Abstract
Over the last few years, landslides have occurred more and more frequently worldwide, causing severe effects on both natural and human environments. Given that landslide susceptibility (LS) assessments and mapping can spatially determine the potential for landslides in a region, it constitutes a basic step in effective risk management and disaster response. Nowadays, several LS models are available, with each one having its advantages and disadvantages. In order to enhance the benefits and overcome the weaknesses of individual modeling, the present study proposes a hybrid LS model based on the integration of two different statistical analysis models, the multivariate Geographical Detector (GeoDetector) and the bivariate information value (IV). In a GIS-based framework, the hybrid model named GeoDIV was tested to generate a reliable LS map for the vicinity of the Pinios artificial lake (Ilia, Greece), a Greek wetland. A landslide inventory of 60 past landslides and 14 conditioning (morphological, hydro-lithological and anthropogenic) factors was prepared to compose the spatial database. An LS map was derived from the GeoDIV model, presenting the different zones of potential landslides (probability) for the study area. This map was then validated by success and prediction rates—which translate to the accuracy and prediction ability of the model, respectively. The findings confirmed that hybrid modeling can outperform individual modeling, as the proposed GeoDIV model presented better validation results than the IV model.
Highlights
A landslide is a gravity-driven environmental process which involves the movement of rocks, debris, earth, or a combination of them down a slope [1]
The landslide susceptibility map produced by thehybrid hybridGeoDIV
Among the conditioning factors that eventually remained in the model, the highest factorweight was obtained from slope angle (q value of 0.264)
Summary
A landslide is a gravity-driven environmental process which involves the movement of rocks, debris, earth, or a combination of them down a slope [1]. The extreme weather events due to climate change, and the high seismic activity in combination with the poorly planned expansion of human activities (deforestation of slopes, uncontrolled irrigation, etc.), have contributed to a global upward tendency in landslide occurrence in the recent years [3]. Due to their occurring without warning and seriously threatening both natural and human environments, landslides are a major problem. It is indicative that during 1998–2017, totally 4.8 million people were affected by landslides worldwide, with 18,414 of them being killed [4]. The environmental effects of landslides are mainly changes in terrain morphology, and increased sediment loads in rivers and subsequent transport to dams
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