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Rhipicephalus microplus (Canestrini 1888)

Brief Summary ( İngilizce )

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Like other ticks formerly placed in the genus Boophilus, Rhipicephalus microplus has short mouthparts and a 1-host life cycle. Development from unfed larva to engorged female on a cattle host takes around three weeks. In much of the world, R. microplus is a major pest of cattle. In addition to their more direct negative impacts on their hosts, in many regions these ticks are vectors for babesioses and anaplasmosis. This species is native to Southeast Asia, but has spread throughout the tropics, including Australia, East and Southern Africa, and South and Central America. (Jongejan and Uilenberg 2004)

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Rhipicephalus microplus ( İngilizce )

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The Asian blue tick (Rhipicephalus (Boophilus) microplus, Rhipicephalus microplus, or Boophilus microplus) is an economically important tick that parasitises a variety of livestock species[1] especially cattle, on which it is the most economically significant ectoparasite in the world.[2] It is known as the Australian cattle tick, southern cattle tick, Cuban tick, Madagascar blue tick, and Puerto Rican Texas fever tick.[3]

It is classified as a hard tick in the family Ixodidae. It is a small teardrop-shaped arachnid with a hardened plate called the scutum covering its head. Males are entirely covered in scutum on their backs with additional plates called festoons along their sides. The body can be brown or pale in nymphs and darkens as the tick matures. Adults have 8 cream-colored legs.[4]

In R. microplus the hypostome has a hexagonal base which can be used as an identifying characteristic. The shape and length of the hypostome is determined by the host a particular tick species or subspecies feeds on. Ticks may be identified by the arrangement of hair-like structures called setae. In R. microplus the setae are arranged in rows of 3 along the ticks body behind the scutum.[4]

Parasitism

Rhipicephalus microplus is best known for being a cattle parasite. However, it has also been discovered in a number of other animal hosts such as domestic water buffalo, wild and domestic goats, horses, wild pigs, various rat species, and humans.[5]

R. microplus serves as a vector for numerous pathogens, most notably Babesia bigemina and B. bovis. B. bigemina and B. bovis are responsible for bovine babesiosis which is ranked as the most economically important arthropod-transmitted illness in cattle. Bovine babesiosis is characterized by anemia, fever, and potentially multiple organ failure.[6] This results in weight loss and lower milk production in infected cattle and therefore, massive economic losses in countries like Brazil where 80% of the cattle population is infected.[7] R. microplus has also been shown to be a vector for Ehrlichia ruminantium in West Africa.[8] E. ruminantium causes fluid buildup around the heart in cattle and other species, a condition with an 80% mortality rate, causing significant economic damage in infected areas.[8][9]

Distribution

Rhipicephalus microplus was originally found in the tropical and sub-tropical forests of India. However, due to the centuries-long movement of cattle around Europe, R. microplus has dramatically spread from its original range, making it to the United States between 4 and 5 centuries ago.[10][11] R. microplus is generally found between 32°N and 32°S, a region strongly overlapping with major cattle breeding countries and territories.[10]

Nearly a cosmopolitan species, Asian blue tick is found specifically in Costa Rica, Anguilla, Antigua and Barbuda, Brazil, Bahamas, Barbados, Belize, Bolivia, Argentina, Colombia, Cote D'Ivoire, Cuba, Dominica, Ecuador, El Salvador, Ethiopia, French Guiana, Guadeloupe, Guam, Guatemala, Guyana, Honduras, India, Indonesia, Jamaica, Libya, Madagascar, Malawi, Martinique, Mexico, Montserrat, Mozambique, Nicaragua, Panama, Paraguay, Peru, Puerto Rico, Saint Kitts and Nevis, Saint Lucia, Saint Vincent and the Grenadines, South Africa, Sri Lanka, Suriname, Tanzania, Trinidad and Tobago, Uganda, Uruguay, Venezuela, Vietnam, Virgin Islands (U.S.), Zambia and Zimbabwe.[12]

Tick populations in Australia once thought to belong to R. microplus are now recognized to belong to R. australis, which was reinstated as a sibling species of R. microplus in 2012.[13]

Having formerly been present in the United States, it has since been eradicated there, except for sporadic occurrences in a buffer zone along the Mexican border.[1]

In Louisiana, Governor Ruffin Pleasant in 1917 signed legislation sponsored by freshman State Senator Norris C. Williamson of East Carroll Parish to authorize state funding to eradicate the cattle tick.[14]

Life cycle

The life cycle of R. microplus has been examined under laboratory conditions using rabbit hosts. The average life cycle was determined to be approximately 65 days. The life cycle begins with an adult female which feeds for approximately 7 days before entering a 4 day pre-oviposition period. During pre-oviposition a female will mate with any and all males who present themselves. The female tick then spends 8.6 days in oviposition, during which time she will lay her eggs. On average, each female lays about 1450 eggs per brood. The eggs take about 21 days to hatch. Approximately 83.5% will survive to hatch into a free-living larval stage which lasts for 3.5 days. The larvae have their first feeding at this time, and their first molt 8 days later. At this point, the larvae have become nymphs. They will feed for 11 days before becoming adults.[15]

Control

Management efforts in the United States began after R. microplus was deemed responsible for an estimated $63 billion in damages during the early 19th century. A control campaign began in 1906 and by 1943 it was considered complete, having eradicated most of the tick population other than a small region along the Southern US border.[10][11] In the modern day, the standard form of control is spraying of acaricides: a type of pesticide that targets ticks and mites. Overuse of acaricides has resulted in some R. microplus populations developing resistance,[16] and it is now considered the most resistant tick ever.[5] Other control methods include ivermectin, a common anti-parasitic. In Mexico, it has been shown that R. microplus populations are developing varying levels of resistance to ivermectin, meaning this treatment is becoming less effective year over year.[17]

Vaccinating cattle against R. microplus was considered as another option, however, the original Bm86-based vaccines have shown limited efficacy against R. microplus as compared to other tick species.[5]

Acaricides and pyrethroids are commonly used however this has led to the development of acaricide- and pyrethroid- resistances.[2] Acaricide resistance in R. microplus is mediated by para sodium channel mutants.[2] Such alleles can be rapidly detected in a border livestock inspection by PCR+High Resolution Melt testing.[2] This is especially useful on the United States-Mexico border where the US has almost eradicated R. microplus, but Mexico has a high prevalence and a high prevalence of acaricide resistance.[2] This technique could also be applied in other countries where pyrethroid resistant R. microplus is a common problem.[2]

Some populations of R. microplus have developed resistance to acetylcholinesterase inhibitors.[18] The search for the acetylcholinesterase (AChE) mutations responsible has been stymied because, although there are only three AChEs in this genome, all three have a high copy number.[18] Progress has been made by Bellgard et al., 2012, Temeyer et al., 2012, and Bendele et al., 2015 toward identifying resistance alleles.[18]

Another management option that has shown promise is the use of pasture rotation. This is based on knowledge of the R. microplus life cycle. A large pasture is divided up into multiple regions that cattle are moved between regularly. The rotation time is based on the time it takes the R. microplus eggs to hatch. If timed correctly, the larvae in an area only become viable after the cattle have moved, leading to loss of that R. microplus generation. This has been shown to be effective in reducing the tick population. However, the amount of time a pasture needs to remain empty means it isn't generally economically viable for farmers.[16]

See also

References

  1. ^ a b "Rhipicephalus (Boophilus) microplus. Southern Cattle Tick, Cattle Tick" (PDF). Iowa State University. February 20, 2007. Retrieved November 7, 2010.
  2. ^ a b c d e f
  3. ^ "Species Details: Rhipicephalus microplus Canestrini, 1888". Catalogue of Life. Retrieved 11 February 2017.
  4. ^ a b Spickler, Anna Rovid. 2022. Rhipicephalus (Boophilus) microplus. Retrieved from http://www.cfsph.iastate.edu/ DiseaseInfo/factsheets.php.
  5. ^ a b c Tan, Li Peng; Hamdan, Ruhil Hayati; Hassan, Basripuzi Nurul Hayyan; Reduan, Mohd Farhan Hanif; Okene, Ibrahim Abdul-Azeez; Loong, Shih Keng; Khoo, Jing Jing; Samsuddin, Ahmad Syazwan; Lee, Seng Hua (July 2021). "Rhipicephalus Tick: A Contextual Review for Southeast Asia". Pathogens. 10 (7): 821. doi:10.3390/pathogens10070821. ISSN 2076-0817. PMC 8308476. PMID 34208961.
  6. ^ Howell, Jeanne M.; Ueti, Massaro W.; Palmer, Guy H.; Scoles, Glen A.; Knowles, Donald P. (October 2007). "Persistently Infected Calves as Reservoirs for Acquisition and Transovarial Transmission of Babesia bovis by Rhipicephalus (Boophilus) microplus". Journal of Clinical Microbiology. 45 (10): 3155–3159. doi:10.1128/JCM.00766-07. ISSN 0095-1137. PMC 2045367. PMID 17687016.
  7. ^ Matysiak, A.; Dudko, P.; Dudek, K.; Dudek, M.; Junkuszew, A.; Tryjanowski, P. (2016-09-13). "The occurrence of pathogens in Rhipicephalus microplus ticks from cattle in Madagascar". Veterinární Medicína. 61 (9): 516–523. doi:10.17221/59/2016-VETMED.
  8. ^ a b Biguezoton, Abel; Noel, Valerie; Adehan, Safiou; Adakal, Hassane; Dayo, Guiguigbaza-Kossigan; Zoungrana, Sébastien; Farougou, Souaïbou; Chevillon, Christine (2016-06-22). "Ehrlichia ruminantium infects Rhipicephalus microplus in West Africa". Parasites & Vectors. 9 (1): 354. doi:10.1186/s13071-016-1651-x. ISSN 1756-3305. PMC 4918008. PMID 27334439.
  9. ^ Allsopp, Basil A. (2010-02-10). "Natural history of Ehrlichia ruminantium". Veterinary Parasitology. Ticks and Tick-borne Pathogens. 167 (2): 123–135. doi:10.1016/j.vetpar.2009.09.014. hdl:2263/16002. ISSN 0304-4017. PMID 19836892.
  10. ^ a b c Ali, Abid; Parizi, Luís Fernando; Ferreira, Beatriz Rossetti; Vaz Junior, Itabajara da Silva (2016-04-19). "A revision of two distinct species of Rhipicephalus: R. microplus and R. australis". Ciência Rural. 46 (7): 1240–1248. doi:10.1590/0103-8478cr20151416. ISSN 0103-8478.
  11. ^ a b Giles, John R.; Peterson, A. Townsend; Busch, Joseph D.; Olafson, Pia U.; Scoles, Glen A.; Davey, Ronald B.; Pound, J. Mathews; Kammlah, Diane M.; Lohmeyer, Kimberly H.; Wagner, David M. (2014-04-17). "Invasive potential of cattle fever ticks in the southern United States". Parasites & Vectors. 7 (1): 189. doi:10.1186/1756-3305-7-189. ISSN 1756-3305. PMC 4021724. PMID 24742062.
  12. ^ "Rhipicephalus spp". Retrieved 11 February 2017.
  13. ^ Estrada-Peña, A., J. M. Venzal, S. Nava, A. Mangold, A. A. Guglielmone, M. B. Labruna, and J. D. L. Fuente. 2012. Reinstatement of Rhipicephalus (Boophilus) australis (Acari: Ixodidae) with redescription of the adult and larval stages. Journal of Medical Entomology 49:794-802.
  14. ^ Earnest I. Smith (August 1918). "Organizing and Conducting State-wide Tick Eradication in Louisiana". Journal of the American Veterinary Medical Association. New Series. VI (5): 639. Retrieved July 25, 2013.
  15. ^ Senbill, Haytham; Hazarika, Lakshmi Kanta; Baruah, Aiswarya; Borah, Deepak Kumar; Bhattacharyya, Badal; Rahman, Sahidur (2018-06-12). "Life cycle of the southern cattle tick, Rhipicephalus (Boophilus) microplus Canestrini 1888 (Acari: Ixodidae) under laboratory conditions". Systematic and Applied Acarology. 23 (6): 1169. doi:10.11158/saa.23.6.12. ISSN 1362-1971. S2CID 89753898.
  16. ^ a b Nicaretta, João Eduardo; dos Santos, Jordana Belos; Couto, Luiz Fellipe Monteiro; Heller, Luciana Maffini; Cruvinel, Leonardo Bueno; de Melo Júnior, Rubens Dias; de Assis Cavalcante, Alliny Souza; Zapa, Dina María Beltrán; Ferreira, Lorena Lopes; de Oliveira Monteiro, Caio Márcio; Soares, Vando Edesio; Lopes, Welber Daniel Zanetti (2020-08-01). "Evaluation of rotational grazing as a control strategy for Rhipicephalus microplus in a tropical region". Research in Veterinary Science. 131: 92–97. doi:10.1016/j.rvsc.2020.04.006. ISSN 0034-5288. PMID 32325299. S2CID 216108204.
  17. ^ Fernández-Salas, A.; Rodríguez-Vivas, R. I.; Alonso-Díaz, M. A.; Basurto-Camberos, H. (2012-11-23). "Ivermectin resistance status and factors associated in Rhipicephalus microplus (Acari: Ixodidae) populations from Veracruz, Mexico". Veterinary Parasitology. 190 (1): 210–215. doi:10.1016/j.vetpar.2012.06.003. ISSN 0304-4017. PMID 22785128.
  18. ^ a b c Chatonnet, Arnaud; Lenfant, Nicolas; Marchot, Pascale; Selkirk, Murray E. (2017-04-05). "Natural genomic amplification of cholinesterase genes in animals". Journal of Neurochemistry. International Society for Neurochemistry (Wiley). 142: 73–81. doi:10.1111/jnc.13990. hdl:10044/1/48129. ISSN 0022-3042. PMID 28382676. S2CID 34155509.
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Rhipicephalus microplus: Brief Summary ( İngilizce )

wikipedia EN tarafından sağlandı

The Asian blue tick (Rhipicephalus (Boophilus) microplus, Rhipicephalus microplus, or Boophilus microplus) is an economically important tick that parasitises a variety of livestock species especially cattle, on which it is the most economically significant ectoparasite in the world. It is known as the Australian cattle tick, southern cattle tick, Cuban tick, Madagascar blue tick, and Puerto Rican Texas fever tick.

It is classified as a hard tick in the family Ixodidae. It is a small teardrop-shaped arachnid with a hardened plate called the scutum covering its head. Males are entirely covered in scutum on their backs with additional plates called festoons along their sides. The body can be brown or pale in nymphs and darkens as the tick matures. Adults have 8 cream-colored legs.

In R. microplus the hypostome has a hexagonal base which can be used as an identifying characteristic. The shape and length of the hypostome is determined by the host a particular tick species or subspecies feeds on. Ticks may be identified by the arrangement of hair-like structures called setae. In R. microplus the setae are arranged in rows of 3 along the ticks body behind the scutum.

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Caplak sapi ( Endonezce )

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Caplak sapi (Boophilus microplus atau Rhipicephalus microplus) adalah sejenis serangga yang menyerang sapi.Kerugian yang ditimbulkan umumnya karena menghisap darah menyebabkan anemia, merusak kulit, dermatitis.Namun perananya yang lebih penting adalah sebagai vektor penyakit piroplasmosis, anaplasmosis dan theileriosis. Menutut raphl(1982) tiap caplak dapat menghisap 0,3 ml darah sapi yang diserang, sedangkan menutut Jonsson et al (1998) setiap caplak dapat menyebabkan menurunnya produksi susu sebanyak 8,9 ml dan penurunan 1 gram bobot tubuh sapi.

Pranala

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Caplak sapi: Brief Summary ( Endonezce )

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Caplak sapi (Boophilus microplus atau Rhipicephalus microplus) adalah sejenis serangga yang menyerang sapi.Kerugian yang ditimbulkan umumnya karena menghisap darah menyebabkan anemia, merusak kulit, dermatitis.Namun perananya yang lebih penting adalah sebagai vektor penyakit piroplasmosis, anaplasmosis dan theileriosis. Menutut raphl(1982) tiap caplak dapat menghisap 0,3 ml darah sapi yang diserang, sedangkan menutut Jonsson et al (1998) setiap caplak dapat menyebabkan menurunnya produksi susu sebanyak 8,9 ml dan penurunan 1 gram bobot tubuh sapi.

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Carrapato-de-boi ( Portekizce )

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O carrapato-de-boi ou carrapato-do-boi (Rhipicephalus microplus - antigamente denominado Boophilus microplus) é um carrapato da família dos ixodídeos, de ampla ocorrência na América do Sul, Central e África. O macho de tal espécie apresenta um par de placas de pontas agudas no ânus, e está associado à disseminação de diversas e importantes protozooses no gado bovino.

O Rhipicephalus microplus é o mais importante ectoparasita dos rebanhos bovinos e está presente em todas as áreas tropicais e subtropicais entre os paralelos 32° N e 32° S, abrangendo regiões que se dedicam à pecuária nas Américas, na África, Ásia e Austrália. As perdas econômicas causadas pelo B. microplus são estimadas em quase 2 bilhões de dólares no Brasil, quando contabilizadas a queda na produção de leite e carne, a mortalidade, a redução da natalidade, os gastos no seu controle e a transmissão dos protozoários Babesia bovis e B. bigemina, e da riquétsia Anaplasma marginale, que causam a Tristeza Parasitária Bovina.

Rhipicephalus microplus é um ectoparasita hematófago que possui uma alta capacidade de dispersão e adapta-se rápido à regiões tropicais, podendo parasitar outras espécies como equinos, cães, ovinos, caprinos, búfalos, cervídeos e até mesmo o homem. [1][2][3]

Apesar da existência de outras formas de controle, atualmente, a do carrapato é feita principalmente com o uso de carrapaticidas. Os métodos de controle biológico incluem a seleção de raças menos sensíveis ao carrapato, o cultivo de pastagens que dificultam a sobrevivência das fases de vida livre, a ação de predadores naturais, o manejo do rebanho e a rotação de pastagens.

Características morfológicas

  • Peritrema em forma de círculo
  • Macho com 4 placas adanais bem desenvolvidas e apendice caudal
  • Festões ausentes
  • Olhos presentes
  • sulco anal ausente
  • coxa I com dois espinhos curtos em ambos os sexos
  • escudo sem ornamentação

Referências

 title=
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telif hakkı
Autores e editores de Wikipedia
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wikipedia PT

Carrapato-de-boi: Brief Summary ( Portekizce )

wikipedia PT tarafından sağlandı

O carrapato-de-boi ou carrapato-do-boi (Rhipicephalus microplus - antigamente denominado Boophilus microplus) é um carrapato da família dos ixodídeos, de ampla ocorrência na América do Sul, Central e África. O macho de tal espécie apresenta um par de placas de pontas agudas no ânus, e está associado à disseminação de diversas e importantes protozooses no gado bovino.

O Rhipicephalus microplus é o mais importante ectoparasita dos rebanhos bovinos e está presente em todas as áreas tropicais e subtropicais entre os paralelos 32° N e 32° S, abrangendo regiões que se dedicam à pecuária nas Américas, na África, Ásia e Austrália. As perdas econômicas causadas pelo B. microplus são estimadas em quase 2 bilhões de dólares no Brasil, quando contabilizadas a queda na produção de leite e carne, a mortalidade, a redução da natalidade, os gastos no seu controle e a transmissão dos protozoários Babesia bovis e B. bigemina, e da riquétsia Anaplasma marginale, que causam a Tristeza Parasitária Bovina.

Rhipicephalus microplus é um ectoparasita hematófago que possui uma alta capacidade de dispersão e adapta-se rápido à regiões tropicais, podendo parasitar outras espécies como equinos, cães, ovinos, caprinos, búfalos, cervídeos e até mesmo o homem.

Apesar da existência de outras formas de controle, atualmente, a do carrapato é feita principalmente com o uso de carrapaticidas. Os métodos de controle biológico incluem a seleção de raças menos sensíveis ao carrapato, o cultivo de pastagens que dificultam a sobrevivência das fases de vida livre, a ação de predadores naturais, o manejo do rebanho e a rotação de pastagens.

lisans
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telif hakkı
Autores e editores de Wikipedia
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wikipedia PT