Applying close range non‐destructive techniques for the detection of conservation problems in rock‐carved cultural heritage sites

Abstract

Rock‐carved cultural heritage sites are often developed in slopes formed by weak rocks, which due to their peculiar lithological, geotechnical, and morpho‐structural features are characterized by excellent carvability, which at the same time makes them prone to weathering, deterioration, and slope instability issues. In this context the use of advanced close‐range nondestructive techniques, such as Infrared Thermography (IRT) and Unmanned Aerial vehiclebased Digital Photogrammetry (UAV‐DP) can be profitably used for the rapid detection of conservation issues (e.g., open fractures, unstable ledges‐niches, water seepage and moisture) that can lead to slope instability phenomena. These techniques, when combined with traditional methods (e.g., field surveys, laboratory analysis), can provide fundamental data (such as 3D maps of the kinematic mechanisms) to implement a site‐specific and interdisciplinary approach for the sustainable protection and conservation of such fragile cultural heritage sites. In this paper some examples of conservation problems in several rupestrian sites characterized by different geological contexts, from the mountainous regions of Georgia to the ancient city of Petra in Jordan, are presented, with the aim of evaluating the potential of the proposed integrated approach. The final aim is to provide conservators, practitioners, and local authorities with a useful, versatile, and lowcost methodology, to be profitably used in the protection and conservation strategies of rock‐carved sites.