环境资源管理
可持续发展
生态系统
生态系统服务
功能生态学
环境规划
中国
系统动力学
地理
环境科学
生态学
生态系统健康
持续性
订单(交换)
功能(生物学)
生态健康
空间生态学
时间尺度
人类生态系统总量
基线(sea)
景观生态学
生态系统模型
生态系统理论
恢复生态学
构造(python库)
空间异质性
气候变化
情景分析
全球变化
服务(商务)
作者
X.-M. Yang,Huakun Zhou,Fanglin Liu
摘要
ABSTRACT Ecosystem health (EH) assessment is crucial for understanding ecological dynamics, supporting environmental conservation, and promoting regional sustainable development. However, existing evaluation frameworks often emphasize ecosystem structure and function while lacking integration with sustainable development goals (SDGs), thereby failing to reflect the coupled dynamics of ecological integrity, service provision, and socio‐economic sustainability. To address this gap, this study aims to construct an integrated ecosystem health‐service‐sustainability (EHSS) assessment framework by incorporating SDGs into the vigor‐organization‐resilience‐services (VORS) model in order to systematically evaluate the coupled dynamics of socio‐ecological systems among ecological health, ecosystem services, and human well‐being. This framework is applied to Qilian Mountain National Park (QLMNP) from 2000 to 2020 to investigate the spatiotemporal dynamics and driving mechanisms of EHSS. The results reveal a general spatial pattern of “higher in the east, lower in the west” and a temporal trend of “first increasing, then declining.” While township‐level transitions were frequent, spatial clustering remained stable with notable local fluctuations. Using XGBoost–SHAP, we identify precipitation, temperature, and elevation as key drivers, with nonlinear and spatially heterogeneous impacts. Optimal recovery conditions occur below 3853 m elevation, with 451–639 mm of annual precipitation and temperatures ranging from −4.38°C to 5.10°C. These findings provide valuable insights for ecosystem restoration and sustainable development in fragile regions.
科研通智能强力驱动
Strongly Powered by AbleSci AI