整合生态空间的县域生态安全格局识别与构建——以武夷山市为例

doi:10.13292/j.1000-4890.202305.017

生态学杂志 ›› 2023, Vol. 42 ›› Issue (5): 1197-1204.doi: 10.13292/j.1000-4890.202305.017

整合生态空间的县域生态安全格局识别与构建——以武夷山市为例

文惠^1,2,邓西鹏³,李颖^1,2,王晨³,王李睿^1,2,何东进^1,2,4,巫丽芸^1,2,游巍斌^1,2*

(¹福建农林大学林学院，福州 350002； ²福建省南方森林资源与环境工程技术研究中心，福州 350002； ³福建省地质测绘院，福州 350011; ⁴福建农业职业技术学院，福州 350119)

出版日期:2023-05-10 发布日期:2023-05-05

Identification and construction of county-level ecological security pattern integrating ecological space: A case study of Wuyishan City.

WEN Hui^1,2, DENG Xipeng³, LI Ying^1,2, WANG Chen³, WANG Lirui^1,2, HE Dongjin^1,2, WU Liyun^1,2, YOU Weibin^1,2*#br#

#br#

(¹College of Forestry, Fujian Agriculture and Forestry University, Fuzhou 350002, China; ²Fujian Southern Forest Resources and Environmental Engineering Technology Center, Fuzhou 350002, China; ³Fujian Geological Surveying and Mapping Institute, Fuzhou 350011, China; ⁴Fujian Vocational College of Agriculture, Fuzhou 350119, China).

Online:2023-05-10 Published:2023-05-05

摘要/Abstract

摘要： 生态空间的合理划设是科学构建生态安全格局的重要基础之一。以福建省县级市武夷山市为研究区域，在生态系统服务重要性评价和生态敏感性评价的基础上，划设了武夷山市的禁止开发区、限制开发区和一般开发区，面积分别为1079.71、1267.22和375.35 km²，各占全市总面积的39.7%、46.6%和13.8%。整合空间分区结果，结合现有的自然保护地，使用最小阻力模型构建了武夷山市生态安全格局。结果表明：武夷山市识别了生态源地总面积1322.22 km²，占全市总面积的47.3%；确定了生态廊道755 km、生态节点55个；划分了高、中和低3种生态安全水平格局，面积分别为904.89、511.09和1392.15 km²，各占研究区面积的32.2%、49.6%和18.2%。研究结果为武夷山市的国土空间合理管控提供了依据。

关键词: 生态空间, 安全格局, 最小阻力模型, 生态评价, 武夷山

Abstract: The rational allocation of ecological space is one of the important bases for constructing ecological security. Taking Wuyishan City, a county-level city in Fujian Province, as the study area, we delimited the forbidden development zone, restricted development zone and general development zone based on ecosystem service importance assessment and ecological sensitivity assessment. The three types of zones covered 1079.71, 1267.22, and 375.35 km² respectively, accounting for 39.7%, 46.6%, and 13.8% of the total area of the city, respectively. Integrating the results of spatial zoning, combined with the existing natural protection area in Wuyishan City, the Minimum Cumulative Resistance model was used to construct the ecological security pattern. The area of ecological sources was identified as 1322.22 km², accounting for 47.3% of the total area of Wuyishan City. A total of 755 km ecological corridors and 55 ecological nodes were determined. Three ecological security level patterns were classified, which were 904.89, 511.09 and 1392.15 km² respectively, accounting for 32.2%, 49.6% and 18.2% of the study area, respectively. Our results provide a basis for the rational control of territorial space of Wuyishan City.

Key words: ecological space, ecological security pattern, minimal cumulative resistance model, ecological evaluation, Wuyi Mountain.

文惠, 邓西鹏, 李颖, 王晨, 王李睿, 何东进, 巫丽芸, 游巍斌. 整合生态空间的县域生态安全格局识别与构建——以武夷山市为例[J]. 生态学杂志, 2023, 42(5): 1197-1204.

WEN Hui, DENG Xipeng, LI Ying, WANG Chen, WANG Lirui, HE Dongjin, WU Liyun, YOU Weibin. Identification and construction of county-level ecological security pattern integrating ecological space: A case study of Wuyishan City.[J]. Chinese Journal of Ecology, 2023, 42(5): 1197-1204.

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整合生态空间的县域生态安全格局识别与构建——以武夷山市为例

Identification and construction of county-level ecological security pattern integrating ecological space: A case study of Wuyishan City.

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