mimicry Parasitic wormsbiology

The flukes (Trematoda) are a class of parasitic worms belonging to the phylum Platyhelminthes. One species, Leucochloridium macrostomum, resides principally in the intestine of songbirds. The eggs of the parasite pass to the outside in the feces of the birds and are readily ingested by a terrestrial snail, Succinea, an inhabitant of waterlogged meadows and riverbanks. The parasite eggs hatch into the first larval form within the snail. The next stage, called the sporocyst, is strikingly green in colour and bears yellow-brown rings. The sporocyst develops in the snail tissues and carries several sacs of “spores,” one of which is placed into each of the snail’s tentacles, or eyestalks. The sac then begins to pulsate violently, at about 40 to 70 beats per minute. The tentacle of the snail becomes greatly enlarged and eventually is transformed into a transparent covering over the pulsating sporocyst. Succinea usually avoids light, but specimens with this parasite do not. When the snail appears with its conspicuous, pulsing eyestalks, birds mistake the eyestalks for insect larvae, bite them off, and eat them. Within the bird, the sporocyst then hatches into the final larval stage, which grows into an adult worm. In the meantime the snail’s eyestalk regenerates, and the cycle is repeated when another sac passes into the new eyestalks. Because the sporocysts of other trematodes are neither brightly coloured nor mobile, it can be concluded that the colour and pulsation of Leucochloridium are adaptations for arousing the interest of the insectivorous birds. Under normal circumstances the host birds do not eat snails, so the sporocyst must imitate the bird’s proper food in order to be eaten and to complete its life cycle in the bird host. The process represents an unusual case of aggressive mimicry, for the parasite manipulates its hosts and causes the bird to infect itself with the parasite.

Another trematode, Cercaria mirabilis, is notable for its unusually large larvae form, called a cercaria. The size of this cercaria and its hopping mode of locomotion cause it to resemble a small, swimming crustacean or mosquito larva, with the result that fish mistake it for food and swallow it. Research on parasites of this kind is much easier when it is recognized that the larval stages often mimic the food of their respective hosts. Examination of the parasite often provides a suggestion as to the probable host.