Orthoptera
Orthoptera | |
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Roesel's bush-cricket family Tettigoniidae | |
Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Animalia |
Phylum: | Arthropoda |
Class: | Insecta |
Infraclass: | Neoptera |
Cohort: | Polyneoptera |
Order: | Orthoptera Latreille , 1793
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Extant suborders and superfamilies
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Suborder Ensifera
Suborder Caelifera
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Orthoptera (from
More than 20,000
Grasshoppers and other orthopterans are able to fold their wings (i.e. they are members of Neoptera).
Etymology
The name is derived from the Greek ὀρθός orthos meaning "straight" and πτερόν pteron meaning "wing".
Characteristics
Orthopterans have a generally
The first and third segments on the
Life cycle
Orthopterans have a paurometabolous lifecycle or
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.
Evolution
This order evolved 300 million years ago with a division into two suborders – Caelifera and Ensifera – occurring 256 million years ago.[4]
Phylogeny
The Orthoptera are divided into two suborders,
Orthoptera |
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Taxonomy
Taxonomists classify members of the Caelifera and Ensifera into infraorders and superfamilies as follows:[8][9][10]
- Suborder Caelifera – grasshoppers, pygmy mole crickets and allies
- Infraorder Acrididea
- Superfamily Acridoidea – grasshoppers, locusts
- Superfamily Eumastacoidea – monkey or matchstick grasshoppers and allies
- Superfamily Locustopsoidea†
- Superfamily Pneumoroidea– bladder grasshoppers
- Superfamily Pyrgomorphoidea– gaudy grasshoppers
- Superfamily Tanaoceroidea– desert long-horned grasshoppers
- Superfamily Tetrigoidea– ground-hoppers or grouse locusts
- Superfamily Trigonopterygoidea – leaf grasshoppers
- Infraorder Tridactylidea
- Superfamily Dzhajloutshelloidea†
- Superfamily Regiatoidea†
- Superfamily Tridactyloidea – pygmy mole crickets and allies
- Infraorder Acrididea
- Suborder Ensifera – crickets
- Superfamily Grylloidea – crickets, mole crickets
- Superfamily Hagloidea – grigs and allies
- Superfamily Phasmomimoidea†
- Superfamily Rhaphidophoroidea– camel crickets, cave crickets, cave wētā
- Superfamily Schizodactyloidea– dune crickets
- Superfamily Stenopelmatoidea – wētā and allies
- Superfamily Tettigonioidea– katydids / bush crickets
- Incertae sedis
- Superfamily Elcanoidea† Permian-Paleocene
Relationships with humans
As pests
Several species of Orthoptera are considered pests of crops and rangelands or seeking warmth in homes by humans. The two groups of Orthoptera that cause the most damage are grasshoppers and locusts. Locust are historically known for wiping out fields of crops in a day. Locust have the ability to eat up to their own body weight in a single day.[11] Individuals gather in large groups called swarms, these swarms can range up to 80 million individuals that stretch 460 square miles.[11] Grasshoppers can cause major agricultural damage but not to the documented extent as locust historically have. These insects mainly feed on weeds and grasses, however, during times of drought and high population density they will feed on crops. They are a known pest in soybean fields and will likely feed on these crops once preferred food sources have become scarce.[12]
As food
Most orthopterans are edible, making up 13% of all insects including some 80 species of grasshoppers being regularly consumed worldwide.[13] In Madagascar and Oaxaca, grasshoppers and locusts are usually collected early in the morning when it is cooler as the orthopterans are less mobile due to being cold-blooded.[13] In Thailand, house crickets are commonly reared and eaten; as of 2012, around 20,000 cricket farmers had farms in 53 of their 76 provinces.[13]
In the second century BCE in Ancient Greece, Diodorus Siculus is known to have called people from Ethiopia Acridophagi, meaning "eaters of locusts."[13]
In
As creators of biofuel
With new research showing promise in locating alternative
See also
- List of Orthopteroid genera containing species recorded in Europe
- List of Orthoptera recorded in Britain
- Orthopterida
- Female sperm storage
References
- ^ "Orthoptera - Grasshoppers, Locusts, Crickets, Katydids". Discover Life. Retrieved 2017-09-06.
- ^ ISBN 978-0-19-510033-4.)
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: CS1 maint: multiple names: authors list (link - ISBN 978-0-671-74695-7
- ^ Chang H, Qiu Z, Yuan H, Wang X, Li X, Sun H, Guo X, Lu Y, Feng X, Majid M, Huang Y (2020) Evolutionary rates of and selective constraints on the mitochondrial genomes of Orthoptera insects with different wing types. Mol Phylogenet Evol
- ^ Zhou Z, Ye H, Huang Y, Shi F. (2010) The phylogeny of Orthoptera inferred from mtDNA and description of Elimaea cheni (Tettigoniidae: Phaneropterinae) mitogenome. J. Genet. Genomics. 37(5):315-324
- JSTOR 3503478.
- PMID 9242597.
- ^ "Orthoptera Species File Online" (PDF). University of Illinois. Retrieved 6 January 2018.
- .
- PMID 12066707.
- ^ a b Society, National Geographic. "Locusts, Locust Pictures, Locust Facts - National Geographic". National Geographic. Archived from the original on February 7, 2010. Retrieved 2016-04-11.
- ^ Krupke, Christian. "Grasshoppers | Pests | Soybean | Integrated Pest Management | IPM Field Crops | Purdue University". extension.entm.purdue.edu. Retrieved 2016-04-11.
- ^ OCLC 868923724.
- ISBN 978-0-89815-977-6
- ^ Navigating the Bible: Leviticus
- PMID 23326236.
External links
- Orthoptera Species File Online
- Orthoptera Image Gallery (Iowa State University Entomology Department)
- Australian Plague Locust Commission
- The Orthopterists' Society
- AcridAfrica, les acridiens d'Afrique de l'Ouest
- New International Encyclopedia. 1905.
.
- Birdwing Grasshoppers in Belize
- Sound recordings of Orthoptera at BioAcoustica