Effects of Recent Environmental Change on Accuracy of Inferences of Extinction Status |
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| Authors: | CHRISTOPHER F. CLEMENTS BEN COLLEN TIM M. BLACKBURN OWEN L. PETCHEY |
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| Affiliation: | 1. Department of Animal and Plant Sciences, University of Sheffield, , Sheffield, S10 2TN United Kingdom;2. Centre for Biodiversity & Environment Research, University College London, , Gower Street, London, WC1E 6BT United Kingdom;3. Institute of Zoology, Zoological Society of London, , London, NW1 4RY United Kingdom;4. Distinguished Scientist Fellowship Program, King Saud University, , Riyadh, 1145 Saudi Arabia;5. Institute of Evolutionary Biology and Environmental Studies, The University of Zurich, , Zurich, CH‐8057 Switzerland |
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| Abstract: | Correctly classifying a species as extinct or extant is of critical importance if current rates of biodiversity loss are to be accurately quantified. Observing an extinction event is rare, so in many cases extinction status is inferred using methods based on the analysis of records of historic sighting events. The accuracy of such methods is difficult to test. However, results of recent experiments with microcosm communities suggest that the rate at which a population declines to extinction, potentially driven by varying environmental conditions, may alter one's ability accurately to infer extinction status. We tested how the rate of population decline, driven by historic environmental change, alters the accuracy of 6 commonly applied sighting‐based methods used to infer extinction. We used data from small‐scale experimental communities and recorded wild population extirpations. We assessed how accuracy of the different methods was affected by rate of population decline, search effort, and number of sighting events recorded. Rate of population decline and historic population size of the species affected the accuracy of inferred extinction dates; however, faster declines produced more accurate inferred dates of extinction, but only when population sizes were higher. Optimal linear estimation (OLE) offered the most reliable and robust estimates, though no single method performed best in all situations, and it may be appropriate to use a different method if information regarding historic search efforts is available. OLE provided the most accurate estimates of extinction when the number of sighting events used was >10, and future use of this method should take this into account. Data from experimental populations provide added insight into testing techniques to discern wild extirpation events. Care should be taken designing such experiments so that they mirror closely the abundance dynamics of populations affected by real‐world extirpation events. Efectos del Cambio Ambiental Reciente sobre la Precisión de las Inferencias sobre el Estado de Extinción |
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| Keywords: | environmental change extirpation method comparison microcosm species loss wild populations Cambio ambiental comparació n de mé todos microcosmos pé rdida de especias poblaciones silvestres |
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