Carios erraticus

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Carios erraticus
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Subphylum: Chelicerata
Class: Arachnida
Order: Ixodida
Family: Argasidae
Genus: Carios
Species:
C. erraticus
Binomial name
Carios erraticus
H. Lucas, 1849 [1]
Synonyms [2] [3]

Carios erraticus, formerly called Ornithodoros erraticus, [2] [3] is a species of tick in the family Argasidae. The tick was described by Hippolyte Lucas in 1849.

Contents

Description

The tick is native to the Middle East and Mediterranean. [4] It is one of the more common soft ticks to bite humans. [4] Their main food sources in Spain are pigs; the tick has been found in pig pens in the provinces of Salamanca, Badajoz, and Huelva. [5] The only human habitats the tick can enter are places in poor condition. [6]

Pathology

This species carries the pathogenic Qalyub [7] and African swine fever viruses and the spirochetes Borrelia crocidurae and Borrelia hispanica . [4] When the tick is infected by B. crocidurae, the disease affects its genetic organ, the testes in males and the ovaries in females. The tick transmits the African swine fever virus only in Spain and Portugal. [8]

The tick feeds at night, ingesting blood to repletion in about 15 minutes. Small mammals are the most common hosts; [9] this species rarely bites humans, preferring other vertebrates. [6] The tick has substances in its saliva, such as antihemostatic, anti-inflammatory, and immunomodulatory molecules, which help the tick get blood from the host and transfer pathogens easily. [10] Major factors in their feeding relationship are mating, recent feeding, and size.

Some strains of entomopathogenic fungi have been found to be effective against this tick and others in the related genus Ornithodoros in a study which concluded the fungi could be used as biocontrol agents for argasid ticks; [11] the name of this is called hyperparasitism. [12]

Related Research Articles

<span class="mw-page-title-main">Tick</span> Order of arachnids in the arthropod phylum

Ticks are parasitic arachnids of the order Ixodida. They are part of the mite superorder Parasitiformes. Adult ticks are approximately 3 to 5 mm in length depending on age, sex, species, and "fullness". Ticks are external parasites, living by feeding on the blood of mammals, birds, and sometimes reptiles and amphibians. The timing of the origin of ticks is uncertain, though the oldest known tick fossils are from the Cretaceous period, around 100 million years old. Ticks are widely distributed around the world, especially in warm, humid climates.

<span class="mw-page-title-main">Ixodidae</span> Family of ticks

The Ixodidae are the family of hard ticks or scale ticks, one of the three families of ticks, consisting of over 700 species. They are known as 'hard ticks' because they have a scutum or hard shield, which the other major family of ticks, the 'soft ticks' (Argasidae), lack. They are ectoparasites of a wide range of host species, and some are vectors of pathogens that can cause human disease.

Tick-borne diseases, which afflict humans and other animals, are caused by infectious agents transmitted by tick bites. They are caused by infection with a variety of pathogens, including rickettsia and other types of bacteria, viruses, and protozoa. The economic impact of tick-borne diseases is considered to be substantial in humans, and tick-borne diseases are estimated to affect ~80 % of cattle worldwide. Most of these pathogens require passage through vertebrate hosts as part of their life cycle. Tick-borne infections in humans, farm animals, and companion animals are primarily associated with wildlife animal reservoirs. Many tick-borne infections in humans involve a complex cycle between wildlife animal reservoirs and tick vectors. The survival and transmission of these tick-borne viruses are closely linked to their interactions with tick vectors and host cells. These viruses are classified into different families, including Asfarviridae, Reoviridae, Rhabdoviridae, Orthomyxoviridae, Bunyaviridae, and Flaviviridae.

<i>Dermacentor variabilis</i> Species of tick

Dermacentor variabilis, also known as the American dog tick or wood tick, is a species of tick that is known to carry bacteria responsible for several diseases in humans, including Rocky Mountain spotted fever and tularemia. It is one of the best-known hard ticks. Diseases are spread when it sucks blood from the host. It may take several days for the host to experience symptoms.

Relapsing fever is a vector-borne disease caused by infection with certain bacteria in the genus Borrelia, which is transmitted through the bites of lice, soft-bodied ticks, or hard-bodied ticks.

<i>Ornithodoros</i> Genus of arachnids in the soft-bodied tick family, Argasidae.

Ornithodoros is a genus in the soft-bodied tick family, Argasidae.

<i>Ornithodoros hermsi</i> Species of tick

Ornithodoros hermsi is a species of soft tick. It can be infected with Borrelia hermsii.

<i>Ornithodoros moubata</i> Species of tick

Ornithodoros moubata, commonly known as the African hut tampan or the eyeless tampan, is a species of tick in the family Argasidae. It is an ectoparasite and vector of relapsing fever in humans, and African swine fever in pigs.

<i>Ornithodoros turicata</i> Species of tick

Ornithodoros turicata, commonly referred to as the relapsing fever tick, is a soft tick found in the midwestern and southwestern United States. It is a known vector of Borrelia turicatae, a spirochete responsible for tick-borne relapsing fever in humans. Additionally, vector competence for the transmission of Leptospira pomona, the agent of canine jaundice, has been demonstrated in a laboratory setting.

<i>Ornithodoros kelleyi</i> Species of tick

Ornithodoros kelleyi is an argasid tick parasite of bats found widely throughout North America in caves and other natural and man-made features that harbor bats. Named after Thomas F. Kelley Jr. who discovered this tick while studying at UC Berkeley in 1941. The species has not been shown to be a major vector of pathogens.

<span class="mw-page-title-main">Ticks of domestic animals</span>

Ticks of domestic animals directly cause poor health and loss of production to their hosts. Ticks also transmit numerous kinds of viruses, bacteria, and protozoa between domestic animals. These microbes cause diseases which can be severely debilitating or fatal to domestic animals, and may also affect humans. Ticks are especially important to domestic animals in tropical and subtropical countries, where the warm climate enables many species to flourish. Also, the large populations of wild animals in warm countries provide a reservoir of ticks and infective microbes that spread to domestic animals. Farmers of livestock animals use many methods to control ticks, and related treatments are used to reduce infestation of companion animals.

<span class="mw-page-title-main">Mites of livestock</span> Small crawling animals related to ticks and spiders

Mites are small crawling animals related to ticks and spiders. Most mites are free-living and harmless. Other mites are parasitic, and those that infest livestock animals cause many diseases that are widespread, reduce production and profit for farmers, and are expensive to control.

Borrelia coriaceae is a species of spirochete bacteria and member of the genus Borrelia. Strains of this species have been isolated from the soft tick Ornithodoros coriaceus and from mule deer.

<i>Ornithodoros savignyi</i> Species of tick

Ornithodoros savignyi, known as sand tampan, African eyed tampan or Kalahari sand tampan, is one of some 37 species in the genus Ornithodoros and is a soft tick with a leathery, mammillated integument, causing paralysis and tampan toxicosis, two unrelated conditions. The sand tampan is an ectoparasite on humans, their livestock and wild animals, including birds and bats. Occurring in semi-desert areas of Africa, Saudi Arabia and other parts of the Persian Gulf, India, Sri Lanka and into Asia, it is able to survive for lengthy periods without feeding, spending most of its life burrowed under sand or loose soil, often in wait for animals that rest or sleep under trees or in the lee of rocks, but also in places where people or their animals congregate such as marketplaces, places of worship, cattle kraals and village squares. The timing of its activity is geared to coincide with that of potential hosts, but hot sunny conditions are usually avoided. Because of its habit of feeding and dropping from its host, adult dispersal is limited, whereas larvae may remain attached to their hosts for several days. During its life cycle it will feed on multiple hosts between moults.

Royal Farm virus, previously known as Karshi virus, was not viewed as pathogenic or harmful to humans. Although infected people suffer with fever-like symptoms, some people in Uzbekistan have reported with severe disease such as encephalitis and other large outbreaks of fever illness connected infection with the virus.

Ornithodoros sawaii is a species of argasid tick that is parasitic on streaked shearwater and Swinhoe's storm petrel seabirds in Japan and Korea. The species name honors Hirofumi Sawa of Hokkaido University in Sapporo, Japan.

Ornithodoros brasiliensis is a species of tick in the family Argasidae, or soft-bodied ticks, that occurs exclusively in Rio Grande do Sul, Brazil. O. brasiliensis is a known parasite of humans, dogs, and smaller mammals such as armadillos and skunks.

<i>Ornithodoros coriaceus</i> Species of tick

Ornithodoros coriaceus, the Pajahuello or Pajahuello tick, is a tick that feeds on the blood of mammals and birds. It is widely distributed throughout western North America from southern Mexico to Oregon. Although this species rarely bites humans its bite is considered to be particularly painful. It is the primary vector of the bacterium that causes Epizootic Bovine Abortion, a severe and commercially-important disease afflicting domestic cattle.

Ornithodoros gurneyi, a kangaroo soft tick, is a species of the argasid family. A parasite found in arid regions of Australia, the species occurs on red kangaroos, lizards and people.

References

  1. Hallan, Joel (24 March 2008). "Argasidae" (text). Catalog of the Acari. Texas A&M University Department of Entomology. Archived from the original on 13 November 2015. Retrieved 17 December 2009.
  2. 1 2 Carios erraticus Lucas, 1849 in GBIF Secretariat (2016). GBIF Backbone Taxonomy. Checklist Dataset https://doi.org/10.15468/39omei accessed via https://www.gbif.org/species/2184504 Archived 2017-10-02 at the Wayback Machine on 2017-10-02.
  3. 1 2 Nijhof A.M., Guglielmone A.A. & Horak I.G. (2017). TicksBase (version 5.6, Jun 2005). In: Roskov Y., Abucay L., Orrell T., Nicolson D., Bailly N., Kirk P.M., Bourgoin T., DeWalt R.E., Decock W., De Wever A., Nieukerken E. van, Zarucchi J., Penev L., eds. (2017). Species 2000 & ITIS Catalogue of Life, 29 September 2017. Digital resource at http://www.catalogueoflife.org/col/details/species/id/4e7795c13f4daacac24b26026b35939f Archived 2017-10-02 at the Wayback Machine . Species 2000: Naturalis, Leiden, the Netherlands. ISSN 2405-8858.
  4. 1 2 3 Estrada-Peña, A.; Jongejan, F. (September 1999). "Ticks feeding on humans: a review of records on human-biting Ixodoidea with special reference to pathogen transmission". Experimental and Applied Acarology. 23 (9): 688. doi:10.1023/A:1006241108739. PMID   10581710. S2CID   3351559.
  5. Oleaga-Pérez, A; Pérez-Sánchez, R; Encinas-Grandes, A (1990). "Distribution and biology of Ornithodoros erraticus in parts of Spain affected by African swine fever". The Veterinary Record. 126 (2): 32–37. doi:10.1136/vr.126.2.32 (inactive 18 September 2024). PMID   2301109.{{cite journal}}: CS1 maint: DOI inactive as of September 2024 (link)
  6. 1 2 National Research Council (U.S.). Division of Medical Sciences; Division Of Medical Sciences, National Research Council (U.S.) (1962). Tropical health: a report on a study of needs and resources. National Academies. p. 497. Retrieved 2 June 2010.
  7. Kurstak, Edouard; R.G. Marusyk; F.A. Murphy & M.H.V. Van Regenmortel (1990). Applied Virology Research, Volume 2: Virus Variability, Epidemiology, and Control. New York, New York: Plenum Publishing Corporation. p. 341. ISBN   978-0-306-43359-7.
  8. Mullen, Gary; Mullen, Gary Richard; Durden, Lance (2009). Medical and Veterinary Entomology. Academic Press. p. 519. ISBN   978-0-12-372500-4. Archived from the original on 23 September 2017. Retrieved 2 June 2010.
  9. D. Feigin, Ralph (2004). Textbook of pediatric infectious diseases, Volume 2. Elsevier Health Sciences. p. 1696. ISBN   978-0-7216-9329-3 . Retrieved 2 June 2010.
  10. Oleaga, Ana; Escudero-Población, Andrés; Camafeita, Emilio; Pérez-Sánchez, Ricardo (November 2007). "A proteomic approach to the identification of salivary proteins from the argasid ticks Ornithodoros moubata and Ornithodoros erraticus (2007)" (PDF). Insect Biochemistry and Molecular Biology. 37 (11): 1149–59. doi:10.1016/j.ibmb.2007.07.003. hdl: 10261/10349 . PMID   17916501. Archived (PDF) from the original on 14 August 2017. Retrieved 20 May 2018.
  11. Zabalgogeazcoa, I; Oleaga, A; Pérez-Sánchez, R (20 December 2008). "Pathogenicity of endophytic entomopathogenic fungi to Ornithodoros erraticus and Ornithodoros moubata (Acari: Argasidae)" (PDF). Veterinary Parasitology. 158 (4): 336–343. doi:10.1016/j.vetpar.2008.09.019. PMID   18976863. Archived (PDF) from the original on 19 August 2017. Retrieved 20 May 2018.
  12. Helmy, N; Khalil, GM; Hoogstraal, H (February 1983). "Hyperparasitism in Ornithodoros erraticus". Journal of Parasitology. 69 (1): 229–33. doi:10.2307/3281305. JSTOR   3281305. PMID   6827441.
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