Abstract
As prisoners in their living habitat, parasites should be vulnerable to destruction by the predators of their hosts. But we show here that the parasitic gordian worm Paragordius tricuspidatus is able to escape not only from its insect host after ingestion by a fish or frog but also from the digestive tract of the predator. This remarkable tactic enables the worm to continue its life cycle.
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The induced suicide of crickets infected by gordian worms is one of the best known examples of parasite manipulation of host behaviour1. Adult gordian worms are free-living in water, where they mate as a knotted mass of multiple individuals. Emergence from the host occurs only after the cricket enters the water (for movie, see supplementary information) and may take as long as 10 min owing to the large size of the worm1. During this time, the cricket is active at the surface and attractive to aquatic predators such as fish and frogs (F.T., unpublished observations). Death of the worm would be expected to result from generalist predation upon the host at this stage unless the parasite were capable of an antipredator response.
Few parasites have their own predators, although they are victims of those of their hosts. Predation upon a host may shape parasite life history in two important ways. First, increased predation may select for increased parasite virulence2,3: for example, parasite development can speed up to minimize the period of host occupancy4. Increased virulence may also take the form of manipulating the host's behaviour5, for example to remove it from sources of predation6,7. Second, predation may affect parasite life history if the predator becomes incorporated into the life cycle8,9,10.
We investigated the response of gordian worms to predation on their host. Under laboratory conditions, we found that crickets that harboured or were expelling gordian worms were often eaten by generalist predators — fish (trout (Oncorhynchus mykiss), perch (Lepomis gibbosus), bass (Micropterus salmoides)) and frogs (Rana erythraea). In none of the 477 predation events that we observed did the predator regurgitate the cricket. Remarkably, the worm escaped predation by wriggling out of the mouth, nose or gills of the predator that had consumed its host (Fig. 1). This escape was recorded from trout (18%, n=141), bass (26%, n=292), perch (22%, n=27) and frogs (35%, n=17) (for methods, see supplementary information).
The mean time until full emergence was 8.6 min (518±208 s, n=72). The maximum time was 28 min, when the predator repeatedly tried to swallow the worm while it was escaping. If a worm did not start to emerge from the mouth, gills or nose within 5 min, it failed to escape — dying, presumably, in the hostile environment of the predator's stomach. To our knowledge, this escape response by a gordian worm is the first example of a parasite or any organism surviving predation in this way.
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Supplementary information
Supplementary Video 1
A gordian worm (Paragordius tricuspidatus) leaves its cricket host (Nemobius sylvestris). (MOV 1987 kb)
Supplementary Video 2
A gordian worm slides out of a frog’s mouth, the frog (Rana erythraea) having eaten the cricket in which the worm was living. (MOV 2598 kb)
Supplementary Video 3
A gordian worm slides out of a trout’s gill, the trout (Oncorhynchus mykiss) having eaten the cricket in which the worm was living. (MOV 838 kb)
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Ponton, F., Lebarbenchon, C., Lefèvre, T. et al. Parasite survives predation on its host. Nature 440, 756 (2006). https://doi.org/10.1038/440756a
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DOI: https://doi.org/10.1038/440756a
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