Oiceoptoma noveboracense

Oiceoptoma noveboracense
Scientific classification
Kingdom:	Animalia
Phylum:	Arthropoda
Class:	Insecta
Order:	Coleoptera
Family:	Silphidae
Subfamily:	Silphinae
Genus:	Oiceoptoma
Species:	O. noveboracense
Binomial name
	Oiceoptoma noveboracense; (Forster, 1771)

Last updated February 18, 2024

Oiceoptoma noveboracense is a member of the family Silphidae, or carrion beetles, which feed on decaying organic matter such as dead animals. Its common name is the margined carrion beetle, from the orange-red margins on the pronotum, which are helpful when identifying this species. The larva is typically light brown to red and also has vertical ridges on its thorax like the adult. This diurnal beetle can be found mainly in the spring into the fall, and it has a strong preference towards a deciduous forest habitat. The primary forensic importance of this beetle is its ability to use the succession of insect fauna to provide confirmation of postmortem intervals.^[2]

Taxonomy

Oiceoptoma noveboracense's Latin specific name means "pertaining to New York" (Latin Novum Eboracum + -ensis), referring to the original source of the type specimen. Although less common, some literature will refer to the species as Oiceoptoma noveboracensis. The genus Oiceoptoma was described by the English naturalist, William Elford Leach, in 1815.^[3]

Description

Oiceoptoma noveboracense larvae range from light brown to dark reddish in color. The larvae are typically flat and trilobite-like in appearance. They are capable of moving locations during their development.

The adults average from 13 to 15 millimetres (0.5 to 0.6 in) long. The middle of the pronotum (dorsal side, first segment of the thorax) on this beetle is dark-brown to black in color. The outer margins are outlined in a bright orange-red (salmon colored).^[2] The elytra are hardened forewings used to protect the fragile hind wings underneath. The elytra are attached to the suture that runs down the middle of the beetle's back and range from reddish brown to black.^[4] They have a distinctive tooth at the shoulder and the vertical ridges are very apparent. This elytra apex is rounded on males, whereas it is more tapered on the female body. O. noveboracense have temple regions behind their eyes that have a long line of erect setae that are of a yellowish tint and the inner tomora is a ridge-free region. The metatibiae are enlarged on the males ranging from moderate to large in size.^[3]

Life cycle

Oiceoptoma noveboracense is a diurnal species, meaning that it is primarily active during the daytime. This beetle produces one generation per year.^[5] Reproduction begins in the spring and depending on temperature it takes approximately forty-five days from the instance of mating to the emergence of the adult from the pupa. The eggs are laid in the carrion so that once they become larva they will begin to feed on their substrate. As is common with most Silphidae, the adults will typically feed on carrion as well as the larva of flies that are also feeding on the carrion.^[6]

During the springtime when mating is observable, adults are commonly found paired with the males mounted on the females. This position will be maintained for periods of time even though copulation may not be occurring at that instant. Typically, males will firmly take hold of the female’s antennae with their mandibles in order to position themselves for sexual activity. Once copulation is achieved the male will release the female’s antenna and begin to slide backward onto the female’s elytra. He will then begin to use his antennae to stroke the pronotum of the female. Again the male searches for and grabs the female’s antennae and this series of events is repeated. This activity will occur frequently until the female oviposits. Males have not been seen to be sexually active when the eggs and/or instar larvae are present at the carcass. This behavior suggests that the males might use this time to insure paternity of the offspring of the particular female with which he mated.^[7]

Distribution and habitat

Oiceoptoma noveboracense is most commonly found in deciduous forests or in grasslands and fields. It will less frequently inhabit marshes. When the species is found in a marsh, the area is typically prone to seasonal inundation. This causes the marsh to superficially resemble a dried field habitat.^[8]

O. noveboracense is found from the Atlantic coast of the Northeastern United States, extending along the northern edge of the prairies west to the Rocky Mountains. It may be present as far south as Texas.^[9]

Importance

Forensic

Due to its widespread distribution, Oiceoptoma noveboracense is frequently found on carrion and associated crime scene investigations. They are currently used to substantiate and support insect colonization timelines and help estimate Post-mortem interval (PMI). Arriving variably after initial insect colonizers (flies), the adults will prey on fly maggots and rarely feed on the carrion. They can also be found in the later stages of decomposition depending on variables like temperature, climate, and location of the carrion. Ultimately, if found, these beetles corroborate the PMI data of the more useful insect colonizers with succession-pattern-based information.^[10]

Medical

The medical importance of Oiceoptoma noveboracense has yet to be substantially determined. However, a study has found its hindgut, midgut, and associated hemolymph can potentially harbor known opportunistic bacterial pathogens. Of these opportunistic pathogens, the majority of the identified bacteria were either coliform or staphylococci.^[11]

Current and future research

Previous research investigated the seasonal activity and habitat preferences of this necrophagous beetle. Overall it has been observed that this Silphid species prefers the forest environment and warmer months.^[8]

The ability of O. noveboracense to transmit microorganisms has also been researched. In one study it was confirmed that medically true bacteria were found in the midgut, hindgut, and associated hemolymph. Even though these bacteria were isolated, it is only hypothesized that they may serve as a reservoir host.^[11] Further research could determine whether O. noveboracense is able to actually transmit the bacteria present. More succession studies may be able to narrow the time frame at which this beetle is attracted to carrion.

Related Research Articles

Beetles are insects that form the order Coleoptera, in the superorder Holometabola. Their front pair of wings are hardened into wing-cases, elytra, distinguishing them from most other insects. The Coleoptera, with about 400,000 described species, is the largest of all orders, constituting almost 40% of described insects and 25% of all known animal species; new species are discovered frequently, with estimates suggesting that there are between 0.9 and 2.1 million total species. Found in almost every habitat except the sea and the polar regions, they interact with their ecosystems in several ways: beetles often feed on plants and fungi, break down animal and plant debris, and eat other invertebrates. Some species are serious agricultural pests, such as the Colorado potato beetle, while others such as Coccinellidae eat aphids, scale insects, thrips, and other plant-sucking insects that damage crops.

<span class="mw-page-title-main">Silphidae</span> Family of beetles

Silphidae is a family of beetles that are known commonly as large carrion beetles, carrion beetles or burying beetles. There are two subfamilies: Silphinae and Nicrophorinae. Nicrophorines are sometimes known as sexton beetles. The number of species is relatively small at around two hundred. They are more diverse in the temperate region although a few tropical endemics are known. Both subfamilies feed on decaying organic matter such as dead animals. The subfamilies differ in which uses parental care and which types of carcasses they prefer. Silphidae are considered to be of importance to forensic entomologists because when they are found on a decaying body they are used to help estimate a post-mortem interval.

<span class="mw-page-title-main">Burying beetle</span> Genus of beetles

Burying beetles or sexton beetles, genus Nicrophorus, are the best-known members of the family Silphidae. Most of these beetles are black with red markings on the elytra (forewings). Burying beetles are true to their name—they bury the carcasses of small vertebrates such as birds and rodents as a food source for their larvae, this makes them carnivorous. They are unusual among insects in that both the male and female parents take care of the brood.

Hydrophilidae, also known colloquially as water scavenger beetles, is a family of beetles. Aquatic hydrophilids are notable for their long maxillary palps, which are longer than their antennae. Several of the former subfamilies of Hydrophilidae have recently been removed and elevated to family rank; Epimetopidae, Georissidae, Helophoridae, Hydrochidae, and Spercheidae. While the majority of hydrophilids are aquatic, around a third of described species are terrestrial, mostly belonging to the subfamily Sphaeridiinae.

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.

Trogidae, sometimes called hide beetles, is a family of beetles with a distinctive warty or bumpy appearance. Found worldwide, the family includes about 300 species contained in four or five genera.

Dermestidae are a family of Coleoptera that are commonly referred to as skin beetles. Other common names include larder beetle, hide or leather beetles, carpet beetles, and khapra beetles. There are over 1,800 species described.

The varied carpet beetle is a 3 mm-long beetle belonging to the family Dermestidae. They are a common species, often considered a pest of domestic houses and, particularly, natural history museums, where the larvae may damage natural fibers and can damage carpets, furniture, clothing, and insect collections. A. verbasci was also the first insect to be shown to have an annual behavioral rhythm and to date remains a classic example of circannual cycles in animals.

<span class="mw-page-title-main">Cleridae</span> Checkered beetles

Cleridae are a family of beetles of the superfamily Cleroidea. They are commonly known as checkered beetles. The family Cleridae has a worldwide distribution, and a variety of habitats and feeding preferences.

Melolonthinae is a subfamily of the scarab beetles. It is a very diverse group; distributed over most of the world, it contains over 11,000 species in over 750 genera. Some authors include the scarab subfamilies Euchirinae and Pachypodinae as tribes in the Melolonthinae.

Nicrophorus tomentosus is a species of burying beetle that was described by Friedrich Weber in 1801. The beetle belongs to the family Silphidae which are carrion beetles. The beetles have sensitive antennae that contain olfactory organs. Thus, the beetle can locate dead animals (carcass), and then as the name suggests, can bury them. However, unlike other burying beetles, N. tomentosus does not completely bury these brood carcasses. They instead dig a shallow hole under the carcass and cover it with leaf litter. Recognition of these beetles can be distinguished by its black color with orange markings on the wing covers (elytra).

Nicrophorus interruptus is a species of burying beetle or sexton beetle belonging to the family Silphidae subfamily Nicrophorinae.

Nicrophorus orbicollis is a nearctic burying beetle first described by Thomas Say in 1825. It is a member of the genus Nicrophorus or sexton beetles, comprising the most common beetles in the family Silphidae. This species is a decomposer feeding on carcasses of small dead animals. N. orbicollis can be used for scientific research both medically and forensically.

Rhyzopertha is a monotypic genus of beetles in the family Bostrichidae, the false powderpost beetles. The sole species, Rhyzopertha dominica, is known commonly as the lesser grain borer, American wheat weevil, Australian wheat weevil, and stored grain borer. It is a beetle commonly found within store bought products and pest of stored cereal grains located worldwide. It is also a major pest of peanuts. The first documentation of wheat infestation by R. dominica was observed in Australia. R. dominica are usually reddish brown to dark brown in coloration, vary in sizes, elongated and cylindrical.

Insect morphology is the study and description of the physical form of insects. The terminology used to describe insects is similar to that used for other arthropods due to their shared evolutionary history. Three physical features separate insects from other arthropods: they have a body divided into three regions, three pairs of legs, and mouthparts located outside of the head capsule. This position of the mouthparts divides them from their closest relatives, the non-insect hexapods, which include Protura, Diplura, and Collembola.

Oxelytrum cayennense is a species of burying beetles or carrion beetles belonging to the family Silphidae.

Hemisphaerota cyanea, known generally as palmetto tortoise beetle, is a species of leaf beetle in the family Chrysomelidae. Other names include the Florida tortoise beetle and iridescent blue chrysomelid beetle. It is native to the southeastern United States, from North Carolina, south to Florida, and west to Mississippi. It is introduced to southern Texas.

Oemona hirta, the lemon tree borer, also known as the whistling beetle or the singing beetle, is a longhorn beetle endemic to New Zealand. Its larvae are generalist feeders, boring into the wood of a wide variety of trees, native and introduced. When citrus orchards were first established in New Zealand, this beetle started inflicting serious damage, and so gained the name "lemon tree borer". Four species within the genus Oemona have been identified, suggesting that more species could be found. When disturbed by predators or humans, the adult beetle stridulates creating a "rasp" or "squeak" sound by rubbing its thorax and head together against an area of thin ridges. Māori would eat a liquid called "pia manuka", which was produced by manuka trees when its wood was damaged by the larvae. When Captain Cook first arrived in NZ, his naturalists, Banks and Solander, collected a lemon tree borer in their first collection between 1769 and 1771. This oldest collected specimen can be found in the British Museum. A few years after the first collection, the species would be first described by the Danish naturalist Fabricius in 1775.

Rivacindela hudsoni is an Australian species of the family Cicindelinae or "tiger beetle" and is the fastest-running known insect. The genus Rivacindela is contentiously treated as a subgenus of the broader Cicindela and are typically found in saline habitats such as dry salt lakes and salt streams and are flightless. The species was discovered in South Australia and described in 1997, with an adult form of approximately 20–21mm in length and a running speed of 2.49 m/s, or 120 body lengths per second.

Physomeloe corallifer is a species of blister beetle native to the Iberian Peninsula, it is the only recognised species in the genus Physomeloe.

References

↑ Peter J. DeVries (1 Aug 2007). "Silphidae of Wisconsin (carrion and burying beetles of Wisconsin)". University of Wisconsin.
1 2 Byrd, Jason and Castner, James. Forensic Entomology: The Utility of Arthropods in Legal Investigations. Florida: CRC Press, 2001.
1 2 Madge, R. B. "Species Page - Oiceoptoma noveboracense". Entomology Collection. University of Alberta E. H. Strickland Entomological Museum. Archived from the original on December 12, 2017.
↑ The American Heritage Dictionary of the English Language, Fourth Edition. Houghton Mifflin Company, 2004. 23 Mar. 2009.
↑ Cotinis. Species Oiceoptoma noveboracense - Margined Carrion Beetle BugGuide. 2004. Iowa State University. 26 November 2006.
↑ Cresswell, Stephen. Oiceoptoma noveboracense Margined Carrion Beetle Insects of West Virginia. 2009. West Virginia.
↑ Anderson, R. S. “Potential phylogenetic utility of mating behavior in some carrion beetles (Coleoptera: Silphidae: Silphinae)”. Coleopterists Bulletin, 43.1 (August 1988):18.
1 2 Shubeck, Paul. "Habitat Preferences of Carrion Beetles in the Great Swamp National Wildlife Refuge, New Jersey." Journal of the New York Entomological Society, 91.4 (Dec. 1983): 333–341.
↑ Ruzicka, Jan. “Revision of Palaearctic and Oriental Oiceoptoma (Coleoptera: Silphidae).” Acta Soc. Zool. Bohem Vol. 68 (2004): 30–51.
↑ Journal of Medical Entomology, 42.3 (May 2005): 481–489.
1 2 Lustigman B. Shubeck P. and Solter LF. “Survey of medically important true bacteria found associated with carrion beetles (Coleoptera: Silphidae)”. Journal of Medical Entomology, 26.4 (July1989):354–9. 1989 Jul.

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[1] Peter J. DeVries (1 Aug 2007). "Silphidae of Wisconsin (carrion and burying beetles of Wisconsin)". University of Wisconsin.

[Byrd-2] 1 2 Byrd, Jason and Castner, James. Forensic Entomology: The Utility of Arthropods in Legal Investigations. Florida: CRC Press, 2001.

[Madge-3] 1 2 Madge, R. B. "Species Page - Oiceoptoma noveboracense". Entomology Collection. University of Alberta E. H. Strickland Entomological Museum. Archived from the original on December 12, 2017.

[elytra-4] The American Heritage Dictionary of the English Language, Fourth Edition. Houghton Mifflin Company, 2004. 23 Mar. 2009.

[Cotinis-5] Cotinis. Species Oiceoptoma noveboracense - Margined Carrion Beetle BugGuide. 2004. Iowa State University. 26 November 2006.

[6] Cresswell, Stephen. Oiceoptoma noveboracense Margined Carrion Beetle Insects of West Virginia. 2009. West Virginia.

[7] Anderson, R. S. “Potential phylogenetic utility of mating behavior in some carrion beetles (Coleoptera: Silphidae: Silphinae)”. Coleopterists Bulletin, 43.1 (August 1988):18.

[Shubeck-8] 1 2 Shubeck, Paul. "Habitat Preferences of Carrion Beetles in the Great Swamp National Wildlife Refuge, New Jersey." Journal of the New York Entomological Society, 91.4 (Dec. 1983): 333–341.

[Ruzicka-9] Ruzicka, Jan. “Revision of Palaearctic and Oriental Oiceoptoma (Coleoptera: Silphidae).” Acta Soc. Zool. Bohem Vol. 68 (2004): 30–51.

[10] Journal of Medical Entomology, 42.3 (May 2005): 481–489.

[Lustigman-11] 1 2 Lustigman B. Shubeck P. and Solter LF. “Survey of medically important true bacteria found associated with carrion beetles (Coleoptera: Silphidae)”. Journal of Medical Entomology, 26.4 (July1989):354–9. 1989 Jul.

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