Abstract
With the great strides of China’s economic development, air pollution has become the norm that is a cause of broad adverse influence in society. The spatiotemporal patterns of sulfur dioxide (SO2) emissions are a prerequisite and an inherent characteristic for SO2 emissions to peak in China. By exploratory spatial data analysis (ESDA) and econometric approaches, this study explores the spatiotemporal characteristics of SO2 emissions and reveals how the socioeconomic determinants influence the emissions in China’s 30 provinces from 1995 to 2015. The study first identifies the overall space- and time-trend of regional SO2 emissions and then visualizes the spatiotemporal nexus between SO2 emissions and socioeconomic determinants through the ESDA method. The determinants’ impacts on the space–time variation of emissions are also confirmed and quantified through the dynamic spatial panel data model that controls for both spatial and temporal dependence, thus enabling the analysis to distinguish between the determinants’ long- and short-term spatial effects and leading to richer and novel empirical findings. The study emphasizes close spatiotemporal relationships between SO2 emissions and the socioeconomic determinants. China’s SO2 emissions variation is the multifaceted result of urbanization, foreign direct investment, industrial structure change, technological progress, and population in the short run, and it is highlighted that, in the long run, the emissions are profoundly affected by industrial structure and technology.
Highlights
China has been the largest developing country in the world
Because the studies that discuss the effects of economic development and population on SO2 emissions are saturated, this paper focused on the effects of industrial structure, technology, urbanization, and foreign direct investment (FDI)
In the spatial econometric analysis, the negligence of the spatial autocorrelation can lead to biased estimates [52]; in addition, the independent variables’ impacts on dependent variable could be overestimated without the incorporation of the dynamic effects/series dependence [58]
Summary
China has been the largest developing country in the world. Since the late 1980s, it has constantly expanded its economic scale and maintained at least a 9% annual economic growth rate over three decades [1,2]. Considerable energy resource consumption has become a substantial cost of such rapid development, and leads to a large amount of sulfur dioxide (SO2 ) emissions. China has inevitably appeared as a big SO2 emitter as well as the largest energy consumer in the world [3]. Despite being the second-largest economy, China has yet fulfilled its historical task, that is, urbanization as well as industrialization [4]. China confronts the challenge of curbing atmospheric pollution emissions when maintaining rapid economic growth [5].
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