Rate of diffuse carbon dioxide Earth degassing estimated from carbon balance of regional aquifers: The case of central Apennine, Italy

Abstract

Central Italy is characterized by an anomalous flux of deeply derived CO₂. In the western Tyrrhenian sector of central Italy, CO₂ degassing occurs mainly from focused emissions (vents and strong diffuse degassing) and thermal springs, whereas in the eastern Apennine area, deep CO₂ is dissolved in “cold” groundwaters of regional aquifers hosted by Mesozoic carbonate‐evaporite formations. Influx of deep CO₂ into 12 carbonate aquifers (12,500 km²) of the central Apennine is computed through a carbon mass balance that couples aquifer geochemistry with isotopic and hydrogeological data. Mass balance calculations estimate that 6.5×10¹⁰ mol yr⁻¹ of inorganic carbon are dissolved in the studied aquifers. Approximately 23% of this amount derives from biological sources active during the infiltration of the recharge waters, 36% comes from carbonate dissolution, while 41% is representative of deep carbon sources characterized by a common isotopic signature (δ¹³C ≅ −3‰). The calculated deep CO₂ influx rate ranges from 10⁵ to 10⁷ mol yr⁻¹ km⁻², increasing regionally from east to west in the study area.