Abstract
The purpose of this paper is to determine the spatial spillover effects of renewable energy on carbon emissions in China's less-developed areas. However, few studies have considered this issue from the perspective of less-developed areas. Based on panel data of 21 provinces in China from 2000 to 2017, this paper analyzes the spatial spillover effects of renewable energy on carbon emissions using Moran's I and Spatial Durbin Model (SDM). The results suggest that, first, Moran's I ranges from 0.378 to 0.519, Moran scatter plot presents that provinces are located in the high-high (HH) and low-low (LL) quadrants, indicating provincial carbon emissions in the study area have a significant spatial correlation and agglomeration. Second, under the three matrices, the direct effect coefficients of renewable energy are -0.2522, -0.2639 and -0.2601, this shows that renewable energy is beneficial to local carbon emissions reduction. In contrast, the indirect effect coefficients of renewable energy are 0.0605, 0.1012 and 0.1125, which means higher renewable energy consumption in a single area is conducive to the improvement of carbon emissions to neighbouring areas. Third, urbanization, industrialization, physical capital and other variables have different impacts on local and nearby carbon emissions. This study provides empirical evidence to achieve carbon emission reduction targets by government policymakers.
Highlights
Against the background of carbon peaking and carbon neutralization, carbon emissions reduction has gradually become a broad consensus and conscious action around the world (Cheng and Yao 2021)
Using provincial panel data and Spatial Durbin Model (SDM), this paper studies the spatial spillover effects of renewable energy development on carbon emissions in China’s lessdeveloped areas with the help of three spatial weight matrices. we finds that, carbon emissions in China’s less-developed areas are highly clustered but renewable energy cannot replace fossil energy completely, and the positive effect on carbon emission reduction is not fully revealed
This shows that the carbon emissions of the study area have typical agglomeration characteristics and significant spatial correlation
Summary
Against the background of carbon peaking and carbon neutralization, carbon emissions reduction has gradually become a broad consensus and conscious action around the world (Cheng and Yao 2021). Climate warming caused by the wanton emission of carbon dioxide has serious adverse impacts on global development (Withey 2019; Yang et al 2020). In the face of these crises (Ajani 2013; Qin et al 2020), more countries are seeking to protect the Earth’s fragile ecological system by cooperating within the framework of the Intergovernmental Panel on Climate Change (IPCC). It should be noted that the IPCC has issued five special reports on global climate change, calling on countries around the world to strengthen cooperation and technological innovation to address the risks and challenges of the global carbon crisis (Li et al 2020). Many responsible countries have signed constructive cooperation agreements, such as the United Nations Framework
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