Tianjiao Zhang’s scientific contributions

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Publications (1)


Figure 2. Flow chart for PLES in Gannan.
Figure 5. Transfer process of PLES in Gannan counties and cities from 2000 to 2020 (unit:km 2 ). 3.2.2. Spatial Changes in PLES from 2000 to 2020 Figure 6 illustrates the main manifestations of spatial changes in the PLES in Gannan from 2000 to 2020. The results show that productive land in Gannan was mainly converted
Figure 6. Spatial transfer of production-living-ecology in Gannan. (a) 2000-2010 and (b) 2010-2020, and (c,d) are magnified images of typical PLES variations in (a,b), respectively.
Figure 7. Spatial distribution CCD of PLES in Gannan. (a) 2000, (b) 2010 and (c) 2020.
Figure 8. Interaction detection results of PLES evolution drivers in Gannan 2020.

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Research on Sustainable Land Use in Alpine Meadow Region Based on Coupled Coordination Degree Model—From Production–Living–Ecology Perspective
  • Article
  • Full-text available

June 2024

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6 Reads

Sustainability

Tianjiao Zhang

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Cuifang Zhang

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Qian Wang

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Qipeng Zhang

Changes in land use types in alpine meadow areas have significant impacts on the ecological environment in alpine areas. Exploring land use change is crucial for land use management and optimization in alpine regions. Thus, it is necessary to analyze land use evolution and its drivers in alpine meadow regions from a production–living–ecology space (PLES) perspective by using remote sensing data. We first constructed the PLES evaluation system for Gannan. Then, we analyzed the spatial and temporal evolution characteristics and coupling degree of PLES in the study area. Finally, the driving factors affecting PLES were explored with geodetector. The conclusions of the study reveal that the distribution of productive and ecological spaces is large and concentrated, while the distribution of living spaces is more decentralized. The PLES was mainly concentrated in the area above 2500 m but below 4000 m and with a slope of 40° or less. During the study period, the area of production space showed a decreasing trend, while the areas of living and ecological space both showed increasing trends, primarily occurring at the expense of production space. DEM and GDP were the main factors affecting the distribution of PLES. The coupling level and the degree of coupling coordination were relatively stable in general, showing a pattern of “high in the east and low in the west”. The study provides technical support and a theoretical basis for the future planning of land space and ecological environment optimization in the alpine meadow regions.

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