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TitreOn the kriging of water table elevations using collateral information from a digital elevation model
TéléchargerTéléchargements
LicenceVeuillez noter que la Licence du gouvernement ouvert - Canada remplace toutes les licences antérieures.
AuteurDesbarats, A J; Logan, C E; Hinton, M J; Sharpe, D R
SourceSecteur des sciences de la Terre, produit d'information général 15, 2002, 14 pages, https://doi.org/10.4095/306339 (Accès ouvert)
Image
Année2002
ÉditeurRessources naturelles Canada
Documentpublication en série
Lang.anglais
DOIhttps://doi.org/10.4095/306339
Mediaen ligne; numérique
Référence reliéeCette publication est reproduite de Desbarats, A J; Logan, C E; Hinton, M J; Sharpe, D R; (2002). On the kriging of water table elevations using collateral information from a digital elevation model, Journal of Hydrology vol. 255
Formatspdf
ProvinceOntario
SNRC30M/13; 30M/14; 31D/03; 31D/04
Lat/Long OENS -80.0000 -79.0000 44.2500 43.7500
Sujetseau souterraine; niveaux des eaux souterraines; régimes des eaux souterraines; aquifères; géostatistiques; topographie; établissement de modèles; Moraine d'Oak Ridges ; hydrogéologie; géomathématique
Illustrationslocation maps; plots; histograms; variation diagrams; cross-sections; tables; profiles
ProgrammeProjet de la Moraine d'Oak Ridges du CARTNAT
Diffusé2012 03 18
Résumé(disponible en anglais seulement)
In unconfined aquifers flowing under topographic gradients, the water table is a subdued replica of the ground surface above. This principle is the basis for using detailed collateral or secondary information from digital elevation models to supplement sparse observations from water wells in the mapping of phreatic surfaces. Data from DEM-derived secondary variables are incorporated into the estimation of water table elevations using the geostatistical method known as kriging with an external drift (KED). Two different KED models are proposed based on the choice of secondary variable. In the first, water table elevation is expressed as the sum of a deterministic trend given by topographic elevation and a residual random component representing depth to water table. In the second, depth to water table is expressed as a linear function of a deterministic trend, given by the TOPMODEL topographic index, and a residual random error. The relationship between water table depth and topographic index is derived from simplified groundwater dynamics and forms the basis of TOPMODEL-type rainfall-runoff models. The two KED models are applied to the mapping of water table elevations in the Oak Ridges Moraine (ORM), an unconfined aquifer near Toronto, Canada. Results show that KED with topographic elevation as external drift is the more robust of the two models. Despite its strong theoretical basis, the second model yields kriged water table elevations that are not always physically plausible. In part, this is because field observations of water table depth do not verify the predicated relationship with topographic index in large parts of the study area. However, this relationship may be valid in other cases and at other spatial scales. In such cases, the second model would provide a very powerful approach for mapping water table elevations and for calibrating distributed parameters of the TOPMODEL equations on water well observations.
GEOSCAN ID306339