Abstract
Mutualisms, in which both participants gain a net benefit, are ubiquitous in all ecosystems, and the importance of understanding their broader ecological context has been demonstrated many times. Indirect effects of mutualisms may have important implications for surrounding ecosystems through changes in density, species composition, or behavior; however, the latter has been difficult to quantify. In fish cleaning mutualisms, cleaners benefit by removing and consuming ectoparasites from clients, whereas clients benefit from a reduction in parasite load. Cleaner fish are also thought to benefit from immunity to predation and use tactile stimulation as a preconflict management strategy to manipulate partners' decisions and to avoid being eaten by piscivorous client fish. Here we show, using a laboratory experiment, that the presence of cleaner fish resulted in nearby fish not involved in the cleaner–client mutualism experiencing less aggression (chases) from predatory clients. In addition, the rate that piscivorous clients chased prey was negatively correlated with the amount of tactile stimulation given to the predator by the cleaner. These data suggest that, in the laboratory, the risk of aggression from predators toward nearby prey fish was greatly reduced as a by-product of cleaner fish presence and tactile stimulation of predators by cleaner fish. These results raise the question of whether cleaning stations act as safe havens from predator aggression.
Highlights
Mutualisms, in which both participants gain a net benefit, are ubiquitous in all ecosystems, and the importance of understanding their broader ecological context has been demonstrated many times
Cleaner fish have been shown to provide more tactile stimulation to piscivorous compared with nonpiscivorous client fish (Bshary and Wurth 2001) and more so when exposed to hungry than satiated piscivorous clients (Grutter 2004)
We found that the numbers of chases by E. insidiator toward potential prey fish (P. rhinorhynchos and P. tapeinosoma) were significantly reduced when a cleaner fish was present compared with when a control noncleaning fish (H. melanurus) or no treatment fish was present
Summary
Mutualisms, in which both participants gain a net benefit, are ubiquitous in all ecosystems, and the importance of understanding their broader ecological context has been demonstrated many times. These hypotheses contrast with 1) the observation that little aggression occurs at cleaning stations (Bshary and Wurth 2001), 2) an apparent lack of literature on observed predation events at cleaning stations (Cote 2000), and 3) the hypothesis that tactile stimulation by cleaning organisms have appeasing effects on clients (Bshary and Wurth 2001) If this latter hypothesis was true, it seems possible that the effects of tactile stimulation are not limited to the clients’ behavior toward the cleaners but may positively indirectly affect third party species. We tested whether the cleaners’ preconflict management strategies may benefit other fish near or queuing at cleaning stations through reduced aggressive behavior and in particular through reduced risk of being hunted by a predatory client
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a callDisclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.
