Primary Research Article

Effects of climate change on an emperor penguin population: analysis of coupled demographic and climate models

  1. Stéphanie Jenouvrier1,2,4,5,*,
  2. Marika Holland3,
  3. Julienne Stroeve4,
  4. Christophe Barbraud2,
  5. Henri Weimerskirch2,
  6. Mark Serreze4,5,
  7. Hal Caswell1,6

Article first published online: 3 JUL 2012

DOI: 10.1111/j.1365-2486.2012.02744.x

Issue

Global Change Biology

Global Change Biology

Volume 18, Issue 9, pages 2756–2770, September 2012

Additional Information

How to Cite

Jenouvrier, S., Holland, M., Stroeve, J., Barbraud, C., Weimerskirch, H., Serreze, M. and Caswell, H. (2012), Effects of climate change on an emperor penguin population: analysis of coupled demographic and climate models. Global Change Biology, 18: 2756–2770. doi: 10.1111/j.1365-2486.2012.02744.x

Author Information

  1. 1

    Biology Department, MS-34, Woods Hole Oceanographic Institution, Woods Hole, MA, USA

  2. 2

    Centre d'Etudes Biologiques de Chizé, Centre National de la Recherche Scientifique, Villiers en Bois, France

  3. 3

    Oceanography Section, National Center for Atmospheric Research, Boulder, CO, USA

  4. 4

    National Snow and Ice Data Center, Boulder, CO, USA

  5. 5

    Cooperative Institute for Research in Environmental Science, University of Colorado, Boulder, CO, USA

  6. 6

    Max Planck Institute for Demographic Research, Rostock, Germany

*Correspondence: Stéphanie Jenouvrier, tel. + 1 508 289 3245, fax + 1 508 457 2089, e-mail: sjenouvrier@whoi.edu

Publication History

  1. Issue published online: 6 AUG 2012
  2. Article first published online: 3 JUL 2012
  3. Accepted manuscript online: 18 MAY 2012 03:17AM EST
  4. Manuscript Accepted: 3 APR 2012
  5. Manuscript Received: 17 OCT 2011

Funded by

  • ANR (Agence Nationale de la Recherche) Biodiversité. Grant Number: ANR Biodiv 011
  • NSF. Grant Number: DEB-0816514
  • WHOI Arctic Research Initiative
  • Alexander von Humboldt Foundation

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Keywords:

  • IPCC ;
  • sea ice;
  • seabirds;
  • stochastic climate forecast;
  • stochastic matrix population model;
  • uncertainties

Abstract

Sea ice conditions in the Antarctic affect the life cycle of the emperor penguin (Aptenodytes forsteri). We present a population projection for the emperor penguin population of Terre Adélie, Antarctica, by linking demographic models (stage-structured, seasonal, nonlinear, two-sex matrix population models) to sea ice forecasts from an ensemble of IPCC climate models. Based on maximum likelihood capture-mark-recapture analysis, we find that seasonal sea ice concentration anomalies (SICa) affect adult survival and breeding success. Demographic models show that both deterministic and stochastic population growth rates are maximized at intermediate values of annual SICa, because neither the complete absence of sea ice, nor heavy and persistent sea ice, would provide satisfactory conditions for the emperor penguin. We show that under some conditions the stochastic growth rate is positively affected by the variance in SICa. We identify an ensemble of five general circulation climate models whose output closely matches the historical record of sea ice concentration in Terre Adélie. The output of this ensemble is used to produce stochastic forecasts of SICa, which in turn drive the population model. Uncertainty is included by incorporating multiple climate models and by a parametric bootstrap procedure that includes parameter uncertainty due to both model selection and estimation error. The median of these simulations predicts a decline of the Terre Adélie emperor penguin population of 81% by the year 2100. We find a 43% chance of an even greater decline, of 90% or more. The uncertainty in population projections reflects large differences among climate models in their forecasts of future sea ice conditions. One such model predicts population increases over much of the century, but overall, the ensemble of models predicts that population declines are far more likely than population increases. We conclude that climate change is a significant risk for the emperor penguin. Our analytical approach, in which demographic models are linked to IPCC climate models, is powerful and generally applicable to other species and systems.

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