Chemical Ecology of Wave-Swept Shores: the Primacy of Contact Cues in Predation by Whelks.

Wave-swept shores are valuable for developing and testing key ecological principles. A synthesis of research is nonetheless missing a critical component: the chemosensory basis for behavioral interactions that determine population- and community-wide attributes. Chemical signaling environments on wave-swept shores, given their intense, turbulent mixing and complex topographies, would be difficult or impossible to simulate in a laboratory setting. For this reason, appropriately scaled field studies are needed to advance understanding of chemical stimuli and their biotic effects. Here, we performed a field investigation to establish the relative roles of dissolved and contact cues in predation by whelks (Acanthinucella spirata) on barnacles (Balanus glandula), their preferred prey. Experiments tested responses of whelks to seawater drawn above dense prey patches (10,240-12,180 barnacles m) and also over adjacent sand flats (no prey present). There was no evidence of waterborne stimuli associated with prey, even when sea states were nearly tranquil. Field trials also tested faux prey, which were constructed from cleaned barnacle shells and flavored gels. Prospective contact cues were presented to whelks at concentrations typical of epidermal tissue and cuticle in live, intact barnacles. These compounds were highly effective inducers of attack behavior and feeding. Selective enzyme degradations showed that the bioactive material was proteinaceous. Moreover, whelks did not distinguish faux barnacles with a single, purified glycoprotein (named "MULTIFUNCin") from live counterparts. Combined field results thus demonstrate the importance of contact cues, and indicate little, if any, effect of waterborne cues on predation by whelks under native conditions. Our findings underscore the need for appropriately scaled field experiments, and highlight surface chemistry as a critical factor that drives trophic interactions on rocky, wave-swept shores.