A skill assessment framework for the fisheries and marine ecosystem model intercomparison project

2025

Article référencé dans le Web of Science WOS:001454368500001

Rynne N., Novaglio C., Blanchard J., Bianchi D., Christensen V., Coll Marta, Guiet J., Steenbeek J., Bryndum-Buchholz A., Eddy T. D., Harrison C., Maury Olivier, Ortega-Cisneros K., Petrik C. M., Tittensor D. P., Heneghan R. F.

Earths Future, 2025, 13 (4), p. e2024EF004868 [18 p.]

Understanding climate change impacts on global marine ecosystems and fisheries requires complex marine ecosystem models, forced by global climate projections, that can robustly detect and project changes. The Fisheries and Marine Ecosystems Model Intercomparison Project (FishMIP) uses an ensemble modeling approach to fill this crucial gap. Yet FishMIP does not have a standardised skill assessment framework to quantify the ability of member models to reproduce past observations and to guide model improvement. In this study, we apply a comprehensive model skill assessment framework to a subset of global FishMIP models that produce historical fisheries catches. We consider a suite of metrics and assess their utility in illustrating the models' ability to reproduce observed fisheries catches. Our findings reveal improvement in model performance at both global and regional (Large Marine Ecosystem) scales from the Coupled Model Intercomparison Project Phase 5 and 6 simulation rounds. Our analysis underscores the importance of employing easily interpretable, relative skill metrics to estimate the capability of models to capture temporal variations, alongside absolute error measures to characterize shifts in the magnitude of these variations between models and across simulation rounds. The skill assessment framework developed and tested here provides a first objective assessment and a baseline of the FishMIP ensemble's skill in reproducing historical catch at the global and regional scale. This assessment can be further improved and systematically applied to test the reliability of FishMIP models across the whole model ensemble from future simulation rounds and include more variables like fish biomass or production.

Sciences fondamentales / Techniques d'analyse et de recherche [020] ; Sciences du milieu [021] ; Ecologie, systèmes aquatiques [036] ; Ressources halieutiques [040]

Fonds IRD [F B010093350]

fdi:010093350