Time-frequency relationship between R&D intensity, globalization, and carbon emissions in G7 countries: evidence from wavelet coherence analysis

The seven leading industrial countries, called the G7, are becoming a pivotal group to fulfil their emissions-reduction commitments to manage the climate crisis. This paper investigates the relationships between R&D intensity, globalization, and carbon emissions in the context of the G7 countries for the period from 1970 to 2017. Our analysis, which examines these relationships, focuses on the wavelet coherence approach to conduct time-frequency domain analyses. The empirical results show that there is heterogeneity across different time scales and frequencies for R&D intensity, globalization, and carbon emissions within each country. Specifically, R&D intensity and globalization are negatively correlated with carbon emissions for the G7 countries, except Japan, for which they are positive. The long-term correlations between R&D intensity, globalization, and carbon emissions are higher than those in the short- and medium-term periods. In addition, the multiscale connectedness network results reveal that the strongest bidirectional correlations exist between energy consumption, economic growth, and carbon emissions. Our results provide a useful reference for policymakers in the G7 countries to effectively regulate carbon emissions.