High mountain regions often face a multitude of natural hazards, the combined effects of which, known as "cascading hazards", can have serious consequences for infrastructure and urban areas.

However, there is a lack of tools to prevent and quantify these complex risks. That's why researchers across several countries have collaborated to develop an innovative way to calculate rockfall risk over large areas of very high mountains affected by high seismic activity. The major challenge of this work? Quantify these risks^[1] in a detailed and exhaustive manner.

This new method addresses this challenge in an innovative way, taking into account a wide range of exposed assets (people, dwellings, flowing vehicles, lifelines) and considers both the rockfall risk associated with earthquakes and the "common" rockfall risk resulting from erosion and local climatic conditions.
Earthquakes account for nearly 60% of the rockfall risk in the AndesFor example, one of the major findings of this study is that nearly 60% of the total rockfall hazard in the Andean zone studied is attributable to seismic activity. It is therefore crucial to consider the rockfall risk when large earthquakes occur in this area.

This method has been successfully tested in the Andes Mountains in Chile, providing promising results. These results show that it is now possible to assess the risk of rockfalls in the mountains in a more comprehensive manner. Experts can now identify which places are most at risk, such as villages and stretches of roads that are exposed. This advance represents an important step towards better prevention of rockfalls in mountainous areas, offering valuable tools to anticipate and reduce the consequences of these events on infrastructure and communities.