Biology:Schizomida

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Short description: Order of short-tailed whip-scorpions

Schizomida
Temporal range: Cenomanian–present
Hubbardia pentapeltis female.jpg
Female Hubbardia pentapeltis
Scientific classification e
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Subphylum: Chelicerata
Class: Arachnida
Clade: Tetrapulmonata
Order: Schizomida
Petrunkevitch, 1945
Families

Calcitronidae Petrunkevitch, 1945b
Hubbardiidae Cook, 1899
Protoschizomidae Rowland, 1975

Schizomida, also known as sprickets[1] or short-tailed whip-scorpions,[2] is an order of arachnids, generally less than 5 millimetres (0.20 in) in length. The order is not yet widely studied. E. O. Wilson has identified schizomids as among the "groups of organisms that desperately need experts to work on them."[3]

Taxonomy

Schizomids are grouped into three families:

About 300 species of schizomids have been described worldwide,[4] most belonging to the Hubbardiidae family. A systematic review including a full catalogue may be found in Reddell & Cokendolpher (1995). The Schizomida is sister to the order Uropygi, the two clades together forming the Thelyphonida (in the broad sense of the name).[5] Based on molecular clock dates, both orders likely originated in the late Carboniferous somewhere in the tropics of Pangea, and the Schizomida underwent substantial diversification starting in the Cretaceous.[5] The oldest known fossils of the group are from the Mid-Cretaceous Burmese amber of Myanmar, which are assignable to the Hubbardiidae.[6][7]

Morphology

Schizomids are relatively small, soft-bodied arachnids, somewhat similar in appearance to whip scorpions. The prosoma (cephalothorax) is divided into three regions, each covered by plates, the large protopeltidium and the smaller, paired, mesopeltidia and metapeltidia. The name means "split or cleaved middle", referring to the way the prosoma is divided into two separate plates.[8]

Modified flagellum of male Hubbardia pentapeltis

The opisthosoma (abdomen) is a smooth oval of 12 recognizable segments. The first is reduced and forms the pedicel, while the last three are constricted, forming the pygidium. The last segment bears a short whip-like tail or flagellum, consisting of no more than four segments. The females generally have 3-4-segmented flagella, while in males it is single segmented.[9]

Like the related orders Uropygi and Amblypygi, and the more distantly related Solifugae, the schizomids use only six legs for walking, having modified their first two legs to serve as sensory organs. They also have large well-developed pincer-like pedipalps just before the sensory legs. The hind legs are modified for jumping, as part of their escape response when threatened.[10]

Schizomids have no actual eyes, but a few species have vestigial eyespots capable of telling light from dark. They breathe through a single pair of book lungs located on the second abdominal segment, as the second pair on third abdominal segment found in the other orders of Tetrapulmonata is lost.[11][12]

Distribution and habitat

Schizomids are generally tropical and subtropical creatures, and they have a global distribution in these habitats, including in Southeast Asia, India , Australia , several Pacific Islands, Central and South America, and Africa.[13] Additionally, some populations have been found in neighboring temperate regions such as California and Texas .[13] Of the two extant families of sprickets, Hubbardiidae has a global distribution while Protoschizomidae is only found in Mexico and Texas.[13] While schizomids are not native to Europe, they have been introduced to the continent in Britain, France, the Czech Republic, and Poland via soil stock imported for botanical gardens; however, thus far they are still restricted to the artificial greenhouse environments.[13][14] Despite their global distribution, most schizomid species have very restricted distributions, with many only known from their original locality.[13]

Humidity is vital to determining the habitats in which sprickets can live as they need to avoid desiccation.[13] They typically live in rainforest leaf litter, particularly in the top layer of organic soil, under rocks, in and beneath rotten logs, and even in caves.[13][15] Although most species are restricted to rainforests, they can also be found in neighboring woody areas.[13] The Australian species Draculoides vinei is believed to have been forced to move into a nearby humid cave system after its original forests dramatically decreased in size.[15] Additionally, some species have been found in insect nests; Afrozomus machadoi lives in termite mounds, while Stenochrus portoricensis has been found in ant colonies.[15] Schizomids are also occasionally found living in the trees; the South American Surazomus arboreus lives in rainforest that is seasonally flooded, forcing the arachnids to move higher into the trees to avoid drowning.[15]

While sprickets are not typically found in colder climates, several Californian Hubbardia species have been found living under snow-covered rocks, and Hubbardia briggsi in particular is often found in snowy habitats during the winter.[13]

Biology

While not much is known about the lifespans of schizomids, they have been found to live for several months in captivity.[16]

Mortality and defense

Not much is known about the natural predators of sprickets.[15] Amblypygids have been observed eating schizomids.[15] Additionally, despite their small size, schizomids have been observed being parasitized by tiny nematodes; the opisthosoma of one Stenochrus goodnightorum was nearly completely filled by a parasitic nematode.[15]

Diet and feeding

Sprickets are active predators, constantly using their antenniform legs to examine the forest soil for potential prey.[15] A wide range of invertebrates are prey items, including isopods, millipedes, cockroaches, worms, springtails, termites, booklice, zorapterans, and even other schizomids.[15] Prey can range in size from 10% of their body size to as much as 100%.[15] Once potential prey is located, the arachnid uses their antenniform legs to determine the size of the creature and note any extremities.[15] Should the schizomid not retreat, it will lunge forward and seize its victim with its palps.[15] The prey is then subdued, and possibly taken to the shelter of a nearby crevice to be eaten.[15] The chelicerae dismember the prey item before the tissues are liquified into chyme and ingested via suction with the mouth.[15]

Schizomids can survive a long time without food; some Hubbardia pentapeltis have been shown to survive five months without food.[15]

References

  1. "Researchers count 13 new species of fanged arachnids in the Pilbara". WAM. 2020-10-28. https://museum.wa.gov.au/about/latest-news/researchers-count-13-new-species-fanged-arachnids-pilbara. 
  2. The American Arachnological Society Committee on Common Names of Arachnids (2003). R.G. Breene (chair). ed (PDF online publication). Common Names of Arachnids 2003 (5th ed.). Carlsbad, NM: American Tarantula Society. p. 42. ISBN 1-929427-11-5. http://www.americanarachnology.org/acn5.pdf. 
  3. Tyson, Charlie (May 7, 2019). "A Legendary Scientist Sounds Off on the Trouble With STEM". The Chronicle of Higher Education. https://www.chronicle.com/article/A-Legendary-Scientist-Sounds/246257. 
  4. Kallal, Robert J.; De Miranda, Gustavo Silva; Garcia, Erika L.; Wood, Hannah M. (2022). "Patterns in schizomid flagellum shape from elliptical Fourier analysis". Scientific Reports 12 (1): 3896. doi:10.1038/s41598-022-07823-y. PMID 35273227. Bibcode2022NatSR..12.3896K. 
  5. 5.0 5.1 Clouse, Ronald M.; Branstetter, Michael G.; Buenavente, Perry; Crowley, Louise M.; Czekanski‐Moir, Jesse; General, David Emmanuel M.; Giribet, Gonzalo; Harvey, Mark S. et al. (2017). "First global molecular phylogeny and biogeographical analysis of two arachnid orders (Schizomida and Uropygi) supports a tropical Pangean origin and mid-Cretaceous diversification" (in en). Journal of Biogeography 44 (11): 2660–2672. doi:10.1111/jbi.13076. ISSN 1365-2699. 
  6. Sandro P. Müller; Jason A. Dunlop; Ulrich Kotthoff; Jörg U. Hammel; Danilo Harms (2019). "The oldest short-tailed whipscorpion (Schizomida): a new genus and species from the Upper Cretaceous amber of northern Myanmar". Cretaceous Research 106: Article 104227. doi:10.1016/j.cretres.2019.104227. 
  7. De Francesco Magnussen, Ilian; Müller, Sandro P; Hammel, Jörg U; Kotthoff, Ulrich; Harms, Danilo (2022-05-24). "Diversity of schizomids (Arachnida: Schizomida) revealed by new fossil genera and species from mid-Cretaceous Burmese amber with implications for a Gondwanan origin of the Burma Terrane". Zoological Journal of the Linnean Society 196 (2): 792–844. doi:10.1093/zoolinnean/zlac034. ISSN 0024-4082. https://doi.org/10.1093/zoolinnean/zlac034. 
  8. Barnes, Robert D. (1982). Invertebrate Zoology. Philadelphia, PA: Holt-Saunders International. pp. 615–617. ISBN 0-03-056747-5. 
  9. Coddington J.A. et al. "Arachnida", p. 306, in: J. Cracraft (ed.) Assembling the Tree of Life, pp. 296-318
  10. Humphreys, W.F., et al. (1989) The biology of Schizomus vinei (Chelicerata: Schizomida) in the caves of Cape Range, Western Australia. J. ZOol. Lond. 217: 177-201.
  11. Dunlop, Jason A. (2010). "Geological history and phylogeny of Chelicerata". Arthropod Structure & Development 39 (2–3): 124–142. doi:10.1016/j.asd.2010.01.003. PMID 20093195. http://faculty.uml.edu/rhochberg/hochberglab/courses/arthropods/5.%20Dunlop%202010.pdf. Retrieved 2017-02-13. 
  12. Di, Z.; Edgecombe, G. D.; Sharma, P. P. (2018). "Homeosis in a scorpion supports a telopodal origin of pectines and components of the book lungs". BMC Evolutionary Biology 18 (1): 73. doi:10.1186/s12862-018-1188-z. PMID 29783957. 
  13. 13.0 13.1 13.2 13.3 13.4 13.5 13.6 13.7 13.8 Beccaloni 2009, p. 134
  14. Zawierucha, Krzysztof; Szymkowiak, Paweł; Dabert, Miroslawa; Harvey, Mark Stephen (January 2013). "First record of the schizomid Stenochrus portoricensis (Schizomida: Hubbardiidae) in Poland, with DNA barcode data". Turkish Journal of Zoology 37: 357–361. doi:10.3906/zoo-1210-9. https://www.researchgate.net/publication/259187350. Retrieved March 26, 2021. 
  15. 15.00 15.01 15.02 15.03 15.04 15.05 15.06 15.07 15.08 15.09 15.10 15.11 15.12 15.13 15.14 Beccaloni 2009, p. 135
  16. Beccaloni 2009, p. 137

Cited texts

  • Beccaloni, Jan (2009). Arachnids. Berkeley, CA: University of California Press. ISBN 978-0-520-26140-2. 
  • Reddell, J.R. & Cokendolpher, J.C. (1995). Catalogue, bibliography, and generic revision of the order Schizomida (Arachnida). Tex. Mem. Mus., Speleol. Monogr. 4: 1-170
  • Savory, T., 1977. Arachnida. second edition. Academic Press inc. New York. 339pp.


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