Preliminary geochemical characterization of the Mts. Simbruini karst aquifer (Central Italy)

Marco Vinci Marco Vinci,Maria Luisa Carapezza Maria Luisa Carapezza,Marianna Cangemi Marianna Cangemi,Massimo Ranaldi Massimo Ranaldi,Paolo Madonia Paolo Madonia

doi:10.4401/ag-8698

Marco Vinci Marco Vinci, Maria Luisa Carapezza Maria Luisa Carapezza + Show 3 more

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https://doi.org/10.4401/ag-8698

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Abstract

Mts. Simbruini karst aquifer feeds important springs whose capture contributes to the water supply of Rome City. To improve the geochemical characterization of this aquifer, we analyzed 36 groundwater samples, 29 from springs and 7 from shallow wells, collected in 1996 and 2019. Atomic adsorption spectroscopy, tritration, ionic chromatography and mass spectrometry were the used analytical methods. Ground waters are bicarbonate alkaline-earth type and HCO3 dominance confirms that the aquifer is hosted in carbonate rocks. Total alkalinity vs. cations plot indicates that CO2 driven weathering controls the water chemistry. The probability plots of HCO3, cations and Ca2+ +Mg2+ indicate four groundwater populations with the less represented one (9 samples) characterized by the highest PCO2 values (>0.3 atm). Most anomalous values of the dissolved PCO2 are from springs located near the center of the studied area. Four samples have negative values of d13CCO2 (about -22‰ vs. PDB), indicating its organic origin, but two other samples have positive values (1.6 and 2.6 ‰ vs. PDB), similar to those observed in the CO2 of deep origin discharged at the close Colli Albani volcano. Therefore, geochemical evidence indicates that the Mts. Simbruini aquifer is locally affected by the input of deep originated CO2, likely rising up along fractures, interacting with a recharge of meteoric origin, as evidenced by its d2H and d18O isotopic signatures.

Highlights

Because of the large diffusion worldwide of outcropping limestone rocks, karst aquifers are amongst the most important suppliers of drinkable water [Stevanovic, 2015]
Karst aquifers represent about the 40% of the supply of drinkable water in the Mediterranean in general, and in Italy in particular
In this paper we describe the geochemistry of the Simbruini karst aquifer and discuss the isotopic evidence that suggest the presence of local inputs of deep originated CO2. 2

Summary

Introduction

Because of the large diffusion worldwide of outcropping limestone rocks, karst aquifers are amongst the most important suppliers of drinkable water [Stevanovic, 2015]. Karst aquifers represent about the 40% of the supply of drinkable water in the Mediterranean in general, and in Italy in particular. The 90% of water distributed by the metropolitan aquifer of Rome is of karst origin [Società Speleologica Italiana, 2002]. Many of these are located in the Aniene river valley, between Mts. Simbruini and Mts. Ruffi (Figure 1). The main aquifer of the area is hosted within the Simbruini calcareous rocks, where important karst phenomena

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