Abstract
The area west of the Kerguelen Islands (20–70°E/45–60°S) is characterized by a weak mesoscale activity except for a standing meander region of the Antarctic Circumpolar Current (ACC) localized between 20 and 40°E. A unique bio-physical dataset at high-resolution collected by a southern elephant seal (Mirounga leonina) reveals a conspicuous increase in foraging activity at the standing meander site up to 5 times larger than during the rest of her three-month trip west of the Kerguelen Islands. Here, we propose a physical explanation for such high biological activity based on the study of small-scale fronts with scales of 5 to 20 km, also called submesoscales. The standing meander is associated with intensified frontal dynamics at submesoscale, not observed in the rest of the region. Results shed new light on the spatial distribution of submesoscale fronts in the under-sampled area west of the Kerguelen plateau and emphasize their importance for upper trophic levels. Despite that most elephant seals target foraging grounds east of the Kerguelen Plateau, our findings suggest that excursions to the west are not accidental, and may be explained by the recurrently elevated physical and biological activity of the site. As such, other standing meanders of the ACC may also act as biological hotspots where trophic interactions are stimulated by submesoscale turbulence.
Highlights
The Antarctic Circumpolar Current (ACC) hosts a small number of standing meanders localized in the lee of topographic features
Results are inferred from a unique dataset of physical and biological observations collected by a female southern elephant seal (Fig. 2b)
First-Passage Hunting Time (FPHT) advantageouly takes into account the horizontal and vertical dive’ sinuosity in order to indicate the amount of time the seal spent hunting within an area of given radius
Summary
The Antarctic Circumpolar Current (ACC) hosts a small number of standing meanders localized in the lee of topographic features. While numerous studies have identified mesoscale eddies as favorable feeding grounds for top predators such as elephant seals[12,13,14,15], the relation between submesoscale turbulence and marine top predator’s at-sea foraging behaviour has only been inferred from altimetry-derived Lagrangian diagnostics[16,17] To date, this has been the only available approach to overcome the lack of bio-physical observations capable of resolving oceanic submesoscale features. Unlike previous tags mounted on marine mammal, the one used in this study recorded for the first time every single dive realized by a seal during its journey (or over 6900 dives) This dataset advantageously contains both physical and behavioural data, which allow us to explore the submesoscale dynamics of the region west of the Kerguelen Islands as well as its relation with the foraging behaviour of the tagged seal.
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