Biology:Planthopper

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Short description: Superfamily of insects

Planthopper
Temporal range: Late Triassic–Recent
Flatid leaf bugs and nymphs (Phromnia rosea).jpg
Flatida rosea (Flatidae)
adults and nymphs
Scientific classification e
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Hemiptera
Suborder: Auchenorrhyncha
Infraorder: Fulgoromorpha
Evans, 1946
Families

See text

A planthopper is any insect in the infraorder Fulgoromorpha,[1] in the suborder Auchenorrhyncha,[2] a group exceeding 12,500 described species worldwide. The name comes from their remarkable resemblance to leaves and other plants of their environment and that they often "hop" for quick transportation in a similar way to that of grasshoppers. However, planthoppers generally walk very slowly. Distributed worldwide, all members of this group are plant-feeders, though few are considered pests. The infraorder contains only a single superfamily, Fulgoroidea. Fulgoroids are most reliably distinguished from the other Auchenorrhyncha by two features; the bifurcate (Y-shaped) anal vein in the forewing, and the thickened, three-segmented antennae, with a generally round or egg-shaped second segment (pedicel) that bears a fine filamentous arista.

Overview

Planthoppers are laterally flattened and hold their broad wings vertically, in a tent-like fashion, concealing the sides of the body and part of the legs.[3] Nymphs of many fulgoroids produce wax from special glands on the abdominal terga and other parts of the body. These are hydrophobic and help conceal the insects. Adult females of many families also produce wax which may be used to protect eggs.[4]

Planthopper (Pterodictya reticularis) with abdominal filaments of ketoester wax

Fulgoroid nymphs also possess a biological gear mechanism at the base of the hind legs, which keeps the legs in synchrony when the insects jump. The gears, not present in the adults, were known for decades[5] before the recent description of their function.[6]

Planthoppers are often vectors for plant diseases, especially phytoplasmas which live in the phloem of plants and can be transmitted by planthoppers when feeding.[7]

A number of extinct members of Fulgoroidea are known from the fossil record, such as the Lutetian-age Emiliana from the Green River Formation (Eocene) in Colorado.[8]

Both planthopper adults and nymphs feed by sucking sap from plants; in so doing, the nymphs produce copious quantities of honeydew, on which sooty mould often grows.[3] One species considered to be a pest is Haplaxius crudus, which is a vector for lethal yellowing, a palm disease that nearly killed off the Jamaican Tall coconut variety.[9]

Classification

As mentioned under Auchenorrhyncha, some authors use the name Archaeorrhyncha as a replacement for the Fulgoromorpha.

The extant families of Fulgoroidea are:[4]

Extinct families include:

  • †Dorytocidae Emeljanov and Shcherbakov 2018, monotypic, Burmese amber, Cenomanian
  • Fulgoridiidae Handlirsch 1939 Early-Upper Jurassic, Eurasia
  • †Jubisentidae Zhang et al. 2019 Burmese amber, Cenomanian
  • †Katlasidae Luo et al. 2020, monotypic, Burmese amber, Cenomanian
  • †Lalacidae Hamilton 1990 Crato Formation, Brazil Lushangfen Formation, Yixian Formation, China, Aptian
  • Mimarachnidae Shcherbakov 2007 Early Cretaceous- early Late Cretaceous, Eurasia
  • †Neazoniidae Szwedo 2007 Lebanese amber, Barremian, Charentese amber, France, Cenomanian
  • Perforissidae Shcherbakov 2007 Early Cretaceous- early Late Cretaceous, Argentina, Lebanon, Mongolia, Myanmar, Russia, Spain, New Jersey
  • †Qiyangiricaniidae Szwedo et al. 2011 monotypic, Guanyintan Formation, China, Toarcian
  • †Weiwoboidae Lin et al. 2010 monotypic, Yunnan, China, Eocene
  • †Szeiiniidae Zhang et al. 2021 monotypic, Shaanxi, China, Late Triassic
  • †Yetkhatidae Song et al. 2019 Burmese amber, Cenomanian

Gallery

Notes

  1. Evans, J. W. (1946). "A natural classification of leaf-hoppers (Jassoidea, Homoptera). Part 1. External morphology and systematic position". Transactions of the Royal Entomological Society of London 96 (3): 47–60. doi:10.1111/j.1365-2311.1946.tb00442.x. 
  2. Song, N.; Liang, A.-P.; Bu, C.-P. (2012). "A Molecular Phylogeny of Hemiptera Inferred from Mitochondrial Genome Sequences". PLOS ONE 7 (11): e48778. doi:10.1371/journal.pone.0048778. PMID 23144967. Bibcode2012PLoSO...748778S. 
  3. 3.0 3.1 Boggs, Joe (14 June 2016). "Planthoppers". Bug Bytes. Ohio State University Extension. https://bygl.osu.edu/node/348. 
  4. 4.0 4.1 Dietrich, C. H. (2009). "Auchenorrhyncha: (Cicadas, Spittlebugs, Leafhoppers, Treehoppers, and Planthoppers)". Encyclopedia of Insects (2nd ed.). Academic Press. pp. 56–64. doi:10.1016/B978-0-12-374144-8.00015-1. ISBN 978-0-12-374144-8. 
  5. Sander, K. (1957). "Bau und Funktion des Sprungapparates von Pyrilla perpusilla Walker (Homoptera – Fulgoridae)". Zoologische Jahrbücher: Abteilung für Anatomie und Ontogenie der Tiere Abteilung für Anatomie und Ontogenie der Tiere 75: 383–388. 
  6. Burrows, M.; Sutton, G. (2013). "Interacting Gears Synchronize Propulsive Leg Movements in a Jumping Insect". Science 341 (6151): 1254–1256. doi:10.1126/science.1240284. PMID 24031019. Bibcode2013Sci...341.1254B. https://research-information.bris.ac.uk/en/publications/interacting-gears-synchronize-propulsive-leg-movements-in-a-jumping-insect(69cf1502-217a-4dca-a0d3-f8b247794e92).html. 
  7. Lee, I.-M.; Davis, R. E.; Gundersen-Rindal, D. E. (2000). "Phytoplasma: Phytopathogenic Mollicutes". Annual Review of Microbiology 54 (1): 221–255. doi:10.1146/annurev.micro.54.1.221. PMID 11018129. https://zenodo.org/record/1235029. 
  8. Shcherbakov, D. (2006). "The earliest find of Tropiduchidae (Homoptera: Auchenorrhyncha), representing a new tribe, from the Eocene of Green River, USA, with notes on the fossil record of higher Fulgoroidea". Russian Entomological Journal 15 (3): 315–322. http://www.kmk.entomology.ru/pdf/rej15-2006/ent15_3%20315_322%20Shcherbakov.pdf. 
  9. Brown, S. E.; Been, B. O.; McLaughlin, W. A. (2006). "Detection and variability of the lethal yellowing group (16Sr IV) phytoplasmas in the Cedusa sp. (Hemiptera: Auchenorrhyncha: Derbidae) in Jamaica". Annals of Applied Biology 149 (1): 53–62. doi:10.1111/j.1744-7348.2006.00072.x. 

References

External links

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