but still hunted animals. Directed pathway domestication implies a prior knowledge of what it is to domesticate an animal and the deliberate act of targeting a species to do that. Zeder cites horse as an example of the rare direct pathway and thus suggests that, as a relatively late example of a major domesticate, it was targeted by people with knowledge of the process themselves or through interaction with others, as suggested by Anthony and Brown (2011). However, in the specific case of the Botai, the genetics implies continuity of local hunter-gatherer populations with no evidence for outside contact that left any genetic mark. As such this would imply a prey route domestication by local hunter-gatherer populations. This is actually quite rare and its only clear parallel is reindeer domestication. Reindeer are also animals that were hunted by relict Palaeolithic- derived populations, but can also be ridden and milked. Indeed the close cosmological parallels between reindeer herders and hunters have been noted. One can envisage a very similar process at Botai by hunter-gatherers with similar ancestry, relating to animals that can perform similar functions. Whilst reindeer are common to the taiga, horses are common to the more southerly forest steppes. It now seems, when considering the human and horse ancient genomic data together, that there was a significant population replacement, dating to the middle Bronze Age, that saw peoples like the Botai and their local horse stock, eventually replaced by groups migrating from the West with their own horse. жүктеу/скачать 0,53 Mb. Достарыңызбен бөлісу:
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