Examination of groundwater recharge with a calibrated/validated flow model of the deep vadose zone

T. Turkeltaub, D. Kurtzman, G. Bel, O. Dahan

Research output: Contribution to journalArticlepeer-review

54 Scopus citations


Recharge estimations are required for efficient groundwater systems management. Better estimations could be obtained by improving our understanding of the relationship between climate factors and recharge. This study explores the calibration of a Richards' equation-based model to transient deep vadose zone data, thereby allowing simulation of groundwater recharge over long periods and an investigation of the temporal correlations between recharge and precipitation. An array of four vadose zone-monitoring systems implemented in four different slanted boreholes drilled in different orientations into a deep vadose zone sandy formation (20m×20m×20m) enabled continuous monitoring of water content at selected depths and locations across the entire vadose zone under a Mediterranean climate. This unique high-resolution set of transient deep vadose zone data was used for inverse simulations. The flow model was then validated with a set of data under different atmospheric boundary conditions. The long-term mean annual recharge under a natural sand dune was calculated as 327mm year-1, 72% of the average annual precipitation (1996/7-2012/3), reflecting low evapotranspiration and runoff. The temporal cross-correlation analysis showed high correlations between the accumulated precipitation (over 6-9months) and the monthly recharge after 3 to 4months. Therefore, we conclude that the recharge fluxes are mainly influenced by the relatively recent (5-12-months) precipitation patterns. Including this time lag between precipitation and recharge, a predictive regression model was developed in which the May-to-April recharge is explained by annual precipitation in the previous year.

Original languageEnglish
Pages (from-to)618-627
Number of pages10
JournalJournal of Hydrology
StatePublished - 1 Mar 2015


  • Deep percolation
  • Flow and transport model
  • Groundwater recharge
  • Vadose zone

ASJC Scopus subject areas

  • Water Science and Technology


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