Megatherium

Megatherium
Temporal range: Early Pliocene[1] to Early Holocene, 5–0.010 Ma

Possible later date of 0.008 Ma

M. americanum skeleton, Natural History Museum, London
Scientific classification
Kingdom: Animalia
Phylum: Chordata
Clade: Synapsida
Class: Mammalia
Order: Pilosa
Family: Megatheriidae
Subtribe: Megatheriina
Genus: Megatherium
Type species
Megatherium americanum
Cuvier, 1796
Species
  • M. altiplanicum Saint-André & de Iuliis, 2001
  • M. celendinense Pujos, 2006
  • M. medinae Philippi, 1893
  • M. istilarti Kraglievich, 1925
  • M. parodii Hoffstetter, 1949
  • M. sundti Philippi, 1893
  • M. gallardoi Ameghino & Kraglievich, 1921
  • M. urbinai Pujos & Salas, 2004
Synonyms
  • Essonodontherium Ameghino, 1884
  • Hebetotherium Ameghino, 1895

Megatherium (/mɛɡəˈθɪəriəm/ meg-ə-THEER-ee-əm from the Greek mega [μέγας], meaning "great", and therion [θηρίον], "beast") was a genus of elephant-sized ground sloths endemic to South America, sometimes called the giant ground sloth, that lived from the Early Pliocene[1] through the end of the Pleistocene.[2] Among land mammals, its size was exceeded by only a few other species, including mammoths and the much older Paraceratherium.

Taxonomy

This specimen of M. americanum in Madrid, the first discovered (in 1788), was the first prehistoric animal skeleton mounted (in 1795).

The first fossil specimen of Megatherium was discovered in 1788 by Manuel Torres, on the bank of the Luján River in Argentina. The fossil was shipped to Museo Nacional de Ciencias Naturales in Madrid the following year, where it remains. It was reassembled by museum employee Juan Bautista Bru, who also drew the skeleton and some individual bones.[3]

Based on Bru's illustrations, comparative anatomist Georges Cuvier determined the relationships and appearance of Megatherium. He published his first paper on the subject in 1796, a transcript of a previous lecture at the French Academy of Sciences. He published on the subject again in 1804; this paper was republished in his book Recherches sur les ossemens fossiles de quadrupèdes.[4] In his 1796 paper, Cuvier assigned the fossil the scientific name Megatherium americanum. Cuvier determined that Megatherium was a sloth, and at first believed that it used its large claws for climbing trees, like modern sloths, although he later changed his hypothesis to support a subterranean lifestyle, with the claws used to dig tunnels.[4]

Fossils of Megatherium and other western megafauna proved popular with the Georgian era public until the discovery of the dinosaurs some decades later.

Since the original discovery, numerous other fossil Megatherium skeletons have been discovered across South America, in Argentina, Bolivia, Brazil, Chile, Colombia (Quipile, Cundinamarca),[5][6] Paraguay, Peru and Uruguay.[2] New species in the genus Megatherium, M. urbinai and M. celendinense, have been described in 2004 and 2006 respectively.[7] M. celedinense is named after Celendin, Cajamarca Province in the Peruvian Andes.[8]

Evolution

M. americanum

Ground sloths belong to superorder Xenarthra, a group of South American origin which also includes extinct pampatheres and glyptodonts, as well as living tree sloths, armadillos and anteaters.

The subgenus and species Megatherium (Pseudomegatherium) tarijense appears to be a junior synonym of M. americanum, and merely a small individual.[9] The ground sloths, as with all other xenarthrans, evolved in isolation in South America, while it was an island continent during the Paleogene.

During the Pliocene, the Central American Isthmus formed, causing the Great American Interchange, and a mass extinction of much of the indigenous South American megafauna. Ground sloths were largely unaffected and continued to thrive in spite of competition from the northern immigrants. Ground sloths were among the various South American animal groups to migrate northwards into North America, where they remained and flourished until the late Pleistocene.[10]

The rhinoceros-sized Promegatherium of the Miocene is suggested as the ancestor of Megatherium. The oldest (and smallest) species of Megatherium is M. altiplanicum of Pliocene Bolivia.[1] It was very similar to Promegatherium, and was also about the size of a rhinoceros. M. tarijense has been regarded as a medium-sized Megatherium species, larger than M. altiplanicum, but smaller than M. americanum. It roamed from the Tarija Basin in Bolivia to Yantac in Peru.[9] Species of Megatherium became larger over time, with the largest species, M. americanum of the Late Pleistocene, reaching the size of an African elephant.

Description

Restoration

Megatherium is one of the largest land mammals known to have existed, weighing up to 4 tonnes[11] and measuring up to 6 m (20 ft) in length from head to tail.[12][13] It is the largest known ground sloth, as big as modern elephants, and would have only been exceeded in its time by a few species of mammoth. The group is known primarily from its largest species, M. americanum. Megatherium species were members of the abundant Pleistocene megafauna, large mammals that lived during the Pleistocene epoch.

Megatherium had a robust skeleton with a large pelvic girdle and a broad muscular tail. Its large size enabled it to feed at heights unreachable by other contemporary herbivores. Rising on its powerful hind legs and using its tail to form a tripod, Megatherium could support its massive body weight while using the curved claws on its long forelegs to pull down branches with the choicest leaves. This sloth, like a modern anteater, walked on the sides of its feet because its claws prevented it from putting them flat on the ground. Although it was primarily a quadruped, its trackways show that it was capable of bipedal locomotion. Biomechanical analysis also suggests it had adaptations to bipedalism.[14]

Some experts believe that its jaw may have housed a long tongue, which it would use to pull leaves into its mouth, similar to the modern tree sloth. Others question this view. Some of the elements in the oral cavity of Megatherium were fused together: a rigidly articulated stylohyal and epihyal, and the apparatus lies farther anteriorly, which together with the elongated, steeply inclined mandibular symphysis, indicates a relatively shorter geniohyoid muscle and thus more limited capacity for tongue protrusion.[15] It was well adapted for strong, predominantly orthal (up-down) movement for eating rough vegetation. Megatherium possessed the narrowest muzzle of all ground sloths from the Pleistocene. This leads paleobiologists to believe that it was a very selective eater. It had the ability to pick and choose which leaves and twigs it would consume. Megatherium had a large narrow prehensile lip that was capable of grabbing and tearing off particular leaves and twigs and other sorts of vegetation.[16]

Habitat

Megatherium inhabited woodland and grassland environments of the lightly wooded areas of South America[17] where it was an endemic species, as recently as 10,000 years ago. Megatherium was adapted to temperate, arid or semiarid open habitats. An example of these most recent finds is at Cueva del Milodon in Patagonian Chile.[18] The closely related genus Eremotherium (that has been classified occasionally as part of Megatherium)[19] lived in more tropical environments further north, and invaded temperate North America as part of the Great American Interchange.

Paleobiology

Restoration of M. americanum by Robert Bruce Horsfall

The giant ground sloth lived mostly in groups, but it may have lived singly in caves. It probably had mainly a browsing diet in open habitats, but also it probably fed on other moderate to soft tough food. For millions of years, the sloth did not have many enemies to bother it, so it was probably a diurnal animal.

The giant ground sloth was a herbivore, feeding on leaves such as yuccas, agaves, and grasses. While it fed chiefly on terrestrial plants, it could also stand on its hind legs, using its tail as a balancing tripod, and reach for upper growth vegetation. It would pull itself upright to sit on its haunches or to stand and then tugged at plants with its feet, digging them up with the five sharp claws on each foot. The sloth used its simple teeth to grind down food before swallowing it, and its highly developed cheek muscles helped in this process. The sloth's stomach was able to digest coarse and fibrous food. It is likely that it spent a lot of time resting to aid digestion.

Skull

A recent morpho-functional analysis [11] indicates that M. americanum was adapted for strong vertical biting. The teeth are hypsodont and bilophodont, and the sagittal section of each loph is triangular with a sharp edge. This suggests that the teeth were used for cutting, rather than grinding, and that hard fibrous food was not the primary dietary component.

While it has been suggested that the giant sloth may have been partly carnivorous, this is a controversial claim. Richard Fariña and Ernesto Blanco of the Universidad de la República in Montevideo have analysed a fossil skeleton of M. americanum and discovered that its olecranon – the part of the elbow to which the triceps muscle attaches – was very short. This adaptation is found in carnivores and optimises speed rather than strength. The researchers say this would have enabled M. americanum to use its claws like daggers. They suggest that to add nutrients to its diet, Megatherium may have taken over the kills of Smilodon. Based on the estimated strength and mechanical advantage of its biceps, it has been proposed that Megatherium could have overturned adult glyptodonts (large, armored xenarthrans, related to armadillos) as a means of scavenging or hunting these animals.[20] However, noting that sloths lack the carnassials typical of predators and that traces of bone are absent from the many preserved deposits of sloth dung, Paul Martin has described this proposal as "fanciful".[A]

Extinction

In the south, the giant ground sloth flourished until about 10,500 radiocarbon years BP (8,500 BCE). Most cite the appearance of an expanding population of human hunters as the cause of its extinction.[21] There are a few late dates of around 8000 BP and one of 7000 BP[22] for Megatherium remains, but the most recent date viewed as credible is about 10,000 BP.[23] The use of bioclimatic envelope modeling indicates that the area of suitable habitat for Megatherium had shrunk and become fragmented by the mid-Holocene. While this alone would not likely have caused its extinction, it has been cited as a possible contributing factor.[24]

See also

Notes

  1. ^

    Martin (2005), p. 35)[10]

References

  1. 1 2 3 Saint-André, P. A.; De Iuliis, G. (2001). "The smallest and most ancient representative of the genus Megatherium Cuvier, 1796 (Xenarthra, Tardigrada, Megatheriidae), from the Pliocene of the Bolivian Altiplano." (PDF). Geodiversitas. 23 (4): 625–645. Archived from the original (PDF) on 2013-10-29. Retrieved 14 April 2016.
  2. 1 2 A. E. Zurita, A. A. Carlini, G. J. Scillato-Yané and E. P. Tonni. 2004. Mamíferos extintos del Cuaternario de la Provincia del Chaco (Argentina) y su relación con aquéllos del este de la región pampeana y de Chile. Revista geológica de Chile 31(1):65-87
  3. Piñero, J. M. L. (Spring 1988). "Juan Bautista Bru (1740–1799) and the description of the genus Megatherium". Journal of the History of Biology. 21 (1): 147–163. doi:10.1007/BF00125797.
  4. 1 2 Argot, Christine (21 May 2008). "Changing Views in Paleontology: The Story of a Giant (Megatherium, Xenarthra)". In Sargis, E. J.; Dagosto, M. Mammalian Evolutionary Morphology: A Tribute to Frederick S. Szalay. Springer. pp. 37–50. ISBN 978-1-4020-6997-0. OCLC 236490247.
  5. Bürgl, Hans (1956). "Restos de Megatherium y otros fósiles de Quipile, Cundinamarca". INGEOMINAS: 1–14. Retrieved 2017-05-03.
  6. De Porta, Jaime (1961). "La posición estratigráfica de la fauna de Mamíferos del pleistoceno de la Sabana de Bogotá". Boletín de Geología, Universidad Industrial de Santander. 7: 37–54. Retrieved 2017-05-03.
  7. Pujos, François; Salas, Rodolfo (2004). "A new species of Megatherium (Mammalia: Xenarthra: Megatheriidae) from the Pleistocene of Sacaco and Tres Ventanas, Peru". Palaeontology. 47 (3): 579–604. Retrieved 2017-05-03. (Subscription required (help)).
  8. Pujos, François (2006). "Megatherium celendinense sp. nov. from the Pleistocene of the Peruvian Andes and the phylogenetic relationships of Megatheriines". Palaeontology. 49 (2): 285–306. Retrieved 2017-05-03.
  9. 1 2 De Iuliis, G.; Pujos, F.; Tito, G. (2009). "Systematic and taxonomic revision of the Pleistocene ground sloth Megatherium (Pseudomegatherium) tarijense (Xenarthra: Megatheriidae)". Journal of Vertebrate Paleontology. 29 (4): 1244–1251. JSTOR 20627134. doi:10.1671/039.029.0426.
  10. 1 2 Martin, P. S. (2005). Twilight of the Mammoths: Ice Age Extinctions and the Rewilding of America (Illustrated ed.). University of California Press. ISBN 0520231414. OCLC 58055404. Retrieved 11 September 2014.
  11. 1 2 Bargo, M. S. (2001). "The ground sloth Megatherium americanum: Skull shape, bite forces, and diet" (PDF). Acta Palaeontologica Polonica. 46 (2): 173–192. Retrieved 22 July 2012.
  12. "Megatherium Wildfacts". BBC. Archived from the original on February 1, 2014. Retrieved 22 July 2012.
  13. Haines, T.; Chambers, P. (2007). The Complete Guide to Prehistoric Life. Italy: Firefly Books Ltd. pp. 192–193. ISBN 1-55407-181-X.
  14. Casinos, A. (1996). "Bipedalism and quadrupedalism in Megatherium: An attempt at biomechanical reconstruction". Lethaia. 29: 87–96. doi:10.1111/j.1502-3931.1996.tb01842.x.
  15. Perez, L.M., Toledo, N., De Lullis, G., Bargo, M.S., Vizcaino, S.F. (2010). Morphology and Function of the Hyoid Apparatus of Xenarthran Fossils (Mammalia). Journal of Morphology. Vol: 271. Issue: 9, 1119-1133. http://apps.webofknowledge.com/full_record.do?product=WOS&search_mode=GeneralSearch&qid=1&SID=4B21tTNJskyr7ZfZd8T&page=2&doc=15
  16. Bargo, M. Susana; Toledo, N.; Vizcaino, S. F. (2006). "Muzzle of South American Pleistocene Ground Sloths (Xenarthra, Tardigrada)". Journal of Morphology. 267: 248–263 (see p. 260). doi:10.1002/jmor.10399. Retrieved October 24, 2013.
  17. McKenna, M. C.; Bell S. K. (1997). Classification of Mammals Above the Species Level'. New York: Columbia University Press. p. 631. ISBN 023111012X.
  18. C. Michael Hogan (2008) Cueva del Milodon, Megalithic Portal
  19. Cisneros, J. C. (2005). "New Pleistocene vertebrate fauna from El Salvador" (PDF). Revista Brasileira de Paleontologia. 8 (3): 239–255. doi:10.4072/rbp.2005.3.09. Retrieved 2014-05-27.
  20. Fariña, R. A.; R. E. Blanco (1996). "Megatherium, the stabber". Proceedings of the Royal Society of London. 263 (1377): 1725–1729. PMID 9025315. doi:10.1098/rspb.1996.0252.
  21. Steadman, D. W.; Martin, P. S.; MacPhee, R. D. E.; Jull, A. J. T.; McDonald, H. G.; Woods, C. A.; Iturralde-Vinent, M.; Hodgins, G. W. L. (2005-08-16). "Asynchronous extinction of late Quaternary sloths on continents and islands". Proc. Natl. Acad. Sci. USA. National Academy of Sciences. 102 (33): 11763–11768. PMC 1187974Freely accessible. PMID 16085711. doi:10.1073/pnas.0502777102. Retrieved 2009-01-24.
  22. Turvey, Sam (2009). Holocene extinctions. Oxford University Press. p. 24. ISBN 0-19-953509-4.
  23. Fiedal, Stuart (2009). "Sudden Deaths: The Chronology of Terminal Pleistocene Megafaunal Extinction". In Haynes, Gary. American Megafaunal Extinctions at the End of the Pleistocene. Springer. pp. 21–37. ISBN 978-1-4020-8792-9. doi:10.1007/978-1-4020-8793-6_2.
  24. Lima-Ribeiro, Matheus Souza; et al. (December 2012). "Potential Suitable Areas of Giant Ground Sloths Dropped Before its Extinction in South America: the Evidences from Bioclimatic Envelope Modeling.". Natureza & Conservação. 10: 145–151. doi:10.4322/natcon.2012.022.
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