Litcius/Paper detail

Inventory of landslide relics in Zhenxiong County based on human-machine interactive visual interpretation, Yunnan Province, China

Zhiwen Xue, Chong Xu, Zhiqiang Zhang, Liye Feng, Hao Li, Hourong Zhang, Dengjie Zhu, Jingjing Sun, Peng Wang, Lei Li, Jingyu Chen

2025Frontiers in Earth Science8 citationsDOIOpen Access PDF

Abstract

Introduction Landslides occur frequently in Zhenxiong County, posing significant threats to residents’ lives and property. A comprehensive understanding of the development patterns of landslide disasters in this region is crucial for disaster prevention, land-use planning, and risk assessment. Methods This study utilized high-resolution satellite imagery from the Google Earth Pro platform and employed a human-machine interactive visual interpretation approach to investigate landslide occurrences. A comprehensive landslide inventory comprising 3,979 landslide outlines was established through extensive literature review and data cleaning techniques. The spatial distribution characteristics and statistical patterns of landslides were analyzed. Results The total landslide-affected area is 319.20 km 2 , with the largest landslide covering 4.55 km 2 and the smallest measuring 1,779 m 2 . The average landslide area is 80,215 m 2 , with the majority (73.54%) classified as medium-sized landslides. The landslide area percentage (LAP) is 8.64%, and the landslide number density (LND) is 1.077 landslides per km 2 , with the highest recorded landslide density being 3.380 landslides per km 2 . Landslides are predominantly concentrated in four key areas: the confluence of the Baishui River and Yanxi River, Dashuigou Reservoir, both sides of the valley from Heitang Village to Hongyan Village, and Xiaogou Village. These areas are characterized by well-developed water systems, middle and low mountains, and heavily dissected landscapes. Discussion The landslide database established in this study provides essential scientific data for analyzing the spatial distribution of landslide disasters in Zhenxiong County. It offers valuable insights for local governments and relevant authorities in disaster prevention, land-use planning, and risk assessment. The findings highlight the significant impact of complex terrain and developed water systems in middle and low mountain regions on landslide disasters. Future studies should further integrate geological and meteorological factors for deeper analysis.

Topics & Concepts

LandslideInterpretation (philosophy)ChinaGeologyGeographyArchaeologyMining engineeringPhysical geographyGeomorphologyCartographyComputer scienceProgramming languageLandslides and related hazardsImage Processing and 3D ReconstructionRemote Sensing and Land Use