Publication details

Assessing urban carbon metabolism using network analysis across Chinese and European cities

Authors

FATH Brian D. STRELKOVSKII Nikita WANG Saige CHEN Bin

Year of publication 2023
Type Article in Periodical
Magazine / Source Cleaner Production Letters
MU Faculty or unit

Faculty of Social Studies

Citation
Web https://www.sciencedirect.com/science/article/pii/S2666791623000155
Doi http://dx.doi.org/10.1016/j.clpl.2023.100042
Keywords Urban carbon metabolism; Input-output analysis; Ecological network analysis; Carbon flow
Description Urban metabolism uses the idea that cities are resource consuming systems that are supported by flows of energy and materials, and they produce goods and wastes, which generate greenhouse gas emissions both directly and indirectly. This research builds on other recent applications of input-output and ecological network analyses to urban metabolism with added value of comparing in one study both approaches across Europe and China specifically at the city scale. We use input-output (IO) and ecological network analyses (ENA) in a study of the urban metabolism of four cities, Vienna, Austria, Malmö, Sweden, Beijing and Shanghai, China. Based on economic input-output tables and environmental weighting coefficients, we create a connected network of flows between 17 economic sectors that captures the carbon emissions from transactions in a producer orientation. Ecological network analysis is conducted to identify the main sectors contributing to the direct and indirect carbon emissions in the four cities. Our results reveal these to be Transportation, Manufacturing, and Electricity production. Furthermore, we show that final demand in terms of domestic export is the highest contributor in each city, indicating that each city is a producer overall in the countries’ economies generating carbon flows that are consumed elsewhere.

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