Abstract
Greater complexity in three-dimensional (3D) model structures yields more plausible groundwater recharge/discharge patterns, especially in groundwater/surface-water interactions. The construction of a 3D hydrostratigraphic model prior to flow modelling is beneficial when the hydraulic conductivity of geological units varies considerably. A workflow for 3D hydrostratigraphic modelling with Leapfrog Geo and flow modelling with MODFLOW-NWT was developed. It was used to evaluate how the modelling results for groundwater flow and recharge/discharge patterns differ when using simple or more complex hydrostratigraphic models. The workflow was applied to a study site consisting of complex Quaternary sediments underlain by fractured and weathered crystalline bedrock. Increasing the hydrostratigraphic detail appeared to improve the fit between the observed and simulated water table, and created more plausible groundwater flow patterns. Interlayered zones of low and high conductivity disperse the recharge/discharge patterns, increasing the vertical flow component. Groundwater flow was predominantly horizontal in models in which Quaternary sediments and bedrock were simplified as one layer per unit. It appears to be important to define the interlayered low-conductivity units, which can limit groundwater infiltration and also affect groundwater discharge patterns. Explicit modelling with Leapfrog Geo was found to be effective but time-consuming in the generation of scattered and thin-layered strata.
Highlights
The main aim of hydrogeological studies is often to model groundwater flow, in which the three-dimensional (3D) geological structure is simplified; variation in hydraulic conductivity and the geological structure has a considerable impact on groundwater flow and groundwater discharge patterns, as presented in the study of Freeze and Witherspoon (1967)
A workflow was generated starting with 3D geological modelling using Leapfrog Geo (Seequent Ltd. 2020) followed by 3D hydrostratigraphic modelling and groundwater flow modelling using MODFLOW-NWT (Niswonger et al 2011)
Simple models can give as reasonable results as complex models (e.g. Hudon-Gagnon et al 2015); HSM models indicated that details are important in studies related to recharge/discharge patterns since too simple models led to the underestimation of the vertical flow component and K variation between layers
Summary
The main aim of hydrogeological studies is often to model groundwater flow, in which the three-dimensional (3D) geological structure is simplified; variation in hydraulic conductivity and the geological structure has a considerable impact on groundwater flow and groundwater discharge patterns, as presented in the study of Freeze and Witherspoon (1967). Weak glacial erosion has enabled the preservation of weathered bedrock, which commonly occurs in areas where intrusive or metamorphosed bedrock is exposed (Wright 1992; Hall et al 2015)
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