Natural resource consumption and industrial green transformation: Does the digital economy matter?

Is the digital economy driving clean energy development? -New evidence from 276 cities in China

A pathway to sustainable development: Digitization and green productivity

Does the digital economy enhance green total factor productivity in China? The evidence from a national big data comprehensive pilot zone

Green transformation of enterprises is a key link for China to realize green development and an important path for China to achieve high-quality development. This paper utilizes panel data from Chinese A-share listed industrial enterprises from 2009 to 2021 and employs time-varying difference-in-differences (time-varying DID) model to investigate the correlation between digital infrastructure and the enterprise green transformation (EGT). Empirical research indicates that the implementation of the "Broadband China" strategy (BCS) significantly propels EGT. However, its impact is not significant in the long term. Mechanism analysis reveals that the BCS fosters EGT by stimulating green technology innovation (GTI) and alleviating financing constraints (FC). The analysis of supply chain spillover effects reveals that the implementation of the BCS can stimulate the green transformation of downstream enterprises within the supply chain. However, its impact on upstream enterprises is not significant. Heterogeneity analysis reveals that the BCS exerts a more significant effect on the green transformation of enterprises in non-heavily polluting industries, enterprises in the growth stage, and enterprises located in regions with lenient environmental regulations. This paper provides innovative insights for realizing the EGT in theory and offers empirical evidence for the improvement and promotion of the BCS in practice. 

The effect of digital infrastructure development on enterprise green transformation

The digital economy and industrial sustainable development are important issues at this stage. The economic welfare effects of digital economy development have been confirmed by the existing literature, while the impact of digital economy development on industrial pollution emissions remains to be studied. This paper takes the implementation of the “Broadband China” strategy as a quasi-natural experiment, and uses a time-varying difference in difference model (Time-Varying DID) to identify the “industrial pollution reduction effect” of digital economic development. The results show that, (1) digital economy development can significantly reduce industrial SO2 emission intensity, and this “industrial pollution reduction effect” will be heterogeneous according to the changes in geographical location characteristics, urban scale characteristics, and environmental regulation intensity characteristics; (2) digital economy development can reduce industrial pollution emissions without inhibiting industrial output, and this “industrial pollution reduction effect” is mainly caused by the improvement of energy efficiency and the cleaner transformation of industrial production mode brought by biased technological progress, rather than by the traditional neutral technological progress and end-of-pipe treatment; and (3) that the improvement of industrial basic capacity can significantly enhance the “industrial pollution reduction effect” of digital economy development. In the process of promoting the development of the digital economy, China should consider urban characteristics and improve industrial basic capacity.

A Win–Win Opportunity: The Industrial Pollution Reduction Effect of Digital Economy Development—A Quasi-Natural Experiment Based on the “Broadband China” Strategy

Green development is an inherent requirement for effectively responding to severe resource and environmental problems and adapting to major economic and social problems. Based on the panel data of 272 prefecture-level cities in China from 2011 to 2018, this paper takes the next-generation Internet model city policy as a quasi-natural experiment for the first time, and uses the DID model to empirically test the impact and mechanism of the next-generation Internet model city construction on green total factor productivity (GTFP). The results show that the next-generation Internet demonstration city has a significant role in promoting GTFP, and after being rated as a next-generation Internet demonstration city, its GTFP has increased by about 6.3%. This conclusion is still valid after a series of robustness tests, From the mechanism analysis, it is concluded that the next-generation Internet demonstration cities mainly promote GTFP through industrial structure optimization and technological innovation. A further test of heterogeneity shows that the construction of next-generation Internet demonstration cities is more significant in promoting GTFP in large-scale cities and resource-based cities. The research in this article provides a wealth of empirical evidence for the implementation of my country’s next-generation Internet model city policies.

Does the Internet Promote Green Total Factor Productivity? Empirical Evidence from China

Accurate and update assignment of population-related environmental matters onto fine grid cells in oasis cities of arid areas remains challenging. We present the approach based on Suomi National Polar-orbiting Partnership (S-NPP) -Visible Infrared Imaging Radiometer Suite (VIIRS) Day/Night Band (DNB) to reallocate population onto a regular finer surface. The number of potential population to the mercury were reallocated onto 0.1x0.1 km reference grid in Urumqi city cluster of China’s Xinjiang, central Asia. The result of Monte Carlo modelling indicated that the range of 0.5 to 2.4 million people was reliable. The study highlights that the NPP-VIIRS DNB-based multi-layered, dasymetric, spatial method enhances our abilities to remotely estimate the distribution and size of target population at the street-level scale and has the potential to transform control strategies for epidemiology, public policy and other socioeconomic fields.

https://robots.iopscience.iop.org/article/10.1088/1755-1315/57/1/012021/pdf

NPP-VIIRS DNB-based reallocating subpopulations to mercury in Urumqi city cluster, central Asia

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A Win–Win Opportunity: The Industrial Pollution Reduction Effect of Digital Economy Development—A Quasi-Natural Experiment Based on the “Broadband China” Strategy

Does the Internet Promote Green Total Factor Productivity? Empirical Evidence from China

NPP-VIIRS DNB-based reallocating subpopulations to mercury in Urumqi city cluster, central Asia