 The northern region of Malta is experiencing lateral spreading landslides due to its unique geologic composition. A hard coral and limestone layer sits atop a thick layer of clay, creating a geographic configuration that makes the coastline unstable. As a result, coastal retreat occurs along the cliff face, resulting in rockfalls and toppling. To better understand the process, a 3D digital model of the Selman Promontory was created using unmanned aerial vehicle, UAV, photogrammetry. Geophysical measurements, including electrical resistivity, tomography and ground penetrating radar, were also conducted to identify and map vertical fractures affecting the hard coral and limestone plateau. High resolution orthophotos taken between 1957 and 2021 were geo-referenced into a GIS and compared to aerial and satellite images. Movement and evolution of boulders and cracks and rocks were then vectorized to highlight, track and quantify the phenomenon over time. The results were used to derive a qualitative assessment of the coastal variations in the geometric properties of the exposed discontinue. This article was authored by Emanuele Calica, Luciano Galón, Sebastiano D'Amico, and others.