Using non-conservative tracers to characterise karstification processes in the Merinos-Colorado-Carrasco carbonate aquifer system (southern Spain)

The systematic sampling of the chemical composition of the groundwater from five karst springs (including an overflow spring) and one outflowing borehole have permitted to determine distinctive chemical changes in the waters that reflect the geochemical processes occurring in a carbonate aquifer sys...

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Bibliographic Details
Published in:Environmental earth sciences 2014-01, Vol.71 (2), p.585-599
Main Authors: Barberá, J. A, Andreo, B, Almeida, C
Format: Article
Language:English
Subjects:
Aquifer systems
Aquifers
Biogeosciences
Boreholes
Calcite
Carbon dioxide
Carbonates
chemical composition
data collection
Dissolution
Dolomite
Earth and Environmental Science
Earth Sciences
Environmental Science and Engineering
Geochemistry
Geology
Groundwater flow
Gypsum
Hydrogeology
Hydrology/Water Resources
Karst
Minerals
Overflow
Preferential flow
rocks
Saturation index
Springs
springs (water)
Terrestrial Pollution
Thematic Issue
tracer techniques
water management
Water resources
Water springs
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Summary:The systematic sampling of the chemical composition of the groundwater from five karst springs (including an overflow spring) and one outflowing borehole have permitted to determine distinctive chemical changes in the waters that reflect the geochemical processes occurring in a carbonate aquifer system from southern Spain. The analysis of the dissolution parameters revealed that geochemical evolution of the karst waters basically depends on the availability of the minerals forming aquifer rocks and the residence time within the aquifers. In the three proposed scenarios in the aquifers, which include the preferential flow routines, the more important geochemical processes taking place during the groundwater flow from the recharge to the discharge zones are: CO₂ dissolution and exsolution (outgassing), calcite net dissolution, calcite and dolomite sequential dissolution, gypsum/anhydrite and halite dissolution, de-dolomitization and calcite precipitation. A detailed analysis of the hydrochemical data set, saturation indices of the minerals and partial pressure of CO₂ in the waters joined to the application of geochemical modelling methods allowed the elaboration of a hydrogeochemical model of the studied aquifers. The developed approach contributes to a better understanding of the karstification processes and the hydrogeological functioning of carbonate aquifers, the latter being a crucial aspect for the suitable management of the water resources.
ISSN:1866-6280
1866-6299
DOI:10.1007/s12665-013-2754-8