Bimodal alarm signals modulate responses to monomodal alarm signals in Camponotus modoc carpenter ants

Author:

Renyard Asim1ORCID,Gries Gerhard1

Affiliation:

1. Department of Biological Sciences Simon Fraser University Burnaby British Columbia Canada

Abstract

AbstractDistressed western carpenter ants, Camponotus modoc, produce alarm pheromone and substrate‐borne vibrations. The alarm pheromone attracts nestmates but the effects of vibratory signals, or of bimodal pheromonal and vibratory signals, are not known. Worker ants of two Camponotus congeners reportedly stand still (“freeze”) or run fast in response to engineered drumming vibrations inputted on plastic, but many responses to ant‐produced vibratory signals on wood have not yet been investigated. Generally, orientating toward signalers under vertebrate predator attack seems maladaptive and not beneficial to ant colonies. We tested the hypotheses (1) that vibratory alarm signals cause freezing, rapid running but not attraction of nestmates, and (2) that bimodal alarm signals modulate responses to monomodal alarm signals, thereby possibly reducing predation risk. Laser Doppler vibrometry recordings revealed that the ants’ vibratory signals readily propagate through ant nest lamellae, and thus quickly inform nest mates of perceived threats. With a speaker modified to record and deliver vibratory signals, we obtained drumming signals of distressed ants on a Douglas fir veneer, and bioassayed signal effects on ants in an arena with a suspended veneer floor. In response playback of vibratory signals, ants ran rapidly, or froze, but did not approach the vibratory signals. Exposed to alarm pheromone, ants frequently visited the pheromone source. However, concurrently exposed to both alarm pheromone and vibratory signals, ants visited the pheromone source less often but spent more time “frozen.” The ants’ modulated responses to bimodal signals seem adaptive but the reproductive fitness benefits are still to be quantified.

Funder

Natural Sciences and Engineering Research Council of Canada

Publisher

Wiley

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