Teleogryllus commodus

Last updated

Teleogryllus commodus
Field-cricket-20070325-004.jpg
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Orthoptera
Suborder: Ensifera
Family: Gryllidae
Subfamily: Gryllinae
Tribe: Gryllini
Genus: Teleogryllus
Species:
T. commodus
Binomial name
Teleogryllus commodus
(Walker, 1869)
Synonyms

Gryllus commodus Walker [1]
Gryllus carbonarius Audinet-Serville 1839
Gryllus fuliginosus Audinet-Serville 1839
Gryllus servillii de Saussure 1877

Contents

Teleogryllus commodus, commonly known as the black field cricket, is a cricket species native to Australia. They are significant pests to most plants in Australia and New Zealand. [2] T. commodus belongs to the order Orthoptera, the family Gryllidae which are characterized by wings that are folded on the side of the body, chewing mouthparts and long, thin antennae. T. commodus has the ability to learn via the recognition of rewards. They are also capable of odour recognition and thus can be taught via odour pairing. [3]

Morphology

T. commodus can grow up to 30 mm long, with long antennas and legs adapted for jumping. [4] Their coloration is usually black or brown. [4] Nymphs can be recognized by a white stripe on the abdomen. [4] Adult females are characterized by ovipositors which are long structures used for laying eggs. [4] In contrast, males have modified veins in forewings with hard pegs that play a role in song production. [5] Another fact about black field crickets is that their tegmina (leathery forewing) is asymmetrical. [5]

T. commodus undergo hemimetabolous (the lack of pupal stage from larva to adult) development with 3 main stages: egg, nymph (multiple stages~8), and adulthood [4] Females age faster than males do. [6] [7] Furthermore, virgin males have a shorter life expectancy than mated males, most likely due to high calling efforts in attracting mates. [7] However, high quality males may still die sooner if they call very intensely. [6]

Habitat

T. commodus can be located throughout Australia and New Zealand. [2] The species originated in Australia but with time they were introduced to New Zealand. [2] They are known to cause significant damage to pastures and gardens. [2] The habitat of T. commodus consists of rocky surfaces or ground with large amounts of cracks as it gives them shelter from the sun, and is most active at night. [4] Moreover, T. commodus live in clusters and thus seek living quarters that are already occupied by others. [8] The adult males usually change burrows every two days as a consequence of scarce mates or frequent attacks from other males. [8]

Habit

T. commodus are omnivores so their diet is rather broad but they mostly feed on plants, so far no preference for any particular plants has been established. [4] Reproductive differences between male and females result in differing dietary requirements. [7] Females require a diet with higher protein content for the production of eggs, whereas males require an energy rich diet for call production. [7]

Reproduction

Males attract females to burrows through production of advertisement calls, wherein females will mount the males should they be interested - therefore, song production is a key determinant for fitness of the male. [9] [10] Once a female have chosen a mate, they undergo multiple matings to increases the males’ probability of paternity. [10]

Successful mating leads to oogenesis (production of egg), ovulation (release of egg into oviduct), fertilization, and oviposition (deposition of eggs using ovipositor). [11] Once the eggs are laid they need to absorb water required for development. [12] The duration of water absorption is dependent on the temperature of the environment; in higher temperatures, faster water absorption is required. [12] By absorbing water, the size of the egg shell increases thereby increasing the odds of the progeny hatching. [12]

Song production

Male black field crickets produce mating calls using their forewings. [5] Rubbing of wings produces pure tones, while rapid oscillations produce acoustic radiation. [5] The greatest degree of sounds are generated upon wing closure. [5] The general pattern of advertisement calls start with single chirp then move to pulsation with high repetition. [9] The duration of calls is an aspect females seek as an indication of genetic superiority. [9] In addition, females show a preference for males that produce a large number of repeats during calling. As such, males spend as long as half a night calling. [9] Prolonged calling, however, comes with a price by shortening of the male lifespan because of the associated high energy expenditure. [6] Calling is also an indicator of male age, as the expression of signaling changes with age. [6] Females showed a preference for males that produce large number of repeats during calling. [9]

Fight behaviour

T. commodus fighting behavior resembles that of hermit crabs and gammarids. [13] Their stereotypical fighting sequence starts with antennal contact and mandible flaring. [13] If neither male concedes from the aggressive display, violent wrestling and biting proceeds. [13] The winner of the fight often exhibits acoustic display. [13] The antennal contact is a way for males to communicate their strength. [13] Naive males are just as likely as larger males to win a non-physical opponent. [13]

Predators

Natural predators of T. commodus include bats and ground beetles. [14] [15] The key to crickets' survival when targeted by predators is detection. T. commodus mostly rely on their hearing when avoiding predators, which is affected by their surroundings. [15]

Inbreeding avoidance

Male T. commodus use advertisement calling to attract mates. Inbred males call less often than out-bred males. Female T. commodus prefer males with a more frequent calling effort, so that inbred males suffer reductions in mating success. [16] Male calling rate likely serves as an indicator to females of genome-wide heterozygosity and/or male condition.

Related Research Articles

<span class="mw-page-title-main">Tettigoniidae</span> Family of insects

Insects in the family Tettigoniidae are commonly called katydids, or bush crickets. They have previously been known as "long-horned grasshoppers". More than 8,000 species are known. Part of the suborder Ensifera, the Tettigoniidae are the only extant (living) family in the superfamily Tettigonioidea.

<span class="mw-page-title-main">Mormon cricket</span> Species of cricket-like animal

The Mormon cricket is a large insect native to western North America in rangelands dominated by sagebrush and forbs. Anabrus is a genus in the shield-backed katydid subfamily in the Tettigoniidae family, commonly called katydids, bush crickets, and previously "long-horned grasshoppers". Its common name, "Mormon cricket", is a misnomer: true crickets are of the family Gryllidae.

<span class="mw-page-title-main">Gryllinae</span> Subfamily of crickets

Gryllinae, or field crickets, are a subfamily of insects in the order Orthoptera and the family Gryllidae.

<span class="mw-page-title-main">Bibron's toadlet</span> Species of amphibian

The Bibron's toadlet or brown toadlet is a species of Australian ground-dwelling frog that, although having declined over much of its range, is widespread through most of New South Wales, Victoria, south-eastern Queensland, and eastern South Australia, including Kangaroo Island. Bibron's toadlet settles in a wide variety of habitats within these region but they mainly reside in dry forests, woodland, shrubland, grassland, coastal swamps, heathland, and sub-alpine areas. They deposit their eggs in leaf litters during the flooding season, which is essential for the proper development of the egg. This species has high sexual dimorphism within the species and utilizes chemosignals to attract potential mates.

<i>Gryllus bimaculatus</i> Species of cricket

Gryllus bimaculatus is a species of cricket in the subfamily Gryllinae. Most commonly known as the two-spotted cricket, it has also been called the "African" or "Mediterranean field cricket", although its recorded distribution also includes much of Asia, including China and Indochina through to Borneo. It can be discriminated from other Gryllus species by the two dot-like marks on the base of its wings.

<i>Teleogryllus oceanicus</i> Species of cricket

Teleogryllus oceanicus, commonly known as the Australian, Pacific or oceanic field cricket, is a cricket found across Oceania and in coastal Australia from Carnarvon in Western Australia and Rockhampton in north-east Queensland

<i>Dendropsophus ebraccatus</i> Species of amphibian

Dendropsophus ebraccatus, also known as the hourglass treefrog, referring to the golden-brown hourglass shape seen surrounded by skin yellow on its back. Their underbellies are yellow. Their arms and lower legs usually display bold patterns while their upper legs or thighs are light yellow giving them the appearance of wearing no pants. The species name "ebraccata" translates to "without trousers" in Latin.

<span class="mw-page-title-main">Panama cross-banded tree frog</span> Species of amphibian

The Panama cross-banded tree frog or pug-nosed tree frog is a species of frog in the family Hylidae found in the humid Pacific lowlands of southwestern Costa Rica to eastern Panama and in the Caribbean lowlands of Panama and northern Colombia. Males of the species utilize synchronous calling to hide their position from predators. Females create basins during amplexus and deposit fertilized eggs onto the surface of the water.

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

The quacking frog also known as the red-thighed froglet due to its legs tending to be bright red. It is a species of frog from the Myobatrachidae family and is in a clad with five other species. The frog is well known for the sound it produces which resembles a quack. It has up to 11 notes and can change the notes in their call. It has larger testes compared to other frogs within the genus and has started to be used in experiments. This frog is found in southwest Australia. It is found in ponds and pools and other moisture filled areas. These frogs engage in polyandry and can result in multiple paternity of its offspring. Additionally, the tadpoles of this species can change the rate they metamorphosize depending on the conditions. The males tend to have larger arm girth and can adopt different mating strategies depending on size. The mating strategy is dependent on male density. The frogs also vary in terms of color and texture of its skin. The tadpoles are generally golden with transparent tails.

<i>Gryllus pennsylvanicus</i> Species of cricket

Gryllus pennsylvanicus is known as the fall field cricket. G. pennsylvanicus is common in southern Ontario, is widespread across much of North America and can be found even into parts of northern Mexico. It tends to be absent in most of the southwestern United States including southern California. Within its geographic range this field cricket will burrow into soil in fields and forest edges. Individuals inhabit grassy disturbed areas and are often found around areas of human habitation.

<i>Gryllus veletis</i> Species of cricket

Gryllus veletis, commonly known as the spring field cricket, is abundant throughout eastern North America. G. veletis is a solitary, aggressive, omnivorous, burrow-inhabiting species of cricket. This species is commonly confused with Gryllus pennsylvanicus, as they inhabit the same geographical area. However, the two species are easily distinguished through examination of life history, ovipositor and behavioural differences. Predators of G. veletis include American toads, wild turkeys, red-tailed hawks, wolf spiders and red-backed salamanders.

<span class="mw-page-title-main">Cricket (insect)</span> Small insects of the family Gryllidae

Crickets are orthopteran insects which are related to bush crickets, and, more distantly, to grasshoppers. In older literature, such as Imms, "crickets" were placed at the family level, but contemporary authorities including Otte now place them in the superfamily Grylloidea. The word has been used in combination to describe more distantly related taxa in the suborder Ensifera, such as king crickets and mole crickets.

<i>Helicoverpa assulta</i> Species of moth

Helicoverpa assulta, the oriental tobacco budworm, is a moth of the family Noctuidae. H. assulta adults are migratory and are found all over the Old World Tropics including Asia, Africa, and Australia.

<i>Gryllus rubens</i> Species of cricket

Gryllus rubens, commonly known as the southeastern field cricket, is one of many cricket species known as a field cricket. It occurs throughout most of the Southeastern United States. Its northern range spans from southern Delaware to the extreme southeastern corner of Kansas, with a southern range stretching from Florida to eastern Texas.

<span class="mw-page-title-main">Marlene Zuk</span> American evolutionary biologist

Marlene Zuk is an American evolutionary biologist and behavioral ecologist. She worked as professor of biology at the University of California, Riverside (UCR) until she transferred to the University of Minnesota in 2012. Her studies involve sexual selection and parasites.

An illegitimate receiver is an organism that intercepts another organism's signal, despite not being the signaler's intended target. In animal communication, a signal is any transfer of information from one organism to another, including visual, olfactory, and auditory signals. If the illegitimate receiver's interception of the signal is a means of finding prey, the interception is typically a fitness detriment to either the signaler or the organism meant to legitimately receive the signal, but it is a fitness advantage to the illegitimate receiver because it provides energy in the form of food. Illegitimate receivers can have important effects on the evolution of communication behaviors.

Gryllus integer, commonly known as the western trilling cricket, is one of many species of field cricket in the genus Gryllus. It is called the "triller" field cricket because its song is nearly continuous rather than broken into discrete chirps. G. integer can be found in parts of the Western United States, having been recorded from Oregon, California, Arizona and New Mexico.

<i>Anurogryllus arboreus</i> Species of cricket

Anurogryllus arboreus, the common short-tailed cricket or arboreal short-tailed cricket, is a species of cricket in the family Gryllidae. It is native to the southern and south-eastern United States where it lives in a burrow that it digs.

<i>Hemiandrus maculifrons</i> Species of orthopteran insect

Hemiandrus maculifrons is a species of ground wētā endemic to New Zealand. They are nocturnal, carnivorous, and flightless orthopterans belonging to the family Anostostomatidae. Being a nocturnal species, individuals remain in tunnels in the ground during the day and emerge from their burrows after sunset to forage and hunt for small invertebrates. H. maculifrons is one of the smallest New Zealand weta species, averaging 15 mm in length and weighing 1–3 g. Unlike the tree weta and tusked weta, where sexual dimorphism is found in the form of male weaponry, ground weta only exhibit sexual size dimorphism: the females are larger than the males.

<i>Acanthogryllus fortipes</i> Southern African cricket species

Acanthogryllus fortipes, or the brown cricket, is a species of cricket from southern Africa. It is mostly dark brown in colour and has a large head. It is a common species in short grass, including artificial habitats such as lawns and fields.

References

  1. iphylo.org
  2. 1 2 3 4 Chen G, Vickery V.R., and Kevan D.K. 1967. A Morphological Comparison of Antipodean Teleogryllus Species. Canadian Journal of Zoology 45: 1215-1224 .
  3. Anderson C, Kasumovic M. 2017. Development rate rather than social environment influences cognitive performance in Australian black field crickets, Teleogryllus commodus. PeerJ 5: 1-15.
  4. 1 2 3 4 5 6 7 Kimber B, McDonald G. 2015 . Black Field Crickets Teleogryllus commodus. Pest Notes Southern 1: 1-5.
  5. 1 2 3 4 5 Montealegre-Z F, Jonsson T, and Robert D. 2011. Sound radiation and wing mechanics in stridulating field crickets. The Journal of Experimental Biology 214: 2105-2117.
  6. 1 2 3 4 Hunt J, Jennions M.D.,Spyrou N, and Brooks R. 2006. Artificial Selection on Male Longevity Influences Age‐Dependent Reproductive Effort in the Black Field Cricket T. Commodus. The American Naturalist 168:72-86 .
  7. 1 2 3 4 Zajitschek F, Lailvaux S.P., Dessmann J, and Brooks R. Diet, sex, and death in field crickets. Ecology and Evolution 2:1627-1632 .
  8. 1 2 Evans A.R. 2016. A study of the behaviour of the Australian field cricket T. commodus (Walker) (Orthoptera: Gryllidae) in the field and in habitat simulations. Zeitschrift für Tierpsychologie 62: 269-290 .
  9. 1 2 3 4 5 Bentsen C.L., Hunt J, Jennions M.D., Brooks R. 2006. Complex Multivariate Sexual Selection on Male Acoustic Signaling in a Wild Population of Teleogryllus commodus. The American Naturalist 167:102-116.
  10. 1 2 Shackleton M.A., Jennions M.D., Hunt J. 2005. Fighting Success and Attractiveness as Predictors of Male Mating Success in the Black Field Cricket, T. commodus. Behavior Ecology 58:1-8 .
  11. Larson E.L., Andres J.A., Harrison R.G. 2012. Influence of the Male Ejaculate on Post-Mating Prezygotic Barriers in Field Crickets. PLOS One 7: 1-10 .
  12. 1 2 3 Browning T.O. 1965. Observations on the Absorption of Water, Diapause and Embryogenesis in the Eggs of the Cricket T. commodus. J. Exp. Biol 43:433-439 .
  13. 1 2 3 4 5 6 Reaney L.T., Drayton J.M., Jennions M.D. 2010. The role of body size and fighting experience in predicting contest behaviour in the black field cricket, Teleogryllus commodus. Behavioral Ecology and Sociobiology 65:217-225 .
  14. Giachino P.M. 2005. Results of the Zoological Missions to Australia of the Regional Museum of Natural Science of Turin, Italy. Monographs Museo Regionale di Scienze Naturali Torino 42: 239-268 .
  15. 1 2 Kibedi J. 2016. An Investigation on the Ecological Significance of the Terrestrial Context in Predator-Prey Interactions between Echolocating Bats and the Australian Field Cricket. School of Biomedical Science 1-207.
  16. Drayton JM, Milner RN, Hunt J, Jennions MD (2010). "Inbreeding and advertisement calling in the cricket Teleogryllus commodus: laboratory and field experiments". Evolution. 64 (10): 3069–83. doi:10.1111/j.1558-5646.2010.01053.x. PMID   20662924.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.