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Current travertines precipitation related to artificial CO2 leakages from a natural reservoir (Gañuelas-Mazarrón Tertiary Basin, SE Spain)

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Rodrigo Naharro, Julio and Herrero Fernández, María Josefa and Delgado Huertas, Antonio and Granados, Arsenio and Pérez del Villar Guillén, L. (2019) Current travertines precipitation related to artificial CO2 leakages from a natural reservoir (Gañuelas-Mazarrón Tertiary Basin, SE Spain). Journal of Hydrology, 577 (123997). ISSN 0022-1694, ESSN: 1879-2707

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Official URL: https://www.sciencedirect.com/science/article/pii/S0022169419307176


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Abstract

In the framework of a natural CO2 reservoir with CO2 leakages as an analogue of a failed CO2 deep geological storage, the current precipitation of travertines and the associated upwelling of CO2-rich saline groundwater were analysed. This natural analogue is located in the Gañuelas-Mazarrón Tertiary Basin (SE Spain). The study comprises of the chemistry of both groundwater and travertines, including stable isotopes, mineralogy and petrography of the travertines, all this performed after a review of the geology of the basin. In this sense, the basin gathers the main features of a safe natural CO2 reservoir in a deep saline aquifer sealed by a thick marl formation. The aquifer was artificially perturbed by the drilling of wells, inducing the travertines precipitation at these water discharge points. Groundwater is saline, slightly acid, oversaturated in aragonite and calcite and with significant concentrations of heavy elements, some of them toxic. From an isotopic viewpoint, the relative constant δ13C-DIC values suggest that carbon is mainly inorganic in origin with minor organic and mantle contributions. Travertines are basically composed of aragonite or calcite, their precipitation being controlled by a sudden CO2 degassing and minor biological activity. Their δ13C signatures indicate that carbon mainly has an inorganic origin, although some contribution of organic carbon must be considered as well. Furthermore, these carbonate deposits did not precipitate in isotopic equilibrium, as determined by δ18O values. Finally, it is suggested that the appearance of travertines along with their carbon isotopic signatures represent efficient tools for detecting CO2 leakages from any CO2 storage site.


Item Type:Article
Uncontrolled Keywords:CO2 storage, CO2 leakage, Travertines, Stable isotopes, Natural analogues, Betic Cordillera (Spain)
Subjects:Sciences > Geology > Geochemistry
Sciences > Geology > Petrology
Sciences > Geology > Hidrology
ID Code:57945
Deposited On:27 Nov 2019 18:33
Last Modified:28 Nov 2019 08:49

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