An integrated quantitative and qualitative approach for landslide susceptibility mapping in West Sikkim district, Indian Himalaya

Abstract

Landslides rank as the third most common natural disaster globally, and the Indian Himalaya Region is no exception, experiencing severe impacts during the rainy season. This study focuses on creating a comparative landslide susceptibility map for the West Sikkim district in India using probabilistic and heuristic approaches. The frequency ratio (FR) and information value (IV) methods are employed for the probabilistic approach, while the analytic hierarchy process (AHP) is used for the heuristic approach. Eleven factors are considered in the analysis. The resulting landslide susceptibility (LS) map demonstrates accuracies of 77% for FR, 74% for IV, and 57% for AHP methods. Preliminary qualitative risk assessment is conducted, incorporating building and population density, as population and buildings are the most vulnerable elements in the society. The LS map with the highest accuracy (from FR) serves as the landslide potential factor, combined with building and population density as the risk damage potential factors for risk zonation. The resulting risk zonation map classifies the study area into high-risk (3%), medium-risk (14%), and low-risk (83%) zones. This study primarily addresses the 3% high-risk area where landslides pose a significant threat to population and infrastructure, aiming to inform policy implementation and mitigation measures.