Abstract
Earth degassing of CO2-rich fluids has been proven to contribute significantly to the global carbon budget. The presence of ubiquitous outgassing reveals some degree of permeability of the crust that often coincides with seismically active zones. In this study, we took advantage of the most recent global geological datasets to better understand earth degassing and how it correlates with tectonic regimes. Here we use an ad hoc point pattern analysis to show that there is a spatial correlation between CO2 discharges and the presence of active fault systems, in particular with those characterized by a normal slip type. Seismic data demonstrate the existence of a positive spatial correlation between gas discharges and extensional tectonic regimes and confirms that such processes would play a key role in creating pathways for the rising gases at micro- and macro-scales, increasing the rock permeability and connecting the deep crust to the earth surface.
Highlights
Earth degassing of CO2-rich fluids has been proven to contribute significantly to the global carbon budget
Carbon dioxide discharges correlated with tectonic regimes
CO2 discharges and major faults are clustered around the active continental margins (Fig. 2), with the former more concentrated in Central Eastern Europe and western United States and almost absent in cratonic areas (e.g. Australia, northern Asia)
Summary
Earth degassing of CO2-rich fluids has been proven to contribute significantly to the global carbon budget. The further comparison between the mapped earth degassing and seismicity in central Italy[3] revealed an important correlation between gas discharges and normal faults in the Tyrrhenian hinterland.
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