Groundwater flow model, recharge estimation and sustainability in an arid region of Patagonia, Argentina

The Península Valdés, in northeastern Patagonia, Argentina, is characterised by its arid climate and the lack of perennial watercourses; thus, all economic activities depend on the groundwater resources. Water demand is mainly associated with tourism, which is centralised in Puerto Pirámides and sup...

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Bibliographic Details
Published in:Environmental earth sciences 2012-08, Vol.66 (7), p.2097-2108
Main Authors: Alvarez, María del Pilar, Trovatto, María Marta, Hernández, Mario Alberto, González, Nilda
Format: Article
Language:English
Subjects:
Aquifers
Arid climates
Arid zones
Biogeosciences
Desalination
Earth and Environmental Science
Earth Sciences
Environmental science
Environmental Science and Engineering
Evapotranspiration
farming systems
Geochemistry
Geology
groundwater
Groundwater flow
Groundwater recharge
hydraulic conductivity
hydrologic models
Hydrology/Water Resources
Livestock farming
mathematical models
Original Article
planning
rain
sheep
simulation models
Terrestrial Pollution
Tourism
Water demand
Water resources
Watercourses
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Summary:The Península Valdés, in northeastern Patagonia, Argentina, is characterised by its arid climate and the lack of perennial watercourses; thus, all economic activities depend on the groundwater resources. Water demand is mainly associated with tourism, which is centralised in Puerto Pirámides and supplied by a water desalination plant, and to sheep farming, supplied by the local aquifer. Due to the exponential growth of tourism, the government is planning to exploit groundwater and convey it by aqueduct to the abovementioned locality. The objectives of this study were to corroborate the conceptual geohydrological model, to develop a mathematical model to simulate the response of the aquifer to different scenarios, and to assess the incidence of water input into the system as a variable—a function that poses difficulties in the models for arid regions. The Visual Modflow 4.1 code was used, calibrating it in trial-and-error mode, changing the recharge and hydraulic conductivity parameters with different variants in the recharge zone and in the inclusion or exclusion of the evapotranspiration module. Results indicate the importance of the recharge analysis by treating rainfall at daily time steps. The adjusted model was exposed to four scenarios with variations in water input and in output by pumping. It can be concluded that under different input conditions, but with a controlled extraction, the system responds in a sustainable manner.
ISSN:1866-6280
1866-6299
DOI:10.1007/s12665-011-1435-8