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Modelled drift patterns of fish larvae link coastal morphology to seabird colony distribution

Author

Listed:
  • Hanno Sandvik

    (Centre for Biodiversity Dynamics, Norwegian University of Science and Technology)

  • Robert T. Barrett

    (Tromsø University Museum)

  • Kjell Einar Erikstad

    (Centre for Biodiversity Dynamics, Norwegian University of Science and Technology
    Norwegian Institute for Nature Research, FRAM—High North Research Centre for Climate and the Environment)

  • Mari S. Myksvoll

    (Institute of Marine Research and Hjort Centre for Marine Ecosystem Dynamics)

  • Frode Vikebø

    (Institute of Marine Research and Hjort Centre for Marine Ecosystem Dynamics)

  • Nigel G. Yoccoz

    (Norwegian Institute for Nature Research, FRAM—High North Research Centre for Climate and the Environment
    University of Tromsø)

  • Tycho Anker-Nilssen

    (Norwegian Institute for Nature Research)

  • Svein-Håkon Lorentsen

    (Norwegian Institute for Nature Research)

  • Tone K. Reiertsen

    (Norwegian Institute for Nature Research, FRAM—High North Research Centre for Climate and the Environment)

  • Jofrid Skarðhamar

    (Institute of Marine Research and Hjort Centre for Marine Ecosystem Dynamics)

  • Mette Skern-Mauritzen

    (Institute of Marine Research and Hjort Centre for Marine Ecosystem Dynamics)

  • Geir Helge Systad

    (Norwegian Institute for Nature Research, FRAM—High North Research Centre for Climate and the Environment)

Abstract

Colonial breeding is an evolutionary puzzle, as the benefits of breeding in high densities are still not fully explained. Although the dynamics of existing colonies are increasingly understood, few studies have addressed the initial formation of colonies, and empirical tests are rare. Using a high-resolution larval drift model, we here document that the distribution of seabird colonies along the Norwegian coast can be explained by variations in the availability and predictability of fish larvae. The modelled variability in concentration of fish larvae is, in turn, predicted by the topography of the continental shelf and coastline. The advection of fish larvae along the coast translates small-scale topographic characteristics into a macroecological pattern, viz. the spatial distribution of top-predator breeding sites. Our findings provide empirical corroboration of the hypothesis that seabird colonies are founded in locations that minimize travel distances between breeding and foraging locations, thereby enabling optimal foraging by central-place foragers.

Suggested Citation

  • Hanno Sandvik & Robert T. Barrett & Kjell Einar Erikstad & Mari S. Myksvoll & Frode Vikebø & Nigel G. Yoccoz & Tycho Anker-Nilssen & Svein-Håkon Lorentsen & Tone K. Reiertsen & Jofrid Skarðhamar & Met, 2016. "Modelled drift patterns of fish larvae link coastal morphology to seabird colony distribution," Nature Communications, Nature, vol. 7(1), pages 1-8, September.
    • Handle: RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms11599
    DOI: 10.1038/ncomms11599
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