Signals in water - the deep originated CO2 in the Peschiera-Capone acqueduct in relation to monitoring of seismic activity in central Italy

Claudio Martini

doi:10.7343/as-2016-246

Signals in water - the deep originated CO2 in the Peschiera-Capone acqueduct in relation to monitoring of seismic activity in central Italy

https://doi.org/10.7343/as-2016-246

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Vol. 5 No. 4 (2016)

Submitted: 28 November 2016
Accepted: 21 December 2016

Published: 20 October 2016

Central Lazio hydrogeology, Earth mantle degassing, CO2 measurement in groundwater, Lâ€™Aquila and Amatrice earthquakes

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Claudio Martini
claudio.martini@fastwebnet.it
ACEA ATO2, Italy.

Valuation of the analysis performed on groundwater of Central Lazio by ACEA ATO2 SpA from 2001 to 2016, according to the model proposed by Chiodini et al. in 2004 that identifies in the Tyrrhenian coast of central and southern Italy, two notable releasing areas of the CO2 produced by the sub-crustal magma activity, or two areas of natural degassing of the planet: the TRDS area (Tuscan Roman degassing structure) and the CDS area (Campanian degassing structure). Reconstruction of the CO2 produced by degassing through the analysis of the components of inorganic carbon measured in groundwater of Central Lazio (Rome and Rieti districts) between 2001 and 2016. Causal relationship of the activity of mantle degassing in the TRDS area with the disastrous earthquake occurred at L'Aquila in April 6, 2009. Current use of the dissolved inorganic carbon measurement in the Peschiera and Capore spring waters to monitor the activity of mantle degassing in the TRDS area, in order to have an early warning signal of possible seismic activity in the Central Apennines. Revision and data updating after the earthquake in August 24, 2016 at Amatrice.

Martini, C. (2016). Signals in water - the deep originated CO2 in the Peschiera-Capone acqueduct in relation to monitoring of seismic activity in central Italy. Acque Sotterranee - Italian Journal of Groundwater, 5(4). https://doi.org/10.7343/as-2016-246

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