Europes Lost Frontiers 2017 .pdf (original) (raw)
Related papers
Estimations of population density, which consider regional variability, are an important key variable in archaeology as they have consequences not only for the environmental but also for the economical and social domains. In this paper, a ten-step procedure of a consistent group of methods is described which deals with the data required for estimations of population density at different scale levels (from excavation to large-scale distribution maps). For distribution maps, a method is presented by which densities of sites are displayed using optimal isolines. These demarcate so called 'settlement areas' at scales of between 1:25,000 and 1:2.5 million. Our knowledge of the density of households from key areas with the most complete archaeological records is upscaled for the regions within these isolines. The results of this procedure are estimations of population density for the early Neolithic (Bandkeramik, 51st century BC) and the Roman period (2nd century AD) for regions with some 10,000 km². A simple statistical/graphical method is developed to analyse the relationship between settlement areas, soils, and precipitation. Taking into account the aspects of preservation of sites and the intensity of archaeological observations, an analysis of patterns of land use shows that in prehistory not all areas suitable for use were in fact incorporated into settlement areas. For prehistory, the idea of a most optimised use of land up to its carrying capacity (as it has been proposed for at least 50 years) can be falsified for specific areas. A large number of empty regions with good ecological conditions but lacking in settlement activity can be discussed as resulting from culture historical processes. As an example, the separation of areas inhabited by groups of different identities is discussed. The amount of used space (in terms of 'settlement area') however, increases from the early Neolithic to the 4th century BC from 5% to more than 40% . The increase between the Neolithic and the Iron Age is understood in terms of technological developments in farming systems. The percentage of areas with suitable conditions actually utilised between the Bandkeramik and Iron Age increases from 31.1% to 67.5% in the area covered by the Geschichtlicher Atlas der Rheinlande, and is much higher still in the Roman period (84.3%). State societies seem to use the land more efficiently compared to non-state systems. This is becoming even clearer on consideration of the intensity of human impact.
Europe before and after the last Ice Age
Topic 1: Monday (sept. 23): Besiedlung Europas vor und nach der Eiszeit mit besonderer Berücksichtigung der europäischen Völker aus linguistischer, archäologischer und genetischer Sicht. (Ethnogenesis in Europe before and after the Ice Age with special reference to linguistics, archaeology and genetics) 45 Minuten
HERCULES: Studying long-term changes in Europe’s landscapes
Analecta Prehistorica Leidensia
This paper presents the outlines of a new EU-funded research program for the long-term history, present-day management and further development of the European landscapes, including their natural and cultural heritage: HERCULES. One of the subprojects of this program (Work Package 2) links archaeological, historical and historical ecological data to the analysis of geo-information in order to develop models of long-term landscape change in three carefully chosen study regions in the Netherlands, Sweden and Estonia. This is framed theoretically by integrating insights from landscape biography, historical ecology and complex systems theory. The linking and analysis of data will be done using a Spatial Data Infrastructure and by means of dynamic modelling.
Landscape Archaeology in Central Europe
Proceedings of the Prehistoric Society, 2009
Estimations of population density, which consider regional variability, are an important key variable in archaeology as they have consequences not only for the environmental but also for the economical and social domains. In this paper, a ten-step procedure of a consistent group of methods is described which deals with the data required for estimations of population density at different scale levels (from excavation to large-scale distribution maps). For distribution maps, a method is presented by which densities of sites are displayed using optimal isolines. These demarcate so called ‘settlement areas’ at scales of between 1:25,000 and 1:2.5 million. Our knowledge of the density of households from key areas with the most complete archaeological records is upscaled for the regions within these isolines. The results of this procedure are estimations of population density for the early Neolithic (Bandkeramik, 51st century BC) and the Roman period (2nd century AD) for regions with some...