Sustainability, Vol. 18, Pages 5478: Eco-Hydrological Change and Its Implications for Sustainable Dryland Management in Xinjiang, China: A Multi-Source Remote Sensing Assessment

Fuente: Sustainability - Revista científica (MDPI)
Sustainability, Vol. 18, Pages 5478: Eco-Hydrological Change and Its Implications for Sustainable Dryland Management in Xinjiang, China: A Multi-Source Remote Sensing Assessment
Sustainability doi: 10.3390/su18115478
Authors:
Qing Zhang
Yuqi Ji
Donghui Zhang
Aijun Zhu

Dryland sustainability depends on how vegetation productivity and water-use processes respond to climatic variability and human intervention. Focusing on Xinjiang, China, this study assessed eco-hydrological change from 2000 to 2023 using multi-source remote sensing and climatic datasets. We integrated vegetation productivity and water-use efficiency into a composite EcoIndex, combined anomaly-based diagnostics with eco-hydrological synchrony analysis, and used pixel-level random forest attribution to identify dominant climatic and anthropogenic controls. The results show clear regional differentiation. Northern Xinjiang remained primarily climate-driven and maintained relatively stronger vegetation–water coupling, whereas Southern Xinjiang exhibited more pronounced human-induced restructuring, especially in oasis and cultivated areas. Eastern Xinjiang functioned as a transitional zone with weak coupling and high sensitivity to multiple pressures. Across Xinjiang, 63.27% of the area was classified as climate-dominated, 22.41% as human-dominated, and 14.32% as mixed influence. The results indicate that improvements in vegetation condition do not necessarily imply improved eco-hydrological coordination, and that mixed-influence zones may represent early-warning areas of sustainability risk. This study provides a spatial diagnostic framework for supporting sustainable land and water management, regional adaptation planning, and resilience-oriented governance in arid and semi-arid regions.
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