Trogidae
Temporal range:
Trox sabulosus
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Coleoptera
Suborder: Polyphaga
Infraorder: Scarabaeiformia
Superfamily: Scarabaeoidea
Family: Trogidae
MacLeay, 1819
Diversity
c. 300 species

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.[1]

Trogids range in length from 2 to 20 mm. Their shape is oblong to oval, with a generally flat abdomen. Their color ranges from brown to gray or black, and they often encrust their bodies with soil. They resemble scarab beetles with heavy limbs and spurs.

They are scavengers and are among the last species to visit and feed on carrion. They are most often found on the dry remains of dead animals. Both adults and larvae eat feathers and skin. Some species are found in bird and mammal nests. Details of the life histories of many species are poorly known, since many are specialized to particular types of nests. They are often overlooked by predators and collectors due to their behaviors of covering their bodies with soil and becoming motionless when disturbed.

This group may also be considered Troginae, a subfamily of the Scarabaeidae. The common name "skin beetle" is sometimes used in reference to these beetles, but more often refers to species of the Dermestidae.

Origins

Hide beetles are found worldwide. More species of Trogidae are found in dry environments instead of moist environments, typically temperate plains areas. Each genus is more diverse in different regions of the world. Trox is found in the Holarctic/Ethiopian area, Omorgus within the southern continents, and Polynoncus is found in South America.[2]

Controversy exists over whether Trogidae is a family of its own or a subfamily of Scarabaeidae.[2] One major reason for the dispute between classifications is the possible evolution of the ommatidium in the eyes.[3] Different environmental pressures and predators may have led to the adaptation of ommatidium structures within this family. For example, the more advanced and numerous the ommatidium, the more present the larger the ability of the insect to escape and elude predators. The Trogidae may have evolved in Australia.[4]

The oldest known fossils are from the Early Cretaceous (Aptian) Zaza Formation of Russia and the Shar-Tolgoy and Dzun-Bain Formations of Mongolia, assignable to the extant genus Trox as well as the extinct genera Cretomorgus and Paratrox. Other known fossils include Kresnikus beynoni found in mid-Cretaceous aged Burmese amber.[5]

Anatomy

Closeup of head of Trox sabulosus

Trogidae are characterized by their distinct soil-encrusted, warty, or bumpy appearance. They are usually brown, gray, or black in color and are covered with short, dense setae. Their body shape is oblong to oval with a flat abdomen and their length varies from 2 to 20 mm. The antenna of hide beetles are usually short and clubbed.[6] The hardened elytra of Trogidae, which are generally covered with small knobs giving the beetle their rough appearance, meet along the midline of the body and cover the entire abdomen and well-developed wings. Their heads are bent down and covered by the pronotum.[7] They also have heavy limbs and spurs resembling those of scarab beetles. Trogidae larvae are a creamy yellow/white in color, except at their caudal end which darkens as it accumulates feces. Their heads are dark and heavily sclerotized. The abdominal segments of hide beetles have at least one or more transverse rows of setae.[8]

Diet and habitat

Predators rarely attack species of Trogidae. They avoid detection and predation due to their soil covering and motionless behavior. Birds prey upon hide beetles that have invaded the bird nests.[8]

Species of Trogidae often feed on decomposing carcasses. Along with carrion, hide beetles are found within the pellet of many animal species, on other decaying dry matter, and around birds’ and mammals’ nests and feathers, as well as aging bones.[9]

Mating habits and life cycle

Little is known about the specifics of the Trogid life cycle. Female Trogids of several species produce chirping noises in order to attract males to their burrows for mating.[10] After impregnation of the female by the male, the female lays the eggs and the larvae hatch after an unknown amount of time. During decomposition of a carcass, the beetles leave their nests to feed on the carrion. As the last succession of insects to appear on the carcass, both larvae and adults can be found feeding on the dry remains. At the site of the carcass, an impregnated female digs small, vertical columns underneath the carcass to lay her eggs, allowing the larvae to locate food after hatching. Trogidae usually have three to five instars.[8]

Forensic importance

The use of Trogidae in forensic entomology is unknown at this time. Though they typically arrive last in the order of succession, they can be the first in succession on burned and charred bodies. After the burned skin is eaten away by the trogids, the corpse (with now-exposed, "fresher" surfaces) allows for viable colonization by other forensically important insects that help determine accurate post mortem interval estimates.[11]

Various species of Trogidae have been used by museums to clean up skeletons by eating any remaining dried material left on the skeletons, leaving them clean for display. This method of bone-stripping has been used by some museums for many years, as it is the most effective method.[12]

Research

The Chinese Academy of Sciences funded a study on the classification of this family of beetles.[13] The forensic importance of African Trogidae and other carrion-associated beetles is being studied at the University of Pretoria. This project is investigating how the presence of beetles on carrion affects the infestation of other arthropods in carrion in Africa.[14]

Taxonomy

The family Trogidae contains the following subfamily and genera:[15]

References

  1. Jameson, Mary Liz (2002): "Trogidae", in Ross H. Arnett, Jr. and Michael C. Thomas, American Beetles (CRC Press, 2002), vol. 2
  2. 1 2 Deloya, C. (2005): Omorgus rodriguezae especie nueva de México y clave para separar las especies del género para centro y norteamérica (Coleoptera: Trogidae) Archived 28 September 2007 at the Wayback Machine. Folia Entomol. Mex 44: 121-129. PDF
  3. Caveney, Stanley (September 1986). "The phylogenetic significance of ommatidium structure in the compound eyes of polyphagan beetles". Canadian Journal of Zoology. 64 (9): abstract. doi:10.1139/z86-270.
  4. Lawrence, J. F.; Britton, E. B. (1991). Coleoptera. The Insects of Australia. Vol. 1 (2nd ed.). Carlton: Melbourne University Press. pp. 543–683.
  5. Tihelka, Erik; Huang, Diying; Cai, Chenyang (15 July 2019). "A new subfamily of hide beetles from the Cretaceous of northern Myanmar (Coleoptera: Scarabaeoidea: Trogidae)". Historical Biology. 33 (4): 506–513. doi:10.1080/08912963.2019.1641705. ISSN 0891-2963. S2CID 202865768.
  6. Watson, L. and Dallwitz, M. J.. 2003 onwards. British Insects: the Families of Coleoptera: Trogidae Version: 9 April 2007. http://delta-intkey.com
  7. Carcass Beetles CSIRO Entomology
  8. 1 2 3 Jameson, Mary Liz. Guide to New World Scarab Beetles - Trogidae UNL State Museum - Division of Entomology
  9. Murawski, Darlyne (2013). Ultimate Bug-opedia. Washington, DC: National Geographic Society. p. 153. ISBN 9781426313776.
  10. Alexander, Richard D., Thomas E. Moore, and Robert E. Woodruff. "The evolutionary differentiation of stridulatory signals in beetles (Insecta: Coleoptera)." (1963).
  11. Trogidae Australian Biological Resources Study, Department of the Environment and Heritage
  12. Reid, Craig. Bones Stripped Bare. Australian Geographic; Jan-March2005 Issue 77, p15, 1/4p
  13. GuoDong, Ren and Hou Lin. Advance in taxonomic research of the Trogidae. Entomological Knowledge, 2003 (Vol. 40) (No. 6) 505-508
  14. Williams, K.A. and M.H. Villet. A history of South African research relevant to Forensic Entomology. South African Journal of Science 102, January/February 2006. p4.
  15. "Hide Beetles MacLeay, 1819". BioLib.
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