Translocations as experiments in the ecological resilience of an asocial mega-herbivore

Species translocations are remarkable experiments in evolutionary ecology, and increasingly critical to biodiversity conservation. Elaborate socio-ecological hypotheses for translocation success, based on theoretical fitness relationships, are untested and lead to complex uncertainty rather than par...

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Veröffentlicht in:	PloS one 2012-01, Vol.7 (1), p.e30664-e30664
Hauptverfasser:	Linklater, Wayne L, Gedir, Jay V, Law, Peter R, Swaisgood, Ron R, Adcock, Keryn, du Preez, Pierre, Knight, Michael H, Kerley, Graham I H
Format:	Artikel
Sprache:	eng
Schlagworte:	Age Animal behavior Animal Migration Animals Biodiversity Biodiversity conservation Biological evolution Biology Conservation Conservation of Natural Resources Conspecifics Diceros bicornis Ecological adaptation Ecological and Environmental Phenomena Ecological effects Ecology Endangered & extinct species Environmental protection Environmental quality Evolution Fitness Habitats Herbivores Herbivory Hostages Hypotheses Mortality Perissodactyla Population Predators Private property Quality Reintroduction Reproductive fitness Social Behavior Success Time Factors Translocation Trends Veterinary Science Wildlife conservation Zoology
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creator	Linklater, Wayne L Gedir, Jay V Law, Peter R Swaisgood, Ron R Adcock, Keryn du Preez, Pierre Knight, Michael H Kerley, Graham I H
description	Species translocations are remarkable experiments in evolutionary ecology, and increasingly critical to biodiversity conservation. Elaborate socio-ecological hypotheses for translocation success, based on theoretical fitness relationships, are untested and lead to complex uncertainty rather than parsimonious solutions. We used an extraordinary 89 reintroduction and 102 restocking events releasing 682 black rhinoceros (Diceros bicornis) to 81 reserves in southern Africa (1981-2005) to test the influence of interacting socio-ecological and individual characters on post-release survival. We predicted that the socio-ecological context should feature more prominently after restocking than reintroduction because released rhinoceros interact with resident conspecifics. Instead, an interaction between release cohort size and habitat quality explained reintroduction success but only individuals' ages explained restocking outcomes. Achieving translocation success for many species may not be as complicated as theory suggests. Black rhino, and similarly asocial generalist herbivores without substantial predators, are likely to be resilient to ecological challenges and robust candidates for crisis management in a changing world.
doi_str_mv	10.1371/journal.pone.0030664
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Elaborate socio-ecological hypotheses for translocation success, based on theoretical fitness relationships, are untested and lead to complex uncertainty rather than parsimonious solutions. We used an extraordinary 89 reintroduction and 102 restocking events releasing 682 black rhinoceros (Diceros bicornis) to 81 reserves in southern Africa (1981-2005) to test the influence of interacting socio-ecological and individual characters on post-release survival. We predicted that the socio-ecological context should feature more prominently after restocking than reintroduction because released rhinoceros interact with resident conspecifics. Instead, an interaction between release cohort size and habitat quality explained reintroduction success but only individuals' ages explained restocking outcomes. Achieving translocation success for many species may not be as complicated as theory suggests. 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subjects	Age Animal behavior Animal Migration Animals Biodiversity Biodiversity conservation Biological evolution Biology Conservation Conservation of Natural Resources Conspecifics Diceros bicornis Ecological adaptation Ecological and Environmental Phenomena Ecological effects Ecology Endangered & extinct species Environmental protection Environmental quality Evolution Fitness Habitats Herbivores Herbivory Hostages Hypotheses Mortality Perissodactyla Population Predators Private property Quality Reintroduction Reproductive fitness Social Behavior Success Time Factors Translocation Trends Veterinary Science Wildlife conservation Zoology
title	Translocations as experiments in the ecological resilience of an asocial mega-herbivore
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