Canadian Lynx Cycles and Barriers to Dispersal in Western Canada
Canadian lynx (Lynx canadensis)
UNIVERSITY OF ALBERTA LYNX RESEARCH
A bit about the project...
This research focuses on the biological mechanisms driving population cycles of the Canadian lynx (Lynx canadensis) with specific attention paid to habitat fragmentation and climate change hypotheses. Persistent and regular population cycles produced by specialist predators and their prey are a rarity in nature, but Canadian lynx and snowshoe hare (Lepus americanus) display such a pervasive 10-year cycle. A recent breakdown in southern lynx cycles and falling population numbers in the US highlight threats to the integrity of boreal forest habitats, and may portend more widespread consequences of continued boreal forest fragmentation. An alternative hypothesis is that global warming is eroding the seasonality that maintains the 10-year cycle.
Our research objectives are to 1) regionally document the 10-year cycle break down at southern latitudes, 2) evaluate if barriers to lynx gene flow (hence dispersal) exist on a latitudinal gradient using genetic data, 3) use a sample of radiocollared lynx to create a model of habitats that facilitate dispersal, and 4) examine timeseries dynamics relative to climate data to evaluate the seasonal-forcing hypothesis.
Understanding dispersal trends is essential for managing habitat fragmentation and protecting habitat
connections in southern Alberta and British Columbia. Likewise, climate change might be rapidly dismantling population cycles in the boreal forest. The persistence of lynx
near the Canada-US border may depend on either quality of dispersal connections with the core Canadian
population or stemming the progression of climate change before it permanently alters the species' dynamics. This study will help wildlife managers maintain an important predator in southern Canada. This research will also be used to inform forestry and other resource extraction industries, the trapping
industry, and the collective knowledge of population ecology.