Leucochloridium paradoxum | |
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Leucochloridium paradoxum, parasite in Succinea putris | |
Scientific classification | |
Kingdom: | Animalia |
Phylum: | Platyhelminthes |
Class: | Trematoda |
Order: | Strigeidida |
Family: | Leucochloridiidae |
Genus: | Leucochloridium |
Species: | L. paradoxum |
Binomial name | |
Leucochloridium paradoxum (Carus, 1835) |
The green-banded broodsac, scientific name Leucochloridium paradoxum, is a parasitic flatworm (or "helminth") that uses gastropods as an intermediate host. It is typically found in land snails of the genus Succinea that live in Europe and North America where it infects the host’s eyes making them appear as caterpillars that other birds prey on. Various birds consume these infected gastropods, becoming the definitive host for L. paradoxum to mature and release eggs in the rectum that are later found in the feces of the bird host.
It is hard to distinguish Leucochloridium species from one another due to their similarities in appearances as adults. Many of them lack a hard structure and have a variety of ranges in sizes. The most common way to differentiate between Leucochloridium species is by looking at the broodsacs and banding patterns. L. paradoxum typically exhibits broodsacs that have green bands with dark brown and black spots. During development, the parasite has different sizes and shapes. L. paradoxum eggs are known to be brown colored and exhibit an oval shape. The miracidia during the first stage of development are clear and elongated. Once the miracidia transform into sporocysts, they appear as broodsacs that infect the snail hosts in their eyes and begin to pulsate green, yellow, and red. The sporocysts turn into cercaria (juveniles) that have a tail along with a digestive tract that is lined with an excretory bladder that extends into the tail. The tail of a cercaria has finfolds on the top and bottom and setae on the sides. Cercaria also has two eyespots. At the end of the cycle, the adults appear as worms that have spines and are dorsally flattened with suckers in order to attach to the definitive host.
The worm in its larval, miracidia stage, travels into the digestive system of a snail to develop into the next stage, sporocyst. The sporocyst grows into long tubes to form swollen "broodsacs" filled with tens to hundreds of cercariae. These broodsacs invade the snail's tentacles (preferring the left, when available), causing a brilliant transformation of the tentacles into a swollen, pulsating, colorful display that mimics the appearance of a caterpillar or grub. The broodsacs seem to pulsate in response to light intensity, and in total darkness do not pulse at all. The infection of the tentacles of the eyes seems to inhibit the perception of light intensity. Whereas uninfected snails seek dark areas to prevent predation, infected snails have a deficit in light detection, and are more likely to become exposed to predators, such as birds. In a study done in Poland, 53% of infected snails stayed in more open places longer, sat on higher vegetation, and stayed in better lit places than uninfected snails. Only 28% of the uninfected snails remained fully exposed for the duration of the observation period. Birds are the definitive hosts where the cercariae develop into adult distomes in the digestive system of the bird. These adult forms sexually reproduce and lay eggs that are released from the host via the bird's excretory system. These droppings are then consumed by snails to complete the life cycle of this parasitic worm.