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Imaging artificial salt water infiltration using electrical resistivity tomography constrained by geostatistical data
Hermans, T.; Vandenbohede, A.; Lebbe, L.; Martin, R.; Kemna, A.; Beaujean, J.; Nguyen, F. (2012). Imaging artificial salt water infiltration using electrical resistivity tomography constrained by geostatistical data. J. Hydrol. (Amst.) 438-439: 168-180. http://dx.doi.org/10.1016/j.jhydrol.2012.03.021
In: Journal of Hydrology. Elsevier: Tokyo; Oxford; New York; Lausanne; Shannon; Amsterdam. ISSN 0022-1694; e-ISSN 1879-2707, more
Peer reviewed article  

Available in  Authors 
    VLIZ: Open Repository 279793 [ OMA ]

Author keywords
    Salt water intrusion; Electrical resistivity tomography; Geostatistical constraint; Variogram; Inversion; Regularization

Authors  Top 
  • Hermans, T.
  • Vandenbohede, A., more
  • Lebbe, L., more
  • Martin, R.
  • Kemna, A.
  • Beaujean, J., more
  • Nguyen, F., more

Abstract
    Electrical resistivity tomography is a well-known technique to monitor fresh-salt water transitions. In such environments, boreholes are often used to validate geophysical results but rarely used to constrain the geoelectrical inversion. To estimate the extent of salt water infiltration in the dune area of a Natural Reserve (Westhoek, Belgium), electrical resistivity tomography profiles were carried out together with borehole electromagnetic measurements. The latter were used to calculate a vertical variogram, representative of the study site. Then, a geostatistical constraint, in the form of an a priori model covariance matrix based on the variogram, was imposed as regularization to solve the electrical inverse problem. Inversion results enabled to determine the extension of the salt water plume laterally and at depth, but also to estimate the total dissolved solid content within the plume. These results are in agreement with the hydrogeological data of the site. A comparison with borehole data showed that the inversion results with geostatistical constraints are much more representative of the seawater body (in terms of total dissolved solids, extension and height) than results using standard smoothness-constrained inversion. The field results obtained for the Westhoek site emphasize the need to go beyond standard smoothness-constrained images and to use available borehole data as prior information to constrain the inversion.

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