Flamingolepis liguloides

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Flamingolepis liguloides
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Platyhelminthes
Class: Cestoda
Order: Cyclophyllidea
Family: Hymenolepididae
Genus: Flamingolepis
Species:
F. liguloides
Binomial name
Flamingolepis liguloides
(Gervais, 1847)

Flamingolepis liguloides is a parasitic tapeworm of the Cestoda class. There are several tapeworms that are found to infect Artemia ; however, F. liguloides is the most prevalent species of infectious tapeworm among Artemia . F. liguloides infects brine shrimp (Artemia) as the intermediate host and flamingos as the definitive host. Effects of the tapeworm in flamingos is unclear, though researchers hypothesize that a high parasitemia could potentially be deadly to the host. The parasite appears to affect the Artemia spp. as it alters the behavior and color of its host. [1]

Contents

Life cycle

Artemia can reproduce both sexually and asexually. The life cycle of F. liguloides begins by Artemia ingesting the cestode larva, called oncosphere. It then penetrates the intestinal wall into the hemocoel where it becomes a cysticercoid, or larva with a scolex. The larva reaches maturity in the digestive tract of the flamingo (definitive host). Adult parasites produce eggs, which are released in the feces and into the environment. [2]

Epidemiology

A survey conducted at four sites in southern Spain found the total prevalence of cestode ranging from 45 to 89% in Artemia with 45-77% being infected with Flamingolepis liguloides. High prevalence of F. liguloides can be observed throughout the year in southern Spain. However, this is not the case for all areas. In French saltpans the prevalence of F. liguloides in Artemia populations is much lower in the months of April to October, having a prevalence of around 4.25%. Artemia in saltpans outside the range of flamingos such as the Bulgarian Black Sea coast has a prevalence of almost zero. [3]

Typically host density is indicative of parasitic presence. However, the survey acknowledged that environmental factors are also associated with parasitic presence. Specifically predicting that: temporal variation might structure the cestode community, the most common cestode species in brine shrimp would be those that used the most common bird species as final hosts and that temporal variation in Artemia would track changes in abundance of their final host. Seasonal patterns of infection of F. liguloides showed to have the highest prevalence in June and the lowest in December. Although the waterbird biomass was correlated to strong seasonal patterns, the actual transmission from birds or the removal of infected shrimp showed no significant effect. There was also no clear relationship between cestode and final host abundances. The gender of A. salina did not significantly hinder infection rates of F. liguloides. Showing that seasonal patterns seem to play a big factor in F. liguloides prevalence, whereas other environmental factors may not play as big a role. [4]

Anatomy and morphology

Anatomy of Flamingolepis ligulepis begins with an oval cyst formation. Within this structure, the organism's myriad of calcium corpuscles provide the parasite with a rigid enclosed space for occupation within the host environment such as occupation within erythrocytes. The typical scolex of F. liguloides is nearly 3x that of its close relative, Flamingolepis flamingo, allowing for more room to hold suckers and hooks. A feature often used to distinguish F. ligulepis is the presence of 8 skrjabinnoid hooks. Each of these hooks are characteristically 180-190 μm in length. When visualizing the body plan of the parasite, the hooks and blades are localized on the posterior end. The rostellar suckers of F. liguloides are oval shaped, with small hooks surrounding the perimeter. The rostellar hooks act as blades that aid in parasitic attachment. [5]

Behavioral manipulation

In infected shrimp, the larva changes the color from transparent to red, making them more susceptible to avian predators. Parasitic castration is also observed in Artemia [6] [7]

In a study conducted by Rode and Lievens, two species of Artemia that are found to congregate in swarms have coinfections of two microsporidian fungi and the F. liguloides tapeworm. Observing this unusual behavior, they hypothesize that the shrimps are being manipulated by the parasite which makes them easier to spot by flamingos, which are the parasite's definitive host. Each shrimp is one centimeter in length, but when gathered, the swarms can stretch up to two meters. Using the Artemia's characteristic of high salinity tolerance, the swarms are formed in water that is too salty to be habitable for fish. Rode and Lievens also hypothesize that the parasitic infection increases the shrimps' lifespan, time spent at the water surface, and that the castration is to prevent the shrimps from spending time with sexual reproduction. These behaviors would contribute to increasing the chance for the infected Artemia to be consumed by flamingos. [8]

Related Research Articles

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<i>Taenia solium</i> Species of Cestoda

Taenia solium, the pork tapeworm, belongs to the cyclophyllid cestode family Taeniidae. It is found throughout the world and is most common in countries where pork is eaten. It is a tapeworm that uses humans as its definitive host and pigs as the intermediate or secondary hosts. It is transmitted to pigs through human feces that contain the parasite eggs and contaminate their fodder. Pigs ingest the eggs, which develop into larvae, then into oncospheres, and ultimately into infective tapeworm cysts, called cysticercus. Humans acquire the cysts through consumption of uncooked or under-cooked pork and the cysts grow into an adult worms in the small intestine.

<i>Taenia</i> (tapeworm) Genus of flatworms

Taenia is the type genus of the Taeniidae family of tapeworms. It includes some important parasites of livestock. Members of the genus are responsible for taeniasis and cysticercosis in humans, which are types of helminthiasis belonging to the group of neglected tropical diseases. More than 100 species are recorded. They are morphologically characterized by a ribbon-like body composed of a series of segments called proglottids; hence the name Taenia. The anterior end of the body is the scolex. Some members of the genus Taenia have an armed scolex ; of the two major human parasites, Taenia saginata has an unarmed scolex, while Taenia solium has an armed scolex.

<i>Taenia saginata</i> Species of flatworm

Taenia saginata, commonly known as the beef tapeworm, is a zoonotic tapeworm belonging to the order Cyclophyllidea and genus Taenia. It is an intestinal parasite in humans causing taeniasis and cysticercosis in cattle. Cattle are the intermediate hosts, where larval development occurs, while humans are definitive hosts harbouring the adult worms. It is found globally and most prevalently where cattle are raised and beef is consumed. It is relatively common in Africa, Europe, Southeast Asia, South Asia, and Latin America. Humans are generally infected as a result of eating raw or undercooked beef which contains the infective larvae, called cysticerci. As hermaphrodites, each body segment called proglottid has complete sets of both male and female reproductive systems. Thus, reproduction is by self-fertilisation. From humans, embryonated eggs, called oncospheres, are released with faeces and are transmitted to cattle through contaminated fodder. Oncospheres develop inside muscle, liver, and lungs of cattle into infective cysticerci.

<i>Dipylidium caninum</i> Species of flatworm

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<i>Hymenolepis nana</i> Species of flatworm

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<i>Hymenolepis</i> (tapeworm) Genus of worms

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<span class="mw-page-title-main">Cestoda</span> Class of flatworms

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<i>Raillietina</i> Genus of flatworms

Raillietina is a genus of tapeworms that includes helminth parasites of vertebrates, mostly of birds. The genus was named in 1920 in honour of a French veterinarian and helminthologist, Louis-Joseph Alcide Railliet. Of the 37 species recorded under the genus, Raillietina demerariensis, R. asiatica, and R. formsana are the only species reported from humans, while the rest are found in birds. R. echinobothrida, R. tetragona, and R. cesticillus are the most important species in terms of prevalence and pathogenicity among wild and domestic birds.

<i>Raillietina echinobothrida</i> Species of flatworm

Raillietina echinobothrida is a parasitic tapeworm belonging to the class Cestoda. It is the most prevalent and pathogenic helminth parasite in birds, particularly in domestic fowl, Gallus domesticus Linnaeus, 1758. It requires two hosts, birds and ants, for completion of its life cycle. It is a hermaphrodite worm having both the male and female reproductive organs in its body. The parasite is responsible for 'nodular tapeworm disease' in poultry.

Taenia asiatica, commonly known as Asian taenia or Asian tapeworm, is a parasitic tapeworm of humans and pigs. It is one of the three species of Taenia infecting humans and causes taeniasis. Discovered only in 1980s from Taiwan and other East Asian countries as an unusual species, it is so notoriously similar to Taenia saginata, the beef tapeworm, that it was for a time regarded as a slightly different strain. But anomaly arose as the tapeworm is not of cattle origin, but of pigs. Morphological details also showed significant variations, such as presence of rostellar hooks, shorter body, and fewer body segments. The scientific name designated was then Asian T. saginata. But the taxonomic consensus turns out to be that it is a unique species. It was in 1993 that two Korean parasitologists, Keeseon S. Eom and Han Jong Rim, provided the biological bases for classifying it into a separate species. The use of mitochondrial genome sequence and molecular phylogeny in the late 2000s established the taxonomic status.

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Raillietina tetragona is a parasitic tapeworm belonging to the class Cestoda. It is a cosmopolitan helminth of the small intestine of pigeon, chicken and guinea fowl, and is found throughout the world.

Raillietina cesticillus is a parasitic tapeworm of the family Davaineidae. Sometimes called 'broad-headed tapeworm', it infects the small intestine of chicken and occasionally other birds, such as guinea fowl and turkey, which are generally in close proximity to backyard poultry. It is a relatively harmless species among intestinal cestodes in spite of a high prevalence. In fact it probably is the most common parasitic platyhelminth in modern poultry facilities throughout the world.

<span class="mw-page-title-main">Rostellum (helminth)</span> Feature of tapeworm anatomy

Rostellum in helminthology is a protruding part of the anterior end of tapeworms. It is a retractable, cone-like muscular structure that is located on the apical end of the scolex, and in most species is armed with hooks, the organs of attachment to the host's intestinal wall. It is a parasitic adaptation in some cestodes for firm attachment in the gastrointestinal tract and is structurally different from one species to another, thereby becoming an important diagnostic feature.

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References

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  2. Amarouayache, Mounia (1 October 2009). "The parasitism of Flamingolepis liguloides (Gervais, 1847) (Cestoda, Hymenolepididae) in Artemia salina (Crustacea, Branchiopoda) in two saline lakes in Algeria". Acta Parasitologica. 54 (4): 330–334. doi: 10.2478/s11686-009-0049-8 . Retrieved 6 December 2016.
  3. Sánchez, Marta (2013). "High prevalence of cestodes in Artemia spp. throughout the annual cycle: relationship with abundance of avian final hosts". Parasitology Research. 112 (5): 1913–1923. doi:10.1007/s00436-013-3347-x. hdl: 10261/75096 . PMID   23463137. S2CID   253970531.
  4. Sánchez, Marta (2013). "High prevalence of cestodes in Artemia spp. throughout the annual cycle: relationship with abundance of avian final hosts". Parasitology Research. 112 (5): 1913–1923. doi:10.1007/s00436-013-3347-x. hdl: 10261/75096 . PMID   23463137. S2CID   253970531.
  5. Georgiev, Boyko (2005). "Cestodes from Artemia parthenogenetica (Crustacean, Branchiopoda) in the Odiel Marshes, Spain: A systematic survey of cysticercoids". Acta Parasitologica. 50 (2): 105–117.
  6. Sánchez, Marta (6 March 2013). "High prevalence of cestodes in Artemia spp. throughout the annual cycle: relationship with abundance of avian final hosts". Parasitology Research. 112 (5): 1913–1923. doi:10.1007/s00436-013-3347-x. hdl: 10261/75096 . PMID   23463137. S2CID   253970531.
  7. Parasite of the Day
  8. Rode, Nicolas (28 January 2013). "Why join groups? Lessons from parasite-manipulated Artemia" (PDF). Ecology Letters. 16 (4): 493–501. doi:10.1111/ele.12074. hdl: 10261/75927 . PMID   23351125 . Retrieved 6 December 2016.
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