Evaluating the efficacy of tagging adhesives for insect tracking

Abstract Ground beetles (Carabidae) are important predators and ecosystem service providers in agricultural landscapes, yet understanding their movement ecology remains challenging due to methodological limitations in tracking individual insects. Radio‐frequency identification (RFID) technology offers a promising approach for monitoring beetle movements, but successful implementation requires reliable tag attachment. We evaluated five adhesive types (water‐based polyvinyl acetate, latex‐based cosmetic adhesive, low‐viscosity cyanoacrylate, gel‐viscosity cyanoacrylate and two‐part epoxy resin) for the strength of RFID tag adhesion on carabid beetles across three genera ( Harpalus , Leistus and Poecilus ). Using a Gamma generalised linear model (GLM) with a log link, we found significant differences among adhesive types. Araldite epoxy provided the strongest adhesion (mean separation mass = 110.2 ± 58.2 g), significantly exceeding all other adhesives. Light abrasion of the elytra significantly improved adhesion in Leistus rufomarginatus , with sanded surfaces showing a 2.5‐fold greater separation mass than smooth surfaces. We recommend using a two‐part epoxy resin with light elytra abrasion to maximise the strength of RFID tag adhesion in studies on carabids.