Coastal and Marine Dynamics Open access Peer reviewed

Numerical modelling of static and dynamic factors controlling the progressive retreat of rocky coastal cliffs

F. Feliziani, Gian Marco Marmoni, M. Montagnese, R. Sobhani and 3 more

Landslides | Jun 27, 2026

Abstract

Abstract

Abstract This study investigates instability mechanisms in soft rocky coastal cliffs through an integrated numerical framework that couples computational fluid dynamics (CFD) with the finite-discrete element method (FDEM), applied to the tuffaceous cliffs of Ventotene Island (Italy). The modelling strategy systematically explores the role of structural predisposition, marine erosion, wave-induced loading, thermal forcing, and time-dependent strength degradation in controlling cliff stability and failure evolution. The results show that neither gravity loading nor basal undercutting alone can reproduce realistic failure mechanisms, even in the presence of a DFN. Progressive rock failure (PRF) emerges only when basal erosion is explicitly coupled with inward-migrating strength degradation, implemented using a simplified fatigue-based S–N approach. Under the considered lithology and the present Mediterranean climatic conditions, wave impacts and thermal forcing induce predominantly elastic or sub-critical mechanical responses and do not directly trigger failure. However, wave-induced dynamic perturbations concentrate displacements in fractured cliff sectors, suggesting a preparatory role through fatigue and stress redistribution, with potential triggering effects once critical degradation thresholds are approached. Thermal forcing becomes mechanically effective only under amplified temperature excursions or in lithologies with higher thermal sensitivity. The coupled CFD–FDEM approach is therefore interpreted as a process-based, exploratory framework that captures the dynamic response of coastal cliffs to realistic environmental boundary conditions, rather than as a direct predictor of wave-driven collapse. The methodology provides a physically grounded and transferable framework for investigating multi-forcing interactions, damage accumulation, and PRF in coastal cliffs, offering new insights into the mechanisms governing coastal instability and long-term cliff evolution.

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Authors

Researchers on this paper

F. Feliziani

first | Sapienza University of Rome | ORCID 0009-0003-7940-7160

Gian Marco Marmoni

middle | Sapienza University of Rome | ORCID 0000-0002-0443-4389

M. Montagnese

middle | Sapienza University of Rome

R. Sobhani

middle | National Technical University of Athens | ORCID 0000-0002-1381-712X

Denis Istrati

middle | National Technical University of Athens | ORCID 0000-0002-1210-0338

Erik Eberhardt

middle | University of British Columbia | ORCID 0000-0003-4844-5116

Salvatore Martino

last | Sapienza University of Rome | ORCID 0000-0003-1277-7784

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Citation

BibTeX

@article{Feliziani2026Numerical,
  title = {Numerical modelling of static and dynamic factors controlling the progressive retreat of rocky coastal cliffs},
  author = {F. Feliziani and Gian Marco Marmoni and M. Montagnese and R. Sobhani and Denis Istrati and Erik Eberhardt and Salvatore Martino},
  journal = {Landslides},
  year = {2026},
  doi = {10.1007/s10346-026-02800-2},
  url = {https://doi.org/10.1007/s10346-026-02800-2}
}

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