1. Abolmasov B (2016) Landslide risk management study in Bosnia and Herzegovina. United Nations Developing Programme Publications, Belgrade, p 82. http://www.ba.undp.org/content/bosnia_and_herzegovina/bs/home/library/environment_energy/landslide-risk-management-study-in-bh.html . Accessed 4 January 2017 (in Serbian)

2. Anon. (2011) Recovery of the Rječina River Channel. Croatian State Archive, Rijeka (unpublished)

3. Arbanas Ž, Benac Č, Jurak V (2006) Causes of debris flow formation in flysch area of North Istria, Croatia. In: De Lorenzini EG, Brebbia CA (eds) Monitoring, simulation, prevention and remediation of dense and debris flows. WIT Transaction on Ecology and the Environment, Southampton, pp 283–292

4. Arbanas Ž, Mihalić S, Grošić M, Dugonjić S, Vivoda M (2010) Landslide Brus, translational block sliding in flysch rock mass. In: Zhao J, Labiouse V, Dudt J-P, Mathier J-P (eds) Rock mechanics in civil and environmental engineering. Taylor & Francis Group, London, pp 635–638

5. Arbanas Ž, Sassa K, Marui H, Mihalić S (2012) Comprehensive monitoring system on the Grohovo landslide, Croatia. In: Eberhardt E, Froese C, Turner K, Leroueil S (eds) Proceedings of the 11th International and 2nd north American symposium on landslides: landslides and engineered slopes. Protecting Society through Improved Understanding. CRC Press, New York, pp 1441–1447