GMD perspective: The quest to improve the evaluation of groundwater representation in continental-to global-scale models

Tom Gleeson; Thorsten Wagener; Petra Döll; Samuel C. Zipper; Charles West; Yoshihide Wada; Richard Taylor; Bridget Scanlon; Rafael Rosolem; Shams Rahman; Nurudeen Oshinlaja; Reed Maxwell; Min Hui Lo; Hyungjun Kim; Mary Hill; Andreas Hartmann; Graham Fogg; James S. Famiglietti; Agnès Ducharne; Inge De Graaf; Mark Cuthbert; Laura Condon; Etienne Bresciani; Marc F.P. Bierkens

doi:10.5194/gmd-14-7545-2021

GMD perspective: The quest to improve the evaluation of groundwater representation in continental-to global-scale models

Tom Gleeson^*, Thorsten Wagener, Petra Döll, Samuel C. Zipper, Charles West, Yoshihide Wada, Richard Taylor, Bridget Scanlon, Rafael Rosolem, Shams Rahman, Nurudeen Oshinlaja, Reed Maxwell, Min Hui Lo, Hyungjun Kim, Mary Hill, Andreas Hartmann, Graham Fogg, James S. Famiglietti, Agnès Ducharne, Inge De GraafMark Cuthbert, Laura Condon, Etienne Bresciani, Marc F.P. Bierkens

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Continental-to global-scale hydrologic and land surface models increasingly include representations of the groundwater system. Such large-scale models are essential for examining, communicating, and understanding the dynamic interactions between the Earth system above and below the land surface as well as the opportunities and limits of groundwater resources. We argue that both large-scale and regional-scale groundwater models have utility, strengths, and limitations, so continued modeling at both scales is essential and mutually beneficial. A crucial quest is how to evaluate the realism, capabilities, and performance of large-scale groundwater models given their modeling purpose of addressing large-scale science or sustainability questions as well as limitations in data availability and commensurability. Evaluation should identify if, when, or where large-scale models achieve their purpose or where opportunities for improvements exist so that such models better achieve their purpose. We suggest that reproducing the spatiotemporal details of regional-scale models and matching local data are not relevant goals. Instead, it is important to decide on reasonable model expectations regarding when a large-scale model is performing "well enough"in the context of its specific purpose. The decision of reasonable expectations is necessarily subjective even if the evaluation criteria are quantitative. Our objective is to provide recommendations for improving the evaluation of groundwater representation in continental-to global-scale models. We describe current modeling strategies and evaluation practices, and we subsequently discuss the value of three evaluation strategies: (1) comparing model outputs with available observations of groundwater levels or other state or flux variables (observation-based evaluation), (2) comparing several models with each other with or without reference to actual observations (model-based evaluation), and (3) comparing model behavior with expert expectations of hydrologic behaviors in particular regions or at particular times (expert-based evaluation). Based on evolving practices in model evaluation as well as innovations in observations, machine learning, and expert elicitation, we argue that combining observation-, model-, and expert-based model evaluation approaches, while accounting for commensurability issues, may significantly improve the realism of groundwater representation in large-scale models, thus advancing our ability for quantification, understanding, and prediction of crucial Earth science and sustainability problems. We encourage greater community-level communication and cooperation on this quest, including among global hydrology and land surface modelers, local to regional hydrogeologists, and hydrologists focused on model development and evaluation.

Original language	English
Pages (from-to)	7545-7571
Number of pages	27
Journal	Geoscientific Model Development
Volume	14
Issue number	12
DOIs	https://doi.org/10.5194/gmd-14-7545-2021
Publication status	Published - 13 Dec 2021

Bibliographical note

Funding Information:
Acknowledgements. The commentary is based on a workshop at the University of Bristol as well as significant debate and discussion before and after. This community project was directly supported by a Benjamin Meaker Visiting Professorship at the University of Bristol to Tom Gleeson and by funding from the Alexander von Humboldt Foundation to Thorsten Wagener in the framework of the Alexander von Humboldt Professorship endowed by the German Federal Ministry of Education and Research. We thank many members of the community who contributed to the discussions, especially at the IGEM (Impact of Groundwater in Earth System Models) workshop in Taiwan.

Publisher Copyright:
© Copyright:

Funding

Acknowledgements. The commentary is based on a workshop at the University of Bristol as well as significant debate and discussion before and after. This community project was directly supported by a Benjamin Meaker Visiting Professorship at the University of Bristol to Tom Gleeson and by funding from the Alexander von Humboldt Foundation to Thorsten Wagener in the framework of the Alexander von Humboldt Professorship endowed by the German Federal Ministry of Education and Research. We thank many members of the community who contributed to the discussions, especially at the IGEM (Impact of Groundwater in Earth System Models) workshop in Taiwan.

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Gleeson, T., Wagener, T., Döll, P., Zipper, S. C., West, C., Wada, Y., Taylor, R., Scanlon, B., Rosolem, R., Rahman, S., Oshinlaja, N., Maxwell, R., Lo, M. H., Kim, H., Hill, M., Hartmann, A., Fogg, G., Famiglietti, J. S., Ducharne, A., ... Bierkens, M. F. P. (2021). GMD perspective: The quest to improve the evaluation of groundwater representation in continental-to global-scale models. Geoscientific Model Development, 14(12), 7545-7571. https://doi.org/10.5194/gmd-14-7545-2021

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abstract = "Continental-to global-scale hydrologic and land surface models increasingly include representations of the groundwater system. Such large-scale models are essential for examining, communicating, and understanding the dynamic interactions between the Earth system above and below the land surface as well as the opportunities and limits of groundwater resources. We argue that both large-scale and regional-scale groundwater models have utility, strengths, and limitations, so continued modeling at both scales is essential and mutually beneficial. A crucial quest is how to evaluate the realism, capabilities, and performance of large-scale groundwater models given their modeling purpose of addressing large-scale science or sustainability questions as well as limitations in data availability and commensurability. Evaluation should identify if, when, or where large-scale models achieve their purpose or where opportunities for improvements exist so that such models better achieve their purpose. We suggest that reproducing the spatiotemporal details of regional-scale models and matching local data are not relevant goals. Instead, it is important to decide on reasonable model expectations regarding when a large-scale model is performing {"}well enough{"}in the context of its specific purpose. The decision of reasonable expectations is necessarily subjective even if the evaluation criteria are quantitative. Our objective is to provide recommendations for improving the evaluation of groundwater representation in continental-to global-scale models. We describe current modeling strategies and evaluation practices, and we subsequently discuss the value of three evaluation strategies: (1) comparing model outputs with available observations of groundwater levels or other state or flux variables (observation-based evaluation), (2) comparing several models with each other with or without reference to actual observations (model-based evaluation), and (3) comparing model behavior with expert expectations of hydrologic behaviors in particular regions or at particular times (expert-based evaluation). Based on evolving practices in model evaluation as well as innovations in observations, machine learning, and expert elicitation, we argue that combining observation-, model-, and expert-based model evaluation approaches, while accounting for commensurability issues, may significantly improve the realism of groundwater representation in large-scale models, thus advancing our ability for quantification, understanding, and prediction of crucial Earth science and sustainability problems. We encourage greater community-level communication and cooperation on this quest, including among global hydrology and land surface modelers, local to regional hydrogeologists, and hydrologists focused on model development and evaluation.",

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Gleeson, T, Wagener, T, Döll, P, Zipper, SC, West, C, Wada, Y, Taylor, R, Scanlon, B, Rosolem, R, Rahman, S, Oshinlaja, N, Maxwell, R, Lo, MH, Kim, H, Hill, M, Hartmann, A, Fogg, G, Famiglietti, JS, Ducharne, A, De Graaf, I, Cuthbert, M, Condon, L, Bresciani, E & Bierkens, MFP 2021, 'GMD perspective: The quest to improve the evaluation of groundwater representation in continental-to global-scale models', Geoscientific Model Development, vol. 14, no. 12, pp. 7545-7571. https://doi.org/10.5194/gmd-14-7545-2021

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AU - Gleeson, Tom

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AU - Döll, Petra

AU - Zipper, Samuel C.

AU - West, Charles

AU - Wada, Yoshihide

AU - Taylor, Richard

AU - Scanlon, Bridget

AU - Rosolem, Rafael

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N2 - Continental-to global-scale hydrologic and land surface models increasingly include representations of the groundwater system. Such large-scale models are essential for examining, communicating, and understanding the dynamic interactions between the Earth system above and below the land surface as well as the opportunities and limits of groundwater resources. We argue that both large-scale and regional-scale groundwater models have utility, strengths, and limitations, so continued modeling at both scales is essential and mutually beneficial. A crucial quest is how to evaluate the realism, capabilities, and performance of large-scale groundwater models given their modeling purpose of addressing large-scale science or sustainability questions as well as limitations in data availability and commensurability. Evaluation should identify if, when, or where large-scale models achieve their purpose or where opportunities for improvements exist so that such models better achieve their purpose. We suggest that reproducing the spatiotemporal details of regional-scale models and matching local data are not relevant goals. Instead, it is important to decide on reasonable model expectations regarding when a large-scale model is performing "well enough"in the context of its specific purpose. The decision of reasonable expectations is necessarily subjective even if the evaluation criteria are quantitative. Our objective is to provide recommendations for improving the evaluation of groundwater representation in continental-to global-scale models. We describe current modeling strategies and evaluation practices, and we subsequently discuss the value of three evaluation strategies: (1) comparing model outputs with available observations of groundwater levels or other state or flux variables (observation-based evaluation), (2) comparing several models with each other with or without reference to actual observations (model-based evaluation), and (3) comparing model behavior with expert expectations of hydrologic behaviors in particular regions or at particular times (expert-based evaluation). Based on evolving practices in model evaluation as well as innovations in observations, machine learning, and expert elicitation, we argue that combining observation-, model-, and expert-based model evaluation approaches, while accounting for commensurability issues, may significantly improve the realism of groundwater representation in large-scale models, thus advancing our ability for quantification, understanding, and prediction of crucial Earth science and sustainability problems. We encourage greater community-level communication and cooperation on this quest, including among global hydrology and land surface modelers, local to regional hydrogeologists, and hydrologists focused on model development and evaluation.

AB - Continental-to global-scale hydrologic and land surface models increasingly include representations of the groundwater system. Such large-scale models are essential for examining, communicating, and understanding the dynamic interactions between the Earth system above and below the land surface as well as the opportunities and limits of groundwater resources. We argue that both large-scale and regional-scale groundwater models have utility, strengths, and limitations, so continued modeling at both scales is essential and mutually beneficial. A crucial quest is how to evaluate the realism, capabilities, and performance of large-scale groundwater models given their modeling purpose of addressing large-scale science or sustainability questions as well as limitations in data availability and commensurability. Evaluation should identify if, when, or where large-scale models achieve their purpose or where opportunities for improvements exist so that such models better achieve their purpose. We suggest that reproducing the spatiotemporal details of regional-scale models and matching local data are not relevant goals. Instead, it is important to decide on reasonable model expectations regarding when a large-scale model is performing "well enough"in the context of its specific purpose. The decision of reasonable expectations is necessarily subjective even if the evaluation criteria are quantitative. Our objective is to provide recommendations for improving the evaluation of groundwater representation in continental-to global-scale models. We describe current modeling strategies and evaluation practices, and we subsequently discuss the value of three evaluation strategies: (1) comparing model outputs with available observations of groundwater levels or other state or flux variables (observation-based evaluation), (2) comparing several models with each other with or without reference to actual observations (model-based evaluation), and (3) comparing model behavior with expert expectations of hydrologic behaviors in particular regions or at particular times (expert-based evaluation). Based on evolving practices in model evaluation as well as innovations in observations, machine learning, and expert elicitation, we argue that combining observation-, model-, and expert-based model evaluation approaches, while accounting for commensurability issues, may significantly improve the realism of groundwater representation in large-scale models, thus advancing our ability for quantification, understanding, and prediction of crucial Earth science and sustainability problems. We encourage greater community-level communication and cooperation on this quest, including among global hydrology and land surface modelers, local to regional hydrogeologists, and hydrologists focused on model development and evaluation.

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GMD perspective: The quest to improve the evaluation of groundwater representation in continental-to global-scale models

Abstract

Bibliographical note

Funding

UN SDGs

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