Non-consumptive effects between predators depend on the foraging mode of intraguild prey.

Abstract

Predator non-consumptive effects (NCE) are a suite of phenotypic responses of prey to avoid predation that cascade down food webs and can have a stronger impact than predation itself. However, the role of NCE in intraguild interactions remains understudied. Thus, multi-species experiments based on species traits are needed to improve our understanding of the impact of NCE on community structure. We investigated NCE of ants on 17 spider species as intraguild prey (8 cursorial and 9 sedentary) to test the influence of spider hunting mode on the strength of NCE. Sedentary spiders select a habitat patch and wait for prey, whereas cursorial spiders roam around searching for prey. Because actively foraging organisms have higher encounter rates with predators, cursorial spiders should show stronger reactions to ant presence. We collected cues (footprint hydrocarbons) of the black garden ant Lasius niger on filter papers. Then, we placed spiders individually on the papers and filmed their behaviour once on a paper with cues and once on a cue-free one. We used the increase in walking activity in the presence of cues as an indicator of avoidance behaviour towards ants. Cursorial spiders spent a longer time moving and being mobile, and had a higher overall mean mobility when exposed to ant cues compared with blank filter papers, whereas sedentary spider species did not react to ant cues at all. The avoidance of ant cues by cursorial spiders corresponds to their higher risk of encountering ants compared with sedentary species, in accordance with the threat-sensitivity hypothesis. Our multi-species study shows the relevance of NCE for intraguild interactions and highlights the importance of experimental trait-based approaches to improve predictability of species interactions and the role of NCE in ecological communities.