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China’s bulk material loops can be closed but deep decarbonization requires demand reduction

Lulu Song, Stijn Ewijk, Eric Masanet, Takuma Watari, Fanran Meng, Jonathan M. Cullen, Zhi Cao () and Wei-Qiang Chen ()
Additional contact information
Lulu Song: Institute of Urban Environment, Chinese Academy of Sciences
Stijn Ewijk: University College London (UCL)
Eric Masanet: University of California
Takuma Watari: University of Cambridge
Fanran Meng: University of Sheffield
Jonathan M. Cullen: University of Cambridge
Zhi Cao: Nankai University
Wei-Qiang Chen: Institute of Urban Environment, Chinese Academy of Sciences

Nature Climate Change, 2023, vol. 13, issue 10, 1136-1143

Abstract: Abstract China, as the largest global producer of bulk materials, confronts formidable challenges in mitigating greenhouse gas emissions arising from their production. Yet the emission savings resulting from circular economy strategies, such as improved scrap recovery, more intensive use and lifetime extension, remain underexplored. Here we show that, by 2060, China could source most of its required bulk materials through recycling, partially attributable to a declining population. Province-level results show that, while economic development initially drives up material demand, it also enables closed loops as demand approaches saturation levels. Between now and 2060, improved scrap recovery cumulatively reduces greenhouse gas emissions by 10%, while more intensive use, resulting in reduced material demand, reduces emissions by 21%. Lifetime extension offers a modest benefit, leading to a 3% reduction in emissions. Alongside the large potential for recycling, our findings highlight the importance of demand reduction in meeting global climate targets.

Date: 2023
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DOI: 10.1038/s41558-023-01782-6

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