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GPR versus Geoarchaeological Findings in a Complex Archaeological Site (Badia Pozzeveri, Italy)
Language
English
Obiettivo Specifico
7T. Struttura della Terra e geodinamica
Status
Published
JCR Journal
JCR Journal
Peer review journal
Yes
Title of the book
Issue/vol(year)
/24 (2017)
Pages (printed)
141 – 156
Issued date
2017
Abstract
The results of a Ground-penetrating radar (GPR) survey were compared with the archaeological excavation outcomes of
a twelfth century abbey site (Badia Pozzeveri). The goal was to associate the types of reflections recorded in GPR profiles
and high-amplitude features visible in amplitude maps with unearthed archaeological features. GPR profiles crossing
the walls evidenced axes of hyperbolic point source reflections and short planar reflections respectively generated
by the stones forming the lateral sides/upper corners and the top of the structure. Moreover, the stones in the core of the
wall caused small hyperbolic point source reflections with interfering axes, which produced a chaotic reflection profile.
The resampling and gridding of these reflections collectively generated high-amplitude linear features in the amplitude
maps. The presence in the graves of bones generates small hyperbolic point source reflections with interfering axes in
the GPR profile, with a consequently chaotic reflection profile. Moreover, the existence of lythic slabs topping and/or
siding the graves generates short planar reflections and axes of hyperbolic point source reflections. The resampling
and gridding of these types of reflections generates in the amplitude map features that cannot be locally distinguished
from those caused by the local aggregation of sediments with no archaeological relevance. The GPR profiles crossing
trenches and pit-kiln showed dipping reflectors unconformably resting on a basal planar reflector. Disconformity marks
the onset of trench and pit-kiln decommissioning with the infilling of clayey silty layers and anthropogenic remains.
These features in the amplitude maps correspond to medium to high-amplitude areas.
The results show that types of reflection can be associated to specific elements of archaeological structure for a
detailed interpretation of a complex subsurface setting. Furthermore, it is evidenced that the interpretation of GPR
profiles must be considered an indispensable pre-requisite for a full comprehension of amplitude maps
a twelfth century abbey site (Badia Pozzeveri). The goal was to associate the types of reflections recorded in GPR profiles
and high-amplitude features visible in amplitude maps with unearthed archaeological features. GPR profiles crossing
the walls evidenced axes of hyperbolic point source reflections and short planar reflections respectively generated
by the stones forming the lateral sides/upper corners and the top of the structure. Moreover, the stones in the core of the
wall caused small hyperbolic point source reflections with interfering axes, which produced a chaotic reflection profile.
The resampling and gridding of these reflections collectively generated high-amplitude linear features in the amplitude
maps. The presence in the graves of bones generates small hyperbolic point source reflections with interfering axes in
the GPR profile, with a consequently chaotic reflection profile. Moreover, the existence of lythic slabs topping and/or
siding the graves generates short planar reflections and axes of hyperbolic point source reflections. The resampling
and gridding of these types of reflections generates in the amplitude map features that cannot be locally distinguished
from those caused by the local aggregation of sediments with no archaeological relevance. The GPR profiles crossing
trenches and pit-kiln showed dipping reflectors unconformably resting on a basal planar reflector. Disconformity marks
the onset of trench and pit-kiln decommissioning with the infilling of clayey silty layers and anthropogenic remains.
These features in the amplitude maps correspond to medium to high-amplitude areas.
The results show that types of reflection can be associated to specific elements of archaeological structure for a
detailed interpretation of a complex subsurface setting. Furthermore, it is evidenced that the interpretation of GPR
profiles must be considered an indispensable pre-requisite for a full comprehension of amplitude maps
Sponsors
CA.RI.LU grant (2012-13): “New high resolution Georadar techniques for archeological contexts analysis” (Leader. A. Ribolini).
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article
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