Biology:Astrapotheria

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Short description: Extinct order of mammals

Astrapotheria
Temporal range: Late Paleocene-Late Miocene
~59–6.8 Ma
MEF Astrapotherium.jpg
Skull of Astrapotherium
Astrapotherium magnum NT.jpg
Reconstruction of Astrapotherium
Scientific classification e
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Clade: Meridiungulata
Order: Astrapotheria
Lydekker 1894[1]
Families

Astrapotheriidae
† Eoastrapostylopidae
† Trigonostylopidae

Astrapotheria is an extinct order of South American[2] and Antarctic[3] hoofed mammals that existed from the late Paleocene to the Middle Miocene, 59 to 11.8 million years ago.[2] Astrapotheres were large, rhinoceros-like animals and have been called one of the most bizarre orders of mammals with an enigmatic evolutionary history.[4]

This taxonomy of this order is not clear, but it may belong to Meridiungulata (along with Notoungulata, Litopterna, Pyrotheria and Xenungulata). In turn, Meridungulata is believed to belong to the extant superorder Laurasiatheria. Some scientists have regarded the astrapotheres (and sometimes the Meridiungulata as a whole) as members of the clade Atlantogenata. However, collagen and mitochondrial DNA sequence data analysed in 2015 places at least the notoungulates and litopterns firmly within Laurasiatheria, as a sister group to the perissodactyls.[5][6][7]

Description

Astrapotherium magnum skull

Their lophodont molars and tusk-like canines became extremely large and ever-growing in later astrapotheres. The upper molars lack an ectocingulum and are dominated by well-developed ectoloph and protoloph. Additional lophs formed in some derived taxa. They had lower molars with two cross-lophs, including a high protocristid, and eventually became almost selenodont. As a result, their dentition is similar to notoungulates, but it seems to have evolved independently. The cheek teeth are similar to rhinocerotoids, including similar microstructure, which indicate they had the same function.[4]

Postcranially, astrapotheres are relatively robust and more or less graviportal but have slender long bones, most notably in the hindlegs, suggesting they were amphibious. In order to support their proboscises and large heads they had relatively long and massive necks in relation to the rest of the vertebral column. Their feet are pentadactyl with short and stout podial and metapodial bones. Most characteristic for the order are the flat astragalus, equipped with a short neck and a flat head, articulating with both the navicular and cuboid bones; and their calcaneus with its enlarged peroneal tubercle.[4]

Three families are recognized: Eoastrapostylopidae from the late Paleocene, Trigonostylopidae from the Paleocene-Eocene, and Astrapotheriidae from the Eocene-Miocene. The Brazilian, Itaboraian Tetragonostylops and the Argentinian, Riochican Eoastrapostylops are the oldest astrapotheres. The latter, with its low-crowned and lophoselenodont cheek teeth, is considered the most primitive astrapothere. Trigonostylopids are distinct from other astrapotheres in their ear anatomy but are included in the order because of otherwise similar characters.[4] Antarctodon is one of few eutherian mammals, as well as one of the last known terrestrial vertebrates, found in Antarctica.[8]

The most famous member of the order is undoubtedly Astrapotherium, a 3 m (9.8 ft) long elephant-like animal that had lost its upper incisors and developed ever-growing canine tusks. They had lost their anterior premolars, resulting in a gap between their tusks and the hypsodont cheek teeth. The short and retracted nasal bones indicate a moderately developed tapir-like proboscis. The small Eocene Trigonostylops lacked such retracted nasals and probably also a proboscis. Other astrapotheriids, such as the Casamayoran Scaglia and Albertogaudrya, were between a sheep and a tapir in size and already the largest South American mammals.[4]

Classification

There is no scientific consensus regarding the classification within Astrapotheria. For example, Paula Couto 1963 originally described Tetragonostylops as a trigonostylopid but Soria|1982}}|Soria 1982 and Soria|1984}}|1984 transferred the genus to Astrapotheriidae and concluded that the remaining two genera in that family, Trigonostylops and Shecenia, form a basal collateral branch within Astrapotheriidae. According to Cifelli 1993, Trigonostylopidae (including Eoastrapostylopidae) is the stem group of Astrapotheriidae.[9]

References

  1. Astrapotheria in the Paleobiology Database. Retrieved March 2013
  2. 2.0 2.1 "The uruguaytheriine Astrapotheriidae from the rich middle Miocene Honda Group of the upper Magdalena River valley in Colombia (...) are the youngest securely dated remains of that order in South America." Johnson & Madden 1997, p. 356
  3. Bond, M.; Kramarz, A.; MacPhee, R. D. E.; Reguero, M. (2011). "A new astrapothere (Mammalia, Meridiungulata) from La Meseta Formation, Seymour (Marambio) Island, and a reassessment of previous records of Antarctic astrapotheres". American Museum Novitates (3718): 1–16. doi:10.1206/3718.2. http://digitallibrary.amnh.org/dspace/bitstream/2246/6118/1/N3718.pdf. 
  4. 4.0 4.1 4.2 4.3 4.4 Rose 2006, pp. 235–6
  5. Welker, F.; Collins, M. J.; Thomas, J. A.; Wadsley, M.; Brace, S.; Cappellini, E.; Turvey, S. T.; Reguero, M. et al. (2015-03-18). "Ancient proteins resolve the evolutionary history of Darwin's South American ungulates". Nature 522 (7554): 81–84. doi:10.1038/nature14249. ISSN 0028-0836. PMID 25799987. Bibcode2015Natur.522...81W. http://sedici.unlp.edu.ar/bitstream/handle/10915/127194/Documento_completo.pdf?sequence=1. 
  6. Buckley, M. (2015-04-01). "Ancient collagen reveals evolutionary history of the endemic South American 'ungulates'". Proceedings of the Royal Society B: Biological Sciences 282 (1806): 20142671. doi:10.1098/rspb.2014.2671. PMID 25833851. 
  7. Westbury, M.; Baleka, S.; Barlow, A.; Hartmann, S.; Paijmans, J. L. A.; Kramarz, A.; Forasiepi, A. M.; Bond, M. et al. (2017-06-27). "A mitogenomic timetree for Darwin's enigmatic South American mammal Macrauchenia patachonica". Nature Communications 8: 15951. doi:10.1038/ncomms15951. PMID 28654082. Bibcode2017NatCo...815951W. 
  8. Bond et al. 2011
  9. Bond et al. 2011, Relationships
  10. 10.0 10.1 10.2 10.3 10.4 10.5 10.6 10.7 10.8 10.9 Classification of the order Astrapotheria in the Paleobiology Database. Retrieved March 2013.
  11. "Phylogenetic analysis suggests that Antarctodon is closer to genera classified by previous authors as astrapotheriids (e.g., Albertogaudrya and Tetragonostylops) than it is to Trigonostylops." Bond et al. 2011, p. 2
  12. "Name — Eoastrapostylopidae Soria & Powell 1981". Index to Organism Names. http://www.organismnames.com/details.htm?lsid=418987. 

Bibliography

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  • Ameghino, Florentino (1895). Première contribution à la connaissance de la faune mammalogique des couches à Pyrotherium. Buenos Aires: P.E. Coni. 
  • Ameghino, Florentino (1897). "Mamiferos Cretaceos de la Argentina. Segunda contribucion al conocimiento de la fauna mastologica de las capas con restos de Pyrotherium". Boletin Instituto Geografico Argentino 18: 406–521. 
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Wikidata ☰ Q133684 entry