Search results for " Earth Degassing"
showing 5 items of 5 documents
Geochemistry of fluids and CO2 output in the southern Apennine (Italy): Preliminary results for cold and thermal waters
2020
Fluid geochemistry and CO2 output in the southern Apennine (Italy): Preliminary results
2019
Preliminary results of carbon degassing in the tectonically active areas of Balkan Peninsula
2020
The deeply derived CO2 from tectonically active areas is contributing in a significant proportion, still unquantified in detail, to CO2 Earth degassing. Several studies highlighted how in these tectonically active areas most of the CO2 is dissolved in the groundwaters circulating in the large regional aquifers hosted by the permeable formations of the active orogens. Quantifying the amount of deep CO2 dissolved into groundwater can represent a powerful tool for regional investigations, because springs are representative of their catchment area that can extend from tens to hundreds of square kilometers. In the framework of a Deep Carbon Observatory supported project, we investigated for the …
Active geodynamic in the central Mediterranean: Transfer of mantle fluids across the north-eastern Sicily
2019
Transfer of mantle derived fluids across the Calabrian-Peloritan arc: tectonic and geodynamic implications
2019
Mantle degassing occurs principally through active volcanic systems and young oceanic lithosphere. Tectonically active regions on the continental crust may additionally contribute a (poorly quantified) fraction of the deep CO2 budget. We studied volatiles in thermal manifestations along the seismically active Nebrodi-Peloritani chains (NE Sicily), to investigate the origin of thermalism and the sources of the outgassing fluids. The geological evolution of the area has been controlled by the interaction between the European and African plates and links the African Maghreb with the European Apennines. The collected samples exhibit 3He excess, supporting active outgassing of mantle-derived vol…