Stochastic predation events and population persistence in bighorn sheep

Stochastic predation events and population persistence in bighorn sheep. Festa-Bianchet, M., Coulson, T., Gaillard, J., Hogg, J., T., & Pelletier, F. Proceedings of the Royal Society B: Biological Sciences, 273:1537-1543, 6, 2006.

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Stochastic predation events and population persistence in bighorn sheep [link]

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Many studies have reported temporal changes in the relative importance of density-dependence and environmental stochasticity in affecting population growth rates, but they typically assume that the predominant factor limiting growth remains constant over long periods of time. Stochastic switches in limiting factors that persist for multiple time-steps have received little attention, but most wild populations may periodically experience such switches. Here, we consider the dynamics of three populations of individually marked bighorn sheep (Ovis canadensis) monitored for 24-28 years. Each population experienced one or two distinct cougar (Puma concolor) predation events leading to population declines. The onset and duration of predation events were stochastic and consistent with predation by specialist individuals. A realistic Markov chain model confirms that predation by specialist cougars can cause extinction of isolated populations. We suggest that such processes may be common. In such cases, predator-prey equilibria may only occur at large geographical and temporal scales, and are unlikely with increasing habitat fragmentation. © 2006 The Royal Society.

@article{
 title = {Stochastic predation events and population persistence in bighorn sheep},
 type = {article},
 year = {2006},
 keywords = {Individual differences,Limiting factors,Population dynamics,Population viability analysis,Predator-prey,Stochasticity},
 pages = {1537-1543},
 volume = {273},
 websites = {https://royalsocietypublishing.org/doi/10.1098/rspb.2006.3467},
 month = {6},
 day = {22},
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 abstract = {Many studies have reported temporal changes in the relative importance of density-dependence and environmental stochasticity in affecting population growth rates, but they typically assume that the predominant factor limiting growth remains constant over long periods of time. Stochastic switches in limiting factors that persist for multiple time-steps have received little attention, but most wild populations may periodically experience such switches. Here, we consider the dynamics of three populations of individually marked bighorn sheep (Ovis canadensis) monitored for 24-28 years. Each population experienced one or two distinct cougar (Puma concolor) predation events leading to population declines. The onset and duration of predation events were stochastic and consistent with predation by specialist individuals. A realistic Markov chain model confirms that predation by specialist cougars can cause extinction of isolated populations. We suggest that such processes may be common. In such cases, predator-prey equilibria may only occur at large geographical and temporal scales, and are unlikely with increasing habitat fragmentation. © 2006 The Royal Society.},
 bibtype = {article},
 author = {Festa-Bianchet, Marco and Coulson, Tim and Gaillard, J.-M. and Hogg, John T and Pelletier, Fanie},
 doi = {10.1098/rspb.2006.3467},
 journal = {Proceedings of the Royal Society B: Biological Sciences}
}

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