Construction of urban landscape ecological security pattern based on circuit theory: A case study of Hengyang City, Hunan Province, China

doi:10.13287/j.1001-9332.202107.020

Abstract

Abstract: The identification of ecological sources and corridors plays an important role in the construction of ecological security pattern. However, previous studies mainly concentrated on the optimal path selection of species migration and diffusion rather than the random path selection of the species, which makes most conclusions fail to objectively reveal the process of species migration and diffusion. Taking the downtown area of Hengyang City as an example, we selected the ecological sources and ecological corridors with the habitat quality analysis module of InVEST and Circuitscape 4.0 and evaluated the importance and connectivity of relevant ecological elements with the Linkage Mapper, with the aim to construct the ecological security pattern and delimitate the regions prior to ecological restoration. The results showed that there were 85 ecological sources dominated by woodland and grassland, together with a small number of ponds and beaches, which mainly distributed in the southwest of Zhengxiang District, the west of Yanfeng District, the northeast and south central of Zhuhui District, with a total area of 11.8 km². There were 60 ecological sources with centrality greater than 100, accounting for 70.6% of the total. There were 217 ecological corridors and five potential ecological corridors mainly composed of forest land, among which the proportion of shrubbery and sparse forest land was higher. The corridors with higher importance were mainly distributed in the west of the studied area. After removing the barriers, the regional connectivity had been significantly improved, with the highest extent of 54.9%. The priority areas of ecological restoration were classified into three levels according to the value of cumulative current, namely, the high-grade area, the middle-grade area and the low-grade area. The high-grade area covered 4.3 km² of barriers, mainly distributed in the southwest of Zhengxiang District, northeast and south central of Zhuhui District. The middle-grade area was dominated by pinch area and ecological source area with centrality less than 100, covering an area of about 12.9 km², mainly distributed in the central part of Zhengxiang District, northeast and south central of Zhuhui District. The low-level area was mainly distributed in south central of Zhuhui District, with 51.8 km² of residual ecological sources. By coupling InVEST habitat quality analysis module and circuit theory, the ecological security pattern for biological protection was constructed, which provides scientific reference for biological protection.

Key words: InVEST model, circuit theory, ecological security pattern, landscape connectivity

LI Tao, GONG Ya-bo, GE Jian-zhai, QI Zeng-xiang, XIE Shui-bo. Construction of urban landscape ecological security pattern based on circuit theory: A case study of Hengyang City, Hunan Province, China[J]. Chinese Journal of Applied Ecology, 2021, 32(7): 2555-2564.

References

[1] 彭建, 赵会娟, 刘焱序, 等. 区域生态安全格局构建研究进展与展望. 地理研究, 2017, 36(3): 407-419 [Peng J, Zhao H-J, Liu Y-X, et al. Research progress and prospect on regional ecological security pattern construction. Geographical Research, 2017, 36(3): 407-419]
[2] 刘世梁, 侯笑云, 尹艺洁, 等. 景观生态网络研究进展. 生态学报, 2017, 37(12): 3947-3956 [Liu S-L, Hou X-Y, Yin Y-J, et al. Research progress on landscape ecological networks. Acta Ecologica Sinica, 2017, 37(12): 3947-3956]
[3] 李慧, 李丽, 吴巩胜, 等. 基于电路理论的滇金丝猴生境景观连通性分析. 生态学报, 2018, 38(6): 2221-2228 [Li H, Li L, Wu G-S, et al. Analysis of the landscape-level connectivity of the Yunnan snub-nosed monkey habitat based on circuit theory. Acta Ecologica Sinica, 2018, 38(6): 2221-2228]
[4] 宋利利, 秦明周. 整合电路理论的生态廊道及其重要性识别. 应用生态学报, 2016, 27(10): 3344-3352 [Song L-L, Qin M-Z. Identification of ecological corridors and its importance by integrating circuit theory. Chinese Journal of Applied Ecology, 2016, 27(10): 3344-3352]
[5] 朱捷, 苏杰, 尹海伟, 等. 基于源地综合识别与多尺度嵌套的徐州生态网络构建. 自然资源学报, 2020, 35(8): 1986-2001 [Zhu J, Su J, Yin H-W, et al. Construction of Xuzhou ecological network based on comprehensive sources identification and multi-scale nesting. Journal of Natural Resources, 2020, 35(8): 1986-2001]
[6] 刘佳, 尹海伟, 孔繁花, 等. 基于电路理论的南京城市绿色基础设施格局优化. 生态学报, 2018, 38(12): 4363-4372 [Liu J, Yin H-W, Kong F-H, et al. Structure optimization of circuit theory-based green infrastructure in Nanjing, China. Acta Ecologica Sinica, 2018, 38(12): 4363-4372]
[7] 李久林, 徐建刚, 储金龙. 基于Circuit理论的城市生态安全格局研究——以安庆市为例. 长江流域资源与环境, 2020, 29(8): 1812-1824 [Li J-L, Xu J-G, Chu J-L. Constructing the urban ecological security pattern of Anqing City by circuit theory. Resources and Environment in the Yangtze Basin, 2020, 29(8): 1812-1824]
[8] 史学民, 秦明周, 李斌, 等. 基于MSPA和电路理论的郑汴都市区绿色基础设施网络研究. 河南大学学报: 自然科学版, 2018, 48(6): 631-638 [Shi X-M, Qin M-Z, Li B, et al. Research on the green infrastructure network in the Zhengzhou-Kaifeng Metropolitan Area based on MSPA and circuit theory. Journal of Henan University: Natural Science, 2018, 48(6): 631-638]
[9] 倪庆琳, 丁忠义, 侯湖平, 等. 基于电路理论的生态格局识别与保护研究——以宁武县为例. 干旱区资源与环境, 2019, 33(5): 67-73 [Ni Q-L, Ding Z-Y, Hou H-P, et al. Ecological pattern recognition and protection based on circuit theory. Journal of Arid Land Resources and Environment, 2019, 33(5): 67-73]
[10] 黄九明. 基于电路理论的济南市生态安全格局构建研究. 硕士论文. 北京: 中国地质大学(北京), 2020 [Huang J-M. Study on the Space Demarcation and Control Measures of Jinan City based on the Niche Fitness Model. Master Thesis. Beijing: China University of Geosciences, Beijing, 2020]
[11] 李晟, 李涛, 彭重华, 等. 基于综合评价法的洞庭湖区绿地生态网络构建. 应用生态学报, 2020, 31(8): 2687-2698 [Li S, Li T, Peng Z-H, et al. Construction of green space ecological network in Dongting Lake region with comprehensive evaluation method. Chinese Journal of Applied Ecology, 2020, 31(8): 2687-2698]
[12] 张豆, 渠丽萍, 张桀滈. 基于生态供需视角的生态安全格局构建与优化——以长三角地区为例. 生态学报, 2019, 39(20): 7525-7537 [Zhang D, Qu L-P, Zhang J-H. Ecological security pattern construction method based on the perspective of ecological supply and demand: A case study of Yangtze River Delta. Acta Ecologica Sinica, 2019, 39(20): 7525-7537]
[13] 于亚平, 尹海伟, 孔繁花, 等. 基于MSPA的南京市绿色基础设施网络格局时空变化分析. 生态学杂志, 2016, 35(6): 1608-1616 [Yu Y-P, Yin H-W, Kong F-H, et al. Analysis of the temporal and spatial pattern of the green infrastructure network in Nanjing, based on MSPA. Chinese Journal of Ecology, 2016, 35(6): 1608-1616]
[14] 邱瑶, 常青, 王静. 基于MSPA的城市绿色基础设施网络规划——以深圳市为例. 中国园林, 2013, 29(5): 104-108 [Qiu Y, Chang Q, Wang J. A MSPA-based planning of urban green infrastructure network: A case of Shenzhen. Chinese Landscape Architecture, 2013, 29(5): 104-108]
[15] 曹翊坤, 付梅臣, 谢苗苗, 等. 基于LSMM与MSPA的深圳市绿色景观连通性研究. 生态学报, 2015, 35(2): 526-536 [Cao Y-K, Fu M-C, Xie M-M, et al. Landscape connectivity dynamics of urban green landscape based on morphological spatial pattern analysis (MSPA) and linear spectral mixture model (LSMM) in Shenzhen. Acta Ecologica Sinica, 2015, 35(2): 526-536]
[16] 许峰, 尹海伟, 孔繁花, 等. 基于MSPA与最小路径方法的巴中西部新城生态网络构建. 生态学报, 2015, 35(19): 6425-6434 [Xu F, Yin H-W, Kong F-H, et al. Developing ecological networks based on MSPA and the least-cost path method: A case study in Bazhong Western New District. Acta Ecologica Sinica, 2015, 35(19): 6425-6434]
[17] 李国煜, 林丽群, 伍世代, 等. 生态源地识别与生态安全格局构建研究——以福建省福清市为例. 地域研究与开发, 2018, 37(3): 120-125 [Li G-Y, Lin L-Q, Wu S-D, et al. Recognition of ecological source and ecological security pattern construction: A case study of Fuqing City. Areal Research and Development, 2018, 37(3): 120-125]
[18] 蒙吉军, 王雅, 王晓东, 等. 基于最小累积阻力模型的贵阳市生态安全格局构建. 长江流域资源与环境, 2016, 25(7): 1052-1061 [Meng J-J, Wang Y, Wang X-D, et al. Construction of landscape ecological security pattern in Guiyang based on MCR model. Resources and Environment in the Yangtze Basin, 2016, 25(7): 1052-1061]
[19] 王琦, 付梦娣, 魏来, 等. 基于源-汇理论和最小累积阻力模型的城市生态安全格局构建——以安徽省宁国市为例. 环境科学学报, 2016, 36(12): 4546-4554 [Wang Q, Fu M-D, Wei L, et al. Urban ecological security pattern based on source-sink landscape theory and MCR model: A case study of Ningguo City, Anhui Province. Acta Scientiae Circumstantiae, 2016, 36(12): 4546-4554]
[20] McRae BH. Isolation by resistance. Evolution, 2006, 60: 1551-1561
[21] McRae BH, Beier P. Circuit theory predicts gene flow in plant and animal populations. Proceedings of the Natio-nal Academy of Sciences of the United States of America, 2007, 104: 19885-19890
[22] McRae BH, Dickson BG, Keitt TH, et al. Using circuit theory to model connectivity in ecology, evolution, and conservation. Ecology, 2008, 89: 2712-2724
[23] Fisher G, Velthuizen HV, Shah M, et al. Global Agroecological Assessment for Agriculture in the 21st Cen-tury: Methodology and Results. Rome: International Institute for Applied Systems Analysis Press, 2002
[24] Shah VB, McRae BH. Circuitscape: A tool for landscape ecology. Proceedings of the 7th Python in Science Conference, Cambridge, 2008: 62-65
[25] 庞海燕, 李咏华. 基于InVEST的生境质量分析与影响机制研究——以2000—2015年杭州市为例//中国城市规划学会. 活力城乡·美好人居——2019中国城市规划年会论文集(08城市生态规划). 重庆: 中国城市规划学会, 2019: 141-152 [Pang H-Y, Li Y-H. Study on habitat quality assessment and impact mechanism based on InVEST: Taking Hangzhou from 2000 to 2015 as an example//Urban Planning Society of China, ed. Proceedings of China Urban Planning Annual Meeting 2019 (08 Urban Ecological Planning). Chongqing: Urban Planning Society of China, 2019: 141-152]
[26] Beier P, Spencer W, Baldwin RF, et al. Best science practices for developing regional connectivity maps. Conservation Biology, 2011, 25: 879-892
[27] Shah VB. An Interactive System for Combinatorial Scientific Computing with an Emphasis on Programmer Productivity. PhD Thesis. Santa Barbara, CA, USA: University of California, 2007
[28] Dickson BG, Roemer GW, McRae BH, et al. Models of regional habitat quality and connectivity for pumas (Puma concolor) in the southwestern United States. PLoS One, 2013, 8(12): e81898
[29] 中华人民共和国自然资源部. 衡阳市土地利用总体规划(2006—2020年) [EB/OL]. (2011-07-16) [2020-10-20]. http://g.mnr.gov.cn/201808/t20180804_2159524.html [Ministry of Natural Resources of the People's Republic of China. General Land-use Planning of Hengyang (2006-2020) [EB/OL]. (2011-07-16) [2020-10-20]. http://g.mnr.gov.cn/201808/t20180804_2159524.html]
[30] 衡阳市人民政府. 衡阳统计年鉴(2019年) [EB/OL]. (2020-01-15) [2020-10-20]. https://www.hengyang.gov.cn/sjfb/sjxz/20201207/i2230197.html [People's Government of Hengyang. Statistical Yearbook of 2019 [EB/OL]. (2020-01-15) [2020-10-20]. https://www.hengyang.gov.cn/sjfb/sjxz/20201207/i2230197.html]
[31] 衡阳市人民政府. 衡阳市2019年国民经济和社会发展统计公报 [EB/OL]. (2020-03-18) [2020-10-20]. https://www.hengyang.gov.cn/sjfb/tjgb/20200318/i1848955.html [People's Government of Hengyang. Statistical Bulletin of National Economic and Social Development of Hengyang in 2019 [EB/OL]. (2020-03-18) [2020-10-20]. https://www.hengyang.gov.cn/sjfb/tjgb/20200318/i1848955.html]
[32] Spear SF, Balkenhol N, Marie JF, et al. Use of resis-tance surfaces for landscape genetic studies: Considerations for parameterization and analysis. Molecular Eco-logy, 2010, 19: 3576-3591
[33] Zeller KA, Mcgarigal K, Whiteley AR. Estimating landscape resistance to movement: A review. Landscape Ecology, 2012, 27: 777-797