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Title
Human-caused mortality influences spatial population dynamics: Pumas in landscapes with varying mortality risks
Author(s)
Newby, J. R.;Mills, L. S.;Ruth, T. K.;Pletscher, D. H.;Mitchell, M. S.;Quigley, H. B.;Murphy, K. M.;DeSimone, R.
Published
2013
Publisher
Biological Conservation
Published Version DOI
https://doi.org/10.1016/j.biocon.2012.10.018
Abstract
An understanding of how stressors affect dispersal attributes and the contribution of local populations to multi-population dynamics are of immediate value to basic and applied ecology. Puma (Puma concolor) populations are expected to be influenced by inter-population movements and susceptible to human-induced source-sink dynamics. Using long-term datasets we quantified the contribution of two puma populations to operationally define them as sources or sinks. The puma population in the Northern Greater Yellowstone Ecosystem (NGYE) was largely insulated from human-induced mortality by Yellowstone National Park. Pumas in the western Montana Garnet Mountain system were exposed to greater human-induced mortality, which changed over the study due to the closure of a 915 km(2) area to hunting. The NGYE's population growth depended on inter-population movements, as did its ability to act as a source to the larger region. The heavily hunted Garnet area was a sink with a declining population until the hunting closure, after which it became a source with positive intrinsic growth and a 16x increase in emigration. We also examined the spatial and temporal characteristics of individual dispersal attributes (emigration, dispersal distance, establishment success) of subadult pumas (N = 126). Human-caused mortality was found to negatively impact all three dispersal components. Our results demonstrate the influence of human-induced mortality on not only within population vital rates, but also inter-population vital rates, affecting the magnitude and mechanisms of local population's contribution to the larger metapopulation. (C) 2012 Elsevier Ltd. All rights reserved.
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PUB14403