Examining spatiotemporal dynamics of CO2 emission at multiscale based on nighttime light data.

Abstract

Carbon emissions have increasingly been the focus of all governments as countries throughout the world choose carbon neutrality as a national development strategy. The analysis of the spatiotemporal dynamics of CO₂ emission has emerged as a significant research topic considering the dual-carbon goal. In this research, we explore the spatiotemporal changes of CO₂ emission at different scales based on nighttime light data. The Chinese Academy of Science's Earth Luminous Dataset, CO₂ emission data from Carbon Emission Accounts and Datasets, and basic national geographical data are used for analysis. A linear regression model between nighttime light data and CO₂ emission is constructed. Thereafter, the global Moran's I index of exploratory spatial data analysis is used to verify the spatial parameters of all provinces. The trend value method is utilized to analyze the changing trend of CO₂ emission at multiscale levels, covering the Chinese mainland, three major economic regions, and six largest agglomerations from 2012 to 2019. Experimental results show a significant positive correlation between the CO₂ emission and nighttime light data from 2012 to 2019. The nighttime light data could be used to effectively estimate the total CO₂ emission at the provincial and municipal levels in China. The growth rate of CO₂ emissions in China is stable and has decreased in 2015. Furthermore, the spatiotemporal dynamics of CO₂ emission in different agglomerations vary. Our work provides a scientific basis for the different provinces and cities to develop feasible emission reduction policies.