1. Afeni, T. B., & Cawood, F. T. (2013). Slope monitoring using total station: What are the challenges and how should these be mitigated? South African Journal of Geomatics, 2, 41–53.

2. Amaral, P. (2010). Caracterização geotécnica e hidrológica de depósitos vulcânicos: Modelação a estabilidade de taludes no concelho da Povoação (Ilha de S. Miguel, Açores). Universidade dos Açores, Ponta Delgada (Ph.D. Thesis).

3. Amaral, P., Malheiro, A., Marques, F., Moniz, L., Furtado, S., & Loura, N. (2020). The use of total station for monitoring mass movements: application to Fajãzinha landslide at Flores Island (Azores Archipelago). In F. Fernandes, A. Malheiro, H.I. Chaminé (Eds.), Advances in natural hazards and hydrological risks: Meeting the challenge, Proceedings of the 2nd international workshop on natural hazards (NATHAZ'19), Pico Island—Azores 2019 (pp. 59–62). ASTI Springer Series, Cham.

4. Amaral, P., Marques, R., Zêzere, J.L., Queiroz, G., & Marques, F. (2009). Distributed transient modelling of rainfall triggered shallow landslides for susceptibility assessment in Ribeira Quente valley (S. Miguel, Azores). In Landslide Processes, from geomorphological mapping to dynamic modelling, Strasbourg, France 6–7 February 2009 (pp. 29–94). Strasbourg, CERG.

5. Cruden, D. M., & Varnes, D. J. (1996). Landslide types and processes. Transportation Research Board, U.S. National Academy of Sciences, Special Report, 247, 36–75.