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- Title
Estimating travel time of recharge water through a deep vadose zone using a transfer function model.
- Authors
Mattern, Samuel; Vanclooster, Marnik
- Abstract
We estimate the travel time of percolating water through a deep vadose zone at the regional scale using a transfer function model and a physical based conceptual flow model (Hydrus-1D), thereby exploiting the time series of precipitation, actual evapotranspiration and groundwater piezometry and generic vadose zone data. With the transfer function model we observe a high variability of estimated travel time varying from 0.9 to 3.1 years, corresponding to estimated vertical water flux velocities varying from 6.6 to 28.0 m/year. These results were compared with the travel time estimated from the physical based conceptual model. With the flow model, estimated travel time varies between 4.7 and 15.5 years, corresponding to water flux velocities varying between 1.7 and 4.1 m/year. The estimated travel time calculated with the flow model were therefore about five times larger than those estimated with the transfer function model. This could be explained by the fact that the transfer function model considers heterogeneous recharge from the vadose zone as well as from the vicinity of the piezometer through the so called “pushing effect”. In addition, the flow model requires various hydrogeological and hydrodynamic parameters which were estimated using generic parametrisation approaches, that are largely affected by uncertainty and may not reflect the local conditions. In contrast, the transfer function model only exploits available measurable time series and has the advantage of being site-specific.
- Subjects
ZONE of aeration; TRANSFER functions; WATER table; PLANT transpiration; HYDROGEOLOGY
- Publication
Environmental Fluid Mechanics, 2010, Vol 10, Issue 1/2, p121
- ISSN
1567-7419
- Publication type
Article
- DOI
10.1007/s10652-009-9148-1