Biology:Sarcophaga haemorrhoidalis

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Sarcophaga haemorrhoidalis
Sarcophaga haemorrhoidalis.jpg
Scientific classification
Kingdom:
Phylum:
Class:
Order:
Family:
Sarcophagidae
Genus:
Species:
S. haemorrhoidalis
Binomial name
Sarcophaga haemorrhoidalis
Fallén, 1817

Sarcophaga haemorrhoidalis, also known as the red-tailed flesh fly,[1] is a fly in the Sarcophagidae family. This fly often breeds in carrion and feces, making it a possible vector for disease.[2] The larvae of this species can cause myiasis,[3] as well as accidental myiasis.[4] It is potentially useful in forensic entomology.

Taxonomy

Sarcophaga haemorrhoidalis was first described by Carl Fredrik Fallén (1764–1830), a Swedish botanist and entomologist, in 1817 during his tenure at Lund University between 1814–1827. Fallén first named this species Musca haemorrhoidalis in 1817 not knowing that Charles Joseph de Villers[5] had already named an unrelated species Musca haemorrhoidalis in 1789. In 1826, Johann Wilhelm Meigen, a German entomologist famous for his pioneering work on Diptera, described the same species that Fallén had described in 1817 as Sarcophaga cruentata following Meigen's description of the genus Sarcophaga. Since two different species can not share the same name, the Sarcophaga cruentata that Meigen coined would serve as the species name. According to Wharton,[6] the exact nomenclature of this species is dynamic and currently has two accepted names: Sarcophaga haemorrhoidalis and Bercaea cruentata. Thomas Pape [1], who is considered to be the World's foremost expert on Sarcophagidae uses Sarcophaga but has assigned several subgenera, including Bercaea. Some current workers, including Ferrar, use Bercaea haemorrhoidalis.[7]

Description

Sarcophagidae is the dipteran family commonly known as flesh flies, comprising approximately 2000 species. Many species of Sarcophagidae prefer to breed in carrion over other mediums, but there are several species that breed in dung. A large number of species are parasitoids or cleptoparasitoids and never breed in carrion.[6] It is difficult to identify the S. haemorrhoidalis species unless genitalia can be observed. Only males can be identified and classified within the genus. Sarcophagids are rather large in size ranging from 4 to 23 mm, (adults of S. haemorrhoidalis vary in size from 7 to 14 mm). Distinguishing characteristics include a checkerboard like pattern on the abdomen, stripes on the thorax and red eyes. Flesh flies are attracted to anything rotting, including feces. Sarcophagidae are unimpeded by rain and fly in any weather. Because of this trait, Sarcophagidae will often be the first flies to colonize a corpse after an extended period of rain.[8] Flesh flies appear to prefer sunlight over shaded conditions.[9] Sarcophaga haemorrhoidalis (Bercaea cruentata) is the one of the most common species of Sarcophagidae recovered from indoor crime scenes in the United States.[10][11]

Life cycle

All members of the family Sarcophagidae are larviparous or ovoviviparous. Sarcophaga haemorrhoidalis (Bercaea cruentata) gives live birth to larvae with the female retaining the egg case in her abdomen. Flesh flies are strongly attracted to carrion or dry flesh. The female has a strong desire to lay larvae on the flesh and have even been noted to larviposit on the sleeve of a garment that has been previously soiled with blood.[12] Oldroyd states that the larvae of Sarcophaga spp are voracious and will take anything of animal origin be it alive or dead. A larva is forced out of the larvipositor usually head first and soon disappears into the food material. Once larvae are deposited as 1st stage instars, rapid development follows with 3rd instars usually being achieved by three to four days. Larviposition to adulthood generally takes around two weeks.

If the fly is forced to hibernate due to temperate climates, it will do so in the pupal stage.[13]

Importance

Medical importance

Due to its attraction to feces and carrion, S. haemorrhoidalis has been accounted for as a dipteran species that may serve as a mechanical vector for disease, especially if it intrudes homes. The family Sarcophagidae is particularly attracted to human food and filth. Bacteria can be transferred physically from the fly’s body, legs, or proboscis, to an animal, human food, or open sores.[2] S. haemorrhoidalis has also been found to carry polio virus. During a 1914 polio epidemic, samples of the virus were collected from S. haemorrhoidalis, among other dipterans. The sample was used to infect a monkey with polio, showing that it was an active virus. However, there is still no conclusive evidence as to whether or not this species actually transmits diseases to humans or animals.[14]

The larvae of S. haemorrhoidalis may produce myiasis on necrotic or dead flesh.[3][4] The first case of auricular myiasis (on the outer ear) on a human was reported in Iran in 1974.[15] Other myiasis cases have been recorded around the world in both humans and animals. Examples range from aural myiasis caused by S. haemorrhoidalis in four children in Israel (from 1990 to 1993) that produced symptoms of ear discharge, otalgia and itching,[16] to the infection of a schnauzer in Umbria, Italy in 1994 [17] by S. haemorrhoidalis maggots.

Accidental myiasis can also be caused by S. haemorrhoidalis larvae. When meat contaminated with live larvae is eaten, the maggots can make their way into the gastrointestinal tract and infest the intestines. The larvae are usually excreted with the feces.[3][4] In one documented case of gastrointestinal myiasis, a patient was admitted into a neurology clinic, and after several days, maggots were found in his stool. They were identified as S. haemorrhoidalis through taxonomical means. The accidental myiasis did not contribute to or cause the patient's illness. Because S. haemorrhoidalis rarely invades living tissue, cases such as this are not seen often.[18]

Forensic importance

S. haemorrhoidalis is hardly ever used in forensic investigations, due to its global distribution and the fact that little is known about them. Usually, other more researched flies and beetles, if present on the body, take precedence. The fly has a pupation time ranging from 93 hours to 153 hours. Development from larvae to adult can range from 252 to 802 hours.[19] Knowing the pupation and life cycle times of S. haemorrhoidalis and taking into consideration that this species is ovoviviparous allows investigators to calculate how long the fly has been on the corpse. If time of colonization of the corpse by maggots is known, it can help determine the PMI, or post-mortem interval.[20] The larvae of S. haemorrhoidalis occur on carcasses in the early and advanced stages of decomposition. The maggots can live in amphibious habitats in which many other fly species may not be able to thrive or breed, making it possible for them to be the first dipterans on a corpse in wet weather.[21]

Distribution

Sarcophaga haemorrhoidalis is a common species of flesh fly that appear worldwide in distribution and is commonly found in the United States.[22] It can be found throughout the year in the southern portion of the United States. The larvae are adaptable and can live in moist semi-aquatic habits that are unsuitable for most other fly species. [21] Overall, S. haemorrhoidalis is most likely to be found in climates with higher temperatures and will prefer high temperatures throughout its entire life cycle.[19]

Research

Past research has been limited due to the name Sarcophaga haemorrhoidalis being attributed to many different species since Fallén initially described it. "The Classification of Townsend (1937,1938), which divided the Sarcophagidae into six tribes, was rather confusing and contributed little to the phylogeny of the family." (Pape,11)[20] Although limited now, research on colonization and degree day temperature growth rates at the species level would bolster Sarcophaga haemorrhoidalis (Bercaea cruentata) involvement and credibility as a crime scene post mortem interval witness in forensics.

Conclusion

Sarcophaga haemorrhoidalis (Bercaea cruentata) is an important fly with regard to human and animal health. The fly has interesting attributes particular to its family like being able to fly in the rain. This role in sometimes first colonizing corpses at crime scenes along with its capability of myiasis makes this a forensically relevant species.

References

  1. Byrd, Jason H. James L. Castner. Forensic Entomology: The Utility of Arthropods in Legal Investigations, CRC Press, 2001 ISBN:0-8493-8120-7, 978-0-8493-8120-1
  2. 2.0 2.1 Cranton, P.S.. The Insects an Outline of Entomology. pp. 378. 
  3. 3.0 3.1 3.2 Durden, Lance A. (2002). Medical and veterinary entomology. Academic Press. pp. 334. ISBN 0-12-510451-0. 
  4. 4.0 4.1 4.2 Institute of Tropical Medicine Antwerp. "Myiasis". http://www.itg.be/itg/DistanceLearning/LectureNotesVandenEndenE/52_Ectoparasitesp5.htm. Retrieved 11 March 2009. 
  5. Villers, C.J. de. 1789. Caroli Linnaei entomologia, faunae suecicae descriptionibus aucta; D. D. Scopoli, Geoffroy, De Geer, Fabricii, Schrank, &c. .... Vol. 3. Piestre et Delamolliere, Lugduni. 656 pp
  6. 6.0 6.1 Robert Wharton, Ph.D. Department of Entomology, Texas A&M University
  7. Ferrar, P. 1987. A Guide to the Breeding Habits and Immature Stages of Diptera, Cyclorrhapha. (Entomonograph 8.) E. J. Brill, Leiden. Scandinavian Science Press, Copenhagen. 907 pp.
  8. Gennard, Dorothy. Forensic Entomology: an introduction Wiley, West Sussex, England. 2007 pg. 137
  9. Smith, K.G.V. A Manual of Forensic Entomology The Trustees of the British Museum (Natural History), London, 1986.
  10. Gennard, Dorothy. Forensic Entomology: an introduction Wiley, West Sussex, England. 2007 pg. 138
  11. Brundage, Adrienne (2009). "Calliphoridae Continued," lecture notes distributed in the topic ENTO-431 Forensic Entomology, Texas A&M University, College Station on 6 April.
  12. . Oldroyd, Harold. The Natural History of Flies Norton, New York, 1966
  13. James, Maurice T. Flies that Cause Myiasis in Man, United States Government Printing Office, Washington, 1947 pg 43
  14. Greenberg, Bernard (1973). The Flies and Diseases Volume II: Biology and Disease Transmission. Princeton, New Jersey: Princeton University Press. pp. 157. ISBN 0-691-08093-3. 
  15. Tigar, S.; Khalkhali, K. (1977). "First case of auricular myiasis due to Sarcophaga (Bercaea) haemorrhoidalis (Fallen) (Dipt., Sarcophagidae).". Entomologist's Monthly Magazine 1977 (1348): 255–256 
  16. Braverman, I; Dano, I; Saah, D; Gapany, B (June 1994). "Aural myiasis caused by flesh fly larva, Sarcophaga haemorrhoidalis". The Journal of Otolaryngology 23 (3): 204–205. PMID 8064961 
  17. Principato, M.; Pepe, M. (1994). "Myiasis in a dog in Umbria by Sarcophaga haemorrhoidalis (Fallen) (Diptera: Sarcophagidae): a fly infecting also man.". Parassitologia 1994: 117 
  18. Turhan, Vedat; Hidir Ulas, Umit (2007). "An Intestinal Myiasis Case of Flesh Fly (Sarcophaga haemorrhoidalis)". The Anatolian Journal of Clinical Investigation 1 (4): 270–272 
  19. 19.0 19.1 Byrd, Jason; Butler, Jerry (Sep 1998). "Effects of Temperature on Sarcophaga haemorrhoidalis". Journal of Medical Entomology 35 (5): 694–698. doi:10.1093/jmedent/35.5.694. PMID 9775595 
  20. 20.0 20.1 Pape, Thomas (1987). The Sarcophagidae (Diptera) of Fennoscandia and Denmark. Leiden: E.J. Brill/Scandinavian Science Press Ltd.. pp. 19. ISBN 90-04-08184-4. 
  21. 21.0 21.1 Byrd, Jason. "Forensic Entomology Insects in Legal Investigations". http://www.forensicentomology.com/maggot.htm. Retrieved 11 March 2009. 
  22. Goddard, Jerome (2007). Physician's Guide to Arthropods of Medical Importance. CRC Press. pp. 63, 194, 215. ISBN 0-8493-8539-3. 

External links

Wikidata ☰ Q7423614 entry