Eco-efficiency of urban material metabolism: a case study in Shenzhen, China

The keys of studying urban sustainable development are material metabolism flux and efficiency. Metabolism flux of urban materials can only reflect the metabolism velocity, while its eco-efficiency can determine the metabolism capacity to support socio-economic development. The general model and the measure model of the eco-efficiency were set up, based on the source recycle (decreasing the consumption of crude resources) and the terminal recycle (decreasing the discharge of pollutants) of production and life. These models were employed to study material metabolism flux and efficiency in Shenzhen, China. Results showed that water, energy and waste metabolism fluxes have increased since 1998 with constant socio-economic development, and their eco-efficiencies have also increased rapidly. When GDP rose by 2.7 times, the metabolism fluxes of urban water and electricity rose by 1.5 and 3.0 times, respectively. A measure model of the eco-efficiency of urban material metabolism has been constructed based on urban material metabolism flux and its eco-efficiency, and the model has been applied in the study of Shenzhen City. The model can be used to optimize the material metabolism system and promote the healthy development of the urbanization process through determining the degree and cause of environmental degradation for decision-makers.