Single-Camera Trap Survey Designs Miss Detections: Impacts on Estimates of Occupancy and Community Metrics

Authors :: Eric J. Holzmueller
Clayton K. Nielsen
Brent S. Pease
Source :: PLoS ONE, PLoS ONE, Vol 11, Iss 11, p e0166689 (2016)
Publication Year :: 2016
Abstract: The use of camera traps as a tool for studying wildlife populations is commonplace. However, few have considered how the number of detections of wildlife differ depending upon the number of camera traps placed at cameras-sites, and how this impacts estimates of occupancy and community composition. During December 2015-February 2016, we deployed four camera traps per camera-site, separated into treatment groups of one, two, and four camera traps, in southern Illinois to compare whether estimates of wildlife community metrics and occupancy probabilities differed among survey methods. The overall number of species detected per camera-site was greatest with the four-camera survey method (P

Subjects :: 0106 biological sciences
Population Dynamics
lcsh:Medicine
Odocoileus
Wildlife
Forests
Surveys
01 natural sciences
Survey methodology
Statistics
Photography
Squirrels
lcsh:Science
Mammals
Multidisciplinary
biology
Ecology
Environmental resource management
Sciuridae
Ruminants
Cameras
Terrestrial Environments
Habitat
Optical Equipment
Research Design
Lynx
Vertebrates
Engineering and Technology
Raccoons
Research Article
Conservation of Natural Resources
Turkeys
Occupancy
Animal Types
Equipment
Animals, Wild
Research and Analysis Methods
010603 evolutionary biology
Coyotes
Rodents
Ecosystems
Animals
Ecosystem
Survey Research
business.industry
010604 marine biology & hydrobiology
Deer
lcsh:R
Ecology and Environmental Sciences
Organisms
Species diversity
Biology and Life Sciences
Opossums
Models, Theoretical
biology.organism_classification
Standard error
Survey Methods
Amniotes
Environmental science
lcsh:Q
Illinois
business
Zoology
Global biodiversity

Tools