Unlocking the Carbon Mitigation Potential of Green Infrastructure: Evidence from China’s Sponge City Program

改装 绿色基础设施 环境科学 气候变化 减缓气候变化 碳纤维 雨水 温室气体 环境工程 全球变暖 环境资源管理 环境规划 生命周期评估 自然资源经济学 固碳 持续性 城市规划 碳循环 碳补偿 适应气候变化 业务 环境保护 城市热岛 碳核算 特大城市 可持续发展 土木工程 工程类 解耦(概率) 碳足迹 风暴潮 城市径流 风暴
作者
Hua Chai,Changqing Xu,Siyuan Peng,Yanyan Xia,Hongtao Zhao,Yongwei GONG
出处
期刊:Environmental Science & Technology [American Chemical Society]
卷期号:60 (7): 5479-5491 被引量:1
标识
DOI:10.1021/acs.est.5c14290
摘要

Carbon mitigation and nature-based green infrastructure (GI) have become central themes in global efforts to address climate and urban sustainability. The net carbon benefits of GI and the factors shaping them remain poorly understood due to data and methodological gaps. This study draws on 679 engineering cases from 15 demonstration Sponge Cities in China to conduct multiscale life-cycle carbon accounting of GI. Overall, sponge retrofitting shifted conventional urban surfaces from a net source to a sink. At the infrastructure scale, carbon benefits varied widely across different types of GI, mainly due to differences in construction materials and operational efficiency. At the project scale, all project types achieved net carbon benefits, with variations primarily driven by infrastructure configuration. Regionally, carbon payback periods ranged from 7.5 to 28.6 years, depending on rainfall volume control rates and infrastructure composition, with wetter regions achieving higher net benefits. To maximize cost-effective runoff, pollution, and carbon reduction, NSGA-II favored green roofs and sunken green spaces without considering landscape functions. Ensuring stable carbon benefits under climate change and overdesign storms requires future GI to adopt sustainable and resilient pathways. By integrating life cycle assessment with multiobjective optimization, this study establishes a novel framework for decoupling carbon emissions from infrastructure growth, offering actionable pathways for global carbon-neutral urban design.
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