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Modelling the effect of El Niño on the persistence of small populations: The Galápagos penguin as a case study |
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| Authors: | F Hernán Vargas Robert C Lacy Antje Steinfurth P Dee Boersma |
| Institution: | a Wildlife Conservation Research Unit (WildCRU), University of Oxford, Tubney House, Abingdon Road, Tubney, Oxon OX13 5QL, UK b Charles Darwin Research Station (CDRS), Isla Santa Cruz, Galápagos, Ecuador c The Peregrine Fund/Fondo Peregrino Panamá, Apartado 0844-00230, Panama d Department of Conservation Science, Chicago Zoological Society, 3300 Golf Road, Brookfield, IL 60513, USA e Forschungs und Technologiezentrum Westküste, Universität Kiel, Hafentörn, 25761 Büsum, Germany f Department of Environmental Affairs and Tourism, Private Bag X2, Rogge Bay 8012, South Africa g Department of Biology, University of Washington, Seattle, WA 98195-1800, USA |
| Abstract: | Small populations are vulnerable to long-term declines, even where short-term censuses indicate increasing trends in numbers. Census data for the Galápagos penguin (Spheniscus mendiculus) collected between 1970 and 2004 provide evidence that despite year-to-year population increases detected in most of the annual censuses, the strong El Niño events of 1982-83 and 1997-98 were followed by population declines of more than 60% from which the species has yet to recover. Such large declines raise concerns about the future viability of the species because the frequency and severity of El Niño events are predicted to increase. We used the simulation software VORTEX to evaluate the potential effects of El Niño on the risk of extinction of the Galápagos penguin population and its four constituent subpopulations. Weak and strong El Niño events were treated as catastrophes, with varying frequencies, which simulated past, current and future effects on the penguin population. The “Current El Niño” scenario, based on the frequency of El Niño events recorded in the Galápagos between 1965 and 2004, indicated an approximately 30% probability of extinction within the next 100 years for the penguin population. More ominously, the species may be at a greater risk if the frequency of strong El Niño episodes increases only marginally. A probability of extinction greater than 80% was predicted when the current frequency (5%) of strong El Niño events was doubled (to 10%). The probabilities of extinctions were higher for each subpopulation treated individually, ranging from 34% for Isabela and Fernandina, 64% for Bartolomé-Santiago to 78% for the smallest subpopulation on Floreana. Sensitivity analyses identified survival of penguins during El Niño events and sex ratio as influential parameters. The estimates of extinction risk may be conservative as other threats associated with increased human activities on the islands may further compromise species persistence. |
| Keywords: | Climate change ENSO Extinction risk Population dynamics Population viability analysis Spheniscus mendiculus |
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