Abstract
Drift models are commonly used to study the transport of early life stages of fish and other marine organisms. Various approaches may be applied to examine the distribution and variability of ocean trajectory pathways. In the present study, we compare results using passive Eulerian tracers and Lagrangian float trajectories that are embedded in numerical models. We supplement this analysis by applying an offline model for drift computations. The contrasts in the results from the various configurations are mainly due to differences in drift depth. Simulations were performed using horizontal resolutions of 4 and 0.8 km. The higher-resolution experiment gives somewhat more realistic results for the drift time from Lofoten to the Tromsøflaket bank at the southwestern entrance of the Barents Sea. Furthermore, differences in results between simulation years are much larger than the differences that arise from the choice of model configuration. Climate variability at high latitudes on a multi-decadal time scale is dominated by large interannual variability superimposed on an underlying moderate warming trend. We conclude that a properly configured offline drift model using hourly or 2-hourly results from a simulation with a horizontal resolution of 1 km or finer is the best approach for investigations of trajectory pathways. The flexibility of an offline drift model is also highly advantageous in biological contexts, as it easily allows for a variety of ways in which behavioural characteristics can be parameterized, including descriptions that are defined after the ocean circulation simulation has been executed.
Highlights
Drift of objects and substances in the ocean may be examined from results of ocean general circulation model (OGCM) simulations
We found that the lifetime mean depths as functions of age for tracers and for floats reach a stable level after about 2 wk
The level of drift with this implementation is deeper than the regular simulation for offline floats. This is in line with the discussion of the magnitude of the lift velocity in Section 3, where we presented results using lift velocity based on the buoyancy of cod eggs from Solemdal & Sundby (1981)
Summary
Drift of objects and substances in the ocean may be examined from results of ocean general circulation model (OGCM) simulations. Objects may be tracked online in simulation time by built-in modules in the circulation model. For substances which are advected and diffused, the same modules that are used for e.g. updating salinity can be applied to general Eulerian. Wagner et al (2019) examined the representativeness of offline trajectory simulations with respect to results for a passive Eulerian tracer. They concluded that diagnostics such as mean pathways and horizontal distribution were nearly identical for the 2 approaches, while there were some differences in the vertical distributions
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