Simulation of national-scale groundwater dynamics in geologically complex aquifer systems: an example from Great Britain

The national-scale British Groundwater Model (BGWM) is implemented to simulate groundwater dynamics and budgets in Great Britain. Notwithstanding the challenges of integrating a very large amount of data, finding a trade-off between computational efficiency and realism, performing automatic calibrat...

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Veröffentlicht in:	Hydrological sciences journal 2024-04, Vol.69 (5), p.572-591
Hauptverfasser:	Bianchi, Marco, Scheidegger, Johanna, Hughes, Andrew, Jackson, Christopher, Lee, Jonathan, Lewis, Melinda, Mansour, Majdi, Newell, Andrew, O'Dochartaigh, Brighid, Patton, Ashley, Dadson, Simon
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Sprache:	eng
Schlagworte:	Aquifer systems Aquifers British aquifers Budgets Climate and population Climatic extremes Great Britain Groundwater groundwater modelling hydrologic models Lithology Parameter uncertainty Population changes water budgets Water resources Water resources management
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creator	Bianchi, Marco Scheidegger, Johanna Hughes, Andrew Jackson, Christopher Lee, Jonathan Lewis, Melinda Mansour, Majdi Newell, Andrew O'Dochartaigh, Brighid Patton, Ashley Dadson, Simon
description	The national-scale British Groundwater Model (BGWM) is implemented to simulate groundwater dynamics and budgets in Great Britain. Notwithstanding the challenges of integrating a very large amount of data, finding a trade-off between computational efficiency and realism, performing automatic calibration, and addressing multiple sources of structural and parameter uncertainty, a quantitative-qualitive evaluation approach showed that the BGWM provides a reasonably accurate digital representation of groundwater systems and processes at a national scale. In this work, the model was applied to understand the variability of budget components across multiple spatial and temporal scales. Comparisons showed regional differences linked to lithological and climatic factors, which in turn can be associated with more or less groundwater resilience to extreme climatic events. There is confidence that the current and future versions of the BGWM can become valuable tools for effective water resources management and adaptation strategies under future climatic and population changes.
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subjects	Aquifer systems Aquifers British aquifers Budgets Climate and population Climatic extremes Great Britain Groundwater groundwater modelling hydrologic models Lithology Parameter uncertainty Population changes water budgets Water resources Water resources management
title	Simulation of national-scale groundwater dynamics in geologically complex aquifer systems: an example from Great Britain
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