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- Title
A Stepwise Modelling Approach to Identifying Structural Features That Control Groundwater Flow in a Folded Carbonate Aquifer System.
- Authors
Preziosi, Elisabetta; Guyennon, Nicolas; Petrangeli, Anna Bruna; Romano, Emanuele; Di Salvo, Cristina
- Abstract
This paper concerns a stepwise modelling procedure for groundwater flow simulation in a folded and faulted, multilayer carbonate aquifer, which constitutes a source of good quality water for human consumption in the Apennine Range in Central Italy. A perennial river acts as the main natural drain for groundwater while sustaining valuable water-related ecosystems. The spatial distribution of recharge was estimated using the Thornthwaite–Mather method on 60 years of climate data. The system was conceptualized as three main aquifers separated by two locally discontinuous aquitards. Three numerical models were implemented by gradually adding complexity to the model grid: single layer (2D), three layers (quasi-3D) and five layers (fully 3D), using an equivalent porous medium approach, in order to find the best solution with a parsimonious model setting. To overcome dry-cell problems in the fully 3D model, the Newton–Raphson formulation for MODFLOW-2005 was invoked. The calibration results show that a fully 3D model was required to match the observed distribution of aquifer outflow to the river baseflow. The numerical model demonstrated the major impact of folded and faulted geological structures on controlling the flow dynamics in terms of flow direction, water heads and the spatial distribution of the outflows to the river and springs.
- Subjects
ITALY; GROUNDWATER flow; AQUIFERS; CARBONATE reservoirs; AQUITARDS; FLOW simulations; WATER quality; CARBONATES; CARBONATE minerals
- Publication
Water (20734441), 2022, Vol 14, Issue 16, p2475
- ISSN
2073-4441
- Publication type
Article
- DOI
10.3390/w14162475