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Mole cricket

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Mole cricket
Temporal range: Lower Cretaceous–recent 140–0 Ma
File:Mole cricket02.jpg
Gryllotalpa brachyptera
Scientific classification e
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Orthoptera
Suborder: Ensifera
Superfamily: Grylloidea
Family: Gryllotalpidae
Saussure, 1870
File:Gryllotalpidae-verbreitung.png
Distribution of Gryllotalpa, Scapteriscus, Neocurtilla

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Mole crickets are members of the insect family Gryllotalpidae, in the order Orthoptera (grasshoppers, locusts and crickets). Mole crickets are cylindrical-bodied insects about 3–5 centimetres (1.2–2.0 in) long, with small eyes and shovel-like forelimbs highly developed for burrowing. They are present in many parts of the world and where they have been introduced into new regions, may become agricultural pests.

Mole crickets have three life stages, eggs, nymphs and adults. Most of their life in these stages are spent underground but adults have wings and disperse in the breeding season. They vary in their diet; some species are vegetarian, mainly feeding on roots, others are omnivores, including worms and grubs in their diet, while a few are largely predacious. Male mole crickets have an exceptionally loud song; they sing from a sub-surface burrow that opens out into the air in the shape of an exponential horn. The song is an almost pure tone, modulated into chirps. It is used to attract females, either for mating, or for indicating favourable habitats for them to lay their eggs.

Description

Mole crickets vary in size and appearance, but most of them are of moderate size for an insect, typically between 3.2 and 3.5 cm (1.3 and 1.4 in) long. They are adapted for underground life and are cylindrical in shape and covered with fine, dense hairs. The head, forelimbs, and prothorax are heavily sclerotinised but the abdomen is rather soft.[1] The head bears two threadlike antennae and a pair of beady eyes.[2] The two pairs of wings are folded flat over the abdomen; in most species, the fore wings are short and rounded and the hind wings are membranous and reach or exceed the tip of the abdomen; however, in some species the hind wings are reduced in size and the insect is unable to fly. The fore legs are flattened for digging but the hind legs are shaped somewhat like the legs of a true cricket; however, these limbs are more adapted for pushing soil, rather than leaping, which they do rarely and poorly. The nymphs resemble the adults apart from the absence of wings and genitalia; the wingpads become larger after each successive moult.[3]

Taxonomy and phylogeny

The Gryllotalpidae are a monophyletic group in the order Orthoptera (grasshoppers, locusts and crickets). Cladistic analysis of mole cricket morphology in 2015 identifies six tribes, of which four were then new: Indioscaptorini (Scapteriscinae), Triamescaptorini, Gryllotalpellini and Neocurtillini (Gryllotalpinae), and two existing tribes, Scapteriscini and Gryllotalpini, are revised.[4] The group name is derived straightforwardly from Latin 'gryllus', cricket, and 'talpa', mole.[5]

Mole cricket groups
Subfamily Image Example Notes
Scapteriscinae 120px Scapteriscus vicinus Extant
Gryllotalpinae 120px Gryllotalpa africana Extant
Marchandiinae<templatestyles src="Noitalic/styles.css"/> Lower Cretaceous of France

Within these subfamilies, there are some known genera:[6]

Mole cricket fossils are rare. A stem group fossil, Cratotetraspinus, is known from the Lower Cretaceous of Brazil.[7] Two specimens of Marchandia magnifica in amber have been found in the Lower Cretaceous of Charente-Maritime in France.[8] They are somewhat more abundant in the Tertiary amber of the Baltic and Dominican regions; impressions are found in Europe and the American Green River Formation.[9]

File:Ripipteryx mopana.jpg
Pygmy mole crickets are members of the grasshopper suborder Caelifera.

Mole crickets are not closely related to the "pygmy mole crickets", the Tridactyloidea, which are in the grasshopper suborder Caelifera rather than the cricket suborder Ensifera. The two groups, and indeed their resemblance in form to the mammalian mole family Talpidae with their powerful front limbs, form an example of convergent evolution, both developing adaptations for burrowing.[10]

Behavior

Adults of most species of mole cricket can fly powerfully, if not with agility, but males do so infrequently. The females typically take wing soon after sunset, and are attracted to areas where males are calling, which they do for about an hour after sunset. This may be in order to mate, or they may be influenced by the suitability of the habitat for egg-laying, as demonstrated by the number of males present and calling in the vicinity.[1]

Life cycle

File:MoleCricketLyd.png
Life cycle of the [European] mole cricket, from Richard Lydekker's Royal Natural History, 1879

Mole crickets are hemimetabolous meaning they undergo incomplete metamorphosis; when nymphs nymphs hatch from eggs, the nymphs increasingly resemble the adult form as they grow and pass through a series of up to ten moults. After mating, there may be a period of one or two weeks before the female starts laying eggs. She burrows into the soil to a depth of 30 cm (12 in), (72 cm (28 in) has been seen in the laboratory), and lays a clutch of 25 to 60 eggs. Neoscapteriscus females then retire, sealing the entrance passage, but in Gryllotalpa and Neocurtilla species, the female has been observed to remain in an adjoining chamber to tend the clutch. Further clutches may follow over several months, according to species. Eggs need to be laid in moist ground and many nymphs die because of insufficient moisture in the soil. The eggs hatch in a few weeks, and as they grow, the nymphs consume a great deal of plant material and tunnel their way gradually towards the surface.[11]

The adults of some species of mole cricket may move as far as 8 kilometres (5.0 mi) during the breeding season. Mole crickets are active most of the year, but overwinter as nymphs or adults in cooler climates, resuming activity in the spring.[1]

Burrowing

Mole crickets live almost entirely below ground, digging tunnels of different kinds for the major functions of life, including feeding, escape from predators, attracting a mate (by singing), mating, and raising of young.[12]

Their main tunnels are used for feeding and for escape: they can dig themselves underground very rapidly, and can move along existing tunnels at high speed both forwards and backwards. Their digging technique is to force the soil to either side with their powerful, shovel-like forelimbs, which are broad, flattened, toothed and heavily sclerotised (the cuticle is hardened and darkened).[12]

Males attract mates by constructing specially-shaped tunnels in which they sing.[12] Mating takes place in the male's burrow; the male may widen a tunnel to make room for the female to mount, though in some species mating is tail-to-tail.[12] Females lay their eggs either in their normal burrows or in specially-dug brood chambers which are sealed when complete.[12]

Song

Male mole cricket in singing position in burrow. The burrow is shaped as a double exponential horn with bulb, forming an effective resonator.[lower-alpha 1]

Male mole crickets sing by stridulating, always underground.[13] The song is based on an almost pure tone at 3.5 kiloHertz, loud enough to make the ground vibrate 20 cm all round the burrow. In Gryllotalpa gryllotalpa the burrow is somewhat roughly sculpted; in Gryllotalpa vineae, the burrow is smooth and carefully shaped, with no irregularities larger than 1 millimetre. In both species the burrow takes the form of a double exponential horn with twin openings at the soil surface; at the other end there is a constriction, then a resonating bulb, and then an escape tunnel. A burrow is used for at least a week. The male positions himself head down with his head in the bulb, his tail near the fork in the tunnel.[13][15]

Mole crickets stridulate like other crickets by scraping the rear edge of the left forewing, which forms a plectrum, against the lower surface of the right forewing, which has a ratchet-like series of asymmetric teeth: the more acute edges face backwards, as do those of the plectrum. The plectrum can move forwards with little resistance; but moving it backwards makes it catch each tooth, setting up a vibration in both wings. The sound-producing stroke is the raising (levation) of the wings. The resulting song resembles the result of modulating a pure tone with a 66 Hertz wave to form regular chirps. In G. vineae, the wing levator muscle, which weighs 50 milligrams, can deliver 3.5 milliWatts of mechanical power; G. gryllotalpa can deliver about 1 milliWatt. G. vineae produces an exceptionally loud song from half an hour after sunset, continuing for an hour; it can be heard up to 600 metres away. At a distance of 1 metre from the burrow, the sound has a mean power over the stridulation cycle of up to 88 decibels; the loudest recorded peak power was about 92 decibels; at the mouths of the burrow, the sound reaches around 115 decibels. G. gryllotalpa can deliver a peak sound pressure of 72 decibels and a mean of about 66 decibels. The throat of the horn appears to be tuned (offering low inductive reactance), making the burrow radiate sound efficiently; the efficiency increases when the burrow is wet and absorbs less sound. The mole cricket is the only insect that constructs a sound-producing apparatus. Given the known sensitivity of a cricket's hearing (60 decibels), a night-flying G. vineae female should be able to detect the male's song at a range of 30 metres; this compares to about 5 metres for a typical Gryllus cricket that does not construct a burrow.[13]

The loudness of the song is correlated with the size of the male and the quality of the habitat, both indicators of male attractiveness. The loudest males may attract 20 females in one evening, when a quieter male may attract none. This behaviour enables acoustic trapping: females can be trapped in large numbers by broadcasting a male's song very loudly.[16][17]

Food

Mole crickets vary in their diets; some like the tawny mole cricket are herbivores, others are omnivores, feeding on larvae, worms, roots, and grasses, and others like the southern mole cricket are mainly predacious,[11] feeding on insects and other small arthropods.[18] As well as consuming roots underground, mole crickets leave their burrows at night to forage for leaves and stems which they drag underground before consumption.[3]

Predators, parasites and pathogens

Besides birds, lizards and insectivorous mammals, the natural enemies of mole crickets include ants and beetle larvae which eat the eggs, nematodes and mites.[19] The nematode Steinernema scapterisci kills Neocapteriscus mole crickets by introducing bacteria into their bodies, causing an overwhelming infection.[20][21] Some parasitic wasps attack developing mole crickets; the parasitoid Larra polita has been used in Hawaii to control oriental mole crickets that were damaging sugarcane crops.[22] The Brazilian red-eyed fly is a specialised parasitoid of mole crickets in the genus Neoscapteriscus. The fly's larvae hatch from eggs inside her abdomen; she is attracted by the call of the male mole cricket and deposits a larva on any individual with which she comes in contact.[23] Another specialist predator is the larva of the ground beetle Pheropsophus aequinoctialis. The adult beetle lays eggs beside the burrows of Neoscapteriscus mole crickets, and the beetle larvae find their way to the egg chamber and eat the eggs.[11] Fungal diseases can devastate mole cricket populations during winters with sudden rises of temperature and thaws.[19] The fungus Beauveria bassiana can overwhelm adult mole crickets[24] Mole crickets evade predators by living below ground, and vigorously burrowing if disturbed at the surface. As a last-ditch defence, they eject a foul-smelling brown liquid from their anal glands when captured;[25] they can also bite.[26]

Distribution

Mole crickets are relatively common, but because they are nocturnal and spend nearly all their lives underground in extensive tunnel systems, they are rarely seen. They inhabit agricultural fields and grassy areas. They are present in every continent with the exception of Antarctica; by 2014, one hundred and seven species had been described and more species are likely to be discovered, especially in Asia. Neoscapteriscus didactylus is a widespread pest species, originating in South America it has spread to the West Indies and New South Wales in Australia.[27] Gryllotalpa africana is a major pest in South Africa, and other Gryllotalpa species are widely distributed in Europe, Asia and Australia.[28] They are native to mainland Britain (as to western Europe) but the former population of G. gryllotalpa may now be extinct in Britain [29] although surviving in the Channel Islands.[30]

Adventive and invasive mole crickets

Adventive species are those that have somehow arrived in places other than their native range. Invasive species are those that cause harm in their newly occupied area.

The first-detected invasive mole cricket species was Neoscapteriscus didactylus, a South American species reported as a pest in St. Vincent, West Indies as early as 1837; by the end of that century, it was reported as a major pest of agriculture in Puerto Rico. The likelihood is that individuals had flown north, island by island from South America, over a long period of time; accounts for other islands in the Lesser Antilles and north as far as the Dominican Republic in the Greater Antilles accrued later.[27]

Very much later, this same species was reported as a pest in Queensland, Australia, presumably having been transported there as a hitchhiker aboard a ship or plane.[31]

The next-detected invasive mole cricket species occurred in the late 19th century reported in Hawaii as Gryllotalpa africana; it was not that species but probably was Gryllotalpa orientalis, and was presumably imported as a hitchhiker aboard a ship.

The next detection was in Georgia, USA, and at that time was assumed to be Neoscapteriscus didactylus from the West Indies.[2] However, it was not that species. “It” was in fact three South American Neoscapteriscus species, N. abbreviatus, N . vicinus, and N. borellii, which for decades caused major problems as they spread in the southeastern USA, and all three are presumed to have arrived as hitchhikers in ship ballast.[32] That problem has largely been solved by biological control in a 30-year program at the University of Florida.

Not much later, in 1913, came detection of the European mole cricket, Gryllotalpa gryllotalpa, in the northeastern USA as a hitchhiker in potted plants imported aboard ships from western Europe. It is still present in New Jersey, New York, and Connecticut, but rarely causes pest problems. Curiously, it has been declared an endangered species in the United Kingdom, and may even be extinct there.

As pests

File:Larra bicolor in Paynes Prairie, Florida.jpg
The parasitoidal wasp Larra bicolor, introduced to Florida to help control Neoscapteriscus mole crickets there

The main damage done by mole crickets is as a result of their burrowing activities. As they tunnel through the top few centimetres of soil they push the ground up in little ridges, increasing evaporation of surface moisture, disturbing germinating seeds and damaging the delicate young roots of seedlings.[2] They are also injurious to turf- and pasture-grasses as they feed on the roots of the grasses, leaving the plants prone to drying-out and damage by use.[3]

In their native lands, mole crickets have natural enemies that keep them under control.[33] This is not the case when they have been accidentally introduced to other parts of the world. In Florida they are considered pests and are described as "a serious problem". A University of Florida Entomology report suggests that South American Neoscapteriscus mole crickets may have entered the United States at Brunswick, Georgia in ship's ballast from southern South America around 1899, but were at that time mistakenly believed to be from the West Indies.[32] One possible remedy is biological pest control using the parasitoidal wasps Larra bicolor.[34] Another remedy that has been successfully applied is use of the parasitic nematode Steinernema scapterisci. When this is applied in strips across grassland, it spreads throughout the pasture within a few months and not only controls the mole crickets, but remains infective in the soil for future years.[35] The Brazilian red-eyed fly (Ormia depleta) has been released in Florida to help control mole crickets;[36] it has established itself in the center and south of the state but is unable to survive over winter in the north.[11]

In human culture

Folklore

In Zambia, Gryllotalpa africana is held to bring good fortune to anyone who sees it.[37] In Latin America, Scapteriscus and Neocurtilla mole crickets are said to predict rain when they dig into the ground.[38] In Japan in the past they seem to have been associated with the worms/corpses/bugs that announce a persons sins to heaven in the Koshin/Koushin belief—see the spirit ghoul shokera/shoukera.

As food

Gryllotalpa mole crickets have sometimes been used as food in West Java and Vietnam.[39]

In the Philippines, they are served as a delicacy called Camaro in the province of Pampanga[40][41] and are a tourist attraction.[42][43] They are also served in parts of Northern Luzon.[39]

Notes

  1. Drawing based on Bennet-Clark, 1970[13] with public domain insect from Lydekker 1879.[14]

References

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  6. Orthoptera Species File
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  24. Pendland, J.C., Boucias, D.G. 2008. Beauveria, pp. 401-404. In Capinera, J. L. (ed.). Encyclopedia of Entomology. Springer Science and Business Media. isbn 978-1-4020-6242-1
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  37. Mbata 1999
  38. Fowler 1994
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