Geo-Eye

Abstract

Landslides are a significant hazard in Churachandpur district, Manipur, frequently triggered by heavy rainfall, earthquakes and human activities such as deforestation, shifting cultivation and construction. The landslides are more prominent along National Highway 150 and 102B due to high topography, ranging up to 2,100 metres above sea level. The research used weighted parameter analysis, remote sensing (RS) and geographical information system (GIS) methodologies to create a landslide susceptibility map for the study area. High-resolution thematic layers were generated from various data sources, including terrain-corrected data from earthexplorer.usgs.gov (SRTM 30 m resolution), Sentinel-2A multi-spectral satellite imagery (10 m resolution) and LANDSAT 8 satellite data, alongside other relevant factors such as rainfall distribution, slope and structural features (faults, drainage density, roads). These thematic layers were integrated within a GIS platform (ArcGIS 10.8) to identify zones vulnerable to landslides. A standard weighted overlay technique assigned values ranging from 0 to 10 to different causative factors influencing landslide occurrence. The resulting landslide susceptibility map categorizes the study area into three levels: high, medium and low susceptibility. The landslide displacement in high-susceptibility zones highlights significant terrain movement, ranging from minor soil shifts to large-scale debris flow, disrupting transportation, damaging infrastructure and threatening livelihoods, requiring urgent mitigation measures for regional safety. This research provides valuable insights for regional infrastructure planning, landslide hazard mitigation and geo-environmental development, ultimately contributing to enhanced safety and sustainable development in the Churachandpur district.

Keywords: Human Activities, Satellite Data, Thematic Maps, Landslide Susceptibility, Landslide