Persistence of forage fish ‘hot spots’ and its association with foraging Steller sea lions ( Eumetopias jubatus) in southeast Alaska

Whereas primary and secondary productivity at oceanic ‘hotspots’ may be a function of upwelling and temperature fronts, the aggregation of higher-order vertebrates is a function of their ability to search for and locate these areas. Thus, understanding how predators aggregate at these productive for...

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Bibliographic Details
Published in:Deep-sea research. Part 2. Topical studies in oceanography 2006-02, Vol.53 (3), p.432-441
Main Authors: Gende, Scott M., Sigler, Michael F.
Format: Article
Language:English
Subjects:
Clupea pallasii
Earth sciences
Earth, ocean, space
Eumetopias jubatus
Exact sciences and technology
External geophysics
Foraging effort
Herring
Hot spot persistence
Marine
Marine and continental quaternary
Marine geology
Physics of the oceans
Steller sea lions
Surficial geology
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Summary:Whereas primary and secondary productivity at oceanic ‘hotspots’ may be a function of upwelling and temperature fronts, the aggregation of higher-order vertebrates is a function of their ability to search for and locate these areas. Thus, understanding how predators aggregate at these productive foraging areas is germane to the study of oceanic hot spots. We examined the spatial distribution of forage fish in southeast Alaska for three years to better understand Steller sea lion ( Eumetopias jubatus) aggregations and foraging behavior. Energy densities (millions KJ/km 2) of forage fish were orders of magnitude greater during the winter months (November–February), due to the presence of schools of overwintering Pacific herring ( Clupea pallasi). Within the winter months, herring consistently aggregated at a few areas, and these areas persisted throughout the season and among years. Thus, our study area was characterized by seasonally variable, highly abundant but highly patchily distributed forage fish hot spots. More importantly, the persistence of these forage fish hot spots was an important characteristic in determining whether foraging sea lions utilized them. Over 40% of the variation in the distribution of sea lions on our surveys was explained by the persistence of forage fish hot spots. Using a simple spatial model, we demonstrate that when the density of these hot spots is low, effort necessary to locate these spots is minimized when those spots persist through time. In contrast, under similar prey densities but lower persistence, effort increases dramatically. Thus an important characteristic of pelagic hot spots is their persistence, allowing predators to predict their locations and concentrate search efforts accordingly.
ISSN:0967-0645
1879-0100
DOI:10.1016/j.dsr2.2006.01.005