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Tettigoniidae

November 17, 2023

"Katydid" redirects here. For other uses, see Katydid (disambiguation).

Insects in the family Tettigoniidae are commonly called katydids (especially in North America),[1] or bush crickets.[2] They have previously been known as "long-horned grasshoppers".[3] More than 8,000 species are known.[1] Part of the suborder Ensifera, the Tettigoniidae are the only extant (living) family in the superfamily Tettigonioidea.

Tettigoniidae
Temporal range: Jurassic–recent
Tettigonia viridissima
Stridulation of T. viridissima
Scientific classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Orthoptera
Suborder: Ensifera
Infraorder: Tettigoniidea
Superfamily: Tettigonioidea
Krauss, 1902
Family: Tettigoniidae
Krauss, 1902
Subfamilies

See text

They are primarily nocturnal in habit with strident mating calls. Many species exhibit mimicry and camouflage, commonly with shapes and colors similar to leaves.[4]

Etymology edit

The family name Tettigoniidae is derived from the genus Tettigonia, first described by Carl Linnaeus in 1758. In Latin tettigonia means a kind of small cicada, leafhopper;[5] it is from the Greek τεττιγόνιον tettigonion, the diminutive of the imitative (onomatopoeic) τέττιξ, tettix, cicada.[6][7] All of these names such as tettix with repeated sounds are onomatopoeic, imitating the stridulation of these insects.[8] The common name katydid is also onomatopoeic and comes from the particularly loud, three-pulsed song, often rendered "ka-ty-did", of the nominate subspecies of the North American Pterophylla camellifolia, belonging to the subfamily Pseudophyllinae, which are known as "true katydids".[9][10]

Description and life cycle edit

Description edit

 
Tettigonia viridissima

Tettigoniids range in size from as small as 5 mm (0.20 in) to as large as 130 mm (5.1 in).[11] The smaller species typically live in drier or more stressful habitats which may lead to their small size. The small size is associated with greater agility, faster development, and lower nutritional needs. Tettigoniids are tree-living insects that are most commonly heard at night during summer and early fall.[12] Tettigoniids may be distinguished from the grasshopper by the length of their filamentous antennae, which may exceed their own body length, while grasshoppers' antennae are always relatively short and thickened.

 
Katydid camouflaged on a bamboo leaf

Life cycle edit

 
Katydid eggs attached in rows to a plant stem

Eggs are typically oval and may be attached in rows to plants. Where the eggs are deposited relates to the way the ovipositor is formed. It consists of up to three pairs of appendages formed to transmit the egg, to make a place for it, and place it properly. Tettigoniids have either sickle-shaped ovipositors which typically lay eggs in dead or living plant matter, or uniform long ovipositors which lay eggs in grass stems. When tettigoniids hatch, the nymphs often look like small, wingless versions of the adults, but in some species, the nymphs look nothing at all like the adult and rather mimic other species such as ants, spiders and assassin bugs, or flowers, to prevent predation. The nymphs remain in a mimic state only until they are large enough to escape predation. Once they complete their last molt (after about 5 successful molts), they are then prepared to mate.[12]

Distribution edit

Tettigoniids are found on every continent except Antarctica.[13] The vast majority of katydid species live in the tropical regions of the world.[4] For example, the Amazon basin rain forest is home to over 2,000 species of katydids.[4] However, katydids are found in the cool, dry temperate regions, as well, with about 255 species in North America.

Classification edit

The Tettigoniidae are a large family and have been divided into a number of subfamilies:[1]

The Copiphorinae were previously considered a subfamily, but are now placed as tribe Copiphorini in the subfamily Conocephalinae.[14] The genus Acridoxena is now placed in the tribe Acridoxenini of the Mecopodinae (previously its own subfamily, Acridoxeninae).

Extinct taxa edit

The Orthoptera species file[1] lists:

Genera incertae sedis
  • Locustites Heer, 1849: 3 spp.
  • Locustophanes Handlirsch, 1939: †L. rhipidophorus Handlirsch, 1939
  • Prophasgonura Piton, 1940: †P. lineatocollis Piton, 1940
  • Protempusa Piton, 1940: †P. incerta Piton, 1940
  • Prototettix Giebel, 1856: †P. lithanthraca (Goldenberg, 1854)

The genus †Triassophyllum is extinct and may be placed here or in the Archaeorthoptera.[15]

Ecology edit

 
Poecilimon thoracicus (Phaneropterinae)

The diet of most tettigoniids includes leaves, flowers, bark, and seeds, but many species are exclusively predatory, feeding on other insects, snails, or even small vertebrates such as snakes and lizards. Some are also considered pests by commercial crop growers and are sprayed to limit growth, but population densities are usually low, so a large economic impact is rare.[16]

Tettigoniids are serious insect pests of karuka (Pandanus julianettii).[17] The species Segestes gracilis and Segestidea montana eat the leaves and can sometimes kill trees.[17] Growers will stuff leaves and grass in between the leaves of the crown to keep insects out.[17]

By observing the head and mouthparts, where differences can be seen in relation to function, it is possible to determine what type of food the tettigoniids consume. Large tettigoniids can inflict a painful bite or pinch if handled, but seldom break the skin.

Some species of bush crickets are consumed by people, such as the nsenene (Ruspolia differens) in Uganda and neighbouring areas.

Communication edit

The males of tettigoniids have sound-producing organs located on the hind angles of their front wings. In some species, females are also capable of stridulation. Females chirp in response to the shrill of the males. The males use this sound for courtship, which occurs late in the summer.[18] The sound is produced by rubbing two parts of their bodies together, called stridulation. In many cases this is done with the wings, but not exclusively. One body part bears a file or comb with ridges; the other has the plectrum, which runs over the ridges to produce a vibration.[19] For tettigoniids, the fore wings are used to sing. Tettigoniids produce continuous songs known as trills. The size of the insect, the spacing of the ridges, and the width of the scraper all influence what sound is made.[20]

Many species stridulate at a tempo which is governed by ambient temperature, so that the number of chirps in a defined period of time can produce a fairly accurate temperature reading. For American katydids, the formula is generally given as the number of chirps in 15 seconds plus 37 to give the temperature in degrees Fahrenheit.[21]

Predation edit

 
Wandering spider (Cupiennius sp.) with Tettigoniidae sp. prey

Some tettigoniids have spines on different parts of their bodies that work in different ways. The Listroscelinae have limb spines on the ventral surfaces of their bodies. This works in a way to confine their prey to make a temporary cage above their mouthparts. The spines are articulated and comparatively flexible, but relatively blunt. Due to this, they are used to cage and not penetrate the prey's body. Spines on the tibiae and the femora are usually more sharp and nonarticulated. They are designed more for penetration or help in the defensive mechanism they might have. This usually works with their diurnal roosting posture to maximize defense and prevent predators from going for their head.[22]

Defense mechanisms edit

 
Katydid mimicking a leaf
A Meadow Katydids in Hawaii

When tettigoniids go to rest during the day, they enter a diurnal roosting posture to maximize their cryptic qualities. This position fools predators into thinking the katydid is either dead or just a leaf on the plant. Various tettigoniids have bright coloration and black apical spots on the inner surfaces of the tegmina, and brightly colored hind wings. By flicking their wings open when disturbed, they use the coloration to fool predators into thinking the spots are eyes. This, in combination with their coloration mimicking leaves, allows them to blend in with their surroundings, but also makes predators unsure which side is the front and which side is the back.[23]

Reproductive behavior edit

The males provide a nuptial gift for the females in the form of a spermatophylax, a body attached to the males' spermatophore and consumed by the female, to distract her from eating the male's spermatophore and thereby increase his paternity.[24]

Polygamy edit

The Tettigoniidae have polygamous relationships. The first male to mate is guaranteed an extremely high confidence of paternity when a second male couples at the termination of female sexual refractoriness. The nutrients that the offspring ultimately receive will increase their fitness. The second male to mate with the female at the termination of her refractory period is usually cuckolded.[25]

Competition edit

The polygamous relationships of the Tettigoniidae lead to high levels of male-male competition. Male competition is caused by the decreased availability of males able to supply nutritious spermaphylanges to the females. Females produce more eggs on a high-quality diet; thus, the female looks for healthier males with a more nutritious spermatophylax. Females use the sound created by the male to judge his fitness. The louder and more fluent the trill, the higher the fitness of the male.[26]

Stress response edit

Oftentimes in species which produce larger food gifts, the female seeks out the males to copulate. This, however, is a cost to females as they risk predation while searching for males. Also, a cost-benefit tradeoff exists in the size of the spermatophore which the male tettigoniids produce. When males possess a large spermatophore, they benefit by being more highly selected for by females, but they are only able to mate one to two times during their lifetimes. Inversely, male Tettigoniidae with smaller spermatophores have the benefit of being able to mate two to three times per night, but have lower chances of being selected by females. Even in times of nutritional stress, male Tettigoniidae continue to invest nutrients within their spermatophores. In some species, the cost of creating the spermatophore is low, but even in those which it is not low, it is still not beneficial to reduce the quality of the spermatophore, as it would lead to lower reproductive selection and success. This low reproductive success is attributed to some Tettigoniidae species in which the spermatophylax that the female receives as a food gift from the male during copulation increases the reproductive output of the reproduction attempt. However, in other cases, the female receives few, if any, benefits.[27]

The reproductive behavior of bush crickets has been studied in great depth. Studies found that the tuberous bush cricket (Platycleis affinis) has the largest testes in proportion to body mass of any animal recorded. They account for 14% of the insect's body mass and are thought to enable a fast remating rate.[28]

See also edit

References edit

  1. ^ a b c d Cigliano, M. M.; Braun, H.; Eades, D. C.; Otte, D. "family Tettigoniidae Krauss, 1902". orthoptera.speciesfile.org. Orthoptera Species File. Retrieved 10 May 2022.
  2. ^ Ragge DR (1965). Grasshoppers, Crickets & Cockroaches of the British Isles. F Warne & Co, London. p. 299.
  3. ^ Ingrisch, Sigfrid; Rentz, D.C.F. (2009). "Chapter 187 - Orthoptera: Grasshoppers, Locusts, Katydids, Crickets". Encyclopedia Of Insects (Second ed.). pp. 732–743. doi:10.1016/B978-0-12-374144-8.00196-X. ISBN 9780123741448.
  4. ^ a b c "Katydid". Encyclopædia Britannica Online. Retrieved 9 October 2014.[]
  5. ^ tettigonia. Charlton T. Lewis and Charles Short. A Latin Dictionary on Perseus Project.
  6. ^ "Tettigoniidae". Merriam-Webster. Retrieved 31 March 2015.
  7. ^ τεττιγόνιον, τέττιξ. Liddell, Henry George; Scott, Robert; A Greek–English Lexicon at the Perseus Project.
  8. ^ "Tettix". Merriam-Webster. Retrieved 31 March 2015.
  9. ^ Harper, Douglas. "katydid". Online Etymology Dictionary.
  10. ^ "common true katydid (Pterophylla camellifolia)". Retrieved 12 August 2018.
  11. ^ Funk & Wagnalls New World Encyclopedia (1 ed.). EBSCO Publishing. p. 1.
  12. ^ a b Rentz, David (15 July 2010). "A guide to the katydids of Australia". Journal of Insect Conservation. 14 (6): 579–580. doi:10.1007/s10841-010-9312-4. S2CID 11131753.
  13. ^ "Bush crickets". BBC Nature. Retrieved 25 November 2013.
  14. ^ Orthoptera species file (retrieved 3 January 2018)
  15. ^ GBIF: Triassophyllum Papier et al., 1997 (retrieved January 2018))
  16. ^ "Tree of Life project". Retrieved 25 November 2013.
  17. ^ a b c French, Bruce R. (1982). Growing food in the Southern Highlands Province of Papua New Guinea (PDF). AFTSEMU (Agricultural Field Trials, Surveys, Evaluation and Monitoring Unit) of the World Bank funded project in the Southern Highlands of Papua New Guinea. pp. 64–71. Retrieved 20 September 2018.
  18. ^ Columbia Electronic Encyclopedia (6 ed.). p. 1. Retrieved 10 December 2014.
  19. ^ Robertson, Laura; Meyer, John (January 2010). . Science Scope. 33 (5): 12. Archived from the original on 4 May 2016.
  20. ^ Chapman, R. F. (2013). The Insects: Structure and function (5 ed.). Cambridge University Press. ISBN 978-0521113892.
  21. ^ "Can you tell the temperature by listening to the chirping of a cricket?". U.S. Library of Congress.
  22. ^ Montealegre, Fernando; Morris, Glenn (24 December 2003). "The spiny devil katydids, Panacanthus Walker (Orthoptera: Tettigoniidae): an evolutionary study of acoustic behaviour and morphological traits". Systematic Entomology. 29 (1): 29–57. doi:10.1111/j.1365-3113.2004.00223.x. S2CID 13692215.
  23. ^ Castner, James; Nickle, David (August 2004). "Notes on the biology and ecology of the leaf-mimicking katydid Typophyllum bolivari Vignon (Orthoptera: Tettigoniidae: Pseudophyllinae: Pterochrozini)". Journal of Orthoptera Research. 4: 105–109.
  24. ^ Vahed, Karim (1998). "The function of nuptial feeding in insects: A review of empirical studies". Biological Reviews. 73 (1): 43–78. doi:10.1111/j.1469-185X.1997.tb00025.x. S2CID 86644963.
  25. ^ Gwynne, G.T. (December 1988). "Courtship feeding in katydids benefits the mating male's offspring". Behavioral Ecology and Sociobiology. 23 (6): 373–377. doi:10.1007/bf00303711. S2CID 28150560.
  26. ^ Gwynne, Darryl T.; Brown, William D. (1994). "Mate feeding, offspring investment, and sexual differences in katydids (Orthoptera: Tettigoniidae)". Behavioral Ecology. 5 (3): 267–272. doi:10.1093/beheco/5.3.267.
  27. ^ Jia, Zhiyun; Jiang, Zhigang; Sakaluk, Scott (2000). "Nutritional condition influences investment by male katydids in nuptial food gifts". Ecological Entomology. 25 (1): 115–118. doi:10.1046/j.1365-2311.2000.00239.x. S2CID 85677289.
  28. ^ Vahed, K.; Parker, D. J.; Gilbert, J. D. J. (2010). "Larger testes are associated with a higher level of polyandry, but a smaller ejaculate volume, across bushcricket species (Tettigoniidae)". Biology Letters. 7 (2): 261–4. doi:10.1098/rsbl.2010.0840. PMC 3061181. PMID 21068028.

External links edit

November 17, 2023
tettigoniidae, katydid, redirects, here, other, uses, katydid, disambiguation, insects, family, commonly, called, katydids, especially, north, america, bush, crickets, they, have, previously, been, known, long, horned, grasshoppers, more, than, species, known,. Katydid redirects here For other uses see Katydid disambiguation Insects in the family Tettigoniidae are commonly called katydids especially in North America 1 or bush crickets 2 They have previously been known as long horned grasshoppers 3 More than 8 000 species are known 1 Part of the suborder Ensifera the Tettigoniidae are the only extant living family in the superfamily Tettigonioidea TettigoniidaeTemporal range Jurassic recent PreꞒ Ꞓ O S D C P T J K Pg NTettigonia viridissima source source Stridulation of T viridissimaScientific classificationDomain EukaryotaKingdom AnimaliaPhylum ArthropodaClass InsectaOrder OrthopteraSuborder EnsiferaInfraorder TettigoniideaSuperfamily TettigonioideaKrauss 1902Family TettigoniidaeKrauss 1902SubfamiliesSee textThey are primarily nocturnal in habit with strident mating calls Many species exhibit mimicry and camouflage commonly with shapes and colors similar to leaves 4 Contents 1 Etymology 2 Description and life cycle 2 1 Description 2 2 Life cycle 3 Distribution 4 Classification 4 1 Extinct taxa 5 Ecology 5 1 Communication 5 2 Predation 5 3 Defense mechanisms 6 Reproductive behavior 6 1 Polygamy 6 2 Competition 6 3 Stress response 7 See also 8 References 9 External linksEtymology editThe family name Tettigoniidae is derived from the genus Tettigonia first described by Carl Linnaeus in 1758 In Latin tettigonia means a kind of small cicada leafhopper 5 it is from the Greek tettigonion tettigonion the diminutive of the imitative onomatopoeic tetti3 tettix cicada 6 7 All of these names such as tettix with repeated sounds are onomatopoeic imitating the stridulation of these insects 8 The common name katydid is also onomatopoeic and comes from the particularly loud three pulsed song often rendered ka ty did of the nominate subspecies of the North American Pterophylla camellifolia belonging to the subfamily Pseudophyllinae which are known as true katydids 9 10 Description and life cycle editDescription edit nbsp Tettigonia viridissimaTettigoniids range in size from as small as 5 mm 0 20 in to as large as 130 mm 5 1 in 11 The smaller species typically live in drier or more stressful habitats which may lead to their small size The small size is associated with greater agility faster development and lower nutritional needs Tettigoniids are tree living insects that are most commonly heard at night during summer and early fall 12 Tettigoniids may be distinguished from the grasshopper by the length of their filamentous antennae which may exceed their own body length while grasshoppers antennae are always relatively short and thickened nbsp Katydid camouflaged on a bamboo leafLife cycle edit nbsp Katydid eggs attached in rows to a plant stemEggs are typically oval and may be attached in rows to plants Where the eggs are deposited relates to the way the ovipositor is formed It consists of up to three pairs of appendages formed to transmit the egg to make a place for it and place it properly Tettigoniids have either sickle shaped ovipositors which typically lay eggs in dead or living plant matter or uniform long ovipositors which lay eggs in grass stems When tettigoniids hatch the nymphs often look like small wingless versions of the adults but in some species the nymphs look nothing at all like the adult and rather mimic other species such as ants spiders and assassin bugs or flowers to prevent predation The nymphs remain in a mimic state only until they are large enough to escape predation Once they complete their last molt after about 5 successful molts they are then prepared to mate 12 Distribution editTettigoniids are found on every continent except Antarctica 13 The vast majority of katydid species live in the tropical regions of the world 4 For example the Amazon basin rain forest is home to over 2 000 species of katydids 4 However katydids are found in the cool dry temperate regions as well with about 255 species in North America Classification editThe Tettigoniidae are a large family and have been divided into a number of subfamilies 1 Austrosaginae Australia Bradyporinae southeast Europe west amp central Asia Conocephalinae global Hetrodinae Africa Hexacentrinae pantropical especially Asia Lipotactinae Asia Listroscelidinae Americas Madagascar Australia Meconematinae global Mecopodinae South America Africa Southeast Asia Oceania Microtettigoniinae Australia Phaneropterinae global Phasmodinae Australia Phyllophorinae Australasia Pseudophyllinae global Pterochrozinae Central and South America Saginae North America Africa Europe Tettigoniinae global Tympanophorinae Australia Zaprochilinae Australia nbsp Ephippiger ephippiger Bradyporinae nbsp Conocephalus fuscus Conocephalinae nbsp Paraphisis sp Meconematinae nbsp Phaneroptera falcata Phaneropterinae nbsp Pseudophyllus titan Pseudophyllinae nbsp Metrioptera roeselii Tettigoniinae The Copiphorinae were previously considered a subfamily but are now placed as tribe Copiphorini in the subfamily Conocephalinae 14 The genus Acridoxena is now placed in the tribe Acridoxenini of the Mecopodinae previously its own subfamily Acridoxeninae Extinct taxa edit The Orthoptera species file 1 lists Pseudotettigoniinae North America Europe Rammeinae Europe Tettigoidinae Australia Genera incertae sedis Locustites Heer 1849 3 spp Locustophanes Handlirsch 1939 L rhipidophorus Handlirsch 1939 Prophasgonura Piton 1940 P lineatocollis Piton 1940 Protempusa Piton 1940 P incerta Piton 1940 Prototettix Giebel 1856 P lithanthraca Goldenberg 1854 The genus Triassophyllum is extinct and may be placed here or in the Archaeorthoptera 15 Ecology edit nbsp Poecilimon thoracicus Phaneropterinae The diet of most tettigoniids includes leaves flowers bark and seeds but many species are exclusively predatory feeding on other insects snails or even small vertebrates such as snakes and lizards Some are also considered pests by commercial crop growers and are sprayed to limit growth but population densities are usually low so a large economic impact is rare 16 Tettigoniids are serious insect pests of karuka Pandanus julianettii 17 The species Segestes gracilis and Segestidea montana eat the leaves and can sometimes kill trees 17 Growers will stuff leaves and grass in between the leaves of the crown to keep insects out 17 By observing the head and mouthparts where differences can be seen in relation to function it is possible to determine what type of food the tettigoniids consume Large tettigoniids can inflict a painful bite or pinch if handled but seldom break the skin Some species of bush crickets are consumed by people such as the nsenene Ruspolia differens in Uganda and neighbouring areas Communication edit The males of tettigoniids have sound producing organs located on the hind angles of their front wings In some species females are also capable of stridulation Females chirp in response to the shrill of the males The males use this sound for courtship which occurs late in the summer 18 The sound is produced by rubbing two parts of their bodies together called stridulation In many cases this is done with the wings but not exclusively One body part bears a file or comb with ridges the other has the plectrum which runs over the ridges to produce a vibration 19 For tettigoniids the fore wings are used to sing Tettigoniids produce continuous songs known as trills The size of the insect the spacing of the ridges and the width of the scraper all influence what sound is made 20 Many species stridulate at a tempo which is governed by ambient temperature so that the number of chirps in a defined period of time can produce a fairly accurate temperature reading For American katydids the formula is generally given as the number of chirps in 15 seconds plus 37 to give the temperature in degrees Fahrenheit 21 Predation edit nbsp Wandering spider Cupiennius sp with Tettigoniidae sp preySome tettigoniids have spines on different parts of their bodies that work in different ways The Listroscelinae have limb spines on the ventral surfaces of their bodies This works in a way to confine their prey to make a temporary cage above their mouthparts The spines are articulated and comparatively flexible but relatively blunt Due to this they are used to cage and not penetrate the prey s body Spines on the tibiae and the femora are usually more sharp and nonarticulated They are designed more for penetration or help in the defensive mechanism they might have This usually works with their diurnal roosting posture to maximize defense and prevent predators from going for their head 22 Defense mechanisms edit nbsp Katydid mimicking a leaf source source source source source source source source A Meadow Katydids in HawaiiWhen tettigoniids go to rest during the day they enter a diurnal roosting posture to maximize their cryptic qualities This position fools predators into thinking the katydid is either dead or just a leaf on the plant Various tettigoniids have bright coloration and black apical spots on the inner surfaces of the tegmina and brightly colored hind wings By flicking their wings open when disturbed they use the coloration to fool predators into thinking the spots are eyes This in combination with their coloration mimicking leaves allows them to blend in with their surroundings but also makes predators unsure which side is the front and which side is the back 23 Reproductive behavior editThe males provide a nuptial gift for the females in the form of a spermatophylax a body attached to the males spermatophore and consumed by the female to distract her from eating the male s spermatophore and thereby increase his paternity 24 Polygamy edit The Tettigoniidae have polygamous relationships The first male to mate is guaranteed an extremely high confidence of paternity when a second male couples at the termination of female sexual refractoriness The nutrients that the offspring ultimately receive will increase their fitness The second male to mate with the female at the termination of her refractory period is usually cuckolded 25 Competition edit The polygamous relationships of the Tettigoniidae lead to high levels of male male competition Male competition is caused by the decreased availability of males able to supply nutritious spermaphylanges to the females Females produce more eggs on a high quality diet thus the female looks for healthier males with a more nutritious spermatophylax Females use the sound created by the male to judge his fitness The louder and more fluent the trill the higher the fitness of the male 26 Stress response edit Oftentimes in species which produce larger food gifts the female seeks out the males to copulate This however is a cost to females as they risk predation while searching for males Also a cost benefit tradeoff exists in the size of the spermatophore which the male tettigoniids produce When males possess a large spermatophore they benefit by being more highly selected for by females but they are only able to mate one to two times during their lifetimes Inversely male Tettigoniidae with smaller spermatophores have the benefit of being able to mate two to three times per night but have lower chances of being selected by females Even in times of nutritional stress male Tettigoniidae continue to invest nutrients within their spermatophores In some species the cost of creating the spermatophore is low but even in those which it is not low it is still not beneficial to reduce the quality of the spermatophore as it would lead to lower reproductive selection and success This low reproductive success is attributed to some Tettigoniidae species in which the spermatophylax that the female receives as a food gift from the male during copulation increases the reproductive output of the reproduction attempt However in other cases the female receives few if any benefits 27 The reproductive behavior of bush crickets has been studied in great depth Studies found that the tuberous bush cricket Platycleis affinis has the largest testes in proportion to body mass of any animal recorded They account for 14 of the insect s body mass and are thought to enable a fast remating rate 28 See also editList of Orthopteroid genera containing species recorded in EuropeReferences edit a b c d Cigliano M M Braun H Eades D C Otte D family Tettigoniidae Krauss 1902 orthoptera speciesfile org Orthoptera Species File Retrieved 10 May 2022 Ragge DR 1965 Grasshoppers Crickets amp Cockroaches of the British Isles F Warne amp Co London p 299 Ingrisch Sigfrid Rentz D C F 2009 Chapter 187 Orthoptera Grasshoppers Locusts Katydids Crickets Encyclopedia Of Insects Second ed pp 732 743 doi 10 1016 B978 0 12 374144 8 00196 X ISBN 9780123741448 a b c Katydid Encyclopaedia Britannica Online Retrieved 9 October 2014 tettigonia Charlton T Lewis and Charles Short A Latin Dictionary on Perseus Project Tettigoniidae Merriam Webster Retrieved 31 March 2015 tettigonion tetti3 Liddell Henry George Scott Robert A Greek English Lexicon at the Perseus Project Tettix Merriam Webster Retrieved 31 March 2015 Harper Douglas katydid Online Etymology Dictionary common true katydid Pterophylla camellifolia Retrieved 12 August 2018 Funk amp Wagnalls New World Encyclopedia 1 ed EBSCO Publishing p 1 a b Rentz David 15 July 2010 A guide to the katydids of Australia Journal of Insect Conservation 14 6 579 580 doi 10 1007 s10841 010 9312 4 S2CID 11131753 Bush crickets BBC Nature Retrieved 25 November 2013 Orthoptera species file retrieved 3 January 2018 GBIF Triassophyllum Papier et al 1997 retrieved January 2018 Tree of Life project Retrieved 25 November 2013 a b c French Bruce R 1982 Growing food in the Southern Highlands Province of Papua New Guinea PDF AFTSEMU Agricultural Field Trials Surveys Evaluation and Monitoring Unit of the World Bank funded project in the Southern Highlands of Papua New Guinea pp 64 71 Retrieved 20 September 2018 Columbia Electronic Encyclopedia 6 ed p 1 Retrieved 10 December 2014 Robertson Laura Meyer John January 2010 Exploring Sound with Insects Science Scope 33 5 12 Archived from the original on 4 May 2016 Chapman R F 2013 The Insects Structure and function 5 ed Cambridge University Press ISBN 978 0521113892 Can you tell the temperature by listening to the chirping of a cricket U S Library of Congress Montealegre Fernando Morris Glenn 24 December 2003 The spiny devil katydids Panacanthus Walker Orthoptera Tettigoniidae an evolutionary study of acoustic behaviour and morphological traits Systematic Entomology 29 1 29 57 doi 10 1111 j 1365 3113 2004 00223 x S2CID 13692215 Castner James Nickle David August 2004 Notes on the biology and ecology of the leaf mimicking katydid Typophyllum bolivari Vignon Orthoptera Tettigoniidae Pseudophyllinae Pterochrozini Journal of Orthoptera Research 4 105 109 Vahed Karim 1998 The function of nuptial feeding in insects A review of empirical studies Biological Reviews 73 1 43 78 doi 10 1111 j 1469 185X 1997 tb00025 x S2CID 86644963 Gwynne G T December 1988 Courtship feeding in katydids benefits the mating male s offspring Behavioral Ecology and Sociobiology 23 6 373 377 doi 10 1007 bf00303711 S2CID 28150560 Gwynne Darryl T Brown William D 1994 Mate feeding offspring investment and sexual differences in katydids Orthoptera Tettigoniidae Behavioral Ecology 5 3 267 272 doi 10 1093 beheco 5 3 267 Jia Zhiyun Jiang Zhigang Sakaluk Scott 2000 Nutritional condition influences investment by male katydids in nuptial food gifts Ecological Entomology 25 1 115 118 doi 10 1046 j 1365 2311 2000 00239 x S2CID 85677289 Vahed K Parker D J Gilbert J D J 2010 Larger testes are associated with a higher level of polyandry but a smaller ejaculate volume across bushcricket species Tettigoniidae Biology Letters 7 2 261 4 doi 10 1098 rsbl 2010 0840 PMC 3061181 PMID 21068028 External links edit nbsp Media related to Tettigoniidae at Wikimedia Commons North American Katydids with range maps and audio files of katydid songs nbsp Texts on Wikisource Oliver Wendell Holmes Sr To an Insect 1831 Katydid The American Cyclopaedia 1879 Harriet Beecher Stowe Miss Katy Did and Miss Cricket Queer Little Folks 1897 Katydid Encyclopaedia Britannica 11th ed 1911 Paul Laurence Dunbar Whip Poor Will and Katy Did The Complete Poems of Paul Laurence Dunbar 1913 Katydid The New Student s Reference Work 1914 Retrieved from https en wikipedia org w index php title Tettigoniidae amp oldid 1180215049, wikipedia, wiki, book, books, library,

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