Enhanced polarotaxis can explain water-entry behaviour of mantids infected with nematomorph parasites

A wide range of parasites manipulate the behaviours of their hosts in order to complete their life cycle1. Alteration of phototaxis is thought to be involved in host manipulation in many cases2,3. However, very little is known about what features of the light (intensity, spectrum, polarization) alter behaviour. Here we report that arboreal mantids (Hierodula patellifera) infected by nematomorph parasites (Chordodes sp.) are attracted to horizontally polarized light, which could induce the mantids to enter water, where the parasites can then emerge and reproduce. In a two-choice test, infected mantids were attracted to horizontally but not vertically polarized light. Uninfected mantids were not attracted to either. In a field experiment, 14 infected mantids entered a deep pool, where the water surface strongly reflected horizontally polarized light. By contrast, only two mantids entered a shallow pool, where the surface reflection had higher light intensity but weaker polarization. To our knowledge, this is the first study demonstrating that a manipulative parasite can take advantage of its hosts’ ability to perceive polarized light stimuli to alter host behaviour. [Display omitted] Obayashi et al. report that arboreal mantids infected by nematomorph parasites are attracted to horizontally polarized light, causing the infected mantids to enter the water, where the parasites reproduce.