西北干旱区自然保护地体系生态网络构建及优化: 以河西走廊为例

doi:10.13287/j.1001-9332.202501.021

摘要/Abstract

摘要： 构建并优化自然保护地生态网络有利于缓解保护地孤岛化和维护生物多样性。以河西走廊为例,识别荒野地空间分布,将高质量荒野地和自然保护地作为生态源地,利用最小耗费距离模型和电路理论提取生态廊道和重要生态节点,构建自然保护地潜在生态网络,并设置修复障碍点(情景一)和增加踏脚石节点(情景二)2种优化情景进行网络优化,结合生境连通效果和网络稳定性综合评价最优方案。结果表明: 河西走廊自然保护地呈现“一主五次、两横多纵”的潜在生态网络格局。其中,祁连山国家公园对维持整个保护地网络连通性非常重要,位于边缘的保护区和自然公园对维持整个网络连通的功能较弱。识别出生态夹点65处,生态障碍点57处,二者均主要位于河西走廊西部及东部荒漠分布面积较大的区域。2种优化情景中,源地和廊道数量均有不同程度增加,网络闭合度、点线率、网络连接度均有提升。在蓄意和随机攻击模式下的鲁棒性均呈现不同程度的下降趋势,生态网络鲁棒性在情景一中表现出更好的缓冲功能和更强的稳定性,即修复障碍点以促进潜在廊道连通的优化方案对保护地网络连通性及稳定性提升最有效。构建自然保护地生态网络并提出优化策略,可解决自然保护地孤岛化等问题,为河西走廊维护生物多样性、促进可持续发展提供科学支撑,也为自然保护地规划和国土空间生态修复规划提供参考。

关键词: 自然保护地, 生态网络, 电路理论, 荒野地, 河西走廊, 鲁棒性

Abstract: Constructing and optimizing ecological network of natural protected areas is beneficial for mitigating the isolation of natural protected areas and biodiversity conservation. Taking Hexi Corridor as an example, we identified the spatial distribution of wilderness areas. High quality wilderness areas and natural protected areas were consi-dered as ecological source areas. Using the minimum cost distance model and circuit theory to extract ecological corridors and important ecological nodes, we established a potential ecological network of natural protected areas and implement network optimization with two optimization scenarios: restoring barriers (scenario 1) and adding stepping stone nodes (scenario 2). The optimal solution was determined through a comprehensive evaluation of habitat connectivity and network stability. The natural protected areas in Hexi Corridor exhibited an ecological network pattern of “one main corridor, five secon-dary corridors, two horizontal connections, and multiple vertical connections”. Among these, Qilian Mountains National Park played a crucial role in maintaining the overall connectivity of natural reserve network, while the peripheral protected areas and natural parks had weaker functions in sustaining the connectivity of the entire network. A total of 65 ecological pinch points and 57 ecological barriers were identified. Both were primarily located in the western and eastern areas of the Hexi Corridor, with large expanse of desert. In the two optimization scenarios, the number of source areas and corridors increased to varying degrees, and there was an improvement in network closure, point-to-line ratio, and network connectivity. The robustness under deliberate and random attack patterns showed a varying degree of decline. In scenario one, the ecological network exhibited better buffering capabilities and stronger stability, indicating that the optimization strategy of restoring barriers to facilitate potential corridor connectivity was the most effective in enhancing the connectivity and stability of the protected area network. Constructing an ecological network for natural protected areas and proposing optimization strategies can address issues, such as the isolation of natural protected areas. This could provide scientific support for maintaining biodiversity and promoting sustainable development in Hexi Corridor, and serve as a reference for natural reserve planning and ecological restoration planning in national territory.

Key words: nature reserve, ecological network, circuit theory, wilderness area, Hexi Corridor, robustness

连虎刚, 刘春芳, 倪博文, 曲张明. 西北干旱区自然保护地体系生态网络构建及优化: 以河西走廊为例[J]. 应用生态学报, 2025, 36(1): 259-270.

LIAN Hugang, LIU Chunfang, NI Bowen, QU Zhangming. Construction and optimization of ecological network of natural protected areas in the northwestern arid region: A case study of Hexi Corridor[J]. Chinese Journal of Applied Ecology, 2025, 36(1): 259-270.

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