Litcius/Paper detail

City-level pathways to carbon peak and neutrality in China

Li Zhang, Jianhui Ruan, Zhe Zhang, Ziyu Qin, Zhongyi Lei, Bofeng Cai, Shouyang Wang, Ling Tang

2024Cell Reports Sustainability33 citationsDOIOpen Access PDF

Abstract

Chinese cities need independent but synergetic dual-carbon abatement roadmaps to mitigate climate change and achieve carbon neutrality. Using source-level data, we develop a time-series, full-scale emission inventory for all Chinese cities from 2005 to 2020, exploring associated heterogeneous and homogeneous patterns. We find that 31% of cities have had a significant carbon emission peak, with the main driver being carbon intensity reductions through efficiency gains and structural improvements. Despite discrepant emission levels and socioeconomic determinants, a uniform trajectory in emission changes exists across cities via four emission phases: growth of 8%–9% annually (95% confidence interval) before peaking; plateau and decline by 9%–13% for 5–7 years; and plain with slower declines. We project that if cities follow their early-peaked counterparts' mitigation pathways, China will reach a carbon peak in 2026 at 13 Gt and carbon neutrality during 2051–2058, revealing the feasibility of Chinese climate goals and the importance of long-reaching, city-targeted planning.

Topics & Concepts

ChinaCarbon fibersClimate changeScale (ratio)Environmental sciencePlateau (mathematics)Carbon neutralityEmission intensityConfidence intervalGeographyClimate change mitigationSocioeconomic statusHomogeneousGreenhouse gasNatural resource economicsDemographyEconomicsMathematicsPopulationCartographyStatisticsEngineeringEcologyComposite numberCombinatoricsElectrical engineeringArchaeologyMathematical analysisExcitationBiologyAlgorithmSociologyEnvironmental Impact and SustainabilityAir Quality and Health ImpactsAtmospheric and Environmental Gas Dynamics