Identification of priority areas for UGI optimisation under carbon neutrality targets: Perspectives from China

Identification of priority areas for UGI optimisation under carbon neutrality targets: Perspectives from China

•A high-precision simulation of NPP in Wuhan was carried out based on Sentinel-2 improved CASA model.•Spatial heterogeneity mechanism of UGI carbon sequestration efficiency was revealed based on the PSR model and Geodetector.•The 'Carbon Sequestration Enhancement Priority Index' (CSEPI) wa...

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Bibliographic Details
Published in:Ecological indicators Vol. 148; p. 110045
Main Authors: Hong, Ge, Tan, Chuandong, Qin, Luyun, Wu, Xuefei
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-04-2023
Elsevier
Subjects:
Carbon sequestration service
Driving mechanisms
Efficiency
Priority areas
Spatial heterogeneity
Urban green infrastructure
Spatial heterogeneity
Carbon sequestration service
Driving mechanisms
Urban green infrastructure
Efficiency
Priority areas
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Summary:•A high-precision simulation of NPP in Wuhan was carried out based on Sentinel-2 improved CASA model.•Spatial heterogeneity mechanism of UGI carbon sequestration efficiency was revealed based on the PSR model and Geodetector.•The 'Carbon Sequestration Enhancement Priority Index' (CSEPI) was proposed to identify the UGI priority areas.•The priority areas could be classified into four categories to facilitate targeted optimization strategies. Carbon neutrality targets are a common objective for cities and regions worldwide, the achievement of which relies on the transformation of urban infrastructure. Urban green infrastructure (UGI) is the only resilient carbon sequestration subsystem within cities in the carbon cycle process; however, a straightforward and feasible evaluation system for guiding the regulation and planning decisions regarding UGI as a carbon sink has yet to emerge. Here, we simulated the net primary productivity (NPP) of vegetation in Wuhan in 2020 based on the Sentinel-2 improved CASA model and assessed the efficiency of UGI carbon sequestration by combining the biomass-carbon conversion coefficient and zonal statistical tool. Potential influencing variables were explored based on the P-S-R model. Then, the optimal parameter-based geodetector revealed the driving mechanism of spatial heterogeneity in the efficiency of the UGI carbon sequestration service supply in highly urbanized regions, based on which we developed the ‘Carbon Sequestration Enhancement Priority Index’ (CSEPI), a strategic planning tool for identifying priority areas in which to implement carbon sink-enhanced field intervention measures. For these ‘high-priority’ areas, further UGI partition management tools and partition optimisation strategies are proposed. Our study contributes to the scientific planning and management of UGI in the context of combating climate change and with limited national public investment.
ISSN:1470-160X
1872-7034
DOI:10.1016/j.ecolind.2023.110045