**Abhirup Dikshit 1, Raju Sarkar 2,3, Biswajeet Pradhan 1,4,\*, Ratiranjan Jena 1, Dowchu Drukpa <sup>5</sup> and Abdullah M. Alamri <sup>6</sup>**


Received: 25 November 2019; Accepted: 15 January 2020; Published: 17 January 2020

**Abstract:** Landslides are one of the major natural disasters that Bhutan faces every year. The monsoon season in Bhutan is usually marked by heavy rainfall, which leads to multiple landslides, especially across the highways, and affects the entire transportation network of the nation. The determinations of rainfall thresholds are often used to predict the possible occurrence of landslides. A rainfall threshold was defined along Samdrup Jongkhar–Trashigang highway in eastern Bhutan using cumulated event rainfall and antecedent rainfall conditions. Threshold values were determined using the available daily rainfall and landslide data from 2014 to 2017, and validated using the 2018 dataset. The threshold determined was used to estimate temporal probability using a Poisson probability model. Finally, a landslide susceptibility map using the analytic hierarchy process was developed for the highway to identify the sections of the highway that are more susceptible to landslides. The accuracy of the model was validated using the area under the receiver operating characteristic curves. The results presented here may be regarded as a first step towards understanding of landslide hazards and development of an early warning system for a region where such studies have not previously been conducted.

**Keywords:** shallow landslide; landslide susceptibility; temporal probability; Bhutan
