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Emptyscapes: filling an ‘empty’ Mediterranean landscape at Rusellae, Italy

Published online by Cambridge University Press:  20 September 2017

Stefano Campana*
Affiliation:
Ancient Topography, Landscape Archaeology & Remote Sensing Laboratory, Department of History and Cultural Heritage, University of Siena, Via Roma 56, 53100 Siena, Italy (Email: campana@unisi.it)
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Abstract

The Emptyscapes project is an interdisciplinary programme designed to stimulate new developments in Italian landscape archaeology. It achieves this through the integration of traditional approaches with multidisciplinary studies, to which are added the relatively new techniques of large-scale geophysical survey, airborne laser scanning and geo-environmental analysis. The effectiveness of such an approach has been borne out by results from central Italy. These show that the underlying ‘archaeological continuum’ can be detected even in an area where archaeological evidence was previously thought to be absent.

Information

Type
Research
Copyright
Copyright © Antiquity Publications Ltd, 2017 
Figure 0

Figure 1. Location of the Rusellae and Veii study areas and other relevant sites in central Italy. The administrative regions of Tuscany and Lazio are delineated in dark grey.

Figure 1

Figure 2. Diachronic distribution map of the Rusellae area at a scale of 1:100000, showing the results of three decades of archaeological survey and mapping (yellow dots) and the main central places (red dots). The area within the trapezoid outline of the Emptyscapes study area has been systematically field-walked. The extent of Lake Prile, which gradually shrank from the first millennium BC until the end of the Middle Ages, is shown in solid colour.

Figure 2

Figure 3. Distribution map of the north-eastern end of the sample transect at a scale of 1:10000, showing sites detected by ‘traditional’ archaeological survey methods.

Figure 3

Figure 4. Map of the Rusellae study area (at a scale of 1:100000) summarising (in dark grey) the present extent of large-scale contiguous geophysical survey within the trapezoid sample transect. Lowland areas are shown in white and higher elevations are shown in increasingly dark shades of grey.

Figure 4

Figure 5. Overlapping of the site distribution (from Figure 3) and archaeological mapping of magnetic measurements (Mag), as well as oblique (oAP) and vertical (vAP) aerial photography. Scale: 1:6000.

Figure 5

Figure 6. Geophysical data from the north-eastern part of the sample transect. Top) view of the surveyed area looking east; middle layer) detail of the surface of the area under investigation, showing the total absence of artefact scatters or any other evidence of the funerary landscape detected by magnetic measurements; bottom left) detail of the magnetic map showing the features interpreted as a possible mausoleum; bottom right) map of the magnetic data survey showing the ring-ditches and square anomalies interpreted as part of a major funerary landscape. The conjectured mausoleum appears at small scale in the bottom left of the map.

Figure 6

Figure 7. The double-ditched enclosure alongside the river Salica. Bottom left) view of the surveyed area looking north showing the magnetic data; bottom right) ground-level view of the site with elevated landscape topography visible in the background; bottom right mapping of the archaeological and geomorphological features including the double-ditched enclosure and its internal features along with the geomorphology and road and field systems of the surrounding landscape.

Figure 7

Figure 8. Ditched settlements within the Rusellae sample transect. Top left) Brancalete, close to Aiali, blue and green polygons showing evidence of the mound and ditched area; top right) circular settlement also near Aiali, green circular polygons showing evidence of the ditches; bottom) archaeological features identified from the magnetic data and aerial photographs, superimposed on the cadastral map of 1817–1830. The field patterns in the cadastral map appear to have almost no connection with the patterns identified in the magnetic data.

Figure 8

Figure 9. The double-ditched settlement alongside the river Salica. Top) total density plot of surface artefacts in sherds per grid cell collected during field-walking and the borehole survey transect. Bottom) distribution of artefact scatters across time, from Late Antiquity to the early tenth to the early or mid twelfth century AD.

Figure 9

Figure 10. The south-western area of the sample transect, with yellow dots marking the results of the ‘traditional’ archaeological investigation, superimposed on interpreted remote sensing and GIS data. Top left) close-up of the buildings of the Roman complex (1, 2 and 3), a medieval feature (4), a double-ditched medieval enclosure (5), the ancient field system (6), which matches the orientation of Roman buildings (2) and (3), and a major road (7).