Abstract
Economic development depends on energy consumption, which is a major source of carbon emission. How to achieve economic decarbonization has become one of the key questions urgently needing to be solved on the road of carbon peak and carbon neutral development in China. Advancing total factor productivity (TFP) of carbon emission is an important way to promote economic decarbonization. For the carbon emission TFP, current research is mainly conducted from province level or an industry perspective, and studies its deference with various geographical locations, economic development levels, urbanization levels, etc., lacking the research that combines the decoupling effect to carbon emission TFP. The carbon emission TFP of Chinese cities and how to improve it remain unclear. Therefore, based on Tapio decoupling theory, this paper firstly analyzed the decoupling effect of China’s 284 cities from 2005 to 2019, and aggregated the cities into four groups according to the decoupling effect. Then, using the DEA–Malmquist index, this paper researched the carbon emission TFP and its driving factors based on the aggregation. The result shows that weak decoupling is the main decoupling status in China. As a whole, carbon emission TFP of Chinese cities does not perform well, but it shows a growth trend over time. Strong decoupling cities outperform expansive negative decoupling cities on carbon emission TFP. Technical change and pure technical efficiency change have inhibiting effect and promoting effect on carbon emission TFP, respectively, which are the main factors for the difference of carbon emission TFP between strong decoupling cities and expansive negative decoupling cities. Based on these findings, some common but differentiated recommendations are provided for improving Chinese cities’ carbon emission TFP.
Highlights
Published: 11 February 2022In the past century, human activities have caused the global average temperature to rise by 1[1], posing a serious threat to the ecological environment, economic development, and human health
Makridou et al combined the DEA model and Malmquist index to study the energy environmental efficiency and total factor productivity (TFP) of five energy-intensive industries in 23 EU countries [8], and the results showed that the energy efficiency of all sectors was improved during the study period, and technical change played a driving role in the improvement of TFP of energy environment
By using Malmquist index, Tang et al.researched the TFP of environmental regulation in China from provincial level [12], the results showed that environmental regulation TFP enjoyed the agglomeration effect, and at the same time, technical progress had the greatest contribution to TFP of environmental regulation
Summary
Human activities have caused the global average temperature to rise by 1. How to decarbonize the economy by improving efficiency and productivity is an important issue regarding the achievement of emission peaking and carbon neutrality. Based on city levels, studying the decoupling effect can provide in-depth understanding on the economic decarbonization in Chinese cities, while studying the TFP of carbon emission can provide theoretical support for cities to advance their carbon emission efficiency and promote their green and low-carbon transformation. Against this background, this paper aims to study China cities’ decoupling effect and TFP of carbon emission.
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