Journal of Hydrology: Regional Studies (Apr 2021)

Integrating current and historical water chemistry data with long-term piezometric records to develop a regional-scale conceptual flow model: Las Salinas spring, Medina del Campo, Spain

  • A. De la Hera-Portillo,
  • J. López-Gutiérrez,
  • C. Marín-Lechado,
  • P. Martínez-Santos,
  • A. Ruíz-Constán,
  • M.M. Corral-Lledó,
  • E. Galindo-Rodríguez,
  • R. Mediavilla,
  • J.I. Santisteban,
  • E. Rodríguez-Jiménez,
  • M.F. Callaú-Lópes

Journal volume & issue
Vol. 34
p. 100781

Abstract

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Study region: Old Las Salinas spring in Medina del Campo, Duero river basin, central Spain. Study focus: Medina del Campo groundwater body (MCGWB) is a multilayer semiconfined aquifer subject to intensive pumping since the 1970’s, where the current existence of spas where there used to be traditional baths could confirm the existence of deep groundwater flow paths. The old spring of Las Salinas (OSLS) is a saline anomaly in an aquifer with predominance of CaCO3H waters whose occurrence has not yet been formally explained. Long-term geological, geophysical, hydrogeological and hydrochemical records were integrated and complemented with field work to clarify its existence. New hydrological insights for the region: Outcomes led to the conclusion that the hydrochemistry of the Olmedo and Palacio de las Salinas salt baths is associated with the existence of a major threshold in the impervious basement of the aquifer, which intercepted deep regional groundwater flow and caused upwelling to the surface under unperturbed conditions. These results allow for the development of a conceptual flow model at the regional scale that explains the changes in natural water chemistry that have been identified in recent decades.

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