Camera trapping: a contemporary approach to monitoring invasive rodents in high conservation priority ecosystems

Invasive rodent species have established on 80% of the world's islands causing significant damage to island environments. Insular ecosystems support proportionally more biodiversity than comparative mainland areas, highlighting them as critical for global biodiversity conservation. Few techniqu...

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Bibliographic Details
Published inPloS one Vol. 9; no. 3; p. e86592
Main Authors Rendall, Anthony R, Sutherland, Duncan R, Cooke, Raylene, White, John
Format Journal Article
LanguageEnglish
Published United States Public Library of Science 05.03.2014
Public Library of Science (PLoS)
Subjects
Agriculture
Animals
Aquatic birds
Australia
Biodiversity
Biodiversity conservation
Biology
Burrows
Cameras
Comparative analysis
Conservation
Conservation areas
Conservation of Natural Resources
Control
Density
Earth Sciences
Ecological monitoring
Ecosystem
Ecosystems
House mouse
Indigenous species
Introduced Species
Islands
Mice
Mus musculus
Nesting
Photography
Population Density
Protection and preservation
Rats
Rattus rattus
Rodents
Seabirds
Species
Trapping
Wildlife conservation
Australia
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Summary:Invasive rodent species have established on 80% of the world's islands causing significant damage to island environments. Insular ecosystems support proportionally more biodiversity than comparative mainland areas, highlighting them as critical for global biodiversity conservation. Few techniques currently exist to adequately detect, with high confidence, species that are trap-adverse such as the black rat, Rattus rattus, in high conservation priority areas where multiple non-target species persist. This study investigates the effectiveness of camera trapping for monitoring invasive rodents in high conservation areas, and the influence of habitat features and density of colonial-nesting seabirds on rodent relative activity levels to provide insights into their potential impacts. A total of 276 camera sites were established and left in situ for 8 days. Identified species were recorded in discrete 15 min intervals, referred to as 'events'. In total, 19 804 events were recorded. From these, 31 species were identified comprising 25 native species and six introduced. Two introduced rodent species were detected: the black rat (90% of sites), and house mouse Mus musculus (56% of sites). Rodent activity of both black rats and house mice were positively associated with the structural density of habitats. Density of seabird burrows was not strongly associated with relative activity levels of rodents, yet rodents were still present in these areas. Camera trapping enabled a large number of rodents to be detected with confidence in site-specific absences and high resolution to quantify relative activity levels. This method enables detection of multiple species simultaneously with low impact (for both target and non-target individuals); an ideal strategy for monitoring trap-adverse invasive rodents in high conservation areas.
Bibliography:Conceived and designed the experiments: AR JW DS RC. Performed the experiments: AR. Analyzed the data: AR DS JW. Contributed reagents/materials/analysis tools: AR JW DS. Wrote the paper: AR RC DS JW.
Competing Interests: The authors declare that no competing interests exist.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0086592