Fannia scalaris

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Fannia scalaris
Fannia scalaris.jpg
Scientific classification Red Pencil Icon.png
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Diptera
Family: Fanniidae
Genus: Fannia
Species:
F. scalaris
Binomial name
Fannia scalaris
(Fabricius, 1794)
Synonyms

Fannia scalaris, also known as the latrine fly, is a fly species in the Fanniidae family. This species is smaller and more slender than the house fly, Musca domestica , and is similar in appearance to the lesser house fly, Fannia canicularis. [1] [2] The life cycle of this species can be as long as one month. [3] These flies are globally distributed in urban areas as they are drawn to unsanitary environments. F. scalaris is a major cause of myiasis, the infestation of a body cavity by fly maggots. The adults infest bodies that have decomposed, making the species an important part of forensic entomology. The larvae of this fly have adapted protuberances, or feathered appendages, that allow them to survive in such a moist environment. Entomologists continue to research the effects that F. scalaris may have medically, forensically, and on the environment around them.

Contents

Description

Dorsal view of Fannia scalaris Dorsal view of fannia scalaris.jpg
Dorsal view of Fannia scalaris

The larvae of F. scalaris, when full grown, are 6 to 8 mm in length, white or cream colored, and slightly flattened dorsally. [4] They have long tubercles on every segment with the projections of the eighth segment longer than both the seventh and eighth segments put together. [5] The protuberances are feathered due to their preferences for semi-liquid organic matter. They are similar to the hairy maggot blowfly in appearance but smaller in size. During the pupal stage, the puparium is brown in color and the same shape as the larvae. [1]

The adults are black with a silvery-gray coat on the thorax and abdomen. They are 6 to 7 mm long, with clear wings and yellowish calypters. The knob of the haltere is yellow while the stalk is brownish yellow. The dorsal abdomen has a dark median stripe that produces a series of triangular markings with the segmentally arranged transverse bands. The thorax of the adult has three longitudinal stripes. [2] They are darker than F. canicularis. The tibia on the mesothoraic leg has a distinct process, and the coxae have two setae at the apex. [6] The fourth vein on the wing of this species is straight, as compared to it being curved in the house fly. [7] There is a great variance between the sexes of this species, and more is known about the male. For instance; their mid femur does not have blunt spines, the ventral tubercle of the mid tibia is indistinct, and the abdomen has no spots or stripes and is short and broad. [3]

Life history

Fannia scalaris pupal casing Fannia pupal case.jpg
Fannia scalaris pupal casing

The female can lay 100 to 150 eggs in a batch, usually directly on human or animal dung. [3] The common name for this species, the Latrine Fly, comes from the environment it prefers, a very unsanitary, filthy environment, exemplified in the location that they lay their eggs. [2] Their eggs can also be found in decaying vegetable matter, carrion, nests of birds or other insects, or human cadavers. The eggs are laid in such material because they prefer to feed on high nitrogenous material when they hatch. [4] The eggs hatch in as little as 8 hours, but can take up to 48 hours. It takes 5 days for the larvae to pass through all 3 instars, while the pupal stage takes from 7 to 10 days. The life cycle can last from 15 to 30 days depending on the temperature, as the colder the temperature, the longer the lifecycle will last. [8]

Distribution

Fannia scalaris is found worldwide in cosmopolitan areas because of their preferences in developmental environments. [9] This is an outdoor species but can be found indoors in primitive or unsanitary conditions. They are mostly active in the summer months. [10]

Medical and veterinary importance

The main medical concern with this species is that it causes accidental enteric, urinary, auricular, and urogenital myiasis. Myiasis is the infestation of animals or humans, where dipterous fly larvae feed on the host's necrotic or living tissue. This is prevalent in small children and bedridden adults living in unsanitary conditions. [9]

The veterinary concern is the same as the medical. The flies cause the same kind of myiasis in animals as it does in humans. It mainly only affects domesticated companion animals who are paralyzed or helpless. [9]

Forensic importance

Fannia scalaris is usually found on cadavers in exposed gut content or excrement. They are often found on urine-soaked babies’ napkins and wet blankets. [2] This species is also found on highly decomposed bodies that are in containers that do not allow drainage, which can form semi-liquid media. They usually arrive at bodies after the blow flies and flesh flies, when the body is at a greater state of decomposition. [10]

Research

The lateral processes on the larvae are believed to aid in floatation and buoyancy, allowing the larvae to breathe in their preferred semi-liquid media. [8]

One study in Malaysia placed out monkey carcasses and recorded which arthropods came to the carrion. They found that once the remains had reached a high degree of decomposition F. scalaris larvae were found around the remains of the colon and fur, areas of high nitrogen concentration. [11]

An article from Canada had two case studies on people being affected by F. scalaris who were not from an underdeveloped country, like the proceeding study in Malaysia. The patients showed similar symptoms, such as myiasis, and had been passing organisms. This illustrates that F. scalaris causes problems for humans globally, not just in underdeveloped regions, although it may be more prevalent in under developed areas. [12]

Related Research Articles

Piophilidae Family of flies

The Piophilidae are a family of "true flies", in the order Diptera. The so-called cheese flies are the best-known members, but most species of the Piophilidae are scavengers in animal products, carrion, and fungi. They may accordingly be important in forensic entomology and medical entomology. For a fly maggot, the larvae of many species have an unusually well-developed ability to leap when alarmed or when abandoning their larval food to pupate; they accordingly may be known as cheese skippers or other kinds of skippers according to their food source.

Forensic entomology

Forensic entomology is the scientific study of the invasion of the succession pattern of arthropods with their developmental stages of different species found on the decomposed cadavers during legal investigations. It is the application and study of insect and other arthropod biology to criminal matters. It also involves the application of the study of arthropods, including insects, arachnids, centipedes, millipedes, and crustaceans to criminal or legal cases. It is primarily associated with death investigations; however, it may also be used to detect drugs and poisons, determine the location of an incident, and find the presence and time of the infliction of wounds. Forensic entomology can be divided into three subfields: urban, stored-product and medico-legal/medico-criminal entomology.

Myiasis Infestation of parasitic maggots

Myiasis is the parasitic infestation of the body of a live animal by fly larvae (maggots) which grow inside the host while feeding on its tissue. Although flies are most commonly attracted to open wounds and urine- or feces-soaked fur, some species can create an infestation even on unbroken skin and have been known to use moist soil and non-myiatic flies as vector agents for their parasitic larvae.

Histeridae Family of beetles

Histeridae is a family of beetles commonly known as clown beetles or Hister beetles. This very diverse group of beetles contains 3,900 species found worldwide. They can be easily identified by their shortened elytra that leaves two of the seven tergites exposed, and their geniculate (elbowed) antennae with clubbed ends. These predatory feeders are most active at night and will fake death if they feel threatened. This family of beetles will occupy almost any kind of niche throughout the world. Hister beetles have proved useful during forensic investigations to help in time of death estimation. Also, certain species are used in the control of livestock pests that infest dung and to control houseflies. Because they are predacious and will even eat other Hister beetles, they must be isolated when collected.

Lesser house fly Species of fly

The lesser house fly or little house fly, Fannia canicularis, is somewhat smaller than the common housefly. It is best known for its habit of entering buildings and flying in jagged patterns in the middle of a room. It is slender, and the median vein in the wing is straight. Larvae feed on all manner of decaying organic matter, including carrion.

<i>Cynomya mortuorum</i> Species of fly

Cynomya mortuorum belongs to the order Diptera, sometimes referred to as "true flies". In English, the only common name occasionally used is "fly of the dead". It has a bluish-green appearance, similar to other Calliphoridae and is found in multiple geographic locations with a preference for colder regions. Belonging to the family Calliphoridae, it has been shown to have forensically relevant implications due to its appearance on carrion. Current research is being done to determine C. mortuorum's level of importance and usage within forensic entomology.

<i>Cochliomyia</i> Genus of insects

Cochliomyia is a genus in the family Calliphoridae, known as blowflies, in the order Diptera. Cochliomyia is commonly referred to as the New World screwworm flies, as distinct from Old World screwworm flies. Four species are in this genus: C. macellaria, C. hominivorax, C. aldrichi, and C. minima. C. hominivorax is known as the primary screwworm because its larvae produce myiasis and feed on living tissue. This feeding causes deep, pocket-like lesions in the skin, which can be very damaging to the animal host. C. macellaria is known as the secondary screwworm because its larvae produce myiasis, but feed only on necrotic tissue. Both C. hominivorax and C. macellaria thrive in warm, tropical areas.

<i>Megaselia scalaris</i>

The fly Megaselia scalaris is a member of the order Diptera and the family Phoridae, and it is widely distributed in warm regions of the world. The family members are commonly known as the "humpbacked fly", the "coffin fly", and the "scuttle fly". The name "scuttle fly" derives from the jerky, short bursts of running, characteristic to the adult fly. The name "coffin fly" is due to their being found in coffins, digging six feet deep in order to reach buried corpses. It is one of the more common species found within the family Phoridae; more than 370 species have been identified within North America.

Forensic entomological decomposition is how insects decompose and what that means for timing and information in criminal investigations. Medicolegal entomology is a branch of forensic entomology that applies the study of insects to criminal investigations, and is commonly used in death investigations for estimating the post-mortem interval (PMI). One method of obtaining this estimate uses the time and pattern of arthropod colonization. This method will provide an estimation of the period of insect activity, which may or may not correlate exactly with the time of death. While insect successional data may not provide as accurate an estimate during the early stages of decomposition as developmental data, it is applicable for later decompositional stages and can be accurate for periods up to a few years.

<i>Lucilia illustris</i> Species of insect

Lucilia illustris is a member of the fly family Calliphoridae, commonly known as a blow fly. Along with several other species, L. illustris is commonly referred to as a green bottle fly. L. illustris is typically 6–9 mm in length and has a metallic blue-green thorax. The larvae develop in three instars, each with unique developmental properties. The adult fly typically will feed on flowers, but the females need some sort of carrion protein in order to breed and lay eggs.

Entomological evidence is legal evidence in the form of insects or related artifacts and is a field of study in forensic entomology. Such evidence is used particularly in medicolegal and medicocriminal applications due to the consistency of insects and arthropods in detecting decomposition quickly. Insect evidence is customarily used to determine post mortem interval (PMI), but can also be used as evidence of neglect or abuse. It can indicate how long a person was abused/neglected as well as provide important insights into the amount of bodily care given to the neglected or abused person.

<i>Chrysomya albiceps</i> Species of fly

Chrysomya albiceps is a species belonging to the blow fly family, Calliphoridae.

<i>Chrysomya bezziana</i> Species of fly

Chrysomya bezziana, also known as the Old World screwworm fly or screwworm, is an obligate parasite of mammals. Obligate parasitic flies require a host to complete their development. Named to honor the Italian entomologist Mario Bezzi, this fly is widely distributed in Asia, tropical Africa, India, and Papua New Guinea. The adult can be identified as metallic green or blue with a yellow face and the larvae are smooth, lacking any obvious body processes except on the last segment.

<i>Sarcophaga pernix</i> Species of fly

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

Lucilia thatuna belongs to the family Calliphoridae, the species most commonly referred to as the blowflies, and the genus Lucilia. Along with several other species of Lucilia, L. thatuna is commonly referred to as a green bottle fly. L. thatuna is very scarce and not much is known about this particular fly. It has been noted to reside in mountainous regions of the northwestern United States.

<i>Cynomya cadaverina</i> Species of fly

Cynomya cadaverina, also known as the shiny blue bottle fly, is a member of the family Calliphoridae, which includes blow flies as well as bottle flies. In recent years, this family has become a forensically important facet in many medicocriminal investigations in the growing field of forensic entomology. C. cadaverina is specifically important in determining a post-mortem interval, as well as other important factors.

<i>Muscina</i> Genus of flies

Muscina is a genus of flies that belongs to the family Muscidae, currently consisting of 27 species. They are worldwide in distribution and are frequently found in livestock facilities and outside restrooms. The most common species are M. stabulans, M. levida, and M. prolapsa. Muscina flies commonly breed in manure and defecate on food, which has been linked to the spread of some disease and illnesses. The occurrence of Muscina larvae on dead bodies has led to their regular use in forensic investigations, as they may be used to estimate the time of death. Research have shown the prevalence of certain species of Muscina flies as vectors of diseases such as poliomyelitis.

<i>Calliphora livida</i>

Calliphora livida is a member of the family Calliphoridae, the blow flies. This large family includes the genus Calliphora, the "blue bottle flies". This genus is important in the field of forensic entomology because of its value in post-mortem interval estimation.

<i>Creophilus maxillosus</i> Species of beetle

Creophilus maxillosus, the hairy rove beetle, is a species of rove beetle

Parasitic flies of domestic animals

Many species of flies of the two-winged type, Order Diptera, such as mosquitoes, horse-flies, blow-flies and warble-flies, cause direct parasitic disease to domestic animals, and transmit organisms that cause diseases. These infestations and infections cause distress to companion animals, and in livestock industry the financial costs of these diseases are high. These problems occur wherever domestic animals are reared. This article provides an overview of parasitic flies from a veterinary perspective, with emphasis on the disease-causing relationships between these flies and their host animals. The article is organized following the taxonomic hierarchy of these flies in the phylum Arthropoda, order Insecta. Families and genera of dipteran flies are emphasized rather than many individual species. Disease caused by the feeding activity of the flies is described here under parasitic disease. Disease caused by small pathogenic organisms that pass from the flies to domestic animals is described here under transmitted organisms; prominent examples are provided from the many species.

References

  1. 1 2 Shearer, D; Wall, R (1997). Veterinary Entomology: Arthropod Ectoparasites of Veterinary Importance. New York: Springer Publishing Company. pp. 167–168. ISBN   0-412-61510-X.
  2. 1 2 3 4 Byrd, Jason H.; Castner, James L. (2001). Forensic Entomology: The Utility Of Arthropods in Forensic Investigations . Boca Raton: CRC Press. pp.  54. ISBN   0-8493-8120-7.
  3. 1 2 3 Service, Mike (2008). Medical Entomology for Students (4th ed.). Cambridge, UK: Cambridge University Press. p. 148. ISBN   0-521-70928-8.
  4. 1 2 Greenberg, Bernard (1971). Flies and Disease, Volume I: Ecology, Classification, and Biotic Associations. Princeton, N.J.: Princeton University Press. pp. xii + 856 p.
  5. Robinson, William H (2005). Urban Insects and Arachnids: A Handbook of Urban Entomology. Cambridge, UK: Cambridge University Press. pp. 480 p. ISBN   0-521-81253-4.
  6. Grundy, John Hull (1981). Burgess, N.R.H (ed.). Arthropods of Medical Importance. Noble Books. pp. 223 p. ISBN   0-902068-11-3.
  7. Herms, William Brodbeck (1915). Medical and veterinary entomology;: A textbook for use in schools and colleges, as well as a handbook for the use of physicians, veterinarians and public health officials,. London: Macmillan. pp.  393 p.
  8. 1 2 Oldroyd, Harold (1964). The natural history of flies. World naturalist series. London: Weidenfeld & Nicolson. pp. 324 p.
  9. 1 2 3 Eldridge, B.F.; Edman, J.D., eds. (2003). Medical Entomology: A Textbook on Public Health and Veterinary Problems Caused by Arthropods (2nd revised ed.). New York: Springer Publishing Company. pp. 672 p. ISBN   1-4020-1794-4.
  10. 1 2 Smith, Kenneth G. V. (1986). Manual of Forensic Entomology (Hardcover) (2nd ed.). Cornell University Press. pp. 205 p. ISBN   0-8014-1927-1.
  11. Lee, H.L., Marzuki, T., (1993). Preliminary observation of arthropods on carrion and its application to forensic entomology in Malaysia. Tropical Biomedicine. 10. 5-8.
  12. Nicholls, A.G., (1924). Two cases of infestation of the intestine with larvae of species of Fannia. Canadian Medical Association Journal. 14. 42-43.
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