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The evolution of symmetrical snapping in termite soldiers need not lead to reduced chemical defence

Publication at Faculty of Science |
2015

Abstract

Termite soldiers use a multitude of defensive strategies, often combining mechanical weapons with defensive chemicals secreted from their frontal gland. In higher termites (Termitidae), both these weapons are situated in the head of the soldiers.

Their simultaneous occurrence is supposed to be subjected to energetic and spatial constraints and the resulting trade-off often leads to a full development of only one of the weapons and reduction of the other. Mandibular snapping represents an extreme and efficient anatomical adaptation, allowing the soldier to knock out arthropod enemies with a violent strike of elongated mandibles.

The head of snapping soldiers harbours massive adductor muscles while the frontal gland is reported to be reduced and the chemical defence absent. Here we show that the symmetrical snapping soldiers of the Neotropical termite Cavitermes tuberosus possess a well-developed frontal gland situated in the frontal projection on their head.

The gland produces a blend of unbranched alkenes and alkadienes combined with three diterpene hydrocarbons, derived from a novel bicyclic hydrocarbon skeleton. We characterized the molecular structure of the most abundant of these diterpenes and proposed for it a trivial name, cavitene.

We conclude that the evolution of the mandibular snapping has not necessarily been accompanied by the reduction or loss of chemical defensive adaptations and that the two defensive modes are not mutually incompatible.(c) 2015 The Linnean Society of London,