生态环境学报2026,Vol.35Issue(2):167-177,11.DOI:10.16258/j.cnki.1674-5906.2026.02.001
碳增汇目标下洞庭湖生态经济区生态空间多尺度识别与分区管控
Multi-scale Identification and Zoning Regulation of Ecological Space in the Dongting Lake Ecological Economic Zone under Carbon Sequestration Goals
摘要
Abstract
Driven by the rapid processes of urbanization and industrialization,the growing contradiction between increasing socioeconomic development demands and the limited supply of national land resources has progressively intensified global climate change.Against the backdrop of increasingly prominent environmental issues,China proposed a long-term strategic goal in 2020 to achieve peak carbon emissions by 2030 and carbon neutrality by 2060.As an essential component of territorial space,ecological spaces possess significant carbon sink capacity.However,under the dual pressures of abrupt land-use changes,such as agricultural production and urban construction,and global warming,the carbon storage capacity of these systems has gradually weakened.Therefore,the scientific identification and management of ecological spaces,rational territorial spatial planning,and enhancement of carbon sink capacity are of great practical significance for promoting regional sustainable development and exploring new models of ecological civilization.The Dongting Lake Ecological Economic Zone,an important part of China's key ecological area in the middle reaches of the Yangtze River,plays a vital role in regional carbon storage and sequestration.However,under the combined influence of river-lake relationship adjustments,climate change,and human activities,the region faces severe ecological challenges,including the encroachment of ecological space,water shortages,biodiversity decline,and wetland function degradation,all of which have further weakened its carbon storage capacity.Consequently,there is an urgent need to explore new models of ecological civilization that integrate sustainable ecological spatial development with coordinated regional management.Despite the increasing recognition of the importance of ecological spaces,their inherent complexity has hindered the establishment of a comprehensive evaluation system,and few studies have focused on the identification and optimization of ecological spaces from the perspective of carbon sink enhancement.In this study,the Dongting Lake Ecological Economic Zone was used as a case study.Using land-use data from 2002 to 2022,we analyzed the spatiotemporal evolution of carbon storage over the past 20 years and identified key indicators of carbon sinks.Considering both the intrinsic functions of ecological patches and their interactions with the landscape environment,and drawing on existing research,we constructed a preliminary ecological space identification index system based on two dimensions:natural and anthropogenic factors.Natural indicators include elevation,slope,surface relief,precipitation,temperature,normalized difference vegetation index(NDVI),and composite habitat quality(CHEQ).Anthropogenic indicators included population distribution,nighttime light intensity,transportation network density,and gross domestic product(GDP).An optimal parameter-based geographical detector was applied to identify the driving factors behind the spatial differentiation of carbon storage,and the final natural and anthropogenic indicators were selected.The CRITIC weighting method was then employed to determine the weights of each indicator,forming an ecological space identification system oriented toward enhancing the carbon sinks.Finally,the natural breaks method was used to classify grid values from low to high into non-ecological,baseline ecological,auxiliary ecological,and core ecological spaces,yielding the spatial distribution of ecological space in the Dongting Lake Ecological Economic Zone from 2002-2022.K-means clustering was used for the multi-scale classification of county-and village-level spaces,forming the basis for the corresponding optimization strategies that followed.The results were as follows:1)From 2002 to 2022,the total carbon storage in the Dongting Lake Ecological Economic Zone showed a continuous decline,decreasing from 621.78×106 Mg to 550.70×106 Mg.Aboveground carbon storage showed the most significant decrease,reaching 57.05×106 Mg.The spatial distribution of carbon storage consistently exhibited a"high in the periphery and low in the center"pattern.High-value areas were mainly concentrated in forest land,water bodies,and wetlands,whereas low-value areas were mainly distributed in cultivated and built-up areas.Single-factor detection revealed that surface relief,DEM,population distribution,slope,and habitat quality were the dominant drivers of the spatial differentiation of carbon storage.2)From 2002 to 2022,core ecological spaces were mainly located in the western and southeastern regions of the study area,dominated by forest land with high forest coverage and strong carbon sink capacity.Auxiliary ecological spaces were distributed around core ecological spaces,serving as buffer zones between core and baseline ecological spaces.Although connectivity was low,these areas showed significant potential for transformation into core ecological spaces.Baseline ecological spaces were primarily concentrated in the central part of the study area,accounting for the largest share among the three types of ecological spaces.By 2022,they occupied 49.31%of the total ecological space.However,driven by regional economic development,urban expansion,and changes in land use structure,their ecological functions and carbon sequestration capabilities have been severely impaired.3)The multi-scale clustering results indicate that at both the county and village levels,high-potential carbon sequestration areas are the least numerous and spatially concentrated,medium-potential areas exhibit fluctuating degradation,and low-potential areas dominate and continue expanding.The regional carbon sequestration structure exhibits a degradation trend characterized by the reduction of high-potential areas and the expansion of low-potential areas,underscoring the urgent need to implement differentiated ecological restoration and spatial regulation strategies.On this basis,this study establishes an ecological space governance framework characterized by"county-level coordination,village-level implementation,graded measures,and synergistic effects".High-potential areas should focus on strict protection,medium-potential areas on optimization and restoration,and low-potential areas on green transition and functional remediation.Furthermore,a county-village-linked ecological restoration system is proposed,along with mechanisms for ecological compensation and green industry development based on carbon sequestration values and the improvement of intelligent monitoring and early warning platforms,with the aim of systematically enhancing regional carbon sequestration capacity and supporting the achievement of"dual carbon"goals.These findings provide a scientific basis for differentiated ecological management at the county level and micro-scale restoration at the village level,thereby supporting the realization of regional carbon neutrality goals and promoting high-quality development.The Dongting Lake Ecological Economic Zone should actively implement ecological space classification and regulatory policies based on carbon sink functions to optimize spatial layouts aimed at enhancing carbon sequestration.This study also provides a replicable research framework and methodological reference for other ecologically sensitive regions in China,contributing to the coordinated development of ecological protection and carbon sink goals.关键词
生态空间/碳储量/多尺度识别/分区管控/洞庭湖生态经济区Key words
ecological space/carbon stock/multi-scale identification/zoning regulation/the Dongting Lake Ecological and Economic Zone分类
资源环境引用本文复制引用
谭洁,王琼,廖朝阳,邓慧婷,张宇,范思毓,李细归..碳增汇目标下洞庭湖生态经济区生态空间多尺度识别与分区管控[J].生态环境学报,2026,35(2):167-177,11.基金项目
湖南省社会科学基金项目(24YBA055) (24YBA055)
