Evaluating the Relationship between Injuries and Home-Range Size in the Endangered Spotted Turtle (Clemmys guttata)
Abstract
Predation can lead to nonlethal injury as well as mortality in turtles, with many Clemmys guttata (Spotted Turtle) having predator-induced limb and foot amputations. The impact of such injuries on movements of freshwater turtles remains poorly understood. We tracked Spotted Turtles (n = 20) in a single population on the Delmarva Peninsula using radio telemetry for ∼1 year. Seven turtles had at least 1 limb or foot completely amputated by a predator, and the remaining 13 were uninjured. When comparing movements among turtles, we found no difference in home-range sizes between male (n = 8) and female (n = 7) nor between injured (n = 7) and uninjured (n = 8) Spotted Turtles during their breeding season. However, injured turtles (n = 5) had smaller home ranges (mean ± SE = 0.26 ± 0.14 ha) than uninjured turtles (n = 12, 0.74 ± 0.15 ha) during the nonbreeding season, when turtles are more terrestrial. Our findings suggest a potential ecological cost of nonlethal injury, as predator effects might extend beyond simple mortality.
Faculty Members
- Eric B. Liebgold - Department of Biological Sciences, Salisbury University, Salisbury, MD 21801.
- Tami. S. Ransom - Environ-mental Studies Department, Salisbury University, Salisbury, MD 21801.
- Karsin M. Bachran - Department of Biological Sciences, Salisbury University, Salisbury, MD 21801.
Themes
- Nonlethal Injury
- Predation
- Freshwater Turtles
- Movement Patterns
- Ecological Costs
Categories
- Developmental biology and embryology
- Ecology, evolutionary biology, and epidemiology
- Geosciences, atmospheric, and ocean sciences
- Biological and biomedical sciences
- Geological and earth sciences nec
- Cell cellular and molecular biology
- Ecology
- Cell cellular biology and anatomy
- Geology
- Ecology and evolutionary biology
- Geology earth science, general
- Geological and earth sciences