CN 11-5366/S     ISSN 1673-1530
“风景园林,不只是一本期刊。”

北京市朝阳区城市生态网络演变特征及优化研究

Evolution Characteristics and Optimization of Urban Ecological Network in Chaoyang District, Beijing

  • 摘要: 【目的】生态网络作为整合景观斑块和廊道的有机结构,提升景观连通性是维持生态系统健康的重要途径。完善北京市朝阳区的城市生态网络,可推动生态文明战略背景下的城市绿色空间建设。【方法】以朝阳区为研究区域,选取2005、2010、2015、2020年4个时间节点,利用图论(graph theory)原理工具Graphab进行景观连通性分析,探讨生态网络的演变特征和图论在网络格局优化方面的应用。【结果】发现:2005—2020年,朝阳区绿色空间规模持续提升,斑块总数增加,但平均斑块面积缩减27.3%,网络趋于破碎化;生态网络整体水平上的景观连通性提高,连通概率指数(probability of connectivity, PC)提升35.4%;最大连通单元面积(size of the largest component, SLC)提高,平均连通单元面积(mean size of the components, MSC)下降,核心景观连通单元优势度增强,而平均景观连通单元退化,网络趋于两极化;个体水平上的景观连通性等级空间分布不均,呈现北高南低的格局。【结论】基于图论实现朝阳区生态网络的诊断和优化,识别出4个重要潜在生态斑块的位置,使PC提升11.9%。研究结果可为城市绿色空间的规划发展工作提供决策参考,体现图论在城市生态网络构建及优化中的应用价值。

     

    Abstract: Objective Ecological network is an organic structure integrating landscape patches and corridors, and improving landscape connectivity can effectively maintain ecosystem health. This research aims to improve the urban ecological network of Chaoyang District to promote the construction of urban green spaces under the background of ecological civilization strategy.Methods Taking Chaoyang District as the research area, the research selects four time nodes of 2005, 2010, 2015 and 2020 for a landscape connectivity analysis based on Graphab, a graph theory principle tool, and explores the evolution characteristics of ecological network and the application of graph theory in network pattern optimization.Results From 2005 to 2020, the scale of green space in Chaoyang District continued to increase; the total number of patches increased, while the average patch area decreased by 27.3%, leading to increasingly fragmented ecological network; the overall landscape connectivity of ecological network improved,with the probability of connectivity(PC) increasing by 35.4%; with the increase of size of the largest component(SLC) and the decrease of mean size of the components(MSC), the dominance of core landscape connectivity components is enhanced, while the mean landscape connectivity is degraded, making the ecological network tend to be polarized; the spatial distribution of landscape connectivity grades is uneven at the individual level, presenting a pattern high in the north while low in the south.Conclusion The research realizes the diagnosis and optimization of the ecological network of Chaoyang District based on graph theory, and identifies the positions of four important potential ecological patches, increasing PC by 11.9%. The results provide decision-making references for the planning and development of urban green spaces, and reflects the application value of graph theory in the construction and optimization of urban ecological network.

     

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