Thesis
Climate mediated spatial and temporal segregation of sympatric felids at a range edge contact zone
Washington State University
Master of Science (MS), Washington State University
2016
Handle:
https://hdl.handle.net/2376/101444
Abstract
Biotic Interactions may influence species distribution patterns, particularly at the edge of their range, but remain poorly studied. In particular, we lack understanding of how climate may mediate interactions between species. I studied spatial and temporal associations of Canada lynx (Lynx canadensis) with their primary prey species (snowshoe hare; Lepus americanus) and potential competitors (bobcats; Lynx rufus, and cougars; Puma concolor) along their southern range edge in northern Washington. Although anecdotal evidence of these competitive interaction exists, rigorous research remains absent from the literature. I collected presence/absence data on these species from 2014-2016 across a 551 km2 landscape using camera-traps along an elevation gradient in both snow-on and snow-off seasons. Then, using single and two-species occupancy models, I used the data to examine three predictions: 1) lynx occupancy is related to snowshoe hare availability, 2) distribution overlap between the sympatric felids will be greatest in snow-off time periods, and 3) there will be evidence of spatial or temporal avoidance of bobcats and cougars by lynx. Single-species models revealed probability of occupancy was best modeled using abiotic and prey covariates for Canada lynx and abiotic covariates for bobcats and cougar. The camera-trapping data revealed that spatial overlap of the three felids species increased during snow-off time periods. Based on two-species occupancy models Canada lynx showed a decrease in probability of occupancy when bobcats were present at cameras, although this effect was scale dependent and did not vary between seasons. No effect of cougar occupancy on lynx occupancy was seen during either season. All species had high levels of overlap in activity throughout the year. Taken together, these results suggest that biotic interactions are partly shaping large-scale lynx distribution patterns. The strong relationship of lynx occupancy to snowshoe hare demonstrates the importance of this prey species in shaping lynx habitat use. Observed negative interactions with bobcats at camera sites provides empirical support for interactions between these species from modeling and anecdotal evidence. Given these results, increasing temperatures and loss of snow may result in a combination of habitat isolation and potential for increased competitive interactions for lynx at their southern range edge.
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Details
- Title
- Climate mediated spatial and temporal segregation of sympatric felids at a range edge contact zone
- Creators
- Arthur Edward Scully
- Contributors
- Daniel H. Thornton (Degree Supervisor)
- Awarding Institution
- Washington State University
- Academic Unit
- Environment, School of the (CAHNRS)
- Theses and Dissertations
- Master of Science (MS), Washington State University
- Publisher
- Washington State University; [Pullman, Washington] :
- Identifiers
- 99900525089301842
- Language
- English
- Resource Type
- Thesis