基于服务协同视角的延安市多源地识别及生态安全格局构建效能对比

doi:10.13287/j.1001-9332.202511.024

摘要/Abstract

摘要： 在多重生态系统服务需求增长和空间冲突加剧的背景下,如何构建具备协同性和可持续性的生态安全格局,已成为生态保护和国土空间治理的核心议题。当前研究中源地识别方法多基于简易等权叠加或熵权叠加方法,虽具一定实用性,但较难促进多服务协同效率提升并弱化权衡冲突。为此,本研究引入基于多情景调节的序位加权平均(OWA)模型,构建了一种面向服务协同效率提升的生态安全格局优化方法。以西北典型生态脆弱区延安市为例,评估6类生态系统服务(生境质量、产水量、土壤保持、碳储量、文化美学、防风固沙),并设置7种风险偏好情景,识别最优协同源地;结合Conefor和Linkage Mapper模型构建不同方案下的生态安全格局,从源地保护效率和廊道拓扑结构两方面对OWA协同型、简易叠加型、熵权叠加型3类生态安全格局的效能表现进行测试。结果表明: OWA协同型方法在2000和2020年均展现出更低的服务权衡度、更高的平均保护效率以及更优的网络连通结构,明显优于传统源地叠加方法。OWA协同型方法的平均保护效率在2000和2020年均保持领先,并在黄土高原地区关键的防风固沙和碳储量等生态系统服务上表现突出;在网络结构上,OWA协同型的闭合度和节点连接效率亦整体高于对照方案,体现出更强的稳定性和容错能力。研究结果可为生态系统服务冲突背景下的源地识别和空间格局优化问题提供新思路,并能为生态修复优先区划定及国土空间生态修复规划提供理论指导和应用参考。

关键词: 生态安全格局, 序位加权平均, 源地识别, 生态绩效, 生态系统服务权衡, 生态脆弱区, 延安市

Abstract: Against the backdrop of increasing demands for multiple ecosystem services and intensifying spatial conflicts, constructing an ecological security pattern that ensures both synergy and sustainability has become a central issue in ecological conservation and territorial spatial governance. Available methods for source area identification are mostly based on simple equal-weight overlay or entropy-weighted overlay approaches. Although being practical to some extent, these methods are limited in enhancing the efficiency of multi-service synergies and mitigating trade-offs. To address such limitations, we introduced a scenario-regulated ordered weighted averaging (OWA) model and proposed an optimization approach for ecological security pattern construction oriented toward improving service synergy efficiency. With Yan'an City, a typical ecologically fragile area in Northwest China, as a case study, we tassessed six types of ecosystem services (habitat quality, water yield, soil conservation, carbon storage, cultural aesthetics, and windbreak-sand fixation) under seven risk-preference scenarios to identify optimal synergistic sources. We used Conefor and Linkage Mapper models to construct ecological security pattern under different scenarios, and evaluated their performance in terms of source protection efficiency and corridor network topology by comparing the OWA synergy-based method with the simple overlay and entropy-weighted overlay approaches. Results showed that the OWA synergy-based method consistently demonstrated lower levels of trade-offs among ecosystem services, higher average protection efficiency, and a more favorable network connectivity structure in both 2000 and 2020, outperforming the traditional source overlay methods. The OWA synergy-based approach maintained the highest average protection efficiency in both 2000 and 2020, and performed particularly well in estimating critical ecosystem services of the Loess Plateau, such as windbreak-sand fixation and carbon storage. In terms of network topology, the OWA synergy-based pattern exhibited higher closure and node connection efficiency, indicating stronger stability and fault tolerance. These findings would provide new insights into source identification and spatial optimization under the context of ecosystem service trade-offs, and offer theoretical guidance and practical references for the delineation of ecological restoration priority areas and the planning of territorial ecological restoration.

Key words: ecological security pattern, ordered weighted averaging, source identification, ecological performance, trade-off of ecosystem service, ecologically fragile area, Yan'an City

池葆春, 杨力, 朱宗斌, 姚龙杰. 基于服务协同视角的延安市多源地识别及生态安全格局构建效能对比[J]. 应用生态学报, 2025, 36(11): 3479-3489.

CHI Baochun, YANG Li, ZHU Zongbin, YAO Longjie. Efficiency comparison of multi-source identification and ecological security pattern construction in Yan'an City from the perspective of service collaboration[J]. Chinese Journal of Applied Ecology, 2025, 36(11): 3479-3489.

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