Land-Use Dynamic Change Mapping and Ecological Network Construction from Multi-Temporal Remote Sensing Imagery

Abstract. Regional economic growth drives significant land-use changes, impacting urban development, resource allocation, and ecological networks. Challenges such as climate change, ecological degradation, and land-use-ecology conflicts threaten human habitats, elevating the importance of biodiversity conservation. This study investigates the spatio-temporal evolution of land use (1990–2020) in Meishan City, China, using multi-temporal Landsat imageries, and assesses its impact on ecological security using land-use dynamic index model. Research found that Cultivated land remained dominant but decreased over the study period, while forest and construction land expanded. Construction land primarily developed along rivers, forest land concentrated in Hongya County, and cultivated land prevailed in Renshou County. Utilizing resistance factors, this study identified ecological sources, constructed resistance surfaces, and delineated ecological corridors. Ecological sources covered 18.85% of the study area, with corridors totaling 461.77 km, predominantly located in the central region. Three key ecological pinch points were identified. Optimizing land-use patterns and the ecological network structure are recommended, prioritizing ecological restoration in Dongpo and Pengshan Districts. This research provides a scientific basis for sustainable land-resource utilization in Meishan and offers valuable insights for similar regions.