- Phormia regina
Taxobox
image_width = 260px
image_caption = Black Blow Fly
regnum =Animal ia
phylum =Arthropod a
subphylum =Hexapoda
classis =Insect a
subclassis =Pterygota
infraclassis =Neoptera
superordo =Endopterygota |
ordo = Diptera
subordo =Brachycera
infraordo =Muscomorpha
zoosubsectio =Calyptratae
superfamilia =Oestroidea
familia =Calliphoridae
subfamilia =Chrysomyiinae
tribus =Phormiini
genus = "Phormia "
species = "P. regina"
binomial = "Phormia regina"
binomial_authority = Meigen, 1826
synonyms = *"Musca regina" Meigen, 1826 The species "Phormia regina", more commonly known as the black blow fly, belongs to theblow fly familyCalliphoridae . Although some authorities merge both the blow fly group (Calliphoridae) and the flesh fly group (Sarcophagidae ) together in the familyMetopiidae , key distinguishable physical traits allow for this separation.Triplehorn, C., Johnson, N., Borror and Delongs Introduction to the Study of Insects. Brooks/Cole, 7th Ed. 2005. Pp.672 & 729-730 ]Being a member of the order diptera (the fly order), it is attributed by the presence of only its pair of fore wings while the pair of hind wings has been highly reduced to
halteres . These halteres function in aiding in stability and maneuverability during flight.Triplehorn, C., Johnson, N., Borror and Delongs Introduction to the Study of Insects. Brooks/Cole, 7th Ed. 2005. Pp.672 & 729-730 ] Wings of this fly are specialized having a sharp bend halfway through the wing and they are also known to have a well developedcalypter . Blow flies are about the size of a house fly or a little larger, many are metallic blue or green. Key characteristics of this species include blackgena , mostly white calypteres and anterior thoracicspiracle s that appear to be orange yellow due to being surrounded by bright orangesetae . [ Whitworth, Terry. 2006. Keys to the Genera and Species of the Blow Flies (Diptera:Calliphoridae) of America North of Mexico. PROC. ENTOL. SOC. WASH. 30 June. 108(3), Pp.629-725 ] [Rognes, Knut. 1991. Blowflies (Diptera, Calliphoridae) of Fennoscandia and Denmark. E.J. Brill/Scandinavian Science Ltd., 272pp. ]Taxonomy
"Phormia regina" was described by the German entolomogist
Johann Wilhelm Meigen in 1826. Its specific epithet is derived from theLatin "regina" 'queen'. [cite book|author = Simpson DP| title = Cassell's Latin Dictionary | publisher = Cassell Ltd.| date = 1979|edition = 5|location = London|pages = 883| isbn=0-304-52257-0] Meigen's career works were mainly involved in the taxonomical aspect of identifying different species of diptera. Spending a lot of time classifying species based on wingventilation as well as, antennae, he discovered that this was not sufficient enough to classify these dipteran species. He then reasoned that species can only identified by combination of characteristics; this technique later became known as theeclectic method.Lifecycle and development
The life cycle and development of "Phormia regina" is similar to that of most other dipteran species, in which females
oviposit their eggs into a nutrient substrate and aftereclosion (i.e. hatching), thelarva e continue feeding throughout threeinstar stages until they have stored up enough calories to commence pupation and finally emerge as adult blowflies. Each transition from first, second, and third instar is marked by amolt and eventually the third instar larvae develop sclerotized (hardened) casings which envelop and protect them throughoutmetamorphosis .Byrd, J.H. and J.C. Allen. 2001. The development of the black blow fly, "Phormia regina" (Meigen). Forensic Sci. Int. 120: 79-88.]Adult development
While, in the wild, dung constitutes a majority of the nutritional intake utilized for sexual maturity development in both male and female adults within this species, studies have shown that diets consisting of higher protein content will better facilitate mating conditions of both sexes. Female sexual maturity requires the completion of ten stages of follicle development in the ovaries in order to produce eggs that are completely mature, and studies show that ovaries in females which have been deprived of a high protein diet will not develop fully. Although it is possible for females on a diet of only dung to reach the final stage of sexual maturity, it takes much more time than if they were to feed exclusively on beef liver; and even then, a lower percentage of those feeding on dung will have fully developed. For instance, an experiment by Stoffolano showed that 100% of females feeding exclusively on beef liver were able to reach the final stage of sexual development after thirteen days, while only 78% of females were able to do so when feeding exclusively on pig dung over a twenty day period. It is also important to note that although some dipteran species will oviposit on dung, "Phormia regina" oviposits exclusively on
carrion . [Stoffolano, J.G. Jr, M.-F. Li, J.A. Sutton Jr, and C.-M. Yin. 1995. Faeces feeding by adult Phormia regina (Diptera: Calliphoridae): impact on reproduction. Medical and Veterinary Entomology 9, 388-392.]Furthermore, the
neuroendocrine system in adult males, which controls their mating behavior, must be stimulated before they will mate with a female. Protein in the male diet is not necessarily needed for this stimulation, but higher percentages of females were successfullyinseminate d by male specimens which had been fed either dung or beef liver versus specimens with a diet of only sugar. In this same study by Stoffolano, it is noted that protein is not generally necessary for spermatogenesis in male flies, but that it is paramount for accessory reproductive gland development, higher rates of copulation, and the capability of impregnating females. An additional study by Stoffolano found that there is a positive correlation between male head size and the size of theaedeagi (the external reproductive organs), which has been suggested as a possible reason for lower percentages of insemination between small males and large females within this species. [Stoffolano, J.G. Jr, E.Y. Gonzalez, M. Sanchez, J Kane, K Velázquez, A.L. Oquendo, G. Sakolsky, P. Schafer, and C.-M. Yin. 2000. Relationship Between Size and Mating Success in the Blow Fly Phormia regina (Diptera: Calliphoridae). Ann. Entomol. Soc. Am. 93(3): 673-677.]Larval development
There have been relatively few studies conducted on the adults of this species in comparison to those on larval development. This is mostly due to the importance of blowfly larvae in determining the post mortem interval (PMI) of corpses during investigations by
forensic entomologists. For this reason, many researchers have done studies to discover how various environmental factors will affect the duration time of larval development in this species (as well as many others).Because the larval lifecycle of this species is dependent on a climate with temperatures ranging from 12.7°C (55°F) to 35°C (95°F), it tends to inhabit the northern regions of the United States during summer months and southern regions in the winter. Researchers have discovered that at 40 to 45°C, larval development occurs normally until the
prepupal stage, at which point a majority of the larvae die and those that are able topupate do not emerge as adults. The lowest temperaturethreshold for this species was found to be 12.5°C and below; females will not oviposit at these temperatures. The highest rate of development (with survival) in a study by Byrd and Allen was a constant temperature of 35°C where the average time of adult emergence was 265 hours (about 11 days). Constant temperatures between 15 to 30°C (at 5 degree increments) developed slower, with the coolest temperatures taking longest. Cyclic temperatures ranges of 25 to 35°C and 15 to 25°C proved to decrease the rate of development when compared to constant temperatures. (The cyclic temperature data was collected by placing specimens in anincubator which steadily alternated between the maximum and minimum temperatures of a particular ten degree range (e.g. 25 to 35°C). Each ten degree fluctuation took place over a twelve hour time span.)Byrd, J.H. and J.C. Allen. 2001. The development of the black blow fly, Phormia regina (Meigen). Forensic Sci. Int. 120: 79-88.]Also, there have been studies to detect the affects of light exposure on developmental variability in larvae. These studies have shown that larvae exposed to cyclic photoperiods (shifting intermittently between 12 hours of light to 12 hours of darkness) have higher rates of development than larvae exposed to constant photoperiods (24 hours of light per day). These findings suggest that darkness may be a stimulus for larval growth. However, the variations in light photoperiods mentioned above had no effect on pupal duration times.Nabity, P.D., L.G. Higley, and T.M. Heng-Moss. 2007. Light-Induced Variability in Development of Forensically Important Blow Fly "Phormia regina" (Diptera: Calliphoridae). J. Med. Entomol. 44(2): 351-358.]
Physiology
Like most other flies the blowfly feeds via sponging, having functional or non-functional mouthparts. They are known to feed on various foods, with emphasis on nectar, honey-dew, and the liquid products of decomposition. [*Watson L., Dallwitz M.J., British Insects: the Families of Diptera. [http://delta-intkey.com/britin/dip/www/callipho.htm] ] "Phormia regina", like other flies, is
poikilothermic ; the growth and development of the fly is dependent on temperature. At room temperature, the egg to pupal stage lasts approximately 6-11 hours. When there is an increase in temperature of the surrounding environment, typically metabolic rates of the blow fly increase, causing an increase in the rate of growth and development.Kirkpatrick, R. S. Nocturnal light and temperature influences on necrophagous, carrion-associatingblow fly species of forensic importance in Central Texas. TAMU Undergrad. J. Sci. ] In addition to an increase in the growth and development, temperature also has a profound impact on female oviposition. Greenberg, B. 1990. Nocturnal oviposition behavior of blow flies (Diptera: Calliphoridae). J. Med. Entomol. 27 (5) : 807-810. ] It is key to note the fluctuations between diurnal and nocturnal temperatures. Typically blow flies will oviposit in the daytime due to the increase of temperature.It is important to note the larval stage of the blowfly, due to its importance in forensics. The larvae have posterior spiracles, small openings on the back that are used for the intake of oxygen. Larvae are also equipped with mouth hooks that are used for the break down of proteins when feeding. Another mechanism used for the breakdown of these proteins is the
proteolytic enzyme . [Fletcher F., Haub J.G. Digestions in blowfly larvae, Phormia regina meigen, used in the treatment of osteomyelitis. Ohio State University. phttps://kb.osu.edu/dspace/bitstream/1811/2619/1/V33N02_101.pdf] ]Forensic importance
"Phormia regina" is a very important species in medicocriminal entomology, an area in
forensic entomology which involves the calling upon of entomologists to aid with arthropod evidence in criminal investigations.Byrd, J. H., and J. L. Castner. 2001. Forensic entomology : The utility of arthropods in legal investigations. CRC Press, New York. ] This aspect of forensic science stresses utilizing arthropod evidence in solving crimes most often of a violent nature using two ideal approaches. One approach takes into account the general succession of arthropod communities to aid in estimation of post mortem interval, and the second factors in environmental influences in the development of arthropods.Byrd, J. H., and J. L. Castner. 2001. Forensic entomology : The utility of arthropods in legal investigations. CRC Press, New York. ] With knowledge of the regional insect fauna and times of carrion colonization, the insect gathering associated with the remains can be analyzed to determine a window of time in which death took place. The time elapsed since death before a corpse is discovered, referred to as post mortem interval or PMI, is critical for investigations. Post mortem interval relies on an entomologist’s ability to correlate the species or stage of development of arthropods, in this case "Phormia regina", to an approximation of the elapsed period between a person's death and the discovery of his/her body.Byrd, J. H., and J. L. Castner. 2001. Forensic entomology : The utility of arthropods in legal investigations. CRC Press, New York. ] Blow flies are usually the first insects to colonize a body, frequently within minutes after death. [Catts, E. P., and M. L. Goff. 1992. Forensic entomology in criminal investigations. Ann. Rev. Entomol. 37 : 253-272.] "Phormia regina" adults and larvae are attracted to the body because duringdecomposition , the remains go through rapid physical, biological, and chemical changes. If a corpse is found, the early stages of diptera present may be used in determining the post mortem interval by reverse estimation of the time it would take for eggs to have been deposited and larvae to have developed to the stage they were collected, while taking into account environmental factors. The use ofmaggot age and development can give a date of death accurate to a day or less and is used in the first few weeks after death. Blow flies will lay their eggs on the corpse, usually in a wound, if present, or in any of the naturalorifices . [Anderson, G.S. Forensic Entomology: the use of insects in death investigations. [http://www.sfu.ca/~ganderso/forensicentomology.htm] ] Therefore, after a single blowfly generation has been completed, the time of death is determined using the first method, that of insect succession.Research is being conducted to further perfect the dating of a
post mortem interval . A study done by Greenberg suggests that "Phormia regina" occasionally oviposit on carrion during nocturnal hours only when certain conditions are met.Greenberg, B. 1990. Nocturnal oviposition behavior of blow flies (Diptera: Calliphoridae). J. Med. Entomol. 27 (5) : 807-810.] A similar study performed in Central Texas (Kirkpatrick 2004) found that a combination of artificial lighting, warm temperatures, and the onset of low-pressure atmospheric conditions encourages nocturnal oviposition in "Phormia regina"Kirkpatrick, R. S. Nocturnal light and temperature influences on necrophagous, carrion-associating blow fly species of forensic importance in Central Texas. TAMU Undergrad. J. Sci.] This knowledge of the effects of nocturnal temperatures on blow fly occurrence and oviposition behavior will lead to more accurate estimates of the post mortem interval related to deaths, therefore, an abundance of research is needed in order to assign a precise PMI.Medicinal importance
"Phormia regina" is a flesh-eating fly not usually used for medical gain. However, the maggots from the black blow fly are used in a medical practice called maggot therapy.
Maggot therapy is a type of biotherapy involving the intentional introduction by a health care practitioner of live, disinfected maggots into the non-healing skin and soft tissue wound of a human or animal for the purpose of selectively cleaning out only the necrotic tissue within a wound in order to promote wound healing. [Hays, A. History of Medicine Part 1: Maggot Therapy. 15 March 2007. [http://www.targethealth.com/ONTARGET/2007/03112007.htm] ] Maggot therapy dates back to the Mayan empire, but there are no actual records of use until the early sixteenth century. [WebMD. Diabetes complications. December 15, 2007 [http://www.webmd.com/a-to-z-guides/complications] [http://darwinslegacy.blogspot.com/2007/12/maggots-anyone.html] ]The use of black blow fly maggots in maggot therapy is a very common practice. After the maggots have hatched they are carefully monitored until they reach roughly two to three millimeters in length; at this point they are ready for the next step. Within 24 to 36 hours of hatching the maggots are tested for there sterility and if they pass the rigorous tests then they may be used in maggot therapy. These maggots are placed onto a sterile piece of
gauze which lays over the wound of the patient. The maggots will proceed through the gauze to the open wound, where they will then begin their work. When they are full grown, they leave the wound and enter the gauze for the purpose ofpupating . They are then removed with the waste gauze and disposed of properly. [Thomas S., ZooBiotic Ltd: Princess of Wales Hospital. Bridgend, UK]The use of maggot therapy is not limited to humans, but it is not a common practice with livestock. Using maggot therapy with livestock could be beneficial in many ways. In dairy cattle it would eliminate the need to destroy milk contaminated with antibiotics. The use of antibiotics on horses can affect its
gastrointestinal flora which may result incolitis . Maggot therapy would eliminate this additional stress when treating equine wounds. Treatment options for people who cannot afford expensive surgeries would be a new possibility for veterinarians using unique maggot therapy. [Dicke, R.J. Maggot Therapy of Actinomycosis. Journal Econ Entomol, Aug 1953;46(4): 706-7]References
Further reading
*Anderson, G.S. [http://www.sfu.ca/~ganderso/forensicentomology.htm Forensic Entomology: the use of insects in death investigations. ]
*Byrd, J.H. and J.C. Allen. 2001. The development of the black blow fly, Phormia regina (Meigen). Forensic Sci. Int. 120: 79-88.
*Byrd, J. H., and J. L. Castner. 2001. Forensic entomology : The utility of arthropods in legal investigations. CRC Press, New York.
*Catts, E. P., and M. L. Goff. 1992. Forensic entomology in criminal investigations. Ann. Rev. Entomol. 37 : 253-272.
*Fletcher F., Haub J.G. [https://kb.osu.edu/dspace/bitstream/1811/2619/1/V33N02_101.pdf Digestions in blowfly larvae, Phormia regina meigen, used in the treatment of osteomyelitis.] Ohio State University.
*Greenberg, B. 1990. Nocturnal oviposition behavior of blow flies (Diptera: Calliphoridae). J. Med. Entomol. 27 (5) : 807-810.
*Kirkpatrick, R. S. Nocturnal light and temperature influences on necrophagous, carrion-associatingblow fly species of forensic importance in Central Texas. TAMU Undergrad. J. Sci.
*Nabity, P.D., L.G. Higley, and T.M. Heng-Moss. 2007. Light-Induced Variability in Development of Forensically Important Blow Fly Phormia regina (Diptera: Calliphoridae). J. Med. Entomol. 44(2): 351-358.
*Rognes, Knut. 1991. Blowflies (Diptera, Calliphoridae) of Fennoscandia and Denmark. E.J. Brill/Scandinavian Science Ltd., 272pp.
*Stoffolano, J.G. Jr, E.Y. Gonzalez, M. Sanchez, J Kane, K Velázquez, A.L. Oquendo, G. Sakolsky, P. Schafer, and C.-M. Yin. 2000. Relationship Between Size and Mating Success in the Blow Fly Phormia regina (Diptera: Calliphoridae). Ann. Entomol. Soc. Am. 93(3): 673-677.
*Stoffolano, J.G. Jr, M.-F. Li, J.A. Sutton Jr, and C.-M. Yin. 1995. Faeces feeding by adult Phormia regina (Diptera: Calliphoridae): impact on reproduction. Medical and Veterinary Entomology 9, 388-392.
*Watson L., Dallwitz M.J., [http://delta-intkey.com/britin/dip/www/callipho.htm British Insects: the Families of Diptera.]
*Whitworth, Terry. 2006. Keys to the Genera and Species of the Blow Flies (Diptera:Calliphoridae) of America North of Mexico. PROC. ENTOL. SOC. WASH. 30 June. 108(3), Pp.629-725
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