Calliphora latifrons

Calliphora latifrons
Scientific classification
Kingdom:	Animalia
Phylum:	Arthropoda
Class:	Insecta
Order:	Diptera
Family:	Calliphoridae
Genus:	Calliphora
Species:	C. latifrons
Binomial name
	Calliphora latifrons; Hough, 1899

Last updated February 23, 2021

Calliphora latifrons is a species of blue bottle fly.

This fly adheres to a particular environment and ecosystem that has limited geographic distributions in North America. Undisturbed, this environment fosters C. latifrons unique life cycle that somewhat differs from related blow flies. This life cycle can be utilized as a tool for forensic applications such as postmortem interval determination.^[1]^[2]

Identification

Calliphora latifrons can be distinguished from related species by the following set of characters:^[3]

Presutral intra-alar seta present; anterior thoracic spiracle usually with brown setae; abdomen usually metallic bluish with or without white micromentum
An orange anterior spiracle
Squama brown, margin often white; frons of male narrower, at narrowest, usually 0.14× head width or less; usually not restricted to northern or high elevation areas
Facial ridge with row of short, stout, supravibrissal setae, ascending from the vibrissae to a point almost halfway to antennal base; a second set of strong divergent ocellar setae about 2/3 the length of the anterior ocellars, surrounded by only a few sparse setae. Male genitalia shorter, with a chisel-shaped point. Frons of male broad, at narrowest, almost twice the width of parafacial at lunule, frons .24/12 head width; female frons .37/8 head width

Life cycle

The life cycle of Calliphora latifrons is similar to many other domestic flies, and is dependent on temperature. The eggs, which are yellowish or white in color, are deposited by the female into mostly moist, solid organic matter and are approximately 0.04 in long. The egg hatches after about 27 hours, and is prone to desiccation.

The eggs hatch into a larva, or maggot, which passes through three instars. The legless maggots are 0.5–0.75 inches (13–19 mm). Each instar stage is divided by a molt. Entomologists are able to determine the instar stages by inspecting the posterior spiracles of the larvae. The first instar lasts around 22 hours, the second 14 hours, and the third instar, which is the longest, lasts 36 hours. After the third instar, the larvae tend to move towards drier areas and burrow into hiding to pupate. In between the third instar and the pupa stage, there is an intermediate stage known as the prepupa. The prepupa lasts about 92 hours for C. latifrons.

The third stage of the life cycle is known as the pupa stage, and is very similar in susceptibility to the egg stage. This pupa stage tends to last 6 days, and is characterized by its hard, brown casing, whereabouts the larva transitions to the adult stage. The total immature time for these flies is 13 days.^[4]

Importance in forensic entomology

Calliphora latifrons is one of the most forensically important species of blow flies.

Urban entomology deals with the insects that affect humans and their immediate environment. This field includes a variety of problems for humans such as pest control issues and disease. C. latifrons is known to freely enter houses. There have been several cases where the flies enter homes and breed in the bodies of dead mice, resulting in larger amounts of flies. C. latifrons is also known for being a potential vector for disease. By ovipositing on their food as they feed the flies have the ability to transfer various pathogens.^[5]^[6]

Medicocriminal entomology deals with the carrion feeding insects that infest human remains. This area relies on correctly identifying arthropod species, approximating the age of the insects to determine the initial colonization and comparing that information with known arrival patterns of the adult species. After identifying the insect(s) on the body, a time of death can be calculated, however, a forensic entomologist can never calculate an exact time of death, but rather a time span that tells them when that body was available for colonization. All this information gives investigators an estimation of a portion of the post mortem interval (PMI). C. latifrons usually breeds in small carcasses in rural areas. In only a few cases has it been found on human corpses. In February 2004, there was a case involving a dumped body in a rural area of San Jose, California. C. latifrons was found on a decaying corpse and helped investigators confirm how long the body had been there. C. latifrons is part of a group of carrion feeding flies in the western U.S. in which very little information exists.^[7]^[8]

Related Research Articles

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.

The Calliphoridae are a family of insects in the order Diptera, with 1,200 known species. The maggot larvae, often used as fishing bait, are known as gentles. The family is known to be polyphyletic, but much remains disputed regarding proper treatment of the constituent taxa, some of which are occasionally accorded family status.

The common green bottle fly is a blowfly found in most areas of the world and is the most well-known of the numerous green bottle fly species. Its body is 10–14 millimetres (0.39–0.55 in) in length – slightly larger than a house fly – and has brilliant, metallic, blue-green or golden coloration with black markings. It has short, sparse black bristles (setae) and three cross-grooves on the thorax. The wings are clear with light brown veins, and the legs and antennae are black. The larvae of the fly may be used for maggot therapy, are commonly used in forensic entomology, and can be the cause of myiasis in livestock and pets.

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.

Calliphora vomitoria, known as the blue bottle fly, orange-bearded blue bottle, or bottlebee is a species of blow fly, a species in the family Calliphoridae. Calliphora vomitoria is the type species of the genus Calliphora. It is common throughout many continents including Europe, Americas, and Africa. They are fairly large flies, nearly twice the size of the housefly. They can be easily identified by their shiny, blue bodies.

Chrysomya is an Old World blow fly genus of the family Calliphoridae. The genus Chrysomya contains a number of species including Chrysomya rufifacies and Chrysomya megacephala. The term “Old World blow fly” is a derivative of both the associated family, Calliphoridae, and the belief that the genus Chrysomya originated in Asia and migrated to North America only relatively recently. Chrysomya’s primary importance to the field of medico-criminal forensic entomology is due to the genus’ reliable life cycle, allowing investigators to accurately develop a postmortem interval. Chrysomya adults are typically metallic colored with thick setae on the meron and plumose arista. The name comes from the word chrysos, meaning “golden” in reference to the metallic sheen of the genus’ species, and -mya, a derivation from the word myia, meaning “fly”

Chrysomya rufifacies is a species belonging to the blow fly family, Calliphoridae, and is most significant in the field of forensic entomology due to its use in establishing or altering post mortem intervals. The common name for the species is the hairy maggot blow fly, and it belongs to the genus Chrysomya, which is commonly referred to as the Old World screwworms. This genus includes other species such as Chrysomya putoria and Chrysomya bezziana, which are agents of myiasis. C. rufifacies prefers very warm weather and has a relatively short lifecycle. It is widely distributed geographically and prefers to colonize large carcasses over small ones. The species commonly has a greenish metallic appearance and is important medically, economically, and forensically.

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.

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.

Calliphora vicina is a member of the family Calliphoridae, which includes blow flies and bottle flies. These flies are important in the field of forensic entomology, being used to estimate the time of a person's death when a corpse is found and then examined. C. vicina is currently one of the most entomologically important fly species for this purpose because it arrives at and colonizes a body following death in consistent timeframes.

The species Phormia regina , more commonly known as the black blow fly, belongs to the blow fly family Calliphoridae and was first described by Johann Wilhelm Meigen.

Sarcophaga bullata, or the grey flesh fly, is a species of fly belonging to the family Sarcophagidae. It varies in size from small to large, 8 to 17 millimeters in length and is very similar in appearance and behavior to a closely related species, Sarcophaga haemorrhoidalis. S. bullata is a common scavenger species in the Eastern United States, but is found throughout the Nearctic region. Identification down to the species level in the family Sarcophagidae is notably difficult and relies primarily on the male genitalia. Though limited information is available regarding S. bullata, it has gained increasing recognition in the field of forensic entomology as a forensically-relevant fly species, as it may be among the first species to colonize human remains. In these instances, recovered maggots may be analyzed for post-mortem interval (PMI) estimations, which may be used as evidence in courts of law. Current studies regarding S. bullata have revealed a maternal effect operating in these flies that prevents pupal diapause under certain environmental conditions, which is an important factor to be considered during forensic analyses.

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.

Compsomyiops callipes, previously known as Paraluclia wheeleri, is a member of the blowfly family Calliphoridae. It is a warm weather fly that can be found in southwestern parts of the United States and parts of South America. This species can be identified by its chaeotaxy, metallic blue color, club-shaped palp, and brown calypters.

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.

Lucilia mexicana is a species of blow fly of the family Calliphoridae, one of many species known as a green bottle fly. Its habitat range extends from southwestern North America to Brazil. L. mexicana is typically 6–9 mm in length with metallic blue-green coloring. This species is very similar in appearance to L. coeruleiviridis, the primary difference being that L. mexicana has two or more complete rows of post-ocular setae. L. mexicana has the potential to be forensically important in the stored-products and medicocriminal fields, but more research is needed for the fly to be used as evidence in criminal investigations.

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.

Lucilia coeruleiviridis, formerly Phaenecia coeruleiviridis, is commonly known as a green bottle fly, because of its metallic blue-green thorax and abdomen. L. coeruleiviridis was first discovered by French entomologist Pierre-Justin-Marie Macquart in 1855. It belongs to the family Calliphoridae and is one of many forensically important Diptera, as it is often found on decaying substances. L. coeruleiviridis is one of the most ubiquitous blow fly species in the southeastern United States, particularly in the spring and fall months.

<i>Protophormia terraenovae</i> Species of fly

Protophormia terraenovae is commonly called northern blowfly, blue-bottle fly or blue-assed fly. It is distinguished by its deep blue coloration and large size and is an important species throughout the northern hemisphere. This fly is notable for its economic effect as a myiasis pest of livestock and its antibiotic benefits in maggot therapy. Also of interest is P. terraenovae’s importance in forensic investigations: because of their temperature-dependent development and their prominent presence on corpses, the larvae of this species are useful in minimum post-mortem interval (mPMI) determination.

Calliphora loewi is part of the family Calliphoridae, bottle flies and blowflies, and in the genus Calliphora, blue bottle flies. The genus can be deceiving since C. loewi is not blue. Though this species is rare, it can play an important part in forensic entomology, spreading disease, and decomposing carrion. The life cycle of C. loewi is similar to the life cycle of the genus Calliphora. Since this species is rare there has not been very much research done with this species.

References

↑ "Eucalliphora lilaea (Walker, 1849)". Integrated Taxonomic Information System.
↑ "Eucalliphora latifrons". Arthropod Checklist Query Results. Bishop Museum. April 10, 2002. Archived from the original on October 2, 2012. Retrieved February 28, 2009.
↑ Terry Whitworth (2006). "Keys to the genera and species of blowflies (Diptera: Calliphoridae) of America north of Mexico" (PDF). Proceedings of the Entomological Society of Washington . 108 (3): 689–725.
↑ "General insect pests" (PDF). University of Arkansas Division of Agriculture. Archived from the original (PDF) on June 27, 2010. Retrieved July 27, 2010.
↑ J. H. Byrd. "Forensic Entomology". Archived from the original on February 14, 2018. Retrieved July 27, 2010.
↑ G. S. Anderson (2004). "Determining time of death using blow fly eggs in the early postmortem interval". International Journal of Legal Medicine . 118 (4): 240–241. doi:10.1007/s00414-004-0443-6. PMID 15164212.
↑ Jeffrey Y. Honda; Adrienne Brundage; Christopher Happy; Sean C. Kelly; Judy Melinek (2008). "New records of carrion feeding insects collected on human remains". Pan-Pacific Entomologist . 84 (1): 29–32. doi:10.3956/2007-27.1.
↑ K. R. Norris (1965). "The bionomics of blow flies". Annual Review of Entomology . 10: 47–68. doi:10.1146/annurev.en.10.010165.000403.

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[1] "Eucalliphora lilaea (Walker, 1849)". Integrated Taxonomic Information System.

[2] "Eucalliphora latifrons". Arthropod Checklist Query Results. Bishop Museum. April 10, 2002. Archived from the original on October 2, 2012. Retrieved February 28, 2009.

[3] Terry Whitworth (2006). "Keys to the genera and species of blowflies (Diptera: Calliphoridae) of America north of Mexico" (PDF). Proceedings of the Entomological Society of Washington . 108 (3): 689–725.

[4] "General insect pests" (PDF). University of Arkansas Division of Agriculture. Archived from the original (PDF) on June 27, 2010. Retrieved July 27, 2010.

[5] J. H. Byrd. "Forensic Entomology". Archived from the original on February 14, 2018. Retrieved July 27, 2010.

[6] G. S. Anderson (2004). "Determining time of death using blow fly eggs in the early postmortem interval". International Journal of Legal Medicine . 118 (4): 240–241. doi:10.1007/s00414-004-0443-6. PMID 15164212.

[7] Jeffrey Y. Honda; Adrienne Brundage; Christopher Happy; Sean C. Kelly; Judy Melinek (2008). "New records of carrion feeding insects collected on human remains". Pan-Pacific Entomologist . 84 (1): 29–32. doi:10.3956/2007-27.1.

[8] K. R. Norris (1965). "The bionomics of blow flies". Annual Review of Entomology . 10: 47–68. doi:10.1146/annurev.en.10.010165.000403.

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