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Marine Ecology Progress Series

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MEPS 593:209-230 (2018)  -  DOI:

Timing of sea-ice retreat affects the distribution of seabirds and their prey in the southeastern Bering Sea

George L. Hunt Jr.1,*, Martin Renner2, Kathy J. Kuletz3, Sigrid Salo4, Lisa Eisner5, Patrick H. Ressler5, Carol Ladd4, Jarrod A. Santora

1School of Aquatic and Fishery Sciences, University of Washington, Box 355020, Seattle, WA 98195, USA
2Tern Again Consulting, 811 Ocean Drive Loop, Homer, AK 99603, USA
3US Fish and Wildlife Service, Migratory Bird Management, 1011 E. Tudor Rd., Anchorage, AK 99503, USA
4NOAA-Pacific Marine Environmental Laboratory, 7600 Sand Point Way NE, Seattle, WA 98115, USA
5NOAA-Alaska Fisheries Science Center, 7600 Sand Point Way NE, Seattle, WA 98115, USA
6Department of Applied Math and Statistics, Center for Stock Assessment Research, University of California Santa Cruz, 110 Shaffer Road, Santa Cruz, CA 95060, USA
*Corresponding author:
Advance View was available online March 1, 2018

ABSTRACT: The potential impacts of future climate warming on marine ecosystems can be assessed by examining the effects of present-day variation in climate. Here we report how the cross-shelf distributions of seabirds and their potential prey responded to interannual variation in the timing of sea-ice retreat in the southeastern Bering Sea. We expected that in years of early sea-ice retreat, prey resources would be scarce over the shelf and that seabird species would concentrate in frontal regions where availability of zooplankton and forage fish might be enhanced. To test this hypothesis, we used a 40 yr database of the distribution of marine birds and recently available data on the distribution of zooplankton and forage fish. We found that although there were substantial changes in the distribution of seabird species between years with early and late sea-ice retreat, there was no overall shift into frontal regions. Instead, in years with early sea-ice retreat, there was a strong tendency for seabird species that foraged off the shelf to move toward, or onto, the shelf, whereas inshore-foraging species shifted seaward. Further, the cross-shelf centers of abundance of the copepod Calanus marshallae/glacialis shifted seaward, but there was little change in the cross-shelf distributions of Neocalanus spp. copepods, euphausiids (primarily Thysanoessa spp.), and age-0 pollock Gadus chalcogrammus. Shifts in seabird distributions, as demonstrated in this study, indicate the importance of sea-ice retreat for structuring trophic interactions and could present both opportunities and challenges for central-place-foraging breeding seabirds and long-distance migratory species.

KEY WORDS: Climate variability · Southeastern Bering Sea · Calanus glacialis · Calanus marshallae · Gadus chalcogrammus · Neocalanus spp. · Thysanoessa raschii

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Cite this article as: Hunt GL, Jr , Renner M, Kuletz KJ and others (2018) Timing of sea-ice retreat affects the distribution of seabirds and their prey in the southeastern Bering Sea. Mar Ecol Prog Ser 593:209-230.

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