Evaluation of ecological geological environment carrying capacity and analysis of driving mechanisms based on normal cloud model and geodetector model
Abstract The Luoyang area of the Yellow River Basin, as a typical resource-based city, its special industrial structure and complex geological structure make the ecological and geological environment of the area extremely fragile. In order to realize the sustainable development of the region in this...
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Nature Portfolio
2025-01-01
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| Series: | Scientific Reports |
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| Online Access: | https://doi.org/10.1038/s41598-025-85761-1 |
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| author | Rongkun Dai Changlai Xiao Xiujuan Liang Lin Jia Yi Jia Jiarui Yao Weifei Yang Jiang Zhang Linzuo Zhang Weifeng Li |
| author_facet | Rongkun Dai Changlai Xiao Xiujuan Liang Lin Jia Yi Jia Jiarui Yao Weifei Yang Jiang Zhang Linzuo Zhang Weifeng Li |
| author_sort | Rongkun Dai |
| collection | DOAJ |
| description | Abstract The Luoyang area of the Yellow River Basin, as a typical resource-based city, its special industrial structure and complex geological structure make the ecological and geological environment of the area extremely fragile. In order to realize the sustainable development of the region in this fragile ecological-geological environment, it is necessary to study its Ecological Geological Environmental Carrying Capacity (EGECC) to better serve the regional ecological-geological environment restoration and management work. This study constructs an indicator system encompassing three subsystems: Geological Environment (GE), Social Environment (SE), and Ecological Environment (EE). Based on game theory combination weighting (G1-IEW-GT) and the Normal Cloud model, the EGECC of Luoyang City from 2000 to 2022 was evaluated on a grid scale. Concurrently, a coupled model of geographic detectors and geographically weighted regression was established to recognize the spatial heterogeneity and driving mechanisms of the ecological geological environment system. The findings demonstrate that: (1) The overall EGECC in the Luoyang region of the YRB fluctuates upward, with the eastern area displaying more favorable conditions compared to the western region. (2) Over these twenty-two years, the geological environment system experienced initial deterioration followed by improvement, the ecological environment system remained relatively stable, and social and economic development continuously strengthened. (3) Landform types, elevation, human activity impact index, population density, and geological disaster susceptibility are the main driving elements for the assessment of the ecological geological environment system. Any pair of the 18 variables show varying degrees of enhancement effects on the EGECC. (4) The regression coefficients of the five major driving factors exhibit significant agglomeration characteristics in spatial distribution. Among them, geological disaster susceptibility has a negative driving effect on the EGECC, while landform, human activity impact index, and population density all display bidirectional effects. Overall, this study provides essential guidance for formulating ecological protection and restoration plans for the national territorial space in the Luoyang area of the YRB. Additionally, the evaluation methods established in this study have promotional value and can serve as a reference for the ecological geological spatial management of other resource-based cities. |
| format | Article |
| id | doaj-art-a16acd78e1674b2db7a7c5cdabd49c35 |
| institution | Kabale University |
| issn | 2045-2322 |
| language | English |
| publishDate | 2025-01-01 |
| publisher | Nature Portfolio |
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| series | Scientific Reports |
| spelling | doaj-art-a16acd78e1674b2db7a7c5cdabd49c352025-01-26T12:28:24ZengNature PortfolioScientific Reports2045-23222025-01-0115111810.1038/s41598-025-85761-1Evaluation of ecological geological environment carrying capacity and analysis of driving mechanisms based on normal cloud model and geodetector modelRongkun Dai0Changlai Xiao1Xiujuan Liang2Lin Jia3Yi Jia4Jiarui Yao5Weifei Yang6Jiang Zhang7Linzuo Zhang8Weifeng Li9Key Laboratory of Groundwater Resources and Environment (Jilin University), Ministry of EducationKey Laboratory of Groundwater Resources and Environment (Jilin University), Ministry of EducationKey Laboratory of Groundwater Resources and Environment (Jilin University), Ministry of EducationCollege of Resources and Environment, Henan Polytechnic UniversityGeological Environmental Center of Hubei ProvinceGeological Environmental Center of Hubei ProvinceKey Laboratory of Groundwater Resources and Environment (Jilin University), Ministry of EducationKey Laboratory of Groundwater Resources and Environment (Jilin University), Ministry of EducationKey Laboratory of Groundwater Resources and Environment (Jilin University), Ministry of EducationKey Laboratory of Groundwater Resources and Environment (Jilin University), Ministry of EducationAbstract The Luoyang area of the Yellow River Basin, as a typical resource-based city, its special industrial structure and complex geological structure make the ecological and geological environment of the area extremely fragile. In order to realize the sustainable development of the region in this fragile ecological-geological environment, it is necessary to study its Ecological Geological Environmental Carrying Capacity (EGECC) to better serve the regional ecological-geological environment restoration and management work. This study constructs an indicator system encompassing three subsystems: Geological Environment (GE), Social Environment (SE), and Ecological Environment (EE). Based on game theory combination weighting (G1-IEW-GT) and the Normal Cloud model, the EGECC of Luoyang City from 2000 to 2022 was evaluated on a grid scale. Concurrently, a coupled model of geographic detectors and geographically weighted regression was established to recognize the spatial heterogeneity and driving mechanisms of the ecological geological environment system. The findings demonstrate that: (1) The overall EGECC in the Luoyang region of the YRB fluctuates upward, with the eastern area displaying more favorable conditions compared to the western region. (2) Over these twenty-two years, the geological environment system experienced initial deterioration followed by improvement, the ecological environment system remained relatively stable, and social and economic development continuously strengthened. (3) Landform types, elevation, human activity impact index, population density, and geological disaster susceptibility are the main driving elements for the assessment of the ecological geological environment system. Any pair of the 18 variables show varying degrees of enhancement effects on the EGECC. (4) The regression coefficients of the five major driving factors exhibit significant agglomeration characteristics in spatial distribution. Among them, geological disaster susceptibility has a negative driving effect on the EGECC, while landform, human activity impact index, and population density all display bidirectional effects. Overall, this study provides essential guidance for formulating ecological protection and restoration plans for the national territorial space in the Luoyang area of the YRB. Additionally, the evaluation methods established in this study have promotional value and can serve as a reference for the ecological geological spatial management of other resource-based cities.https://doi.org/10.1038/s41598-025-85761-1Ecological Geological Environmental Carrying CapacitySpatial–temporal evolution lawDriving mechanismNormal cloud modelsResource-based city |
| spellingShingle | Rongkun Dai Changlai Xiao Xiujuan Liang Lin Jia Yi Jia Jiarui Yao Weifei Yang Jiang Zhang Linzuo Zhang Weifeng Li Evaluation of ecological geological environment carrying capacity and analysis of driving mechanisms based on normal cloud model and geodetector model Scientific Reports Ecological Geological Environmental Carrying Capacity Spatial–temporal evolution law Driving mechanism Normal cloud models Resource-based city |
| title | Evaluation of ecological geological environment carrying capacity and analysis of driving mechanisms based on normal cloud model and geodetector model |
| title_full | Evaluation of ecological geological environment carrying capacity and analysis of driving mechanisms based on normal cloud model and geodetector model |
| title_fullStr | Evaluation of ecological geological environment carrying capacity and analysis of driving mechanisms based on normal cloud model and geodetector model |
| title_full_unstemmed | Evaluation of ecological geological environment carrying capacity and analysis of driving mechanisms based on normal cloud model and geodetector model |
| title_short | Evaluation of ecological geological environment carrying capacity and analysis of driving mechanisms based on normal cloud model and geodetector model |
| title_sort | evaluation of ecological geological environment carrying capacity and analysis of driving mechanisms based on normal cloud model and geodetector model |
| topic | Ecological Geological Environmental Carrying Capacity Spatial–temporal evolution law Driving mechanism Normal cloud models Resource-based city |
| url | https://doi.org/10.1038/s41598-025-85761-1 |
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