Biology:Palaeodictyoptera

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Short description: Extinct order of insects

Palaeodictyoptera
Temporal range: 318–251 Ma
Late Carboniferous to Late Permian
Reconstruction Dunbaria fasciipennis.jpg
Reconstruction of Dunbaria fasciipennis
Scientific classification e
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Superorder: Palaeodictyopteroidea
Order: Palaeodictyoptera
Goldenberg, 1877
Superfamily

The Palaeodictyoptera are an extinct order of medium-sized to very large, primitive Palaeozoic paleopterous insects. They are informative about the evolution of wings in insects.

Overview

Restoration of Mazothairos

They were characterized by beak-like mouthparts, used to pierce plant tissues for feeding. There is a similarity between their fore- and hindwings, and an additional pair of winglets on the prothorax, in front of the first pair of wings. They are known as "six-winged insects" because of the presence of a pair of wings on each of the thoracic segments.[1][2][3][4] Their winglets provide clues to the origins of the first insect wings.

The mouthparts were elongated, and included sharp piercing stylets, and possibly a sucking pump-like organ. Unlike modern sucking insects, such as the Hemipterans, the mouthparts were held vertically below the head, or projected forwards. They probably used these organs to suck juices from plants, although some may have been ectoparasites, or predators.[5]

Some types attained huge size. For example, Mazothairos is estimated to have a wingspan of about 55 centimetres (22 in). Another distinctive feature was the presence of unusually long cerci, about twice the length of the abdomen.[5]

The Palaeodictyoptera are a paraphyletic assemblage of basal palaeodictyopteroidean insects, rather than a clade, because they gave rise to other insect orders. They range in time from the Middle Carboniferous (late Serpukhovian or early Bashkirian in age) to the late Permian.

References

  1. Parzer, Harald; Stansbury, Matthew (22 October 2018). "Enriching Undergraduate Entomology Coursework through the Integration of Evolutionary Developmental Biology". The American Biology Teacher 80 (8): 561–569. doi:10.1525/abt.2018.80.8.561. 
  2. Tomoyasu, Yoshinori; Wheeler, Scott R.; Denell, Robin E. (February 2005). "Ultrabithorax is required for membranous wing identity in the beetle Tribolium castaneum". Nature 433 (7026): 643–647. doi:10.1038/nature03272. PMID 15703749. Bibcode2005Natur.433..643T. 
  3. Elias-Neto, Moysés; Belles, Xavier (3 August 2016). "Tergal and pleural structures contribute to the formation of ectopic prothoracic wings in cockroaches". Royal Society Open Science 3 (8): 160347. doi:10.1098/rsos.160347. PMID 27853616. Bibcode2016RSOS....360347E. 
  4. Tomoyasu, Yoshinori (January 2018). "Evo–Devo: The Double Identity of Insect Wings". Current Biology 28 (2): R75–R77. doi:10.1016/j.cub.2017.12.004. PMID 29374449. 
  5. 5.0 5.1 Hoell, H.V.; Doyen, J.T.; Purcell, A.H. (1998). Introduction to Insect Biology and Diversity (2nd ed.). Oxford University Press. p. 321. ISBN 0-19-510033-6. 

External links

Further reading

Wikidata ☰ Q136109 entry