Multi-scale Analysis of the Relationships between Solar Activity, CO2 and Global Surface Temperature

To reveal whether the dynamics of solar activity precede those of global temperature, especially in terms of global warming, the relationship between total solar irradiance (TSI), which is treated as a proxy of solar activity, and global surface temperature (GST) is investigated in the frequency domain using wavelet coherence. The results suggest that the effect of TSI on GST is mainly reflected on the characteristic scale around 22 yr, and variations in TSI lead to changes in GST with some delay effect as shown by the phase difference arrows. However, this implicated relationship has been perturbed by excessive CO2 emissions since 1960. Through the combination of co-integration analysis and wavelet coherence, the hidden relationship between TSI and GST has been uncovered without the CO2 effect and the results further indicate that TSI has a positive effect on GST at the characteristic scale around 22 yr with a 3 yr lead.

Automated summary

This study investigates the relationship between total solar irradiance (TSI) and global surface temperature (GST) using wavelet coherence, and finds that TSI has a significant impact on GST with a delay effect at the characteristic scale of 22 years. However, this relationship has been perturbed by excessive CO2 emissions.