Gasterophilus pecorum

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Gasterophilus pecorum is a species of botfly within the genus Gasterophilus that is an obligate parasite of horses and other equids. [1]

Contents

Gasterophilus pecorum is found in the desert steppe of Xinjiang, China, where it is the most prevalent botfly species. [2] [3] In Kalamaili Nature Reserve (KNR), China, G. pecorum is a major problem for the health of Przewalski's horse, which has been reintroduced in the area. [3] [4] [5] [6] Gasterophilus pecorum has also been observed infecting equids, such as the Persian Onager ( Equus hemionus onager). [7] Of the six identified species of Gasterophilus found within the KNR ,G. pecorum is responsible for a majority of all botfly infections. [8]

Gasterophilus pecorum
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Diptera
Family: Oestridae
Genus: Gasterophilus
Species:
G. pecorum
Binomial name
Gasterophilus pecorum
(Fabricius, 1794)

Taxonomy

Larvae

G. pecorum larvae have several larval instars, these larvae move throughout their host's digestive tract while going through these life stages. Similar to other members of the genus Gasterophilus, in their last larval stage G. pecorum have a set of hooked mouth parts, which is used to help attach themselves to their host's gastrointestinal tract. After completing this life stage, the larvae is released via the host's excrement, and it then becomes a pupa then eventually into an adult. [9] [10]

Adults

Adult G. pecorum similar to other members of Gasterophilus can resemble honey bees, as they have dark patches of brown and yellow hairs. [9]

Life cycle

G. pecorum has four main life stages: egg, larvae, pupae, and adult. [1] Unlike the other species of Gasterophilus, who usually lay their eggs on the hair of the equids, adult G. pecorum lay eggs on blades of grass like the Stipa caucasica, near water and the paths used by the equids. [11] [12] [4] Once the egg is consumed by the host, a larva emerges and makes its way into equid's digestive tract where it will remain for 9–10 months to mature, and in the process will go through three larval instars. After the larva is finished developing, it then is released from the host via the host's feces. Here the larva pupate and turn into adults. Adults only live for about 1–4 days since they cannot eat, but they are capable of producing large amounts of eggs. [1] [13] This alongside G. pecorum oviposition strategies have allowed them to become responsible for a majority of the botfly infections in KNR. [11]

Prevention

An infection of G. pecorum is a major problem for an equid. The larval instars of G. pecorum can cause their host to develop gastrointestinal myiasis, and these infections have also been shown to affect the microbiomes of the host. [14] Equids may take oral medications, avermectins for example, to help reduce botfly infections. It is recommended that the equids be treated once in the early summer and once again in the fall to help minimize the later larval instars. [15]

Related Research Articles

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<span class="mw-page-title-main">Onager</span> Species of mammal

The onager, also known as hemione or Asiatic wild ass, is a species of the family Equidae native to Asia. A member of the subgenus Asinus, the onager was described and given its binomial name by German zoologist Peter Simon Pallas in 1775. Six subspecies have been recognized, two of which are extinct.

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References

  1. 1 2 3 Zhang, Ke; Huang, Heqing; Zhou, Ran; Zhang, Boru; Wang, Chen; Ente, Make; Li, Boling; Zhang, Dong; Li, Kai (2021-03-01). "The impact of temperature on the life cycle of Gasterophilus pecorum in northwest China". Parasites & Vectors. 14 (1): 129. doi: 10.1186/s13071-021-04623-7 . ISSN   1756-3305. PMC   7923332 . PMID   33648570.
  2. Wang, W.; Zhang, D.; Hu, D.; Chu, H.; Cao, J.; Ente, M.; Jiang, G.; Li, K. (August 2014). "Population genetic structure of Gasterophilus pecorum in the Kalamaili Nature Reserve, Xinjiang, based on mitochondrial cytochrome oxidase (COI) gene sequence". Medical and Veterinary Entomology. 28 (Suppl 1): 75–82. doi: 10.1111/mve.12073 . ISSN   1365-2915. PMID   25171609. S2CID   546656.
  3. 1 2 Liu, Shan-Hui; Li, Kai; Hu, De-Fu (2016-02-15). "The incidence and species composition of Gasterophilus (Diptera, Gasterophilidae) causing equine myiasis in northern Xinjiang, China". Veterinary Parasitology. 217: 36–38. doi:10.1016/j.vetpar.2015.12.028. ISSN   1873-2550. PMID   26827858.
  4. 1 2 Liu, Shan-Hui; Hu, De-Fu; Li, Kai (2015). "Oviposition site selection by Gasterophilus pecorum (Diptera: Gasterophilidae) in its habitat in Kalamaili Nature Reserve, Xinjiang, China". Parasite (Paris, France). 22: 34. doi:10.1051/parasite/2015034. ISSN   1776-1042. PMC   4664853 . PMID   26621549.
  5. Huang, Heqing; Zhang, Boru; Chu, Hongjun; Zhang, Dong; Li, Kai (2016). "Gasterophilus (Diptera, Gasterophilidae) infestation of equids in the Kalamaili Nature Reserve, China". Parasite (Paris, France). 23: 36. doi:10.1051/parasite/2016036. ISSN   1776-1042. PMC   5018932 . PMID   27593434.
  6. Hu, Dini; Chao, Yuzhu; Zhang, Boru; Wang, Chen; Qi, Yingjie; Ente, Make; Zhang, Dong; Li, Kai; Mok, Kai Meng (2021-05-11). Ishaq, Suzanne L. (ed.). "Effects of Gasterophilus pecorum infestation on the intestinal microbiota of the rewilded Przewalski's horses in China". PLOS ONE. 16 (5): e0251512. Bibcode:2021PLoSO..1651512H. doi: 10.1371/journal.pone.0251512 . ISSN   1932-6203. PMC   8112688 . PMID   33974667.
  7. Hoseini, Seyed Mohammad; Zaheri, Bahram Ali; Adibi, Mohamad Ali; Ronaghi, Hooman; Moshrefi, Amir Hossein (September 2017). "Histopathological Study of Esophageal Infection with Gasterophilus pecorum (Diptera: Oestridae) in Persian Onager (Equus hemionus onager)". Journal of Arthropod-Borne Diseases. 11 (3): 441–445. ISSN   2322-1984. PMC   5758640 . PMID   29322061.
  8. Zhang, Ke; Huang, Heqing; Zhou, Ran; Zhang, Boru; Wang, Chen; Ente, Make; Li, Boling; Zhang, Dong; Kai, Li (2020-11-04). "The Double Rhythm Development and Characteristics of the Gasterophilus Pecorum (Diptera: Gasterophilidae) Population in Desert Steppe". doi: 10.21203/rs.3.rs-100196/v1 . S2CID   234650128.{{cite journal}}: Cite journal requires |journal= (help)
  9. 1 2 Parasiticide screening. Volume 1 : in vitro and in vivo tests with relevant parasite rearing and host infection/infestation methods. Alan A. Marchiondo, Larry R. Cruthers, Josephus J. Fourie. London. 2019. ISBN   978-0-12-813891-5. OCLC   1104533040.{{cite book}}: CS1 maint: location missing publisher (link) CS1 maint: others (link)
  10. Zhou, Ran; Yang, Jianming; Zhang, Ke; Qi, Yingjie; Ma, Wei; Wang, Zhenbiao; Ente, Make; Li, Kai (2021-08-02). "Analysis of volatiles from feces of released Przewalski's horse (Equus przewalskii) in Gasterophilus pecorum (Diptera: Gasterophilidae) spawning habitat". Scientific Reports. 11 (1): 15671. doi:10.1038/s41598-021-95162-9. ISSN   2045-2322. PMC   8329074 . PMID   34341455.
  11. 1 2 Zhou, Ran; Zhang, Ke; Zhang, Tiange; Zhou, Tong; Chu, Hongjun; Ge, Yan; Wang, Chen; Li, Kai (December 2020). "Identification of volatile components from oviposition and non-oviposition plants of Gasterophilus pecorum (Diptera: Gasterophilidae)". Scientific Reports. 10 (1): 15731. Bibcode:2020NatSR..1015731Z. doi:10.1038/s41598-020-72378-9. ISSN   2045-2322. PMC   7519042 . PMID   32978441.
  12. Webster, Ben; Cardé, Ring T. (May 2017). "Use of habitat odour by host-seeking insects: Use of habitat odour by host-seeking insects". Biological Reviews. 92 (2): 1241–1249. doi:10.1111/brv.12281. PMID   27145528. S2CID   207102508.
  13. Zhou, Ran; Yang, Jianming; Zhang, Ke; Qi, Yingjie; Ma, Wei; Wang, Zhenbiao; Ente, Make; Li, Kai (December 2021). "Analysis of volatiles from feces of released Przewalski's horse (Equus przewalskii) in Gasterophilus pecorum (Diptera: Gasterophilidae) spawning habitat". Scientific Reports. 11 (1): 15671. doi:10.1038/s41598-021-95162-9. ISSN   2045-2322. PMC   8329074 . PMID   34341455.
  14. Hu, Dini; Chao, Yuzhu; Zhang, Boru; Wang, Chen; Qi, Yingjie; Ente, Make; Zhang, Dong; Li, Kai; Mok, Kai Meng (2021-05-11). "Effects of Gasterophilus pecorum infestation on the intestinal microbiota of the rewilded Przewalski's horses in China". PLOS ONE. 16 (5): e0251512. Bibcode:2021PLoSO..1651512H. doi: 10.1371/journal.pone.0251512 . ISSN   1932-6203. PMC   8112688 . PMID   33974667.
  15. "horse bot fly - Gasterophilus intestinalis (DeGeer)". entnemdept.ufl.edu. Retrieved 2022-03-07.
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