Construction of carbon sequestration ecological network in Linyi City based on supply and demand of ecosystem service

doi:10.13287/j.1001-9332.202403.027

Abstract

Abstract: The increasing carbon emissions is one of the important reasons for global warming. As a key area of carbon emissions, carbon sequestration capacity of cities is urgently needed to be improved. Carbon sequestration ser-vices can be transferred between supply and demand areas due to the circulation of atmosphere. With Linyi City as an example, we used the minimum cumulative resistance model to extract the matching path of supply and demand, and constructed a carbon sequestration ecological network. The results showed that the regions with high supply of carbon sequestration services were located in the north and south of the study area, and that current total supply could solve about 60% of the total demand. Although the spatial distribution of supply and demand was uneven, 54% of the areas that could meet the surrounding carbon sequestration demand were still idle. The optimized supply-demand matching paths could maintain good transmission efficiency of material and energy, with lower costs. Paths with strong potential carbon sequestration capacity were located in the central and northwest part of the research area. In the construction of carbon sequestration ecological network, it is necessary to strengthen the protection and restoration of the supply side of carbon sequestration services, realize carbon reduction and strengthen carbon sequestration on the demand side, and optimize the matching path of supply and demand. This method provided services to the demand areas through the oversupply of ecosystem services, optimized the overall resource allocation, which could advance regional carbon sequestration capacity.

Key words: supply and demand of ecosystem service, carbon sequestration service, carbon fixation ecological network, Linyi City

LIANG Huaqiu, SHEN Menghan, SHAO Ming, YAO Peng. Construction of carbon sequestration ecological network in Linyi City based on supply and demand of ecosystem service[J]. Chinese Journal of Applied Ecology, 2024, 35(3): 759-768.

References

[1] Penazzi S, Accorsi R, Manzini R. Planning low carbon urban-rural ecosystems: An integrated transport land-use model. Journal of Cleaner Production, 2019, 235: 96-111
[2] 彭义钧, 吴雪飞. 碳平衡视角下武汉生态控制区碳汇效能演变及调控. 中国城市林业, 2020, 18(5): 77-82
[3] Chen S, Long H, Chen B. Assessing urban low-carbon performance from a metabolic perspective. Science China Earth Sciences, 2021, 64: 1721-1734
[4] Serna-Chavez HM, Schulp CJE, van Bodegom PM, et al. A quantitative framework for assessing spatial flows of ecosystem services. Ecological Indicators, 2014, 39: 24-33
[5] 杨鑫, 高雯雯, 李莎, 等. 基于遥感影像估算的北京中心城区碳储量与气候环境关联性研究. 风景园林, 2022, 29(5): 31-37
[6] 李金珂, 杨玉婷, 张会茹, 等. 秦巴山区近15年植被NPP时空演变特征及自然与人为因子解析. 生态学报, 2019, 39(22): 8504-8515
[7] Fares ALB, Calvao LB, Torres NR, et al. Environmental factors affect macrophyte diversity on Amazonian aquatic ecosystems inserted in an anthropogenic landscape. Ecological Indicators, 2020, 113: 106231
[8] 王嘉丽, 周伟奇. 生态系统服务流研究进展. 生态学报, 2019, 39(12): 4213-4222
[9] 李潇, 吴克宁, 冯喆, 等. 基于固碳服务供需视角的河南省碳平衡研究. 生态学报, 2022, 42(23): 9627-9635
[10] 王耕, 俞乔山. 大连金普新区碳固持生态服务供需格局时空差异. 生态学报, 2023, 43(12): 4847-4857
[11] 陶芹, 陶宇, 欧维新. 不同碳减排目标下长三角地区碳固持服务供需演变分析. 长江流域资源与环境, 2022, 31(1): 191-201
[12] 杨丽雯, 董丽青, 张立伟, 等. 固碳服务供需平衡和服务流量化评估:以引黄入晋南干线为例. 资源科学, 2019, 41(3): 557-571
[13] Su D, Cao Y, Dong XY, et al. Evaluation of ecosystem services budget based on ecosystem services flow: A case study of Hangzhou Bay area. Applied Geography, 2024, 162: 103150
[14] 李婷, 李晶, 王彦泽, 等. 关中-天水经济区生态系统固碳服务空间流动及格局优化. 中国农业科学, 2017, 50(20): 3953-3969
[15] 蔡怡然. 基于生态系统服务流供给侧评价的北京市浅山区生态安全格局研究. 硕士论文. 北京: 北京林业大学, 2021
[16] 任鹏杰, 陈先刚, 王小平. 金沙江河谷大气二氧化碳浓度变化特征及影响因子. 环境科学研究, 2020, 33(2): 252-259
[17] 刘聪芳, 韩炜, 蔡寅潮, 等. 库尔勒近地面CO₂浓度空间分布及影响因素分析. 环境科学与技术, 2020, 43(4): 79-86
[18] Li ST, Xiao QK, Teng MJ, et al. A comprehensive morphological classification scheme for local ventilation performance zones in spatially heterogeneous urban areas. Developments in the Built Environment, 2023, 15: 100202
[19] 孙武, 沈子桐, 乔志强, 等. 城市主城区立体模型的构建与风环境模拟:以广州主城区为例. 生态学报, 2021, 41(7): 2632-2641
[20] 冯娴慧. 城市的风环境效应与通风改善的规划途径分析. 风景园林, 2014(5): 97-102
[21] 俞布, 贺晓冬, 危良华, 等. 杭州城市多级通风廊道体系构建初探. 气象科学, 2018, 38(5): 625-636
[22] 俞孔坚. 生物保护的景观生态安全格局. 生态学报, 1999, 29(1): 10-17
[23] Peng J, Cheng XY, Hu YX, et al. A landscape connectivity approach to mitigating the urban heat island effect. Landscape Ecology, 2022, 37: 1707-1719
[24] Wong MS, Nichol JE, To PH, et al. A simple method for designation of urban ventilation corridors and its application to urban heat island analysis. Building and Environment, 2010, 45: 1880-1889
[25] Qiao Z, Xu XL, Wu F, et al. Urban ventilation network model: A case study of the core zone of capital function in Beijing metropolitan area. Journal of Cleaner Production, 2017, 168: 526-535
[26] Field CB, Behrenfeld MJ, Randerson JT, et al. Primary production of the biosphere: Integrating terrestrial and oceanic components. Science, 1998, 281: 237-240
[27] Gonzalez-Garcia A, Palomo I, Gonzalez JA, et al. Quantifying spatial supply-demand mismatches in ecosystem services provides insights for land-use planning. Land Use Policy, 2020, 94: 104493
[28] 李红波, 黄悦, 高艳丽. 武汉城市圈生态网络时空演变及管控分析. 生态学报, 2021, 41(22): 9008-9019
[29] 王凯, 梁红, 施鹏, 等. 基于“风感”的紧凑型城市开放空间风环境实测和CFD模拟比对研究. 生态学报, 2019, 39(16): 6051-6057
[30] 刘华斌, 杨梅, 李宝勇, 等. 基于生态安全的城市绿色廊道系统规划研究:以南昌市为例. 中国园林, 2020, 36(4): 122-127
[31] 孙赫, 梁红梅, 常学礼, 等. 中国土地利用碳排放及其空间关联. 经济地理, 2015, 35(3): 154-162
[32] 陈明坤, 张清彦, 朱梅安, 等. 成都公园城市三年创新探索与风景园林重点实践. 中国园林, 2021, 37(8): 18-23
[33] 刘家宏, 王佳, 王浩, 等. 海绵城市内涝防治系统的功能解析. 水科学进展, 2020, 31(4): 611-618
[34] 曹康, 金涛. 国外“棕地再开发”土地利用策略及对我国的启示. 中国人口·资源与环境, 2007, 17(6): 124-129
[35] 郑晓笛. 棕地再生的风景园林学探索:以“棕色土方”联结污染治理与风景园林设计. 中国园林, 2015, 31(4): 10-15
[36] 房小怡, 李磊, 刘宛, 等. 我国城市通风廊道研究与实践进展. 生态学杂志, 2021, 40(12): 4088-4098
[37] 梁颢严, 李晓晖, 肖荣波. 城市通风廊道规划与控制方法研究:以《广州市白云新城北部延伸区控制性详细规划》为例. 风景园林, 2014(5): 92-96
[38] 吴园园, 王爱霞, 秦亚楠, 等. 半干旱地区步行街道过渡季微气候生态性营造研究:以呼和浩特市塞上老街、通顺大巷、大召前街为例. 西部人居环境学刊, 2019, 34(3): 26-34
[39] 刘恺希, 刘晖. 基于风环境优化的西安城市开放空间设计策略研究. 中国园林, 2018, 34(增刊1): 50-52
[40] 曾穗平. 基于“源-流-汇”理论的城市风环境优化与CFD分析方法. 博士论文. 天津: 天津大学, 2016