Insects in the family Tettigoniidae are commonly called bush crickets (in the UK), katydids (in the USA), or long-horned grasshoppers (mostly obsolete). More than 6,400 species are known. Part of the suborder Ensifera, Tettigoniidae is the only family in the superfamily Tettigonioidea.
Primarily nocturnal in habit, with strident mating calls, many katydids exhibit mimicry and camouflage, commonly with shapes and colors similar to leaves.
==Etymology== The scientific name "Tettigoniidae" is derived from the genus Tettigonia, first described by Carl Linnaeus in 1748. Latin tettigonia means leafhopper; it is from Greek tettigonion, the diminutive of the imitative (onomatopoeic) τέττιξ, tettix, cicada. The common name "katydid" is also onomatopoeic.
==Description and lifecycle==
Tettigoniids range in size from as small as 5 to as large as 130 mm. 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. 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.
The lifespan of a katydid is about a year, with full adulthood usually developing very late. Females most typically lay their eggs at the end of summer beneath the soil or in plant stem holes. The eggs are typically oval-shaped and laid in rows on the host plant. The way their ovipositor is formed relates to its functional adaptability in the areas in which it lays eggs. The ovipositor is an organ used by insects for laying of eggs. It consists of a maximum of three pairs of appendages formed to transmit the egg, to prepare 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 elongated ovipositors which lay eggs in grass stems. When tettigoniids hatch, the nymphs often look like smaller versions of the adults, but in some species, the nymphs look nothing at all like the adult and rather mimic other species such as 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, they are then prepared to mate. The vast majority of katydid species live in the tropical regions of the world. 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, like the nsenene (Ruspolia baileyi) in Uganda and neighbouring areas.
===Communication=== 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. The sound is produced by rubbing two parts of their bodies together, called stridulation. One is the file or comb that has tough ridges; the other is the plectrum is used to produce the vibration. 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.
Many katydids 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.
===Predation=== Some tettigoniids have spines on different parts of their bodies that work in different ways. Listroscelinae is an example of one that has limb spines on the ventral surface of their body. This works in a way to confine their prey to make a temporary cage above its mouthparts. The spines are articulated, 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 will usually work with their diurnal roosting posture to maximize defense and prevent predators from going for their head.
When tettigoniids go to rest during the day, they go into a diurnal roosting posture to maximize its 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 spot on the inner surface 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.
==Reproductive behavior== 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. The function of the spermatophylax is to increase the attachment time of the male's spermatophore and thereby increase his paternity.
===Polygamy=== Tettigoniidae have a polygamous relationship with one another. 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. This investment functions are a parental paternity. The nutrients that the offspring will ultimately receive will increase the fitness. The second male to mate with the female at the termination of her refractory period is usually cuckolded.
====Competition==== The polygamous relationships of the Tettigoniidae lead to high levels of male-male competition. Male competition in the Tettigoniidae species is caused by the decreased availability of males able to supply nutritious spermatophores to the females. Females will produce more eggs on a high-quality diet; thus, the female looks for healthier males with a more nutritious spermatophore. Females will use the sound created by the male to judge the fitness of the male. The louder and more fluent the trill, the higher the fitness of the male.
===Stress response=== Oftentimes in species which produce larger food gifts, the female is the individual that seeks out the males in order to copulate. This however is a cost to females as they risk predation while searching for males. There is also a cost-benefit tradeoff in the size of the spermatophore which the male Tettigoniidaes produces. When male Tettigoniidae possess a large spermatophore they benefit by being more highly selected for by females, however they are only able to mate one to two times during their lifetime. 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 for by females. Even in times of nutritional stress, male Tettigoniidae will continue to make invest nutrients within their spermatophore. 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 increase the reproductive output of the reproduction attempt. However, in other cases, the female receives few if any benefits.
The reproductive behavior of bush crickets has been studied in great depth. Studies conducted in 2010 at the University of Derby by Karim Vahed, Darren Parker and James Gilbert found that the tuberous bushcricket (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 re-mating rate.
==Classification== Tettigoniidae is a large family and has been divided into a number of subfamilies:
*Acridoxeninae (monotypic: Africa) *Austrosaginae (Australia) *Bradyporinae (SE Europe, west & central Asia) *Conocephalinae *Hetrodinae (Africa) *Hexacentrinae (pantropical, esp. Asia) *Lipotactinae (Asia) *Listroscelidinae (Americas, Madagascar, Australia) *Meconematinae *Mecopodinae *Microtettigoniinae (monotypic: Australia) *Phaneropterinae *Phasmodinae (monotypic: Australia) *Phyllophorinae (Asia, Australia) *Pseudophyllinae *†Pseudotettigoniinae (and other †genera) *Pterochrozinae (central and southern America) *Saginae *Tettigoniinae *Tympanophorinae (Australia) *Zaprochilinae (Australia)
* [http://www.cirrusimage.com/orthoptera_katydid_Conocephalus.htm Black-sided meadow katydid - Conocephalus nigropleurum - diagnostic photographs] * [http://bugguide.net/node/view/164 BugGuide.net--family Tettigoniidae ] * [http://entnemdept.ifas.ufl.edu/walker/buzz/ Singing Insects of North America (SINA) website.] * [http://bugguide.net/node/view/32354 Bug guide.net-- Pink Katydid] * [http://entnemdept.ifas.ufl.edu/Walker/buzz/katydids.htm North American Katydids, with range maps and audio files of katydid songs.] * [http://www.discoverlife.org/cricket/ NYC Cricket Crawl] Sept 11 2009 katydid and cricket counting collaboration *
Category:Orthoptera families Category:Extant Jurassic first appearances Category:Taxa named by Hermann August Krauss