The dynamic impact of economic growth and economic complexity on CO2 emissions: An advanced panel data estimation

The goal of this study is to explore the causal relationship among economic growth, economic complexity and CO2 emissions by using panel data of 95 countries for the period 1996-2015. A novel panel Granger approach proposed by Juodis et al. (2021) is adopted. Under this approach, we can explore the Granger causality in homogeneous or heterogeneous panels. To uncover the heterogeneous causal effects at different income levels, this study further divide the sample into three groups according to their annual income levels. Empirical results show that there are bi-directional causalities among economic growth, economic complexity and CO2 emissions for all groups. However, the magnitudes of the effects are heterogeneous for different groups. As to low-income countries, economic complexity is positive and significant for CO2 emissions, while CO2 emissions are negative for economic complexity. Furthermore, there is a positive interaction between economic complexity and C(O)2 emissions for middle-income countries. Regarding high-income countries, however, increasing economic complexity might effectively reduce CO2 emissions, and CO2 emissions can significantly increase economic complexity. Additionally, economic complexity will prominently decrease GDP in low-income countries. These findings are robust to different economic complexity indexes. Our results suggest that both developing and developed countries should set a reasonable CO2 emissions target, and on this basis, maintain a good balance between economic complexity and CO2 emissions. (C) 2021 Economic Society of Australia, Queensland. Published by Elsevier B.V. All rights reserved.

Automated summary

The study finds that there are bi-directional causalities among economic growth, economic complexity, and CO2 emissions, with heterogeneous effects for different income groups. In low-income countries, economic complexity has a positive impact on CO2 emissions, while CO2 emissions have a negative impact on economic complexity. Middle-income countries show a positive interaction between economic complexity and CO2 emissions, while high-income countries demonstrate that increasing economic complexity could effectively reduce CO2 emissions, and CO2 emissions can significantly increase economic complexity.