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Where have all the petrels gone? Forty years (1978–2020) of Wilson’s Storm Petrel (Oceanites oceanicus) population dynamics at King George Island (Isla 25 de Mayo, Antarctica) in a changing climate

Affiliation
Justus Liebig University Giessen, Department of Animal Ecology & Systematics, Germany ; University of Gdańsk, Department of Vertebrate Ecology and Zoology, Poland
Ausems, A.N.M.A.;
Affiliation
Justus Liebig University Giessen, Department of Animal Ecology & Systematics, Germany
Kuepper, N.D.;
Affiliation
Instituto Antártico Argentino, Department of Biology of Top Predators, Buenos Aires, Argentina ; Universidad Nacional de La Plata,Facultad de Ciencias Naturales y Museo, Argentina
Archuby, D.;
Affiliation
Friedrich Schiller University Jena, Institute of Ecology and Evolution, Polar & Bird Ecology Group, Germany
Braun, C.;
Affiliation
University of Białystok, Faculty of Biology, Poland
Gębczyński, A.K.;
Affiliation
Friedrich Schiller University Jena, Institute of Ecology and Evolution, Polar & Bird Ecology Group, Germany ; Bayer AG, Crop Science Division, Germany
Gladbach, A.;
Affiliation
Friedrich Schiller University Jena, Institute of Ecology and Evolution, Polar & Bird Ecology Group, Germany ; Swiss Ornithological Institute, Bird Migration Research, Switzerland
Hahn, S.;
Affiliation
University of Białystok, Faculty of Biology, Poland
Jadwiszczak, P.;
Affiliation
Justus Liebig University Giessen, Department of Animal Ecology & Systematics, Germany
Kraemer, P.;
Affiliation
Instituto Antártico Argentino, Department of Biology of Top Predators, Argentina
Libertelli, M.M.;
GND
1033126586
Affiliation
Julius Kühn-Institute (JKI), Institute for Ecological Chemistry, Plant Analysis and Stored Product Protection, Germany ; Friedrich Schiller University Jena, Institute of Ecology and Evolution, Polar & Bird Ecology Group, Germany
Lorenz, Stefan;
Affiliation
Justus Liebig University Giessen, Department of Animal Ecology & Systematics, Germany
Richter, B.;
Affiliation
Friedrich Schiller University Jena, Institute of Ecology and Evolution, Polar & Bird Ecology Group, Germany ; tier3 Solutions GmbH, Germany
Ruß, A.;
Affiliation
Friedrich Schiller University Jena, Institute of Ecology and Evolution, Polar & Bird Ecology Group, Germany ; Bielefeld University, Evolutionary Biology, Germany
Schmoll, T.;
Affiliation
Justus Liebig University Giessen, Department of Animal Ecology & Systematics, Germany ; Hessian Agency for Nature Conservation, Environment and Geology, Biodiversity Center, Germany
Thorn, S.;
Affiliation
British Antarctic Survey, Natural Environment Research Council, United Kingdom
Turner, J.;
Affiliation
University of Gdańsk, Department of Vertebrate Ecology and Zoology, Poland
Wojczulanis-Jakubas, K.;
Affiliation
University of Gdańsk, Department of Vertebrate Ecology and Zoology, Poland
Jakubas, D.;
Affiliation
Justus Liebig University Giessen, Department of Animal Ecology & Systematics, Germany ; Friedrich Schiller University Jena, Institute of Ecology and Evolution, Polar & Bird Ecology Group, Germany
Quillfeldt, P.

  • A Correction to this article was published on 04 January 2024
  • This article has been updated

Numerous seabird species are experiencing population declines, and this trend is expected to continue or even accelerate in the future. To understand the effects of environmental change on seabird populations, long-term studies are vital, but rare. Here, we present over four decades (1978–2020) of population dynamic and reproductive performance data of Wilson’s Storm Petrels (Oceanites oceanicus) from King George Island (Isla 25 de Mayo), Antarctica. We determined temporal trends in population size, breeding output, and chick growth rates, and related interannual variation in these variables to various environmental variables. Our study revealed a decline of 90% in population size of Wilson’s Storm Petrels in two colonies, and considerable changes in breeding output and chick growth rates. Temporal changes in breeding demographics were linked to interannual environmental variation, either causing changes in food availability (particularly Antarctic krill, Euphausia superba) or in nest burrow accessibility due to snow blocking the entrance. With the expected rise in air and sea surface temperatures, the predicted increases in precipitation over the Antarctic Peninsula will likely lead to increased snowstorm prevalence. Additionally, the rising temperatures will likely reduce food availability due to reduced sea ice cover in the wintering grounds of Antarctic krill, or by changing phyto- and zooplankton community compositions. The ongoing environmental changes may thus lead to a further population decline, or at the very least will not allow the population to recover. Monitoring the population dynamics of Antarctic seabirds is vital to increase our understanding of climate change-induced changes in polar food webs.

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