Do free-ranging rattlesnakes use thermal cues to evaluate prey?

• Published in: Journal of Comparative Physiology Vol. 204; no. 3; pp. 295 - 303
• Main Authors: Schraft, Hannes A., Goodman, Colin, Clark, Rulon W.
• Format: Journal Article
• Language: English
• Published: Berlin/Heidelberg Springer Berlin Heidelberg 01.03.2018; Springer Nature B.V
• Subjects: Animal Physiology; Biomedical and Life Sciences; Carcasses; Cues; Evaluation; Hunting; Hypotheses; I.R. radiation; Infrared radiation; Life Sciences; Lizards; Neurosciences; Original Paper; Predators; Prey; Snakes; Temperature; Temperature effects; Zoology; Infrared; Locomotor performance; Predator–prey interaction; Temperature-dependence; Thermography
• ISSN: 0340-7594; 1432-1351
• DOI: 10.1007/s00359-017-1239-8

Rattlesnakes use infrared radiation to detect prey animals such as small mammals and lizards. Because ectotherm locomotor performance depends on temperature, rattlesnakes could use prey temperature to evaluate the potential of lizards to evade attacks. Here, we tested whether hunting rattlesnakes use infrared information to (1) detect and (2) evaluate prey before attack. We expected thermal contrast between prey and background to be the best predictor of predatory behaviour under the prey detection hypothesis, and absolute prey temperature under the prey evaluation hypothesis. We presented lizard carcasses of varying temperatures to free-ranging sidewinder rattlesnakes ( Crotalus cerastes ) and scored behavioural responses as a function of thermal contrast, absolute lizard temperature, and light level. Thermal contrast and light level were the most salient predictors of snake behaviour. Snakes were more likely to respond to lizards and/or respond at greater distances at night and when thermal contrast was high, supporting the known prey detection function of infrared sensing. Absolute lizard temperature was not an important predictor of snake behaviour; thus, we found no evidence for temperature-based prey evaluation. Infrared sensing is still poorly understood in ecologically relevant contexts; future research will test whether rattlesnakes learn to evaluate prey based on temperature with experience.