Skip to the main content

Original scientific paper

https://doi.org/10.4154/GC.2011.20

A complex landslide in the Rječina Valley: results of monitoring 1998-2010

Čedomir Benac ; Faculty of civil engineering, University of Rijeka
Sanja Dugonjić ; Faculty of civil engineering, University of Rijeka
Martina Vivoda ; Faculty of civil engineering, University of Rijeka
Maja Oštrić ; Kyoto University Disaster Prevention Research Institute
Željko Arbanas ; Faculty of civil engineering, University of Rijeka


Full text: english pdf 1.029 Kb

page 239-249

downloads: 755

cite


Abstract

Results of landslide monitoring undertaken between 1998–2010 on the north-eastern slope of the central part of Rječina Valley in front of Grohovo village (north-eastern coastal part of Adriatic Sea, Croatia) are presented. This is the largest regional active landslide. The slopes around the Rječina riverbed are formed in siliciclastic sedimentary rocks with flysch characteristics. The bedrock is mostly covered with unstable slope formations. A limestone rock mass is visible on the cliffs around the top of the river valley. The landslide is complex and retrogressive, with 13 sliding bodies. It occurred in December 1996 by displacement of an initial landslide body where movement had been registered in the 19th century. The limestone mega-blocks and separated rocky towers on the top of the slope have also moved, which is an atypical phenomenon of the flysch slopes in the area of Rijeka. After initial sliding ceased, and major movements subsided, monitoring of benchmark movements from 1998 until 2010 determined further maximum displacements on the upper part of the slope, and minimum movement in the lower part. The area of the Rječina Valley from the Valići Dam to the Pašac Bridge was selected as a pilot area in the framework of the Croatian-Japanese bilateral joint research project. Monitoring results provided the basis of establishing an early warning system for possible landslide occurrence and estimating the degree of landslide risk.

Keywords

landslide; flysch; karst; displacement; monitoring

Hrčak ID:

78321

URI

https://hrcak.srce.hr/78321

Publication date:

26.10.2011.

Visits: 1.881 *