Caitlyn Pink | La Trobe University (original) (raw)
Related Authors
University of Veterinary Science, Yezin, Nay Pyi Taw
Uploads
Papers by Caitlyn Pink
Islands can be powerful demonstrations of how destructive invasive species can be on endemic faun... more Islands can be powerful demonstrations of how destructive invasive species can be on endemic faunas and insular ecologies. Oceanic islands in the eastern Indian Ocean have suffered dramatically from the impact of one of the world’s most destructive invasive species, the black rat, causing the loss of endemic terrestrial mammals and ongoing threats to ground-nesting birds. We use molecular genetic methods on both ancient and modern samples to establish the origins and minimum invasion frequencies of black rats on Christmas Island and the Cocos-Keeling Islands. We find that each island group had multiple incursions of black rats from diverse geographic and phylogenetic sources. Furthermore, contemporary black rat populations on these islands are highly admixed to the point of potentially obscuring their geographic sources. These hybridisation events between black rat taxa also pose potential dangers to human populations on the islands from novel disease risks. Threats of ongoing intro...
Raffles Bulletin of Zoology, 2014
The impact of cats (Felis catus) on the biodiversity of Christmas Island is of significant concer... more The impact of cats (Felis catus) on the biodiversity of Christmas Island is of significant concern to land management agencies and the broader community. In 2010, a management plan for cats, and also black rats (Rattus rattus), was commissioned that would mitigate the environmental and social impacts of these alien invasives across the island. A strategy was recommended that provided a staged approach to their management and control leading to eradication of one or both target species. For cats, Stage 1 initially involved gaining approval of revisions to the current local cat management laws that prohibited importation of new cats; this was then followed by a veterinary programme to de-sex, micro-chip and register all domestic cats. Stage 2 required removal of all non-domestic (i.e., stray/feral) cats within the residential, commercial and light industrial zones. Without implementation of Stage 2, a significant source of cats, particularly natal recruits, would be available to dispe...
Conservation Science and Practice, 2021
Until recently, the reptile fauna of Christmas Island in the Indian Ocean comprised five endemic ... more Until recently, the reptile fauna of Christmas Island in the Indian Ocean comprised five endemic species (two skinks, two geckos, and one snake) and one native, non‐endemic skink. Four of these species were common and widespread until at least 1979, but by 2012 had disappeared from the wild. During the years of decline, little research was undertaken to examine why the species were disappearing. Here, we use a retrospective expert elicitation to rank potential factors that contributed to the loss of Christmas Island's reptiles and to assess the likelihood of re‐establishing populations of two species now listed as Extinct in the Wild. We additionally considered why one endemic lizard, the Christmas Island giant gecko (Cyrtodactylus sadleiri), and three introduced lizards remain common. Experts considered that the introduced common wolf snake (Lycodon capucinus) was the most likely cause of decline, as its temporal and spatial spread across the island closely matched patterns of lizard disappearances. An Asian co‐occurrence in recent evolutionary timeframes of the common wolf snake with the Christmas Island giant gecko and three introduced reptiles was the most marked point of difference between the extant and lost lizard species. The demise in less than 20 years of 80% of Christmas Island's native lizard assemblage highlights the vulnerability of island fauna to invading species.
Islands can be powerful demonstrations of how destructive invasive species can be on endemic faun... more Islands can be powerful demonstrations of how destructive invasive species can be on endemic faunas and insular ecologies. Oceanic islands in the eastern Indian Ocean have suffered dramatically from the impact of one of the world’s most destructive invasive species, the black rat, causing the loss of endemic terrestrial mammals and ongoing threats to ground-nesting birds. We use molecular genetic methods on both ancient and modern samples to establish the origins and minimum invasion frequencies of black rats on Christmas Island and the Cocos-Keeling Islands. We find that each island group had multiple incursions of black rats from diverse geographic and phylogenetic sources. Furthermore, contemporary black rat populations on these islands are highly admixed to the point of potentially obscuring their geographic sources. These hybridisation events between black rat taxa also pose potential dangers to human populations on the islands from novel disease risks. Threats of ongoing intro...
Raffles Bulletin of Zoology, 2014
The impact of cats (Felis catus) on the biodiversity of Christmas Island is of significant concer... more The impact of cats (Felis catus) on the biodiversity of Christmas Island is of significant concern to land management agencies and the broader community. In 2010, a management plan for cats, and also black rats (Rattus rattus), was commissioned that would mitigate the environmental and social impacts of these alien invasives across the island. A strategy was recommended that provided a staged approach to their management and control leading to eradication of one or both target species. For cats, Stage 1 initially involved gaining approval of revisions to the current local cat management laws that prohibited importation of new cats; this was then followed by a veterinary programme to de-sex, micro-chip and register all domestic cats. Stage 2 required removal of all non-domestic (i.e., stray/feral) cats within the residential, commercial and light industrial zones. Without implementation of Stage 2, a significant source of cats, particularly natal recruits, would be available to dispe...
Conservation Science and Practice, 2021
Until recently, the reptile fauna of Christmas Island in the Indian Ocean comprised five endemic ... more Until recently, the reptile fauna of Christmas Island in the Indian Ocean comprised five endemic species (two skinks, two geckos, and one snake) and one native, non‐endemic skink. Four of these species were common and widespread until at least 1979, but by 2012 had disappeared from the wild. During the years of decline, little research was undertaken to examine why the species were disappearing. Here, we use a retrospective expert elicitation to rank potential factors that contributed to the loss of Christmas Island's reptiles and to assess the likelihood of re‐establishing populations of two species now listed as Extinct in the Wild. We additionally considered why one endemic lizard, the Christmas Island giant gecko (Cyrtodactylus sadleiri), and three introduced lizards remain common. Experts considered that the introduced common wolf snake (Lycodon capucinus) was the most likely cause of decline, as its temporal and spatial spread across the island closely matched patterns of lizard disappearances. An Asian co‐occurrence in recent evolutionary timeframes of the common wolf snake with the Christmas Island giant gecko and three introduced reptiles was the most marked point of difference between the extant and lost lizard species. The demise in less than 20 years of 80% of Christmas Island's native lizard assemblage highlights the vulnerability of island fauna to invading species.