4.7 Article

Impact of model parameterization on predictive uncertainty of regional groundwater models in the context of environmental impact assessment

Journal

ENVIRONMENTAL IMPACT ASSESSMENT REVIEW
Volume 90, Issue -, Pages -

Publisher

ELSEVIER SCIENCE INC
DOI: 10.1016/j.eiar.2021.106620

Keywords

Groundwater modelling; Uncertainty analysis; Model complexity; Model simplification; Model parameterization

Funding

  1. CSIRO's Gas Industry Social and Environmental Research Alliance

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The parameterization strategy significantly influences the outputs and associated uncertainty of models, with simpler parameterization leading to wider prediction ranges and more complex parameterization providing more accurate results. The choice of model parameterization has a significant impact on predictive uncertainty and should be explicitly discussed in groundwater modeling applications to support decision making and avoid misinterpretation of modeling results.
Parameterization strategy impacts models' outputs and the associated uncertainty. This is particularly true for transient regional groundwater models where parameters can only be weakly constrained by insufficient observations. However, this is rarely investigated under any particular model structure. This study bridges this gap using a regional groundwater model developed to understand the impact of coal seam gas extraction on groundwater systems in a probabilistic framework. Two different parameterization schemes were implemented for hydraulic conductivity and specific storage. The first method solely relies on the relationship between hydraulic properties and burial depths. The second more complex strategy allows more spatial variations of hydraulic parameters using pilot points. The study provides new insights and practical guidance on the application of groundwater modelling for environmental impact assessment. The results suggest that the choice of model parameterization has a significant influence on predictive uncertainty. The model using the simple parameterization provides predictions with a much wider range than the model with a more sophisticated parameterization. This is because that the lowly parameterized model tends to generate more extreme effective hydraulic parameter fields unless the parameterization simplification converts the inverse problem to a (close to) wellposed problem that rarely exists for applied regional groundwater modelling. The potential impact of model parameterization should be discussed explicitly in groundwater modelling applications to support decision making to avoid misinterpretation of the modelling results.

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