Burying beetle

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Burying beetle
Temporal range: Cenomanian–Recent
Nicrophorus americanus, American Burying Beetle (female) -- walking.jpg
American burying beetle ( Nicrophorus americanus )
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Coleoptera
Family: Silphidae
Subfamily: Nicrophorinae
Tribe: Nicrophorini
Genus: Nicrophorus
Fabricius, 1775
Type species
Silpha vespillo
Synonyms [1]
List
    • Acanthopsilus Poole, 1996
    • Canthopsilus Portevin, 1914
    • Cyrtoscelis Hope, 1840
    • Eunecrophorus Semenov-Tian-Shanskiy, 1933
    • Nechrocharis Poole, 1996
    • Necroborus Weigel, 1806
    • Necrocharis Portevin, 1923
    • Necrocleptes Semenov-Tian-Shanskiy, 1933
    • Necrophagas Leach, 1815
    • Necrophagus Poole, 1996
    • Necrophorindus Semenov-Tian-Shanskiy, 1933
    • Necrophoriscus Semenov-Tian-Shanskiy, 1933
    • Necrophorus Illiger, 1798
    • Necrophorus Thunberg, 1789
    • Necropter Semenov-Tian-Shanskiy, 1933
    • Necroxenus Semenov-Tian-Shanskiy, 1933
    • Neirophorus Berthold, 1827
    • Neonicrophorus Hatch, 1946
    • Nesonecrophorus Semenov-Tian-Shanskiy, 1933
    • Nesonecropter Semenov-Tian-Shanskiy, 1933
    • Nigrophorus Fabricius, 1787
    • Stictonecropter Semenov-Tian-Shanskiy, 1933

Burying beetles or sexton beetles, genus Nicrophorus, are the best-known members of the family Silphidae (carrion beetles). 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. [2] They are unusual among insects in that both the male and female parents take care of the brood. [3]

The genus name is sometimes spelled Necrophorus in older texts: this was an unjustified emendation by Carl Peter Thunberg (1789) of Fabricius's original name, and is not valid under the ICZN.

The American burying beetle ( Nicrophorus americanus ) has been on the U.S. endangered species list since 1989. This species was native to 35 U.S. states but now is only known to exist in 9. [4]

Reproduction

Burying beetles have large club-like antennae equipped with chemoreceptors capable of detecting a dead animal from a long distance. [5] After finding a carcass (most usually that of a small bird or a mouse), beetles fight amongst themselves (males fighting males, females fighting females) until the winning pair (usually the largest) remains. If a lone beetle finds a carcass, it may continue alone and await a partner. Single males attract mates by releasing a pheromone from the tip of their abdomens. Females can raise a brood alone, fertilizing her eggs using sperm stored from previous copulations. [6] The carcass is usually buried by the beetle(s) to hide it from potential competitors, which are numerous.

An example of a species of Nicrophorus beetle that displays this form of bi-parental care and burying activity is the Nicrophorus nepalensis beetle. Nicrophorus nepalensis beetles prepare carcasses and care for the developing larvae in a joint fashion. After burying carcasses, Nicrophorus nepalensis mate and lay eggs near/on the carcass. Then, when the eggs hatch into larvae and begin feeding on the flesh of the carcass. This process continues until the larvae begin to pupate.

Burying beetle life cycle

The prospective parents begin to dig a hole below the carcass. While doing so, and after removing all hair from the carcass, the beetles cover the animal with antibacterial and antifungal oral and anal secretions, slowing the decay of the carcass and preventing the smell of rotting flesh from attracting competition. [2] The carcass is formed into a ball and the fur or feathers stripped away and used to line and reinforce the crypt, also known as a nursery, where the carcass will remain until the flesh has been completely consumed. [7] The burial process can take around 8 hours. Several pairs of beetles may cooperate to bury large carcasses and then raise their broods communally. [8]

The female burying beetle lays eggs in the soil around the crypt. [9] The larvae hatch after a few days and move into a pit in the carcass which the parents have created. Although the larvae are able to feed themselves, both parents also feed the larvae in response to begging: they digest the flesh and regurgitate liquid food for the larvae to feed on, a form of progressive provisioning. [7] This probably speeds up larval development. [10] It is also thought the parent beetles can produce secretions from head glands that have anti-microbial activity, inhibiting the growth of bacteria and fungi on the vertebrate corpse. [11]

The adult beetles continue to protect the larvae, which take several days to mature. Many competitors make this task difficult, e.g. bluebottles and ants or burying beetles of either another or the same species. [12] Throughout the entirety of the larva's development, the parents fight off these competitors all the while maintaining an ideal nursery inside the carcass for their offspring. [6] The final-stage larvae migrate into the soil and pupate, transforming from small white larvae to fully formed adult beetles. [2]

Parental care (and particularly biparental care) is quite rare among insects that are not eusocial (e.g. ants and honey bees). Burying beetles are exceptional in exhibiting this trait, and thus fall under the category of subsocial insects. [13] [7]

Infanticide

Burying beetles are known to commit infanticide at an early stage, which is also known as culling their young. This is done to ensure that the supply of food provided by the carcass is sufficient to nourish all the larvae sufficiently. [14] If there are too many young, they will all be underfed and will develop less quickly, reducing their chances of surviving to adulthood. If there are too few young, the resulting adult beetles will be large but the parents could have produced more of them. [3] The most successful beetle parents will achieve a good balance between the size of offspring and the number produced. This method of brood size regulation might be the result of the eggs being laid before the female has been able to gauge the size of the carcass and hence how many larvae it can provision. [14]

Conservation

As of 2020, the American burying beetle (N. americanus) was reclassified from the endangered category to threatened by the Fish and Wildlife Service. [4] Burying beetles are important to the ecosystem and aid in nutrient recycling by burying dead animals. This allows for the nutrient-rich carcass to be recycled by the system. [15]

Species

Nicrophorus.germanicus.-.calwer.09.08.jpg
N. germanicus
Nicrophorus.humator.-.calwer.09.09.jpg
N. humator
Nicrophorus.investigator.-.calwer.09.12.jpg
N. investigator
Nicrophorus.vespillo.-.calwer.09.10.jpg
N. vespillo
Nicrophorus.vespilloides.-.calwer.09.13.jpg
N. vespilloides
Nicrophorus.vestigator.-.calwer.09.11.jpg
N. vestigator

As of 2006 there are over 60 valid, extant species in the genus Nicrophorus although a few undescribed species and synonyms remain to be worked up.

Fossils

A fossil of N. humator dating around 10,500 years was reported in 1962 by Pearson. [18] An extinct unnamed member of the genus is known from the Late Cretaceous Cenomanian aged Burmese amber of Myanmar, around 99 million years old. [19] [20]

Related Research Articles

<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. Members of Nicrophorinae are sometimes known as burying beetles or 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.

<i>Nicrophorus americanus</i> Species of beetle

Nicrophorus americanus, also known as the American burying beetle or giant carrion beetle, is a critically endangered species of beetle endemic to North America. It belongs to the order Coleoptera and the family Silphidae. The carrion beetle in North America is carnivorous, feeds on carrion and requires carrion to breed. It is also a member of one of the few genera of beetle to exhibit parental care. The decline of the American burying beetle has been attributed to habitat loss, alteration, and degradation, and they now occur in less than 10% of their historic range.

<span class="mw-page-title-main">Convict cichlid</span> Species of fish

The convict cichlid is a fish species from the family Cichlidae, native to Central America, also known as the zebra cichlid. Convict cichlids are popular aquarium fish and have also been the subject of numerous studies on fish behaviour.

<span class="mw-page-title-main">Mimic poison frog</span> Species of amphibian

Ranitomeya imitator, is a species of poison dart frog found in the north-central region of eastern Peru. Its common names include mimic poison frog and poison arrow frog, and it is one of the best known dart frogs. It was discovered in the late 1980s by Rainer Schulte who later split it up into more subspecies; describing each as a specific color morph, and sometimes having a separate behavioral pattern. The acoustics, morphs, and behavior of the species have been extensively researched.

<span class="mw-page-title-main">Parental care</span> Behavior in animals of taking care of offspring

Parental care is a behavioural and evolutionary strategy adopted by some animals, involving a parental investment being made to the evolutionary fitness of offspring. Patterns of parental care are widespread and highly diverse across the animal kingdom. There is great variation in different animal groups in terms of how parents care for offspring, and the amount of resources invested by parents. For example, there may be considerable variation in the amount of care invested by each sex, where females may invest more in some species, males invest more in others, or investment may be shared equally. Numerous hypotheses have been proposed to describe this variation and patterns in parental care that exist between the sexes, as well as among species.

Mate desertion occurs when one or both parents abandon their current offspring, and thereby reduce or stop providing parental care. Often, by deserting, a parent attempts to increase breeding opportunities by seeking out another mate. This form of mating strategy behavior is exhibited in insects, birds and mammals. Typically, males are more likely to desert, but both males and females have been observed to practice mate desertion.

<i>Lethocerus deyrollei</i> Species of true bug

Lethocerus deyrollei is a species of giant water bug that traditionally is included in the genus Lethocerus, although recent authorities place it in the monotypic Kirkaldyia. They are large, predatory and nocturnal insects. They are one of the best known giant water bugs and are found in Japan, Korea, east China, east Indochina and the Amur region of Russia. They are very common in much of their range, but have declined drastically in some regions and are considered threatened in Japan and Korea. They live in still waters with vegetation, hatching in the summer months and then overwintering half a year later as adults. They primarily feed on small fish, amphibians and aquatic insects, but have also been recorded taking water snakes and young turtles.

<i>Nicrophorus vespilloides</i>

Nicrophorus vespilloides is a burying beetle described by Johann Friedrich Wilhelm Herbst in 1783. The beetles vary widely in size and can present with a range of anywhere from 12 mm to 20 mm in size. They have two conspicuous orange-yellow bands on the elytra. The color of the antennae are an important distinguishing feature, being totally black. The color of their orange and black markings is multifunctional, as they are conspicuous to avian predators. In general, they present a unique ecological niche, which is their evolution of aposematism, or the strategy they use to warn predators through their conspicuous signals. The wing cases of these beetles possess a squarish shape and are notably shorter in length than their abdomens, indicating a distinct physical characteristic of the species.

<i>Nicrophorus tomentosus</i> Species of beetle

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).

<i>Nicrophorus nepalensis</i> Species of beetle

Nicrophorus nepalensis, commonly known as a burying beetle, is widespread across tropical and subtropical countries in Asia. It belongs to the order Coleoptera and the family Silphidae, and is part of the nepalensis species-group, which is the second largest species group within the genus Nicrophorus. N. nepalensis differs from some other beetles in that it exhibits biparental care. Its role as a decomposer is crucial in the energy cycle and energy transformation in the ecosystem.

<i>Nicrophorus pustulatus</i> Species of beetle

Nicrophorus pustulatus, also known as the pustulated carrion beetle or blistered burying beetle, is a species of burying beetle that was described by Johann Karl Wilhelm Illiger in 1807. This species is native to North America. N. pustulatus exhibits unique habitat utilization and breeding behaviour relative to other members of the genus. This species may be the only described example of a true parasitoid targeting a vertebrate host.

<i>Nicrophorus vespillo</i> Species of beetle

Nicrophorus vespillo is a burying beetle described by Carl Linnaeus in his landmark 1758 10th edition of Systema Naturae. It has a paleartic distribution and is commonly found across Europe and Asia, extending from Western Europe to Mongolia.

<i>Nicrophorus interruptus</i> Species of beetle

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

<i>Nicrophorus defodiens</i> Species of beetle

Nicrophorus defodiens is a burying beetle described by Mannerheim in 1846.

<i>Nicrophorus quadripunctatus</i> Species of beetle

Nicrophorus quadripunctatus is a species of burying beetle that predominates in East Asia. First described by German entomologist Ernst Kraatz in 1877, this beetle has since been the subject of much scientific inquiry—particularly concerning its parental care. Like other burying beetles, N. quadripunctatus inhabit small, vertebrate animal carcasses. This environment provides the beetles with the requisite nutrients for themselves and their offspring. To limit resource theft and predation, the carcass is buried underground. For additional protection, a single, dominant male-female pair guards the carcass cooperatively.

<i>Nicrophorus orbicollis</i> Species of beetle

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.

<i>Poecilochirus</i> Genus of mites

Poecilochirus is a Holarctic genus of mites in the family Parasitidae. They are relatively large and often found on rotting corpses, where they are transported by beetles. Deuteronymphs are characterized by two orange dorsal shields and in many species a transverse band on the sternal shield. The juvenile development consists of a larval stage, protonymph, and deuteronymph, but no tritonymph. Females are smaller than males. Males guard female deuteronymphs shortly before these mate, and pairs mate venter-to-venter.

Filial cannibalism occurs when an adult individual of a species consumes all or part of the young of its own species or immediate offspring. Filial cannibalism occurs in many species ranging from mammals to insects, and is especially prevalent in various types of fish species with males that engage in egg guardianship. The exact evolutionary purpose of the practice in those species is unclear and debated among zoologists, though there is consensus that it may have, or may have had at some point in species' evolutionary history, certain evolutionary and ecological implications.

Vertebrate maternal behavior is a form of parental care that is specifically given to young animals by their mother in order to ensure the survival of the young. Parental care is a form of altruism, which means that the behaviors involved often require a sacrifice that could put their own survival at risk. This encompasses behaviors that aid in the evolutionary success of the offspring and parental investment, which is a measure of expenditure exerted by the parent in an attempt to provide evolutionary benefits to the offspring. Therefore, it is a measure of the benefits versus costs of engaging in the parental behaviors. Behaviors commonly exhibited by the maternal parent include feeding, either by lactating or gathering food, grooming young, and keeping the young warm. Another important aspect of parental care is whether the care is provided to the offspring by each parent in a relatively equal manner, or whether it is provided predominantly or entirely by one parent. There are several species that exhibit biparental care, where behaviors and/or investment in the offspring is divided equally amongst the parents. This parenting strategy is common in birds. However, even in species who exhibit biparental care, the maternal role is essential since the females are responsible for the incubation and/or delivery of the young.

<span class="mw-page-title-main">Rebecca Kilner</span> British evolutionary biologist

Rebecca M. Kilner FRES is a British evolutionary biologist, and a professor of evolutionary biology at the University of Cambridge.

References

  1. GBIF: Nicrophorus Fabricius, 1775 (retrieved 13 January 2020)
  2. 1 2 3 Scott, Michelle Pellissier (January 1998). "The Ecology and Behavior of Burying Beetles". Annual Review of Entomology. 43 (1): 595–618. doi:10.1146/annurev.ento.43.1.595. ISSN   0066-4170. PMID   15012399.
  3. 1 2 Trumbo, Stephen T. (1990). "Reproductive Benefits of Infanticide in a Biparental Burying Beetle Nicrophorus orbicollis". Behavioral Ecology and Sociobiology. 27 (4): 269–273. doi:10.1007/BF00164899. ISSN   0340-5443. JSTOR   4600477.
  4. 1 2 "Federal Register :: Endangered and Threatened Wildlife and Plants; Reclassification of the American Burying Beetle From Endangered to Threatened With a Section 4(d) Rule".
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  6. 1 2 Benowitz, Kyle M.; Moore, Allen J. (December 2016). "Biparental care is predominant and beneficial to parents in the burying beetle Nicrophorus orbicollis (Coleoptera: Silphidae)". Biological Journal of the Linnean Society. 119 (4): 1082–1088. doi: 10.1111/bij.12830 . PMC   5181846 . PMID   28025585.
  7. 1 2 3 Smiseth, P. T. (July 2004). "Behavioral dynamics between caring males and females in a beetle with facultative biparental care". Behavioral Ecology. 15 (4): 621–628. doi: 10.1093/beheco/arh053 . hdl: 10.1093/beheco/arh053 . ISSN   1465-7279.
  8. Muller, J. K. (March 2003). "Nestmate recognition in burying beetles: the "breeder's badge" as a cue used by females to distinguish their mates from male intruders". Behavioral Ecology. 14 (2): 212–220. doi: 10.1093/beheco/14.2.212 . ISSN   1465-7279.
  9. Canada, Environment and Climate Change (10 October 2012). "American burying beetle (Nicrophorus americanus): COSEWIC assessment and status report 2011". www.canada.ca. Retrieved 2023-04-25.
  10. EGGERT, ANNE-KATRIN; REINKING, MARTINA; MÜLLER, JOSEF K (January 1998). "Parental care improves offspring survival and growth in burying beetles". Animal Behaviour. 55 (1): 97–107. doi:10.1006/anbe.1997.0588. ISSN   0003-3472. PMID   9480676.
  11. Duarte, Ana; Rebar, Darren; Hallett, Allysa C.; Jarrett, Benjamin J. M.; Kilner, Rebecca M. (24 November 2021). "Evolutionary change in the construction of the nursery environment when parents are prevented from caring for their young directly". Proceedings of the National Academy of Sciences. 118 (48). Bibcode:2021PNAS..11802450D. doi: 10.1073/pnas.2102450118 . hdl: 10871/128609 . ISSN   0027-8424. PMC   8640939 . PMID   34819363.
  12. Trumbo, Stephen T.; Valletta, Richard C. (April 2007). "The Costs of Confronting Infanticidal Intruders in a Burying Beetle". Ethology. 113 (4): 386–393. Bibcode:2007Ethol.113..386T. doi:10.1111/j.1439-0310.2006.01326.x. ISSN   0179-1613.
  13. Trumbo, S.T. 1994. Interspecific competition, brood parasitism, and the evolution of biparental cooperation in burying beetles. Oikos. 69:241–249.
  14. 1 2 Bartlett, J. (September 1987). "Filial cannibalism in burying beetles". Behavioral Ecology and Sociobiology. 21 (3): 179–183. doi:10.1007/bf00303208. ISSN   0340-5443.
  15. "This Beetle Lays its Eggs in Dead Mice Carcasses and then Covers Them With Mucus – But it's Endangered and Important". The Equation. 5 September 2018. Retrieved 2023-04-26.
  16. "A Bit of Good Luck: A New Species of Burying Beetle from the Solomon Islands Archipelago". Science Daily. 21 June 2013.
  17. Sikes D, Trumbo ST, Peck SB (2016) Cryptic diversity in the New World burying beetle fauna: Nicrophorus hebes Kirby - new status as a resurrected name (Coleoptera: Silphidae: Nicrophorinae). Arthropod Systematics & Phylogeny 74(3): 299-309
  18. Sikes, Derek S.; Madge, Ronald B. & Newton, Alfred F. (29 August 2002). "A catalog of the Nicrophorinae (Coleoptera: Silphidae) of the world". Zootaxa. 65 (1): 1–304. doi: 10.11646/zootaxa.65.1.1 .
  19. Cai, Chen-Yang; Thayer, Margaret K.; Engel, Michael S.; Newton, Alfred F.; Ortega-Blanco, Jaime; Wang, Bo; Wang, Xiang-Dong; Huang, Di-Ying (30 September 2014). "Early origin of parental care in Mesozoic carrion beetles". Proceedings of the National Academy of Sciences. 111 (39): 14170–14174. Bibcode:2014PNAS..11114170C. doi: 10.1073/pnas.1412280111 . ISSN   0027-8424. PMC   4191754 . PMID   25225362.
  20. Toussaint, Emmanuel F. A.; Condamine, Fabien L. (April 2016). "To what extent do new fossil discoveries change our understanding of clade evolution? A cautionary tale from burying beetles (Coleoptera: Nicrophorus)". Biological Journal of the Linnean Society. 117 (4): 686–704. doi: 10.1111/bij.12710 .
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