Uncertainties as a Guide for Global Water Model Advancement

Publication date

2025-05-01

Authors

Reinecke, Robert
Stein, Lina
Gnann, Sebastian
Andersson, Jafet C.M.
Arheimer, Berit
Bierkens, Marc F.P.ORCID 0000-0002-7411-6562ISNI 0000000109834798
Bonetti, Sara
Güntner, Andreas
Kollet, Stefan
Mishra, Sulagna

Editors

Advisors

Supervisors

Document Type

Article
Open Access logo

License

cc_by

Abstract

Global water models allow us to explore the terrestrial water cycle in earth-sized digital laboratories to support science and guide policy. However, these models are still subject to considerable but also reducible uncertainties that can be attributed to mainly three sources: (1) imbalances in data quality and availability across geographical regions and between hydrologic variables, (2) poorly quantified human influence on the water cycle, and (3) difficulties in tailoring process representations to regionally diverse hydrologic systems. New, more accurate, and larger datasets, as well as better accumulated and even enhanced process knowledge, will help to reduce these uncertainties and thus improve model consistency with our perceptions and accuracy given existing observations. This review examines the sources of uncertainty crucial for global water models and proposes actions to mitigate them, thereby providing a roadmap for model advancement. Following this path will yield more consistent and accurate models that are urgently needed to tackle key scientific and societal challenges.

Keywords

GHMs, global models, uncertainty, water cycle, Oceanography, Ecology, Aquatic Science, Water Science and Technology, Ocean Engineering, Management, Monitoring, Policy and Law

Citation

Reinecke, R, Stein, L, Gnann, S, Andersson, J C M, Arheimer, B, Bierkens, M, Bonetti, S, Güntner, A, Kollet, S, Mishra, S, Moosdorf, N, Nazari, S, Pokhrel, Y, Prudhomme, C, Schewe, J, Shen, C & Wagener, T 2025, 'Uncertainties as a Guide for Global Water Model Advancement', Wiley Interdisciplinary Reviews: Water, vol. 12, no. 3, e70025. https://doi.org/10.1002/wat2.70025