![Sample our Environment & Agriculture journals, sign in here to start your access, latest two full volumes FREE to you for 14 days]({"type":"image" , "src" : "/sda/5934/TOC-Subject-Sample-2021-Environment-Agriculture.jpg"})
Abstract
Mass movements (MM) represent a serious threat to human life and activities in most mountainous areas. However, due to the rugged nature of such terrain, it is often difficult to detect such phenomena in remote areas. Hence, satellite imagery offers many attractions for the examination of MM in such environments, especially in less developed nations in which resources are stretched and levels of environmental information limited. There is a need to ensure that the techniques and images used are effective, reliable, and cheap in terms of the amount and accuracy of data that can be extracted. Taking Lebanon as a case study, this paper compares the applicability of different satellite data sensors (Landsat TM (Thematic Mapper), IRS (Indian Remote Sensing Satellite), SPOT4 (Système Probatoire pour l’Observation de la Terre)) and preferred image‐processing techniques (False Colour Composite ‘FCC’, pan‐sharpen, principal‐component analysis ‘PCA’, Anaglyph) for the mapping of MM recognized as landslides, rock and debris falls, and earth flows. Results from the imagery have been validated by field surveys and analysis of IKONOS imagery acquired in some locations witnessing major MM during long periods. Then, levels of accuracies of detected MM from satellite imageries were plotted. This study has demonstrated that the anaglyph produced from the two panchromatic stereo‐pairs SPOT4 images remains the most effective tool setting the needed 3D properties for visual interpretation and showing a maximum accuracy level of 67%. The PCA pan‐sharpened Landsat TM‐IRS image gave better results in detecting MM, among other processing techniques, with a maximum accuracy level of 62%.
Acknowledgements
This work is part of a PhD thesis done at the University of Paris VI (France) with the cooperation and finance of the National Council for Scientific Research (NCSR)/Remote Sensing Center (Lebanon) (Chadi Abdallah). Part of this investigation was financially supported by the Cèdre Franco‐lebanese programme. We express our deep and sincere thanks to the authorities of NCSR and to those of the Cèdre programme for their continuous support. This article is dedicated to the memory of Dr Talie Elmasri.