Document Type


Session Format

Graduate Research Poster (no oral presentation)

Publication Date

Spring 3-3-2023

Faculty Advisor

Dominic L. DeSantis


Historically, predators have been classified into two categories based upon how they search for and acquire prey. Active foragers move through the environment in search of prey, while ambush foragers “sit-and-wait” in selected positions for prey to pass. This difference in energetic demands is expected to correlate with disparities in the time species allocate to various behaviors. According to this energetics hypothesis, ambush foragers should exhibit reduced movement and space use relative to co-occurring active foragers. Snakes represent traditionally overlooked model organisms for exploring these associations, particularly the interplay between movement, foraging mode, and thermal preferences. Radio telemetry is the primary tool for measuring snake movement, however, coarse measures of activity hinder examination of movement patterns at finer temporal scales. This study capitalizes on recently validated procedures integrating radio telemetry and accelerometry for continuous monitoring of the spatial and temporal dimensions of movement behavior in snakes. We will carry out an improved test of the energetics hypothesis by exploring these associations in ambush-foraging Timber Rattlesnakes (Crotalus horridus) and active-foraging Rat Snakes (Pantherophis alleghaniensis). This project will provide a blue-print for future hypothesis-driven studies on movement behavior in small and secretive species using emerging animal-borne datalogging technologies.



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