fbpx
Wikipedia

Housefly

December 29, 2022

Not to be confused with horse-fly.

The housefly (Musca domestica) is a fly of the suborder Cyclorrhapha. It is believed to have evolved in the Cenozoic Era, possibly in the Middle East, and has spread all over the world as a commensal of humans. It is the most common fly species found in houses. Adults are gray to black, with four dark, longitudinal lines on the thorax, slightly hairy bodies, and a single pair of membranous wings. They have red eyes, set farther apart in the slightly larger female.

Housefly
Scientific classification
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Diptera
Family: Muscidae
Genus: Musca
Species:
M. domestica
Binomial name
Musca domestica
Subspecies

The female housefly usually mates only once and stores the sperm for later use. She lays batches of about 100 eggs on decaying organic matter such as food waste, carrion, or feces. These soon hatch into legless white larvae, known as maggots. After two to five days of development, these metamorphose into reddish-brown pupae, about 8 millimetres (38 inch) long. Adult flies normally live for two to four weeks, but can hibernate during the winter. The adults feed on a variety of liquid or semi-liquid substances, as well as solid materials which have been softened by their saliva. They can carry pathogens on their bodies and in their feces, contaminate food, and contribute to the transfer of food-borne illnesses, while, in numbers, they can be physically annoying. For these reasons, they are considered pests.

Houseflies have been used in the laboratory in research into aging and sex determination. Houseflies appear in literature from Ancient Greek myth and Aesop's The Impertinent Insect onwards. Authors sometimes choose the housefly to speak of the brevity of life, as in William Blake's 1794 poem "The Fly", which deals with mortality subject to uncontrollable circumstances.[1]

Description

 
Head of a female housefly with two large compound eyes and three ocelli

Adult houseflies are usually 6 to 7 mm (14 to 932 in) long with a wingspan of 13 to 15 mm (12 to 1932 in). The females tend to be larger winged than males, while males have relatively longer legs. Females tend to vary more in size[2] and there is geographic variation with larger individuals in higher latitudes.[3] The head is strongly convex in front and flat and slightly conical behind. The pair of large compound eyes almost touch in the male, but are more widely separated in the female. They have three simple eyes (ocelli) and a pair of short antennae.[4] Houseflies process visual information around seven times more quickly than humans, enabling them to identify and avoid attempts to catch or swat them, since they effectively see the human's movements in slow motion with their higher flicker fusion rate.[5][6]

 
Housefly mouthparts, showing the pseudotracheae, semitubular grooves (dark parallel bands) used for sucking up liquid food

The mouthparts are specially adapted for a liquid diet; the mandibles and maxillae are reduced and not functional, and the other mouthparts form a retractable, flexible proboscis with an enlarged, fleshy tip, the labellum. This is a sponge-like structure that is characterized by many grooves, called pseudotracheae, which suck up fluids by capillary action.[7][8] It is also used to distribute saliva to soften solid foods or collect loose particles.[9] Houseflies have chemoreceptors, organs of taste, on the tarsi of their legs, so they can identify foods such as sugars by walking over them.[10] Houseflies are often seen cleaning their legs by rubbing them together, enabling the chemoreceptors to taste afresh whatever they walk on next.[11] At the end of each leg is a pair of claws, and below them are two adhesive pads, pulvilli, enabling the housefly to walk up smooth walls and ceilings using Van der Waals forces. The claws help the housefly to unstick the foot for the next step. Houseflies walk with a common gait on horizontal and vertical surfaces with three legs in contact with the surface and three in movement. On inverted surfaces, they alter the gait to keep four feet stuck to the surface.[12] Houseflies land on a ceiling by flying straight towards it; just before landing, they make a half roll and point all six legs at the surface, absorbing the shock with the front legs and sticking a moment later with the other four.[13]

 
A housefly wing under 250x magnification

The thorax is a shade of gray, sometimes even black, with four dark, longitudinal bands of even width on the dorsal surface. The whole body is covered with short hairs. Like other Diptera, houseflies have only one pair of wings; what would be the hind pair is reduced to small halteres that aid in flight stability. The wings are translucent with a yellowish tinge at their base. Characteristically, the medial vein (M1+2 or fourth long vein) shows a sharp upward bend. Each wing has a lobe at the back, the calypter, covering the haltere. The abdomen is gray or yellowish with a dark stripe and irregular dark markings at the side. It has 10 segments which bear spiracles for respiration. In males, the ninth segment bears a pair of claspers for copulation, and the 10th bears anal cerci in both sexes.[4][14]

 
Micrograph of the tarsus of the leg showing claws and bristles, including the central one between the two pulvilli known as the empodium

A variety of species around the world appear similar to the housefly, such as the lesser house fly, Fannia canicularis; the stable fly, Stomoxys calcitrans;[14] and other members of the genus Musca such as M. vetustissima, the Australian bush fly and several closely related taxa that include M. primitiva, M. shanghaiensis, M. violacea, and M. varensis.[15]: 161–167  The systematic identification of species may require the use of region-specific taxonomic keys and can require dissections of the male reproductive parts for confirmation.[16][17]

Distribution

The housefly is probably the insect with the widest distribution in the world; it is largely associated with humans and has accompanied them around the globe. It is present in the Arctic, as well as in the tropics, where it is abundant. It is present in all populated parts of Europe, Asia, Africa, Australasia, and the Americas.[4]

Evolution and taxonomy

Though the order of flies (Diptera) is much older, true houseflies are believed to have evolved in the beginning of the Cenozoic Era.[18] The housefly's superfamily, Muscoidea, is most closely related to the Oestroidea (blow flies, flesh flies and allies), and more distantly to the Hippoboscoidea (louse flies, bat flies and allies). They are thought to have originated in the southern Palearctic region, particularly the Middle East. Because of their close, commensal relationship with humans, they probably owe their worldwide dispersal to co-migration with humans.[19]

The housefly was first described as Musca domestica in 1758 based on the common European specimens by the Swedish botanist and zoologist Carl Linnaeus in his Systema naturae and continues to be classified under that name.[20] A more detailed description was given in 1776 by the Danish entomologist Johan Christian Fabricius in his Genera Insectorum.[4]

Nematocera

Other Nematocera (crane flies, mosquitoes, etc.)  

Brachycera

Tabanomorpha (horse flies, etc.)  

Muscomorpha

Other Muscomorpha (robber flies, etc.)  

Syrphoidea (hoverflies)  

Schizophora

Acalyptratae (marsh flies, etc.)  

Calyptratae

Hippoboscoidea (louse flies, bat flies, etc.)  

Cladogram showing higher level classification[21][22][23] and position of Musca within the family Muscidae based on Couri and Carvalho 2003.[24]

Life cycle

 
Houseflies mating

Each female housefly can lay up to 500 eggs in her lifetime, in several batches of about 75 to 150. The eggs are white and are about 1.2 mm (116 in) in length, and they are deposited by the fly in a suitable place, usually dead and decaying organic matter, such as food waste, carrion, or feces. Within a day, larvae (maggots) hatch from the eggs; they live and feed where they were laid. They are pale-whitish, 3 to 9 mm (18 to 1132 in) long, thinner at the mouth end, and legless.[14] Larval development takes from two weeks, under optimal conditions, to 30 days or more in cooler conditions. The larvae avoid light; the interiors of heaps of animal manure provide nutrient-rich sites and ideal growing conditions, warm, moist, and dark.[14]

 
Housefly larva and adult, by Amedeo John Engel Terzi (1872–1956)

At the end of their third instar, the larvae crawl to a dry, cool place and transform into pupae. The pupal case is cylindrical with rounded ends, about 1.2 mm (116 in) long, and formed from the last shed larval skin. It is yellowish at first, darkening through red and brown to nearly black as it ages. Pupae complete their development in two to six days at 35 °C (95 °F), but may take 20 days or more at 14 °C (57 °F).[14]

When metamorphosis is complete, the adult housefly emerges from the pupa. To do this, it uses the ptilinum, an eversible pouch on its head, to tear open the end of the pupal case. The adult housefly lives from two weeks to one month in the wild, or longer in benign laboratory conditions. Having emerged from the pupa, it ceases to grow; a small fly is not necessarily a young fly, but is instead the result of getting insufficient food during the larval stage.[14]

Male houseflies are sexually mature after 16 hours and females after 24. Females produce a pheromone, (Z)-9-tricosene (muscalure). This cuticular hydrocarbon is not released into the air and males sense it only on contact with females;[13] it has found use as in pest control, for luring males to fly traps.[25][26] The male initiates the mating by bumping into the female, in the air or on the ground, known as a "strike". He climbs on to her thorax, and if she is receptive, a courtship period follows, in which the female vibrates her wings and the male strokes her head. The male then reverses onto her abdomen and the female pushes her ovipositor into his genital opening; copulation, with sperm transfer, lasts for several minutes. Females normally mate only once and then reject further advances from males, while males mate multiple times.[27] A volatile semiochemical that is deposited by females on their eggs attracts other gravid females and leads to clustered egg deposition.[28]

The larvae depend on warmth and sufficient moisture to develop; generally, the warmer the temperature, the faster they grow. In general, fresh swine and chicken manures present the best conditions for the developing larvae, reducing the larval period and increasing the size of the pupae. Cattle, goat, and horse manures produce fewer, smaller pupae, while mature swine manure composted with water content under 30%, approached 100% mortality of the larvae. Pupae can range from about 8–20 milligrams (0.12–0.31 gr) in weight under different conditions.[29]

The life cycle can be completed in seven to ten days under optimal conditions, but may take up to two months in adverse circumstances. In temperate regions, 12 generations may occur per year, and in the tropics and subtropics, more than 20.[14]

Ecology

 
Housefly pupae killed by parasitoid wasp larvae: Each pupa has one hole through which a single adult wasp has emerged; the wasp larvae fed on the housefly larvae.

Houseflies play an important ecological role in breaking down and recycling organic matter. Adults are mainly carnivorous; their primary food is animal matter, carrion, and feces, but they also consume milk, sugary substances, and rotting fruit and vegetables. Solid foods are softened with saliva before being sucked up.[8] They can be opportunistic blood feeders.[15]: 189  Houseflies have a mutualistic relationship with the bacterium Klebsiella oxytoca, which can live on the surface of housefly eggs and deter fungi which compete with the housefly larvae for nutrients.[30]

Adult houseflies are diurnal and rest at night. If inside a building after dark, they tend to congregate on ceilings, beams, and overhead wires, while out of doors, they crawl into foliage or long grass, or rest in shrubs and trees or on wires.[14] In cooler climates, some houseflies hibernate in winter, choosing to do so in cracks and crevices, gaps in woodwork, and the folds of curtains. They arouse in the spring when the weather warms up, and search out a place to lay their eggs.[31]

Houseflies have many predators, including birds, reptiles, amphibians, various insects, and spiders. The eggs, larvae, and pupae have many species of stage-specific parasites and parasitoids. Some of the more important are the parasitic wasps Muscidifurax uniraptor and Spalangia cameroni; these lay their eggs in the housefly larvae tissue and their offspring complete their development before the adult houseflies can emerge from the pupae.[14] Hister beetles feed on housefly larvae in manure heaps and the predatory mite Macrocheles muscae domesticae consumes housefly eggs, each mite eating 20 eggs per day.[32]

 
Housefly killed by the pathogenic fungus Entomophthora muscae

Houseflies sometimes carry phoretic (nonparasitic) passengers, including mites such as Macrocheles muscaedomesticae[33] and the pseudoscorpion Lamprochernes chyzeri.[34]

The pathogenic fungus Entomophthora muscae causes a fatal disease in houseflies. After infection, the fungal hyphae grow throughout the body, killing the housefly in about five days. Infected houseflies have been known to seek high temperatures that could suppress the growth of the fungus. Affected females tend to be more attractive to males, but the fungus-host interactions have not been fully understood.[35] The housefly also acts as the alternative host to the parasitic nematode Habronema muscae that attacks horses.[36] A virus that causes enlargement of the salivary glands, salivary gland hypertrophy virus (SGHV), is spread among houseflies through contact with food and infected female houseflies become sterile.[37]

Relationship with humans

Houseflies are a nuisance, disturbing people while at leisure and at work, but they are disliked principally because of their habits of contaminating foodstuffs. They alternate between breeding and feeding in dirty places with feeding on human foods, during which process they soften the food with saliva and deposit their feces, creating a health hazard.[38] However, housefly larvae are as nutritious as fish meal, and could be used to convert waste to insect-based animal feed for farmed fish and livestock.[39] Housefly larvae have been used in traditional cures since the Ming period in China (1386 AD) for a range of medical conditions and have been considered as a useful source of chitosan, with antioxidant properties, and possibly other proteins and polysaccharides of medical value.[40]

Houseflies have been used in art and artifacts in many cultures. In 16th- and 17th-century European vanitas paintings, houseflies sometimes occur as memento mori. They may also be used for other effects as in the Flemish painting, the Master of Frankfurt (1496). Housefly amulets were popular in ancient Egypt.[41][42]

As a disease vector

 
Housefly lapping up food from a plate

Houseflies can fly for several kilometers from their breeding places,[43] carrying a wide variety of organisms on their hairs, mouthparts, vomitus, and feces. Parasites carried include cysts of protozoa, e.g. Entamoeba histolytica and Giardia lamblia and eggs of helminths; e.g., Ascaris lumbricoides, Trichuris trichiura, Hymenolepis nana, and Enterobius vermicularis.[44] Houseflies do not serve as a secondary host or act as a reservoir of any bacteria of medical or veterinary importance, but they do serve as mechanical vectors to over 100 pathogens, such as those causing typhoid, cholera, salmonellosis,[45] bacillary dysentery,[46] tuberculosis, anthrax, ophthalmia,[47] and pyogenic cocci, making them especially problematic in hospitals and during outbreaks of certain diseases.[44] Disease-causing organisms on the outer surface of the housefly may survive for a few hours, but those in the crop or gut can be viable for several days.[38] Usually, too few bacteria are on the external surface of the houseflies (except perhaps for Shigella) to cause infection, so the main routes to human infection are through the housefly's regurgitation and defecation.[48] A number of bacterial endosymbionts have however been detected in sequence-based identification from whole genome sequences extracted from flies, the greatest numbers being detected in the abdomen.[49]

In the early 20th century, Canadian public health workers believed that the control of houseflies was important in controlling the spread of tuberculosis. A "swat that fly" contest was held for children in Montreal in 1912.[50] Houseflies were targeted in 1916, when a polio epidemic broke out in the eastern United States. The belief that housefly control was the key to disease control continued, with extensive use of insecticidal spraying well until the mid-1950s, declining only after the introduction of Salk's vaccine.[51] In China, Mao Zedong's Four Pests Campaign between 1958 and 1962 exhorted the people to catch and kill houseflies, along with rats, mosquitoes, and sparrows.[52]

In warfare

Further information: Entomological warfare
 
Philadelphia Department of Health poster warning the public of housefly hazards (c. 1942)

During the Second World War, the Japanese worked on entomological warfare techniques under Shirō Ishii. Japanese Yagi bombs developed at Pingfan consisted of two compartments, one with houseflies and another with a bacterial slurry that coated the houseflies prior to release. Vibrio cholerae, which causes cholera, was the bacterium of choice, and was used in China in Baoshan in 1942, and in northern Shandong in 1943. Baoshan had been used by the Allies and bombing produced epidemics that killed 60,000 people in the initial stages, reaching a radius of 200 kilometres (120 mi) which finally took a toll of 200,000 victims. The Shandong attack killed 210,000; the occupying Japanese troops had been vaccinated in advance.[53]

In waste management

The ability of housefly larvae to feed and develop in a wide range of decaying organic matter is important for recycling of nutrients in nature. This could be exploited to combat ever-increasing amounts of waste.[54] Housefly larvae can be mass-reared in a controlled manner in animal manure, reducing the bulk of waste and minimizing environmental risks of its disposal.[55][56] Harvested maggots may be used as feed for animal nutrition.[56][57]

Control

 
Detail of a 1742 painting by Frans van der Mijn that uses a housefly in a Renaissance allegory of touch theme

Houseflies can be controlled, at least to some extent, by physical, chemical, or biological means. Physical controls include screening with small mesh or the use of vertical strips of plastic or strings of beads in doorways to prevent entry of houseflies into buildings. Fans to create air movement or air barriers in doorways can deter houseflies from entering, and food premises often use fly-killing devices; sticky fly papers hanging from the ceiling are effective,[48] but electric "bug zappers" should not be used directly above food-handling areas because of scattering of contaminated insect parts.[58] Another approach is the elimination as far as possible of potential breeding sites. Keeping garbage in lidded containers and collecting it regularly and frequently, prevents any eggs laid from developing into adults. Unhygienic rubbish tips are a prime housefly-breeding site, but if garbage is covered by a layer of soil, preferably daily, this can be avoided.[48]

Insecticides can be used. Larvicides kill the developing larvae, but large quantities may need to be used to reach areas below the surface. Aerosols can be used in buildings to "zap" houseflies, but outside applications are only temporarily effective. Residual sprays on walls or resting sites have a longer-lasting effect.[48] Many strains of housefly have become immune to the most commonly used insecticides.[59][60] Resistance to carbamates and organophosphates is conferred by variation in acetylcholinesterase genes.[61] M. domestica has achieved a high degree of resistance. Resistance monitoring is vital to avoid continued use of ineffective a.i.s such as found in the notably severe example of Freeman et al 2019 in Kansas and Maryland, USA.[62]

Several means of biological pest control have been investigated. These include the introduction of another species, the black soldier fly (Hermetia illucens), whose larvae compete with those of the housefly for resources.[63] The introduction of dung beetles to churn up the surface of a manure heap and render it unsuitable for breeding is another approach.[63] Augmentative biological control by releasing parasitoids can be used, but houseflies breed so fast that the natural enemies are unable to keep up.[64]

In science

 
William Blake's illustration of "The Fly" in Songs of Innocence and of Experience (1794)

The ease of culturing houseflies, and the relative ease of handling them when compared to the fruit fly Drosophila, have made them useful as model organism for use in laboratories. The American entomologist Vincent Dethier, in his humorous To Know A Fly (1962), pointed out that as a laboratory animal, houseflies did not trouble anyone sensitive to animal cruelty. Houseflies have a small number of chromosomes, haploid 6 or diploid 12.[15]: 96  Because the somatic tissue of the housefly consists of long-lived postmitotic cells, it can be used as an informative model system for understanding cumulative age-related cellular alterations. Oxidative DNA damage 8-hydroxydeoxyguanosine in houseflies was found in one study to increase with age and reduce life expectancy supporting the hypothesis that oxidative molecular damage is a causal factor in senescence (aging).[65][66][67]

The housefly is an object of biological research, partly for its variable sex-determination mechanism. Although a wide variety of sex-determination mechanisms exists in nature (e.g. male and female heterogamy, haplodiploidy, environmental factors), the way sex is determined is usually fixed within a species. The housefly is, however, thought to exhibit multiple mechanisms for sex determination, such as male heterogamy (like most insects and mammals), female heterogamy (like birds), and maternal control over offspring sex. This is because a male-determining gene (Mdmd) can be found on most or all housefly chromosomes.[68] Sexual differentiation is controlled, as in other insects, by an ancient developmental switch, doublesex, which is regulated by the transformer protein in many different insects.[69] Mdmd causes male development by negatively regulating transformer. There is also a female-determining allele of transformer that is not sensitive to the negative regulation of Mdmd.[70]

The antimicrobial peptides produced by housefly maggots are of pharmacological interest.[71]

In the 1970s, the aircraft modeler Frank Ehling constructed miniature balsa-wood aircraft powered by live houseflies.[72] Studies of tethered houseflies have helped in the understanding of insect vision, sensory perception, and flight control.[73]

In literature

The Impertinent Insect is a group of five fables, sometimes ascribed to Aesop, concerning an insect, in one version a fly, which puffs itself up to seem important. In the Biblical fourth plague of Egypt, flies represent death and decay, while the Philistine god Beelzebub's name may mean "lord of the flies".[74] In Greek mythology, Myiagros was a god who chased away flies during the sacrifices to Zeus and Athena; Zeus sent a fly to bite Pegasus, causing Bellerophon to fall back to Earth when he attempted to ride the winged steed to Mount Olympus.[75] In the traditional Navajo religion, Big Fly is an important spirit being.[76][77][78]

William Blake's 1794 poem "The Fly", part of his collection Songs of Experience, deals with the insect's mortality, subject to uncontrollable circumstances, just like humans.[79] Emily Dickinson's 1855 poem "I Heard a Fly Buzz When I Died" speaks of flies in the context of death.[80] In William Golding's 1954 novel Lord of the Flies, the fly is, however, a symbol of the children involved.[81]

Ogden Nash's humorous two-line 1942 poem "God in His wisdom made the fly/And then forgot to tell us why." indicates the debate about the value of biodiversity, given that even those considered by humans as pests have their place in the world's ecosystems.[82]

References

  1. ^ "Appendix C: The State Emblem of India (Prohibition of Improper Use) Act, 2005", Righteous Republic, Harvard University Press, p. 257, 2012, doi:10.4159/harvard.9780674067288.c9, ISBN 978-0-674-06728-8
  2. ^ Bryant EH (September 1977). "Morphometric adaptation of the housefly, Musca domestica L., in the United States". Evolution; International Journal of Organic Evolution. 31 (3): 580–596. doi:10.1111/j.1558-5646.1977.tb01046.x. PMID 28563484. S2CID 42268993.
  3. ^ Alves SM, Bélo M (August 2002). "Morphometric variations in the housefly, Musca domestica (L.) with latitude". Genetica. 115 (3): 243–251. doi:10.1023/a:1020685727460. PMID 12440563. S2CID 230309.
  4. ^ a b c d Hewitt CG (2011). The House-Fly: Musca Domestica Linn: Its Structure, Habits, Development, Relation to Disease and Control. Cambridge University Press. pp. 5–6. ISBN 978-0-521-23299-9.
  5. ^ Johnston I (15 September 2013). "Q. Why is it so hard to swat a housefly? A. It sees you coming in slow motion". The Independent. Retrieved 4 December 2017.
  6. ^ Healy K, McNally L, Ruxton GD, Cooper N, Jackson AL (October 2013). "Metabolic rate and body size are linked with perception of temporal information". Animal Behaviour. 86 (4): 685–696. doi:10.1016/j.anbehav.2013.06.018. PMC 3791410. PMID 24109147.
  7. ^ Gullan PJ, Cranston PS (2010). The Insects: An Outline of Entomology (4th ed.). Wiley. pp. 41, 519. ISBN 978-1-118-84615-5.
  8. ^ a b Mehlhorn H (2001). Encyclopedic Reference of Parasitology: Biology, Structure, Function. Springer Science & Business Media. p. 310. ISBN 978-3-540-66819-0.
  9. ^ Dessì G (8 January 2017). "Morphology and anatomy of adults: Mouthparts". Flies. Retrieved 27 September 2017.
  10. ^ Deonier CC, Richardson CH (1935). "The Tarsal Chemoreceptor Response of the Housefly, Musca Domestica L., to Sucrose and Levulose". Annals of the Entomological Society of America. 28 (4): 467–474. doi:10.1093/aesa/28.4.467.
  11. ^ Ray CC (17 December 2002). "Q&A; Gleeful Flies?". The New York Times. Retrieved 4 December 2017.
  12. ^ Gorb SN (2005). "Uncovering Insect Stickiness: Structure and Properties of Hairy Attachment Devices". American Entomologist. 51 (1): 31–35. doi:10.1093/ae/51.1.31.
  13. ^ a b Dahlem GA (2009). "House Fly (Musca domestica)". In Resh VH, Carde RT (eds.). Encyclopedia of Insects (2nd ed.). Elsevier. pp. 469–470.
  14. ^ a b c d e f g h i Sanchez-Arroyo H, Capinera JL (20 April 2017). "House fly: Musca domestica". Featured Creatures. Retrieved 20 September 2017.
  15. ^ a b c West LS (1951). The Housefly. Its natural history, medical importance, and control (PDF). New York: Comstock Publishing Company.
  16. ^ Paterson HE (2009). "The Musca domestica complex in Sri Lanka". Journal of Entomology Series B, Taxonomy. 43 (2): 247–259. doi:10.1111/j.1365-3113.1975.tb00134.x.
  17. ^ Tumrasvin W, Shinonaga S (1977). "Report of Species Belonging to the Genus Musca Linné, Including the Taxonomic Key (Diptera: Muscidae)" (PDF). Bull. Tokyo Med. Dent. Univ. 24: 209–218.
  18. ^ Wiegmann BM, Yeates DK, Thorne JL, Kishino H (December 2003). "Time flies, a new molecular time-scale for brachyceran fly evolution without a clock". Systematic Biology. 52 (6): 745–756. doi:10.1093/sysbio/52.6.745. PMID 14668115.
  19. ^ Marquez JG, Krafsur ES (July 2002). "Gene flow among geographically diverse housefly populations (Musca domestica L.): a worldwide survey of mitochondrial diversity". The Journal of Heredity. 93 (4): 254–259. doi:10.1093/jhered/93.4.254. PMID 12407211.
  20. ^ Pont AC (1981). "The Linnaean species of the families Fanniidae, Anthomyiidae and Muscidae (Insecta: Diptera)". Biological Journal of the Linnean Society. 15 (2): 165–175. doi:10.1111/j.1095-8312.1981.tb00756.x.
  21. ^ Wiegmann BM, Trautwein MD, Winkler IS, Barr NB, Kim JW, Lambkin C, et al. (April 2011). "Episodic radiations in the fly tree of life". Proceedings of the National Academy of Sciences of the United States of America. 108 (14): 5690–5695. Bibcode:2011PNAS..108.5690W. doi:10.1073/pnas.1012675108. PMC 3078341. PMID 21402926.
  22. ^ Yeates DK, Meier R, Wiegmann B. "Phylogeny of True Flies (Diptera): A 250 Million Year Old Success Story in Terrestrial Diversification". Flytree. Retrieved 24 May 2016.
  23. ^ "FLYTREE". Illinois Natural History Survey. Retrieved 22 July 2016.
  24. ^ Couri MS, Carvalho CJ (May 2003). "Systematic relations among Philornis Meinert, Passeromyia Rodhain & Villeneuve and allied genera (Diptera, Muscidae)". Brazilian Journal of Biology = Revista Brasleira de Biologia. 63 (2): 223–232. doi:10.1590/S1519-69842003000200007. PMID 14509844.
  25. ^ Thom C, Gilley DC, Hooper J, Esch HE (September 2007). "The scent of the waggle dance". PLOS Biology. 5 (9): e228. doi:10.1371/journal.pbio.0050228. PMC 1994260. PMID 17713987.
  26. ^ "(Z)-9-Tricosene (103201) Fact Sheet" (PDF). United States Environmental Protection Agency. Retrieved 8 December 2017.
  27. ^ Murvosh CM, Fye RL, LaBrecque GC (1964). "Studies on the mating behavior of the house fly, Musca domestica L.". Ohio Journal of Science. 64 (4): 264–271. hdl:1811/5017.
  28. ^ Jiang Y, Lei C, Niu C, Fang Y, Xiao C, Zhang Z (October 2002). "Semiochemicals from ovaries of gravid females attract ovipositing female houseflies, Musca domestica". Journal of Insect Physiology. 48 (10): 945–950. doi:10.1016/s0022-1910(02)00162-2. PMID 12770041.
  29. ^ Larraín P, Salas C, Salas F (2008). "House fly (Musca domestica L.) (Diptera: Muscidae) development in different types of manure [Desarrollo de la Mosca Doméstica (Musca domestica L.) (Díptera: Muscidae) en Distintos Tipos de Estiércol]". Chilean Journal of Agricultural Research. 68 (2): 192–197. doi:10.4067/S0718-58392008000200009. ISSN 0718-5839.
  30. ^ Lam K, Thu K, Tsang M, Moore M, Gries G (September 2009). "Bacteria on housefly eggs, Musca domestica, suppress fungal growth in chicken manure through nutrient depletion or antifungal metabolites". Die Naturwissenschaften. 96 (9): 1127–1132. Bibcode:2009NW.....96.1127L. doi:10.1007/s00114-009-0574-1. PMID 19636523. S2CID 187752.
  31. ^ "Where do flies go in winter?". BBC Earth. 10 February 2015. Retrieved 23 September 2017.
  32. ^ "House flies". Cornell University: Department of Entomology. 2017. Retrieved 23 September 2017.
  33. ^ Ho TM (November 1990). "Phoretic association between Macrocheles muscaedomesticae (Acari: Macrochelidae) and flies inhabiting poultry manure in Peninsular Malaysia". Experimental & Applied Acarology. 10 (1): 61–68. doi:10.1007/BF01193974. PMID 2279455. S2CID 25307344.
  34. ^ Christophoryova J, Stloukal E, Stloukalova V (2011). "First record of phoresy of pseudoscorpion Lamprochernes chyszeri in Slovakia (Pseudoscorpiones: Chernetidae)" (PDF). Folia Faunistica Slovaca. 16 (3): 139–142.
  35. ^ Roy HE, Steinkraus DC, Eilenberg J, Hajek AE, Pell JK (2006). "Bizarre interactions and endgames: entomopathogenic fungi and their arthropod hosts". Annual Review of Entomology. 51: 331–357. doi:10.1146/annurev.ento.51.110104.150941. PMID 16332215.
  36. ^ Hewitt CG (2011). The House-Fly: Musca Domestica Linn: Its Structure, Habits, Development, Relation to Disease and Control. Cambridge University Press. pp. 181–184. ISBN 978-0-521-23299-9.
  37. ^ Prompiboon P, Lietze VU, Denton JS, Geden CJ, Steenberg T, Boucias DG (February 2010). "Musca domestica salivary gland hypertrophy virus, a globally distributed insect virus that infects and sterilizes female houseflies". Applied and Environmental Microbiology. 76 (4): 994–998. Bibcode:2010ApEnM..76..994P. doi:10.1128/AEM.02424-09. PMC 2820963. PMID 20023109.
  38. ^ a b "Houseflies" (PDF). World Health Organization. Retrieved 25 September 2017.
  39. ^ Hussein M, Pillai VV, Goddard JM, Park HG, Kothapalli KS, Ross DA, et al. (2017). "Sustainable production of housefly (Musca domestica) larvae as a protein-rich feed ingredient by utilizing cattle manure". PLOS ONE. 12 (2): e0171708. Bibcode:2017PLoSO..1271708H. doi:10.1371/journal.pone.0171708. PMC 5295707. PMID 28170420.
  40. ^ Ai H, Wang F, Xia Y, Chen X, Lei C (May 2012). "Antioxidant, antifungal and antiviral activities of chitosan from the larvae of housefly, Musca domestica L". Food Chemistry. 132 (1): 493–498. doi:10.1016/j.foodchem.2011.11.033. PMID 26434321.
  41. ^ Connor S (2006). Fly. Reaktion Books. pp. 20, 27. ISBN 978-1861892942.
  42. ^ "Fly Pendants and Cylindrical and Spherical Beads, ca. 1539–1292 B.C.E. Gold, lapis lazuli, Length: 9 11/16 in. (24.6 cm). Brooklyn Museum, Charles Edwin Wilbour Fund, 08.480.198". Retrieved 8 December 2017.
  43. ^ Nazni WA, Luke H, Wan Rozita WM, Abdullah AG, Sa'diyah I, Azahari AH, et al. (June 2005). "Determination of the flight range and dispersal of the house fly, Musca domestica (L.) using mark release recapture technique". Tropical Biomedicine. 22 (1): 53–61. PMID 16880754.
  44. ^ a b Szalanski AL, Owens CB, McKay T, Steelman CD (September 2004). "Detection of Campylobacter and Escherichia coli O157:H7 from filth flies by polymerase chain reaction". Medical and Veterinary Entomology. 18 (3): 241–246. CiteSeerX 10.1.1.472.8821. doi:10.1111/j.0269-283X.2004.00502.x. PMID 15347391. S2CID 15788942.
  45. ^ Ostrolenk M, Welch H (May 1942). "The House Fly as a Vector of Food Poisoning Organisms in Food Producing Establishments". American Journal of Public Health and the Nation's Health. 32 (5): 487–494. doi:10.2105/ajph.32.5.487. PMC 1526899. PMID 18015612.
  46. ^ Levine OS, Levine MM (1991). "Houseflies (Musca domestica) as mechanical vectors of shigellosis". Reviews of Infectious Diseases. 13 (4): 688–696. doi:10.1093/clinids/13.4.688. PMID 1925289.
  47. ^ Förster M, Klimpel S, Sievert K (March 2009). "The house fly (Musca domestica) as a potential vector of metazoan parasites caught in a pig-pen in Germany". Veterinary Parasitology. 160 (1–2): 163–167. doi:10.1016/j.vetpar.2008.10.087. PMID 19081196.
  48. ^ a b c d Service M (2008). Medical Entomology for Students. Cambridge University Press. pp. 140–141. ISBN 978-0-521-70928-6.
  49. ^ Junqueira AC, Ratan A, Acerbi E, Drautz-Moses DI, Premkrishnan BN, Costea PI, et al. (November 2017). "The microbiomes of blowflies and houseflies as bacterial transmission reservoirs". Scientific Reports. 7 (1): 16324. Bibcode:2017NatSR...716324J. doi:10.1038/s41598-017-16353-x. PMC 5701178. PMID 29176730.
  50. ^ Minnett V, Poutanen M (2007). "Swatting flies for health: Children and tuberculosis in early twentieth-century Montreal" (PDF). Urban History Review. 36 (1): 32–44. doi:10.7202/1015818ar.
  51. ^ Cirillo VJ (2016). ""I am the baby killer!" House flies and the spread of polio". American Entomologist. 62 (2): 83. doi:10.1093/ae/tmw039.
  52. ^ "Eliminate the Four Pests". chineseposters.net. 1958. Retrieved 7 December 2017.
  53. ^ Lockwood JA (2012). "Insects as weapons of war, terror, and torture". Annual Review of Entomology. 57: 205–227. doi:10.1146/annurev-ento-120710-100618. PMID 21910635.
  54. ^ Miller BF, Teotia JS, Thatcher TO (March 1974). "Digestion of poultry manure by Musca domestica". British Poultry Science. 15 (2): 231–234. doi:10.1080/00071667408416100. PMID 4447887.
  55. ^ Čičková H, Pastor B, Kozánek M, Martínez-Sánchez A, Rojo S, Takáč P (2012). "Biodegradation of pig manure by the housefly, Musca domestica: a viable ecological strategy for pig manure management". PLOS ONE. 7 (3): e32798. Bibcode:2012PLoSO...732798C. doi:10.1371/journal.pone.0032798. PMC 3303781. PMID 22431982.
  56. ^ a b Zhu FX, Wang WP, Hong CL, Feng MG, Xue ZY, Chen XY, et al. (July 2012). "Rapid production of maggots as feed supplement and organic fertilizer by the two-stage composting of pig manure". Bioresource Technology. 116: 485–491. doi:10.1016/j.biortech.2012.04.008. PMID 22541952.
  57. ^ Hwangbo J, Hong EC, Jang A, Kang HK, Oh JS, Kim BW, Park BS (July 2009). "Utilization of house fly-maggots, a feed supplement in the production of broiler chickens". Journal of Environmental Biology. 30 (4): 609–614. PMID 20120505.
  58. ^ "Insect Control Devices, Design and Installation". FDA Food Code 2017. U.S. Food and Drug Administration. 2017. Retrieved 18 June 2019.
  59. ^ Georghiou GP, Hawley MK (1971). "Insecticide resistance resulting from sequential selection of houseflies in the field by organophosphorus compounds". Bulletin of the World Health Organization. 45 (1): 43–51. PMC 2427889. PMID 5316852.
  60. ^ Keiding J (1975). "Problems of housefly (Musca domestica) control due to multiresistance to insesticides". Journal of Hygiene, Epidemiology, Microbiology, and Immunology. 19 (3): 340–355. PMID 52667.
  61. ^ Walsh SB, Dolden TA, Moores GD, Kristensen M, Lewis T, Devonshire AL, Williamson MS (October 2001). "Identification and characterization of mutations in housefly (Musca domestica) acetylcholinesterase involved in insecticide resistance". The Biochemical Journal. Portland Press Ltd. 359 (Pt 1): 175–181. doi:10.1042/bj3590175. PMC 1222133. PMID 11563981.
  62. ^ Gerry, Alec C. (15 October 2020). Owen, Jeb (ed.). "Review of Methods to Monitor House Fly (Musca domestica) Abundance and Activity". Journal of Economic Entomology. Entomological Society of America (OUP). 113 (6): 2571–2580. doi:10.1093/jee/toaa229. ISSN 0022-0493. PMID 33057651.
  63. ^ a b DeBach P, Rosen D (1991). Biological Control by Natural Enemies. CUP Archive. p. 348. ISBN 978-0-521-39191-7.
  64. ^ Capinera JL (2008). Encyclopedia of Entomology. Springer Science & Business Media. p. 1880. ISBN 978-1-4020-6242-1.
  65. ^ Agarwal S, Sohal RS (December 1994). "DNA oxidative damage and life expectancy in houseflies". Proceedings of the National Academy of Sciences of the United States of America. 91 (25): 12332–12335. Bibcode:1994PNAS...9112332A. doi:10.1073/pnas.91.25.12332. PMC 45431. PMID 7991627.
  66. ^ Holmes GE, Bernstein C, Bernstein H (September 1992). "Oxidative and other DNA damages as the basis of aging: a review". Mutation Research. 275 (3–6): 305–315. doi:10.1016/0921-8734(92)90034-M. PMID 1383772.
  67. ^ Bernstein H, Payne C, Bernstein C, Garewal H, Dvorak K (2008). . In Kimura H, Suzuki A (eds.). New Research on DNA Damages. New York: Nova Science Publishers. pp. 1–47. ISBN 978-1-60456-581-2. Archived from the original on 25 October 2014. Retrieved 15 August 2013.
  68. ^ Sharma A, Heinze SD, Wu Y, Kohlbrenner T, Morilla I, Brunner C, et al. (May 2017). "Male sex in houseflies is determined by Mdmd, a paralog of the generic splice factor gene CWC22" (PDF). Science. 356 (6338): 642–645. Bibcode:2017Sci...356..642S. doi:10.1126/science.aam5498. PMID 28495751. S2CID 206656153.
  69. ^ Verhulst EC, van de Zande L, Beukeboom LW (August 2010). "Insect sex determination: it all evolves around transformer" (PDF). Current Opinion in Genetics & Development. 20 (4): 376–383. doi:10.1016/j.gde.2010.05.001. PMID 20570131.
  70. ^ Hediger M, Henggeler C, Meier N, Perez R, Saccone G, Bopp D (January 2010). "Molecular characterization of the key switch F provides a basis for understanding the rapid divergence of the sex-determining pathway in the housefly". Genetics. 184 (1): 155–170. doi:10.1534/genetics.109.109249. PMC 2815913. PMID 19841093.
  71. ^ Nayduch D, Burrus RG (2017). "Flourishing in Filth: House Fly–Microbe Interactions Across Life History". Annals of the Entomological Society of America. 110: 6–18. doi:10.1093/aesa/saw083.
  72. ^ Hanser K (26 June 2009). "Insect Power". Smithsonian National Air and Space Museum. Retrieved 7 December 2017.
  73. ^ Huber SA, Franz MO, Bülthoff HH (1999). "On robots and flies: Modeling the visual orientation behavior of flies" (PDF). Robotics and Autonomous Systems. 29 (4): 227–242. doi:10.1016/S0921-8890(99)00055-X.
  74. ^ "The etymology of Beelzebul has proceeded in several directions. The variant reading Beelzebub (Syriac translators and Jerome) reflects a long-standing tradition of equating Beelzebul with the Philistine deity of the city of Ekron mentioned in 2 Kgs 1:2, 3, 6, 16. Baalzebub (Heb ba˓al zĕbûb) seems to mean "lord of flies" (HALAT, 250, but cf. LXXB baal muian theon akkarōn, "Baal-Fly, god of Akkaron"; Ant 9:2, 1 theon muian).", Lewis, "Beelzebul", in Freedman, D.N. (1996). Vol. 1: The Anchor Yale Bible Dictionary (639). New York: Doubleday.
  75. ^ Parker R (2011). On Greek Religion. Cornell University Press. pp. 105–106. ISBN 978-0801477355.
  76. ^ Wyman LC (1983). "Navajo Ceremonial System" (PDF). Handbook of North American Indians. Humboldt State University. p. 539. Nearly every element in the universe may be thus personalized, and even the least of these such as tiny Chipmunk and those little insect helpers and mentors of deity and man in the myths, Big Fly (Dǫ'soh) and Ripener (Corn Beetle) Girl ('Anilt'ánii 'At'ééd) (Wyman and Bailey 1964:29–30, 51, 137–144), are as necessary for the harmonious balance of the universe as is the great Sun.
  77. ^ Wyman LC, Bailey FL (1964). Navaho Indian Ethnoentomology. Anthropology Series. University of New Mexico Press. ISBN 9780826301109. LCCN 64024356.
  78. ^ "Native American Fly Mythology". Native Languages of the Americas. Retrieved 8 December 2017.
  79. ^ Miner P (2011). "Blake's Swedenborgian Fly". Notes and Queries. 58 (4): 530. doi:10.1093/notesj/gjr180.
  80. ^ Priddy A (2009). Bloom's How to Write about Emily Dickinson. Infobase Publishing. p. 169. ISBN 978-1-4381-1240-4.
  81. ^ Golding W (2013). Lord of the Flies: Text, Criticism, Giossary and Notes. Al Manhal. p. 8. ISBN 9796500118451.
  82. ^ Henschel JR (2015). Toktok Talkie: Ancient Mariner to Zophosis Moralesi. Wordweaver Publishing House. p. 6. ISBN 978-99945-82-04-4. Ogden Nash was neither the first nor the last person to puzzle about the value of the fly, not only because flies are frequently considered a nuisance, but also because biodiversity in general is a puzzle. Nash's question can also be interpreted as going to the heart of conservation

External links

 
Wikimedia Commons has media related to Musca domestica.
 
Wikispecies has information related to Musca domestica.

December 29, 2022
housefly, confused, with, horse, housefly, musca, domestica, suborder, cyclorrhapha, believed, have, evolved, cenozoic, possibly, middle, east, spread, over, world, commensal, humans, most, common, species, found, houses, adults, gray, black, with, four, dark,. Not to be confused with horse fly The housefly Musca domestica is a fly of the suborder Cyclorrhapha It is believed to have evolved in the Cenozoic Era possibly in the Middle East and has spread all over the world as a commensal of humans It is the most common fly species found in houses Adults are gray to black with four dark longitudinal lines on the thorax slightly hairy bodies and a single pair of membranous wings They have red eyes set farther apart in the slightly larger female HouseflyScientific classificationKingdom AnimaliaPhylum ArthropodaClass InsectaOrder DipteraFamily MuscidaeGenus MuscaSpecies M domesticaBinomial nameMusca domesticaLinnaeus 1758SubspeciesM d calleva Walker 1849 M d domestica Linnaeus 1758The female housefly usually mates only once and stores the sperm for later use She lays batches of about 100 eggs on decaying organic matter such as food waste carrion or feces These soon hatch into legless white larvae known as maggots After two to five days of development these metamorphose into reddish brown pupae about 8 millimetres 3 8 inch long Adult flies normally live for two to four weeks but can hibernate during the winter The adults feed on a variety of liquid or semi liquid substances as well as solid materials which have been softened by their saliva They can carry pathogens on their bodies and in their feces contaminate food and contribute to the transfer of food borne illnesses while in numbers they can be physically annoying For these reasons they are considered pests Houseflies have been used in the laboratory in research into aging and sex determination Houseflies appear in literature from Ancient Greek myth and Aesop s The Impertinent Insect onwards Authors sometimes choose the housefly to speak of the brevity of life as in William Blake s 1794 poem The Fly which deals with mortality subject to uncontrollable circumstances 1 Contents 1 Description 2 Distribution 3 Evolution and taxonomy 4 Life cycle 5 Ecology 6 Relationship with humans 6 1 As a disease vector 6 2 In warfare 6 3 In waste management 6 4 Control 6 5 In science 6 6 In literature 7 References 8 External linksDescription Head of a female housefly with two large compound eyes and three ocelli Adult houseflies are usually 6 to 7 mm 1 4 to 9 32 in long with a wingspan of 13 to 15 mm 1 2 to 19 32 in The females tend to be larger winged than males while males have relatively longer legs Females tend to vary more in size 2 and there is geographic variation with larger individuals in higher latitudes 3 The head is strongly convex in front and flat and slightly conical behind The pair of large compound eyes almost touch in the male but are more widely separated in the female They have three simple eyes ocelli and a pair of short antennae 4 Houseflies process visual information around seven times more quickly than humans enabling them to identify and avoid attempts to catch or swat them since they effectively see the human s movements in slow motion with their higher flicker fusion rate 5 6 Housefly mouthparts showing the pseudotracheae semitubular grooves dark parallel bands used for sucking up liquid food The mouthparts are specially adapted for a liquid diet the mandibles and maxillae are reduced and not functional and the other mouthparts form a retractable flexible proboscis with an enlarged fleshy tip the labellum This is a sponge like structure that is characterized by many grooves called pseudotracheae which suck up fluids by capillary action 7 8 It is also used to distribute saliva to soften solid foods or collect loose particles 9 Houseflies have chemoreceptors organs of taste on the tarsi of their legs so they can identify foods such as sugars by walking over them 10 Houseflies are often seen cleaning their legs by rubbing them together enabling the chemoreceptors to taste afresh whatever they walk on next 11 At the end of each leg is a pair of claws and below them are two adhesive pads pulvilli enabling the housefly to walk up smooth walls and ceilings using Van der Waals forces The claws help the housefly to unstick the foot for the next step Houseflies walk with a common gait on horizontal and vertical surfaces with three legs in contact with the surface and three in movement On inverted surfaces they alter the gait to keep four feet stuck to the surface 12 Houseflies land on a ceiling by flying straight towards it just before landing they make a half roll and point all six legs at the surface absorbing the shock with the front legs and sticking a moment later with the other four 13 A housefly wing under 250x magnification The thorax is a shade of gray sometimes even black with four dark longitudinal bands of even width on the dorsal surface The whole body is covered with short hairs Like other Diptera houseflies have only one pair of wings what would be the hind pair is reduced to small halteres that aid in flight stability The wings are translucent with a yellowish tinge at their base Characteristically the medial vein M1 2 or fourth long vein shows a sharp upward bend Each wing has a lobe at the back the calypter covering the haltere The abdomen is gray or yellowish with a dark stripe and irregular dark markings at the side It has 10 segments which bear spiracles for respiration In males the ninth segment bears a pair of claspers for copulation and the 10th bears anal cerci in both sexes 4 14 Micrograph of the tarsus of the leg showing claws and bristles including the central one between the two pulvilli known as the empodium A variety of species around the world appear similar to the housefly such as the lesser house fly Fannia canicularis the stable fly Stomoxys calcitrans 14 and other members of the genus Musca such as M vetustissima the Australian bush fly and several closely related taxa that include M primitiva M shanghaiensis M violacea and M varensis 15 161 167 The systematic identification of species may require the use of region specific taxonomic keys and can require dissections of the male reproductive parts for confirmation 16 17 DistributionThe housefly is probably the insect with the widest distribution in the world it is largely associated with humans and has accompanied them around the globe It is present in the Arctic as well as in the tropics where it is abundant It is present in all populated parts of Europe Asia Africa Australasia and the Americas 4 Evolution and taxonomyThough the order of flies Diptera is much older true houseflies are believed to have evolved in the beginning of the Cenozoic Era 18 The housefly s superfamily Muscoidea is most closely related to the Oestroidea blow flies flesh flies and allies and more distantly to the Hippoboscoidea louse flies bat flies and allies They are thought to have originated in the southern Palearctic region particularly the Middle East Because of their close commensal relationship with humans they probably owe their worldwide dispersal to co migration with humans 19 The housefly was first described as Musca domestica in 1758 based on the common European specimens by the Swedish botanist and zoologist Carl Linnaeus in his Systema naturae and continues to be classified under that name 20 A more detailed description was given in 1776 by the Danish entomologist Johan Christian Fabricius in his Genera Insectorum 4 Nematocera Other Nematocera crane flies mosquitoes etc Brachycera Tabanomorpha horse flies etc Muscomorpha Other Muscomorpha robber flies etc Syrphoidea hoverflies Schizophora Acalyptratae marsh flies etc Calyptratae Hippoboscoidea louse flies bat flies etc Oestroidea blow flies flesh flies etc Muscoidea Fanniidae Scathophagidae AnthomyiidaeMuscidae Azeliinae and alliesMuscinae StomoxyiniPolietinaMorelliaMusca Cladogram showing higher level classification 21 22 23 and position of Musca within the family Muscidae based on Couri and Carvalho 2003 24 Life cycle Houseflies mating Each female housefly can lay up to 500 eggs in her lifetime in several batches of about 75 to 150 The eggs are white and are about 1 2 mm 1 16 in in length and they are deposited by the fly in a suitable place usually dead and decaying organic matter such as food waste carrion or feces Within a day larvae maggots hatch from the eggs they live and feed where they were laid They are pale whitish 3 to 9 mm 1 8 to 11 32 in long thinner at the mouth end and legless 14 Larval development takes from two weeks under optimal conditions to 30 days or more in cooler conditions The larvae avoid light the interiors of heaps of animal manure provide nutrient rich sites and ideal growing conditions warm moist and dark 14 Housefly larva and adult by Amedeo John Engel Terzi 1872 1956 At the end of their third instar the larvae crawl to a dry cool place and transform into pupae The pupal case is cylindrical with rounded ends about 1 2 mm 1 16 in long and formed from the last shed larval skin It is yellowish at first darkening through red and brown to nearly black as it ages Pupae complete their development in two to six days at 35 C 95 F but may take 20 days or more at 14 C 57 F 14 When metamorphosis is complete the adult housefly emerges from the pupa To do this it uses the ptilinum an eversible pouch on its head to tear open the end of the pupal case The adult housefly lives from two weeks to one month in the wild or longer in benign laboratory conditions Having emerged from the pupa it ceases to grow a small fly is not necessarily a young fly but is instead the result of getting insufficient food during the larval stage 14 Male houseflies are sexually mature after 16 hours and females after 24 Females produce a pheromone Z 9 tricosene muscalure This cuticular hydrocarbon is not released into the air and males sense it only on contact with females 13 it has found use as in pest control for luring males to fly traps 25 26 The male initiates the mating by bumping into the female in the air or on the ground known as a strike He climbs on to her thorax and if she is receptive a courtship period follows in which the female vibrates her wings and the male strokes her head The male then reverses onto her abdomen and the female pushes her ovipositor into his genital opening copulation with sperm transfer lasts for several minutes Females normally mate only once and then reject further advances from males while males mate multiple times 27 A volatile semiochemical that is deposited by females on their eggs attracts other gravid females and leads to clustered egg deposition 28 The larvae depend on warmth and sufficient moisture to develop generally the warmer the temperature the faster they grow In general fresh swine and chicken manures present the best conditions for the developing larvae reducing the larval period and increasing the size of the pupae Cattle goat and horse manures produce fewer smaller pupae while mature swine manure composted with water content under 30 approached 100 mortality of the larvae Pupae can range from about 8 20 milligrams 0 12 0 31 gr in weight under different conditions 29 The life cycle can be completed in seven to ten days under optimal conditions but may take up to two months in adverse circumstances In temperate regions 12 generations may occur per year and in the tropics and subtropics more than 20 14 Ecology Housefly pupae killed by parasitoid wasp larvae Each pupa has one hole through which a single adult wasp has emerged the wasp larvae fed on the housefly larvae Houseflies play an important ecological role in breaking down and recycling organic matter Adults are mainly carnivorous their primary food is animal matter carrion and feces but they also consume milk sugary substances and rotting fruit and vegetables Solid foods are softened with saliva before being sucked up 8 They can be opportunistic blood feeders 15 189 Houseflies have a mutualistic relationship with the bacterium Klebsiella oxytoca which can live on the surface of housefly eggs and deter fungi which compete with the housefly larvae for nutrients 30 Adult houseflies are diurnal and rest at night If inside a building after dark they tend to congregate on ceilings beams and overhead wires while out of doors they crawl into foliage or long grass or rest in shrubs and trees or on wires 14 In cooler climates some houseflies hibernate in winter choosing to do so in cracks and crevices gaps in woodwork and the folds of curtains They arouse in the spring when the weather warms up and search out a place to lay their eggs 31 Houseflies have many predators including birds reptiles amphibians various insects and spiders The eggs larvae and pupae have many species of stage specific parasites and parasitoids Some of the more important are the parasitic wasps Muscidifurax uniraptor and Spalangia cameroni these lay their eggs in the housefly larvae tissue and their offspring complete their development before the adult houseflies can emerge from the pupae 14 Hister beetles feed on housefly larvae in manure heaps and the predatory mite Macrocheles muscae domesticae consumes housefly eggs each mite eating 20 eggs per day 32 Housefly killed by the pathogenic fungus Entomophthora muscae Houseflies sometimes carry phoretic nonparasitic passengers including mites such as Macrocheles muscaedomesticae 33 and the pseudoscorpion Lamprochernes chyzeri 34 The pathogenic fungus Entomophthora muscae causes a fatal disease in houseflies After infection the fungal hyphae grow throughout the body killing the housefly in about five days Infected houseflies have been known to seek high temperatures that could suppress the growth of the fungus Affected females tend to be more attractive to males but the fungus host interactions have not been fully understood 35 The housefly also acts as the alternative host to the parasitic nematode Habronema muscae that attacks horses 36 A virus that causes enlargement of the salivary glands salivary gland hypertrophy virus SGHV is spread among houseflies through contact with food and infected female houseflies become sterile 37 Relationship with humansHouseflies are a nuisance disturbing people while at leisure and at work but they are disliked principally because of their habits of contaminating foodstuffs They alternate between breeding and feeding in dirty places with feeding on human foods during which process they soften the food with saliva and deposit their feces creating a health hazard 38 However housefly larvae are as nutritious as fish meal and could be used to convert waste to insect based animal feed for farmed fish and livestock 39 Housefly larvae have been used in traditional cures since the Ming period in China 1386 AD for a range of medical conditions and have been considered as a useful source of chitosan with antioxidant properties and possibly other proteins and polysaccharides of medical value 40 Houseflies have been used in art and artifacts in many cultures In 16th and 17th century European vanitas paintings houseflies sometimes occur as memento mori They may also be used for other effects as in the Flemish painting the Master of Frankfurt 1496 Housefly amulets were popular in ancient Egypt 41 42 As a disease vector Housefly lapping up food from a plate Houseflies can fly for several kilometers from their breeding places 43 carrying a wide variety of organisms on their hairs mouthparts vomitus and feces Parasites carried include cysts of protozoa e g Entamoeba histolytica and Giardia lamblia and eggs of helminths e g Ascaris lumbricoides Trichuris trichiura Hymenolepis nana and Enterobius vermicularis 44 Houseflies do not serve as a secondary host or act as a reservoir of any bacteria of medical or veterinary importance but they do serve as mechanical vectors to over 100 pathogens such as those causing typhoid cholera salmonellosis 45 bacillary dysentery 46 tuberculosis anthrax ophthalmia 47 and pyogenic cocci making them especially problematic in hospitals and during outbreaks of certain diseases 44 Disease causing organisms on the outer surface of the housefly may survive for a few hours but those in the crop or gut can be viable for several days 38 Usually too few bacteria are on the external surface of the houseflies except perhaps for Shigella to cause infection so the main routes to human infection are through the housefly s regurgitation and defecation 48 A number of bacterial endosymbionts have however been detected in sequence based identification from whole genome sequences extracted from flies the greatest numbers being detected in the abdomen 49 In the early 20th century Canadian public health workers believed that the control of houseflies was important in controlling the spread of tuberculosis A swat that fly contest was held for children in Montreal in 1912 50 Houseflies were targeted in 1916 when a polio epidemic broke out in the eastern United States The belief that housefly control was the key to disease control continued with extensive use of insecticidal spraying well until the mid 1950s declining only after the introduction of Salk s vaccine 51 In China Mao Zedong s Four Pests Campaign between 1958 and 1962 exhorted the people to catch and kill houseflies along with rats mosquitoes and sparrows 52 In warfare Further information Entomological warfare Philadelphia Department of Health poster warning the public of housefly hazards c 1942 During the Second World War the Japanese worked on entomological warfare techniques under Shirō Ishii Japanese Yagi bombs developed at Pingfan consisted of two compartments one with houseflies and another with a bacterial slurry that coated the houseflies prior to release Vibrio cholerae which causes cholera was the bacterium of choice and was used in China in Baoshan in 1942 and in northern Shandong in 1943 Baoshan had been used by the Allies and bombing produced epidemics that killed 60 000 people in the initial stages reaching a radius of 200 kilometres 120 mi which finally took a toll of 200 000 victims The Shandong attack killed 210 000 the occupying Japanese troops had been vaccinated in advance 53 In waste management The ability of housefly larvae to feed and develop in a wide range of decaying organic matter is important for recycling of nutrients in nature This could be exploited to combat ever increasing amounts of waste 54 Housefly larvae can be mass reared in a controlled manner in animal manure reducing the bulk of waste and minimizing environmental risks of its disposal 55 56 Harvested maggots may be used as feed for animal nutrition 56 57 Control Detail of a 1742 painting by Frans van der Mijn that uses a housefly in a Renaissance allegory of touch theme Houseflies can be controlled at least to some extent by physical chemical or biological means Physical controls include screening with small mesh or the use of vertical strips of plastic or strings of beads in doorways to prevent entry of houseflies into buildings Fans to create air movement or air barriers in doorways can deter houseflies from entering and food premises often use fly killing devices sticky fly papers hanging from the ceiling are effective 48 but electric bug zappers should not be used directly above food handling areas because of scattering of contaminated insect parts 58 Another approach is the elimination as far as possible of potential breeding sites Keeping garbage in lidded containers and collecting it regularly and frequently prevents any eggs laid from developing into adults Unhygienic rubbish tips are a prime housefly breeding site but if garbage is covered by a layer of soil preferably daily this can be avoided 48 Insecticides can be used Larvicides kill the developing larvae but large quantities may need to be used to reach areas below the surface Aerosols can be used in buildings to zap houseflies but outside applications are only temporarily effective Residual sprays on walls or resting sites have a longer lasting effect 48 Many strains of housefly have become immune to the most commonly used insecticides 59 60 Resistance to carbamates and organophosphates is conferred by variation in acetylcholinesterase genes 61 M domestica has achieved a high degree of resistance Resistance monitoring is vital to avoid continued use of ineffective a i s such as found in the notably severe example of Freeman et al 2019 in Kansas and Maryland USA 62 Several means of biological pest control have been investigated These include the introduction of another species the black soldier fly Hermetia illucens whose larvae compete with those of the housefly for resources 63 The introduction of dung beetles to churn up the surface of a manure heap and render it unsuitable for breeding is another approach 63 Augmentative biological control by releasing parasitoids can be used but houseflies breed so fast that the natural enemies are unable to keep up 64 In science William Blake s illustration of The Fly in Songs of Innocence and of Experience 1794 The ease of culturing houseflies and the relative ease of handling them when compared to the fruit fly Drosophila have made them useful as model organism for use in laboratories The American entomologist Vincent Dethier in his humorous To Know A Fly 1962 pointed out that as a laboratory animal houseflies did not trouble anyone sensitive to animal cruelty Houseflies have a small number of chromosomes haploid 6 or diploid 12 15 96 Because the somatic tissue of the housefly consists of long lived postmitotic cells it can be used as an informative model system for understanding cumulative age related cellular alterations Oxidative DNA damage 8 hydroxydeoxyguanosine in houseflies was found in one study to increase with age and reduce life expectancy supporting the hypothesis that oxidative molecular damage is a causal factor in senescence aging 65 66 67 The housefly is an object of biological research partly for its variable sex determination mechanism Although a wide variety of sex determination mechanisms exists in nature e g male and female heterogamy haplodiploidy environmental factors the way sex is determined is usually fixed within a species The housefly is however thought to exhibit multiple mechanisms for sex determination such as male heterogamy like most insects and mammals female heterogamy like birds and maternal control over offspring sex This is because a male determining gene Mdmd can be found on most or all housefly chromosomes 68 Sexual differentiation is controlled as in other insects by an ancient developmental switch doublesex which is regulated by the transformer protein in many different insects 69 Mdmd causes male development by negatively regulating transformer There is also a female determining allele of transformer that is not sensitive to the negative regulation of Mdmd 70 The antimicrobial peptides produced by housefly maggots are of pharmacological interest 71 In the 1970s the aircraft modeler Frank Ehling constructed miniature balsa wood aircraft powered by live houseflies 72 Studies of tethered houseflies have helped in the understanding of insect vision sensory perception and flight control 73 In literature The Impertinent Insect is a group of five fables sometimes ascribed to Aesop concerning an insect in one version a fly which puffs itself up to seem important In the Biblical fourth plague of Egypt flies represent death and decay while the Philistine god Beelzebub s name may mean lord of the flies 74 In Greek mythology Myiagros was a god who chased away flies during the sacrifices to Zeus and Athena Zeus sent a fly to bite Pegasus causing Bellerophon to fall back to Earth when he attempted to ride the winged steed to Mount Olympus 75 In the traditional Navajo religion Big Fly is an important spirit being 76 77 78 William Blake s 1794 poem The Fly part of his collection Songs of Experience deals with the insect s mortality subject to uncontrollable circumstances just like humans 79 Emily Dickinson s 1855 poem I Heard a Fly Buzz When I Died speaks of flies in the context of death 80 In William Golding s 1954 novel Lord of the Flies the fly is however a symbol of the children involved 81 Ogden Nash s humorous two line 1942 poem God in His wisdom made the fly And then forgot to tell us why indicates the debate about the value of biodiversity given that even those considered by humans as pests have their place in the world s ecosystems 82 References Appendix C The State Emblem of India Prohibition of Improper Use Act 2005 Righteous Republic Harvard University Press p 257 2012 doi 10 4159 harvard 9780674067288 c9 ISBN 978 0 674 06728 8 Bryant EH September 1977 Morphometric adaptation of the housefly Musca domestica L in the United States Evolution International Journal of Organic Evolution 31 3 580 596 doi 10 1111 j 1558 5646 1977 tb01046 x PMID 28563484 S2CID 42268993 Alves SM Belo M August 2002 Morphometric variations in the housefly Musca domestica L with latitude Genetica 115 3 243 251 doi 10 1023 a 1020685727460 PMID 12440563 S2CID 230309 a b c d Hewitt CG 2011 The House Fly Musca Domestica Linn Its Structure Habits Development Relation to Disease and Control Cambridge University Press pp 5 6 ISBN 978 0 521 23299 9 Johnston I 15 September 2013 Q Why is it so hard to swat a housefly A It sees you coming in slow motion The Independent Retrieved 4 December 2017 Healy K McNally L Ruxton GD Cooper N Jackson AL October 2013 Metabolic rate and body size are linked with perception of temporal information Animal Behaviour 86 4 685 696 doi 10 1016 j anbehav 2013 06 018 PMC 3791410 PMID 24109147 Gullan PJ Cranston PS 2010 The Insects An Outline of Entomology 4th ed Wiley pp 41 519 ISBN 978 1 118 84615 5 a b Mehlhorn H 2001 Encyclopedic Reference of Parasitology Biology Structure Function Springer Science amp Business Media p 310 ISBN 978 3 540 66819 0 Dessi G 8 January 2017 Morphology and anatomy of adults Mouthparts Flies Retrieved 27 September 2017 Deonier CC Richardson CH 1935 The Tarsal Chemoreceptor Response of the Housefly Musca Domestica L to Sucrose and Levulose Annals of the Entomological Society of America 28 4 467 474 doi 10 1093 aesa 28 4 467 Ray CC 17 December 2002 Q amp A Gleeful Flies The New York Times Retrieved 4 December 2017 Gorb SN 2005 Uncovering Insect Stickiness Structure and Properties of Hairy Attachment Devices American Entomologist 51 1 31 35 doi 10 1093 ae 51 1 31 a b Dahlem GA 2009 House Fly Musca domestica In Resh VH Carde RT eds Encyclopedia of Insects 2nd ed Elsevier pp 469 470 a b c d e f g h i Sanchez Arroyo H Capinera JL 20 April 2017 House fly Musca domestica Featured Creatures Retrieved 20 September 2017 a b c West LS 1951 The Housefly Its natural history medical importance and control PDF New York Comstock Publishing Company Paterson HE 2009 The Musca domestica complex in Sri Lanka Journal of Entomology Series B Taxonomy 43 2 247 259 doi 10 1111 j 1365 3113 1975 tb00134 x Tumrasvin W Shinonaga S 1977 Report of Species Belonging to the Genus Musca Linne Including the Taxonomic Key Diptera Muscidae PDF Bull Tokyo Med Dent Univ 24 209 218 Wiegmann BM Yeates DK Thorne JL Kishino H December 2003 Time flies a new molecular time scale for brachyceran fly evolution without a clock Systematic Biology 52 6 745 756 doi 10 1093 sysbio 52 6 745 PMID 14668115 Marquez JG Krafsur ES July 2002 Gene flow among geographically diverse housefly populations Musca domestica L a worldwide survey of mitochondrial diversity The Journal of Heredity 93 4 254 259 doi 10 1093 jhered 93 4 254 PMID 12407211 Pont AC 1981 The Linnaean species of the families Fanniidae Anthomyiidae and Muscidae Insecta Diptera Biological Journal of the Linnean Society 15 2 165 175 doi 10 1111 j 1095 8312 1981 tb00756 x Wiegmann BM Trautwein MD Winkler IS Barr NB Kim JW Lambkin C et al April 2011 Episodic radiations in the fly tree of life Proceedings of the National Academy of Sciences of the United States of America 108 14 5690 5695 Bibcode 2011PNAS 108 5690W doi 10 1073 pnas 1012675108 PMC 3078341 PMID 21402926 Yeates DK Meier R Wiegmann B Phylogeny of True Flies Diptera A 250 Million Year Old Success Story in Terrestrial Diversification Flytree Retrieved 24 May 2016 FLYTREE Illinois Natural History Survey Retrieved 22 July 2016 Couri MS Carvalho CJ May 2003 Systematic relations among Philornis Meinert Passeromyia Rodhain amp Villeneuve and allied genera Diptera Muscidae Brazilian Journal of Biology Revista Brasleira de Biologia 63 2 223 232 doi 10 1590 S1519 69842003000200007 PMID 14509844 Thom C Gilley DC Hooper J Esch HE September 2007 The scent of the waggle dance PLOS Biology 5 9 e228 doi 10 1371 journal pbio 0050228 PMC 1994260 PMID 17713987 Z 9 Tricosene 103201 Fact Sheet PDF United States Environmental Protection Agency Retrieved 8 December 2017 Murvosh CM Fye RL LaBrecque GC 1964 Studies on the mating behavior of the house fly Musca domestica L Ohio Journal of Science 64 4 264 271 hdl 1811 5017 Jiang Y Lei C Niu C Fang Y Xiao C Zhang Z October 2002 Semiochemicals from ovaries of gravid females attract ovipositing female houseflies Musca domestica Journal of Insect Physiology 48 10 945 950 doi 10 1016 s0022 1910 02 00162 2 PMID 12770041 Larrain P Salas C Salas F 2008 House fly Musca domestica L Diptera Muscidae development in different types of manure Desarrollo de la Mosca Domestica Musca domestica L Diptera Muscidae en Distintos Tipos de Estiercol Chilean Journal of Agricultural Research 68 2 192 197 doi 10 4067 S0718 58392008000200009 ISSN 0718 5839 Lam K Thu K Tsang M Moore M Gries G September 2009 Bacteria on housefly eggs Musca domestica suppress fungal growth in chicken manure through nutrient depletion or antifungal metabolites Die Naturwissenschaften 96 9 1127 1132 Bibcode 2009NW 96 1127L doi 10 1007 s00114 009 0574 1 PMID 19636523 S2CID 187752 Where do flies go in winter BBC Earth 10 February 2015 Retrieved 23 September 2017 House flies Cornell University Department of Entomology 2017 Retrieved 23 September 2017 Ho TM November 1990 Phoretic association between Macrocheles muscaedomesticae Acari Macrochelidae and flies inhabiting poultry manure in Peninsular Malaysia Experimental amp Applied Acarology 10 1 61 68 doi 10 1007 BF01193974 PMID 2279455 S2CID 25307344 Christophoryova J Stloukal E Stloukalova V 2011 First record of phoresy of pseudoscorpion Lamprochernes chyszeri in Slovakia Pseudoscorpiones Chernetidae PDF Folia Faunistica Slovaca 16 3 139 142 Roy HE Steinkraus DC Eilenberg J Hajek AE Pell JK 2006 Bizarre interactions and endgames entomopathogenic fungi and their arthropod hosts Annual Review of Entomology 51 331 357 doi 10 1146 annurev ento 51 110104 150941 PMID 16332215 Hewitt CG 2011 The House Fly Musca DomesticaLinn Its Structure Habits Development Relation to Disease and Control Cambridge University Press pp 181 184 ISBN 978 0 521 23299 9 Prompiboon P Lietze VU Denton JS Geden CJ Steenberg T Boucias DG February 2010 Musca domestica salivary gland hypertrophy virus a globally distributed insect virus that infects and sterilizes female houseflies Applied and Environmental Microbiology 76 4 994 998 Bibcode 2010ApEnM 76 994P doi 10 1128 AEM 02424 09 PMC 2820963 PMID 20023109 a b Houseflies PDF World Health Organization Retrieved 25 September 2017 Hussein M Pillai VV Goddard JM Park HG Kothapalli KS Ross DA et al 2017 Sustainable production of housefly Musca domestica larvae as a protein rich feed ingredient by utilizing cattle manure PLOS ONE 12 2 e0171708 Bibcode 2017PLoSO 1271708H doi 10 1371 journal pone 0171708 PMC 5295707 PMID 28170420 Ai H Wang F Xia Y Chen X Lei C May 2012 Antioxidant antifungal and antiviral activities of chitosan from the larvae of housefly Musca domestica L Food Chemistry 132 1 493 498 doi 10 1016 j foodchem 2011 11 033 PMID 26434321 Connor S 2006 Fly Reaktion Books pp 20 27 ISBN 978 1861892942 Fly Pendants and Cylindrical and Spherical Beads ca 1539 1292 B C E Gold lapis lazuli Length 9 11 16 in 24 6 cm Brooklyn Museum Charles Edwin Wilbour Fund 08 480 198 Retrieved 8 December 2017 Nazni WA Luke H Wan Rozita WM Abdullah AG Sa diyah I Azahari AH et al June 2005 Determination of the flight range and dispersal of the house fly Musca domestica L using mark release recapture technique Tropical Biomedicine 22 1 53 61 PMID 16880754 a b Szalanski AL Owens CB McKay T Steelman CD September 2004 Detection of Campylobacter and Escherichia coli O157 H7 from filth flies by polymerase chain reaction Medical and Veterinary Entomology 18 3 241 246 CiteSeerX 10 1 1 472 8821 doi 10 1111 j 0269 283X 2004 00502 x PMID 15347391 S2CID 15788942 Ostrolenk M Welch H May 1942 The House Fly as a Vector of Food Poisoning Organisms in Food Producing Establishments American Journal of Public Health and the Nation s Health 32 5 487 494 doi 10 2105 ajph 32 5 487 PMC 1526899 PMID 18015612 Levine OS Levine MM 1991 Houseflies Musca domestica as mechanical vectors of shigellosis Reviews of Infectious Diseases 13 4 688 696 doi 10 1093 clinids 13 4 688 PMID 1925289 Forster M Klimpel S Sievert K March 2009 The house fly Musca domestica as a potential vector of metazoan parasites caught in a pig pen in Germany Veterinary Parasitology 160 1 2 163 167 doi 10 1016 j vetpar 2008 10 087 PMID 19081196 a b c d Service M 2008 Medical Entomology for Students Cambridge University Press pp 140 141 ISBN 978 0 521 70928 6 Junqueira AC Ratan A Acerbi E Drautz Moses DI Premkrishnan BN Costea PI et al November 2017 The microbiomes of blowflies and houseflies as bacterial transmission reservoirs Scientific Reports 7 1 16324 Bibcode 2017NatSR 716324J doi 10 1038 s41598 017 16353 x PMC 5701178 PMID 29176730 Minnett V Poutanen M 2007 Swatting flies for health Children and tuberculosis in early twentieth century Montreal PDF Urban History Review 36 1 32 44 doi 10 7202 1015818ar Cirillo VJ 2016 I am the baby killer House flies and the spread of polio American Entomologist 62 2 83 doi 10 1093 ae tmw039 Eliminate the Four Pests chineseposters net 1958 Retrieved 7 December 2017 Lockwood JA 2012 Insects as weapons of war terror and torture Annual Review of Entomology 57 205 227 doi 10 1146 annurev ento 120710 100618 PMID 21910635 Miller BF Teotia JS Thatcher TO March 1974 Digestion of poultry manure by Musca domestica British Poultry Science 15 2 231 234 doi 10 1080 00071667408416100 PMID 4447887 Cickova H Pastor B Kozanek M Martinez Sanchez A Rojo S Takac P 2012 Biodegradation of pig manure by the housefly Musca domestica a viable ecological strategy for pig manure management PLOS ONE 7 3 e32798 Bibcode 2012PLoSO 732798C doi 10 1371 journal pone 0032798 PMC 3303781 PMID 22431982 a b Zhu FX Wang WP Hong CL Feng MG Xue ZY Chen XY et al July 2012 Rapid production of maggots as feed supplement and organic fertilizer by the two stage composting of pig manure Bioresource Technology 116 485 491 doi 10 1016 j biortech 2012 04 008 PMID 22541952 Hwangbo J Hong EC Jang A Kang HK Oh JS Kim BW Park BS July 2009 Utilization of house fly maggots a feed supplement in the production of broiler chickens Journal of Environmental Biology 30 4 609 614 PMID 20120505 Insect Control Devices Design and Installation FDA Food Code 2017 U S Food and Drug Administration 2017 Retrieved 18 June 2019 Georghiou GP Hawley MK 1971 Insecticide resistance resulting from sequential selection of houseflies in the field by organophosphorus compounds Bulletin of the World Health Organization 45 1 43 51 PMC 2427889 PMID 5316852 Keiding J 1975 Problems of housefly Musca domestica control due to multiresistance to insesticides Journal of Hygiene Epidemiology Microbiology and Immunology 19 3 340 355 PMID 52667 Walsh SB Dolden TA Moores GD Kristensen M Lewis T Devonshire AL Williamson MS October 2001 Identification and characterization of mutations in housefly Musca domestica acetylcholinesterase involved in insecticide resistance The Biochemical Journal Portland Press Ltd 359 Pt 1 175 181 doi 10 1042 bj3590175 PMC 1222133 PMID 11563981 Gerry Alec C 15 October 2020 Owen Jeb ed Review of Methods to Monitor House Fly Musca domestica Abundance and Activity Journal of Economic Entomology Entomological Society of America OUP 113 6 2571 2580 doi 10 1093 jee toaa229 ISSN 0022 0493 PMID 33057651 a b DeBach P Rosen D 1991 Biological Control by Natural Enemies CUP Archive p 348 ISBN 978 0 521 39191 7 Capinera JL 2008 Encyclopedia of Entomology Springer Science amp Business Media p 1880 ISBN 978 1 4020 6242 1 Agarwal S Sohal RS December 1994 DNA oxidative damage and life expectancy in houseflies Proceedings of the National Academy of Sciences of the United States of America 91 25 12332 12335 Bibcode 1994PNAS 9112332A doi 10 1073 pnas 91 25 12332 PMC 45431 PMID 7991627 Holmes GE Bernstein C Bernstein H September 1992 Oxidative and other DNA damages as the basis of aging a review Mutation Research 275 3 6 305 315 doi 10 1016 0921 8734 92 90034 M PMID 1383772 Bernstein H Payne C Bernstein C Garewal H Dvorak K 2008 Cancer and Aging as Consequences of Unrepaired DNA Damage In Kimura H Suzuki A eds New Research on DNA Damages New York Nova Science Publishers pp 1 47 ISBN 978 1 60456 581 2 Archived from the original on 25 October 2014 Retrieved 15 August 2013 Sharma A Heinze SD Wu Y Kohlbrenner T Morilla I Brunner C et al May 2017 Male sex in houseflies is determined by Mdmd a paralog of the generic splice factor gene CWC22 PDF Science 356 6338 642 645 Bibcode 2017Sci 356 642S doi 10 1126 science aam5498 PMID 28495751 S2CID 206656153 Verhulst EC van de Zande L Beukeboom LW August 2010 Insect sex determination it all evolves around transformer PDF Current Opinion in Genetics amp Development 20 4 376 383 doi 10 1016 j gde 2010 05 001 PMID 20570131 Hediger M Henggeler C Meier N Perez R Saccone G Bopp D January 2010 Molecular characterization of the key switch F provides a basis for understanding the rapid divergence of the sex determining pathway in the housefly Genetics 184 1 155 170 doi 10 1534 genetics 109 109249 PMC 2815913 PMID 19841093 Nayduch D Burrus RG 2017 Flourishing in Filth House Fly Microbe Interactions Across Life History Annals of the Entomological Society of America 110 6 18 doi 10 1093 aesa saw083 Hanser K 26 June 2009 Insect Power Smithsonian National Air and Space Museum Retrieved 7 December 2017 Huber SA Franz MO Bulthoff HH 1999 On robots and flies Modeling the visual orientation behavior of flies PDF Robotics and Autonomous Systems 29 4 227 242 doi 10 1016 S0921 8890 99 00055 X The etymology of Beelzebul has proceeded in several directions The variant reading Beelzebub Syriac translators and Jerome reflects a long standing tradition of equating Beelzebul with the Philistine deity of the city of Ekron mentioned in 2 Kgs 1 2 3 6 16 Baalzebub Heb ba al zĕbub seems to mean lord of flies HALAT 250 but cf LXXB baal muian theon akkarōn Baal Fly god of Akkaron Ant 9 2 1 theon muian Lewis Beelzebul in Freedman D N 1996 Vol 1 The Anchor Yale Bible Dictionary 639 New York Doubleday Parker R 2011 On Greek Religion Cornell University Press pp 105 106 ISBN 978 0801477355 Wyman LC 1983 Navajo Ceremonial System PDF Handbook of North American Indians Humboldt State University p 539 Nearly every element in the universe may be thus personalized and even the least of these such as tiny Chipmunk and those little insect helpers and mentors of deity and man in the myths Big Fly Dǫ soh and Ripener Corn Beetle Girl Anilt anii At eed Wyman and Bailey 1964 29 30 51 137 144 are as necessary for the harmonious balance of the universe as is the great Sun Wyman LC Bailey FL 1964 Navaho Indian Ethnoentomology Anthropology Series University of New Mexico Press ISBN 9780826301109 LCCN 64024356 Native American Fly Mythology Native Languages of the Americas Retrieved 8 December 2017 Miner P 2011 Blake s Swedenborgian Fly Notes and Queries 58 4 530 doi 10 1093 notesj gjr180 Priddy A 2009 Bloom s How to Write about Emily Dickinson Infobase Publishing p 169 ISBN 978 1 4381 1240 4 Golding W 2013 Lord of the Flies Text Criticism Giossary and Notes Al Manhal p 8 ISBN 9796500118451 Henschel JR 2015 Toktok Talkie Ancient Mariner to Zophosis Moralesi Wordweaver Publishing House p 6 ISBN 978 99945 82 04 4 Ogden Nash was neither the first nor the last person to puzzle about the value of the fly not only because flies are frequently considered a nuisance but also because biodiversity in general is a puzzle Nash s question can also be interpreted as going to the heart of conservationExternal links Wikimedia Commons has media related to Musca domestica Wikispecies has information related to Musca domestica The house fly Musca domestica Linn its structure habits development relation to disease and control by C Gordon Hewitt 1914 How to control house and stable flies without using pesticides Agriculture Information Bulletin Number 673 House fly on the UF IFAS Featured Creatures Web site The House Fly and How to Suppress It by L O Howard and F C Bishopp U S Department of Agriculture Bulletin No 1408 1928 from Project Gutenberg Retrieved from https en wikipedia org w index php title Housefly amp oldid 1123979631, wikipedia, wiki, book, books, library,

article

, read, download, free, free download, mp3, video, mp4, 3gp, jpg, jpeg, gif, png, picture, music, song, movie, book, game, games.