A Great Escape: The role of climate, resource availability, and density-dependence on trailing edge populations

Background/Question/Methods

Populations along range limits are often exposed to highly variable climates and resource availability. As such, there has been a revival to understand the causes of range limits to better predict how species will respond to global change. Using recent theory on range limits and classical understanding of density dependence, we evaluated the influence of resource availability on the snowshoe hare (Lepus americanus) along its trailing southern edge. We collected data on population density and fluctuations, habitat use, and survival to test the hypothesis, here referred to as the Great Escape Hypothesis, that density dependence determines, in part, a species’ persistence along trailing edges.

Results/Conclusions

From a 6-year study (2014–2019), we found that variability in resource availability affected density and population fluctuations and led to trade-offs in survival for snowshoe hare populations in the northeastern US. Hares living in resource-limited environments had lower and stable population density, yet higher survival compared to populations living in resource-rich environments. We suggest that density-dependent dynamics, elicited by resource availability, provide hares a unique survival advantage and partly explains persistence along their trailing edge. We hypothesize that this low-density escape from predation and parasitism occurs for other prey species along trailing edges, but the extent to which it occurs is likely conditional on the quality of matrix habitat. Given the range of a species is shaped by several factors other than climate, including biotic and intraspecific factors, a more careful examination of factors influencing populations along trailing edges is needed to better inform conservation and management decisions.