Abstract
Aposematism is a well-known strategy in which prey defend themselves from predation by pairing defenses such as toxins, with warning signals that are often visually conspicuous color patterns. Here, we examine the possibility that aposematism can be induced in a host by colonies of infectious parasites in order to protect the parasites from the consequences of attacks on the host. Earlier studies show that avian predators are reluctant to feed on carcasses of host prey that are infected with the entomopathogenic nematode, Heterorhabditis bacteriophora. As the age of infection increases, the parasites kill and preserve the host and subsequently cause its color to change, becoming bright pink then red. Nematode colonies in dead hosts may also be vulnerable, however, to nocturnally active foragers that do not use vision in prey detection. Here, then we test a novel hypothesis that the nematode parasites also produce a warning odor, which functions to repel nocturnally active predators (in this case, the beetle Pterostichus madidus). We show that beetles decrease their feeding on infected insect prey as the age of infection increases and that olfactory cues associated with the infections are effective mechanisms for deterring beetle predation, even at very early stages of infection. We propose that "parasite-induced aposematism" from the nematodes serves to replace the antipredator defenses of the recently killed host. Because sessile carcasses are exposed to a greater range of predators than the live hosts, several alternative defense mechanisms are required to protect the colony, hence aposematic signals are likely diverse in such "parasite-induced aposematism."
Highlights
Parasite-induced alteration of host phenotype is a widespread strategy of transmission among pathogens (Moore 2002)
Some parasites only have 1 host in their life cycle and as a result, predation of this host can be detrimental to the parasite if it is unable to survive and reproduce within the predator
Data were pooled across both years because there was no effect of year on time spent feeding (Markov chain Monte Carlo generalized linear mixed model [MCMCglmm], P = 0.726), time spent in the target area (MCMCglmm, P = 0.634) or time spent on a scent (MCMCglmm, P = 0.988)
Summary
Parasite-induced alteration of host phenotype is a widespread strategy of transmission among pathogens (Moore 2002). Many parasites manipulate their host’s behavior or coloration to maximize transmission to a definitive host by making the intermediate host more conspicuous to predators, the definitive host (Moore 2002). Ants infected with the trematode Dicrocoelium dendriticum move up to the top of vegetation, increasing their chance of being eaten by grazing sheep, the definitive host (Moore 1995). The parasite increases its chance of transmission by increasing the likelihood of the intermediate host being consumed by the definitive host species. We demonstrate a novel form of odorbased host manipulation by a parasitic nematode in order to deter predators from consuming an infected host, protecting the nematode–bacterium colony within
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