Halipegus eccentricus

Halipegus eccentricus
Scientific classification
Kingdom:	Animalia
Phylum:	Platyhelminthes
Class:	Trematoda
Order:	Plagiorchiida
Family:	Derogenidae
Genus:	Halipegus
Species:	H. eccentricus
Binomial name
	Halipegus eccentricus; Thomas, 1939

Last updated May 02, 2023

Halipegus eccentricus is a monoecious, digenea parasitic trematode commonly found in true frogs in North America. It was first described in 1939.^[1]

H. eccentricus is mainly found in the Eustachian tubes of a variety of frog species, its definitive host, although its life cycle involves other hosts, as is common for trematodes. Earlier research proposed that its life cycle involved two other species of hosts (ostracods and snails);^[2] however, subsequent research has revealed that the nymph form of the damselfly is also involved.^[3]

Population dynamics and distribution

There is a positive correlation between numbers of H. eccentricus and frog size and age. The maximum infrapopulation density that a single frog can support is twelve, although most infected frogs have only five or six worms. Seasonal patterns of prevalence of the parasite in one of its intermediate hosts, Physa gyrina , have been observed to peak in May through July and to decline in autumn, which coincides with the decline of leaf litter.^[4]

Morphology

The adult H. eccentricus is an orange-brown elongated worm approximately 6.0–6.5 mm (0.24–0.26 in) long and 1.8 mm (0.071 in) wide, with the greatest width at the posterior end. It has a subterminal oral sucker and a short esophagus. When laid, the eggs are fully embryonated, straw colored, and operculated. Each egg contains a single recurved filament. The cercariae are cystophorous, while the metacercariae have two flame cells, a large acetabulum, and a spiny cuticula with eight pen-shaped apical hooks, which are used to penetrate the snail intestines.^[5]

H. eccentricus can be differentiated from the related species H. occidualis depending on where the adult is found inside of frogs; H. eccentricus is found primarily in the Eustachian tubes whereas H. occidualis is found primarily in the esophagus and under the tongue.^[6]H. eccentricus overwinter in their amphibian hosts.

Life cycle

Metamorphosed anurans become infected with H. eccentricus by feeding on metacercariae-infected damselflies or microcrustaceans ( Cypridopsis sp.). Adult worms are released in the stomach of anurans, migrate to the Eustachian tubes within 32–39 days post-exposure (DPE), and release eggs into the feces 50-60 DPE. Physa gyrina or Planorbella trivolvis snails subsequently ingest the eggs. Inside of the snail intestine, the eggs undergo a series of development stages culminating in the cystophorous cercariae (32–35 DPE). The cercariae pass into the feces and infect copepod and ostracod microcrustaceans, the second intermediate hosts, where they develop in the hemocel into metacercariae. 15 to 19-day-old metacercariae from ostracods are infective to both damselfly larvae and metamorphosed anurans.^[3]

Related Research Articles

Trematoda is a class of flatworms known as flukes. They are obligate internal parasites with a complex life cycle requiring at least two hosts. The intermediate host, in which asexual reproduction occurs, is usually a snail. The definitive host, where the flukes sexually reproduce, is a vertebrate. Infection by trematodes can cause disease in all five traditional vertebrate classes: mammals, birds, amphibians, reptiles, and fish.

<span class="mw-page-title-main">Digenea</span> Class of flukes

Digenea is a class of trematodes in the Platyhelminthes phylum, consisting of parasitic flatworms with a syncytial tegument and, usually, two suckers, one ventral and one oral. Adults commonly live within the digestive tract, but occur throughout the organ systems of all classes of vertebrates. Once thought to be related to the Monogenea, it is now recognised that they are closest to the Aspidogastrea and that the Monogenea are more closely allied with the Cestoda. Around 6,000 species have been described to date.

Trematodes are parasitic flatworms of the class Trematoda, specifically parasitic flukes with two suckers: one ventral and the other oral. Trematodes are covered by a tegument, that protects the organism from the environment by providing secretory and absorptive functions.

Ribeiroia is a genus of trematode parasites that sequentially infect freshwater snails in the family Planorbidae as first intermediate hosts, fish and larval amphibians as second intermediate hosts, and birds and mammals as definitive hosts. In North America, infection by Ribeiroia has been linked to amphibians with limb malformations. The connection between parasitic infection and limb malformations has generated questions about (a) whether parasite-induced malformations in amphibians are increasing, and (b) the consequences of such abnormalities for amphibian population conservation.

Echinostoma is a genus of trematodes (flukes), which can infect both humans and other animals. These intestinal flukes have a three-host life cycle with snails or other aquatic organisms as intermediate hosts, and a variety of animals, including humans, as their definitive hosts.

Paragonimiasis is a food-borne parasitic disease caused by several species of lung flukes belonging to genus Paragonimus. Infection is acquired by eating crustaceans such as crabs and crayfishes which host the infective forms called metacercariae, or by eating raw or undercooked meat of mammals harboring the metacercariae from crustaceans.

Leucochloridium paradoxum, the green-banded broodsac, is a parasitic flatworm. Its intermediate hosts are land snails, usually of the genus Succinea. The pulsating, green broodsacs fill the eye stalks of the snail, thereby attracting predation by birds, the primary host. These broodsacs visually imitate caterpillars, a prey of birds. The adult parasite lives in the bird's cloaca, releasing its eggs into the faeces.

Metagonimoides oregonensis is a trematode, or fluke worm, in the family Heterophyidae. This North American parasite is found primarily in the intestines of raccoons, American minks, frogs in the genus Rana, and freshwater snails in the genus Goniobasis. It was first described in 1931 by E. W. Price. The parasite has a large distribution, from Oregon to North Carolina. Adult flukes vary in host range and morphology dependent on the geographical location. This results in different life cycles, as well as intermediate hosts, across the United States. On the west coast, the intermediate host is freshwater snails (Goniobasis), while on the east coast the intermediate host is salamanders (Desmognathus). The parasites on the west coast are generally much larger than on the east coast. For example, the pharynx as well as the body of the parasite are distinctly larger in Oregon than in North Carolina. The reverse pattern is observed on the east coast for uterine eggs, which are larger on the west coast. In snails, there is also a higher rate of infection in female snails than in males. Research on the life history traits of the parasites have been performed with hamsters and frogs as model species.

Leucochloridium variae, the brown-banded broodsac, is a species of trematode whose life cycle involves the alternate parasitic invasion of certain species of snail and bird. While there is no external evidence of the worm's existence within the bird host, the invasion of the snail host involves the grotesque swelling of one or both of the snail's eye stalks. This invasion does not cause the snail's death.

Fasciolopsis is a genus of trematodes. They are also known as giant intestinal flukes.

Nanophyetus salmincola is a food-borne intestinal trematode parasite prevalent on the Pacific Northwest coast. The species may be the most common trematode endemic to the United States.

Echinostoma revolutum is a trematode parasites, of which the adults can infect birds and mammals, including humans. In humans, it causes echinostomiasis.

Clinostomum marginatum is a species of parasitic fluke. It is commonly called the "yellow grub". It is found in many freshwater fish in North America, and no fish so far is immune to this parasite. It is also found in frogs. Clinostomum marginatum can also be found in the mouth of aquatic birds such as herons and egrets. They are commonly present in the esophagus of fish-eating birds and reptiles. Eggs of these trematodes are shed in the feces of aquatic birds and released into water. Aquatic birds become hosts of this parasite by ingesting infected freshwater fish. The metacercariae are found right beneath the skin or in the muscles of host fish.

Megalodiscus temperatus is a Digenean in the phylum Platyhelminthes. This parasite belongs to the Cladorchiidae family and is a common parasite located in the urinary bladder and rectum of frogs. The primary host is frogs and the intermediate hosts of Megalodiscus temeperatus are freshwater snails in the genus Helisoma.

Philophthalmus gralli, commonly known as the Oriental avian eye fluke, parasitises the conjunctival sac of the eyes of many species of birds, including birds of the orders Galliformes and Anseriformes. In Brazil this parasite was reported in native Anseriformes species. It was first discovered by Mathis and Leger in 1910 in domestic chickens from Hanoi, Vietnam. Birds are definitive hosts and freshwater snail species are intermediate hosts. Human cases of philophthalmosis are rare, but have been previously reported in Europe, Asia, and America.

Coitocaecum parvum is a digeneic trematode or flatworm (Platyhelminthes) that is parasitic to the intestine of the common bully or upland bully. The common and upland bully are freshwater fish of New Zealand that C. parvum uses as its definitive host. C. parvum is a hermaphroditic freshwater trematode that can omit its definitive host and produce eggs by selfing or progenesis inside its amphipod second intermediate host

<i>Metagonimus yokogawai</i> Species of fluke

Metagonimus yokogawai is a species of a trematode, or fluke worm, in the family Heterophyidae.

Centrocestus armatus is a species of trematodes, or fluke worms, in the family Heterophyidae.

Echinostoma bolschewense is a species of echinostome from the Czech Republic, Russia, and the Slovak Republic.

Gastropod-borne parasitic diseases (GPDs) are a group of infectious diseases that require a gastropod species to serve as an intermediate host for a parasitic organism that can infect humans upon ingesting the parasite or coming into contact with contaminated water sources. These diseases can cause a range of symptoms, from mild discomfort to severe, life-threatening conditions, with them being prevalent in many parts of the world, particularly in developing regions. Preventive measures such as proper sanitation and hygiene practices, avoiding contact with infected gastropods and cooking or boiling food properly can help to reduce the risk of these diseases.

References

↑ Thomas, Lyell J. (1939). "Life cycle of a fluke, Halipegus eccentricus n. sp., found in the ears of frogs". Journal of Parasitology . 25 (3): 207–221. doi:10.2307/3272505. JSTOR 3272505.
↑ Wetzel, Eric J.; Esch, Gerald W. (1996). "Seasonal population dynamics of Halipegus occidualis and Halipegus eccentricus (Digenea: Hemiuridae) in their amphibian host, Rana clamitans". Journal of Parasitology . 82 (3): 414–422. doi:10.2307/3284078. JSTOR 3284078.
1 2 Bolek, M. G. (June 27–30, 2008). The role of damselflies (Odonata) in the transmission of Halipegus eccentricus to anurans (PDF). The 83rd Annual Meeting of the American Society of Parasitologists. Arlington, Texas. Archived from the original (PDF) on 2011-07-20.
↑ Esch, Gerald W.; Wetzel, Eric J.; Zelmer, Derek A.; Schotthoefer, Anna M. (April 1997). "Long-term changes in parasite population and community structure: a case history". The American Midland Naturalist . 137 (2): 369. doi:10.2307/2426856. JSTOR 2426856.
↑ Bolek, Matthew G.; Tracy, Heather R.; Janovy, John (August 2010). "The role of damselflies (Odonata: Zygoptera) as paratenic hosts in the transmission of Halipegus eccentricus (Digenea: Hemiuridae) to anurans". Journal of Parasitology . 96 (4): 724–735. doi:10.1645/GE-2365.1. PMID 20738199. S2CID 5984919.
↑ Guilford, H.G. (October 1961). "Gametogenesis, egg-capsule formation, and early miracidial development in the digenetic trematode Halipegus eccentricus Thomas". Journal of Parasitology . 47 (5): 757–64. doi:10.2307/3275466. JSTOR 3275466. PMID 13902800.

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[1] Thomas, Lyell J. (1939). "Life cycle of a fluke, Halipegus eccentricus n. sp., found in the ears of frogs". Journal of Parasitology . 25 (3): 207–221. doi:10.2307/3272505. JSTOR 3272505.

[2] Wetzel, Eric J.; Esch, Gerald W. (1996). "Seasonal population dynamics of Halipegus occidualis and Halipegus eccentricus (Digenea: Hemiuridae) in their amphibian host, Rana clamitans". Journal of Parasitology . 82 (3): 414–422. doi:10.2307/3284078. JSTOR 3284078.

[asp-3] 1 2 Bolek, M. G. (June 27–30, 2008). The role of damselflies (Odonata) in the transmission of Halipegus eccentricus to anurans (PDF). The 83rd Annual Meeting of the American Society of Parasitologists. Arlington, Texas. Archived from the original (PDF) on 2011-07-20.

[4] Esch, Gerald W.; Wetzel, Eric J.; Zelmer, Derek A.; Schotthoefer, Anna M. (April 1997). "Long-term changes in parasite population and community structure: a case history". The American Midland Naturalist . 137 (2): 369. doi:10.2307/2426856. JSTOR 2426856.

[5] Bolek, Matthew G.; Tracy, Heather R.; Janovy, John (August 2010). "The role of damselflies (Odonata: Zygoptera) as paratenic hosts in the transmission of Halipegus eccentricus (Digenea: Hemiuridae) to anurans". Journal of Parasitology . 96 (4): 724–735. doi:10.1645/GE-2365.1. PMID 20738199. S2CID 5984919.

[6] Guilford, H.G. (October 1961). "Gametogenesis, egg-capsule formation, and early miracidial development in the digenetic trematode Halipegus eccentricus Thomas". Journal of Parasitology . 47 (5): 757–64. doi:10.2307/3275466. JSTOR 3275466. PMID 13902800.

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