Influence of land use change on habitat quality: a case study of coal mining subsidence areas

Revealing the spatiotemporal evolution characteristics and key driving processes behind the habitat quality is of great significance for the scientific management of production, living, and ecological spaces in resource-based cities, as well as for the efficient allocation of resources. Focusing on...

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Veröffentlicht in:	Environmental monitoring and assessment 2024-06, Vol.196 (6), p.535-535, Article 535
Hauptverfasser:	Chen, Yedong, Chang, Jiang, Li, Zixuan, Ming, Li, Li, Cankun
Format:	Artikel
Sprache:	eng
Schlagworte:	Atmospheric Protection/Air Quality Control/Air Pollution Autocorrelation case studies Catalysts China Coal Coal Mining Conservation of Natural Resources Construction decline Degradation Earth and Environmental Science Ecology Ecosystem Ecotoxicology Environment Environmental degradation Environmental Management Environmental Monitoring Environmental quality Evolution habitat destruction Habitats Heterogeneity humans Lakes Lakes - chemistry Land use land use change Mining Monitoring/Environmental Analysis Patchiness Resource allocation Spatial analysis Spatial heterogeneity Spatial variability spatial variation Spatial variations Subsidence
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container_title	Environmental monitoring and assessment
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creator	Chen, Yedong Chang, Jiang Li, Zixuan Ming, Li Li, Cankun
description	Revealing the spatiotemporal evolution characteristics and key driving processes behind the habitat quality is of great significance for the scientific management of production, living, and ecological spaces in resource-based cities, as well as for the efficient allocation of resources. Focusing on the largest coal-mining subsidence area in Jiangsu Province of China, this study examines the spatiotemporal evolution of land use intensity, morphology, and functionality across different time periods. It evaluates the habitat quality characteristics of the Pan’an Lake area by utilizing the InVEST model, spatial autocorrelation, and hotspot analysis techniques. Subsequently, by employing the GTWR model, it quantifies the influence of key factors, unveiling the spatially varying characteristics of their impact on habitat quality. The findings reveal a notable surge in construction activity within the Pan’an Lake area, indicative of pronounced human intervention. Concurrently, habitat degradation intensifies, alongside an expanding spatial heterogeneity in degradation levels. The worst habitat quality occurs during the periods of coal mining and large-scale urban construction. The escalation in land use intensity emerges as the primary catalyst for habitat quality decline in the Pan’an Lake area, with other factors exhibiting spatial variability in their effects and intensities across different stages.
doi_str_mv	10.1007/s10661-024-12702-2
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subjects	Atmospheric Protection/Air Quality Control/Air Pollution Autocorrelation case studies Catalysts China Coal Coal Mining Conservation of Natural Resources Construction decline Degradation Earth and Environmental Science Ecology Ecosystem Ecotoxicology Environment Environmental degradation Environmental Management Environmental Monitoring Environmental quality Evolution habitat destruction Habitats Heterogeneity humans Lakes Lakes - chemistry Land use land use change Mining Monitoring/Environmental Analysis Patchiness Resource allocation Spatial analysis Spatial heterogeneity Spatial variability spatial variation Spatial variations Subsidence
title	Influence of land use change on habitat quality: a case study of coal mining subsidence areas
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