三江源国家公园草地生态资产质量与保护成效评估

Assessment of grassland ecosystem asset quality and conservation effectiveness in Sanjiangyuan National Park

  • 摘要: 生态资产质量的动态演变是科学评估生态保护成效的基础。以三江源国家公园为例, 构建了涵盖多维特征的草地生态资产质量评估体系, 结合变化速率、空间梯度与多区域对照分析, 定量测度了2005—2023年草地生态资产质量演变特征及国家公园体制建设的保护净效应。结果表明: (1)研究期内草地生态资产质量指数由0.4697提升至0.5072, 增幅为7.98%, 且2015年后呈现由降转升的恢复态势;(2)空间梯度分析识别出保护成效溢出边界约为园外25 km, 该区域质量恢复速率变化量最高, 表明园内严格管护对周边区域生态恢复具有一定的跨边界带动作用;(3)多区域对照分析表明, 在控制共同自然背景变化影响后, 国家公园体制建设对提升草地生态资产质量具有显著的独立净效应。上述结果说明, 完善自然保护地治理体系需突破行政边界约束, 依据保护成效溢出特征构建跨区域协同管控机制。三江源国家公园案例验证了生态资产质量评估体系的适用性, 并为自然保护地成效评估与协同治理提供了定量科学依据。

     

    Abstract: The dynamic evolution of ecosystem asset quality (EA Quality) provides a critical basis for scientifically evaluating the effectiveness of ecological conservation. By focusing on temporal evolution trajectories, phase transition characteristics, and spatial heterogeneity, EA Quality assessment can identify trends in ecosystem asset status and quantify the contribution of conservation policies to ecological restoration. As the predominant ecosystem asset type in Sanjiangyuan National Park, grassland plays a key supporting role in maintaining regional ecological security and the supply of ecosystem services. In this study, a multi-dimensional assessment framework for grassland EA Quality was developed, and an empirical analysis was conducted using Sanjiangyuan National Park as the study area. The assessment framework integrates multiple indicators that reflect ecosystem composition, structure, function, and landscape pattern to characterize the status of grassland EA Quality. By combining change rate analysis, spatial gradient analysis, and a multi-zone comparison approach, the spatiotemporal evolution patterns of grassland EA Quality from 2005 to 2023 were quantitatively identified, and the net effect of national park system development was measured. This analytical design systematically revealed the overall temporal trends in grassland EA Quality, determined whether a phase transition in ecosystem asset status occurred after the initiation of the national park system pilot, delineated the spatial spillover boundary of conservation effectiveness, and estimated the independent contribution of the system development process while controlling for the effects of common environmental background changes. The results showed that the grassland EA Quality index increased from 0.4697 in 2005 to 0.5072 in 2023, representing an overall increase of 7.98%. During the background period from 2005 to 2015, grassland EA Quality showed a slight decreasing trend, indicating that grassland was still under some degradation pressure before the national park system pilot. After 2015, grassland EA Quality shifted from decline to recovery, exhibiting a notable phase transition. Meanwhile, the composition, structure, and function indicators of the grassland ecosystem improved in a coordinated manner, suggesting an overall optimization of grassland EA Quality during the study period. Spatial gradient analysis further revealed a clear spillover boundary of conservation effectiveness at approximately 25 km beyond the park boundary. Within this spillover region, the magnitude of recovery rate change of grassland EA Quality was highest among all comparison zones, indicating that the strict conservation and management measures inside the park had a quantifiable cross-boundary driving effect on ecological restoration in adjacent areas. This finding demonstrates that the governance influence of the national park extends beyond its administrative boundaries, manifesting as an identifiable spatial spillover process. According to the multi-zone comparative analysis, after controlling for common environmental background changes, the national park system development had a significant independent net effect on improving grassland EA Quality. This suggests that the grassland ecological recovery trend was not driven solely by common environmental changes, and that the development of the national park system played a substantive role in promoting ecological restoration. These findings indicate that improving the governance system of protected areas requires breaking through administrative boundary constraints and building cross-regional collaborative management mechanisms based on the spatial spillover characteristics of conservation effectiveness. With Sanjiangyuan National Park as an example, this study validates the applicability of the grassland EA Quality assessment framework, providing quantitative support for the evaluation of protected area conservation effectiveness and collaborative governance.

     

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