Difference between revisions of "Orthoptera" - New World Encyclopedia

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Orthoptera

Patanga japonica

Scientific classification

Kingdom:	Animalia
Phylum:	Arthropoda
Class:	Insecta
Subclass:	Pterygota
Infraclass:	Neoptera
Superorder:	Exopterygota
Order:	Orthoptera Latreille, 1793

Suborders

Suborder Ensifera - crickets, katydids, and allies
Suborder Caelifera - grasshoppers, locusts

Orthoptera ("straight wings") is a widespread order of generally large- or medium-sized insects with incomplete metamorphosis (hemimetabolism), chewing/biting mouthparts, and two pairs of wings, held overlapping the abdomen at rest. The forewings are narrower than the hind wings and hardened at the base, and the hind wings are membranous and held folded fan-like under the forewings when at rest. This order includes grasshoppers, crickets, katydids, and locusts.

Orthopterans are associated in many people's minds with the sounds they make. There are few places in the world where one cannot experience the "singing" of grasshoppers, katydids, and crickets during the warm seasons, with grasshoppers characteristically calling during the day, and katydids and crickets at night (Gwynne et al. 1996). While these qualities are used for the insects' individual purpose of survival, maintenance, and reproduction (being used to find mates, warn of predators, and defend territory), they also enhance human enjoyment of nature. Orthopterans also are important to ecosystem food chains, converting plant biomass into a form usable by birds, mammals, and other animals.

Grasshoppers, katydids, and crickets also are known for their jumping ability.

Orthopterans are commonly divided into two suborders: Caelifera (short-horned grasshoppers, including true grasshoppers and locusts) and Ensifera (long-horned grasshoppers, including crickets and katydids). Traditionally, the order had also included cockroaches, praying mantids, and walking sticks. Among other distinctions, the two suborders are generally recognized by the size of their antennae, with Ensifera having longer antennae.

Description

Orthopterans are found in virtually all terrestrial habitats were plants can live and where one can find insects, being absent only in oceans, polar regions, and extreme alpine environments (Grizmek et al. 2004, Rowell and Flook 2001). They generally are large to medium in size as far as insects go, with body lengths of less than 10 millimeters (0.4 inches) uncommon, and some exceeding 100 millimeters (2 inches) in length with a wingspan of 200 millimeters or more. The smallest are below 2 millimeters.

All members of the suborder Caelifera are plant eaters, as are most members of Ensifera, but there are some carnivorous members of the long-horned grasshoppers.

Orthopterans have mandibulate mouthparts, large compound eyes, and antennae length that varies with species.

One of the characteristics most associated with orthopterans is the production of sound. Many, but not all, insects in this order produce sound, which is used for attraction of mates, defense of territory, and to warn of predators (Grizmek et al. 2004). The technique usually used is stridulation, involving rubbing one body part (wing, leg, abdomen) against another part. Katydids and crickets (Caelifera) rub specialized parts of wings against structures on other wings, while grasshoppers (Ensifera) produce sound by rubbing part of the hind femur against part of the wing (Grizmek et al. 2004).

This singing is typically a male phenomenon, as females are typically silent. The calls are generally species specific and the information can be a code in terms of the frequency modulation (pitch changes) or time modulation (pitch changes, but temporal pattern changes) (Grizmek et al. 2004).

Most orthopterans are solitary insects, but gregarious tendencies are common among many crickets, and swarming behavior is seen in locusts. Locusts are migratory short-horned grasshoppers of the family Acrididae. In response to certain cues, they shift in behavior from a solitary phase to a migratory phase. For example, the desert locust (Schistocerca gregaria) of Africa and Asia is normally solitary, but the spring rains trigger a behavior transformation that can result in single swarms larger than any other single congregation of organisms on Earth, ranging from 100,000 to 10 billion insects (Grzimek et al. 2004). One swarm in 1794 once spread over 5,000 square kilometers (almost 2,000 square miles) (Grzimek et al. 2004). Some members of the suborder Ensifera also produce huge swarms, such as the wingless katydid known as the North American Mormon cricket (Anabrus simplex), whose swams can be devastating to crops, and the Conehead kaytdids (Ruspolia spp.) of Africa (Grzimek et al. 2004).

Grasshoppers develop by incomplete metamorphosis, a process in which the larvae resembles the adults somewhat, as they have compound eyes, developed legs, and wing stubs visible on the outside, but the juvenile forms are smaller, lack fully developed reproductive organs, and, if the adult has wings, lack wings. In this mode of development, which involves gradual change, there are three distinct stages: The egg, nymph, and the adult stage, or imago. There is no pupal stage characteristic of complete metamorphosis. Through successive molts, the nymphs develop wing buds until their final molt into a mature adult with fully developed wings.

The number of molts varies between species; growth is also highly variable and may take a few weeks to some months depending on food availability and weather conditions.

The oldest opthopteran fossils trace to the Carboniferous period; most families of Ensifera appeared between the early Jurassic and early Triassic periods, while the oldest extant family of Caelifera appeared in middle Jurassic (Grizmek et al. 2004).

Caelifera

The suborder Caelifera (short-horned grasshoppers) consists of grasshoppers and locusts. All have jumping back legs, antenna composed of less than 30 segments, absence of auditory organs on the prothorax (hearing organs, if present, are abdominal), and an ovipositor in which there are four functional valves.

Members of Caelifera are classified into eight superfamilies, 22 families, about 2,400 genera, and about 11,000 described species, with many species undescribed (Grzimek et al. 2004, Rowell and Flook 2001). Five of these are major families:

Acrididae (field grasshoppers and locusts)
Eumastacidae (monkey grasshoppers)
Tanaoceridae (tanaocerids)
Tetrigidae (grouse locusts, pygmy grasshoppers, and pygmy locusts)
Tridactylidae (pygmy mole crickets)

The largest superfamily is Acridoidea with over 7,200 described species in 1,600 genera (Grzimek et al. 2004). The largest family is Acrididae, the "true grasshoppers." The family is characterized by the short, thickened antennae and relatively unmodified anatomy. They are often visually more striking than other Caelifera, due to the adults' wings and legs, which are well developed and may be brightly colored. The Acrididae includes the locusts, which can be serious agricultural pests.

The term grasshopper is an imprecisely defined common name. It generally is used in reference to members of both the orthopteran family Acrididae of the suborder Caelifera and to members of the family Tettigoniidae of the suborder Ensifera. It may also be used to refer only to the Acrididae or to the entire suborder Caelifera.

Locusts are grasshoppers that are characterized by behavior. They are defined as several species of short-horned grasshoppers of the family Acrididae that have solitary and gregarious (swarm) phases. They do not belong to a particular genus or subfamily, but are those species of grasshoppers that exhibit behavioral, morphological, and physiological changes from a solitary phase to a migratory phase (Grzimek et al. 2004).

Diurnal activity is common in Caelifera, with grasshoppers and locusts feeding and mating during the day, and molting and laying eggs at night, while the reverse is true for the Ensifera (katydids and crickets), who generally exhibit nocturnal activity (Grzimek et al. 2004). Grasshoppers sing typically during warm season days and katydids and crickets sing during warm season nights.

Ensifera

The suborder Ensifera (long-horned grasshoppers) consists of crickets and katydids. Members are characterized by fine and threadlike antennae with well over 30 segments (except fossil representatives), stidulatory specializations of the forewings to make sounds in those groups that sing, auditory organs (when present) linked via modified tracheae to the enlarged mesothoracic spiracles, and a six-valved ovipositor (Gwynne and Desutter 1996).

The suborder is divided into six superfamilies, 21 families, 1,900 genera, and 11,000 described species (Grzimek et al. 2004). The largest superfamily is Tettigonioidea (katydids or bush-crickets) with over 1,000 genera and 7,000 known species (Grzimek et al. 2004). The superfamily Grylloidea (crickets) includes over 500 genera and 3,500 described species.

Members of the family Tettigoniidae are commonly known as bush crickets or katydids, and are closely related to the crickets.

Orthoptera as food

Orthoptera also are the only insects considered kosher in Judaism. As stated in Leviticus in the Bible: "All winged swarming things that walk on fours shall be an abomination for you. But these you may eat among all the winged swarming things that walk on fours—locusts of every variety; all varieties of bald locust; crickets of every variety; and all varieties of grasshopper.” However, different opinions exist on which exact species are considered kosher. The Jewish Torah states that the flying insects with four walking legs that are kosher are those whose knees extend above their feet to hop on the ground (Grzimek et al. 2004).

Taxonomy

Although generally Orthoptera is divided into two suborders, Ensifera and Caelifera, there are classification schemes that consider only the short-horned orthopterans to be included in the order, and another order, Grylloptera, comprises the long-horned grasshoppers, such as crickets and katydids.

The following is one common classification scheme:

Suborder Ensifera - crickets, katydids, and allies
- Superfamily Grylloidea
  - Gryllidae - true crickets
  - Gryllotalpidae - mole crickets
  - Mogoplistidae
  - Myrmecophilidae - ant crickets
- Superfamily Hagloidea
  - Prophalangopsidae
- Superfamily Rhaphidophoroidea
  - Rhaphidophoridae - camel crickets, cave crickets, cave wetas
- Superfamily Schizodactyloidea
  - Schizodactylidae - dune crickets
- Superfamily Stenopelmatoidea
  - Anostostomatidae - wetas, king crickets
  - Cooloolidae
  - Gryllacrididae - leaf-rolling crickets
  - Stenopelmatidae - Jerusalem crickets
- Superfamily Tettigonioidea
  - Tettigoniidae - katydids / bush crickets
Suborder Caelifera - grasshoppers, locusts
- Superfamily Acridoidea
  - Acrididae - grasshoppers, locusts
  - Arcypteridae
  - Catantopidae
  - Charilaidae
  - Chrotogonidae
  - Lathiceridae
  - Lentulidae
  - Pamphagidae - toad grasshoppers
  - Pneumoridae - bladder grasshoppers
  - Proscopiidae
  - Pyrgomorphidae - gaudy grasshoppers
- Superfamily Eumastacoidea
  - Chorotypidae
  - Episactidae
  - Eumastacidae
  - Euschmidtiidae
  - Mastacideidae
  - Morabidae
  - Proscopiidae
  - Thericleidae
- Superfamily Pneumoroidea
Pneumoridae
- Superfamily Pyrgomorphoidea
Pyrgomorphidae
- Superfamily Tanaoceroidea
Tanaoceridae
- Superfamily Tetrigoidea
  - Tetrigidae - grouse locusts
- Superfamily Tridactyloidea
  - Cylindrachetidae
  - Rhipipterygidae
  - Tridactylidae - pygmy mole crickets
- Superfamily Trigonopterygoidea
  - Trigonopterygidae
  - Xyronotidae

References
ISBN links support NWE through referral fees

Grzimek, B., D. G. Kleiman, V. Geist, and M. C. McDade. 2004. Grzimek's Animal Life Encyclopedia. Detroit: Thomson-Gale. ISBN 0787657883.
Gwynne, D. T., L. DeSutter, P. Flook, and H. Rowell. 1996. Orthoptera. Crickets, kaytdids, grasshoppers, etc. Tree of Life Web Project.
Gwynne, D. T. and L. DeSutter. 1996. Ensifera. Crickets, kaydids, and weta. Tree of Life Web Project.
O'Toole, C. 2002. Firefly Encyclopedia of Insects and Spiders. Buffalo, NY: Firefly Books. ISBN 1552976122.
Rowell, H. and P. Flook. 2001. Caelifera. Shorthorned grasshoppers, locusts and relatives. Tree of Life Web Project.

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History of "Orthoptera"

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@@ Line 1: / Line 1: @@
-{{Contracted}}
+{{Paid}}{{Approved}}{{Images OK}}{{Submitted}}{{Copyedited}}
 {{Taxobox
 | color = pink
@@ Line 9: / Line 9: @@
 | phylum = [[Arthropod]]a
 | classis = [[Insect]]a
-| subclassis = [[Pterygota]]
+| subclassis = Pterygota
 | infraclassis = [[Neoptera]]
-| superordo = [[Exopterygota]]
+| superordo = Exopterygota
 | ordo = '''Orthoptera'''
 | ordo_authority = [[Pierre André Latreille|Latreille]], 1793
@@ Line 20: / Line 20: @@
 }}
-Orthoptera ("Straight Wings") is a widespread [[taxonomy#Scientific or biological classification|order]] of generally large- or medium-sized [[insect]]s with [[metamorphosis#Insect metamorphosis|incomplete metamorphosis]] (hemimetabolism), chewing/biting mouthparts, and two pairs of wings. This order includes the [[grasshopper]]s, [[cricket (insect)|cricket]]s, and [[locust]]s.
+Orthoptera ("straight wings") is a widespread [[taxonomy#Scientific or biological classification|order]] of generally large- or medium-sized [[insect]]s with [[metamorphosis#Insect metamorphosis|incomplete metamorphosis]] (hemimetabolism), chewing/biting mouthparts, and two pairs of wings, held overlapping the abdomen at rest. The forewings are narrower than the hind wings and hardened at the base, and the hind wings are membranous and held folded fan-like under the forewings when at rest. This order includes [[grasshopper]]s, [[cricket (insect)|cricket]]s, [[katydid]]s, and [[locust]]s.
-Orthopterans have two pairs of wings; the forewings are narrower than the hind wings and hardened at the base. They are held overlapping the abdomen at rest. The hind wing is membranous and held folded fan-like under the forewings when at rest. Orthopterans have [[mandible|mandibulate]] mouthparts, large compound [[eye]]s, and [[antenna (biology)|antennae]] length varies with species.
+Orthopterans are associated in many people's minds with the sounds they make. There are few places in the world where one cannot experience the "singing" of grasshoppers, katydids, and crickets during the warm seasons, with grasshoppers characteristically calling during the day, and katydids and crickets at night (Gwynne et al. 1996). While these qualities are used for the insects' individual purpose of survival, maintenance, and [[reproduction]] (being used to find mates, warn of predators, and defend territory), they also enhance human enjoyment of nature. Orthopterans also are important to [[ecosystem]] [[food chain]]s, converting plant biomass into a form usable by [[bird]]s, [[mammal]]s, and other animals.
-Grasshoppers, katydidds and crickets are known for thei raiblty to jump and for singing by males (Gw..
+Grasshoppers, katydids, and crickets also are known for their jumping ability.
-Many insects in this order produce [[sound]] (known as a "[[stridulation]]") by rubbing their wings against each other or their legs, the wings or legs containing rows of corrugated bumps. Their [[ear]]s, located in the front legs, are interconnected in such a way that they are able to locate each other by sound.
-'''Caelifera''' (long-horned grasshoppers, including true grasshoppers and locusts) and '''Ensifera''' (short-horned grasshoppers, including crickets and katydids) are currently the only two suborders in Orthoptera. Traditionally, the order had also included [[cockroach]]es, [[preying mantis]], and walking sticks.
+Orthopterans are commonly divided into two suborders: '''[[#Caelifera|Caelifera]]''' (short-horned grasshoppers, including true grasshoppers and locusts) and '''[[#Ensifera|Ensifera]]''' (long-horned grasshoppers, including crickets and katydids). Traditionally, the order had also included [[cockroach]]es, [[praying mantis|praying mantids]], and walking sticks. Among other distinctions, the two suborders are generally recognized by the size of their antennae, with Ensifera having longer antennae.
-long-horend orthopters have characteristci trhed like antennae which exceed body length and can be several times body length, largely nocturnal, with well over 30 segemsnt in antenaae.
+==Description==
-some of best examples of cryptic coloration, looking like leavesor other vegetation.
+Orthopterans are found in virtually all terrestrial habitats were plants can live and where one can find [[insect]]s, being absent only in [[ocean]]s, polar regions, and extreme alpine environments (Grizmek et al. 2004, Rowell and Flook 2001). They generally are large to medium in size as far as insects go, with body lengths of less than 10 millimeters (0.4 inches) uncommon, and some exceeding 100 millimeters (2 inches) in length with a wingspan of 200 millimeters or more. The smallest are below 2 millimeters.
-==Characteristics==
+All members of the suborder Caelifera are plant eaters, as are most members of Ensifera, but there are some carnivorous members of the long-horned grasshoppers.
-Orthopterans develop by '''incomplete metamorphosis'''. Most orthopterans lay their [[egg (biology)|eggs]] in the ground or on vegetation. The eggs hatch and the young [[Nymph (biology)|nymphs]] resemble adults but lack wings and at this stage are often called ''hoppers''. Through successive [[ecdysis|moults]] the nymphs develop wings buds until their final moult into a mature adult with fully developed wings.
+Orthopterans have [[mandible|mandibulate]] mouthparts, large compound [[eye]]s, and [[antenna (biology)|antennae]] length that varies with species.
-Grasshoppers develop by [[metamorphosis#Insect metamorphosis|incomplete metamorphosis]], a process in which the larvae resembles the adults somewhat, as they have compound [[eye]]s, developed legs and wing stubs visible on the outside, but the juvenile forms are smaller and, if the adult has wings, lack wings. In this mode of development, which involves gradual change, there are three distinct stages: the egg, nymph, and the adult stage, or imago. There is no pupal stage characteristic of complete [[metamorphosis]].
+One of the characteristics most associated with orthopterans is the production of sound. Many, but not all, insects in this order produce sound, which is used for attraction of mates, defense of territory, and to warn of predators (Grizmek et al. 2004). The technique usually used is stridulation, involving rubbing one body part (wing, leg, abdomen) against another part. Katydids and crickets (Caelifera) rub specialized parts of wings against structures on other wings, while grasshoppers (Ensifera) produce sound by rubbing part of the hind femur against part of the wing (Grizmek et al. 2004).
-Most orthopterans lay their [[egg (biology)|eggs]] in the ground or on vegetation. The eggs hatch and the young nymphs resemble adults but lack wings and at this stage are often called ''hoppers''. Through successive [[ecdysis|molts]] the nymphs develop wings buds until their final molt into a mature adult with fully developed wings.
+This singing is typically a male phenomenon, as females are typically silent. The calls are generally species specific and the information can be a code in terms of the frequency modulation (pitch changes) or time modulation (pitch changes, but temporal pattern changes) (Grizmek et al. 2004).
-The number of molts varies between species; growth is also very variable and may take a few weeks to some months depending on food availability and weather conditions.
+Most orthopterans are solitary insects, but gregarious tendencies are common among many crickets, and swarming behavior is seen in locusts.  Locusts are migratory short-horned grasshoppers of the family Acrididae. In response to certain cues, they shift in behavior from a solitary phase to a migratory phase. For example, the desert locust (''Schistocerca gregaria'') of [[Africa]] and [[Asia]] is normally solitary, but the spring rains trigger a behavior transformation that can result in single swarms larger than any other single congregation of organisms on Earth, ranging from 100,000 to 10 billion insects (Grzimek et al. 2004). One swarm in 1794 once spread over 5,000 square kilometers (almost 2,000 square miles) (Grzimek et al. 2004). Some members of the suborder Ensifera also produce huge swarms, such as the wingless katydid known as the North American Mormon cricket (''Anabrus simplex''), whose swams can be devastating to crops, and the Conehead kaytdids (''Ruspolia spp.'') of Africa (Grzimek et al. 2004).
+Grasshoppers develop by [[metamorphosis#Insect metamorphosis|incomplete metamorphosis]], a process in which the larvae resembles the adults somewhat, as they have compound [[eye]]s, developed legs, and wing stubs visible on the outside, but the juvenile forms are smaller, lack fully developed reproductive organs, and, if the adult has wings, lack wings. In this mode of development, which involves gradual change, there are three distinct stages: The egg, nymph, and the adult stage, or imago. There is no pupal stage characteristic of complete [[metamorphosis]]. Through successive [[ecdysis|molts]], the nymphs develop wing buds until their final molt into a mature adult with fully developed wings.
-The number of moults varies between species; growth is also very variable and may take a few weeks to some months depending on food availability and weather conditions.
+The number of molts varies between species; growth is also highly variable and may take a few weeks to some months depending on food availability and weather conditions.
-large to medium sized insects, with body lengths of leass than 10mm (0.4 inches) uncommon, and some exceed 50 mm (2 incehs) in length, with some with bodies over 100 mm long and wingspan of 200mm or more.The smallest are below 2mm.
+The oldest opthopteran fossils trace to the [[Carboniferous]] period; most families of Ensifera appeared between the early [[Jurassic]] and early [[Triassic]] periods, while the oldest extant family of Caelifera appeared in middle Jurassic (Grizmek et al. 2004).
-oldest fossils from Carboniferous period (G) and most families of Ensifera pappareaed between early Jurassic and early Triassic period, while oldest extant family of Cealifera appeared in middle Jurassic.
+===Caelifera===
+The suborder Caelifera (short-horned grasshoppers) consists of grasshoppers and locusts. All have jumping back legs, [[antenna (biology)|antenna]] composed of less than 30 segments, absence of auditory organs on the prothorax (hearing organs, if present, are abdominal), and an ovipositor in which there are four functional valves.
-Foud nearly all over the world in most habitats where find insects, absetn only in oceans, plar regions, and extreme alpine regions (g).
+Members of Caelifera are classified into eight superfamilies, 22 families, about 2,400 [[genus|genera]], and about 11,000 described species, with many species undescribed (Grzimek et al. 2004, Rowell and Flook 2001). Five of these are major families:
-some of most voracious pests.
+*[[Acrididae]] (field grasshoppers and locusts)
+*[[Eumastacidae]] (monkey grasshoppers)
+*[[Tanaoceridae]] (tanaocerids)
+*[[Tetrigidae]] (grouse locusts, pygmy grasshoppers, and pygmy locusts)
+*[[Tridactylidae]] (pygmy mole crickets)
-mostly plant eaters, but some of the Ensifera are carnivorous.
+The largest superfamily is Acridoidea with over 7,200 described species in 1,600 genera (Grzimek et al. 2004). The largest family is [[Acrididae]], the "true grasshoppers." The family is characterized by the short, thickened antennae and relatively unmodified [[anatomy]]. They are often visually more striking than other Caelifera, due to the adults' wings and legs, which are well developed and may be brightly colored. The Acrididae includes the [[locust]]s, which can be serious agricultural pests.
-==Caelifera==
+The term [[grasshopper]] is an imprecisely defined common name. It generally is used in reference to members of both the orthopteran family Acrididae of the suborder Caelifera and to members of the family Tettigoniidae of the suborder Ensifera. It may also be used to refer only to the Acrididae or to the entire suborder Caelifera.
-===Types===
+Locusts are grasshoppers that are characterized by behavior. They are defined as several species of short-horned grasshoppers of the family [[Acrididae]] that have solitary and gregarious (swarm) phases. They do not belong to a particular genus or subfamily, but are those [[species]] of grasshoppers that exhibit behavioral, morphological, and physiological changes from a solitary phase to a migratory phase (Grzimek et al. 2004).
-The suborder Caelifera is classified into 8 superfamilies, 22 families, about 2,400 [[genus|genera]], and over 10,400 described species (Grzimek et al. 2004). Five of these are major families:
-*Acrididae (field grasshoppers and locusts)
+Diurnal activity is common in Caelifera, with grasshoppers and locusts feeding and mating during the day, and molting and laying eggs at night, while the reverse is true for the Ensifera (katydids and crickets), who generally exhibit nocturnal activity (Grzimek et al. 2004). Grasshoppers sing typically during warm season days and katydids and crickets sing during warm season nights.
-*[[Eumastacidae]]* (monkey grasshoppers)
-*[[Tanaoceridae]]* (tanaocerids)
-*[[Tetrigidae]]* (grouse locusts, pygmy grasshoppers, and pygmy locusts)
-*[[Tridactylidae]]* (pygmy mole crickets)
-The largest superfamily is Acridoidea with over 7,200 described species in 1,600 genera. The largest family is [[Acrididae]]. The family is characterized by the short, thickened antennae and relatively unmodified [[anatomy]]. They are often visually more striking than other Caelifera, due to the adults' wings and legs, which are well developed and may be brightly colored. Auditory organs are on the abdomen, unlike on the forelegs of the family Tettigoniidae. The true grasshoppers produce sounds by rubbing their legs against the abdomen, and there may also be a visual display. The Acrididae includes the [[locust]]s, which can be serious economic pests.
-The term grasshopper is an imprecisely defined common name. It generally is used in reference to members of both the orthopteran family '''Acrididae''' ("'''short-horned grasshoppers'''") of the suborder Caelifera and to members of the family '''Tettigoniidae''' ("'''long-horned grasshoppers'''") of the suborder Ensifera. It may also be used to refer only to the Acrididae ("true grasshoppers") or to the entire suborder Caelifera (Capinera et al. 2006). Members of Caelifera are also referred to as a group as short-horned grasshoppers, with members of Ensifera as long-horned grasshoppers (Grzimek et al. 2004).
-Diurnal activity common in short-horned grasshoppers, with grasshoppers and locusts feeding and mating during the day, and molting and laying eggs at nigth, while reverse is true for katydids and cridckets, chosing noctural nactivity.
-Swarming behaviro not restricted to Caelifera, but within the Ensifer certian katydid can produce huge swarms.  from G., 5
 ==Ensifera==
-suborder Ensifera (long-horned grasshopper suborder) is divided into 6 superfamilies, 21 families, 1,900 genera, and 11,000 described species (G). The largest superfamily is Tettigonioidea (katydids or bush-crickets) with over 1,000 genera and 7,000 known species (G).  The sueprfamily Grylloidea (crickets) includes over 500 genera and 3,500 described species.
+The suborder Ensifera (long-horned grasshoppers) consists of [[cricket]]s and [[katydid]]s. Members are characterized by fine and threadlike [[antenna (biology)|antennae]] with well over 30 segments (except fossil representatives), stidulatory specializations of the forewings to make sounds in those groups that sing, auditory organs (when present) linked via modified tracheae to the enlarged mesothoracic spiracles, and a six-valved ovipositor (Gwynne and Desutter 1996).
-Members of Tettigoniidae are commonly known as bush crickets or katydids, and are closely related to the [[cricket]]s, which are also members of Ensifera. Caelifera also includes the [[locust]]s, which is the name given to the migratory members of short-horned grasshoppers of the family Acrididae. Both Caelifera and Ensifera have mainly herbivorous insects, but there are a few carniverous species in Ensifera.
-The Tettigoniidae (long-horned grasshoppers) are typified by antennae longer than the body, while the Acrididae (short-horned grasshoppers) have antennae shorter than the body.
+The suborder is divided into six superfamilies, 21 families, 1,900 genera, and 11,000 described species (Grzimek et al. 2004). The largest superfamily is Tettigonioidea (katydids or bush-crickets) with over 1,000 genera and 7,000 known species (Grzimek et al. 2004). The superfamily Grylloidea (crickets) includes over 500 genera and 3,500 described species.
+Members of the family Tettigoniidae are commonly known as bush crickets or katydids, and are closely related to the [[cricket]]s.
 ==Orthoptera as food==
-The Orthoptera are the only insects considered [[kosher]] in [[Judaism]]. Although the [[Bible]] may be read as stating that all Orthoptera are kosher except those, such as the [[mole cricket]], that do not jump, [[halakhic]] authorities state that only four species known in [[Yemen]] are kosher.
+Orthoptera also are the only insects considered kosher in [[Judaism]]. As stated in Leviticus in the Bible: "All winged swarming things that walk on fours shall be an abomination for you. But these you may eat among all the winged swarming things that walk on fours&mdash;locusts of every variety; all varieties of bald locust; crickets of every variety; and all varieties of grasshopper.” However, different opinions exist on which exact species are considered kosher. The Jewish [[Torah]] states that the flying insects with four walking legs that are kosher are those whose knees extend above their feet to hop on the ground (Grzimek et al. 2004).
-==Taxonomy note==
-Generally two suborders.
+==Taxonomy==
-Some consider Orthopter only short-horned grasshoppers anand Gryllodea, an orderthat includes only longhorned grasshoppers, such as crickets and katydids.
+Although generally Orthoptera is divided into two suborders, Ensifera and Caelifera, there are classification schemes that consider only the short-horned orthopterans to be included in the order, and another order, Grylloptera, comprises the long-horned grasshoppers, such as crickets and katydids.
+The following is one common classification scheme:
 *Suborder [[Ensifera]] - crickets, katydids, and allies
 **Superfamily [[Grylloidea]]
 ***[[Gryllidae]] - true crickets
-***[[Gryllotalpidae]] - mole crickets
+***Gryllotalpidae - mole crickets
-***[[Mogoplistidae]]
+***Mogoplistidae
-***[[Myrmecophilidae]] - ant crickets
+***Myrmecophilidae - ant crickets
-**Superfamily [[Hagloidea]]
+**Superfamily Hagloidea
-***[[Prophalangopsidae]]
+***Prophalangopsidae
-**Superfamily [[Rhaphidophoroidea]]
+**Superfamily Rhaphidophoroidea
-***[[Rhaphidophoridae]] - camel crickets, cave crickets, cave wetas
+***Rhaphidophoridae - camel crickets, cave crickets, cave wetas
-**Superfamily [[Schizodactyloidea]]
+**Superfamily Schizodactyloidea
-***[[Schizodactylidae]] - dune crickets
+***Schizodactylidae - dune crickets
-**Superfamily [[Stenopelmatoidea]]
+**Superfamily Stenopelmatoidea
-***[[Anostostomatidae]] - wetas, king crickets
+***Anostostomatidae - wetas, king crickets
-***[[Cooloolidae]]
+***Cooloolidae
-***[[Gryllacrididae]] - leaf-rolling crickets
+***Gryllacrididae - leaf-rolling crickets
-***[[Stenopelmatidae]] - Jerusalem crickets
+***Stenopelmatidae - Jerusalem crickets
 **Superfamily [[Tettigonioidea]]
 ***[[Tettigoniidae]] - katydids / bush crickets
@@ Line 120: / Line 106: @@
 **Superfamily [[Acridoidea]]
 ***[[Acrididae]] - grasshoppers, locusts
-***[[Arcypteridae]]
+***Arcypteridae
-***[[Catantopidae]]
+***Catantopidae
-***[[Charilaidae]]
+***Charilaidae
-***[[Chrotogonidae]]
+***Chrotogonidae
-***[[Lathiceridae]]
+***Lathiceridae
-***[[Lentulidae]]
+***Lentulidae
-***[[Pamphagidae]] - toad grasshoppers
+***Pamphagidae - toad grasshoppers
-***[[Pneumoridae]] - bladder grasshoppers
+***Pneumoridae - bladder grasshoppers
-***[[Proscopiidae]]
+***Proscopiidae
-***[[Pyrgomorphidae]] - gaudy grasshoppers
+***Pyrgomorphidae - gaudy grasshoppers
-**Superfamily [[Eumastacoidea]]
+**Superfamily Eumastacoidea
-***[[Chorotypidae]]
+***Chorotypidae
-***[[Episactidae]]
+***Episactidae
-***[[Eumastacidae]]<br>
+***Eumastacidae<br>
-***[[Euschmidtiidae]]
+***Euschmidtiidae
-***[[Mastacideidae]]
+***Mastacideidae
-***[[Morabidae]]
+***Morabidae
-***[[Proscopiidae]]
+***Proscopiidae
-***[[Thericleidae]]
+***Thericleidae
-**Superfamily [[Pneumoroidea]]
+**Superfamily Pneumoroidea
-*[[Pneumoridae]]
+*Pneumoridae
-**Superfamily [[Pyrgomorphoidea]]
+**Superfamily Pyrgomorphoidea
-*[[Pyrgomorphidae]]
+*Pyrgomorphidae
-**Superfamily [[Tanaoceroidea]]
+**Superfamily Tanaoceroidea
-*[[Tanaoceridae]]<br>
+*Tanaoceridae<br>
-**Superfamily [[Tetrigoidea]]
+**Superfamily Tetrigoidea
-***[[Tetrigidae]] - grouse locusts
+***Tetrigidae - grouse locusts
-**Superfamily [[Tridactyloidea]]
+**Superfamily Tridactyloidea
-***[[Cylindrachetidae]]
+***Cylindrachetidae
-***[[Rhipipterygidae]]
+***Rhipipterygidae
-***[[Tridactylidae]] - pygmy mole crickets
+***Tridactylidae - pygmy mole crickets
-**Superfamily [[Trigonopterygoidea]]
+**Superfamily Trigonopterygoidea
-***[[Trigonopterygidae]]
+***Trigonopterygidae
-***[[Xyronotidae]]
+***Xyronotidae
-Note that the cricket suborder [[Ensifera]] will probably be given its own order soon, the [[Grylloptera]]. The Orthopterists' Society also recently (December 2005) decided upon a major change in the classificatory organization of the Ensifera.
 ==References==
-*Grzimek, B., D. G. Kleiman, V. Geist, and M. C. McDade. 2004. ''Grzimek's Animal Life Encyclopedia''. Detroit: Thomson-Gale. ISBN 0787657883.
+* Grzimek, B., D. G. Kleiman, V. Geist, and M. C. McDade. 2004. ''Grzimek's Animal Life Encyclopedia.'' Detroit: Thomson-Gale. ISBN 0787657883.
-* O'Toole, C. 2002. ''Firefly Encyclopedia of Insects and Spiders''. Buffalo, N.Y.: Firefly Books. ISBN 1552976122.
+* Gwynne, D. T., L. DeSutter, P. Flook, and H. Rowell. 1996. Orthoptera. Crickets, kaytdids, grasshoppers, etc. ''Tree of Life Web Project.''
+* Gwynne, D. T. and L. DeSutter. 1996. Ensifera. Crickets, kaydids, and weta. ''Tree of Life Web Project.''
-== External links ==
+* O'Toole, C. 2002. ''Firefly Encyclopedia of Insects and Spiders.'' Buffalo, NY: Firefly Books. ISBN 1552976122.
-*[http://osf2x.orthoptera.org/osf2.3/OSF2X2Frameset.htm Orthoptera Species File Online]
+* Rowell, H. and P. Flook. 2001. Caelifera. Shorthorned grasshoppers, locusts and relatives. ''Tree of Life Web Project.''
-*[http://www.ent.iastate.edu/imagegal/orthoptera Orthoptera Image Gallery (Iowa State University Entomology Department)]
-*[http://www.affa.gov.au/content/output.cfm?ObjectID=D2C48F86-BA1A-11A1-A2200060B0A00383 Australian Plague Locust Commission]
-*[http://www.orthoptera.org/ The Orthopterists' Society]
 [[Category:Life sciences]]
+[[Category:Animals]]
+[[Category:Invertebrates]]
+[[Category:Arthropods]]
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