Abstract
Organisms are adept at altering behaviors to balance the tradeoff between foraging and predation risk in spatially and temporally shifting predator environments. In order to optimize this tradeoff, prey need to be able to display an appropriate response based on degree of predation risk. To be most beneficial in the earliest life stages in which many prey are vulnerable to predation, innate anti-predator responses should scale to match the risk imposed by predators until learned anti-predator responses can occur. We conducted an experiment that examined whether tadpoles with no previous exposure to predators (i.e., predator-naive) exhibit innate antipredator behavioral responses (e.g., via refuge use and spatial avoidance) that match the actual risk posed by each predator. Using 7 treatments (6 free-roaming, lethal predators plus no-predator control), we determined the predation rates of each predator on Lithobates sphenocephalus tadpoles. We recorded behavioral observations on an additional 7 nonlethal treatments (6 caged predators plus no-predator control). Tadpoles exhibited innate responses to fish predators, but not non-fish predators, even though two non-fish predators (newt and crayfish) consumed the most tadpoles. Due to a mismatch between innate response and predator consumption, tadpoles may be vulnerable to greater rates of predation at the earliest life stages before learning can occur. Thus, naïve tadpoles in nature may be at a high risk to predation in the presence of a novel predator until learned anti-predator responses provide additional defenses to the surviving tadpoles.
Highlights
Predation is an important force structuring communities, especially in groups of concern such as amphibians (Sih et al, 1985; Lima & Dill, 1990; Abrams, 1995; Lima, 1998; Werner & Peacor, 2003; Bolker et al, 2003; Preisser, Bolnick & Benard, 2005)
We conducted an experiment that examined whether tadpoles with no previous exposure to predators exhibit innate antipredator behavioral responses that match the actual risk posed by each predator based upon consumption
Experimental methods The tadpole-survival component of the experiment consisted of 7 treatments (6 free-roaming, lethal predators plus no-predator control) and the behavioral component of the experiment consisted of 7 nonlethal treatments (6 caged predators plus no-predator control)
Summary
Predation is an important force structuring communities, especially in groups of concern such as amphibians (Sih et al, 1985; Lima & Dill, 1990; Abrams, 1995; Lima, 1998; Werner & Peacor, 2003; Bolker et al, 2003; Preisser, Bolnick & Benard, 2005). The egg and larval stages are very vulnerable to predation (Alford, 1999; Laurila, Karttunen & Merila, 2002) so there is considerable interest in understanding predation at these early life stages. How to cite this article Albecker and Vance-Chalcraft (2015), Mismatched anti-predator behavioral responses in predator-naıve larval anurans. It is adaptive for offspring to have defenses to a variety of potential predators from the moment of hatching if the survival benefits (e.g., increased foraging opportunities) afforded by anti-predator defenses are not offset by costs in other areas of fitness, such as reduced competitive ability or limited foraging opportunities (Bolker et al, 2003; Werner & Peacor, 2003; McPeek, 2004). For prey to optimize the tradeoff between costs and benefits, they need the innate ability to recognize specific predators and the risk they impose, and the ability to respond appropriately based on this risk (Helfman, 1989; Chivers et al, 2001; Walzer & Schausberger, 2013)
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