ABSTRACT
While the ability for crayfish to detect visual and chemical cues is well documented, relatively few studies have probed the behavioral responses of crayfish to cues from key predators that they encounter in natural environments. Therefore, we examined how northern crayfish (Faxonius virilis) (Hagen 1870) responded to (1) alarm cues from conspecifics versus chemical cues from smallmouth bass (Micropterus dolomieu) (Lacepéde 1802), (2) varying concentrations of alarm cue from conspecifics, and lastly (3) smallmouth bass visual cues, chemical cues, and a combination of the two. We found that crayfish reduced walking activity in the presence of alarm cues. Chemical cues from smallmouth bass were also capable of eliciting a behavioral response, both alone and when paired with visual cues. Understanding the behavioral mechanisms by which crayfish respond to predatory fish is important to managing freshwater systems in the context of ongoing human- and climate-aided range expansions of both taxa.
Acknowledgments
We thank K. Pecor for advice on experimental cue methods, and K. Babbitt and L. Reitsma for comments on this manuscript. Smallmouth bass were collected, maintained, and later returned to their lake of origin in accordance with a 2011 Scientific License issued by the Inland Fisheries Division of the New Hampshire Fish and Game Department.
Disclosure statement
No potential conflict of interest was reported by the authors.
Data availability statement
The data described in this article are openly available in the Open Science Framework at DOI:10.17605/OSF.IO/TPA6U.