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Thesis defences

PhD Oral Exam - Laurence Feyten, Biology

Uncertainty of risk and information limitations shape neophobic antipredator responses in Trinidadian guppies

Date & time
Wednesday, April 19, 2023
9 a.m. – 11 a.m.

This event is free


School of Graduate Studies


Daniela Ferrer



When studying for a doctoral degree (PhD), candidates submit a thesis that provides a critical review of the current state of knowledge of the thesis subject as well as the student’s own contributions to the subject. The distinguishing criterion of doctoral graduate research is a significant and original contribution to knowledge.

Once accepted, the candidate presents the thesis orally. This oral exam is open to the public.


The combined effects of changing climates, anthropogenic disturbances, and invasive species lead to short and long-term ecosystem changes. As a result, prey populations may be faced with increased uncertainty of risk (i.e., inability to predict predation events due to limitations on the quantity or quality of information). This uncertainty impacts decision-making and risk-assessment abilities among prey. Therefore, it is critical to understand the ecological factors driving uncertainty, and how prey deal with information limitations. Recently, phenotypically plastic neophobic predator avoidance (NPA, increased vigilance towards novel stimuli) has been suggested as a response of prey to uncertainty, without the costs associated with learning specific predator cues. Trinidadian guppies (Poecilia reticulata) from high-predation populations exhibit NPA, and NPA can be induced in predator-naïve populations after increasing mean predation risk. However, it remains unclear what specific factors drive uncertainty and the resulting NPA. Using Trinidadian guppies as a model system, I conduct a combination of laboratory and field experiments to identify potential drivers of uncertainty of risk within prey populations. I use an information ecology framework to argue that uncertainty of risk may arise from prey experience during risk information detection, from the risk information source (i.e., conspecifics and/or predators), and from the environment through which risk information must travel. I demonstrate that NPA increases when prey experience multiple novel cues, simultaneously or over time. After repeated encounters with a single novel cue, NPA is lost unless the cue is spatially unpredictable. Furthermore, NPA to a novel cue is mediated when paired with a social safety cue. I also assess predator guild composition and demonstrate that increased predator density (i.e., mean risk), and to a weaker extent predator diversity, increases NPA. Lastly, I show that NPA is greater in microhabitats with greater water velocity and habitat complexity, smaller dimensions, and decreased substrate heterogeneity and substrate diversity. Uncertainty of risk may have deleterious impacts on the distribution and abundance of predator and prey species. My thesis identifies factors contributing to uncertainty, enables prediction of prey responses to such conditions, and can contribute to conservation and management efforts of socio-economically important, endangered, or invasive species.

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