Litcius/Paper detail

Interspecific Eavesdropping on Ant Chemical Communication

Rachelle M. M. Adams, Rachel Wells, Stephen P. Yanoviak, Christopher J. Frost, Eduardo Gonçalves Paterson Fox

2020Frontiers in Ecology and Evolution34 citationsDOIOpen Access PDF

Abstract

Chemical communication is a fundamental, highly complex component of social insect societies. Ants in particular employ a remarkable diversity of chemical signals to maintain social cohesion among nestmates, gain essential resources through coordinated foraging, and warn of danger. Although the chemicals used can be functionally specific, they are vulnerable to exploitation by eavesdropping natural enemies (e.g., parasitoids, predators, parasites) and other associates (e.g., myrmecophiles). Ant nests are nutrient hotspots due to their collection of resources warranting keen defense systems; yet the heavily defended hideouts are frequently invaded. Many organisms exploit ant species, but how they locate hosts-including what host-derived cues are used-is still poorly understood. Here, we review current knowledge about how ant chemical communication systems can be exploited by unintended receivers. We take a case study approach and illustrate the diversity of ant associates and host traits that may predispose ants to exploitation. We identify knowledge gaps by reviewing host systems and listing: (1) the types of associates (e.g., fly, wasp, beetle) where eavesdropping is likely occurring, organized by the host communication system that is being exploited;

Topics & Concepts

EavesdroppingBiologyEcologyHost (biology)ExploitANTForagingNest (protein structural motif)Mutualism (biology)Computer securityComputer scienceBiochemistryInsect and Arachnid Ecology and BehaviorPlant and animal studiesInsect and Pesticide Research