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A modeling platform for landslide stability: A hydrological approach

Emadi Tafti, M ; Sharif University of Technology | 2019

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  1. Type of Document: Article
  2. DOI: 10.3390/w11102146
  3. Publisher: MDPI AG , 2019
  4. Abstract:
  5. Landslide events are among natural hazards with many fatalities and financial losses. Studies demonstrate that natural factors such as rainfall and human activities such as deforestation are important causes of triggering a landslide. In this study, an integrated two-dimensional slope stability model, SSHV-2D, is developed that considers various aspects of hydrological effects and vegetation impacts on the stability of slopes. The rainfall infiltration and water uptake of roots change the water content of the unsaturated zone. The temporal and spatial distribution of water content is estimated in the hydrological unit of the developed model. The vegetation unit of the model considers interception loss due to the existence of canopies and trunks, soil reinforcement effect by roots, root water uptake, the impact of root on hydraulic conductivity, and the influence of vegetation weight on slope stability. Benchmark problems with and without vegetation are solved for the model verification. The analyses demonstrate that the consideration of matric suction in the unsaturated zone can increase the safety factor more than 90%. It is also observed that the existence of trees with high density on a slope can increase the factor of safety about 50% and prevent shallow landslides. The present model is a platform for further development of more comprehensive and elaborative slope stability models. © 2019 by the authors
  6. Keywords:
  7. Slope stability ; Deforestation ; Flow of water ; Groundwater ; Hydrology ; Landslides ; Losses ; Rain ; Slope protection ; Vegetation ; Hydrological effects ; Influence of vegetations ; Landslide stability ; Rainfall infiltration ; Richard's equation ; Stability of slopes ; Temporal and spatial distribution ; Unsaturated zone ; Safety factor ; Infiltration ; Landslide ; Modeling ; Rainfall ; Richards equation ; Soil reinforcement ; Spatial distribution ; Vadose zone ; Water flow ; Water uptake
  8. Source: Water (Switzerland) ; Volume 11, Issue 10 , 2019 ; 20734441 (ISSN)
  9. URL: https://www.mdpi.com/2073-4441/11/10/2146