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Amphisbaenia

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Amphisbaenians
Temporal range: Late Cretaceous – Present 84–0 Ma
Blanus cinereus, Spain
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Reptilia
Order: Squamata
Superfamily: Lacertoidea
Clade: Amphisbaenia
Gray, 1844
Families

Amphisbaenidae
Bipedidae
Blanidae
Cadeidae
Rhineuridae
Trogonophidae

Black: range of Amphisbaenia

Amphisbaenia /æmfɪsˈbniə/ (called amphisbaenians or worm lizards) is a group of typically legless lizards,[1] comprising over 200 extant species. Amphisbaenians are characterized by their long bodies, the reduction or loss of the limbs, and rudimentary eyes. As many species have a pink body and scales arranged in rings, they have a superficial resemblance to earthworms. While the genus Bipes retains forelimbs, all other genera are limbless. Phylogenetic studies suggest that they are nested within Lacertoidea, closely related to the lizard family Lacertidae.[1] Amphisbaenians are widely distributed, occurring in North America, Europe, Africa, South America, Western Asia and the Caribbean. Most species are less than 6 inches (15 cm) long.

Description

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Close-up of the head of Rhineura

Despite a superficial resemblance to some primitive snakes, amphisbaenians have many unique features that distinguish them from other reptiles. Internally, their right lung is reduced in size to fit their narrow bodies, whereas in snakes, it is always the left lung. Their skeletal structure and skin are also different from those of other squamates.[2] Both genetic and recent fossil evidence indicate that amphisbaenians lost their legs independently from snakes.[3]

The head is stout, not set off from the neck, and either rounded, sloped, or sloped with a ridge down the middle. Most of the skull is solid bone, with a distinctive single median tooth in the upper jaw. It has no outer ears, and the eyes are deeply recessed and covered with skin and scales. These rudimentary eyes have a cornea, lens, and complex ciliary body, which allows them to detect light, but they are reduced in size and do not have an anterior chamber.[4] The body is elongated, and the tail truncates in a manner that vaguely resembles the head. At their tail is a single fracture plane for tail autotomy, between the fifth and eighth caudal rings and is often visible due to coloration. The purpose seems to be to distract predators with the tail acting as a decoy.[5] Their name is derived from Amphisbaena, a mythical serpent with a head at each end—referencing both the manner in which their tail truncates, and their ability to move just as well in reverse as forwards. The four species of Bipes are unusual in having a pair of forelimbs. All other species lack any trace of forelimb skeletal elements, and Rhineura floridana also lack any pectoral girdle skeletal element. The other species have some remnants of the pectoral girdle embedded within the body musculature. A remnant of the pelvic girdle is present in all families, and Bipes and the genus Blanus have also retained a reduced femur.[6]

Skull of the amphisbaenian Blanus, showing the large teeth and powerful jaws typical of worm lizards

Amphisbaenians have a distinctive skin made up of rings of scales (annuli) that form a tube in which the loosely attached trunk of the body moves. Burrowing is achieved with an accordion-like motion, with longitudinal muscles in the skin bunching up the annuli, anchoring it to the surrounding soil, and trunk muscles moving the body forward or backwards within the integumentary tube.[7]

Amphisbaenians are carnivorous, able to tear chunks out of larger prey with their powerful, interlocking teeth. Like lizards, some species are able to shed their tails (autotomy). Most species lay eggs, although at least some are known to be viviparous.[2]

The red worm lizard (Amphisbaena alba) is often found in association with leafcutter ants. This reptile is thought to forage in the ants' deep galleries, where the insects deposit their waste. The presence of these reptiles is easily explained by the fact that they prey on the larvae of large beetles that also inhabit the leafcutter ants' galleries.[8]

Amphisbaenians have often been categorized by their skull shape. The specialized skull shape is hypothesized to be driven by environmental and ecological conditions, such as soil type, and is an instance of convergent evolution.[9] Traditionally four types of skulls are recognized; “shovel-headed,” “round-headed,” “keel-headed,” and “spade-headed”, although it doesn't say anything about the relationship between the types.[10] Of these four morphotypes, the round-headed species produce the lowest burrowing forces, the shovel-headed species the second lowest forces, the keel-headed species the second highest forces, and the spade-headed the highest forces.[11]

Distribution

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Amphisbaenians are found in North America, Europe, Africa, South America, the Middle East, and the Caribbean, a surprisingly large distribution despite being small subterranean animals that rarely ever leave their burrows. Initially, this large distribution was thought to be due to vicariance, or the result of the breakup of Pangaea. This hypothesis was supported by morphological data that dated amphisbaenian diversification to over 200 million years ago (Mya), while Pangaea was still intact.[12] However, a recent study using a combination of molecular and fossil evidence suggests that amphisbaenians originated in North America, where they underwent their first divergence around 107 Mya.[13] They then underwent another major diversification into North American and European forms 40–56 Mya. Finally, the African and South American forms split around 40 Mya. This suggests that worm-lizards crossed the Atlantic Ocean (which had fully formed by 100 Mya) twice, once just after the KPg extinction, and then again, later in the Palaeogene. This also implies that limblessness evolved independently three times, a finding that contrasts the morphological theory that limbed amphisbaenians are the most basal. This widespread dispersal is suggested to have occurred by rafting – natural erosion or a storm event loosened a large raft of soil and vegetation that drifted across the ocean until landing on another shore. This oceanic rafting would be feasible due to the subterranean lifestyle and small nutritional requirements of amphisbaenids. After the Chicxulub impact, many predators of amphisbaenians became extinct, which allowed colonist amphisbaenians to thrive in new territories.[13]

Evolution

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Skeleton of the possible stem-amphisbaenian Slavoia darevskii from the Late Cretaceous of Mongolia

The fully limbed Slavoia darevskii from the Late Cretaceous (Campanian) of Mongolia may represent an early relative of amphisbaenians.[14] The oldest known modern amphisbaenians are members of Rhineuridae and the extinct family Oligodontosauridae from the Paleocene of North America. Modern amphisbaenians likely originated in North America, before dispersing to South America, Africa and Europe via rafting during the Paleogene.[15]

Taxonomy

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Taxonomic classification of amphisbaenians was traditionally based on morphological characters, such as the number of preanal pores, body annuli, tail annuli, and skull shape. Such characters are vulnerable to convergent evolution; in particular, the loss of the forelimbs and the evolution of specialized shovel-headed and keel-headed morphs appear to have occurred multiple times in the history of the group.[16] Classifications based on mitochondrial DNA sequences and nuclear DNA sequences better reflect their true evolutionary history, and are now being used to distinguish genera of amphisbaenians.[17][18]

The most ancient branch of the tree is the Rhineuridae. The remaining five families form a group to the exclusion of rhineurids. Bipedidae, Blanidae, and Cadeidae represent the most ancient divergences within this grouping, with Trogonophidae and Amphisbaenidae diverging more recently.[19] South American amphisbaenids apparently are derived from African amphisbaenids that rafted across the Atlantic in the Eocene, about 40 million years ago.[19] Cuban cadeids may be similarly derived from blanids that rafted across from northwestern Africa or southwestern Europe in a similar time frame.[19]

Historically considered to be lizards, some studies have suggested that they should be considered separate from lizards,[20] though many modern studies consider them to be true lizards, as they are closely related to other lizards of the clade Lacertoidea.[1]

Families

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Six extant families of amphisbaenians are currently recognised:[21]

  • Amphisbaenidae Gray, 1865 – Amphisbaenids, tropical worm lizards of South America, some Caribbean islands, and Sub-Saharan Africa.[22] (12 genera, 182 species)[23]
  • Bipedidae Taylor, 1951 – Only in Mexico and commonly called ajolotes,[24] but not to be confused with axolotls (1 genus, 3 species)[25]
  • Blanidae Kearney & Stuart, 2004[26] – Anatolian, Iberian, and Moroccan worm lizards (1 genus, 7 species)[27]
  • Cadeidae Vidal and Hedges, 2008 – Cuban keel-headed worm lizards (1 genus, 2 species).[28] Traditionally amphisbaenids, but shown by DNA to be closest to Blanidae.[19]
  • Rhineuridae Vanzolini, 1951 – North American worm lizards[29] (1 genus, 1 species)[30]
  • Trogonophidae Gray, 1865 – Palearctic worm lizards[31] (4 genera, 6 species)[32]

In addition, the following extinct families are also known from fossil remains:[33]

Another fossil family, the †Crythiosauridae, was also previously placed in this group, but has since been removed due to a lack of evidence placing it within the amphisbaenians.[35]

Phylogeny

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The following cladogram shows the relationships between the six amphisbaenian families determined in the phylogenetic analysis of mitochondrial and nuclear genes by Vidal et al. (2008).[19]

Amphisbaenia

Rhineuridae (Florida)

Blanidae (Mediterranean region)

Cadeidae (Cuba)

Bipedidae (Mexico)

Trogonophidae (Africa, Middle East)

Amphisbaenidae (Africa, South America, Caribbean)

References

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  1. ^ a b c Tałanda, Mateusz (January 2016). "Cretaceous roots of the amphisbaenian lizards". Zoologica Scripta. 45 (1): 1–8. doi:10.1111/zsc.12138. ISSN 0300-3256.
  2. ^ a b Gans, Carl (1998). Cogger, H.G.; Zweifel, R.G. (eds.). Encyclopedia of Reptiles and Amphibians. San Diego: Academic Press. pp. 212–215. ISBN 0-12-178560-2.
  3. ^ Müller, Johannes; Hipsley, Christy A.; Head, Jason J.; Kardjilov, Nikolay; Hilger, André; Wuttke, Michael; Reisz, Robert R. (May 2011). "Eocene lizard from Germany reveals amphisbaenian origins". Nature. 473 (7347): 364–367. Bibcode:2011Natur.473..364M. doi:10.1038/nature09919. PMID 21593869.
  4. ^ Foureaux, G., Egami, M.I., Jared, C., Antoniazzi, M.M., Gutierre, R.C., Smith, R.L., 2010. Rudimentary eyes of squamate fossorial reptiles (amphisbaenia and serpentes). John Wiley & Sons, Hoboken, NJ. 293(2): 351–7.
  5. ^ Guedes, Jhonny J. M.; Costa, Henrique C.; Moura, Mario R. (December 2020). "A new tale of lost tails: Correlates of tail breakage in the worm lizard Amphisbaena vermicularis". Ecology and Evolution. 10 (24): 14247–14255. Bibcode:2020EcoEv..1014247G. doi:10.1002/ece3.7023. ISSN 2045-7758. PMC 7771140. PMID 33732432.
  6. ^ Smith-Paredes, Daniel; Griffith, Oliver; Fabbri, Matteo; Yohe, Laurel; Blackburn, Daniel G.; Siler, Cameron D.; Bhullar, Bhart-Anjan S.; Wagner, Günter P. (September 2021). "Hidden limbs in the "limbless skink" Brachymeles lukbani: Developmental observations". Journal of Anatomy. 239 (3): 693–703. doi:10.1111/joa.13447. PMC 8349411. PMID 33870497.
  7. ^ "Amphisbaenia". Vertebrate Diversity. Grant Museum of Zoology, UCL. Retrieved 9 May 2020.
  8. ^ Piper, Ross (2007), Extraordinary Animals: An Encyclopedia of Curious and Unusual Animals, Greenwood Press.
  9. ^ Mendes, Roberta Graboski (2018). Phylogeny and evolution of head shape in the Amphisbaenia (Reptilia: Squamata) (Thesis). Universidade de Sao Paulo, Agencia USP de Gestao da Informacao Academica (AGUIA). doi:10.11606/t.41.2018.tde-16042018-105012.
  10. ^ Bell, Christopher J.; Cadena, Cristhian; Meza, Antonio; Rudie, Lauren; Lewis, Patrick J. (2024). "Cranial anatomy of the "round-headed" Amphisbaenian Zygaspis quadrifrons (Squamata, Amphisbaenia) based on high-resolution x-ray computed tomography". The Anatomical Record. 307 (3): 495–532. doi:10.1002/ar.25304. PMID 37849246.
  11. ^ A comparison of postcranial osteology and associated burrowing performance of four amphisbaenian morphotypes
  12. ^ Macey, J. Robert; Papenfuss, Theodore J.; Kuehl, Jennifer V.; Fourcade, H. Mathew; Boore, Jeffrey L. (2004). "Phylogenetic relationships among amphisbaenian reptiles based on complete mitochondrial genomic sequences". Molecular Phylogenetics and Evolution. 33 (1): 22–31. doi:10.1016/j.ympev.2004.05.003. ISSN 1055-7903. PMID 15324836.
  13. ^ a b Longrich, N., Vinter, J., Pisani, D., Pyron, A., Gauthier, J. 2015 Biogeography of worm lizards (Amphisbaenia) driven by end-Cretaceous mass extinction. Proceedings of the Royal Society B, 282 http://rspb.royalsocietypublishing.org/content/282/1806/20143034
  14. ^ Tałanda, Mateusz (2017). "Evolution of postcranial skeleton in worm lizards inferred from its status in the Cretaceous stem-amphisbaenian Slavoia darevskii". Acta Palaeontologica Polonica. 62. doi:10.4202/app.00294.2016.
  15. ^ Longrich, Nicholas R.; Vinther, Jakob; Pyron, R. Alexander; Pisani, Davide; Gauthier, Jacques A. (2015-05-07). "Biogeography of worm lizards (Amphisbaenia) driven by end-Cretaceous mass extinction". Proceedings of the Royal Society B: Biological Sciences. 282 (1806): 20143034. doi:10.1098/rspb.2014.3034. ISSN 0962-8452. PMC 4426617. PMID 25833855.
  16. ^ Kearney, Maureen, and Bryan L. Stuart. "Repeated evolution of limblessness and digging heads in worm lizards revealed by DNA from old bones." Proceedings of the Royal Society of London B 271 (2004): 1677–1684.
  17. ^ Mott, T., Vieites, D.R., 2009. Molecular phylogenetics reveals extreme morphological homoplasy in Brazilian worm lizards challenging current taxonomy. Molecular Phylogenetics & Evolution. 51(2): 190–200.
  18. ^ Vanzolini, P.E., 2002. An aid to the identification of the South American species of Amphisbaena (Squamata, Amphisbaenidae). Pap. Avulsos Zool, São Paulo, 42(15): 351–362.
  19. ^ a b c d e Vidal, N.; Azvolinsky, A.; Cruaud, C.; Hedges, S. B. (2008). "Origin of tropical American burrowing reptiles by transatlantic rafting". Biology Letters. 4 (1): 115–118. doi:10.1098/rsbl.2007.0531. PMC 2412945. PMID 18077239.
  20. ^ Bates, M. F. (1993). Amphisbaenians—What are they? Culna, 45, 7–10.
  21. ^ Uetz, P.; et al. (eds.). "Higher Taxa in Extant Reptiles". The Reptile Database. Retrieved 10 November 2020.
  22. ^ "Amphisbaenidae". Integrated Taxonomic Information System. Retrieved 19 August 2007.
  23. ^ Uetz, P.; et al. (eds.). "Amphisbaenidae". The Reptile Database. Retrieved 10 November 2020.
  24. ^ "Bipedidae". Integrated Taxonomic Information System. Retrieved 19 August 2007.
  25. ^ Uetz, P.; et al. (eds.). "Bipedidae". The Reptile Database. Retrieved 10 November 2020.
  26. ^ "Blanidae". Dahms Tierleben. www.dahmstierleben.de.
  27. ^ Uetz, P.; et al. (eds.). "Blanidae". The Reptile Database. Retrieved 10 November 2020.
  28. ^ Uetz, P.; et al. (eds.). "Cadeidae". The Reptile Database. Retrieved 10 November 2020.
  29. ^ "Rhineuridae". Integrated Taxonomic Information System. Retrieved 19 August 2007.
  30. ^ Uetz, P.; et al. (eds.). "Rhineura floridana (BAIRD, 1858)". The Reptile Database. Retrieved 10 November 2020.
  31. ^ "Trogonophidae". Integrated Taxonomic Information System. Retrieved 19 August 2007.
  32. ^ Uetz, P.; et al. (eds.). "Trogonophidae". The Reptile Database. Retrieved 10 November 2020.
  33. ^ Longrich, Nicholas R.; Vinther, Jakob; Pyron, R. Alexander; Pisani, Davide; Gauthier, Jacques A. (2015-05-07). "Biogeography of worm lizards (Amphisbaenia) driven by end-Cretaceous mass extinction". Proceedings of the Royal Society B: Biological Sciences. 282 (1806): 20143034. doi:10.1098/rspb.2014.3034. ISSN 0962-8452. PMC 4426617. PMID 25833855.
  34. ^ Folie, Annelise; Smith, Richard; Smith, Thierry (2013-01-01). "New amphisbaenian lizards from the Early Paleogene of Europe and their implications for the early evolution of modern amphisbaenians". Geologica Belgica. ISSN 1374-8505.
  35. ^ Kearney, Maureen (2003). "Systematics of the Amphisbaenia (Lepidosauria:squamata) Based on Morphological Evidence from Recent and Fossil Forms". Herpetological Monographs. 17 (1): 1. doi:10.1655/0733-1347(2003)017[0001:SOTALB]2.0.CO;2. ISSN 0733-1347.

Further reading

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  • Branch, Bill (2004). Field Guide to Snakes and Other Reptiles of Southern Africa. Third Revised edition, Second Impression. Sanibel Island, Florida: Ralph Curtis Books. 399 pp. ISBN 0-88359-042-5. (Suborder Amphisbaenia, pp. 201–202).
  • Gans C (2005). "Checklist and Bibliography of the Amphisbaenia of the World". Bulletin of the American Museum of Natural History (289): 1–130.
  • Goin CJ, Goin OB; Zug GR (1978). Introduction to Herpetology, Third Edition. San Francisco: W.H. Freeman and Company. xi + 378 pp. ISBN 0-7167-0020-4. (Suborder Amphisbaenia, pp. 276–278).
  • Gray JE (1844). Catalogue of the Tortoises, Crocodiles, and Amphisbænians, in the Collection of the British Museum. London: Trustees of the British Museum. (Edward Newman, printer). viii + 80 pp. ("Amphisbænia", new order, p. 68).