Changing
Urban Carbon Metabolism over Time: Historical
Trajectory and Future Pathway
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Abstract
Cities are expected to play a major
role in carbon emissions mitigation.
A key step in decoupling urban economy from carbon emissions is to
understand the full impact of socioeconomic development on urban metabolism
over time. Herein, we establish a system-based framework for modeling
the variation of urban carbon metabolism through time by integrating
a metabolic flow inventory, input–output model, and network
analysis. Using Beijing as a case study, we track the historical trajectory
of carbon flows embodied in urban final consumption over 1985–2012.
We find that while the tendency of increase in direct carbon emission
continues within this time frame, consumption-based carbon footprint
might have peaked around 2010. Significant transitions in emission
intensity and roles sectors play in transferring carbon over the period
are important signs of decoupling urban development from carbonization.
Our further analysis of driving factors reveals a strong competition
between efficiency gains and consumption level rise, showing a cumulative
contribution of −584% and 494% to total carbon footprint, respectively.
Projection into a future pathway suggests there is still a great potential
for carbon mitigation for the city, but a strong mitigation plan is
required to achieve such decarbonization before 2030. By bridging
temporal metabolic model and socioeconomic planning, this framework
fills one of the main gaps between monitoring of urban metabolism
and design of a low-carbon economy