Diplura

The order Diplura ("two-pronged bristletails") is one of three orders within the class Entognatha (alongside Collembola (springtails) and Protura).[3] The name "diplura", or "two tails", refers to the characteristic pair of caudal appendages or filaments at the terminal end of the body.

Diplurans
Temporal range: Late Carboniferous–Recent[1]
Campodea staphylinus, Belgium
Scientific classification
Kingdom: Animalia
Phylum: Arthropoda
Class: Entognatha
Order: Diplura
Börner, 1904
Families [2]

Around 800 species of diplurans have been described, of which around 170 occur in North America,[4] 12 in Great Britain[5] and two in Australia.[6] Order Diplura was promoted to class Diplura when Entognatha was found to be polyphyletic.[7]

Anatomy

A dipluran of the family Campodeidae

Diplurans are typically 2–50 millimetres (0.08–1.97 in) long, with most falling between 7–10 millimetres (0.28–0.39 in).[7] However, some species of Japyx may reach 50 mm (2.0 in).[5] They have no eyes and, apart from the darkened cerci in some species, they are unpigmented.[5] Diplurans have long antennae with 10 or more bead-like segments projecting forward from the head.[8] The abdomens of diplurans bear eversible vesicles, which seem to absorb moisture from the environment and help with the animal's water balance.[8] The body segments themselves may display several types of setae, or scales and setae.[9]

Diplurans possess a characteristic pair of cerci projecting backwards from the last of the 11 abdominal somites.[10] These cerci may be long and filamentous or short and pincer-like,[11] leading to occasional confusion with earwigs.[6] Some diplurans have the ability to shed their cerci if necessary (autotomy). Moulting occurs up to 30 times throughout the life of a dipluran, which is estimated to last up to one year.

As entognaths, the mouthparts are concealed within a small pouch by the lateral margins of the head capsule. The mandibles usually have several apical teeth.[9] Diplurans do not possess any eyes or wings.[7]

In males, glandular setae or disculi may be visible along the first abdominal sternite. External genital organs are present on the eighth abdominal segment.[9]

Ecology

Diplurans are common in moist soil, leaf litter or humus,[12] but are rarely seen because of their size and subterranean lifestyles.[8] They have biting mouthparts and feed on a variety of live prey and dead organic matter.[3] Those species with long cerci are herbivorous.[6]

Diplurans are found on nearly all land masses, except Antarctica and several oceanic islands.[9] Their role as soil-dwelling organisms may play a key role in indicating soil quality, and as a measure of anthropogenic impact (e.g. soil nutrient depletion as a result of farming).[13][14]

Reproduction

Like other non-insect hexapods, diplurans practice external fertilisation. Males lay up to 200 spermatophores a week, which are held off the ground by a short stalk and probably only remain viable for about two days.[12] The female collects the spermatophore with her genital opening, and later lays eggs in a cavity in the ground.[6][8][12] The hatchlings do not undergo metamorphosis, but resemble the adults, apart from their smaller size, lesser number of setae and their lack of reproductive organs.[3]

Lineages

Anatomy of Campodea (Campodeidae) and Japyx (Japygidae)

Several major lineages within Diplura are readily recognizable by the structure of their cerci.

Relatives

The relationships among the four groups of hexapods are not resolved, but most recent studies argue against a monophyletic Entognatha.[16] The fossil record of the Diplura is sparse, but one apparent dipluran dates from the Carboniferous.[2] This early dipluran, Testajapyx, had compound eyes, and mouthparts that more closely resembled those of true insects.

gollark: It's a low-end GPU which runs at literally 0% utilization most of the time.
gollark: Well, Finns and Catalonians will probably want to know about this too, surely.
gollark: Alternatively, they take you to Taiwan2, the backup copy of Taiwan within Chinese territory.
gollark: They fly the plane backward.
gollark: You could go there but you'd just end up in China again.

References

  1. Hoell HV, Doyen JT, Purcell AH (1998). Introduction to Insect Biology and Diversity (2nd ed.). Oxford University Press. p. 320. ISBN 978-0-19-510033-4.
  2. Maddison DR (January 1, 2005). "Diplura". Tree of Life Project. Archived from the original on March 2, 2012. Retrieved December 13, 2006.
  3. "Guide to New Zealand Soil Invertebrates". Massey University. 2006.
  4. Sikes DS (2019-01-24). "Diplura and Protura of Canada". ZooKeys (819): 197–203. doi:10.3897/zookeys.819.25238. PMC 6355753. PMID 30713439.
  5. Kendall D (2005). "Diplura". Kendall Bioresearch Services.
  6. "Diplura". CSIRO Entomology.
  7. Bugguide.net. Class Diplura - Two-pronged Bristletails
  8. "Diplura". McMaster University. 1999. Archived from the original on 2007-03-27.
  9. Allen RT (Dec 2002). "A Synopsis of the Diplura of North America: Keys to Higher Taxa, Systematics, Distributions and Descriptions of New Taxa (Arthropoda: Insecta)". Transactions of the American Entomological Society. 128 (4): 403–466. JSTOR 25078790.
  10. "Diplura". The Earthlife Web. November 11, 2005. Archived from the original on 2006-12-05.
  11. "Diplura". Iziko Museums of Cape Town. 2004. Archived from the original on 2007-09-26.
  12. Meyer JR (2005). "Diplura". North Carolina State University. Archived from the original on 2012-03-02. Retrieved 2006-12-13.
  13. Roy S (January 2018). "Soil Arthropods in Maintaining Soil Health: Thrust Areas for Sugarcane Production Systems". Sugar Tech. 20 (4): 376–391. doi:10.1007/s12355-018-0591-5.
  14. Fernandes Correia ME (2018). "Soil fauna changes across Atlantic Forest succession". Comunicata Scientiae. 9 (2): 162–174. doi:10.14295/cs.v9i2.2388 via Dialnet.
  15. Smith LM (1960-09-01). "The Family Projapygidae and Anajapygidae (Diplura) in North America". Annals of the Entomological Society of America. 53 (5): 575–583. doi:10.1093/aesa/53.5.575.
  16. Carapelli A, Nardi F, Dallai R, Frati F (2006). "A review of molecular data for the phylogeny of basal hexapods". Pedobiologia. 50 (2): 191–204. doi:10.1016/j.pedobi.2006.01.001.
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