Abstract
The paper presents an analysis of the LiDAR-based landslide inventory for the area near Samobor, in northwestern Croatia with two main objectives: i) to define the geological units (obtained from Basic Geological Map of Croatia) most susceptible to landslides, and ii) to analyse the limitations of the Basic Geological Map and its applicability in landslide susceptibility map design. Within the study area of 63.8 km2, 874 landslide polygons were manually outlined, covering an area of 2.15 km2. The landslide outline confidence level, landslide index and the relief energy map were used to analyse the landslide susceptibility of a particular geological unit. By that, units in the same state of stress, i.e., in the same relief energy group were compared. This preliminary analysis has shown that the geological units Pl,Q, M3 1,2, and 1M3 1 are the most susceptible to landslides and that older geological units, Pc and K1,2, are also prone to landslides. Still, landslides within those older units can be considered as old and inactive. As for the limitations of the Basic Geological Map of Croatia, three things emerged, namely scale, the geological unit defining approach, and the neglect of regolith. Despite the limitations presented, the usability of the Basic Geological Map of Croatia in the development of small-scale landslide susceptibility maps is emphasized. However, instructions that should attribute engineering geological features to the geological units outlined in the Basic Geological Map should be prepared in the near future.
Highlights
IntroductionLandslides are the most widespread geological event affecting 4.8 million people and caused more than 18.000 deaths worldwide in the period from 1998 to 2017 (CRED, 2018)
The paper presents an analysis of the light detection and ranging (LiDAR)-based landslide inventory for the area near Samobor, in northwestern Croatia with two main objectives: i) to define the geological units most susceptible to landslides, and ii) to analyse the limitations of the Basic Geological Map and its applicability in landslide susceptibility map design
Statistical sample analysis is performed to see if the area of the individual geo logical units (GUs) is statistically significant within the study area
Summary
Landslides are the most widespread geological event affecting 4.8 million people and caused more than 18.000 deaths worldwide in the period from 1998 to 2017 (CRED, 2018). By inspecting the Register of Damages from Natu ral Disasters at the Ministry of Finance, it is possible to extract some data for the period from 2015 to 2019. The total damage from landslides in that period was US $ 22 million, counting only reported landslides and their casualties in those municipalities or cities that have declared a natural disaster in the specified period. This data indicates that landslides in Croatia clearly present a harmful threat to humans, their pro perties, and the environment. Still, raising public awareness of landslides as geohazard events in Croatia remains a challenging task
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