Palmer, Meredith2020-08-252020-08-252018-03https://hdl.handle.net/11299/215066University of Minnesota Ph.D. dissertation.March 2018. Major: Ecology, Evolution and Behavior. Advisor: Craig Packer. 1 computer file (PDF); vi, 105 pages.The fear of predation is a driving force shaping prey behavior and ecology. The “landscape of fear” hypothesis posits that prey perceive their environment in terms of peaks and valleys of predation risk; the behavioral decisions prey make as they navigate this “landscape” reflect a fitness tradeoff between minimizing risk and obtaining sufficient resources. While landscapes of fear have been well-examined in small-scale experimental systems, logistical challenges have greatly prohibited their study in communities of large vertebrates which inhabit vast spatial expanses. In a novel investigation of an unparalleled long-term camera trap dataset, I examined the behavioral tactics used by guilds of mammalian herbivores to navigate a risk-resource tradeoff in a natural savanna ecosystem. By studying the choice and scale of anti-predator behaviors elicited in response to multidimensional predation risk from an apex predator, the African lion (Panthera leo), I sought to derive overarching mechanisms which structure communities across different spatial and temporal scales. First, I determined the spatial mechanisms structuring the landscape of fear by quantifying anti-predator behaviors elicited in response to different components of the predation process (i.e., the risk of encountering predators vs. the risk of being killed given an encounter). I then incorporated predictable temporal variations in predation threat, assessing whether prey perceive heterogeneity in risk across time as well as space. For this, I tested whether prey changed their behaviors in response to diel fluctuations in lion activity patterns or monthly nocturnal variation in lion hunting success driven by changes in night-time luminosity. Finally, I evaluated immediate responses to cues of imminent predation risk within herbivore communities. I characterized the types of anti-predator behaviors used to mitigate risk across each spatiotemporal scale and examined how choice of anti-predator behavior changed across resource gradients in order to understand the costs and benefits associated with different suites of behavioral decisions. My work suggests that prey minimize dynamic variation in predation risk by exhibiting a variety of complementary and compensatory behaviors across spatiotemporal scales. This type of complexity is frequently suggested but rarely tested, and directly informs our ability to predict predator-mediated impacts on community structure and ecosystem functioning.enAnti-predator behaviorEavesdroppingHabitat selectionLandscapes of fearPredation riskPredator-preyThesis or Dissertation