Increased dispersion of oil from a deep water seabed release by energetic mesoscale eddies

Gilchrist, Ryan M.; Hall, Rob A.; Bacon, John C.; Rees, Jon M.; Graham, Jennifer A.

Increased dispersion of oil from a deep water seabed release by energetic mesoscale eddies

2020

Gilchrist, Ryan M. | Hall, Rob A. | Bacon, John C. | Rees, Jon M. | Graham, Jennifer A.

Hydrodynamics play a critical role in determining the trajectory of an oil spill. Currents, stratification and mesoscale processes all contribute to how a spill behaves. Using an industry‑leading oil spill model, we compare forecasts of oil dispersion when forced with two different hydrodynamic models of the North-West European Shelf (7 km and 1.5 km horizontal resolution). This demonstrates how the trajectory of a deep water (>1000 m) release in the central Faroe-Shetland Channel is influenced by explicitly resolving mesoscale processes. The finer resolution hydrodynamic model dramatically enhances the horizontal dispersion of oil and transports pollutant further afield. This is a consequence of higher mesoscale variability. Stratification influences the depth of subsurface plume trapping and subsequently the far-field transport of oil. These results demonstrate that the choice of hydrodynamic model resolution is crucial when designing particle tracking or tracer release experiments.

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