The Quina flaking system is a relatively new Middle Palaeolithic lithic technocomplex recognized and studied until now only in Southwestern France. It has been argued that this technology was...Show moreThe Quina flaking system is a relatively new Middle Palaeolithic lithic technocomplex recognized and studied until now only in Southwestern France. It has been argued that this technology was developed by Neanderthal groups to cope with the decreasing global temperatures and the environmental changes of the last glaciation. The Quina system, until now, is largely unattested in North Europe, where the glacial climate was more pronounced. Why is a technology evolved for the survival in cold environments absent in regions particularly affected by the glaciation? The presence of this technology in the Northern fringes of the Neanderthals’ ecological niche might shed light on the reasons behind Neanderthals’ technological behaviour. It might further provide important clues for a better understanding of whether the variability in the Middle Palaeolithic archaeological record derives from cultural diversity or functional/technical necessities or other factors. This research identifies, through quantitative and qualitative analyses, and comparative studies of lithic materials, the technological traces of unretouched flakes from the site of Colmont-Ponderosa (South Limburg, the Netherlands). This study confirms that at some point during the last glaciation, the Neanderthal groups were users of the Quina technology. The presence of this technology in the North and at such a distance (around seven-hundred kilometers) from the closest certain Quina sites might be the result of techno-cultural convergence. But it might also indicate the point of origin of this technology, which was later dispersed to the Sout, when the environment became too harsh, or it might indicate a dispersal from the South to the North. To confirm this hypothesis a re-evaluation of other Northern assemblages is necessary: if the Quina technology is present at Colmont-Ponderosa, it could be present elsewhere, overlooked because of the relative novelty of the Quina technocomplex.Show less
Climate change has had an influence on hominin evolution for quite some time and led to several speciation and adaptation events. With the later hominin species climate change has less of an impact...Show moreClimate change has had an influence on hominin evolution for quite some time and led to several speciation and adaptation events. With the later hominin species climate change has less of an impact, and extinction theories for the Neanderthals tend to lean in other directions. Despite this, the role of climate change in the Neanderthal extinction is not clear. Older research tended to be focused on global climate records that might not be representative of the smaller climate differences across highly geographically diverse continents. This research provides an overview of local palaeoenvironmental reconstructions for the period of the Middle to Upper Palaeolithic transition in research from 2015-2021 and focuses on the different proxies and climate factors, the stability of the climate, the scale of the research performed, and the perceived influence of climate change on local Neanderthal extinctions. These will be compared per major region (Iberian Peninsula, Apennine Peninsula, Balkan Peninsula, and mid-latitude Europe) in order to determine if any patterns exist. The results show a diversity in the applied proxies and a general trend of deteriorating climate around the time of the Neanderthal extinction. The majority of the research concludes that climate change did not play a major role in the Neanderthal extinction. Despite this, there are some anomalous locations that do not agree with the general consensus this overview produced. Future research at these locations could provide information to nuance the current picture of climate change or corroborate the overall consensus.Show less
The Neanderthal extinction is not fully understood and there is no common consensus on the date of the demise of Neanderthals in Europe. In the Crimean peninsula, located in south-eastern Europe,...Show moreThe Neanderthal extinction is not fully understood and there is no common consensus on the date of the demise of Neanderthals in Europe. In the Crimean peninsula, located in south-eastern Europe, there is evidence for a longer persistence. This thesis investigates the late Neanderthal persistence on the Crimean peninsula. The foraging radius and the settlement patterns of the Crimean Micoquian and the Western Crimean Mousterian are discussed together with analysis of the known radiocarbon dates to gain understanding of the correlation between them. To test the hypothesis that the foraging radius impacted the longer persistence of Neanderthals populations, secondary literature has been analyzed regarding the environmental, lithic and faunal assemblages. The results show that the foraging radius is difficult to determine but it did not have a major influence on the persistence of Neanderthals in Crimea. The radiocarbon datings together with the environmental data concur with the later persistence of Neanderthal populations. Moreover, the Crimean Micoquian was highly adapted in Crimea and especially the mountainous region. The adaptation together with the seasonal movement of prey led to more interaction between Neanderthal populations, which resulted in a potentially higher fitness. This needs to be tested in future research by, for example, the extraction of aDNA from samples of soil of Late Middle Palaeolithic sites. The limitations with this method of testing are the lack of Neanderthal fossils dating to this late period and the presence of palimpsest in many of the Late Middle Palaeolithic sites. Additionally, Russian and Ukrainian literature from previous excavations needs to be translated and re-evaluated to gain more knowledge about the Crimean Middle Palaeolithic as a whole.Show less
In 2011 Clarkson and Hiscock (2011) presented several regression models for flakes with different platform types used to estimate original flake mass based on platform surface area and external...Show moreIn 2011 Clarkson and Hiscock (2011) presented several regression models for flakes with different platform types used to estimate original flake mass based on platform surface area and external platform angle in order to measure reduction intensity on lithic tools. In addition to subsampling and adding external platform surface area, Clarkson and Hiscock increased the accuracy of the regression models by using a 3D laser scanner to measure platform surface area. Most previous studies multiplied platform width and thickness as an estimate of platform surface area. In this thesis, the regression models created by Clarkson and Hiscock were tested on an archaeological sample from Colmont-Ponderosa, a Middle Palaeolithic site in Limburg, the Netherlands. Instead of a 3D laser scanner, photogrammetry was used to create 3D models. It was found that Clarkson and Hiscock’s models are not applicable on the Colmont-Ponderosa sample. New models were created using the same procedure as Clarkson and Hiscock. In addition to platform type subgroups, flake shape subgroups were made. Creating subsamples based on platform type did not influence the correlation between mass and platform surface area. Subsampling based on flake shape resulted in slightly increased correlation, probably because broader flakes have a higher mass to platform surface area than other flakes. Even though a positive linear correlation between external platform angle and mass was found, this variable was not very influential on the final regression models. It was concluded that the newly created regression models are much better at predicting original flake mass for the Colmont-Ponderosa sample. Mass predictions of individual flakes are still not very accurate, which might result in faulty results when introducing new data.Show less
The research examines Neanderthal fossil sites containing more than one individual and investigates the existence of Neanderthal mortuary spaces, a place associated with death, among them. An...Show moreThe research examines Neanderthal fossil sites containing more than one individual and investigates the existence of Neanderthal mortuary spaces, a place associated with death, among them. An overview of Neanderthal fossil sites with respect to the number of individuals indicates that almost 50% contains more than one individuals. The ones with more than five individuals are studied in detail concerning the main features of mortuary space: multiple burial, spatial organization and temporal restriction. At least three sites (La Ferrassie, Shanidar and Amud) appear to be mortuary spaces. On these sites multiple burial and spatial organization are evident but temporal restriction is hard to detect in the existing documentation. No general patterns were detected but traditions within sites are clear. Local natural elements are highly involved in burial structures and in spatial organization, indicating creative landscape use, which could account for the locality of traditions. The existence of mortuary space suggests modernity in Neanderthals behaviour. It also implies that mortuary behaviour emerged gradually and existed in elaborate ways in other species than ours.Show less